-#warning rr on MDL error handling (as specified in 04.08 / 04.06)
/*
* (C) 2010 by Andreas Eversberg <jolly@eversberg.eu>
*
*
*/
+/* Testing delayed (immediate) assigment / handover
+ *
+ * When enabled, the starting time will be set by given frames in the future.
+ * If a starting time is given by the network, this time is ignored.
+ */
+//#define TEST_STARTING_TIMER 140
+
+/* Testing if frequency modification works correctly "after time".
+ *
+ * When enabled, the starting time will be set in the future.
+ * A wrong channel is defined "before time", so noise is received until
+ * starting time elapses.
+ * If a starting time is given by the network, this time is ignored.
+ * Also channel definitions "before time" are ignored.
+ *
+ * NOTE: TEST_STARTING_TIMER MUST be defined also.
+ */
+//#define TEST_FREQUENCY_MOD
+
#include <stdint.h>
#include <errno.h>
#include <stdio.h>
#include <osmocom/bb/common/l1ctl.h>
#include <osmocom/bb/mobile/vty.h>
-static void start_rr_t_monitor(struct gsm48_rrlayer *rr, int sec, int micro);
-static void stop_rr_t_monitor(struct gsm48_rrlayer *rr);
+static void start_rr_t_meas(struct gsm48_rrlayer *rr, int sec, int micro);
+static void stop_rr_t_starting(struct gsm48_rrlayer *rr);
+static void stop_rr_t3124(struct gsm48_rrlayer *rr);
static int gsm48_rcv_rsl(struct osmocom_ms *ms, struct msgb *msg);
static int gsm48_rr_dl_est(struct osmocom_ms *ms);
+static int gsm48_rr_tx_meas_rep(struct osmocom_ms *ms);
+static int gsm48_rr_set_mode(struct osmocom_ms *ms, uint8_t chan_nr,
+ uint8_t mode);
+static int gsm48_rr_rel_cnf(struct osmocom_ms *ms, struct msgb *msg);
/*
* support
return 0;
}
-static int gsm48_encode_chan_h0(struct gsm48_chan_desc *cd, uint8_t tsc,
- uint16_t arfcn)
-{
- cd->h0.tsc = tsc;
- cd->h0.h = 0;
- cd->h0.arfcn_low = arfcn & 0xff;
- cd->h0.arfcn_high = arfcn >> 8;
-
- return 0;
-}
-
-static int gsm48_encode_chan_h1(struct gsm48_chan_desc *cd, uint8_t tsc,
- uint8_t maio, uint8_t hsn)
+int gsm48_encode_lai(struct gsm48_loc_area_id *lai, uint16_t mcc,
+ uint16_t mnc, uint16_t lac)
{
- cd->h1.tsc = tsc;
- cd->h1.h = 1;
- cd->h1.maio_low = maio & 0x03;
- cd->h1.maio_high = maio >> 2;
- cd->h1.hsn = hsn;
+ lai->digits[0] = (mcc >> 8) | (mcc & 0xf0);
+ lai->digits[1] = (mcc & 0x0f) | (mnc << 4);
+ lai->digits[2] = (mnc >> 8) | (mnc & 0xf0);
+ lai->lac = htons(lac);
return 0;
}
-
static int gsm48_decode_chan_h0(struct gsm48_chan_desc *cd, uint8_t *tsc,
uint16_t *arfcn)
{
return 0;
}
+/* decode "Power Command" (10.5.2.28) and (10.5.2.28a) */
+static int gsm48_decode_power_cmd_acc(struct gsm48_power_cmd *pc,
+ uint8_t *power_level, uint8_t *atc)
+{
+ *power_level = pc->power_level;
+ if (atc) /* only in case of 10.5.2.28a */
+ *atc = pc->atc;
+
+ return 0;
+}
+
/* 10.5.2.38 decode Starting time IE */
static int gsm48_decode_start_time(struct gsm48_rr_cd *cd,
struct gsm48_start_time *st)
{
- cd->start_t1 = st->t1;
- cd->start_t2 = st->t2;
- cd->start_t3 = (st->t3_high << 3) | st->t3_low;
+ cd->start = 1;
+ cd->start_tm.t1 = st->t1;
+ cd->start_tm.t2 = st->t2;
+ cd->start_tm.t3 = (st->t3_high << 3) | st->t3_low;
+ cd->start_tm.fn = gsm_gsmtime2fn(&cd->start_tm);
return 0;
}
return 0;
}
+/* decode "Cell Description" (10.5.2.2) */
+static int gsm48_decode_cell_desc(struct gsm48_cell_desc *cd, uint16_t *arfcn,
+ uint8_t *ncc, uint8_t *bcc)
+{
+ *arfcn = (cd->arfcn_hi << 8) + cd->arfcn_lo;
+ *ncc = cd->ncc;
