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deparse.c
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deparse.c
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/*-------------------------------------------------------------------------
*
* deparse.c
* Query deparser for mongo_fdw
*
* Portions Copyright (c) 2012-2014, PostgreSQL Global Development Group
* Portions Copyright (c) 2004-2023, EnterpriseDB Corporation.
* Portions Copyright (c) 2012–2014 Citus Data, Inc.
*
* IDENTIFICATION
* deparse.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include "mongo_wrapper.h"
#include <bson.h>
#include <json.h>
#include "access/htup_details.h"
#include "catalog/pg_operator.h"
#if PG_VERSION_NUM >= 130000
#include "common/hashfn.h"
#endif
#ifdef META_DRIVER
#include "mongoc.h"
#else
#include "mongo.h"
#endif
#include "mongo_query.h"
#if PG_VERSION_NUM < 120000
#include "nodes/relation.h"
#include "optimizer/var.h"
#endif
#if PG_VERSION_NUM >= 120000
#include "optimizer/optimizer.h"
#endif
#include "parser/parsetree.h"
#include "utils/rel.h"
#include "utils/syscache.h"
/*
* Functions to gather information related to columns involved in the given
* query, which is useful at the time of execution to prepare MongoDB query.
*/
static void mongo_check_op_expr(OpExpr *node, MongoRelQualInfo *qual_info);
static void mongo_check_var(Var *column, MongoRelQualInfo *qual_info);
/* Helper functions to form MongoDB query document. */
static void mongo_append_bool_expr(BoolExpr *node, BSON *queryDoc,
pipeline_cxt *context);
static void mongo_append_op_expr(OpExpr *node, BSON *child,
pipeline_cxt *context);
static void mongo_append_column_name(Var *column, BSON *queryDoc,
pipeline_cxt *context);
static void mongo_add_null_check(Var *column, BSON *expr,
pipeline_cxt *context);
/*
* mongo_check_qual
* Check the given qual expression and find the columns used in it. We
* recursively traverse until we get a Var node and then retrieve the
* required information from it.
*/
void
mongo_check_qual(Expr *node, MongoRelQualInfo *qual_info)
{
if (node == NULL)
return;
switch (nodeTag(node))
{
case T_Var:
mongo_check_var((Var *) node, qual_info);
break;
case T_OpExpr:
mongo_check_op_expr((OpExpr *) node, qual_info);
break;
case T_List:
{
ListCell *lc;
foreach(lc, (List *) node)
mongo_check_qual((Expr *) lfirst(lc), qual_info);
}
break;
case T_RelabelType:
mongo_check_qual(((RelabelType *) node)->arg, qual_info);
break;
case T_BoolExpr:
mongo_check_qual((Expr *) ((BoolExpr *) node)->args, qual_info);
break;
case T_Aggref:
{
ListCell *lc;
char *func_name = get_func_name(((Aggref *) node)->aggfnoid);
/* Save aggregation operation name */
qual_info->aggTypeList = lappend(qual_info->aggTypeList,
makeString(func_name));
qual_info->is_agg_column = true;
/* Save information whether this is a HAVING clause or not */
if (qual_info->is_having)
qual_info->isHavingList = lappend_int(qual_info->isHavingList,
true);
else
qual_info->isHavingList = lappend_int(qual_info->isHavingList,
false);
/*
* The aggregation over '*' doesn't need column information.
* Hence, only to maintain the length of column information
* lists add dummy members into it.
*
* For aggregation over the column, add required information
* into the column information lists.
