/*********************************************************************** Copyright (c) 2008 Innobase Oy. All rights reserved. Copyright (c) 2008 Oracle. All rights reserved. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA ************************************************************************/ /* Simple single threaded test that does the equivalent of: Create a database CREATE TABLE T(c1 VARCHAR(n), c2 VARCHAR(n), c3 INT, PK(first, last)); INSERT INTO T VALUES('x', 'y', 1); ... SELECT * FROM T; UPDATE T SET c3 = c3 + 100 WHERE c1 = 'x'; SELECT * FROM T; DELETE FROM T WHERE c1 = 'x'; SELECT * FROM T; DROP TABLE T; The test will create all the relevant sub-directories in the current working directory. */ #include #include #include #include #include "test0aux.h" #ifdef UNIV_DEBUG_VALGRIND #include #endif #define DATABASE "test" #define TABLE "t" /* A row from our test table. */ typedef struct row_t { char first[32]; char last[32]; int score; } row_t; static row_t in_rows[] = { {"a", "t", 1}, {"b", "u", 2}, {"c", "b", 3}, {"d", "n", 4}, {"e", "s", 5}, {"e", "j", 6}, {"d", "f", 7}, {"c", "n", 8}, {"b", "z", 9}, {"a", "i", 10}, {"", "", 0}}; #define COL_LEN(n) (sizeof(((row_t*)0)->n)) /********************************************************************* Create an InnoDB database (sub-directory). */ static ib_err_t create_database( /*============*/ const char* name) { ib_bool_t err; err = ib_database_create(name); assert(err == IB_TRUE); return(DB_SUCCESS); } /********************************************************************* CREATE TABLE T( first VARCHAR(n), last VARCHAR(n), score INT, PRIMARY KEY(first, last); */ static ib_err_t create_table( /*=========*/ const char* dbname, /* in: database name */ const char* name) /* in: table name */ { ib_trx_t ib_trx; ib_id_t table_id = 0; ib_err_t err = DB_SUCCESS; ib_tbl_sch_t ib_tbl_sch = NULL; ib_idx_sch_t ib_idx_sch = NULL; char table_name[IB_MAX_TABLE_NAME_LEN]; #ifdef __WIN__ sprintf(table_name, "%s/%s", dbname, name); #else snprintf(table_name, sizeof(table_name), "%s/%s", dbname, name); #endif /* Pass a table page size of 0, ie., use default page size. */ err = ib_table_schema_create( table_name, &ib_tbl_sch, IB_TBL_COMPACT, 0); assert(err == DB_SUCCESS); err = ib_table_schema_add_col( ib_tbl_sch, "first", IB_VARCHAR, IB_COL_NONE, 0, COL_LEN(first)-1); assert(err == DB_SUCCESS); err = ib_table_schema_add_col( ib_tbl_sch, "last", IB_VARCHAR, IB_COL_NONE, 0, COL_LEN(last)-1); assert(err == DB_SUCCESS); err = ib_table_schema_add_col( ib_tbl_sch, "score", IB_INT, IB_COL_UNSIGNED, 0, COL_LEN(score)); assert(err == DB_SUCCESS); err = ib_table_schema_add_index(ib_tbl_sch, "first_last", &ib_idx_sch); assert(err == DB_SUCCESS); /* Set prefix length to 0. */ err = ib_index_schema_add_col( ib_idx_sch, "first", 0); assert(err == DB_SUCCESS); /* Set prefix length to 0. */ err = ib_index_schema_add_col( ib_idx_sch, "last", 0); assert(err == DB_SUCCESS); err = ib_index_schema_set_clustered(ib_idx_sch); assert(err == DB_SUCCESS); /* create table */ ib_trx = ib_trx_begin(IB_TRX_REPEATABLE_READ); err = ib_schema_lock_exclusive(ib_trx); assert(err == DB_SUCCESS); err = ib_table_create(ib_trx, ib_tbl_sch, &table_id); assert(err == DB_SUCCESS); err = ib_trx_commit(ib_trx); assert(err == DB_SUCCESS); if (ib_tbl_sch != NULL) { ib_table_schema_delete(ib_tbl_sch); } return(err); } /********************************************************************* Open a table and return a cursor for the table. */ static ib_err_t open_table( /*=======*/ const char* dbname, /* in: database name */ const char* name, /* in: table name */ ib_trx_t ib_trx, /* in: transaction */ ib_crsr_t* crsr) /* out: innodb cursor */ { ib_err_t err = DB_SUCCESS; char table_name[IB_MAX_TABLE_NAME_LEN]; #ifdef __WIN__ sprintf(table_name, "%s/%s", dbname, name); #else snprintf(table_name, sizeof(table_name), "%s/%s", dbname, name); #endif err = ib_cursor_open_table(table_name, ib_trx, crsr); assert(err == DB_SUCCESS); return(err); } /********************************************************************* INSERT INTO T VALUE('first', 'last', score); */ static ib_err_t insert_rows( /*========*/ ib_crsr_t crsr) /* in, out: cursor to use for write */ { row_t* row; ib_err_t err; ib_tpl_t tpl = NULL; tpl = ib_clust_read_tuple_create(crsr); assert(tpl != NULL); for (row = in_rows; *row->first; ++row) { err = ib_col_set_value( tpl, 0, row->first, strlen(row->first)); assert(err == DB_SUCCESS); err = ib_col_set_value( tpl, 1, row->last, strlen(row->last)); assert(err == DB_SUCCESS); err = ib_col_set_value( tpl, 2, &row->score, sizeof(row->score)); assert(err == DB_SUCCESS); err = ib_cursor_insert_row(crsr, tpl); assert(err == DB_SUCCESS); tpl = ib_tuple_clear(tpl); assert(tpl != NULL); } if (tpl != NULL) { ib_tuple_delete(tpl); } return(err); } /********************************************************************* UPDATE T SET score = score + 100 WHERE first = 'a'; */ static ib_err_t update_a_row( /*=========*/ ib_crsr_t crsr) { ib_err_t err; int res = ~0; ib_tpl_t key_tpl; ib_tpl_t old_tpl = NULL; ib_tpl_t new_tpl = NULL; /* Create a tuple for searching an index. */ key_tpl = ib_sec_search_tuple_create(crsr); assert(key_tpl != NULL); /* Set the value to look for. */ err = ib_col_set_value(key_tpl, 0, "a", 1); assert(err == DB_SUCCESS); /* Search for the key using the cluster index (PK) */ err = ib_cursor_moveto(crsr, key_tpl, IB_CUR_GE, &res); assert(err == DB_SUCCESS); /* Must be positioned on a record that's greater than search key. */ assert(res == -1); if (key_tpl != NULL) { ib_tuple_delete(key_tpl); } /* Create the tuple instance that we will use to update the table. old_tpl is used for reading the existing row and new_tpl will contain the update row data. */ old_tpl = ib_clust_read_tuple_create(crsr); assert(old_tpl != NULL); new_tpl = ib_clust_read_tuple_create(crsr); assert(new_tpl != NULL); /* Iterate over the records while the first column matches "a". */ while (err == DB_SUCCESS) { ib_u32_t score; const char* first; ib_ulint_t data_len; ib_ulint_t first_len; ib_col_meta_t col_meta; err = ib_cursor_read_row(crsr, old_tpl); assert(err == DB_SUCCESS); /* Get the first column value. */ first = ib_col_get_value(old_tpl, 0); first_len = ib_col_get_meta(old_tpl, 0, &col_meta); /* There are no SQL_NULL values in our test data. */ assert(first != NULL); /* Only update first names that are == "a". */ if (strncmp(first, "a", 1) != 0) { break; } /* Copy the old contents to the new tuple. */ err = ib_tuple_copy(new_tpl, old_tpl); /* Update the score column in the new tuple. */ data_len = ib_col_get_meta(old_tpl, 2, &col_meta); assert(data_len != IB_SQL_NULL); err = ib_tuple_read_u32(old_tpl, 2, &score); assert(err == DB_SUCCESS); score += 100; /* Set the updated value in the new tuple. */ err = ib_tuple_write_u32(new_tpl, 2, score); assert(err == DB_SUCCESS); err = ib_cursor_update_row(crsr, old_tpl, new_tpl); assert(err == DB_SUCCESS); /* Move to the next record to update. */ err = ib_cursor_next(crsr); /* Since we are searching for "a" it must always succeed. */ assert(err == DB_SUCCESS); /* Reset the old and new tuple instances. */ old_tpl = ib_tuple_clear(old_tpl); assert(old_tpl != NULL); new_tpl = ib_tuple_clear(new_tpl); assert(new_tpl != NULL); } if (old_tpl != NULL) { ib_tuple_delete(old_tpl); } if (new_tpl != NULL) { ib_tuple_delete(new_tpl); } return(err); } /********************************************************************* DELETE RFOM T WHERE first = 'b' and last = 'z'; */ static ib_err_t