Files
openbts-2.8/Control/TMSITable.cpp
kurtis.heimerl 1966d63282 Patch 4545 in private:
Added support for performance-reporting counters.

and

Patch 4588 in private:
For some reason, ReportingTest won't build on all systems.  Since it is not part of the actuall application, I am commenting it out from the Makefile.am for now.

git-svn-id: http://wush.net/svn/range/software/public/openbts/trunk@4627 19bc5d8c-e614-43d4-8b26-e1612bc8e597
2012-12-16 06:06:32 +00:00

270 lines
6.9 KiB
C++

/*
* Copyright 2008, 2009, 2010, 2011 Free Software Foundation, Inc.
* Copyright 2010 Kestrel Signal Processing, Inc.
*
* This software is distributed under the terms of the GNU Affero Public License.
* See the COPYING file in the main directory for details.
*
* This use of this software may be subject to additional restrictions.
* See the LEGAL file in the main directory for details.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU Affero General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Affero General Public License for more details.
You should have received a copy of the GNU Affero General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "TMSITable.h"
#include <Logger.h>
#include <Globals.h>
#include <sqlite3.h>
#include <sqlite3util.h>
#include <GSML3MMMessages.h>
#include <Reporting.h>
#include <Globals.h>
#include <string>
#include <iostream>
#include <iomanip>
using namespace std;
using namespace Control;
static const char* createTMSITable = {
"CREATE TABLE IF NOT EXISTS TMSI_TABLE ("
"TMSI INTEGER PRIMARY KEY AUTOINCREMENT, "
"CREATED INTEGER NOT NULL, " // Unix time of record creation
"ACCESSED INTEGER NOT NULL, " // Unix time of last encounter
"APP_FLAGS INTEGER DEFAULT 0, " // Application-specific flags
"IMSI TEXT UNIQUE NOT NULL, " // IMSI
"IMEI TEXT, " // IMEI
"L3TI INTEGER DEFAULT 0," // L3 transaction identifier
"A5_SUPPORT INTEGER, " // encryption support
"POWER_CLASS INTEGER, " // power class
"OLD_TMSI INTEGER, " // previous TMSI in old network
"PREV_MCC INTEGER, " // previous network MCC
"PREV_MNC INTEGER, " // previous network MNC
"PREV_LAC INTEGER, " // previous network LAC
"DEG_LAT FLOAT, " // RRLP result
"DEG_LONG FLOAT " // RRLP result
")"
};
int TMSITable::open(const char* wPath)
{
int rc = sqlite3_open(wPath,&mDB);
if (rc) {
LOG(EMERG) << "Cannot open TMSITable database at " << wPath << ": " << sqlite3_errmsg(mDB);
sqlite3_close(mDB);
mDB = NULL;
return 1;
}
if (!sqlite3_command(mDB,createTMSITable)) {
LOG(EMERG) << "Cannot create TMSI table";
return 1;
}
return 0;
}
TMSITable::~TMSITable()
{
if (mDB) sqlite3_close(mDB);
}
unsigned TMSITable::assign(const char* IMSI, const GSM::L3LocationUpdatingRequest* lur)
{
// Create or find an entry based on IMSI.
// Return assigned TMSI.
assert(mDB);
gReports.incr("OpenBTS.GSM.MM.TMSI.Assigned");
LOG(DEBUG) << "IMSI=" << IMSI;
// Is there already a record?
unsigned TMSI;
if (sqlite3_single_lookup(mDB,"TMSI_TABLE","IMSI",IMSI,"TMSI",TMSI)) {
LOG(DEBUG) << "found TMSI " << TMSI;
touch(TMSI);
return TMSI;
}
// Create a new record.
LOG(NOTICE) << "new entry for IMSI " << IMSI;
char query[1000];
unsigned now = (unsigned)time(NULL);
if (!lur) {
sprintf(query,
"INSERT INTO TMSI_TABLE (IMSI,CREATED,ACCESSED) "
"VALUES ('%s',%u,%u)",
IMSI,now,now);
} else {
const GSM::L3LocationAreaIdentity &lai = lur->LAI();
const GSM::L3MobileIdentity &mid = lur->mobileID();
if (mid.type()==GSM::TMSIType) {
sprintf(query,