+ *bcc = cd->bcc;
+
+ return 0;
+}
+
+/* decode "Synchronization Indication" (10.5.2.39) */
+static int gsm48_decode_sync_ind(struct gsm48_rrlayer *rr,
+ struct gsm48_sync_ind *si)
+{
+ rr->hando_sync_ind = si->si;
+ rr->hando_rot = si->rot;
+ rr->hando_nci = si->nci;
+
+ return 0;
+}
+
+/* 3.1.4.3 set sequence number and increment */
+static int gsm48_apply_v_sd(struct gsm48_rrlayer *rr, struct msgb *msg)
+{
+ struct gsm48_hdr *gh = msgb_l3(msg);
+ uint8_t pdisc = gh->proto_discr & 0x0f;
+ uint8_t v_sd;
+
+ switch (pdisc) {
+ case GSM48_PDISC_MM:
+ case GSM48_PDISC_CC:
+ case GSM48_PDISC_NC_SS:
+ /* all thre pdiscs share the same V(SD) */
+ pdisc = GSM48_PDISC_MM;
+ // fall through
+ case GSM48_PDISC_GROUP_CC:
+ case GSM48_PDISC_BCAST_CC:
+ case GSM48_PDISC_PDSS1:
+ case GSM48_PDISC_PDSS2:
+ /* extract v_sd(pdisc) */
+ v_sd = (rr->v_sd >> pdisc) & 1;
+
+ /* replace bit 7 vy v_sd */
+ gh->msg_type &= 0xbf;
+ gh->msg_type |= (v_sd << 6);
+
+ /* increment V(SD) */
+ rr->v_sd ^= (1 << pdisc);
+ LOGP(DRR, LOGL_INFO, "Using and incrementing V(SD) = %d "
+ "(pdisc %x)\n", v_sd, pdisc);
+ break;
+ case GSM48_PDISC_RR:
+ case GSM48_PDISC_SMS:
+ /* no V(VSD) is required */
+ break;
+ default:
+ LOGP(DRR, LOGL_ERROR, "Error, V(SD) of pdisc %x not handled\n",
+ pdisc);
+ return -ENOTSUP;
+ }
+
+ return 0;
+}
+
+/* set channel mode if supported, or return error cause */
+static uint8_t gsm48_rr_check_mode(struct osmocom_ms *ms, uint8_t chan_nr,
+ uint8_t mode)
+{
+ struct gsm_settings *set = &ms->settings;
+ uint8_t ch_type, ch_subch, ch_ts;
+
+ /* only complain if we use TCH/F or TCH/H */
+ rsl_dec_chan_nr(chan_nr, &ch_type, &ch_subch, &ch_ts);
+ if (ch_type != RSL_CHAN_Bm_ACCHs
+ && ch_type != RSL_CHAN_Lm_ACCHs)
+ return 0;
+
+ switch (mode) {
+ case GSM48_CMODE_SIGN:
+ LOGP(DRR, LOGL_INFO, "Mode: signalling\n");
+ break;
+ case GSM48_CMODE_SPEECH_V1:
+ if (ch_type == RSL_CHAN_Bm_ACCHs) {
+ if (!set->full_v1) {
+ LOGP(DRR, LOGL_NOTICE, "Not supporting "
+ "full-rate speech V1\n");
+ return GSM48_RR_CAUSE_CHAN_MODE_UNACCT;
+ }
+ LOGP(DRR, LOGL_INFO, "Mode: full-rate speech V1\n");
+ } else {
+ if (!set->half_v1) {
+ LOGP(DRR, LOGL_NOTICE, "Not supporting "
+ "half-rate speech V1\n");
+ return GSM48_RR_CAUSE_CHAN_MODE_UNACCT;
+ }
+ LOGP(DRR, LOGL_INFO, "Mode: half-rate speech V1\n");
+ }
+ break;
+ case GSM48_CMODE_SPEECH_EFR:
+ if (ch_type == RSL_CHAN_Bm_ACCHs) {
+ if (!set->full_v2) {
+ LOGP(DRR, LOGL_NOTICE, "Not supporting "
+ "full-rate speech V2\n");
+ return GSM48_RR_CAUSE_CHAN_MODE_UNACCT;
+ }
+ LOGP(DRR, LOGL_INFO, "Mode: full-rate speech V2\n");
+ } else {
+ LOGP(DRR, LOGL_NOTICE, "Not supporting "
+ "half-rate speech V2\n");
+ return GSM48_RR_CAUSE_CHAN_MODE_UNACCT;
+ }
+ break;
+ case GSM48_CMODE_SPEECH_AMR:
+ if (ch_type == RSL_CHAN_Bm_ACCHs) {
+ if (!set->full_v3) {
+ LOGP(DRR, LOGL_NOTICE, "Not supporting "
+ "full-rate speech V3\n");
+ return GSM48_RR_CAUSE_CHAN_MODE_UNACCT;
+ }
+ LOGP(DRR, LOGL_INFO, "Mode: full-rate speech V3\n");
+ } else {
+ if (!set->half_v3) {
+ LOGP(DRR, LOGL_NOTICE, "Not supporting "
+ "half-rate speech V3\n");
+ return GSM48_RR_CAUSE_CHAN_MODE_UNACCT;
+ }
+ LOGP(DRR, LOGL_INFO, "Mode: half-rate speech V3\n");
+ }
+ break;
+ default:
+ LOGP(DRR, LOGL_ERROR, "Mode 0x%02x not supported!\n", mode);
+ return GSM48_RR_CAUSE_CHAN_MODE_UNACCT;
+ }
+
+ return 0;
+}
+
+/* apply new "alter_delay" in dedicated mode */
