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/*
* File: sqldbm.cc
* Summary: dbm wrapper for SQLite
* Written by: Darshan Shaligram
*/
#include "AppHdr.h"
#include "sqldbm.h"
#include "stuff.h"
#include <cstring>
#ifdef USE_SQLITE_DBM
SQL_DBM::SQL_DBM(const std::string &dbname, bool do_open)
: error(), errc(SQLITE_OK), db(NULL), s_insert(NULL),
s_query(NULL), s_iterator(NULL), dbfile(dbname)
{
if (do_open && !dbfile.empty())
open();
}
SQL_DBM::~SQL_DBM()
{
close();
}
int SQL_DBM::ec(int err)
{
if (err == SQLITE_OK)
error.clear();
else if (db)
error = sqlite3_errmsg(db);
else
error = "Unknown error";
return (errc = err);
}
bool SQL_DBM::is_open() const
{
return !!db;
}
int SQL_DBM::open(const std::string &s)
{
close();
if (!s.empty())
dbfile = s;
if (!dbfile.empty())
{
if (dbfile.find(".db") != dbfile.length() - 3)
dbfile += ".db";
if (ec( sqlite3_open(dbfile.c_str(), &db) ) != SQLITE_OK)
{
std::string saveerr = error;
int serrc = errc;
close();
error = saveerr;
errc = serrc;
return (errc);
}
init_schema();
}
else
error = "No filename!";
return (errc);
}
int SQL_DBM::init_schema()
{
int err = ec(sqlite3_exec(
db,
"CREATE TABLE dbm (key STRING UNIQUE PRIMARY KEY,"
" value STRING);",
NULL,
NULL,
NULL));
// Turn off auto-commit
sqlite3_exec(db, "BEGIN;", NULL, NULL, NULL);
return (err);
}
void SQL_DBM::close()
{
if (db)
{
sqlite3_exec(db, "COMMIT;", NULL, NULL, NULL);
finalise_query(&s_insert);
finalise_query(&s_query);
finalise_query(&s_iterator);
sqlite3_close(db);
db = NULL;
}
}
int SQL_DBM::insert(const std::string &key, const std::string &value)
{
if (init_insert() != SQLITE_OK)
return (errc);
ec(sqlite3_bind_text(s_insert, 1, key.c_str(), -1, SQLITE_TRANSIENT));
if (errc != SQLITE_OK)
return (errc);
ec(sqlite3_bind_text(s_insert, 2, value.c_str(), -1, SQLITE_TRANSIENT));
if (errc != SQLITE_OK)
return (errc);
ec(sqlite3_step(s_insert));
sqlite3_reset(s_insert);
return (errc);
}
int SQL_DBM::init_insert()
{
return s_insert? SQLITE_OK :
prepare_query(&s_insert, "INSERT INTO dbm VALUES (?, ?)");
}
std::string SQL_DBM::query(const std::string &key)
{
if (init_query() != SQLITE_OK)
return ("");
if (ec(sqlite3_bind_text(s_query, 1, key.c_str(), -1, SQLITE_TRANSIENT))
!= SQLITE_OK)
{
return ("");
}
int err = SQLITE_OK;
std::string res;
while ((err = ec(sqlite3_step(s_query))) == SQLITE_ROW)
res = (const char *) sqlite3_column_text(s_query, 0);
sqlite3_reset(s_query);
return (res);
}
std::auto_ptr<std::string> SQL_DBM::firstkey()
{
if (init_iterator() != SQLITE_OK)
{
std::auto_ptr<std::string> result;
return (result);
}
return nextkey();
}
std::auto_ptr<std::string> SQL_DBM::nextkey()
{
std::auto_ptr<std::string> result;
if (s_iterator)
{
int err = SQLITE_OK;
if ((err = ec(sqlite3_step(s_iterator))) == SQLITE_ROW)
result.reset(
new std::string(
(const char *) sqlite3_column_text(s_iterator, 0) ));
else
sqlite3_reset(s_iterator);
}
return (result);
}
int SQL_DBM::init_query()
{
return s_query? SQLITE_OK :
prepare_query(&s_query, "SELECT value FROM dbm WHERE key = ?");
}
int SQL_DBM::init_iterator()
{
return s_iterator? SQLITE_OK :
prepare_query(&s_iterator, "SELECT key FROM dbm");
}
int SQL_DBM::finalise_query(sqlite3_stmt **q)
{
if (!*q)
return (SQLITE_OK);
sqlite3_reset(*q);
int ret = ec(sqlite3_finalize(*q));
*q = NULL;
return (ret);
}
int SQL_DBM::prepare_query(sqlite3_stmt **q, const char *sql)
{
if (*q)
finalise_query(q);
const char *query_tail;
return ec(sqlite3_prepare_v2(db, sql, -1, q, &query_tail));
}
////////////////////////////////////////////////////////////////////////
sql_datum::sql_datum() : dptr(NULL), dsize(0), need_free(false)
{
}
sql_datum::sql_datum(const std::string &s) : dptr(NULL), dsize(s.length()),
need_free(false)
{
if ((dptr = new char [dsize]))
{
if (dsize)
memcpy(dptr, s.c_str(), dsize);
need_free = true;
}
}
sql_datum::sql_datum(const sql_datum &dat) : dptr(NULL), dsize(0), need_free(false)
{
init_from(dat);
}
sql_datum::~sql_datum()
{
reset();
}
sql_datum &sql_datum::operator = (const sql_datum &d)
{
if (&d != this)
{
reset();
init_from(d);
}
return (*this);
}
void sql_datum::reset()
{
if (need_free)
delete [] dptr;
dptr = NULL;
dsize = 0;
}
void sql_datum::init_from(const sql_datum &d)
{
dsize = d.dsize;
need_free = false;
if (d.need_free)
{
if ((dptr = new char [dsize]))
{
if (dsize)
memcpy(dptr, d.dptr, dsize);
need_free = true;
}
}
else
{
need_free = false;
dptr = d.dptr;
}
}
std::string sql_datum::to_str() const
{
return std::string(dptr, dsize);
}
////////////////////////////////////////////////////////////////////////
SQL_DBM *dbm_open(const char *filename, int, int)
{
SQL_DBM *n = new SQL_DBM(filename, true);
if (!n->is_open())
{
delete n;
return (NULL);
}
return (n);
}
int dbm_close(SQL_DBM *db)
{
delete db;
return (0);
}
sql_datum dbm_fetch(SQL_DBM *db, const sql_datum &key)
{
std::string ans = db->query(std::string(key.dptr, key.dsize));
return sql_datum(ans);
}
static sql_datum dbm_key(
SQL_DBM *db,
std::auto_ptr<std::string> (SQL_DBM::*key)())
{
std::auto_ptr<std::string> res = (db->*key)();
if (res.get())
return sql_datum(*res.get());
else
{
sql_datum dummy;
return dummy;
}
}
sql_datum dbm_firstkey(SQL_DBM *db)
{
return dbm_key(db, &SQL_DBM::firstkey);
}
sql_datum dbm_nextkey(SQL_DBM *db)
{
return dbm_key(db, &SQL_DBM::nextkey);
}
int dbm_store(SQL_DBM *db, const sql_datum &key, const sql_datum &value, int)
{
int err = db->insert(key.to_str(), value.to_str());
if (err == SQLITE_DONE || err == SQLITE_CONSTRAINT)
err = SQLITE_OK;
else
end(1, false, "%d: %s", db->errc, db->error.c_str());
return (err);
}
#endif // USE_SQLITE_DBM
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