/*
* master_create_empty_shard creates an empty shard for the given distributed
* table. For this, the function first gets a list of candidate nodes, connects
* to these nodes, and issues DDL commands on the nodes to create empty shard
* placements. The function then updates metadata on the master node to make
* this shard (and its placements) visible.
*/
Datum
master_create_empty_shard(PG_FUNCTION_ARGS)
{
text *relationNameText = PG_GETARG_TEXT_P(0);
char *relationName = text_to_cstring(relationNameText);
List *workerNodeList = WorkerNodeList();
Datum shardIdDatum = 0;
int64 shardId = INVALID_SHARD_ID;
List *ddlEventList = NULL;
uint32 attemptableNodeCount = 0;
uint32 liveNodeCount = 0;
uint32 candidateNodeIndex = 0;
List *candidateNodeList = NIL;
text *nullMinValue = NULL;
text *nullMaxValue = NULL;
char partitionMethod = 0;
char storageType = SHARD_STORAGE_TABLE;
Oid relationId = ResolveRelationId(relationNameText);
char relationKind = get_rel_relkind(relationId);
char *relationOwner = TableOwner(relationId);
EnsureTablePermissions(relationId, ACL_INSERT);
CheckDistributedTable(relationId);
/*
* We check whether the table is a foreign table or not. If it is, we set
* storage type as foreign also. Only exception is if foreign table is a
* foreign cstore table, in this case we set storage type as columnar.
*
* i.e. While setting storage type, columnar has priority over foreign.
*/
if (relationKind == RELKIND_FOREIGN_TABLE)
{
bool cstoreTable = cstoreTable = CStoreTable(relationId);
if (cstoreTable)
{
storageType = SHARD_STORAGE_COLUMNAR;
}
else
{
storageType = SHARD_STORAGE_FOREIGN;
}
}
partitionMethod = PartitionMethod(relationId);
if (partitionMethod == DISTRIBUTE_BY_HASH)
{
ereport(ERROR, (errmsg("relation \"%s\" is a hash partitioned table",
relationName),
errdetail("We currently don't support creating shards "
"on hash-partitioned tables")));
}
/* generate new and unique shardId from sequence */
shardIdDatum = master_get_new_shardid(NULL);
shardId = DatumGetInt64(shardIdDatum);
/* get table DDL commands to replay on the worker node */
ddlEventList = GetTableDDLEvents(relationId);
/* if enough live nodes, add an extra candidate node as backup */
attemptableNodeCount = ShardReplicationFactor;
liveNodeCount = WorkerGetLiveNodeCount();
if (liveNodeCount > ShardReplicationFactor)
{
attemptableNodeCount = ShardReplicationFactor + 1;
}
/* first retrieve a list of random nodes for shard placements */
while (candidateNodeIndex < attemptableNodeCount)
{
WorkerNode *candidateNode = NULL;
if (ShardPlacementPolicy == SHARD_PLACEMENT_LOCAL_NODE_FIRST)
{
candidateNode = WorkerGetLocalFirstCandidateNode(candidateNodeList);
}
else if (ShardPlacementPolicy == SHARD_PLACEMENT_ROUND_ROBIN)
{
candidateNode = WorkerGetRoundRobinCandidateNode(workerNodeList, shardId,
candidateNodeIndex);
}
else if (ShardPlacementPolicy == SHARD_PLACEMENT_RANDOM)
{
candidateNode = WorkerGetRandomCandidateNode(candidateNodeList);
}
else
{
ereport(ERROR, (errmsg("unrecognized shard placement policy")));
}
if (candidateNode == NULL)
{
ereport(ERROR, (errmsg("could only find %u of %u possible nodes",
candidateNodeIndex, attemptableNodeCount)));
}
candidateNodeList = lappend(candidateNodeList, candidateNode);
candidateNodeIndex++;
}
CreateShardPlacements(relationId, shardId, ddlEventList, relationOwner,
candidateNodeList, 0, ShardReplicationFactor);
InsertShardRow(relationId, shardId, storageType, nullMinValue, nullMaxValue);
PG_RETURN_INT64(shardId);
}
/*
* master_create_empty_shard creates an empty shard for the given distributed
* table. For this, the function first gets a list of candidate nodes, connects
* to these nodes, and issues DDL commands on the nodes to create empty shard
* placements. The function then updates metadata on the master node to make
* this shard (and its placements) visible.