+int gsm48_rr_alter_delay(struct osmocom_ms *ms)
+{
+ struct gsm48_rrlayer *rr = &ms->rrlayer;
+ struct gsm_settings *set = &rr->ms->settings;
+
+ if (rr->state != GSM48_RR_ST_DEDICATED)
+ return -EINVAL;
+ l1ctl_tx_param_req(ms, rr->cd_now.ind_ta - set->alter_delay,
+ (set->alter_tx_power) ? set->alter_tx_power_value
+ : rr->cd_now.ind_tx_power);
+
+ return 0;
+}
+
/*
* state transition
*/
LOGP(DRR, LOGL_INFO, "new state %s -> %s\n",
gsm48_rr_state_names[rr->state], gsm48_rr_state_names[state]);
+ /* abort handover, in case of release of dedicated mode */
+ if (rr->state == GSM48_RR_ST_DEDICATED) {
+ /* disable handover / assign state */
+ rr->modify_state = GSM48_RR_MOD_NONE;
+ /* stop start_time_timer */
+ stop_rr_t_starting(rr);
+ /* stop handover timer */
+ stop_rr_t3124(rr);
+ }
+
rr->state = state;
if (state == GSM48_RR_ST_IDLE) {
/* release dedicated mode, if any */
l1ctl_tx_dm_rel_req(rr->ms);
+ rr->ms->meas.rl_fail = 0;
+ rr->dm_est = 0;
l1ctl_tx_reset_req(rr->ms, L1CTL_RES_T_FULL);
/* free establish message, if any */
rr->rr_est_req = 0;
msgb_free(msg);
/* clear all descriptions of last channel */
memset(&rr->cd_now, 0, sizeof(rr->cd_now));
- /* reset cipering */
+ /* reset ciphering */
rr->cipher_on = 0;
/* tell cell selection process to return to idle mode
* NOTE: this must be sent unbuffered, because it will
struct gsm48_rrlayer *rr = &ms->rrlayer;
if (!msg->l3h) {
- printf("FIX l3h\n");
- exit (0);
+ LOGP(DRR, LOGL_ERROR, "FIX l3h\n");
+ return -EINVAL;
}
rsl_rll_push_l3(msg, msg_type, rr->cd_now.chan_nr,
rr->cd_now.link_id, 1);
int gsm48_rr_start_monitor(struct osmocom_ms *ms)
{
ms->rrlayer.monitor = 1;
- memset(&ms->meas, 0, sizeof(&ms->meas));
- start_rr_t_monitor(&ms->rrlayer, 1, 0);
return 0;
}
int gsm48_rr_stop_monitor(struct osmocom_ms *ms)
{
ms->rrlayer.monitor = 0;
- memset(&ms->meas, 0, sizeof(&ms->meas));
- stop_rr_t_monitor(&ms->rrlayer);
return 0;
}
*/
/* special timer to monitor measurements */
-static void timeout_rr_monitor(void *arg)
+static void timeout_rr_meas(void *arg)
{
struct gsm48_rrlayer *rr = arg;
struct gsm322_cellsel *cs = &rr->ms->cellsel;
struct rx_meas_stat *meas = &rr->ms->meas;
struct gsm_settings *set = &rr->ms->settings;
- int rxlev, berr;
+ int rxlev, berr, snr;
uint8_t ch_type, ch_subch, ch_ts;
char text[256];
if (!cs->selected) {
- sprintf(text, "MON: no cell selected");
+ return;
} else if (!meas->frames) {
sprintf(text, "MON: no cell info");
} else {
rxlev = meas->rxlev / meas->frames;
berr = meas->berr / meas->frames;
- sprintf(text, "MON: arfcn=%d lev=%s ber=%2d LAI=%s %s %04x "
- "ID=%04x", cs->sel_arfcn, gsm_print_rxlev(rxlev),
- berr, gsm_print_mcc(cs->sel_mcc),
+ snr = meas->snr / meas->frames;
+ sprintf(text, "MON: f=%d lev=%s snr=%2d ber=%3d "
+ "LAI=%s %s %04x ID=%04x", cs->sel_arfcn,
+ gsm_print_rxlev(rxlev), berr, snr,
+ gsm_print_mcc(cs->sel_mcc),
gsm_print_mnc(cs->sel_mnc), cs->sel_lac, cs->sel_id);
if (rr->state == GSM48_RR_ST_DEDICATED) {
rsl_dec_chan_nr(rr->cd_now.chan_nr, &ch_type,
&ch_subch, &ch_ts);
sprintf(text + strlen(text), " TA=%d pwr=%d TS=%d",
- rr->ind_ta - set->alter_delay,
+ rr->cd_now.ind_ta - set->alter_delay,
(set->alter_tx_power) ? set->alter_tx_power_value
- : rr->ind_tx_power, ch_ts);
+ : rr->cd_now.ind_tx_power, ch_ts);
if (ch_type == RSL_CHAN_SDCCH8_ACCH
|| ch_type == RSL_CHAN_SDCCH4_ACCH)
sprintf(text + strlen(text), "/%d", ch_subch);
}
}
- vty_notify(rr->ms, "%s\n", text);
