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/* Copyright 2016 Software Freedom Conservancy Inc.
*
* This software is licensed under the GNU LGPL (version 2.1 or later).
* See the COPYING file in this distribution.
*/
public errordomain DatabaseError {
ERROR,
BACKING,
MEMORY,
ABORT,
LIMITS,
TYPESPEC
}
public abstract class DatabaseTable {
/***
* This number should be incremented every time any database schema is altered.
*
* NOTE: Adding or removing tables or removing columns do not need a new schema version, because
* tables are created on demand and tables and columns are easily ignored when already present.
* However, the change should be noted in upgrade_database() as a comment.
***/
public const int SCHEMA_VERSION = 20;
protected static Sqlite.Database db;
private static int in_transaction = 0;
public string table_name = null;
private static void prepare_db(string filename) {
// Open DB.
int res = Sqlite.Database.open_v2(filename, out db, Sqlite.OPEN_READWRITE | Sqlite.OPEN_CREATE,
null);
if (res != Sqlite.OK)
AppWindow.panic(_("Unable to open/create photo database %s: error code %d").printf(filename,
res));
// Check if we have write access to database.
if (filename != Db.IN_MEMORY_NAME) {
try {
File file_db = File.new_for_path(filename);
FileInfo info = file_db.query_info(FileAttribute.ACCESS_CAN_WRITE, FileQueryInfoFlags.NONE);
if (!info.get_attribute_boolean(FileAttribute.ACCESS_CAN_WRITE))
AppWindow.panic(_("Unable to write to photo database file:\n %s").printf(filename));
} catch (Error e) {
AppWindow.panic(_("Error accessing database file:\n %s\n\nError was: \n%s").printf(filename,
e.message));
}
}
unowned string? sql_debug = Environment.get_variable
("SHOTWELL_SQL_DEBUG");
if (sql_debug != null && sql_debug != "") {
db.trace (on_trace);
}
}
public static void on_trace (string message) {
debug ("SQLITE: %s", message);
}
public static void init(string filename) {
// Open DB.
prepare_db(filename);
// Try a query to make sure DB is intact; if not, try to use the backup
Sqlite.Statement stmt;
int res = db.prepare_v2("CREATE TABLE IF NOT EXISTS VersionTable ("
+ "id INTEGER PRIMARY KEY, "
+ "schema_version INTEGER, "
+ "app_version TEXT, "
+ "user_data TEXT NULL"
+ ")", -1, out stmt);
// Query on db failed, copy over backup and open it
if(res != Sqlite.OK) {
db = null;
string backup_path = filename + ".bak";
try {
File src = File.new_for_commandline_arg(backup_path);
File dest = File.new_for_commandline_arg(filename);
src.copy(dest,
FileCopyFlags.OVERWRITE |
FileCopyFlags.ALL_METADATA);
prepare_db(filename);
} catch (Error error) {
AppWindow.panic(_("Unable to restore photo database %s").printf(error.message));
}
}
// disable synchronized commits for performance reasons ... this is not vital, hence we
// don't error out if this fails
res = db.exec("PRAGMA synchronous=OFF");
if (res != Sqlite.OK)
warning("Unable to disable synchronous mode", res);
}
public static void terminate() {
// freeing the database closes it
db = null;
}
// XXX: errmsg() is global, and so this will not be accurate in a threaded situation
protected static void fatal(string op, int res) {
error("%s: [%d] %s", op, res, db.errmsg());
}
// XXX: errmsg() is global, and so this will not be accurate in a threaded situation
protected static void warning(string op, int res) {
GLib.warning("%s: [%d] %s", op, res, db.errmsg());
}
protected void set_table_name(string table_name) {
this.table_name = table_name;
}
// This method will throw an error on an SQLite return code unless it's OK, DONE, or ROW, which
// are considered normal results.