*/
if (((Aggref *) node)->aggstar)
{
qual_info->colNameList = lappend(qual_info->colNameList,
makeString("*"));
qual_info->colNumList = lappend_int(qual_info->colNumList,
0);
qual_info->rtiList = lappend_int(qual_info->rtiList, 0);
qual_info->isOuterList = lappend_int(qual_info->isOuterList,
0);
/* Append dummy var */
qual_info->aggColList = lappend(qual_info->aggColList,
makeVar(0, 0, 0, 0, 0, 0));
qual_info->is_agg_column = false;
}
else
{
foreach(lc, ((Aggref *) node)->args)
{
Node *n = (Node *) lfirst(lc);
/* If TargetEntry, extract the expression from it */
if (IsA(n, TargetEntry))
{
TargetEntry *tle = (TargetEntry *) n;
n = (Node *) tle->expr;
}
mongo_check_qual((Expr *) n, qual_info);
}
}
}
break;
case T_Const:
case T_Param:
/* Nothing to do here because we are looking only for Var's */
break;
default:
elog(ERROR, "unsupported expression type to check: %d",
(int) nodeTag(node));
break;
}
}
/*
* mongo_check_op_expr
* Check given operator expression.
*/
static void
mongo_check_op_expr(OpExpr *node, MongoRelQualInfo *qual_info)
{
HeapTuple tuple;
Form_pg_operator form;
char oprkind;
ListCell *arg;
/* Retrieve information about the operator from the system catalog. */
tuple = SearchSysCache1(OPEROID, ObjectIdGetDatum(node->opno));
if (!HeapTupleIsValid(tuple))
elog(ERROR, "cache lookup failed for operator %u", node->opno);
form = (Form_pg_operator) GETSTRUCT(tuple);
oprkind = form->oprkind;
/* Sanity check. */
Assert((oprkind == 'r' && list_length(node->args) == 1) ||
(oprkind == 'l' && list_length(node->args) == 1) ||
(oprkind == 'b' && list_length(node->args) == 2));
/* Deparse left operand. */
if (oprkind == 'r' || oprkind == 'b')
{
arg = list_head(node->args);
mongo_check_qual(lfirst(arg), qual_info);
}
/* Deparse right operand. */
if (oprkind == 'l' || oprkind == 'b')
{
arg = list_tail(node->args);
mongo_check_qual(lfirst(arg), qual_info);
}
ReleaseSysCache(tuple);
}
/*
* mongo_check_var
* Check the given Var and append required information related to columns
* involved in qual clauses to separate lists in context. Prepare separate
* list for aggregated columns directly (not related information).
*
* Save required information in the form of a list in MongoRelQualInfo
* structure. Prepare a hash table to avoid duplication of entry if one column
* is involved in the multiple qual expressions.
*/
static void
mongo_check_var(Var *column, MongoRelQualInfo *qual_info)
{
RangeTblEntry *rte;
char *colname;
ColumnHashKey key;
bool found;
bool is_outerrel = false;
if (!(bms_is_member(column->varno, qual_info->foreignRel->relids) &&
column->varlevelsup == 0))
return; /* Var does not belong to foreign table */
Assert(!IS_SPECIAL_VARNO(column->varno));
if (!qual_info->exprColHash)
{
HASHCTL hashInfo;
memset(&hashInfo, 0, sizeof(hashInfo));
hashInfo.keysize = sizeof(ColumnHashKey);
hashInfo.entrysize = sizeof(ColumnHashKey);
hashInfo.hcxt = CurrentMemoryContext;
qual_info->exprColHash = hash_create("Join Expression Column Hash",
MaxHashTableSize,
&hashInfo,
(HASH_ELEM | HASH_BLOBS | HASH_CONTEXT));
}
key.varno = column->varno;
key.varattno = column->varattno;
hash_search(qual_info->exprColHash, (void *) &key, HASH_ENTER, &found);
/*
* Add aggregated column in the aggColList even if it's already available
* in the hash table. This is because multiple aggregation operations can
* be done on the same column. So, to maintain the same length of
* aggregation functions and their columns, add each aggregation column.
*/
if (qual_info->is_agg_column)
{
qual_info->aggColList = lappend(qual_info->aggColList, column);
qual_info->is_agg_column = false;
if (found)
return;
}
/*
* Don't add the duplicate column. The Aggregated column is already taken
* care of.
