331 lines
9.2 KiB
C
331 lines
9.2 KiB
C
/* Routines for storing measurement reports in SQLite3 database */
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/* (C) 2012 by Harald Welte <laforge@gnumonks.org>
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*
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* All Rights Reserved
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU Affero General Public License as published by
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* the Free Software Foundation; either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU Affero General Public License for more details.
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*
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* You should have received a copy of the GNU Affero General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*
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*/
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#include <stdint.h>
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#include <errno.h>
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#include <string.h>
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#include <sqlite3.h>
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#include <osmocom/core/talloc.h>
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#include <osmocom/core/utils.h>
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#include <osmocom/gsm/gsm_utils.h>
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#include <osmocom/bsc/meas_rep.h>
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#include "meas_db.h"
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#define INS_MR "INSERT INTO meas_rep (time, imsi, name, scenario, nr, bs_power, ms_timing_offset, fpc, ms_l1_pwr, ms_l1_ta) VALUES (?,?,?,?,?,?,?,?,?,?)"
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#define INS_UD "INSERT INTO meas_rep_unidir (meas_id, rx_lev_full, rx_lev_sub, rx_qual_full, rx_qual_sub, dtx, uplink) VALUES (?,?,?,?,?,?,?)"
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#define UPD_MR "UPDATE meas_rep SET ul_unidir=?, dl_unidir=? WHERE id=?"
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struct meas_db_state {
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sqlite3 *db;
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sqlite3_stmt *stmt_ins_ud;
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sqlite3_stmt *stmt_ins_mr;
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sqlite3_stmt *stmt_upd_mr;
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};
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/* macros to check for SQLite3 result codes */
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#define _SCK_OK(db, call, exp) \
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do { \
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int rc = call; \
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if (rc != exp) { \
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fprintf(stderr,"SQL Error in line %u: %s\n", \
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__LINE__, sqlite3_errmsg(db)); \
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goto err_io; \
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} \
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} while (0)
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#define SCK_OK(db, call) _SCK_OK(db, call, SQLITE_OK)
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#define SCK_DONE(db, call) _SCK_OK(db, call, SQLITE_DONE)
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static int _insert_ud(struct meas_db_state *st, unsigned long meas_id, int dtx,
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int uplink, const struct gsm_meas_rep_unidir *ud)
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{
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unsigned long rowid;
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SCK_OK(st->db, sqlite3_bind_int(st->stmt_ins_ud, 1, meas_id));
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SCK_OK(st->db, sqlite3_bind_int(st->stmt_ins_ud, 2,
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rxlev2dbm(ud->full.rx_lev)));
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SCK_OK(st->db, sqlite3_bind_int(st->stmt_ins_ud, 3,
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rxlev2dbm(ud->sub.rx_lev)));
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SCK_OK(st->db, sqlite3_bind_int(st->stmt_ins_ud, 4, ud->full.rx_qual));
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SCK_OK(st->db, sqlite3_bind_int(st->stmt_ins_ud, 5, ud->sub.rx_qual));
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SCK_OK(st->db, sqlite3_bind_int(st->stmt_ins_ud, 6, dtx));
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SCK_OK(st->db, sqlite3_bind_int(st->stmt_ins_ud, 7, uplink));
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SCK_DONE(st->db, sqlite3_step(st->stmt_ins_ud));
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SCK_OK(st->db, sqlite3_reset(st->stmt_ins_ud));
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return sqlite3_last_insert_rowid(st->db);
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err_io:
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exit(1);
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}
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/* insert a measurement report into the database */
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int meas_db_insert(struct meas_db_state *st, const char *imsi,
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const char *name, unsigned long timestamp,
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const char *scenario,
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const struct gsm_meas_rep *mr)
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{
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int rc;
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sqlite3_int64 rowid, ul_rowid, dl_rowid;
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SCK_OK(st->db, sqlite3_bind_int(st->stmt_ins_mr, 1, timestamp));
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if (imsi)
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SCK_OK(st->db, sqlite3_bind_text(st->stmt_ins_mr, 2,
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imsi, -1, SQLITE_STATIC));
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else
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SCK_OK(st->db, sqlite3_bind_null(st->stmt_ins_mr, 2));
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if (name)
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SCK_OK(st->db, sqlite3_bind_text(st->stmt_ins_mr, 3,
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name, -1, SQLITE_STATIC));
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else
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SCK_OK(st->db, sqlite3_bind_null(st->stmt_ins_mr, 3));
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if (scenario)
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SCK_OK(st->db, sqlite3_bind_text(st->stmt_ins_mr, 4,
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scenario, -1, SQLITE_STATIC));
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else
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SCK_OK(st->db, sqlite3_bind_null(st->stmt_ins_mr, 4));
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SCK_OK(st->db, sqlite3_bind_int(st->stmt_ins_mr, 5, mr->nr));
