本文整理匯總了Golang中github.com/cockroachdb/cockroach/pkg/config.SystemConfig.ComputeSplitKeys方法的典型用法代碼示例。如果您正苦於以下問題:Golang SystemConfig.ComputeSplitKeys方法的具體用法?Golang SystemConfig.ComputeSplitKeys怎麽用?Golang SystemConfig.ComputeSplitKeys使用的例子?那麽, 這裏精選的方法代碼示例或許可以為您提供幫助。您也可以進一步了解該方法所在類github.com/cockroachdb/cockroach/pkg/config.SystemConfig的用法示例。
在下文中一共展示了SystemConfig.ComputeSplitKeys方法的4個代碼示例,這些例子默認根據受歡迎程度排序。您可以為喜歡或者感覺有用的代碼點讚,您的評價將有助於係統推薦出更棒的Golang代碼示例。
示例1: process
// process synchronously invokes admin split for each proposed split key.
func (sq *splitQueue) process(
ctx context.Context, now hlc.Timestamp, r *Replica, sysCfg config.SystemConfig,
) error {
// First handle case of splitting due to zone config maps.
desc := r.Desc()
splitKeys := sysCfg.ComputeSplitKeys(desc.StartKey, desc.EndKey)
if len(splitKeys) > 0 {
log.Infof(ctx, "splitting at keys %v", splitKeys)
for _, splitKey := range splitKeys {
if err := sq.db.AdminSplit(ctx, splitKey.AsRawKey()); err != nil {
return errors.Errorf("unable to split %s at key %q: %s", r, splitKey, err)
}
}
return nil
}
// Next handle case of splitting due to size.
zone, err := sysCfg.GetZoneConfigForKey(desc.StartKey)
if err != nil {
return err
}
size := r.GetMVCCStats().Total()
// FIXME: why is this implementation not the same as the one above?
if float64(size)/float64(zone.RangeMaxBytes) > 1 {
log.Infof(ctx, "splitting size=%d max=%d", size, zone.RangeMaxBytes)
if _, pErr := client.SendWrappedWith(ctx, r, roachpb.Header{
Timestamp: now,
}, &roachpb.AdminSplitRequest{
Span: roachpb.Span{Key: desc.StartKey.AsRawKey()},
}); pErr != nil {
return pErr.GoError()
}
}
return nil
}示例2: process
// process synchronously invokes admin split for each proposed split key.
func (sq *splitQueue) process(
ctx context.Context, now hlc.Timestamp, r *Replica, sysCfg config.SystemConfig,
) error {
// First handle case of splitting due to zone config maps.
desc := r.Desc()
splitKeys := sysCfg.ComputeSplitKeys(desc.StartKey, desc.EndKey)
if len(splitKeys) > 0 {
log.Infof(ctx, "splitting at keys %v", splitKeys)
for _, splitKey := range splitKeys {
if _, pErr := r.adminSplitWithDescriptor(
ctx,
roachpb.AdminSplitRequest{
SplitKey: splitKey.AsRawKey(),
},
desc,
); pErr != nil {
return errors.Wrapf(pErr.GoError(), "unable to split %s at key %q", r, splitKey)
}
}
return nil
}
// Next handle case of splitting due to size.
zone, err := sysCfg.GetZoneConfigForKey(desc.StartKey)
if err != nil {
return err
}
size := r.GetMVCCStats().Total()
if float64(size)/float64(zone.RangeMaxBytes) > 1 {
log.Infof(ctx, "splitting size=%d max=%d", size, zone.RangeMaxBytes)
if _, pErr := r.adminSplitWithDescriptor(
ctx,
roachpb.AdminSplitRequest{},
desc,
); pErr != nil {
return pErr.GoError()
}
}
return nil
}示例3: shouldQueue
// shouldQueue determines whether a range should be queued for
// splitting. This is true if the range is intersected by a zone config
// prefix or if the range's size in bytes exceeds the limit for the zone.
func (sq *splitQueue) shouldQueue(
ctx context.Context, now hlc.Timestamp, repl *Replica, sysCfg config.SystemConfig,
) (shouldQ bool, priority float64) {
desc := repl.Desc()
if len(sysCfg.ComputeSplitKeys(desc.StartKey, desc.EndKey)) > 0 {
// Set priority to 1 in the event the range is split by zone configs.
priority = 1
shouldQ = true
}
// Add priority based on the size of range compared to the max
// size for the zone it's in.
zone, err := sysCfg.GetZoneConfigForKey(desc.StartKey)
if err != nil {
log.Error(ctx, err)
return
}
if ratio := float64(repl.GetMVCCStats().Total()) / float64(zone.RangeMaxBytes); ratio > 1 {
priority += ratio
shouldQ = true
}
return
}示例4: TestComputeSplits
func TestComputeSplits(t *testing.T) {
defer leaktest.AfterTest(t)()
const (
start = keys.MaxReservedDescID + 1
reservedStart = keys.MaxSystemConfigDescID + 1
)
schema := sqlbase.MakeMetadataSchema()
// Real system tables only.
baseSql := schema.GetInitialValues()
// Real system tables plus some user stuff.
allSql := append(schema.GetInitialValues(),
descriptor(start), descriptor(start+1), descriptor(start+5))
sort.Sort(roachpb.KeyValueByKey(allSql))
allUserSplits := []uint32{start, start + 1, start + 2, start + 3, start + 4, start + 5}
var allReservedSplits []uint32
for i := 0; i < schema.SystemDescriptorCount()-schema.SystemConfigDescriptorCount(); i++ {
allReservedSplits = append(allReservedSplits, reservedStart+uint32(i))
}
allSplits := append(allReservedSplits, allUserSplits...)
testCases := []struct {
values []roachpb.KeyValue
start, end roachpb.RKey
// Use ints in the testcase definitions, more readable.
splits []uint32
}{
// No data.
