/* * Copyright (c) 2004-2005 The Regents of The University of Michigan * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer; * redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution; * neither the name of the copyright holders nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include "base/misc.hh" #include "base/mysql.hh" #include "base/statistics.hh" #include "base/stats/flags.hh" #include "base/stats/mysql.hh" #include "base/stats/mysql_run.hh" #include "base/stats/statdb.hh" #include "base/stats/types.hh" #include "base/str.hh" #include "sim/host.hh" using namespace std; namespace Stats { MySqlRun MySqlDB; bool MySqlConnected() { return MySqlDB.connected(); } void MySqlRun::connect(const string &host, const string &user, const string &passwd, const string &db, const string &name, const string &sample, const string &project) { if (connected()) panic("can only get one database connection at this time!"); mysql.connect(host, user, passwd, db); if (mysql.error) panic("could not connect to database server\n%s\n", mysql.error); if (mysql.autocommit(false)) panic("could not set autocommit\n%s\n", mysql.error); remove(name); //cleanup(); setup(name, sample, user, project); } void MySqlRun::setup(const string &name, const string &sample, const string &user, const string &project) { assert(mysql.connected()); stringstream insert; ccprintf(insert, "INSERT INTO " "runs(rn_name,rn_sample,rn_user,rn_project,rn_date,rn_expire)" "values(\"%s\", \"%s\", \"%s\", \"%s\", NOW()," "DATE_ADD(CURDATE(), INTERVAL 31 DAY))", name, sample, user, project); mysql.query(insert); if (mysql.error) panic("could not get a run\n%s\n", mysql.error); run_id = mysql.insert_id(); if (mysql.commit()) panic("could not commit transaction\n%s\n", mysql.error); } void MySqlRun::remove(const string &name) { assert(mysql.connected()); stringstream sql; ccprintf(sql, "DELETE FROM runs WHERE rn_name=\"%s\"", name); mysql.query(sql); if (mysql.error) panic("could not delete run\n%s\n", mysql.error); if (mysql.commit()) panic("could not commit transaction\n%s\n", mysql.error); } void MySqlRun::cleanup() { assert(mysql.connected()); mysql.query("DELETE data " "FROM data " "LEFT JOIN runs ON dt_run=rn_id " "WHERE rn_id IS NULL"); if (mysql.commit()) panic("could not commit transaction\n%s\n", mysql.error); mysql.query("DELETE formula_ref " "FROM formula_ref " "LEFT JOIN runs ON fr_run=rn_id " "WHERE rn_id IS NULL"); if (mysql.commit()) panic("could not commit transaction\n%s\n", mysql.error); mysql.query("DELETE formulas " "FROM formulas " "LEFT JOIN formula_ref ON fm_stat=fr_stat " "WHERE fr_stat IS NULL"); if (mysql.commit()) panic("could not commit transaction\n%s\n", mysql.error); mysql.query("DELETE stats " "FROM stats " "LEFT JOIN data ON st_id=dt_stat " "WHERE dt_stat IS NULL"); if (mysql.commit()) panic("could not commit transaction\n%s\n", mysql.error); mysql.query("DELETE subdata " "FROM subdata " "LEFT JOIN data ON sd_stat=dt_stat " "WHERE dt_stat IS NULL"); if (mysql.commit()) panic("could not commit transaction\n%s\n", mysql.error); mysql.query("DELETE bins " "FROM bins " "LEFT JOIN data ON bn_id=dt_bin " "WHERE dt_bin IS NULL"); if (mysql.commit()) panic("could not commit transaction\n%s\n", mysql.error); mysql.query("DELETE events" "FROM events" "LEFT JOIN runs ON ev_run=rn_id" "WHERE rn_id IS NULL"); if (mysql.commit()) panic("could not commit transaction\n%s\n", mysql.error); mysql.query("DELETE event_names" "FROM event_names" "LEFT JOIN events ON en_id=ev_event" "WHERE ev_event IS NULL"); if (mysql.commit()) panic("could not commit transaction\n%s\n", mysql.error); } void SetupStat::init() { name = ""; descr = ""; type = ""; print = false; prereq = 0; prec = -1; nozero = false; nonan = false; total = false; pdf = false; cdf = false; min = 0; max = 0; bktsize = 0; size = 0; } unsigned SetupStat::setup() { MySQL::Connection &mysql = MySqlDB.conn(); stringstream insert; ccprintf(insert, "INSERT INTO " "stats(st_name, st_descr, st_type, st_print, st_prereq, " "st_prec, st_nozero, st_nonan, st_total, st_pdf, st_cdf, " "st_min, st_max, st_bktsize, st_size)" "values(\"%s\",\"%s\",\"%s\"," " %d,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d,%d)", name, descr, type, print, prereq, (int)prec, nozero, nonan, total, pdf, cdf, min, max, bktsize, size); mysql.query(insert); if (!mysql.error) { int id = mysql.insert_id(); if (mysql.commit()) panic("could not commit transaction\n%s\n", mysql.error); return id; } stringstream select; ccprintf(select, "SELECT * FROM stats WHERE st_name=\"%s\"", name); mysql.query(select); MySQL::Result result = mysql.store_result(); if (!result) panic("could not find stat\n%s\n", mysql.error); assert(result.num_fields() == 16); MySQL::Row row = result.fetch_row(); if (!row) panic("could not get stat row\n%s\n", mysql.error); bool tb; int8_t ti8; uint16_t tu16; int64_t ti64; uint64_t tu64; if (name != (char *)row[1]) panic("failed stat check on %s:name. %s != %s\n", name, name, row[1]); if (descr != (char *)row[2]) panic("failed stat check on %s:descr. %s != %s\n", name, descr, row[2]); if (type != (char *)row[3]) panic("failed stat check on %s:type. %s != %s\n", name, type, row[3]); if (!to_number(row[4], tb) || print != tb) panic("failed stat check on %s:print. %d != %d\n", name, print, tb); if (!to_number(row[6], ti8) || prec != ti8) panic("failed stat check on %s:prec. %d != %d\n", name, prec, ti8); if (!to_number(row[7], tb) || nozero != tb) panic("failed stat check on %s:nozero. %d != %d\n", name, nozero, tb); if (!to_number(row[8], tb) || nonan != tb) panic("failed stat check on %s:nonan. %d != %d\n", name, nonan, tb); if (!to_number(row[9], tb) || total != tb) panic("failed stat check on %s:total. %d != %d\n", name, total, tb); if (!to_number(row[10], tb) || pdf != tb) panic("failed stat check on %s:pdf. %d != %d\n", name, pdf, tb); if (!to_number(row[11], tb) || cdf != tb) panic("failed stat check on %s:cdf. %d != %d\n", name, cdf, tb); if (!to_number(row[12], ti64) || min != ti64) panic("failed stat check on %s:min. %d != %d\n", name, min, ti64); if (!to_number(row[13], ti64) || max != ti64) panic("failed stat check on %s:max. %d != %d\n", name, max, ti64); if (!to_number(row[14], tu64) || bktsize != tu64) panic("failed stat check on %s:bktsize. %d != %d\n", name, bktsize, tu64); if (!to_number(row[15], tu16) || size != tu16) panic("failed stat check on %s:size. %d != %d\n", name, size, tu16); to_number(row[5], prereq); uint16_t statid; to_number(row[0], statid); return statid; } unsigned SetupBin(const string &bin) { static map binmap; using namespace MySQL; map::const_iterator i = binmap.find(bin); if (i != binmap.end()) return (*i).second; Connection &mysql = MySqlDB.conn(); assert(mysql.connected()); uint16_t bin_id; stringstream select; stringstream insert; ccprintf(select, "SELECT bn_id FROM bins WHERE bn_name=\"%s\"", bin); mysql.query(select); MySQL::Result result = mysql.store_result(); if (result) { assert(result.num_fields() == 1); MySQL::Row row = result.fetch_row(); if (row) { to_number(row[0], bin_id); goto exit; } } ccprintf(insert, "INSERT INTO bins(bn_name) values(\"%s\")", bin); mysql.query(insert); if (mysql.error) panic("could not get a bin\n%s\n", mysql.error); bin_id = mysql.insert_id(); if (mysql.commit()) panic("could not commit transaction\n%s\n", mysql.error); binmap.insert(make_pair(bin, bin_id)); exit: return bin_id; } InsertData::InsertData() { query = new char[maxsize + 1]; size = 0; flush(); } InsertData::~InsertData() { delete [] query; } void InsertData::flush() { if (size) { MySQL::Connection &mysql = MySqlDB.conn(); assert(mysql.connected()); mysql.query(query); if (mysql.error) panic("could not insert data\n%s\n", mysql.error); if (mysql.commit()) panic("could not commit transaction\n%s\n", mysql.error); } query[0] = '\0'; size = 0; first = true; strcpy(query, "INSERT INTO " "data(dt_stat,dt_x,dt_y,dt_run,dt_tick,dt_bin,dt_data) " "values"); size = strlen(query); } void InsertData::insert() { if (size + 1024 > maxsize) flush(); if (!first) { query[size++] = ','; query[size] = '\0'; } first = false; size += sprintf(query + size, "(%u,%d,%d,%u,%llu,%u,\"%f\")", stat, x, y, MySqlDB.run(), (unsigned long long)tick, bin, data); } struct InsertSubData { uint16_t stat; int16_t x; int16_t y; string name; string descr; void setup(); }; void InsertSubData::setup() { MySQL::Connection &mysql = MySqlDB.conn(); assert(mysql.connected()); stringstream insert; ccprintf(insert, "INSERT INTO subdata(sd_stat,sd_x,sd_y,sd_name,sd_descr) " "values(%d,%d,%d,\"%s\",\"%s\")", stat, x, y, name, descr); mysql.query(insert); // if (mysql.error) // panic("could not insert subdata\n%s\n", mysql.error); if (mysql.commit()) panic("could not commit transaction\n%s\n", mysql.error); } void InsertFormula(uint16_t stat, const string &formula) { MySQL::Connection &mysql = MySqlDB.conn(); assert(mysql.connected()); stringstream insert_formula; ccprintf(insert_formula, "INSERT INTO formulas(fm_stat,fm_formula) values(%d, \"%s\")", stat, formula); mysql.query(insert_formula); // if (mysql.error) // panic("could not insert formula\n%s\n", mysql.error); stringstream insert_ref; ccprintf(insert_ref, "INSERT INTO formula_ref(fr_stat,fr_run) values(%d, %d)", stat, MySqlDB.run()); mysql.query(insert_ref); // if (mysql.error) // panic("could not insert formula reference\n%s\n", mysql.error); if (mysql.commit()) panic("could not commit transaction\n%s\n", mysql.error); } void UpdatePrereq(uint16_t stat, uint16_t prereq) { MySQL::Connection &mysql = MySqlDB.conn(); assert(mysql.connected()); stringstream update; ccprintf(update, "UPDATE stats SET st_prereq=%d WHERE st_id=%d", prereq, stat); mysql.query(update); if (mysql.error) panic("could not update prereq\n%s\n", mysql.error); if (mysql.commit()) panic("could not commit transaction\n%s\n", mysql.error); } void MySql::configure() { /* * set up all stats! */ using namespace Database; MySQL::Connection &mysql = MySqlDB.conn(); stat_list_t::const_iterator i, end = stats().end(); for (i = stats().begin(); i != end; ++i) { (*i)->visit(*this); } for (i = stats().begin(); i != end; ++i) { StatData *data = *i; if (data->prereq) { uint16_t stat_id = find(data->id); uint16_t prereq_id = find(data->prereq->id); assert(stat_id && prereq_id); UpdatePrereq(stat_id, prereq_id); } } if (mysql.commit()) panic("could not commit transaction\n%s\n", mysql.error); configured = true; } bool MySql::configure(const StatData &data, string type) { stat.init(); stat.name = data.name; stat.descr = data.desc; stat.type = type; stat.print = data.flags & print; stat.prec = data.precision; stat.nozero = data.flags & nozero; stat.nonan = data.flags & nonan; stat.total = data.flags & total; stat.pdf = data.flags & pdf; stat.cdf = data.flags & cdf; return stat.print; } void MySql::configure(const ScalarData &data) { if (!configure(data, "SCALAR")) return; insert(data.id, stat.setup()); } void MySql::configure(const VectorData &data) { if (!configure(data, "VECTOR")) return; uint16_t statid = stat.setup(); if (!data.subnames.empty()) { InsertSubData subdata; subdata.stat = statid; subdata.y = 0; for (int i = 0; i < data.subnames.size(); ++i) { subdata.x = i; subdata.name = data.subnames[i]; subdata.descr = data.subdescs.empty() ? "" : data.subdescs[i]; if (!subdata.name.empty() || !subdata.descr.empty()) subdata.setup(); } } insert(data.id, statid); } void MySql::configure(const DistData &data) { if (!configure(data, "DIST")) return; if (!data.data.fancy) { stat.size = data.data.size; stat.min = data.data.min; stat.max = data.data.max; stat.bktsize = data.data.bucket_size; } insert(data.id, stat.setup()); } void MySql::configure(const VectorDistData &data) { if (!configure(data, "VECTORDIST")) return; if (!data.data[0].fancy) { stat.size = data.data[0].size; stat.min = data.data[0].min; stat.max = data.data[0].max; stat.bktsize = data.data[0].bucket_size; } uint16_t statid = stat.setup(); if (!data.subnames.empty()) { InsertSubData subdata; subdata.stat = statid; subdata.y = 0; for (int i = 0; i < data.subnames.size(); ++i) { subdata.x = i; subdata.name = data.subnames[i]; subdata.descr = data.subdescs.empty() ? "" : data.subdescs[i]; if (!subdata.name.empty() || !subdata.descr.empty()) subdata.setup(); } } insert(data.id, statid); } void MySql::configure(const Vector2dData &data) { if (!configure(data, "VECTOR2D")) return; uint16_t statid = stat.setup(); if (!data.subnames.empty()) { InsertSubData subdata; subdata.stat = statid; subdata.y = -1; for (int i = 0; i < data.subnames.size(); ++i) { subdata.x = i; subdata.name = data.subnames[i]; subdata.descr = data.subdescs.empty() ? "" : data.subdescs[i]; if (!subdata.name.empty() || !subdata.descr.empty()) subdata.setup(); } } if (!data.y_subnames.empty()) { InsertSubData subdata; subdata.stat = statid; subdata.x = -1; subdata.descr = ""; for (int i = 0; i < data.y_subnames.size(); ++i) { subdata.y = i; subdata.name = data.y_subnames[i]; if (!subdata.name.empty()) subdata.setup(); } } insert(data.id, statid); } void MySql::configure(const FormulaData &data) { configure(data, "FORMULA"); insert(data.id, stat.setup()); InsertFormula(find(data.id), data.str()); } void MySql::output(MainBin *bin) { MySQL::Connection &mysql = MySqlDB.conn(); if (bin) { bin->activate(); newdata.bin = SetupBin(bin->name()); } else { newdata.bin = 0; } Database::stat_list_t::const_iterator i, end = Database::stats().end(); for (i = Database::stats().begin(); i != end; ++i) { StatData *stat = *i; if (bin && stat->binned() || !bin && !stat->binned()) { stat->visit(*this); if (mysql.commit()) panic("could not commit transaction\n%s\n", mysql.error); } } } bool MySql::valid() const { return MySqlDB.connected(); } void MySql::output() { using namespace Database; assert(valid()); if (!configured) configure(); // store sample # newdata.tick = curTick; output(NULL); if (!bins().empty()) { bin_list_t::iterator i, end = bins().end(); for (i = bins().begin(); i != end; ++i) output(*i); } newdata.flush(); } void MySql::output(const ScalarData &data) { if (!(data.flags & print)) return; newdata.stat = find(data.id); newdata.x = 0; newdata.y = 0; newdata.data = data.value(); newdata.insert(); } void MySql::output(const VectorData &data) { if (!(data.flags & print)) return; newdata.stat = find(data.id); newdata.y = 0; const VCounter &cvec = data.value(); int size = data.size(); for (int x = 0; x < size; x++) { newdata.x = x; newdata.data = cvec[x]; newdata.insert(); } } void MySql::output(const DistDataData &data) { const int db_sum = -1; const int db_squares = -2; const int db_samples = -3; const int db_min_val = -4; const int db_max_val = -5; const int db_underflow = -6; const int db_overflow = -7; newdata.x = db_sum; newdata.data = data.sum; newdata.insert(); newdata.x = db_squares; newdata.data = data.squares; newdata.insert(); newdata.x = db_samples; newdata.data = data.samples; newdata.insert(); if (data.samples && !data.fancy) { newdata.x = db_min_val; newdata.data = data.min_val; newdata.insert(); newdata.x = db_max_val; newdata.data = data.max_val; newdata.insert(); newdata.x = db_underflow; newdata.data = data.underflow; newdata.insert(); newdata.x = db_overflow; newdata.data = data.overflow; newdata.insert(); int size = data.cvec.size(); for (int x = 0; x < size; x++) { newdata.x = x; newdata.data = data.cvec[x]; newdata.insert(); } } } void MySql::output(const DistData &data) { if (!(data.flags & print)) return; newdata.stat = find(data.id); newdata.y = 0; output(data.data); } void MySql::output(const VectorDistData &data) { if (!(data.flags & print)) return; newdata.stat = find(data.id); int size = data.data.size(); for (int y = 0; y < size; ++y) { newdata.y = y; output(data.data[y]); } } void MySql::output(const Vector2dData &data) { if (!(data.flags & print)) return; newdata.stat = find(data.id); int index = 0; for (int x = 0; x < data.x; x++) { newdata.x = x; for (int y = 0; y < data.y; y++) { newdata.y = y; newdata.data = data.cvec[index++]; newdata.insert(); } } } void MySql::output(const FormulaData &data) { } /* * Implement the visitor */ void MySql::visit(const ScalarData &data) { if (!configured) configure(data); else output(data); } void MySql::visit(const VectorData &data) { if (!configured) configure(data); else output(data); } void MySql::visit(const DistData &data) { return; if (!configured) configure(data); else output(data); } void MySql::visit(const VectorDistData &data) { return; if (!configured) configure(data); else output(data); } void MySql::visit(const Vector2dData &data) { return; if (!configured) configure(data); else output(data); } void MySql::visit(const FormulaData &data) { if (!configured) configure(data); else output(data); } /* namespace Stats */ }