protected static void throw_error(string method, int res) throws DatabaseError {
string msg = "(%s) [%d] - %s".printf(method, res, db.errmsg());
switch (res) {
case Sqlite.OK:
case Sqlite.DONE:
case Sqlite.ROW:
return;
case Sqlite.PERM:
case Sqlite.BUSY:
case Sqlite.READONLY:
case Sqlite.IOERR:
case Sqlite.CORRUPT:
case Sqlite.CANTOPEN:
case Sqlite.NOLFS:
case Sqlite.AUTH:
case Sqlite.FORMAT:
case Sqlite.NOTADB:
throw new DatabaseError.BACKING(msg);
case Sqlite.NOMEM:
throw new DatabaseError.MEMORY(msg);
case Sqlite.ABORT:
case Sqlite.LOCKED:
case Sqlite.INTERRUPT:
throw new DatabaseError.ABORT(msg);
case Sqlite.FULL:
case Sqlite.EMPTY:
case Sqlite.TOOBIG:
case Sqlite.CONSTRAINT:
case Sqlite.RANGE:
throw new DatabaseError.LIMITS(msg);
case Sqlite.SCHEMA:
case Sqlite.MISMATCH:
throw new DatabaseError.TYPESPEC(msg);
case Sqlite.ERROR:
case Sqlite.INTERNAL:
case Sqlite.MISUSE:
default:
throw new DatabaseError.ERROR(msg);
}
}
protected bool exists_by_id(int64 id) {
Sqlite.Statement stmt;
int res = db.prepare_v2("SELECT id FROM %s WHERE id=?".printf(table_name), -1, out stmt);
assert(res == Sqlite.OK);
res = stmt.bind_int64(1, id);
assert(res == Sqlite.OK);
res = stmt.step();
if (res != Sqlite.ROW && res != Sqlite.DONE)
fatal("exists_by_id [%s] %s".printf(id.to_string(), table_name), res);
return (res == Sqlite.ROW);
}
protected bool select_by_id(int64 id, string columns, out Sqlite.Statement stmt) {
string sql = "SELECT %s FROM %s WHERE id=?".printf(columns, table_name);
int res = db.prepare_v2(sql, -1, out stmt);
assert(res == Sqlite.OK);
res = stmt.bind_int64(1, id);
assert(res == Sqlite.OK);
res = stmt.step();
if (res != Sqlite.ROW && res != Sqlite.DONE)
fatal("select_by_id [%s] %s %s".printf(id.to_string(), table_name, columns), res);
return (res == Sqlite.ROW);
}
// Caller needs to bind value #1 before calling execute_update_by_id()
private void prepare_update_by_id(int64 id, string column, out Sqlite.Statement stmt) {
string sql = "UPDATE %s SET %s=? WHERE id=?".printf(table_name, column);
int res = db.prepare_v2(sql, -1, out stmt);
assert(res == Sqlite.OK);
res = stmt.bind_int64(2, id);
assert(res == Sqlite.OK);
}
private bool execute_update_by_id(Sqlite.Statement stmt) {
int res = stmt.step();
if (res != Sqlite.DONE) {
fatal("execute_update_by_id", res);
return false;
}
return true;
}
protected bool update_text_by_id(int64 id, string column, string text) {
Sqlite.Statement stmt;
prepare_update_by_id(id, column, out stmt);
int res = stmt.bind_text(1, text);
assert(res == Sqlite.OK);
return execute_update_by_id(stmt);
}
protected void update_text_by_id_2(int64 id, string column, string text) throws DatabaseError {
Sqlite.Statement stmt;
prepare_update_by_id(id, column, out stmt);
int res = stmt.bind_text(1, text);
assert(res == Sqlite.OK);
res = stmt.step();
if (res != Sqlite.DONE)
throw_error("DatabaseTable.update_text_by_id_2 %s.%s".printf(table_name, column), res);
}
protected bool update_int_by_id(int64 id, string column, int value) {
Sqlite.Statement stmt;
prepare_update_by_id(id, column, out stmt);
int res = stmt.bind_int(1, value);
assert(res == Sqlite.OK);
return execute_update_by_id(stmt);
}
protected void update_int_by_id_2(int64 id, string column, int value) throws DatabaseError {
Sqlite.Statement stmt;
prepare_update_by_id(id, column, out stmt);
int res = stmt.bind_int(1, value);
assert(res == Sqlite.OK);
res = stmt.step();
if (res != Sqlite.DONE)
throw_error("DatabaseTable.update_int_by_id_2 %s.%s".printf(table_name, column), res);
