diff options
-rw-r--r-- | src/osmo-bts-trx/loops.c | 85 | ||||
-rw-r--r-- | src/osmo-bts-trx/loops.h | 4 |
2 files changed, 58 insertions, 31 deletions
diff --git a/src/osmo-bts-trx/loops.c b/src/osmo-bts-trx/loops.c index 4e77bca3..b2b163a1 100644 --- a/src/osmo-bts-trx/loops.c +++ b/src/osmo-bts-trx/loops.c @@ -23,11 +23,13 @@ #include <unistd.h> #include <stdlib.h> #include <errno.h> +#include <inttypes.h> #include <osmo-bts/gsm_data.h> #include <osmo-bts/logging.h> #include <osmo-bts/l1sap.h> #include <osmocom/core/bits.h> +#include <osmocom/gsm/gsm_utils.h> #include "trx_if.h" #include "l1_if.h" @@ -39,45 +41,70 @@ /*! compute the new MS POWER LEVEL communicated to the MS and store it in lchan. * \param lchan logical channel for which to compute (and in which to store) new power value. - * \param[in] diff input delta value (in dB) */ + * \param[in] diff input delta value (in dB). How many dBs measured power + * should be increased (+) or decreased (-) to reach expected power. + */ static void ms_power_diff(struct gsm_lchan *lchan, int8_t diff) { struct gsm_bts_trx *trx = lchan->ts->trx; enum gsm_band band = trx->bts->band; - uint16_t arfcn = trx->arfcn; int8_t new_power; /* TS 05.05 power level */ + int8_t new_dbm, current_dbm, bsc_max_dbm, pwclass_max_dbm; - /* compute new target MS output power level based on current value subtracted by 'diff/2' */ - new_power = lchan->ms_power_ctrl.current - (diff >> 1); - - if (diff == 0) + /* power levels change in steps of 2 dB, so a smaller diff will end up in no change */ + if (diff < 2 && diff > -2) return; - /* ms transmit power level cannot become negative */ - if (new_power < 0) - new_power = 0; - - /* Don't ask for smaller ms power level than the one set by BSC upon RSL CHAN ACT */ - if (new_power < lchan->ms_power) - new_power = lchan->ms_power; - - /* saturate at the maximum possible power level for the given band */ - // FIXME: to go above 1W, we need to know classmark of MS - if (arfcn >= 512 && arfcn <= 885) { - if (new_power > 15) - new_power = 15; - } else { - if (new_power > 19) - new_power = 19; + current_dbm = ms_pwr_dbm(band, lchan->ms_power_ctrl.current); + if (current_dbm < 0) { + LOGPLCHAN(lchan, DLOOP, LOGL_NOTICE, + "Failed to calculate dBm for power ctl level %" PRIu8 " on band %s\n", + lchan->ms_power_ctrl.current, gsm_band_name(band)); + return; + } + bsc_max_dbm = ms_pwr_dbm(band, lchan->ms_power); + if (bsc_max_dbm < 0) { + LOGPLCHAN(lchan, DLOOP, LOGL_NOTICE, + "Failed to calculate dBm for power ctl level %" PRIu8 " on band %s\n", + lchan->ms_power, gsm_band_name(band)); + return; } - /* don't ever change more than MS_{LOWER,RAISE}_MAX during one loop iteration, i.e. + /* don't ever change more than MS_{LOWER,RAISE}_MAX_DBM during one loop iteration, i.e. * reduce the speed at which the MS transmit power can change */ /* a higher value means a lower level (and vice versa) */ - if (new_power > lchan->ms_power_ctrl.current + MS_LOWER_MAX) - new_power = lchan->ms_power_ctrl.current + MS_LOWER_MAX; - else if (new_power < lchan->ms_power_ctrl.current - MS_RAISE_MAX) - new_power = lchan->ms_power_ctrl.current - MS_RAISE_MAX; + if (diff > MS_RAISE_MAX_DB) + diff = MS_RAISE_MAX_DB; + else if (diff < -MS_LOWER_MAX_DB) + diff = -MS_LOWER_MAX_DB; + + new_dbm = current_dbm + diff; + + /* Make sure new_dbm is never negative. ms_pwr_ctl_lvl() can later on + cope with any unsigned dbm value, regardless of band minimal value. */ + if (new_dbm < 0) + new_dbm = 0; + + /* Don't ask for smaller ms power level than the one set by BSC upon RSL CHAN ACT */ + if (new_dbm > bsc_max_dbm) + new_dbm = bsc_max_dbm; + + /* Make sure in no case the dBm value is higher than the one of ms + power class 1 (the one with more output power) for the given band. + Ideally we should catch the MS specific power class and apply it + here, but for now let's assume the BSC sent us one taking the power + class into account. */ + pwclass_max_dbm = (int)ms_class_gmsk_dbm(band, 1); + if (pwclass_max_dbm >= 0 && new_dbm > pwclass_max_dbm) + new_dbm = pwclass_max_dbm; + + new_power = ms_pwr_ctl_lvl(band, new_dbm); + if (new_power < 0) { + LOGPLCHAN(lchan, DLOOP, LOGL_NOTICE, + "Failed to retrieve power level for %" PRId8 " dBm on band %d\n", + new_dbm, band); + return; + } if (lchan->ms_power_ctrl.current == new_power) { LOGPLCHAN(lchan, DLOOP, LOGL_INFO, "Keeping MS new_power at control level %d (%d dBm)\n", @@ -138,8 +165,8 @@ static void ms_power_clock(struct gsm_lchan *lchan, struct l1sched_chan_state *c /* if no burst was received from MS at clock */ if (chan_state->meas.rssi_count == 0) { - LOGPLCHAN(lchan, DLOOP, LOGL_NOTICE, "LOST SACCH frame, so we raise MS power\n"); - ms_power_diff(lchan, MS_RAISE_MAX); + LOGPLCHAN(lchan, DLOOP, LOGL_NOTICE, "LOST SACCH frame, so we raise MS power output\n"); + ms_power_diff(lchan, MS_RAISE_MAX_DB); return; } diff --git a/src/osmo-bts-trx/loops.h b/src/osmo-bts-trx/loops.h index 0db01d76..78699031 100644 --- a/src/osmo-bts-trx/loops.h +++ b/src/osmo-bts-trx/loops.h @@ -8,8 +8,8 @@ */ /* how much power levels do we raise/lower as maximum (1 level = 2 dB) */ -#define MS_RAISE_MAX 4 -#define MS_LOWER_MAX 2 +#define MS_RAISE_MAX_DB 4 +#define MS_LOWER_MAX_DB 8 /* * loops api |