forked from lix-project/lix
262 lines
6.9 KiB
C++
262 lines
6.9 KiB
C++
#include "sqlite.hh"
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#include "globals.hh"
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#include "util.hh"
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#include <sqlite3.h>
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#include <atomic>
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namespace nix {
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SQLiteError::SQLiteError(const char *path, const char *errMsg, int errNo, int extendedErrNo, int offset, hintformat && hf)
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: Error(""), path(path), errMsg(errMsg), errNo(errNo), extendedErrNo(extendedErrNo), offset(offset)
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{
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auto offsetStr = (offset == -1) ? "" : "at offset " + std::to_string(offset) + ": ";
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err.msg = hintfmt("%s: %s%s, %s (in '%s')",
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normaltxt(hf.str()),
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offsetStr,
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sqlite3_errstr(extendedErrNo),
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errMsg,
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path ? path : "(in-memory)");
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}
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[[noreturn]] void SQLiteError::throw_(sqlite3 * db, hintformat && hf)
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{
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int err = sqlite3_errcode(db);
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int exterr = sqlite3_extended_errcode(db);
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int offset = sqlite3_error_offset(db);
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auto path = sqlite3_db_filename(db, nullptr);
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auto errMsg = sqlite3_errmsg(db);
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if (err == SQLITE_BUSY || err == SQLITE_PROTOCOL) {
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auto exp = SQLiteBusy(path, errMsg, err, exterr, offset, std::move(hf));
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exp.err.msg = hintfmt(
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err == SQLITE_PROTOCOL
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? "SQLite database '%s' is busy (SQLITE_PROTOCOL)"
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: "SQLite database '%s' is busy",
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path ? path : "(in-memory)");
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throw exp;
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} else
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throw SQLiteError(path, errMsg, err, exterr, offset, std::move(hf));
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}
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static void traceSQL(void * x, const char * sql)
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{
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// wacky delimiters:
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// so that we're quite unambiguous without escaping anything
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// notice instead of trace:
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// so that this can be enabled without getting the firehose in our face.
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notice("SQL<[%1%]>", sql);
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};
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SQLite::SQLite(const Path & path, bool create)
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{
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// useSQLiteWAL also indicates what virtual file system we need. Using
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// `unix-dotfile` is needed on NFS file systems and on Windows' Subsystem
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// for Linux (WSL) where useSQLiteWAL should be false by default.
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const char *vfs = settings.useSQLiteWAL ? 0 : "unix-dotfile";
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int flags = SQLITE_OPEN_READWRITE;
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if (create) flags |= SQLITE_OPEN_CREATE;
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int ret = sqlite3_open_v2(path.c_str(), &db, flags, vfs);
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if (ret != SQLITE_OK) {
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const char * err = sqlite3_errstr(ret);
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throw Error("cannot open SQLite database '%s': %s", path, err);
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}
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if (sqlite3_busy_timeout(db, 60 * 60 * 1000) != SQLITE_OK)
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SQLiteError::throw_(db, "setting timeout");
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if (getEnv("NIX_DEBUG_SQLITE_TRACES") == "1") {
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// To debug sqlite statements; trace all of them
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sqlite3_trace(db, &traceSQL, nullptr);
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}
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exec("pragma foreign_keys = 1");
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}
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SQLite::~SQLite()
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{
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try {
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if (db && sqlite3_close(db) != SQLITE_OK)
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SQLiteError::throw_(db, "closing database");
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} catch (...) {
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ignoreException();
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}
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}
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void SQLite::isCache()
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{
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exec("pragma synchronous = off");
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exec("pragma main.journal_mode = truncate");
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}
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void SQLite::exec(const std::string & stmt)
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{
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retrySQLite<void>([&]() {
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if (sqlite3_exec(db, stmt.c_str(), 0, 0, 0) != SQLITE_OK)
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SQLiteError::throw_(db, "executing SQLite statement '%s'", stmt);
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});
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}
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uint64_t SQLite::getLastInsertedRowId()
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{
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return sqlite3_last_insert_rowid(db);
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}
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void SQLiteStmt::create(sqlite3 * db, const std::string & sql)
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{
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checkInterrupt();
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assert(!stmt);
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if (sqlite3_prepare_v2(db, sql.c_str(), -1, &stmt, 0) != SQLITE_OK)
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SQLiteError::throw_(db, "creating statement '%s'", sql);
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this->db = db;
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this->sql = sql;
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}
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SQLiteStmt::~SQLiteStmt()
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{
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try {
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if (stmt && sqlite3_finalize(stmt) != SQLITE_OK)
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SQLiteError::throw_(db, "finalizing statement '%s'", sql);
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} catch (...) {
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ignoreException();
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}
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}
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SQLiteStmt::Use::Use(SQLiteStmt & stmt)