+ LOGP(DRR, LOGL_INFO, "%s\n", text);
+ if (rr->monitor)
+ vty_notify(rr->ms, "%s\n", text);
+
+ if (rr->dm_est)
+ gsm48_rr_tx_meas_rep(rr->ms);
+ meas->frames = meas->snr = meas->berr = meas->rxlev = 0;
+ start_rr_t_meas(rr, 1, 0);
+}
+
+/* special timer to assign / handover when starting time is reached */
+static void timeout_rr_t_starting(void *arg)
+{
+ struct gsm48_rrlayer *rr = arg;
+ struct msgb *nmsg;
+
+ LOGP(DRR, LOGL_INFO, "starting timer has fired\n");
+
+ /* open channel when starting timer of IMM.ASS has fired */
+ if (rr->modify_state == GSM48_RR_MOD_IMM_ASS) {
+ rr->modify_state = GSM48_RR_MOD_NONE;
+ gsm48_rr_dl_est(rr->ms);
+ return;
+ }
- memset(meas, 0, sizeof(*meas));
- start_rr_t_monitor(rr, 1, 0);
+ /* start suspension of current link */
+ LOGP(DRR, LOGL_INFO, "request suspension of data link\n");
+ nmsg = gsm48_l3_msgb_alloc();
+ if (!nmsg)
+ return;
+ gsm48_send_rsl(rr->ms, RSL_MT_SUSP_REQ, nmsg);
}
/* special timer to ensure that UA is sent before disconnecting channel */
LOGP(DRR, LOGL_INFO, "timer T3122 has fired\n");
}
+static void timeout_rr_t3124(void *arg)
+{
+ LOGP(DRR, LOGL_INFO, "timer T3124 has fired\n");
+}
+
static void timeout_rr_t3126(void *arg)
{
struct gsm48_rrlayer *rr = arg;
new_rr_state(rr, GSM48_RR_ST_IDLE);
}
-static void start_rr_t_monitor(struct gsm48_rrlayer *rr, int sec, int micro)
+static void start_rr_t_meas(struct gsm48_rrlayer *rr, int sec, int micro)
{
- rr->t_monitor.cb = timeout_rr_monitor;
- rr->t_monitor.data = rr;
- bsc_schedule_timer(&rr->t_monitor, sec, micro);
+ rr->t_meas.cb = timeout_rr_meas;
+ rr->t_meas.data = rr;
+ bsc_schedule_timer(&rr->t_meas, sec, micro);
}
static void start_rr_t_rel_wait(struct gsm48_rrlayer *rr, int sec, int micro)
{
- LOGP(DRR, LOGL_INFO, "starting T_rel_wait with %d seconds\n", sec);
+ LOGP(DRR, LOGL_INFO, "starting T_rel_wait with %d.%03d seconds\n", sec,
+ micro / 1000);
rr->t_rel_wait.cb = timeout_rr_t_rel_wait;
rr->t_rel_wait.data = rr;
bsc_schedule_timer(&rr->t_rel_wait, sec, micro);
}
+static void start_rr_t_starting(struct gsm48_rrlayer *rr, int sec, int micro)
+{
+ LOGP(DRR, LOGL_INFO, "starting T_starting with %d.%03d seconds\n", sec,
+ micro / 1000);
+ rr->t_starting.cb = timeout_rr_t_starting;
+ rr->t_starting.data = rr;
+ bsc_schedule_timer(&rr->t_starting, sec, micro);
+}
+
static void start_rr_t3110(struct gsm48_rrlayer *rr, int sec, int micro)
{
- LOGP(DRR, LOGL_INFO, "starting T3110 with %d seconds\n", sec);
+ LOGP(DRR, LOGL_INFO, "starting T3110 with %d.%03d seconds\n", sec,
+ micro / 1000);
rr->t3110.cb = timeout_rr_t3110;
rr->t3110.data = rr;
bsc_schedule_timer(&rr->t3110, sec, micro);
static void start_rr_t3122(struct gsm48_rrlayer *rr, int sec, int micro)
{
- LOGP(DRR, LOGL_INFO, "starting T3122 with %d seconds\n", sec);
+ LOGP(DRR, LOGL_INFO, "starting T3122 with %d.%03d seconds\n", sec,
+ micro / 1000);
rr->t3122.cb = timeout_rr_t3122;
rr->t3122.data = rr;
bsc_schedule_timer(&rr->t3122, sec, micro);
}
+static void start_rr_t3124(struct gsm48_rrlayer *rr, int sec, int micro)
+{
+ LOGP(DRR, LOGL_INFO, "starting T3124 with %d.%03d seconds\n", sec,
+ micro / 1000);
+ rr->t3124.cb = timeout_rr_t3124;
+ rr->t3124.data = rr;
+ bsc_schedule_timer(&rr->t3124, sec, micro);
+}
+
static void start_rr_t3126(struct gsm48_rrlayer *rr, int sec, int micro)
{
- LOGP(DRR, LOGL_INFO, "starting T3126 with %d seconds\n", sec);