*/
if (found)
return;
/* Get RangeTblEntry from array in PlannerInfo. */
rte = planner_rt_fetch(column->varno, qual_info->root);
colname = get_attname(rte->relid, column->varattno, false);
/* Is relation inner or outer? */
if (bms_is_member(column->varno, qual_info->outerRelids))
is_outerrel = true;
/* Fill the lists with elements */
qual_info->colNameList = lappend(qual_info->colNameList, makeString(colname));
qual_info->colNumList = lappend_int(qual_info->colNumList, column->varattno);
qual_info->rtiList = lappend_int(qual_info->rtiList, column->varno);
qual_info->isOuterList = lappend_int(qual_info->isOuterList, is_outerrel);
}
/*
* mongo_get_jointype_name
* Output join name for given join type
*/
const char *
mongo_get_jointype_name(JoinType jointype)
{
switch (jointype)
{
case JOIN_INNER:
return "INNER";
case JOIN_LEFT:
return "LEFT";
case JOIN_RIGHT:
return "RIGHT";
default:
/* Shouldn't come here, but protect from buggy code. */
elog(ERROR, "unsupported join type %d", jointype);
}
/* Keep compiler happy */
return NULL;
}
/*
* mongo_append_expr
* Append given expression node.
*/
void
mongo_append_expr(Expr *node, BSON *child_doc, pipeline_cxt *context)
{
if (node == NULL)
return;
switch (nodeTag(node))
{
case T_Var:
mongo_append_column_name((Var *) node, child_doc, context);
break;
case T_Const:
append_constant_value(child_doc,
psprintf("%d", context->arrayIndex),
(Const *) node);
break;
case T_OpExpr:
mongo_append_op_expr((OpExpr *) node, child_doc, context);
break;
case T_RelabelType:
mongo_append_expr(((RelabelType *) node)->arg, child_doc, context);
break;
case T_BoolExpr:
mongo_append_bool_expr((BoolExpr *) node, child_doc, context);
break;
case T_Param:
append_param_value(child_doc, psprintf("%d", context->arrayIndex),
(Param *) node, context->scanStateNode);
break;
case T_Aggref:
bsonAppendUTF8(child_doc, "0", "$v_having");
break;
default:
elog(ERROR, "unsupported expression type to append: %d",
(int) nodeTag(node));
break;
}
}
/*
* mongo_append_bool_expr
* Recurse through a BoolExpr node to form MongoDB query pipeline.
*/
static void
mongo_append_bool_expr(BoolExpr *node, BSON *child_doc, pipeline_cxt *context)
{
BSON child;
BSON expr;
const char *op = NULL;
ListCell *lc;
int saved_array_index;
int reset_index = 0;
switch (node->boolop)
{
case AND_EXPR:
op = "$and";
break;
case OR_EXPR:
op = "$or";
break;
case NOT_EXPR:
op = "$not";
break;
}
bsonAppendStartObject(child_doc, psprintf("%d", context->arrayIndex), &expr);
bsonAppendStartArray(&expr, op, &child);
/* Save array index */
saved_array_index = context->arrayIndex;
/* Reset to zero to be used for nested arrays */
context->arrayIndex = reset_index;
/* Save join expression type boolean "TRUE" */
context->isBoolExpr = true;
foreach(lc, node->args)
{
mongo_append_expr((Expr *) lfirst(lc), &child, context);
context->arrayIndex++;
}
bsonAppendFinishArray(&expr, &child);
bsonAppendFinishObject(child_doc, &expr);
/* Retain array index */
context->arrayIndex = saved_array_index;
}
/*
* mongo_append_op_expr
* Deparse given operator expression.
*
* Build and append following syntax into $and array:
*
* {"$eq": [ "$$v_age", "$old" ] }
*
* Each element of operator (e.g. "$eq") array is appended by function called
* mongo_append_column_name.
*
* In MongoDB, (null = null), (null < 1) is TRUE but that is FALSE in Postgres.
