(* Copyright (c) 2009-2010, Adam Chlipala
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* - Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* - Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* - The names of contributors may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*)
structure SQLite :> SQLITE = struct
open Settings
open Print.PD
open Print
fun p_sql_type t =
case t of
Int => "integer"
| Float => "real"
| String => "text"
| Char => "text"
| Bool => "integer"
| Time => "text"
| Blob => "blob"
| Channel => "integer"
| Client => "integer"
| Nullable t => p_sql_type t
val ident = String.translate (fn #"'" => "PRIME"
| ch => str ch)
fun checkRel (table, checkNullable) (s, xts) =
let
val q = "SELECT COUNT(*) FROM sqlite_master WHERE type = '" ^ table ^ "' AND name = '"
^ s ^ "'"
in
box [string "if (sqlite3_prepare_v2(conn->conn, \"",
string q,
string "\", -1, &stmt, NULL) != SQLITE_OK) {",
newline,
box [string "sqlite3_close(conn->conn);",
newline,
string "uw_error(ctx, FATAL, \"Query preparation failed:
",
string q,
string "\");",
newline],
string "}",
newline,
newline,
string "while ((res = sqlite3_step(stmt)) == SQLITE_BUSY)",
newline,
box [string "sleep(1);",
newline],
newline,
string "if (res == SQLITE_DONE) {",
newline,
box [string "sqlite3_finalize(stmt);",
newline,
string "sqlite3_close(conn->conn);",
newline,
string "uw_error(ctx, FATAL, \"No row returned:
",
string q,
string "\");",
newline],
string "}",
newline,
newline,
string "if (res != SQLITE_ROW) {",
newline,
box [string "sqlite3_finalize(stmt);",
newline,
string "sqlite3_close(conn->conn);",
newline,
string "uw_error(ctx, FATAL, \"Error getting row:
",
string q,
string "\");",
newline],
string "}",
newline,
newline,
string "if (sqlite3_column_count(stmt) != 1) {",
newline,
box [string "sqlite3_finalize(stmt);",
newline,
string "sqlite3_close(conn->conn);",
newline,
string "uw_error(ctx, FATAL, \"Bad column count:
",
string q,
string "\");",
newline],
string "}",
newline,
newline,
string "if (sqlite3_column_int(stmt, 0) != 1) {",
newline,
box [string "sqlite3_finalize(stmt);",
newline,
string "sqlite3_close(conn->conn);",
newline,
string "uw_error(ctx, FATAL, \"Table '",
string s,
string "' does not exist.\");",
newline],
string "}",
newline,
newline,
string "sqlite3_finalize(stmt);",
newline]
end
fun init {dbstring, prepared = ss, tables, views, sequences} =
let
val db = ref dbstring
in
app (fn s =>
case String.fields (fn ch => ch = #"=") s of
[name, value] =>
(case name of
"dbname" => db := value
| _ => ())
| _ => ()) (String.tokens Char.isSpace dbstring);
box [string "typedef struct {",
newline,
box [string "sqlite3 *conn;",
newline,
p_list_sepi (box [])
(fn i => fn _ =>
box [string "sqlite3_stmt *p",
string (Int.toString i),
string ";",
newline])
ss],
string "} uw_conn;",
newline,
newline,
string "static void uw_client_init(void) {",
newline,
box [string "uw_sqlfmtInt = \"%lld%n\";",
newline,
string "uw_sqlfmtFloat = \"%.16g%n\";",
newline,
string "uw_Estrings = 0;",
newline,
string "uw_sql_type_annotations = 0;",
newline,
string "uw_sqlsuffixString = \"\";",
newline,
string "uw_sqlsuffixChar = \"\";",
newline,
string "uw_sqlsuffixBlob = \"\";",
newline,
