Log Spacemap Project

= Motivation

At Delphix we've seen a lot of customer systems where fragmentation
is over 75% and random writes take a performance hit because a lot
of time is spend on I/Os that update on-disk space accounting metadata.
Specifically, we seen cases where 20% to 40% of sync time is spend
after sync pass 1 and ~30% of the I/Os on the system is spent updating
spacemaps.

The problem is that these pools have existed long enough that we've
touched almost every metaslab at least once, and random writes
scatter frees across all metaslabs every TXG, thus appending to
their spacemaps and resulting in many I/Os. To give an example,
assuming that every VDEV has 200 metaslabs and our writes fit within
a single spacemap block (generally 4K) we have 200 I/Os. Then if we
assume 2 levels of indirection, we need 400 additional I/Os and
since we are talking about metadata for which we keep 2 extra copies
for redundancy we need to triple that number, leading to a total of
1800 I/Os per VDEV every TXG.

We could try and decrease the number of metaslabs so we have less
I/Os per TXG but then each metaslab would cover a wider range on
disk and thus would take more time to be loaded in memory from disk.
In addition, after it's loaded, it's range tree would consume more
memory.

Another idea would be to just increase the spacemap block size
which would allow us to fit more entries within an I/O block
resulting in fewer I/Os per metaslab and a speedup in loading time.
The problem is still that we don't deal with the number of I/Os
going up as the number of metaslabs is increasing and the fact
is that we generally write a lot to a few metaslabs and a little
to the rest of them. Thus, just increasing the block size would
actually waste bandwidth because we won't be utilizing our bigger
block size.

= About this patch

This patch introduces the Log Spacemap project which provides the
solution to the above problem while taking into account all the
aforementioned tradeoffs. The details on how it achieves that can
be found in the references sections below and in the code (see
Big Theory Statement in spa_log_spacemap.c).

Even though the change is fairly constraint within the metaslab
and lower-level SPA codepaths, there is a side-change that is
user-facing. The change is that VDEV IDs from VDEV holes will no
longer be reused. To give some background and reasoning for this,
when a log device is removed and its VDEV structure was replaced
with a hole (or was compacted; if at the end of the vdev array),
its vdev_id could be reused by devices added after that. Now
with the pool-wide space maps recording the vdev ID, this behavior
can cause problems (e.g. is this entry referring to a segment in
the new vdev or the removed log?). Thus, to simplify things the
ID reuse behavior is gone and now vdev IDs for top-level vdevs
are truly unique within a pool.

= Testing

The illumos implementation of this feature has been used internally
for a year and has been in production for ~6 months. For this patch
specifically there don't seem to be any regressions introduced to
ZTS and I have been running zloop for a week without any related
problems.

= Performance Analysis (Linux Specific)

All performance results and analysis for illumos can be found in
the links of the references. Redoing the same experiments in Linux
gave similar results. Below are the specifics of the Linux run.

After the pool reached stable state the percentage of the time
spent in pass 1 per TXG was 64% on average for the stock bits
while the log spacemap bits stayed at 95% during the experiment
(graph: sdimitro.github.io/img/linux-lsm/PercOfSyncInPassOne.png).

Sync times per TXG were 37.6 seconds on average for the stock
bits and 22.7 seconds for the log spacemap bits (related graph:
sdimitro.github.io/img/linux-lsm/SyncTimePerTXG.png). As a result
the log spacemap bits were able to push more TXGs, which is also
the reason why all graphs quantified per TXG have more entries for
the log spacemap bits.

Another interesting aspect in terms of txg syncs is that the stock
bits had 22% of their TXGs reach sync pass 7, 55% reach sync pass 8,
and 20% reach 9. The log space map bits reached sync pass 4 in 79%
of their TXGs, sync pass 7 in 19%, and sync pass 8 at 1%. This
emphasizes the fact that not only we spend less time on metadata
but we also iterate less times to convergence in spa_sync() dirtying
objects.
[related graphs:
stock- sdimitro.github.io/img/linux-lsm/NumberOfPassesPerTXGStock.png
lsm- sdimitro.github.io/img/linux-lsm/NumberOfPassesPerTXGLSM.png]