* To eliminate null value rows, add equality check for null values for columns
* involved in JOIN and WHERE clauses. E.g. add the following syntax:
*
* {"$ne": [ "$$v_age", null ]},
* {"$ne": [ "$old", null ]}
*/
static void
mongo_append_op_expr(OpExpr *node, BSON *child_doc, pipeline_cxt *context)
{
HeapTuple tuple;
Form_pg_operator form;
char oprkind;
ListCell *arg;
BSON expr;
BSON child1;
char *mongo_operator;
int saved_array_index;
int reset_index = 0;
int and_index = 0;
BSON and_op;
BSON and_obj;
/* Increament operator expression count */
context->opExprCount++;
/* Retrieve information about the operator from the system catalog. */
tuple = SearchSysCache1(OPEROID, ObjectIdGetDatum(node->opno));
if (!HeapTupleIsValid(tuple))
elog(ERROR, "cache lookup failed for operator %u", node->opno);
form = (Form_pg_operator) GETSTRUCT(tuple);
oprkind = form->oprkind;
/* Sanity check. */
Assert((oprkind == 'r' && list_length(node->args) == 1) ||
(oprkind == 'l' && list_length(node->args) == 1) ||
(oprkind == 'b' && list_length(node->args) == 2));
if (context->isBoolExpr == true)
{
bsonAppendStartObject(child_doc, psprintf("%d", and_index++),
&and_obj);
bsonAppendStartArray(&and_obj, "$and", &and_op);
bsonAppendStartObject(&and_op, psprintf("%d", context->arrayIndex),
&expr);
}
else
bsonAppendStartObject(child_doc, psprintf("%d", context->arrayIndex),
&expr);
/* Deparse operator name. */
mongo_operator = mongo_operator_name(get_opname(node->opno));
bsonAppendStartArray(&expr, mongo_operator, &child1);
/* Save array index */
saved_array_index = context->arrayIndex;
/* Reset to zero to be used for nested arrays */
context->arrayIndex = reset_index;
/* Deparse left operand. */
if (oprkind == 'r' || oprkind == 'b')
{
arg = list_head(node->args);
mongo_append_expr(lfirst(arg), &child1, context);
}
/* Deparse right operand. */
if (oprkind == 'l' || oprkind == 'b')
{
if (oprkind == 'l')
context->arrayIndex = reset_index;
else
context->arrayIndex++;
arg = list_tail(node->args);
mongo_append_expr(lfirst(arg), &child1, context);
}
/* Decreament operator expression count */
context->opExprCount--;
bsonAppendFinishArray(&expr, &child1);
if (context->isBoolExpr)
bsonAppendFinishObject(&and_op, &expr);
else
bsonAppendFinishObject(child_doc, &expr);
/*
* Add equality check for null values for columns involved in JOIN and
* WHERE clauses.
*/
if (context->opExprCount == 0)
{
List *var_list;
ListCell *lc;
var_list = pull_var_clause((Node *) node, PVC_RECURSE_PLACEHOLDERS ||
PVC_RECURSE_AGGREGATES);
foreach(lc, var_list)
{
Var *var = (Var *) lfirst(lc);
if (context->isBoolExpr)
bsonAppendStartObject(&and_op, psprintf("%d", and_index++),
&expr);
else
bsonAppendStartObject(child_doc,
psprintf("%d", context->arrayIndex++),
&expr);
mongo_add_null_check(var, &expr, context);
if (context->isBoolExpr)
bsonAppendFinishObject(&and_op, &expr);
else
bsonAppendFinishObject(child_doc, &expr);
}
}
if (context->isBoolExpr == true)
{
bsonAppendFinishArray(&and_obj, &and_op);
bsonAppendFinishObject(child_doc, &and_obj);
}
/* Retain array index */
context->arrayIndex = saved_array_index;
ReleaseSysCache(tuple);
}
/*
* mongo_append_column_name
* Deparse Var and append corresponding column name to operator array.