string "uw_sqlfmtUint4 = \"%u%n\";",
newline],
string "}",
newline,
newline,
if #persistent (currentProtocol ()) then
box [string "static void uw_db_validate(uw_context ctx) {",
newline,
string "uw_conn *conn = uw_get_db(ctx);",
newline,
string "sqlite3_stmt *stmt;",
newline,
string "int res;",
newline,
newline,
p_list_sep newline (checkRel ("table", true)) tables,
p_list_sep newline (fn name => checkRel ("table", true)
(name, [("id", Settings.Client)])) sequences,
p_list_sep newline (checkRel ("view", false)) views,
string "}",
newline,
newline,
string "static void uw_db_prepare(uw_context ctx) {",
newline,
string "uw_conn *conn = uw_get_db(ctx);",
newline,
newline,
p_list_sepi newline (fn i => fn (s, _) =>
let
fun uhoh this s args =
box [p_list_sepi (box [])
(fn j => fn () =>
box [string
"sqlite3_finalize(conn->p",
string (Int.toString j),
string ");",
newline])
(List.tabulate (i, fn _ => ())),
box (if this then
[string
"sqlite3_finalize(conn->p",
string (Int.toString i),
string ");",
newline]
else
[]),
string "sqlite3_close(conn->conn);",
newline,
string "uw_error(ctx, FATAL, \"",
string s,
string "\"",
p_list_sep (box []) (fn s => box [string ", ",
string s]) args,
string ");",
newline]
in
box [string "if (sqlite3_prepare_v2(conn->conn, \"",
string (Prim.toCString s),
string "\", -1, &conn->p",
string (Int.toString i),
string ", NULL) != SQLITE_OK) {",
newline,
box [string "char msg[1024];",
newline,
string "strncpy(msg, sqlite3_errmsg(conn->conn), 1024);",
newline,
string "msg[1023] = 0;",
newline,
uhoh false ("Error preparing statement: "
^ Prim.toCString s ^ "
%s") ["msg"]],
string "}",
newline]
end)
ss,
string "}"]
else
box [string "static void uw_db_prepare(uw_context ctx) { }",
newline,
string "static void uw_db_validate(uw_context ctx) { }"],
newline,
newline,
string "static void uw_db_init(uw_context ctx) {",
newline,
string "sqlite3 *sqlite;",
newline,
string "sqlite3_stmt *stmt;",
newline,
string "uw_conn *conn;",
newline,
newline,
string "if (sqlite3_open(\"",
string (!db),
string "\", &sqlite) != SQLITE_OK) uw_error(ctx, FATAL, ",
string "\"Can't open SQLite database.\");",
newline,
newline,
string "if (uw_database_max < SIZE_MAX) {",
newline,
box [string "char buf[100];",
newline,
newline,
string "sprintf(buf, \"PRAGMA max_page_count = %llu\", (unsigned long long)(uw_database_max / 1024));",
newline,
newline,
string "if (sqlite3_prepare_v2(sqlite, buf, -1, &stmt, NULL) != SQLITE_OK) {",
newline,
box [string "sqlite3_close(sqlite);",
newline,
string "uw_error(ctx, FATAL, \"Can't prepare max_page_count query for SQLite database\");",
newline],
string "}",
newline,
newline,
string "if (sqlite3_step(stmt) != SQLITE_ROW) {",
newline,
box [string "sqlite3_finalize(stmt);",
newline,
string "sqlite3_close(sqlite);",
newline,
string "uw_error(ctx, FATAL, \"Can't set max_page_count parameter for SQLite database\");",
newline],
string "}",
newline,
newline,
string "sqlite3_finalize(stmt);",
newline],
string "}",
newline,
newline,
string "conn = calloc(1, sizeof(uw_conn));",
newline,
string "conn->conn = sqlite;",
newline,
string "uw_set_db(ctx, conn);",
newline,
string "uw_db_validate(ctx);",
newline,
string "uw_db_prepare(ctx);",
