Commit a112b6ee authored by Bradley C. Kuszmaul's avatar Bradley C. Kuszmaul

Addresses #162.

Simplified version has trouble if we change the line 402 to a 3 or a 2 then its bad or good to do:
 make && ./test_db_cursor.tdb 1 && ./test_db_cursor.tdb 1 --more


git-svn-id: file:///svn/tokudb@1031 c7de825b-a66e-492c-adef-691d508d4ae1
parent 596dfb8e
......@@ -11,7 +11,7 @@
#include "test.h"
enum mode {
static enum mode {
MODE_DEFAULT, MODE_DB_CREATE, MODE_MORE
} mode;
......@@ -19,15 +19,11 @@ enum mode {
/* Primary is a map from a UID which consists of a random number followed by the current time. */
struct timestamp {
unsigned int tv_sec; /* in newtork order */
unsigned int tv_usec; /* in network order */
};
typedef unsigned int timestamp;
struct primary_key {
int rand; /* in network order */
struct timestamp ts;
timestamp ts;
};
struct name_key {
......@@ -35,40 +31,39 @@ struct name_key {
};
struct primary_data {
struct timestamp creationtime;
struct timestamp expiretime; /* not valid if doesexpire==0 */
timestamp creationtime;
timestamp expiretime; /* not valid if doesexpire==0 */
unsigned char doesexpire;
struct name_key name;
};
void free_pd (struct primary_data *pd) {
static void free_pd (struct primary_data *pd) {
free(pd->name.name);
free(pd);
}
void write_uchar_to_dbt (DBT *dbt, const unsigned char c) {
static void write_uchar_to_dbt (DBT *dbt, const unsigned char c) {
assert(dbt->size+1 <= dbt->ulen);
((char*)dbt->data)[dbt->size++]=c;
}
void write_uint_to_dbt (DBT *dbt, const unsigned int v) {
static void write_uint_to_dbt (DBT *dbt, const unsigned int v) {
write_uchar_to_dbt(dbt, (v>>24)&0xff);
write_uchar_to_dbt(dbt, (v>>16)&0xff);
write_uchar_to_dbt(dbt, (v>> 8)&0xff);
write_uchar_to_dbt(dbt, (v>> 0)&0xff);
}
void write_timestamp_to_dbt (DBT *dbt, const struct timestamp *ts) {
write_uint_to_dbt(dbt, ts->tv_sec);
write_uint_to_dbt(dbt, ts->tv_usec);
static void write_timestamp_to_dbt (DBT *dbt, timestamp ts) {
write_uint_to_dbt(dbt, ts);
}
void write_pk_to_dbt (DBT *dbt, const struct primary_key *pk) {
static void write_pk_to_dbt (DBT *dbt, const struct primary_key *pk) {
write_uint_to_dbt(dbt, pk->rand);
write_timestamp_to_dbt(dbt, &pk->ts);
write_timestamp_to_dbt(dbt, pk->ts);
}
void write_name_to_dbt (DBT *dbt, const struct name_key *nk) {
static void write_name_to_dbt (DBT *dbt, const struct name_key *nk) {
int i;
for (i=0; 1; i++) {
write_uchar_to_dbt(dbt, nk->name[i]);
......@@ -76,19 +71,19 @@ void write_name_to_dbt (DBT *dbt, const struct name_key *nk) {
}
}
void write_pd_to_dbt (DBT *dbt, const struct primary_data *pd) {
write_timestamp_to_dbt(dbt, &pd->creationtime);
write_timestamp_to_dbt(dbt, &pd->expiretime);
static void write_pd_to_dbt (DBT *dbt, const struct primary_data *pd) {
write_timestamp_to_dbt(dbt, pd->creationtime);
write_timestamp_to_dbt(dbt, pd->expiretime);
write_uchar_to_dbt(dbt, pd->doesexpire);
write_name_to_dbt(dbt, &pd->name);
}
void read_uchar_from_dbt (const DBT *dbt, int *off, unsigned char *uchar) {
static void read_uchar_from_dbt (const DBT *dbt, int *off, unsigned char *uchar) {
assert(*off < dbt->size);