*
* The elements of the operator array are appended by this function.
*/
static void
mongo_append_column_name(Var *column, BSON *child_doc, pipeline_cxt *context)
{
bool found = false;
ColInfoHashKey key;
ColInfoHashEntry *columnInfo;
char *field;
key.varNo = column->varno;
key.varAttno = column->varattno;
columnInfo = (ColInfoHashEntry *) hash_search(context->colInfoHash,
(void *) &key,
HASH_FIND,
&found);
if (!found)
return;
if (columnInfo->isOuter && context->isJoinClause)
field = psprintf("$$v_%s", columnInfo->colName);
else
field = psprintf("$%s", columnInfo->colName);
bsonAppendUTF8(child_doc, psprintf("%d", context->arrayIndex), field);
}
/*
* mongo_add_null_check
* Eliminate null value rows of columns involved in the join and WHERE
* clauses.
*/
static void
mongo_add_null_check(Var *column, BSON *expr, pipeline_cxt *context)
{
BSON ne_expr;
bool found = false;
ColInfoHashKey key;
ColInfoHashEntry *columnInfo;
char *field;
key.varNo = column->varno;
key.varAttno = column->varattno;
columnInfo = (ColInfoHashEntry *) hash_search(context->colInfoHash,
(void *) &key,
HASH_FIND,
&found);
if (!found)
return;
if (columnInfo->isOuter && context->isJoinClause)
field = psprintf("$$v_%s", columnInfo->colName);
else
field = psprintf("$%s", columnInfo->colName);
bsonAppendStartArray(expr, "$ne", &ne_expr);
bsonAppendUTF8(&ne_expr, "0", field);
bsonAppendNull(&ne_expr, "1");
bsonAppendFinishArray(expr, &ne_expr);
}
/*
* mongo_is_foreign_pathkey
* Returns true if it's safe to push down the sort expression described by
* 'pathkey' to the foreign server.
*/
bool
mongo_is_foreign_pathkey(PlannerInfo *root, RelOptInfo *baserel,
PathKey *pathkey)
{
EquivalenceMember *em;
EquivalenceClass *pathkey_ec = pathkey->pk_eclass;
Expr *em_expr;
/*
* mongo_is_foreign_expr would detect volatile expressions as well, but
* checking ec_has_volatile here saves some cycles.
*/
if (pathkey_ec->ec_has_volatile)
return false;
/* can push if a suitable EC member exists */
if (!(em = mongo_find_em_for_rel(root, pathkey_ec, baserel)))
return false;
/* Ignore binary-compatible relabeling */
em_expr = em->em_expr;
while (em_expr && IsA(em_expr, RelabelType))
em_expr = ((RelabelType *) em_expr)->arg;
/* Only Vars are allowed per MongoDB. */
if (!IsA(em_expr, Var))
return false;
/* Check for sort operator pushability. */
if (!mongo_is_default_sort_operator(em, pathkey))
return false;
return true;
}
/*
* mongo_is_builtin
* Return true if given object is one of PostgreSQL's built-in objects.
*
* We use FirstBootstrapObjectId as the cutoff, so that we only consider
* objects with hand-assigned OIDs to be "built in", not for instance any
* function or type defined in the information_schema.
*
* Our constraints for dealing with types are tighter than they are for
* functions or operators: we want to accept only types that are in pg_catalog,
* else format_type might incorrectly fail to schema-qualify their names.
* (This could be fixed with some changes to format_type, but for now there's
* no need.) Thus we must exclude information_schema types.
*
* XXX there is a problem with this, which is that the set of built-in
* objects expands over time. Something that is built-in to us might not
* be known to the remote server, if it's of an older version. But keeping
* track of that would be a huge exercise.
*/
bool
mongo_is_builtin(Oid oid)
{
#if PG_VERSION_NUM >= 120000
return (oid < FirstGenbkiObjectId);
#else
return (oid < FirstBootstrapObjectId);
#endif
}