newline,
string "}",
newline,
newline,
string "static void uw_db_close(uw_context ctx) {",
newline,
string "uw_conn *conn = uw_get_db(ctx);",
newline,
p_list_sepi (box [])
(fn i => fn _ =>
box [string "if (conn->p",
string (Int.toString i),
string ") sqlite3_finalize(conn->p",
string (Int.toString i),
string ");",
newline])
ss,
string "sqlite3_close(conn->conn);",
newline,
string "}",
newline,
newline,
string "static int uw_db_begin(uw_context ctx, int could_write) {",
newline,
string "uw_conn *conn = uw_get_db(ctx);",
newline,
newline,
string "if (sqlite3_exec(conn->conn, \"BEGIN\", NULL, NULL, NULL) == SQLITE_OK)",
newline,
box [string "return 0;",
newline],
string "else {",
newline,
box [string "fprintf(stderr, \"Begin error: %s
\", sqlite3_errmsg(conn->conn));",
newline,
string "return 1;",
newline],
string "}",
newline,
string "}",
newline,
string "static int uw_db_commit(uw_context ctx) {",
newline,
string "uw_conn *conn = uw_get_db(ctx);",
newline,
string "if (sqlite3_exec(conn->conn, \"COMMIT\", NULL, NULL, NULL) == SQLITE_OK)",
newline,
box [string "return 0;",
newline],
string "else {",
newline,
box [string "fprintf(stderr, \"Commit error: %s
\", sqlite3_errmsg(conn->conn));",
newline,
string "return 1;",
newline],
string "}",
newline,
string "}",
newline,
newline,
string "static int uw_db_rollback(uw_context ctx) {",
newline,
string "uw_conn *conn = uw_get_db(ctx);",
newline,
string "if (sqlite3_exec(conn->conn, \"ROLLBACK\", NULL, NULL, NULL) == SQLITE_OK)",
newline,
box [string "return 0;",
newline],
string "else {",
newline,
box [string "fprintf(stderr, \"Rollback error: %s
\", sqlite3_errmsg(conn->conn));",
newline,
string "return 1;",
newline],
string "}",
newline,
string "}",
newline,
newline]
end
val fmt = "\"%Y-%m-%d %H:%M:%S\""
fun p_getcol {loc, wontLeakStrings, col = i, typ = t} =
let
fun p_unsql t =
case t of
Int => box [string "sqlite3_column_int64(stmt, ", string (Int.toString i), string ")"]
| Float => box [string "sqlite3_column_double(stmt, ", string (Int.toString i), string ")"]
| String =>
if wontLeakStrings then
box [string "(uw_Basis_string)sqlite3_column_text(stmt, ", string (Int.toString i), string ")"]
else
box [string "uw_strdup(ctx, (uw_Basis_string)sqlite3_column_text(stmt, ", string (Int.toString i), string "))"]
| Char => box [string "sqlite3_column_text(stmt, ", string (Int.toString i), string ")[0]"]
| Bool => box [string "(uw_Basis_bool)sqlite3_column_int(stmt, ", string (Int.toString i), string ")"]
| Time => box [string "uw_Basis_stringToTimef_error(ctx, ",
string fmt,
string ", (uw_Basis_string)sqlite3_column_text(stmt, ",
string (Int.toString i),
string "))"]
| Blob => box [string "({",
newline,
string "char *data = (char *)sqlite3_column_blob(stmt, ",
string (Int.toString i),
string ");",
newline,
string "int len = sqlite3_column_bytes(stmt, ",
string (Int.toString i),
string ");",
newline,
string "uw_Basis_blob b = {len, uw_memdup(ctx, data, len)};",
newline,
string "b;",
newline,
string "})"]
| Channel => box [string "({",
newline,
string "sqlite3_int64 n = sqlite3_column_int64(stmt, ",
string (Int.toString i),
string ");",
newline,
string "uw_Basis_channel ch = {n >> 32, n & 0xFFFFFFFF};",
newline,