Finally, the improvement in IOPs that the userland gains from the
change is approximately 40%. There is a consistent win in IOPS as
you can see from the graphs below but the absolute amount of
improvement that the log spacemap gives varies within each minute
interval.
sdimitro.github.io/img/linux-lsm/StockVsLog3Days.png
sdimitro.github.io/img/linux-lsm/StockVsLog10Hours.png

= Porting to Other Platforms

For people that want to port this commit to other platforms below
is a list of ZoL commits that this patch depends on:

Make zdb results for checkpoint tests consistent
db587941c5ff6dea01932bb78f70db63cf7f38ba

Update vdev_is_spacemap_addressable() for new spacemap encoding
419ba5914552c6185afbe1dd17b3ed4b0d526547

Simplify spa_sync by breaking it up to smaller functions
8dc2197b7b1e4d7ebc1420ea30e51c6541f1d834

Factor metaslab_load_wait() in metaslab_load()
b194fab0fb6caad18711abccaff3c69ad8b3f6d3

Rename range_tree_verify to range_tree_verify_not_present
df72b8bebe0ebac0b20e0750984bad182cb6564a

Change target size of metaslabs from 256GB to 16GB
c853f382db731e15a87512f4ef1101d14d778a55

zdb -L should skip leak detection altogether
21e7cf5da89f55ce98ec1115726b150e19eefe89

vs_alloc can underflow in L2ARC vdevs
7558997d2f808368867ca7e5234e5793446e8f3f

Simplify log vdev removal code
6c926f426a26ffb6d7d8e563e33fc176164175cb

Get rid of space_map_update() for ms_synced_length
425d3237ee88abc53d8522a7139c926d278b4b7f

Introduce auxiliary metaslab histograms
928e8ad47d3478a3d5d01f0dd6ae74a9371af65e

Error path in metaslab_load_impl() forgets to drop ms_sync_lock
8eef997679ba54547f7d361553d21b3291f41ae7

= References

Background, Motivation, and Internals of the Feature
- OpenZFS 2017 Presentation:
youtu.be/jj2IxRkl5bQ
- Slides:
slideshare.net/SerapheimNikolaosDim/zfs-log-spacemaps-project

Flushing Algorithm Internals & Performance Results
(Illumos Specific)
- Blogpost:
sdimitro.github.io/post/zfs-lsm-flushing/
- OpenZFS 2018 Presentation:
youtu.be/x6D2dHRjkxw
- Slides:
slideshare.net/SerapheimNikolaosDim/zfs-log-spacemap-flushing-algorithm

Upstream Delphix Issues:
DLPX-51539, DLPX-59659, DLPX-57783, DLPX-61438, DLPX-41227, DLPX-59320
DLPX-63385

Reviewed-by: Sean Eric Fagan <sef@ixsystems.com>
Reviewed-by: Matt Ahrens <matt@delphix.com>
Reviewed-by: George Wilson <gwilson@delphix.com>
Reviewed-by: Brian Behlendorf <behlendorf1@llnl.gov>
Signed-off-by: Serapheim Dimitropoulos <serapheim@delphix.com>
Closes #8442 

1 files changed, 36 insertions, 4 deletions

diff --git a/module/zfs/vdev.c b/module/zfs/vdev.c
index 81ef87e254a8..5644b9c5b2db 100644
--- a/module/zfs/vdev.c
+++ b/module/zfs/vdev.c
@@ -76,7 +76,7 @@ int vdev_validate_skip = B_FALSE;
  * Since the DTL space map of a vdev is not expected to have a lot of
  * entries, we default its block size to 4K.
  */
-int vdev_dtl_sm_blksz = (1 << 12);
+int zfs_vdev_dtl_sm_blksz = (1 << 12);
 
 /*
  * Rate limit slow IO (delay) events to this many per second.
@@ -99,7 +99,7 @@ int zfs_scan_ignore_errors = 0;
  * the end of each transaction can benefit from a higher I/O bandwidth
  * (e.g. vdev_obsolete_sm), thus we default their block size to 128K.
  */
-int vdev_standard_sm_blksz = (1 << 17);
+int zfs_vdev_standard_sm_blksz = (1 << 17);
 