{nil, roachpb.RKeyMin, roachpb.RKeyMax, nil},
{nil, keys.MakeTablePrefix(start), roachpb.RKeyMax, nil},
{nil, keys.MakeTablePrefix(start), keys.MakeTablePrefix(start + 10), nil},
{nil, roachpb.RKeyMin, keys.MakeTablePrefix(start + 10), nil},
// Reserved descriptors.
{baseSql, roachpb.RKeyMin, roachpb.RKeyMax, allReservedSplits},
{baseSql, keys.MakeTablePrefix(start), roachpb.RKeyMax, nil},
{baseSql, keys.MakeTablePrefix(start), keys.MakeTablePrefix(start + 10), nil},
{baseSql, roachpb.RKeyMin, keys.MakeTablePrefix(start + 10), allReservedSplits},
{baseSql, keys.MakeTablePrefix(reservedStart), roachpb.RKeyMax, allReservedSplits[1:]},
{baseSql, keys.MakeTablePrefix(reservedStart), keys.MakeTablePrefix(start + 10), allReservedSplits[1:]},
{baseSql, roachpb.RKeyMin, keys.MakeTablePrefix(reservedStart + 2), allReservedSplits[:2]},
{baseSql, roachpb.RKeyMin, keys.MakeTablePrefix(reservedStart + 10), allReservedSplits},
{baseSql, keys.MakeTablePrefix(reservedStart), keys.MakeTablePrefix(reservedStart + 2), allReservedSplits[1:2]},
{baseSql, testutils.MakeKey(keys.MakeTablePrefix(reservedStart), roachpb.RKey("foo")),
testutils.MakeKey(keys.MakeTablePrefix(start+10), roachpb.RKey("foo")), allReservedSplits[1:]},
// Reserved + User descriptors.
{allSql, keys.MakeTablePrefix(start - 1), roachpb.RKeyMax, allUserSplits},
{allSql, keys.MakeTablePrefix(start), roachpb.RKeyMax, allUserSplits[1:]},
{allSql, keys.MakeTablePrefix(start), keys.MakeTablePrefix(start + 10), allUserSplits[1:]},
{allSql, keys.MakeTablePrefix(start - 1), keys.MakeTablePrefix(start + 10), allUserSplits},
{allSql, keys.MakeTablePrefix(start + 4), keys.MakeTablePrefix(start + 10), allUserSplits[5:]},
{allSql, keys.MakeTablePrefix(start + 5), keys.MakeTablePrefix(start + 10), nil},
{allSql, keys.MakeTablePrefix(start + 6), keys.MakeTablePrefix(start + 10), nil},
{allSql, testutils.MakeKey(keys.MakeTablePrefix(start), roachpb.RKey("foo")),
keys.MakeTablePrefix(start + 10), allUserSplits[1:]},
{allSql, testutils.MakeKey(keys.MakeTablePrefix(start), roachpb.RKey("foo")),
keys.MakeTablePrefix(start + 5), allUserSplits[1:5]},
{allSql, testutils.MakeKey(keys.MakeTablePrefix(start), roachpb.RKey("foo")),
testutils.MakeKey(keys.MakeTablePrefix(start+5), roachpb.RKey("bar")), allUserSplits[1:5]},
{allSql, testutils.MakeKey(keys.MakeTablePrefix(start), roachpb.RKey("foo")),
testutils.MakeKey(keys.MakeTablePrefix(start), roachpb.RKey("morefoo")), nil},
{allSql, roachpb.RKeyMin, roachpb.RKeyMax, allSplits},
{allSql, keys.MakeTablePrefix(reservedStart + 1), roachpb.RKeyMax, allSplits[2:]},
{allSql, keys.MakeTablePrefix(reservedStart), keys.MakeTablePrefix(start + 10), allSplits[1:]},
{allSql, roachpb.RKeyMin, keys.MakeTablePrefix(start + 2), allSplits[:6]},
{allSql, testutils.MakeKey(keys.MakeTablePrefix(reservedStart), roachpb.RKey("foo")),
testutils.MakeKey(keys.MakeTablePrefix(start+5), roachpb.RKey("foo")), allSplits[1:9]},
}
cfg := config.SystemConfig{}
for tcNum, tc := range testCases {
cfg.Values = tc.values
splits := cfg.ComputeSplitKeys(tc.start, tc.end)
if len(splits) == 0 && len(tc.splits) == 0 {
continue
}
// Convert ints to actual keys.
expected := []roachpb.RKey{}
for _, s := range tc.splits {
expected = append(expected, keys.MakeRowSentinelKey(keys.MakeTablePrefix(s)))
}
if !reflect.DeepEqual(splits, expected) {
t.Errorf("#%d: bad splits:\ngot: %v\nexpected: %v", tcNum, splits, expected)
}
}
}