string "ch;",
newline,
string "})"]
| Client => box [string "sqlite3_column_int(stmt, ", string (Int.toString i), string ")"]
| Nullable _ => raise Fail "Postgres: Recursive Nullable"
fun getter t =
case t of
Nullable t =>
box [string "(sqlite3_column_type(stmt, ",
string (Int.toString i),
string ") == SQLITE_NULL ? NULL : ",
case t of
String => getter t
| _ => box [string "({",
newline,
string (p_sql_ctype t),
space,
string "*tmp = uw_malloc(ctx, sizeof(",
string (p_sql_ctype t),
string "));",
newline,
string "*tmp = ",
getter t,
string ";",
newline,
string "tmp;",
newline,
string "})"],
string ")"]
| _ =>
box [string "(sqlite3_column_type(stmt, ",
string (Int.toString i),
string ") == SQLITE_NULL ? ",
box [string "({",
string (p_sql_ctype t),
space,
string "tmp;",
newline,
string "uw_error(ctx, FATAL, \"",
string (ErrorMsg.spanToString loc),
string ": Unexpectedly NULL field #",
string (Int.toString i),
string "\");",
newline,
string "tmp;",
newline,
string "})"],
string " : ",
p_unsql t,
string ")"]
in
getter t
end
fun queryCommon {loc, query, cols, doCols} =
box [string "int r;",
newline,
string "sqlite3_reset(stmt);",
newline,
string "uw_end_region(ctx);",
newline,
string "while ((r = sqlite3_step(stmt)) == SQLITE_ROW) {",
newline,
doCols p_getcol,
string "}",
newline,
newline,
string "if (r == SQLITE_BUSY) {",
box [string "sleep(1);",
newline,
string "uw_error(ctx, UNLIMITED_RETRY, \"Database is busy\");",
newline],
string "}",
newline,
newline,
string "if (r != SQLITE_DONE) uw_error(ctx, FATAL, \"",
string (ErrorMsg.spanToString loc),
string ": query step failed: %s
%s\", ",
query,
string ", sqlite3_errmsg(conn->conn));",
newline,
newline]
fun query {loc, cols, doCols} =
box [string "uw_conn *conn = uw_get_db(ctx);",
newline,
string "sqlite3_stmt *stmt;",
newline,
newline,
string "if (sqlite3_prepare_v2(conn->conn, query, -1, &stmt, NULL) != SQLITE_OK) uw_error(ctx, FATAL, \"Error preparing statement: %s
%s\", sqlite3_errmsg(conn->conn), query);",
newline,
newline,
string "uw_push_cleanup(ctx, (void (*)(void *))sqlite3_finalize, stmt);",
newline,
newline,
queryCommon {loc = loc, cols = cols, doCols = doCols, query = string "query"},
string "uw_pop_cleanup(ctx);",
newline]
val p_pre_inputs =
p_list_sepi (box [])
(fn i => fn t =>
case t of
Char => box [string "char arg",
string (Int.toString (i + 1)),
string "s = {arg",
string (Int.toString (i + 1)),
string ", 0};",
newline]
| _ => box [])
fun p_inputs loc =
p_list_sepi (box [])
(fn i => fn t =>
let
fun bind (t, arg) =
case t of
Int => box [string "sqlite3_bind_int64(stmt, ",
string (Int.toString (i + 1)),
string ", ",
arg,
string ")"]
| Float => box [string "sqlite3_bind_double(stmt, ",
string (Int.toString (i + 1)),
string ", ",
arg,
string ")"]
| String => box [string "sqlite3_bind_text(stmt, ",
string (Int.toString (i + 1)),
string ", ",
arg,
string ", -1, SQLITE_TRANSIENT)"]
| Char => box [string "sqlite3_bind_text(stmt, ",
string (Int.toString (i + 1)),
string ", ",
arg,
string "s, -1, SQLITE_TRANSIENT)"]
| Bool => box [string "sqlite3_bind_int(stmt, ",
string (Int.toString (i + 1)),
string ", ",
arg,
string ")"]
| Time => box [string "sqlite3_bind_text(stmt, ",
string (Int.toString (i + 1)),