+ LOGP(DRR, LOGL_INFO, "starting T3126 with %d.%03d seconds\n", sec,
+ micro / 1000);
rr->t3126.cb = timeout_rr_t3126;
rr->t3126.data = rr;
bsc_schedule_timer(&rr->t3126, sec, micro);
}
-static void stop_rr_t_monitor(struct gsm48_rrlayer *rr)
+static void stop_rr_t_meas(struct gsm48_rrlayer *rr)
+{
+ if (bsc_timer_pending(&rr->t_meas)) {
+ LOGP(DRR, LOGL_INFO, "stopping pending timer T_meas\n");
+ bsc_del_timer(&rr->t_meas);
+ }
+}
+
+static void stop_rr_t_starting(struct gsm48_rrlayer *rr)
{
- if (bsc_timer_pending(&rr->t_monitor)) {
- LOGP(DRR, LOGL_INFO, "stopping pending timer T_monitor\n");
- bsc_del_timer(&rr->t_monitor);
+ if (bsc_timer_pending(&rr->t_starting)) {
+ LOGP(DRR, LOGL_INFO, "stopping pending timer T_starting\n");
+ bsc_del_timer(&rr->t_starting);
}
}
}
}
+static void stop_rr_t3124(struct gsm48_rrlayer *rr)
+{
+ if (bsc_timer_pending(&rr->t3124)) {
+ LOGP(DRR, LOGL_INFO, "stopping pending timer T3124\n");
+ bsc_del_timer(&rr->t3124);
+ }
+}
+
static void stop_rr_t3126(struct gsm48_rrlayer *rr)
{
if (bsc_timer_pending(&rr->t3126)) {
struct gsm_settings *set = &ms->settings;
struct msgb *nmsg;
struct gsm48_hdr *gh;
+ struct gsm48_rr_hdr *nrrh;
uint8_t buf[11], *tlv;
LOGP(DRR, LOGL_INFO, "CIPHERING MODE COMPLETE (cr %d)\n", cr);
/* MI */
if (cr) {
gsm48_generate_mid_from_imsi(buf, set->imeisv);
+ /* alter MI type */
+ buf[2] = (buf[2] & ~GSM_MI_TYPE_MASK) | GSM_MI_TYPE_IMEISV;
tlv = msgb_put(nmsg, 2 + buf[1]);
memcpy(tlv, buf, 2 + buf[1]);
}
- return gsm48_send_rsl(ms, RSL_MT_DATA_REQ, nmsg);
+ gsm48_send_rsl(ms, RSL_MT_DATA_REQ, nmsg);
+
+ /* send RR_SYNC_IND(ciphering) */
+ nmsg = gsm48_rr_msgb_alloc(GSM48_RR_SYNC_IND);
+ if (!nmsg)
+ return -ENOMEM;
+ nrrh = (struct gsm48_rr_hdr *)nmsg->data;
+ nrrh->cause = RR_SYNC_CAUSE_CIPHERING;
+ return gsm48_rr_upmsg(ms, nmsg);
}
/* receive ciphering mode command */
static int gsm48_rr_rx_cip_mode_cmd(struct osmocom_ms *ms, struct msgb *msg)
{
struct gsm48_rrlayer *rr = &ms->rrlayer;
- struct gsm_support *sup = &ms->support;
+ struct gsm_subscriber *subscr = &ms->subscr;
+ struct gsm_settings *set = &ms->settings;
struct gsm48_hdr *gh = msgb_l3(msg);
struct gsm48_cip_mode_cmd *cm = (struct gsm48_cip_mode_cmd *)gh->data;
int payload_len = msgb_l3len(msg) - sizeof(*gh) - sizeof(*cm);
/* cipher mode response */
cr = cm->cr;
- if (sc)
- LOGP(DRR, LOGL_INFO, "CIPHERING MODE COMMAND (sc=%u, cr=%u)",
+ if (!sc)
+ LOGP(DRR, LOGL_INFO, "CIPHERING MODE COMMAND (sc=%u, cr=%u)\n",
sc, cr);
else
LOGP(DRR, LOGL_INFO, "CIPHERING MODE COMMAND (sc=%u, "
- "algo=A5/%d cr=%u)", sc, alg_id + 1, cr);
+ "algo=A5/%d cr=%u)\n", sc, alg_id + 1, cr);
/* 3.4.7.2 */
if (rr->cipher_on && sc) {
- LOGP(DRR, LOGL_INFO, "cipering already applied.\n");
+ LOGP(DRR, LOGL_NOTICE, "chiphering already applied\n");
return gsm48_rr_tx_rr_status(ms,
GSM48_RR_CAUSE_PROT_ERROR_UNSPC);
}
/* check if we actually support this cipher */
- if ((alg_id == GSM_CIPHER_A5_1 && !sup->a5_1)
- || (alg_id == GSM_CIPHER_A5_2 && !sup->a5_2)
- || (alg_id == GSM_CIPHER_A5_3 && !sup->a5_3)
- || (alg_id == GSM_CIPHER_A5_4 && !sup->a5_4)
- || (alg_id == GSM_CIPHER_A5_5 && !sup->a5_5)
- || (alg_id == GSM_CIPHER_A5_6 && !sup->a5_6)
- || (alg_id == GSM_CIPHER_A5_7 && !sup->a5_7))
+ if (sc && ((alg_id == GSM_CIPHER_A5_1 && !set->a5_1)
+ || (alg_id == GSM_CIPHER_A5_2 && !set->a5_2)
+ || (alg_id == GSM_CIPHER_A5_3 && !set->a5_3)
+ || (alg_id == GSM_CIPHER_A5_4 && !set->a5_4)