*/
Datum
master_create_empty_shard(PG_FUNCTION_ARGS)
{
text *relationNameText = PG_GETARG_TEXT_P(0);
char *relationName = text_to_cstring(relationNameText);
Datum shardIdDatum = 0;
int64 shardId = INVALID_SHARD_ID;
List *ddlEventList = NULL;
uint32 attemptableNodeCount = 0;
uint32 liveNodeCount = 0;
uint32 candidateNodeCount = 0;
List *candidateNodeList = NIL;
text *nullMinValue = NULL;
text *nullMaxValue = NULL;
char partitionMethod = 0;
char storageType = SHARD_STORAGE_TABLE;
Oid relationId = ResolveRelationId(relationNameText);
char *relationOwner = TableOwner(relationId);
EnsureTablePermissions(relationId, ACL_INSERT);
CheckDistributedTable(relationId);
if (CStoreTable(relationId))
{
storageType = SHARD_STORAGE_COLUMNAR;
}
partitionMethod = PartitionMethod(relationId);
if (partitionMethod == DISTRIBUTE_BY_HASH)
{
ereport(ERROR, (errmsg("relation \"%s\" is a hash partitioned table",
relationName),
errdetail("We currently don't support creating shards "
"on hash-partitioned tables")));
}
/* generate new and unique shardId from sequence */
shardIdDatum = master_get_new_shardid(NULL);
shardId = DatumGetInt64(shardIdDatum);
/* get table DDL commands to replay on the worker node */
ddlEventList = GetTableDDLEvents(relationId);
/* if enough live nodes, add an extra candidate node as backup */
attemptableNodeCount = ShardReplicationFactor;
liveNodeCount = WorkerGetLiveNodeCount();
if (liveNodeCount > ShardReplicationFactor)
{
attemptableNodeCount = ShardReplicationFactor + 1;
}
/* first retrieve a list of random nodes for shard placements */
while (candidateNodeCount < attemptableNodeCount)
{
WorkerNode *candidateNode = WorkerGetCandidateNode(candidateNodeList);
if (candidateNode == NULL)
{
ereport(ERROR, (errmsg("could only find %u of %u possible nodes",
candidateNodeCount, attemptableNodeCount)));
}
candidateNodeList = lappend(candidateNodeList, candidateNode);
candidateNodeCount++;
}
CreateShardPlacements(shardId, ddlEventList, relationOwner,
candidateNodeList, 0, ShardReplicationFactor);
InsertShardRow(relationId, shardId, storageType, nullMinValue, nullMaxValue);
PG_RETURN_INT64(shardId);
}
/*
* master_create_worker_shards creates empty shards for the given table based
* on the specified number of initial shards. The function first gets a list of
* candidate nodes and issues DDL commands on the nodes to create empty shard
* placements on those nodes. The function then updates metadata on the master
* node to make this shard (and its placements) visible. Note that the function
* assumes the table is hash partitioned and calculates the min/max hash token
* ranges for each shard, giving them an equal split of the hash space.
*/
Datum
master_create_worker_shards(PG_FUNCTION_ARGS)
{
text *tableNameText = PG_GETARG_TEXT_P(0);
int32 shardCount = PG_GETARG_INT32(1);
int32 replicationFactor = PG_GETARG_INT32(2);
Oid distributedTableId = ResolveRelationId(tableNameText);
char relationKind = get_rel_relkind(distributedTableId);
char *tableName = text_to_cstring(tableNameText);
char *relationOwner = NULL;
char shardStorageType = '\0';
List *workerNodeList = NIL;
List *ddlCommandList = NIL;
int32 workerNodeCount = 0;
uint32 placementAttemptCount = 0;
uint64 hashTokenIncrement = 0;
List *existingShardList = NIL;
int64 shardIndex = 0;
/* make sure table is hash partitioned */
CheckHashPartitionedTable(distributedTableId);
/*
* In contrast to append/range partitioned tables it makes more sense to
* require ownership privileges - shards for hash-partitioned tables are
* only created once, not continually during ingest as for the other
* partitioning types.
