fail(filename, op_num+1, "Expected just a key");
op[op_num].key = make_tdb_data(op, filename, op_num+1, words[2]);
- if (op[op_num].op != OP_TDB_TRAVERSE)
- total_keys++;
+ total_keys++;
}
static void op_add_key_ret(const char *filename,
total_keys++;
}
+/* We don't record the keys or data for a traverse, as we don't use them. */
+static void op_add_traverse(const char *filename,
+ struct op op[], unsigned int op_num, char *words[])
+{
+ if (!words[2] || !words[3] || !words[4] || words[5]
+ || !streq(words[3], "="))
+ fail(filename, op_num+1, "Expected <key> = <data>");
+ op[op_num].key = tdb_null;
+}
+
/* <serial> tdb_store <rec> <rec> <flag> = <ret> */
static void op_add_store(const char *filename,
struct op op[], unsigned int op_num, char *words[])
op[op_num].ret = atoi(words[3]);
}
-static void op_add_traverse(const char *filename,
- struct op op[], unsigned int op_num, char *words[])
+static void op_add_traverse_start(const char *filename,
+ struct op op[],
+ unsigned int op_num, char *words[])
{
if (words[2])
fail(filename, op_num+1, "Expect no arguments");
for (i = 1; i < op->group_len; i++) {
/* This skips nested transactions, too */
- if (op[i].op != OP_TDB_TRAVERSE
- && key_eq(op[i].key, *key))
+ if (key_eq(op[i].key, *key))
pre = gives(key, pre, &op[i]);
}
return pre;
if (!op[i][j].key.dptr)
continue;
- /* We don't wait for traverse keys */
- /* FIXME: We should, for trivial traversals. */
- if (op[i][j].op == OP_TDB_TRAVERSE)
- continue;
-
h = hash_key(&op[i][j].key) % (total_keys * 2);
while (!key_eq(hash[h].key, op[i][j].key)) {
if (!hash[h].key.dptr) {
/* Look through for an op in this transaction which
* needs this key. */
for (i = 1; i < op->group_len; i++) {
- if (op[i].op != OP_TDB_TRAVERSE
- && key_eq(op[i].key, *key)) {
+ if (key_eq(op[i].key, *key)) {
need = needs(&op[i]);
/* tdb_exists() is special: there might be
* something in the transaction with more