}
protected bool update_int64_by_id(int64 id, string column, int64 value) {
Sqlite.Statement stmt;
prepare_update_by_id(id, column, out stmt);
int res = stmt.bind_int64(1, value);
assert(res == Sqlite.OK);
return execute_update_by_id(stmt);
}
protected void update_int64_by_id_2(int64 id, string column, int64 value) throws DatabaseError {
Sqlite.Statement stmt;
prepare_update_by_id(id, column, out stmt);
int res = stmt.bind_int64(1, value);
assert(res == Sqlite.OK);
res = stmt.step();
if (res != Sqlite.DONE)
throw_error("DatabaseTable.update_int64_by_id_2 %s.%s".printf(table_name, column), res);
}
protected void delete_by_id(int64 id) throws DatabaseError {
Sqlite.Statement stmt;
int res = db.prepare_v2("DELETE FROM %s WHERE id=?".printf(table_name), -1, out stmt);
assert(res == Sqlite.OK);
res = stmt.bind_int64(1, id);
assert(res == Sqlite.OK);
res = stmt.step();
if (res != Sqlite.DONE)
throw_error("%s.remove".printf(table_name), res);
}
public static bool has_column(string table_name, string column_name) {
Sqlite.Statement stmt;
int res = db.prepare_v2("PRAGMA table_info(%s)".printf(table_name), -1, out stmt);
assert(res == Sqlite.OK);
for (;;) {
res = stmt.step();
if (res == Sqlite.DONE) {
break;
} else if (res != Sqlite.ROW) {
fatal("has_column %s".printf(table_name), res);
break;
} else {
string column = stmt.column_text(1);
if (column != null && column == column_name)
return true;
}
}
return false;
}
public static bool has_table(string table_name) {
Sqlite.Statement stmt;
int res = db.prepare_v2("PRAGMA table_info(%s)".printf(table_name), -1, out stmt);
assert(res == Sqlite.OK);
res = stmt.step();
return (res != Sqlite.DONE);
}
public static bool add_column(string table_name, string column_name, string column_constraints) {
Sqlite.Statement stmt;
int res = db.prepare_v2("ALTER TABLE %s ADD COLUMN %s %s".printf(table_name, column_name,
column_constraints), -1, out stmt);
assert(res == Sqlite.OK);
res = stmt.step();
if (res != Sqlite.DONE) {
critical("Unable to add column %s %s %s: (%d) %s", table_name, column_name, column_constraints,
res, db.errmsg());
return false;
}
return true;
}
// This method will only add the column if a table exists (relying on the table object
// to build a new one when first referenced) and only if the column does not exist. In essence,
// it's a cleaner way to run has_table(), has_column(), and add_column().
public static bool ensure_column(string table_name, string column_name, string column_constraints,
string upgrade_msg) {
if (!has_table(table_name) || has_column(table_name, column_name))
return true;
message("%s", upgrade_msg);
return add_column(table_name, column_name, column_constraints);
}
public int get_row_count() {
Sqlite.Statement stmt;
int res = db.prepare_v2("SELECT COUNT(id) AS RowCount FROM %s".printf(table_name), -1, out stmt);
assert(res == Sqlite.OK);
res = stmt.step();
if (res != Sqlite.ROW) {
critical("Unable to retrieve row count on %s: (%d) %s", table_name, res, db.errmsg());
return 0;
}
return stmt.column_int(0);
}
// This is not thread-safe.
public static void begin_transaction() {
if (in_transaction++ != 0)
return;
int res = db.exec("BEGIN TRANSACTION");
assert(res == Sqlite.OK);
}
// This is not thread-safe.
public static void commit_transaction() throws DatabaseError {
assert(in_transaction > 0);
if (--in_transaction != 0)
return;
int res = db.exec("COMMIT TRANSACTION");
if (res != Sqlite.DONE)
throw_error("commit_transaction", res);
}
}
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