+ || (alg_id == GSM_CIPHER_A5_5 && !set->a5_5)
+ || (alg_id == GSM_CIPHER_A5_6 && !set->a5_6)
+ || (alg_id == GSM_CIPHER_A5_7 && !set->a5_7))) {
+ LOGP(DRR, LOGL_NOTICE, "algo not supported\n");
+ return gsm48_rr_tx_rr_status(ms,
+ GSM48_RR_CAUSE_PROT_ERROR_UNSPC);
+ }
+
+ /* check if we have no key */
+ if (sc && subscr->key_seq == 7) {
+ LOGP(DRR, LOGL_NOTICE, "no key available\n");
return gsm48_rr_tx_rr_status(ms,
- GSM48_RR_CAUSE_CHAN_MODE_UNACCT);
+ GSM48_RR_CAUSE_PROT_ERROR_UNSPC);
+ }
/* change to ciphering */
-#ifdef TODO
- rsl command to activate ciperhing
-#endif
- rr->cipher_on = sc, rr->cipher_type = alg_id;
+ rr->cipher_on = sc;
+ rr->cipher_type = alg_id;
+ if (rr->cipher_on)
+ l1ctl_tx_crypto_req(ms, rr->cipher_type + 1, subscr->key, 8);
+ else
+ l1ctl_tx_crypto_req(ms, 0, NULL, 0);
- /* response */
+ /* response (using the new mode) */
return gsm48_rr_tx_cip_mode_cpl(ms, cr);
}
static int gsm48_rr_enc_cm3(struct osmocom_ms *ms, uint8_t *buf, uint8_t *len)
{
struct gsm_support *sup = &ms->support;
+ struct gsm_settings *set = &ms->settings;
struct bitvec bv;
memset(&bv, 0, sizeof(bv));
/* spare bit */
bitvec_set_bit(&bv, 0);
/* band 3 supported */
- if (sup->dcs_1800)
+ if (set->dcs)
bitvec_set_bit(&bv, ONE);
else
bitvec_set_bit(&bv, ZERO);
/* band 2 supported */
- if (sup->e_gsm || sup->r_gsm)
+ if (set->e_gsm || set->r_gsm)
bitvec_set_bit(&bv, ONE);
else
bitvec_set_bit(&bv, ZERO);
/* band 1 supported */
- if (sup->p_gsm && !(sup->e_gsm || sup->r_gsm))
+ if (set->p_gsm && !(set->e_gsm || set->r_gsm))
bitvec_set_bit(&bv, ONE);
else
bitvec_set_bit(&bv, ZERO);
/* a5 bits */
- if (sup->a5_7)
+ if (set->a5_7)
bitvec_set_bit(&bv, ONE);
else
bitvec_set_bit(&bv, ZERO);
- if (sup->a5_6)
+ if (set->a5_6)
bitvec_set_bit(&bv, ONE);
else
bitvec_set_bit(&bv, ZERO);
- if (sup->a5_5)
+ if (set->a5_5)
bitvec_set_bit(&bv, ONE);
else
bitvec_set_bit(&bv, ZERO);
- if (sup->a5_4)
+ if (set->a5_4)
bitvec_set_bit(&bv, ONE);
else
bitvec_set_bit(&bv, ZERO);
/* radio capability */
- if (sup->dcs_1800 && !sup->p_gsm && !(sup->e_gsm || sup->r_gsm)) {
+ if (set->dcs && !set->p_gsm && !(set->e_gsm || set->r_gsm)) {
/* dcs only */
bitvec_set_uint(&bv, 0, 4);
- bitvec_set_uint(&bv, sup->dcs_capa, 4);
+ bitvec_set_uint(&bv, set->class_dcs, 4);
} else
- if (sup->dcs_1800 && (sup->p_gsm || (sup->e_gsm || sup->r_gsm))) {
+ if (set->dcs && (set->p_gsm || (set->e_gsm || set->r_gsm))) {
/* dcs */
- bitvec_set_uint(&bv, sup->dcs_capa, 4);
+ bitvec_set_uint(&bv, set->class_dcs, 4);
/* low band */
- bitvec_set_uint(&bv, sup->low_capa, 4);
+ bitvec_set_uint(&bv, set->class_900, 4);
} else {
/* low band only */
bitvec_set_uint(&bv, 0, 4);
- bitvec_set_uint(&bv, sup->low_capa, 4);
+ bitvec_set_uint(&bv, set->class_900, 4);
}
/* r support */
- if (sup->r_gsm) {
+ if (set->r_gsm) {
bitvec_set_bit(&bv, ONE);
- bitvec_set_uint(&bv, sup->r_capa, 3);
+ bitvec_set_uint(&bv, set->class_900, 3);
} else {
bitvec_set_bit(&bv, ZERO);
}
{
struct gsm48_rrlayer *rr = &ms->rrlayer;
struct gsm_support *sup = &ms->support;
+ struct gsm_settings *set = &ms->settings;
if (rr->cd_now.arfcn >= 512 && rr->cd_now.arfcn <= 885)
- cm->pwr_lev = sup->pwr_lev_1800;
+ cm->pwr_lev = set->class_dcs - 1;
else
- cm->pwr_lev = sup->pwr_lev_900;
- cm->a5_1 = sup->a5_1;
+ cm->pwr_lev = set->class_900 - 1;
+ cm->a5_1 = !set->a5_1;
cm->es_ind = sup->es_ind;
cm->rev_lev = sup->rev_lev;
- cm->fc = (sup->r_gsm || sup->e_gsm);