string ", uw_Basis_timef(ctx, ",
string fmt,
string ", ",
arg,
string "), -1, SQLITE_TRANSIENT)"]
| Blob => box [string "sqlite3_bind_blob(stmt, ",
string (Int.toString (i + 1)),
string ", ",
arg,
string ".data, ",
arg,
string ".size, SQLITE_TRANSIENT)"]
| Channel => box [string "sqlite3_bind_int64(stmt, ",
string (Int.toString (i + 1)),
string ", ((sqlite3_int64)",
arg,
string ".cli << 32) | ",
arg,
string ".chn)"]
| Client => box [string "sqlite3_bind_int(stmt, ",
string (Int.toString (i + 1)),
string ", ",
arg,
string ")"]
| Nullable t => box [string "(",
arg,
string " == NULL ? sqlite3_bind_null(stmt, ",
string (Int.toString (i + 1)),
string ") : ",
bind (t, case t of
String => arg
| _ => box [string "(*", arg, string ")"]),
string ")"]
in
box [string "if (",
bind (t, box [string "arg", string (Int.toString (i + 1))]),
string " != SQLITE_OK) uw_error(ctx, FATAL, \"",
string (ErrorMsg.spanToString loc),
string ": Error binding parameter #",
string (Int.toString (i + 1)),
string ": %s\", sqlite3_errmsg(conn->conn));",
newline]
end)
fun queryPrepared {loc, id, query, inputs, cols, doCols, nested} =
box [string "uw_conn *conn = uw_get_db(ctx);",
newline,
p_pre_inputs inputs,
if nested then
box [string "sqlite3_stmt *stmt;",
newline]
else
box [string "sqlite3_stmt *stmt = conn->p",
string (Int.toString id),
string ";",
newline,
newline,
string "if (stmt == NULL) {",
newline],
string "if (sqlite3_prepare_v2(conn->conn, \"",
string (Prim.toCString query),
string "\", -1, &stmt, NULL) != SQLITE_OK) uw_error(ctx, FATAL, \"Error preparing statement: ",
string (Prim.toCString query),
string "
%s\", sqlite3_errmsg(conn->conn));",
newline,
if nested then
box [string "uw_push_cleanup(ctx, (void (*)(void *))sqlite3_finalize, stmt);",
newline]
else
box [string "conn->p",
string (Int.toString id),
string " = stmt;",
newline,
string "}",
newline,
newline,
string "uw_push_cleanup(ctx, (void (*)(void *))sqlite3_clear_bindings, stmt);",
newline,
string "uw_push_cleanup(ctx, (void (*)(void *))sqlite3_reset, stmt);",
newline],
newline,
p_inputs loc inputs,
newline,
queryCommon {loc = loc, cols = cols, doCols = doCols, query = box [string "\"",
string (Prim.toCString query),
string "\""]},
string "uw_pop_cleanup(ctx);",
newline,
if nested then
box []
else
box [string "uw_pop_cleanup(ctx);",
newline]]
fun dmlCommon {loc, dml, mode} =
box [string "int r;",
newline,
string "if ((r = sqlite3_step(stmt)) == SQLITE_BUSY) {",
box [string "sleep(1);",
newline,
string "uw_error(ctx, UNLIMITED_RETRY, \"Database is busy\");",
newline],
string "}",
newline,
newline,
string "if (r != SQLITE_DONE) ",
case mode of
Settings.Error => box [string "uw_error(ctx, FATAL, \"",
string (ErrorMsg.spanToString loc),
string ": DML step failed: %s
%s\", ",
dml,
string ", sqlite3_errmsg(conn->conn));"]
| Settings.None => string "uw_set_error_message(ctx, sqlite3_errmsg(conn->conn));",
newline]
fun dml (loc, mode) =
box [string "uw_conn *conn = uw_get_db(ctx);",
newline,
string "sqlite3_stmt *stmt;",
newline,
newline,
string "if (sqlite3_prepare_v2(conn->conn, dml, -1, &stmt, NULL) != SQLITE_OK) uw_error(ctx, FATAL, \"Error preparing statement: %s
%s\", dml, sqlite3_errmsg(conn->conn));",