"INSERT INTO TMSI_TABLE (IMSI,CREATED,ACCESSED,PREV_MCC,PREV_MNC,PREV_LAC,OLD_TMSI) "
"VALUES ('%s',%u,%u,%u,%u,%u,%u)",
IMSI,now,now,lai.MCC(),lai.MNC(),lai.LAC(),mid.TMSI());
} else {
sprintf(query,
"INSERT INTO TMSI_TABLE (IMSI,CREATED,ACCESSED,PREV_MCC,PREV_MNC,PREV_LAC) "
"VALUES ('%s',%u,%u,%u,%u,%u)",
IMSI,now,now,lai.MCC(),lai.MNC(),lai.LAC());
}
}
if (!sqlite3_command(mDB,query)) {
LOG(ALERT) << "TMSI creation failed";
return 0;
}
if (!sqlite3_single_lookup(mDB,"TMSI_TABLE","IMSI",IMSI,"TMSI",TMSI)) {
LOG(ERR) << "TMSI database inconsistancy";
return 0;
}
return TMSI;
}
void TMSITable::touch(unsigned TMSI) const
{
// Update timestamp.
char query[100];
sprintf(query,"UPDATE TMSI_TABLE SET ACCESSED = %u WHERE TMSI == %u",
(unsigned)time(NULL),TMSI);
sqlite3_command(mDB,query);
}
// Returned string must be free'd by the caller.
char* TMSITable::IMSI(unsigned TMSI) const
{
char* IMSI = NULL;
if (sqlite3_single_lookup(mDB,"TMSI_TABLE","TMSI",TMSI,"IMSI",IMSI)) touch(TMSI);
return IMSI;
}
unsigned TMSITable::TMSI(const char* IMSI) const
{
unsigned TMSI=0;
if (sqlite3_single_lookup(mDB,"TMSI_TABLE","IMSI",IMSI,"TMSI",TMSI)) touch(TMSI);
return TMSI;
}
void printAge(unsigned seconds, ostream& os)
{
static const unsigned k=5;
os << setw(4);
if (seconds<k*60) {
os << seconds << 's';
return;
}
unsigned minutes = (seconds+30) / 60;
if (minutes<k*60) {
os << minutes << 'm';
return;
}
unsigned hours = (minutes+30) / 60;
if (hours<k*24) {
os << hours << 'h';
return;
}
os << (hours+12)/24 << 'd';
}
void TMSITable::dump(ostream& os) const
{
sqlite3_stmt *stmt;
if (sqlite3_prepare_statement(mDB,&stmt,"SELECT TMSI,IMSI,CREATED,ACCESSED FROM TMSI_TABLE")) {
LOG(ERR) << "sqlite3_prepare_statement failed";
return;
}
time_t now = time(NULL);
while (sqlite3_run_query(mDB,stmt)==SQLITE_ROW) {
os << hex << setw(8) << sqlite3_column_int64(stmt,0) << ' ' << dec;
os << sqlite3_column_text(stmt,1) << ' ';
printAge(now-sqlite3_column_int(stmt,2),os); os << ' ';
printAge(now-sqlite3_column_int(stmt,3),os); os << ' ';
os << endl;
}
sqlite3_finalize(stmt);
}
void TMSITable::clear()
{
sqlite3_command(mDB,"DELETE FROM TMSI_TABLE WHERE 1");
}
bool TMSITable::IMEI(const char* IMSI, const char *IMEI)
{
char query[100];
sprintf(query,"UPDATE TMSI_TABLE SET IMEI=\"%s\",ACCESSED=%u WHERE IMSI=\"%s\"",
IMEI,(unsigned)time(NULL),IMSI);
return sqlite3_command(mDB,query);
}
bool TMSITable::classmark(const char* IMSI, const GSM::L3MobileStationClassmark2& classmark)
{
int A5Bits = (classmark.A5_1()<<2) + (classmark.A5_2()<<1) + classmark.A5_3();
char query[100];
sprintf(query,
"UPDATE TMSI_TABLE SET A5_SUPPORT=%u,ACCESSED=%u,POWER_CLASS=%u "
" WHERE IMSI=\"%s\"",
A5Bits,(unsigned)time(NULL),classmark.powerClass(),IMSI);
return sqlite3_command(mDB,query);
}
unsigned TMSITable::nextL3TI(const char* IMSI)
{
// FIXME -- This should be a single atomic operation.
unsigned l3ti;
if (!sqlite3_single_lookup(mDB,"TMSI_TABLE","IMSI",IMSI,"L3TI",l3ti)) {
LOG(ERR) << "cannot read L3TI from TMSI_TABLE, using random L3TI";
return random() % 8;
}
// Note that TI=7 is a reserved value, so value values are 0-6. See GSM 04.07 11.2.3.1.3.
unsigned next = (l3ti+1) % 7;
char query[200];
sprintf(query,"UPDATE TMSI_TABLE SET L3TI=%u,ACCESSED=%u WHERE IMSI='%s'",
next, (unsigned)time(NULL),IMSI);
if (!sqlite3_command(mDB,query)) {
LOG(ALERT) << "cannot write L3TI to TMSI_TABLE";
}
return next;
}
// vim: ts=4 sw=4