+ cm->fc = (set->r_gsm || set->e_gsm);
cm->vgcs = sup->vgcs;
cm->vbs = sup->vbs;
- cm->sm_cap = sup->sms_ptp;
+ cm->sm_cap = set->sms_ptp;
cm->ss_scr = sup->ss_ind;
cm->ps_cap = sup->ps_cap;
- cm->a5_2 = sup->a5_2;
- cm->a5_3 = sup->a5_3;
+ cm->a5_2 = set->a5_2;
+ cm->a5_3 = set->a5_3;
cm->cmsp = sup->cmsp;
cm->solsa = sup->solsa;
cm->lcsva_cap = sup->lcsva;
static int gsm48_rr_tx_cm_change(struct osmocom_ms *ms)
{
struct gsm_support *sup = &ms->support;
+ struct gsm_settings *set = &ms->settings;
struct msgb *nmsg;
struct gsm48_hdr *gh;
struct gsm48_cm_change *cc;
gsm48_rr_enc_cm2(ms, &cc->cm2);
/* classmark 3 */
- if (sup->dcs_1800 || sup->e_gsm || sup->r_gsm
- || sup->a5_7 || sup->a5_6 || sup->a5_5 || sup->a5_4
+ if (set->dcs || set->e_gsm || set->r_gsm
+ || set->a5_7 || set->a5_6 || set->a5_5 || set->a5_4
|| sup->ms_sup
|| sup->ucs2_treat
|| sup->ext_meas || sup->meas_cap
/* start random access */
static int gsm48_rr_chan_req(struct osmocom_ms *ms, int cause, int paging)
{
+ struct gsm_settings *set = &ms->settings;
struct gsm48_rrlayer *rr = &ms->rrlayer;
struct gsm322_cellsel *cs = &ms->cellsel;
struct gsm48_sysinfo *s = cs->si;
/* number of retransmissions (with first transmission) */
rr->n_chan_req = s->max_retrans + 1;
-#warning HACK: always request SDCCH for test
-cause = RR_EST_CAUSE_LOC_UPD;
/* generate CHAN REQ (9.1.8) */
switch (cause) {
case RR_EST_CAUSE_EMERGENCY:
chan_req_val);
break;
case RR_EST_CAUSE_ANS_PAG_TCH_F:
- /* ms supports no dual rate */
- chan_req_mask = 0x1f;
- chan_req_val = 0x80;
+ switch (set->ch_cap) {
+ case GSM_CAP_SDCCH:
+ chan_req_mask = 0x0f;
+ chan_req_val = 0x10;
+ break;
+ case GSM_CAP_SDCCH_TCHF:
+ chan_req_mask = 0x1f;
+ chan_req_val = 0x80;
+ break;
+ default:
+ chan_req_mask = 0x0f;
+ chan_req_val = 0x20;
+ break;
+ }
LOGP(DRR, LOGL_INFO, "CHANNEL REQUEST: %02x (PAGING TCH/F)\n",
chan_req_val);
break;
case RR_EST_CAUSE_ANS_PAG_TCH_ANY:
- /* ms supports no dual rate */
- chan_req_mask = 0x1f;
- chan_req_val = 0x80;
+ switch (set->ch_cap) {
+ case GSM_CAP_SDCCH:
+ chan_req_mask = 0x0f;
+ chan_req_val = 0x10;
+ break;
+ case GSM_CAP_SDCCH_TCHF:
+ chan_req_mask = 0x1f;
+ chan_req_val = 0x80;
+ break;
+ default:
+ chan_req_mask = 0x0f;
+ chan_req_val = 0x30;
+ break;
+ }
LOGP(DRR, LOGL_INFO, "CHANNEL REQUEST: %02x (PAGING TCH/H or "
"TCH/F)\n", chan_req_val);
break;
ncch->data[7] = tx_power;
/* set initial indications */
- rr->ind_tx_power = s->ms_txpwr_max_cch;
- rr->ind_ta = set->alter_delay;
+ rr->cd_now.ind_tx_power = s->ms_txpwr_max_cch;
+ rr->cd_now.ind_ta = set->alter_delay;
/* store ra until confirmed, then copy it with time into cr_hist */
rr->cr_ra = chan_req;
*/
/* decode "Cell Channel Description" (10.5.2.1b) and other frequency lists */
-static int gsm48_decode_freq_list(struct gsm_support *sup,
+static int decode_freq_list(struct gsm_settings *set,
struct gsm_sysinfo_freq *f, uint8_t *cd, uint8_t len, uint8_t mask,
uint8_t frqt)
{
- int i;
-
- /* NOTES:
- *
- * The Range format uses "SMOD" computation.
- * e.g. "n SMOD m" equals "((n - 1) % m) + 1"
- * A cascade of multiple SMOD computations is simpified:
- * "(n SMOD m) SMOD o" equals "(((n - 1) % m) % o) + 1"
- *
- * The Range format uses 16 octets of data in SYSTEM INFORMATION.
- * When used in dedicated messages, the length can be less.
- * In this case the ranges are decoded for all frequencies that
- * fit in the block of given length.