 /*
  * Tunable parameter for debugging or performance analysis. Setting this
@@ -924,6 +924,7 @@ vdev_free(vdev_t *vd)
 	if (vd->vdev_mg != NULL) {
 		vdev_metaslab_fini(vd);
 		metaslab_group_destroy(vd->vdev_mg);
+		vd->vdev_mg = NULL;
 	}
 
 	ASSERT0(vd->vdev_stat.vs_space);
@@ -1353,6 +1354,13 @@ vdev_metaslab_init(vdev_t *vd, uint64_t txg)
 	if (txg == 0)
 		spa_config_exit(spa, SCL_ALLOC, FTAG);
 
+	/*
+	 * Regardless whether this vdev was just added or it is being
+	 * expanded, the metaslab count has changed. Recalculate the
+	 * block limit.
+	 */
+	spa_log_sm_set_blocklimit(spa);
+
 	return (0);
 }
 
@@ -2867,7 +2875,7 @@ vdev_dtl_sync(vdev_t *vd, uint64_t txg)
 	if (vd->vdev_dtl_sm == NULL) {
 		uint64_t new_object;
 
-		new_object = space_map_alloc(mos, vdev_dtl_sm_blksz, tx);
+		new_object = space_map_alloc(mos, zfs_vdev_dtl_sm_blksz, tx);
 		VERIFY3U(new_object, !=, 0);
 
 		VERIFY0(space_map_open(&vd->vdev_dtl_sm, mos, new_object,
@@ -2881,7 +2889,7 @@ vdev_dtl_sync(vdev_t *vd, uint64_t txg)
 	range_tree_walk(rt, range_tree_add, rtsync);
 	mutex_exit(&vd->vdev_dtl_lock);
 
-	space_map_truncate(vd->vdev_dtl_sm, vdev_dtl_sm_blksz, tx);
+	space_map_truncate(vd->vdev_dtl_sm, zfs_vdev_dtl_sm_blksz, tx);
 	space_map_write(vd->vdev_dtl_sm, rtsync, SM_ALLOC, SM_NO_VDEVID, tx);
 	range_tree_vacate(rtsync, NULL, NULL);
 
@@ -3172,6 +3180,25 @@ vdev_validate_aux(vdev_t *vd)
 	return (0);
 }
 
+static void
+vdev_destroy_ms_flush_data(vdev_t *vd, dmu_tx_t *tx)
+{
+	objset_t *mos = spa_meta_objset(vd->vdev_spa);
+
+	if (vd->vdev_top_zap == 0)
+		return;
+
+	uint64_t object = 0;
+	int err = zap_lookup(mos, vd->vdev_top_zap,
+	    VDEV_TOP_ZAP_MS_UNFLUSHED_PHYS_TXGS, sizeof (uint64_t), 1, &object);
+	if (err == ENOENT)
+		return;
+
+	VERIFY0(dmu_object_free(mos, object, tx));
+	VERIFY0(zap_remove(mos, vd->vdev_top_zap,
+	    VDEV_TOP_ZAP_MS_UNFLUSHED_PHYS_TXGS, tx));
+}
+
 /*
  * Free the objects used to store this vdev's spacemaps, and the array
  * that points to them.
@@ -3199,6 +3226,7 @@ vdev_destroy_spacemaps(vdev_t *vd, dmu_tx_t *tx)
 
 	kmem_free(smobj_array, array_bytes);
 	VERIFY0(dmu_object_free(mos, vd->vdev_ms_array, tx));
+	vdev_destroy_ms_flush_data(vd, tx);
 	vd->vdev_ms_array = 0;
 }
 
@@ -4762,6 +4790,10 @@ module_param(zfs_vdev_default_ms_count, int, 0644);
 MODULE_PARM_DESC(zfs_vdev_default_ms_count,
 	"Target number of metaslabs per top-level vdev");
 
+module_param(zfs_vdev_default_ms_shift, int, 0644);
+MODULE_PARM_DESC(zfs_vdev_default_ms_shift,
+	"Default limit for metaslab size");
+
 module_param(zfs_vdev_min_ms_count, int, 0644);
 MODULE_PARM_DESC(zfs_vdev_min_ms_count,
 	"Minimum number of metaslabs per top-level vdev");