*/
EnsureTableOwner(distributedTableId);
/* we plan to add shards: get an exclusive metadata lock */
LockRelationDistributionMetadata(distributedTableId, ExclusiveLock);
relationOwner = TableOwner(distributedTableId);
/* validate that shards haven't already been created for this table */
existingShardList = LoadShardList(distributedTableId);
if (existingShardList != NIL)
{
ereport(ERROR, (errcode(ERRCODE_OBJECT_NOT_IN_PREREQUISITE_STATE),
errmsg("table \"%s\" has already had shards created for it",
tableName)));
}
/* make sure that at least one shard is specified */
if (shardCount <= 0)
{
ereport(ERROR, (errcode(ERRCODE_INVALID_PARAMETER_VALUE),
errmsg("shard_count must be positive")));
}
/* make sure that at least one replica is specified */
if (replicationFactor <= 0)
{
ereport(ERROR, (errcode(ERRCODE_INVALID_PARAMETER_VALUE),
errmsg("replication_factor must be positive")));
}
/* calculate the split of the hash space */
hashTokenIncrement = HASH_TOKEN_COUNT / shardCount;
/* load and sort the worker node list for deterministic placement */
workerNodeList = WorkerNodeList();
workerNodeList = SortList(workerNodeList, CompareWorkerNodes);
/* make sure we don't process cancel signals until all shards are created */
HOLD_INTERRUPTS();
/* retrieve the DDL commands for the table */
ddlCommandList = GetTableDDLEvents(distributedTableId);
workerNodeCount = list_length(workerNodeList);
if (replicationFactor > workerNodeCount)
{
ereport(ERROR, (errcode(ERRCODE_INVALID_PARAMETER_VALUE),
errmsg("replication_factor (%d) exceeds number of worker nodes "
"(%d)", replicationFactor, workerNodeCount),
errhint("Add more worker nodes or try again with a lower "
"replication factor.")));
}
/* if we have enough nodes, add an extra placement attempt for backup */
placementAttemptCount = (uint32) replicationFactor;
if (workerNodeCount > replicationFactor)
{
placementAttemptCount++;
}
/* set shard storage type according to relation type */
if (relationKind == RELKIND_FOREIGN_TABLE)
{
bool cstoreTable = CStoreTable(distributedTableId);
if (cstoreTable)
{
shardStorageType = SHARD_STORAGE_COLUMNAR;
}
else
{
shardStorageType = SHARD_STORAGE_FOREIGN;
}
}
else
{
shardStorageType = SHARD_STORAGE_TABLE;
}
for (shardIndex = 0; shardIndex < shardCount; shardIndex++)
{
uint32 roundRobinNodeIndex = shardIndex % workerNodeCount;
/* initialize the hash token space for this shard */
text *minHashTokenText = NULL;
text *maxHashTokenText = NULL;
int32 shardMinHashToken = INT32_MIN + (shardIndex * hashTokenIncrement);
int32 shardMaxHashToken = shardMinHashToken + (hashTokenIncrement - 1);
Datum shardIdDatum = master_get_new_shardid(NULL);
int64 shardId = DatumGetInt64(shardIdDatum);
/* if we are at the last shard, make sure the max token value is INT_MAX */
if (shardIndex == (shardCount - 1))
{
shardMaxHashToken = INT32_MAX;
}
/* insert the shard metadata row along with its min/max values */
minHashTokenText = IntegerToText(shardMinHashToken);
maxHashTokenText = IntegerToText(shardMaxHashToken);
/*
* Grabbing the shard metadata lock isn't technically necessary since
* we already hold an exclusive lock on the partition table, but we'll
* acquire it for the sake of completeness. As we're adding new active
* placements, the mode must be exclusive.
*/
LockShardDistributionMetadata(shardId, ExclusiveLock);
CreateShardPlacements(shardId, ddlCommandList, relationOwner, workerNodeList,
roundRobinNodeIndex, replicationFactor);
InsertShardRow(distributedTableId, shardId, shardStorageType,
minHashTokenText, maxHashTokenText);
}
if (QueryCancelPending)
{
ereport(WARNING, (errmsg("cancel requests are ignored during shard creation")));
QueryCancelPending = false;
}
RESUME_INTERRUPTS();
PG_RETURN_VOID();
}