#include "sqlite.hh" #include <atomic> #include <glog/logging.h> #include <sqlite3.h> #include "util.hh" namespace nix { [[noreturn]] void throwSQLiteError(sqlite3* db, const FormatOrString& fs) { int err = sqlite3_errcode(db); int exterr = sqlite3_extended_errcode(db); auto path = sqlite3_db_filename(db, nullptr); if (path == nullptr) { path = "(in-memory)"; } if (err == SQLITE_BUSY || err == SQLITE_PROTOCOL) { throw SQLiteBusy( err == SQLITE_PROTOCOL ? fmt("SQLite database '%s' is busy (SQLITE_PROTOCOL)", path) : fmt("SQLite database '%s' is busy", path)); } throw SQLiteError("%s: %s (in '%s')", fs.s, sqlite3_errstr(exterr), path); } SQLite::SQLite(const Path& path) { if (sqlite3_open_v2(path.c_str(), &db, SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE, nullptr) != SQLITE_OK) { throw Error(format("cannot open SQLite database '%s'") % path); } } SQLite::~SQLite() { try { if ((db != nullptr) && sqlite3_close(db) != SQLITE_OK) { throwSQLiteError(db, "closing database"); } } catch (...) { ignoreException(); } } void SQLite::exec(const std::string& stmt) { retrySQLite<void>([&]() { if (sqlite3_exec(db, stmt.c_str(), nullptr, nullptr, nullptr) != SQLITE_OK) { throwSQLiteError(db, format("executing SQLite statement '%s'") % stmt); } }); } void SQLiteStmt::create(sqlite3* db, const string& sql) { checkInterrupt(); assert(!stmt); if (sqlite3_prepare_v2(db, sql.c_str(), -1, &stmt, nullptr) != SQLITE_OK) { throwSQLiteError(db, fmt("creating statement '%s'", sql)); } this->db = db; this->sql = sql; } SQLiteStmt::~SQLiteStmt() { try { if ((stmt != nullptr) && sqlite3_finalize(stmt) != SQLITE_OK) { throwSQLiteError(db, fmt("finalizing statement '%s'", sql)); } } catch (...) { ignoreException(); } } SQLiteStmt::Use::Use(SQLiteStmt& stmt) : stmt(stmt) { assert(stmt.stmt); /* Note: sqlite3_reset() returns the error code for the most recent call to sqlite3_step(). So ignore it. */ sqlite3_reset(stmt); } SQLiteStmt::Use::~Use() { sqlite3_reset(stmt); } SQLiteStmt::Use& SQLiteStmt::Use::operator()(const std::string& value, bool notNull) { if (notNull) { if (sqlite3_bind_text(stmt, curArg++, value.c_str(), -1, SQLITE_TRANSIENT) != SQLITE_OK) { throwSQLiteError(stmt.db, "binding argument"); } } else { bind(); } return *this; } SQLiteStmt::Use& SQLiteStmt::Use::operator()(int64_t value, bool notNull) { if (notNull) { if (sqlite3_bind_int64(stmt, curArg++, value) != SQLITE_OK) { throwSQLiteError(stmt.db, "binding argument"); } } else { bind(); } return *this; } SQLiteStmt::Use& SQLiteStmt::Use::bind() { if (sqlite3_bind_null(stmt, curArg++) != SQLITE_OK) { throwSQLiteError(stmt.db, "binding argument"); } return *this; } int SQLiteStmt::Use::step() { return sqlite3_step(stmt); } void SQLiteStmt::Use::exec() { int r = step(); assert(r != SQLITE_ROW); if (r != SQLITE_DONE) { throwSQLiteError(stmt.db, fmt("executing SQLite statement '%s'", stmt.sql)); } } bool SQLiteStmt::Use::next() { int r = step(); if (r != SQLITE_DONE && r != SQLITE_ROW) { throwSQLiteError(stmt.db, fmt("executing SQLite query '%s'", stmt.sql)); } return r == SQLITE_ROW; } std::string SQLiteStmt::Use::getStr(int col) { auto s = (const char*)sqlite3_column_text(stmt, col); assert(s); return s; } int64_t SQLiteStmt::Use::getInt(int col) { // FIXME: detect nulls? return sqlite3_column_int64(stmt, col); } bool SQLiteStmt::Use::isNull(int col) { return sqlite3_column_type(stmt, col) == SQLITE_NULL; } SQLiteTxn::SQLiteTxn(sqlite3* db) { this->db = db; if (sqlite3_exec(db, "begin;", nullptr, nullptr, nullptr) != SQLITE_OK) { throwSQLiteError(db, "starting transaction"); } active = true; } void SQLiteTxn::commit() { if (sqlite3_exec(db, "commit;", nullptr, nullptr, nullptr) != SQLITE_OK) { throwSQLiteError(db, "committing transaction"); } active = false; } SQLiteTxn::~SQLiteTxn() { try { if (active && sqlite3_exec(db, "rollback;", nullptr, nullptr, nullptr) != SQLITE_OK) { throwSQLiteError(db, "aborting transaction"); } } catch (...) { ignoreException(); } } void handleSQLiteBusy(const SQLiteBusy& e) { static std::atomic<time_t> lastWarned{0}; time_t now = time(nullptr); if (now > lastWarned + 10) { lastWarned = now; LOG(ERROR) << e.what(); } /* Sleep for a while since retrying the transaction right away is likely to fail again. */ checkInterrupt(); struct timespec t; t.tv_sec = 0; t.tv_nsec = (random() % 100) * 1000 * 1000; /* <= 0.1s */ nanosleep(&t, nullptr); } } // namespace nix