delete_a_row( /*=========*/ ib_crsr_t crsr) { ib_err_t err; int res = ~0; ib_tpl_t key_tpl; /* Create a tuple for searching an index. */ key_tpl = ib_sec_search_tuple_create(crsr); assert(key_tpl != NULL); /* Set the value to delete. */ err = ib_col_set_value(key_tpl, 0, "b", 1); assert(err == DB_SUCCESS); err = ib_col_set_value(key_tpl, 1, "z", 1); assert(err == DB_SUCCESS); /* Search for the key using the cluster index (PK) */ err = ib_cursor_moveto(crsr, key_tpl, IB_CUR_GE, &res); assert(err == DB_SUCCESS); /* Must be positioned on the record to delete, since we've specified an exact prefix match. */ assert(res == 0); if (key_tpl != NULL) { ib_tuple_delete(key_tpl); } /* InnoDB handles the updating of all secondary indexes. */ err = ib_cursor_delete_row(crsr); assert(err == DB_SUCCESS); return(err); } /********************************************************************* SELECT * FROM T; */ static ib_err_t do_query( /*=====*/ ib_crsr_t crsr) { ib_err_t err; ib_tpl_t tpl; tpl = ib_clust_read_tuple_create(crsr); assert(tpl != NULL); err = ib_cursor_first(crsr); assert(err == DB_SUCCESS); while (err == DB_SUCCESS) { err = ib_cursor_read_row(crsr, tpl); assert(err == DB_SUCCESS || err == DB_END_OF_INDEX || err == DB_RECORD_NOT_FOUND); if (err == DB_RECORD_NOT_FOUND || err == DB_END_OF_INDEX) { break; } print_tuple(stdout, tpl); err = ib_cursor_next(crsr); assert(err == DB_SUCCESS || err == DB_END_OF_INDEX || err == DB_RECORD_NOT_FOUND); tpl = ib_tuple_clear(tpl); assert(tpl != NULL); } if (tpl != NULL) { ib_tuple_delete(tpl); } if (err == DB_RECORD_NOT_FOUND || err == DB_END_OF_INDEX) { err = DB_SUCCESS; } return(err); } /********************************************************************* Drop the table. */ static ib_err_t drop_table( /*=======*/ const char* dbname, /* in: database name */ const char* name) /* in: table to drop */ { ib_err_t err; char table_name[IB_MAX_TABLE_NAME_LEN]; #ifdef __WIN__ sprintf(table_name, "%s/%s", dbname, name); #else snprintf(table_name, sizeof(table_name), "%s/%s", dbname, name); #endif err = ib_table_drop(table_name); return(err); } int main(int argc, char* argv[]) { ib_err_t err; ib_crsr_t crsr; ib_trx_t ib_trx; ib_u64_t version; version = ib_api_version(); printf("API: %d.%d.%d\n", (int) (version >> 32), /* Current version */ (int) ((version >> 16)) & 0xffff, /* Revisiion */ (int) (version & 0xffff)); /* Age */ ib_init(); test_configure(); err = ib_startup("barracuda"); assert(err == DB_SUCCESS); err = create_database(DATABASE); assert(err == DB_SUCCESS); printf("Create table\n"); err = create_table(DATABASE, TABLE); assert(err == DB_SUCCESS); printf("Begin transaction\n"); ib_trx = ib_trx_begin(IB_TRX_REPEATABLE_READ); assert(ib_trx != NULL); printf("Open cursor\n"); err = open_table(DATABASE, TABLE, ib_trx, &crsr); assert(err == DB_SUCCESS); printf("Lock table in IX\n"); err = ib_cursor_lock(crsr, IB_LOCK_IX); assert(err == DB_SUCCESS); printf("Insert rows\n"); err = insert_rows(crsr); assert(err == DB_SUCCESS); printf("Query table\n"); err = do_query(crsr); assert(err == DB_SUCCESS); printf("Update a row\n"); err = update_a_row(crsr); assert(err == DB_SUCCESS); printf("Query table\n"); err = do_query(crsr); assert(err == DB_SUCCESS); printf("Delete a row\n"); err = delete_a_row(crsr); assert(err == DB_SUCCESS); printf("Query table\n"); err = do_query(crsr); assert(err == DB_SUCCESS); printf("Close cursor\n"); err = ib_cursor_close(crsr); assert(err == DB_SUCCESS); crsr = NULL; printf("Commit transaction\n"); err = ib_trx_commit(ib_trx); assert(err == DB_SUCCESS); printf("Drop table\n"); err = drop_table(DATABASE, TABLE); assert(err == DB_SUCCESS); err = ib_shutdown(); assert(err == DB_SUCCESS); #ifdef UNIV_DEBUG_VALGRIND VALGRIND_DO_LEAK_CHECK; #endif return(EXIT_SUCCESS); }