*uchar = ((unsigned char *)dbt->data)[(*off)++];
}
void read_uint_from_dbt (const DBT *dbt, int *off, unsigned int *uint) {
static void read_uint_from_dbt (const DBT *dbt, int *off, unsigned int *uint) {
unsigned char a,b,c,d;
read_uchar_from_dbt(dbt, off, &a);
read_uchar_from_dbt(dbt, off, &b);
......@@ -97,12 +92,11 @@ void read_uint_from_dbt (const DBT *dbt, int *off, unsigned int *uint) {
*uint = (a<<24)+(b<<16)+(c<<8)+d;
}
void read_timestamp_from_dbt (const DBT *dbt, int *off, struct timestamp *ts) {
read_uint_from_dbt(dbt, off, &ts->tv_sec);
read_uint_from_dbt(dbt, off, &ts->tv_usec);
static void read_timestamp_from_dbt (const DBT *dbt, int *off, timestamp *ts) {
read_uint_from_dbt(dbt, off, ts);
}
void read_name_from_dbt (const DBT *dbt, int *off, struct name_key *nk) {
static void read_name_from_dbt (const DBT *dbt, int *off, struct name_key *nk) {
unsigned char buf[1000];
int i;
for (i=0; 1; i++) {
......@@ -112,18 +106,18 @@ void read_name_from_dbt (const DBT *dbt, int *off, struct name_key *nk) {
nk->name=(unsigned char*)(strdup((char*)buf));
}
void read_pd_from_dbt (const DBT *dbt, int *off, struct primary_data *pd) {
static void read_pd_from_dbt (const DBT *dbt, int *off, struct primary_data *pd) {
read_timestamp_from_dbt(dbt, off, &pd->creationtime);
read_timestamp_from_dbt(dbt, off, &pd->expiretime);
read_uchar_from_dbt(dbt, off, &pd->doesexpire);
read_name_from_dbt(dbt, off, &pd->name);
}
int name_offset_in_pd_dbt (void) {
return 17;
static int name_offset_in_pd_dbt (void) {
return 13;
}
int name_callback (DB *secondary __attribute__((__unused__)), const DBT *key, const DBT *data, DBT *result) {
static int name_callback (DB *secondary __attribute__((__unused__)), const DBT *key, const DBT *data, DBT *result) {
struct primary_data *pd = malloc(sizeof(*pd));
int off=0;
read_pd_from_dbt(data, &off, pd);
......@@ -137,11 +131,11 @@ int name_callback (DB *secondary __attribute__((__unused__)), const DBT *key, co
return 0;
}
int expire_callback (DB *secondary __attribute__((__unused__)), const DBT *key, const DBT *data, DBT *result) {
static int expire_callback (DB *secondary __attribute__((__unused__)), const DBT *key, const DBT *data, DBT *result) {
struct primary_data *d = data->data;
if (d->doesexpire) {
result->flags=0;
result->size=sizeof(struct timestamp);
result->size=sizeof(timestamp);
result->data=&d->expiretime;
return 0;
} else {
......@@ -151,21 +145,28 @@ int expire_callback (DB *secondary __attribute__((__unused__)), const DBT *key,
// The expire_key is simply a timestamp.
DB_ENV *dbenv;
DB *dbp,*namedb,*expiredb;
static DB_ENV *dbenv;
static DB *dbp,*namedb,*expiredb;
DB_TXN * const null_txn=0;
static DB_TXN * const null_txn=0;
DBC *delete_cursor=0, *name_cursor=0;
static DBC *delete_cursor=0, *name_cursor=0;
// We use a cursor to count the names.
int cursor_count_n_items=0; // The number of items the cursor saw as it scanned over.
int calc_n_items=0; // The number of items we expect the cursor to acount
int count_all_items=0; // The total number of items
DBT nc_key,nc_data;
static int cursor_count_n_items=0; // The number of items the cursor saw as it scanned over.