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SCK_OK(st->db, sqlite3_bind_int(st->stmt_ins_mr, 6, mr->bs_power));
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if (mr->flags & MEAS_REP_F_MS_TO)
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SCK_OK(st->db, sqlite3_bind_int(st->stmt_ins_mr, 7, mr->ms_timing_offset));
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else
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SCK_OK(st->db, sqlite3_bind_null(st->stmt_ins_mr, 7));
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if (mr->flags & MEAS_REP_F_FPC)
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SCK_OK(st->db, sqlite3_bind_int(st->stmt_ins_mr, 8, 1));
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else
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SCK_OK(st->db, sqlite3_bind_int(st->stmt_ins_mr, 8, 0));
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if (mr->flags & MEAS_REP_F_MS_L1) {
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SCK_OK(st->db, sqlite3_bind_int(st->stmt_ins_mr, 9,
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mr->ms_l1.pwr));
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SCK_OK(st->db, sqlite3_bind_int(st->stmt_ins_mr, 10,
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mr->ms_l1.ta));
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}
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SCK_DONE(st->db, sqlite3_step(st->stmt_ins_mr));
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SCK_OK(st->db, sqlite3_reset(st->stmt_ins_mr));
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rowid = sqlite3_last_insert_rowid(st->db);
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/* insert uplink measurement */
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ul_rowid = _insert_ud(st, rowid, mr->flags & MEAS_REP_F_UL_DTX,
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1, &mr->ul);
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SCK_OK(st->db, sqlite3_bind_int(st->stmt_upd_mr, 1, ul_rowid));
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/* insert downlink measurement, if present */
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if (mr->flags & MEAS_REP_F_DL_VALID) {
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dl_rowid = _insert_ud(st, rowid, mr->flags & MEAS_REP_F_DL_DTX,
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0, &mr->dl);
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SCK_OK(st->db, sqlite3_bind_int(st->stmt_upd_mr, 2, dl_rowid));
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} else
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SCK_OK(st->db, sqlite3_bind_null(st->stmt_upd_mr, 2));
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/* update meas_rep with the id's of the unidirectional
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* measurements */
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SCK_OK(st->db, sqlite3_bind_int(st->stmt_upd_mr, 3, rowid));
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SCK_DONE(st->db, sqlite3_step(st->stmt_upd_mr));
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SCK_OK(st->db, sqlite3_reset(st->stmt_upd_mr));
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return 0;
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err_io:
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return -EIO;
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}
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int meas_db_begin(struct meas_db_state *st)
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{
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SCK_OK(st->db, sqlite3_exec(st->db, "BEGIN", NULL, NULL, NULL));
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return 0;
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err_io:
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return -EIO;
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}
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int meas_db_commit(struct meas_db_state *st)
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{
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SCK_OK(st->db, sqlite3_exec(st->db, "COMMIT", NULL, NULL, NULL));
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return 0;
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err_io:
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return -EIO;
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}
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static const char *create_stmts[] = {
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"CREATE TABLE IF NOT EXISTS meas_rep ("
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"id INTEGER PRIMARY KEY AUTOINCREMENT,"
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"time TIMESTAMP,"
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"imsi TEXT,"
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"name TEXT,"
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"scenario TEXT,"
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"nr INTEGER,"
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"bs_power INTEGER NOT NULL,"
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"ms_timing_offset INTEGER,"
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"fpc INTEGER NOT NULL DEFAULT 0,"
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"ul_unidir INTEGER REFERENCES meas_rep_unidir(id),"
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"dl_unidir INTEGER REFERENCES meas_rep_unidir(id),"
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"ms_l1_pwr INTEGER,"
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"ms_l1_ta INTEGER"
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")",
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"CREATE TABLE IF NOT EXISTS meas_rep_unidir ("
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"id INTEGER PRIMARY KEY AUTOINCREMENT,"
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"meas_id INTEGER NOT NULL REFERENCES meas_rep(id),"
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"rx_lev_full INTEGER NOT NULL,"
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"rx_lev_sub INTEGER NOT NULL,"
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"rx_qual_full INTEGER NOT NULL,"
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"rx_qual_sub INTEGER NOT NULL,"
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"dtx BOOLEAN NOT NULL DEFAULT 0,"
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"uplink BOOLEAN NOT NULL"
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")",
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"CREATE VIEW IF NOT EXISTS path_loss AS "
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"SELECT "
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"meas_rep.id, "
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"datetime(time,'unixepoch') AS timestamp, "
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"imsi, "
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"name, "
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"scenario, "
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"ms_timing_offset, "
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"ms_l1_ta, "
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"fpc, "
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"ms_l1_pwr, "
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"ud_ul.rx_lev_full AS ul_rx_lev_full, "
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"ms_l1_pwr-ud_ul.rx_lev_full AS ul_path_loss_full, "