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: stmt(stmt)
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{
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assert(stmt.stmt);
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/* Note: sqlite3_reset() returns the error code for the most
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recent call to sqlite3_step(). So ignore it. */
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sqlite3_reset(stmt);
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}
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SQLiteStmt::Use::~Use()
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{
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sqlite3_reset(stmt);
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}
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SQLiteStmt::Use & SQLiteStmt::Use::operator () (std::string_view value, bool notNull)
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{
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if (notNull) {
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if (sqlite3_bind_text(stmt, curArg++, value.data(), -1, SQLITE_TRANSIENT) != SQLITE_OK)
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SQLiteError::throw_(stmt.db, "binding argument");
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} else
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bind();
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return *this;
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}
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SQLiteStmt::Use & SQLiteStmt::Use::operator () (const unsigned char * data, size_t len, bool notNull)
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{
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if (notNull) {
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if (sqlite3_bind_blob(stmt, curArg++, data, len, SQLITE_TRANSIENT) != SQLITE_OK)
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SQLiteError::throw_(stmt.db, "binding argument");
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} else
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bind();
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return *this;
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}
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SQLiteStmt::Use & SQLiteStmt::Use::operator () (int64_t value, bool notNull)
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{
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if (notNull) {
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if (sqlite3_bind_int64(stmt, curArg++, value) != SQLITE_OK)
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SQLiteError::throw_(stmt.db, "binding argument");
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} else
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bind();
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return *this;
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}
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SQLiteStmt::Use & SQLiteStmt::Use::bind()
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{
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if (sqlite3_bind_null(stmt, curArg++) != SQLITE_OK)
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SQLiteError::throw_(stmt.db, "binding argument");
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return *this;
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}
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int SQLiteStmt::Use::step()
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{
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return sqlite3_step(stmt);
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}
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void SQLiteStmt::Use::exec()
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{
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int r = step();
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assert(r != SQLITE_ROW);
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if (r != SQLITE_DONE)
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SQLiteError::throw_(stmt.db, fmt("executing SQLite statement '%s'", sqlite3_expanded_sql(stmt.stmt)));
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}
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bool SQLiteStmt::Use::next()
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{
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int r = step();
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if (r != SQLITE_DONE && r != SQLITE_ROW)
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SQLiteError::throw_(stmt.db, fmt("executing SQLite query '%s'", sqlite3_expanded_sql(stmt.stmt)));
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return r == SQLITE_ROW;
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}
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std::string SQLiteStmt::Use::getStr(int col)
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{
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auto s = (const char *) sqlite3_column_text(stmt, col);
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assert(s);
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return s;
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}
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int64_t SQLiteStmt::Use::getInt(int col)
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{
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// FIXME: detect nulls?
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return sqlite3_column_int64(stmt, col);
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}
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bool SQLiteStmt::Use::isNull(int col)
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{
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return sqlite3_column_type(stmt, col) == SQLITE_NULL;
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}
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SQLiteTxn::SQLiteTxn(sqlite3 * db)
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{
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this->db = db;
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if (sqlite3_exec(db, "begin;", 0, 0, 0) != SQLITE_OK)
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SQLiteError::throw_(db, "starting transaction");
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active = true;
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}
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void SQLiteTxn::commit()
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{
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if (sqlite3_exec(db, "commit;", 0, 0, 0) != SQLITE_OK)
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SQLiteError::throw_(db, "committing transaction");
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active = false;
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}
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SQLiteTxn::~SQLiteTxn()
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{
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try {
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if (active && sqlite3_exec(db, "rollback;", 0, 0, 0) != SQLITE_OK)
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SQLiteError::throw_(db, "aborting transaction");
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} catch (...) {
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ignoreException();
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}
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}
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void handleSQLiteBusy(const SQLiteBusy & e, time_t & nextWarning)
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{
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time_t now = time(0);
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if (now > nextWarning) {
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nextWarning = now + 10;
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logWarning({
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.msg = hintfmt(e.what())
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});
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}
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/* Sleep for a while since retrying the transaction right away
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is likely to fail again. */
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checkInterrupt();
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struct timespec t;
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t.tv_sec = 0;
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t.tv_nsec = (random() % 100) * 1000 * 1000; /* <= 0.1s */
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nanosleep(&t, 0);
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}
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}
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