static int calc_n_items=0; // The number of items we expect the cursor to acount
static int count_all_items=0; // The total number of items
static DBT nc_key,nc_data;
#if 0
static struct expire_order {
long long ts;
struct primary_key pk;
} *expire_orders;
static int n_expire_orders=0;
#endif
void create_databases (void) {
static void create_databases (void) {
int r;
r = db_env_create(&dbenv, 0); CKERR(r);
......@@ -184,7 +185,7 @@ void create_databases (void) {
r = dbp->associate(dbp, NULL, expiredb, expire_callback, 0); CKERR(r);
}
void close_databases (void) {
static void close_databases (void) {
int r;
if (delete_cursor) {
r = delete_cursor->c_close(delete_cursor); CKERR(r);
......@@ -201,39 +202,12 @@ void close_databases (void) {
}
void gettod (struct timestamp *ts) {
struct timeval tv;
int r = gettimeofday(&tv, 0);
assert(r==0);
ts->tv_sec = htonl(tv.tv_sec);
ts->tv_usec = htonl(tv.tv_usec);
}
void setup_for_db_create (void) {
// Remove name.db and then rebuild it with associate(... DB_CREATE)
int r=unlink(DIR "/name.db");
assert(r==0);
r = db_env_create(&dbenv, 0); CKERR(r);
r = dbenv->open(dbenv, DIR, DB_PRIVATE|DB_INIT_MPOOL, 0); CKERR(r);
r = db_create(&dbp, dbenv, 0); CKERR(r);
r = dbp->open(dbp, null_txn, "primary.db", NULL, DB_BTREE, 0, 0600); CKERR(r);
r = db_create(&namedb, dbenv, 0); CKERR(r);
r = namedb->open(namedb, null_txn, "name.db", NULL, DB_BTREE, DB_CREATE, 0600); CKERR(r);
r = db_create(&expiredb, dbenv, 0); CKERR(r);
r = expiredb->open(expiredb, null_txn, "expire.db", NULL, DB_BTREE, 0, 0600); CKERR(r);
r = dbp->associate(dbp, NULL, expiredb, expire_callback, 0); CKERR(r);
r = dbp->associate(dbp, NULL, namedb, name_callback, DB_CREATE); CKERR(r);
static void gettod (timestamp *ts) {
static timestamp ts_counter=0;
*ts = ts_counter++;
}
int count_entries (DB *db) {
static int count_entries (DB *db) {
DBC *dbc;
int r = db->cursor(db, null_txn, &dbc, 0); CKERR(r);
DBT key,data;
......@@ -250,15 +224,15 @@ int count_entries (DB *db) {
return n_found;
}
void do_create (void) {
setup_for_db_create();
static void do_create (void) {
create_databases();
// Now check to see if the number of names matches the number of associated things.
int n_named = count_entries(namedb);
int n_prim = count_entries(dbp);
assert(n_named==n_prim);
}
void insert_person (void) {
static void insert_person (void) {
int namelen = 5+random()%245;
struct primary_key pk;
struct primary_data pd;
......@@ -268,7 +242,7 @@ void insert_person (void) {
gettod(&pk.ts);
pd.creationtime = pk.ts;
pd.expiretime = pk.ts;
pd.expiretime.tv_sec += 24*60*60*366;
pd.expiretime += 24*60*60*366;
pd.doesexpire = (random()%10==0);
int i;
pd.name.name = namearray;
......@@ -298,8 +272,9 @@ void insert_person (void) {
}
}
void delete_oldest_expired (void) {
static void delete_oldest_expired (void) {
int r;
printf("%s:%d deleting\n", __FILE__, __LINE__);
if (delete_cursor==0) {
r = expiredb->cursor(expiredb, null_txn, &delete_cursor, 0); CKERR(r);
......@@ -333,7 +308,7 @@ void delete_oldest_expired (void) {
}
// Use a cursor to step through the names.
void step_name (void) {
static void step_name (void) {
int r;
if (name_cursor==0) {
r = namedb->cursor(namedb, null_txn, &name_cursor, 0); CKERR(r);
......@@ -357,9 +332,9 @@ void step_name (void) {
}
}
int cursor_load=2; /* Set this to a higher number to do more cursor work for every insertion. Needed to get to the end. */
static int cursor_load=2; /* Set this to a higher number to do more cursor work for every insertion. Needed to get to the end. */
void activity (void) {
static void activity (void) {
if (random()%20==0) {
// Delete the oldest expired one. Keep the cursor open
delete_oldest_expired();
......@@ -372,7 +347,7 @@ void activity (void) {
}
void usage (const char *argv1) {
static void usage (const char *argv1) {
fprintf(stderr, "Usage:\n %s [ --DB-CREATE | --more ] seed ", argv1);
exit(1);
}
......@@ -424,9 +399,11 @@ int main (int argc, const char *argv[]) {
create_databases();
{
int i;
for (i=0; i<100; i++)
for (i=0; i<3; i++) {
if (i==100) srandom(useseed);
activity();
}
}
break;
case MODE_MORE:
create_databases();
......@@ -437,9 +414,11 @@ int main (int argc, const char *argv[]) {
int i;
cursor_load = 8*(1+2*count_all_items/n_activities);
printf("%s:%d count=%d cursor_load=%d\n", __FILE__, __LINE__, count_all_items, cursor_load);
for (i=0; i<n_activities; i++)
for (i=0; i<n_activities; i++) {
printf("%d.", i);
activity();
}
}
break;
case MODE_DB_CREATE:
do_create();
......
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