newline,
newline,
string "uw_push_cleanup(ctx, (void (*)(void *))sqlite3_finalize, stmt);",
newline,
newline,
dmlCommon {loc = loc, dml = string "dml", mode = mode},
string "uw_pop_cleanup(ctx);",
newline]
fun dmlPrepared {loc, id, dml, inputs, mode = mode} =
box [string "uw_conn *conn = uw_get_db(ctx);",
newline,
p_pre_inputs inputs,
string "sqlite3_stmt *stmt = conn->p",
string (Int.toString id),
string ";",
newline,
newline,
string "if (stmt == NULL) {",
newline,
box [string "if (sqlite3_prepare_v2(conn->conn, \"",
string (Prim.toCString dml),
string "\", -1, &stmt, NULL) != SQLITE_OK) uw_error(ctx, FATAL, \"Error preparing statement: ",
string (Prim.toCString dml),
string "
%s\", sqlite3_errmsg(conn->conn));",
newline,
string "conn->p",
string (Int.toString id),
string " = stmt;",
newline],
string "}",
newline,
string "uw_push_cleanup(ctx, (void (*)(void *))sqlite3_clear_bindings, stmt);",
newline,
string "uw_push_cleanup(ctx, (void (*)(void *))sqlite3_reset, stmt);",
newline,
p_inputs loc inputs,
newline,
dmlCommon {loc = loc, dml = box [string "\"",
string (Prim.toCString dml),
string "\""], mode = mode},
string "uw_pop_cleanup(ctx);",
newline,
string "uw_pop_cleanup(ctx);",
newline]
fun nextval {loc, seqE, seqName} =
box [string "uw_conn *conn = uw_get_db(ctx);",
newline,
string "char *insert = ",
case seqName of
SOME s => string ("\"INSERT INTO " ^ s ^ " VALUES (NULL)\"")
| NONE => box [string "uw_Basis_strcat(ctx, \"INSERT INTO \", uw_Basis_strcat(ctx, ",
seqE,
string ", \" VALUES ()\"))"],
string ";",
newline,
string "char *delete = ",
case seqName of
SOME s => string ("\"DELETE FROM " ^ s ^ "\"")
| NONE => box [string "uw_Basis_strcat(ctx, \"DELETE FROM \", ",
seqE,
string ")"],
string ";",
newline,
newline,
string "if (sqlite3_exec(conn->conn, insert, NULL, NULL, NULL) != SQLITE_OK) uw_error(ctx, FATAL, \"'nextval' INSERT failed: %s\", sqlite3_errmsg(conn->conn));",
newline,
string "n = sqlite3_last_insert_rowid(conn->conn);",
newline,
string "if (sqlite3_exec(conn->conn, delete, NULL, NULL, NULL) != SQLITE_OK) uw_error(ctx, FATAL, \"'nextval' DELETE failed: %s\", sqlite3_errmsg(conn->conn));",
newline]
fun nextvalPrepared _ = raise Fail "SQLite.nextvalPrepared called"
fun setval _ = raise Fail "SQLite.setval called"
fun sqlifyString s = "'" ^ String.translate (fn #"'" => "''"
| #"\000" => ""
| ch => str ch)
s ^ "'"
fun p_cast (s, _) = s
fun p_blank _ = "?"
val () = addDbms {name = "sqlite",
randomFunction = "RANDOM",
header = Config.sqheader,
link = "-lsqlite3",
init = init,
p_sql_type = p_sql_type,
query = query,
queryPrepared = queryPrepared,
dml = dml,
dmlPrepared = dmlPrepared,
nextval = nextval,
nextvalPrepared = nextvalPrepared,
setval = setval,
sqlifyString = sqlifyString,
p_cast = p_cast,
p_blank = p_blank,
supportsDeleteAs = false,
supportsUpdateAs = false,
createSequence = fn s => "CREATE TABLE " ^ s ^ " (id INTEGER PRIMARY KEY AUTOINCREMENT)",
textKeysNeedLengths = false,
supportsNextval = false,
supportsNestedPrepared = false,
sqlPrefix = "",
supportsOctetLength = false,
trueString = "1",
falseString = "0",
onlyUnion = false,
nestedRelops = false,
windowFunctions = false,
supportsIsDistinctFrom = true}
end