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"ud_ul.rx_lev_sub ul_rx_lev_sub, "
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"ms_l1_pwr-ud_ul.rx_lev_sub AS ul_path_loss_sub, "
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"ud_ul.rx_qual_full AS ul_rx_qual_full, "
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"ud_ul.rx_qual_sub AS ul_rx_qual_sub, "
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"bs_power, "
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"ud_dl.rx_lev_full AS dl_rx_lev_full, "
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"bs_power-ud_dl.rx_lev_full AS dl_path_loss_full, "
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"ud_dl.rx_lev_sub AS dl_rx_lev_sub, "
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"bs_power-ud_dl.rx_lev_sub AS dl_path_loss_sub, "
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"ud_dl.rx_qual_full AS dl_rx_qual_full, "
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"ud_dl.rx_qual_sub AS dl_rx_qual_sub "
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"FROM "
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"meas_rep, "
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"meas_rep_unidir AS ud_dl, "
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"meas_rep_unidir AS ud_ul "
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"WHERE "
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"ud_ul.id = meas_rep.ul_unidir AND "
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"ud_dl.id = meas_rep.dl_unidir",
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"CREATE VIEW IF NOT EXISTS overview AS "
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"SELECT "
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"id,"
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"timestamp,"
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"imsi,"
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"name,"
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"scenario,"
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"ms_l1_pwr,"
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"ul_rx_lev_full,"
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"ul_path_loss_full,"
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"ul_rx_qual_full,"
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"bs_power,"
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"dl_rx_lev_full,"
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"dl_path_loss_full,"
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"dl_rx_qual_full "
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"FROM path_loss",
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};
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static int check_create_tbl(struct meas_db_state *st)
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{
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int i, rc;
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for (i = 0; i < ARRAY_SIZE(create_stmts); i++) {
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SCK_OK(st->db, sqlite3_exec(st->db, create_stmts[i],
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NULL, NULL, NULL));
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}
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return 0;
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err_io:
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return -EIO;
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}
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#define PREP_CHK(db, stmt, ptr) \
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do { \
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int rc; \
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rc = sqlite3_prepare_v2(db, stmt, strlen(stmt)+1, \
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ptr, NULL); \
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if (rc != SQLITE_OK) { \
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fprintf(stderr, "Error during prepare of '%s': %s\n", \
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stmt, sqlite3_errmsg(db)); \
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goto err_io; \
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} \
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} while (0)
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struct meas_db_state *meas_db_open(void *ctx, const char *fname)
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{
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int rc;
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struct meas_db_state *st = talloc_zero(ctx, struct meas_db_state);
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if (!st)
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return NULL;
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rc = sqlite3_open_v2(fname, &st->db,
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SQLITE_OPEN_READWRITE|SQLITE_OPEN_CREATE,
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NULL);
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if (rc != SQLITE_OK) {
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fprintf(stderr, "Unable to open DB: %s\n",
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sqlite3_errmsg(st->db));
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goto err_io;
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}
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rc = check_create_tbl(st);
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PREP_CHK(st->db, INS_MR, &st->stmt_ins_mr);
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PREP_CHK(st->db, INS_UD, &st->stmt_ins_ud);
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PREP_CHK(st->db, UPD_MR, &st->stmt_upd_mr);
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return st;
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err_io:
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talloc_free(st);
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return NULL;
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}
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void meas_db_close(struct meas_db_state *st)
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{
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if (sqlite3_finalize(st->stmt_ins_mr) != SQLITE_OK)
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fprintf(stderr, "DB insert measurement report finalize error: %s\n",
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sqlite3_errmsg(st->db));
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if (sqlite3_finalize(st->stmt_ins_ud) != SQLITE_OK)
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fprintf(stderr, "DB insert unidir finalize error: %s\n",
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sqlite3_errmsg(st->db));
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if (sqlite3_finalize(st->stmt_upd_mr) != SQLITE_OK)
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fprintf(stderr, "DB update measurement report finalize error: %s\n",
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sqlite3_errmsg(st->db));
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if (sqlite3_close(st->db) != SQLITE_OK)
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fprintf(stderr, "Unable to close DB, abandoning.\n");
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talloc_free(st);
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}
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