- */
-
- /* tabula rasa */
- for (i = 0; i < 1024; i++)
- f[i].mask &= ~frqt;
-
- /* 00..XXX. */
- if ((cd[0] & 0xc0 & mask) == 0x00) {
- /* Bit map 0 format */
- if (len < 16)
- return -EINVAL;
- for (i = 1; i <= 124; i++)
- if ((cd[15 - ((i-1) >> 3)] & (1 << ((i-1) & 7))))
- f[i].mask |= frqt;
-
- return 0;
- }
-
/* only Bit map 0 format for P-GSM */
- if (sup->p_gsm && !sup->e_gsm && !sup->r_gsm && !sup->dcs_1800)
+ if ((cd[0] & 0xc0 & mask) != 0x00 &&
+ (set->p_gsm && !set->e_gsm && !set->r_gsm && !set->dcs))
return 0;
- /* 10..0XX. */
- if ((cd[0] & 0xc8 & mask) == 0x80) {
- /* Range 1024 format */
- uint16_t w[17]; /* 1..16 */
- struct gsm48_range_1024 *r = (struct gsm48_range_1024 *)cd;
-
- if (len < 2)
- return -EINVAL;
- memset(w, 0, sizeof(w));
- if (r->f0)
- f[0].mask |= frqt;
- w[1] = (r->w1_hi << 8) | r->w1_lo;
- if (len >= 4)
- w[2] = (r->w2_hi << 1) | r->w2_lo;
- if (len >= 5)
- w[3] = (r->w3_hi << 2) | r->w3_lo;
- if (len >= 6)
- w[4] = (r->w4_hi << 2) | r->w4_lo;
- if (len >= 7)
- w[5] = (r->w5_hi << 2) | r->w5_lo;
- if (len >= 8)
- w[6] = (r->w6_hi << 2) | r->w6_lo;
- if (len >= 9)
- w[7] = (r->w7_hi << 2) | r->w7_lo;
- if (len >= 10)
- w[8] = (r->w8_hi << 1) | r->w8_lo;
- if (len >= 10)
- w[9] = r->w9;
- if (len >= 11)
- w[10] = r->w10;
- if (len >= 12)
- w[11] = (r->w11_hi << 6) | r->w11_lo;
- if (len >= 13)
- w[12] = (r->w12_hi << 5) | r->w12_lo;
- if (len >= 14)
- w[13] = (r->w13_hi << 4) | r->w13_lo;
- if (len >= 15)
- w[14] = (r->w14_hi << 3) | r->w14_lo;
- if (len >= 16)
- w[15] = (r->w15_hi << 2) | r->w15_lo;
- if (len >= 16)
- w[16] = r->w16;
- if (w[1])
- f[w[1]].mask |= frqt;
- if (w[2])
- f[((w[1] - 512 + w[2] - 1) % 1023) + 1].mask |= frqt;
- if (w[3])
- f[((w[1] + w[3] - 1) % 1023) + 1].mask |= frqt;
- if (w[4])
- f[((w[1] - 512 + ((w[2] - 256 + w[4] - 1) % 511)) % 1023) + 1].mask |= frqt;
- if (w[5])
- f[((w[1] + ((w[3] - 256 - w[5] - 1) % 511)) % 1023) + 1].mask |= frqt;
- if (w[6])
- f[((w[1] - 512 + ((w[2] + w[6] - 1) % 511)) % 1023) + 1].mask |= frqt;
- if (w[7])
- f[((w[1] + ((w[3] + w[7] - 1) % 511)) % 1023) + 1].mask |= frqt;
- if (w[8])
- f[((w[1] - 512 + ((w[2] - 256 + ((w[4] - 128 + w[8] - 1) % 255)) % 511)) % 1023) + 1].mask |= frqt;
- if (w[9])
- f[((w[1] + ((w[3] - 256 + ((w[5] - 128 + w[9] - 1) % 255)) % 511)) % 1023) + 1].mask |= frqt;
- if (w[10])
- f[((w[1] - 512 + ((w[2] + ((w[6] - 128 + w[10] - 1) % 255)) % 511)) % 1023) + 1].mask |= frqt;
- if (w[11])
- f[((w[1] + ((w[3] + ((w[7] - 128 + w[11] - 1) % 255)) % 511)) % 1023) + 1].mask |= frqt;
- if (w[12])
- f[((w[1] - 512 + ((w[2] - 256 + ((w[4] + w[12] - 1) % 255)) % 511)) % 1023) + 1].mask |= frqt;
- if (w[13])
- f[((w[1] + ((w[3] - 256 + ((w[5] + w[13] - 1) % 255)) % 511)) % 1023) + 1].mask |= frqt;
- if (w[14])
- f[((w[1] - 512 + ((w[2] + ((w[6] + w[14] - 1) % 255)) % 511)) % 1023) + 1].mask |= frqt;
- if (w[15])
- f[((w[1] + ((w[3] + ((w[7] + w[15] - 1) % 255)) % 511)) % 1023) + 1].mask |= frqt;
- if (w[16])
- f[((w[1] - 512 + ((w[2] - 256 + ((w[4] - 128 + ((w[8] - 64 + w[16] - 1) % 127)) % 255)) % 511)) % 1023) + 1].mask |= frqt;
-
- return 0;
- }
- /* 10..100. */
- if ((cd[0] & 0xce & mask) == 0x88) {
- /* Range 512 format */
- uint16_t w[18]; /* 1..17 */
- struct gsm48_range_512 *r = (struct gsm48_range_512 *)cd;
-
- if (len < 4)
- return -EINVAL;
- memset(w, 0, sizeof(w));
- w[0] = (r->orig_arfcn_hi << 9) | (r->orig_arfcn_mid << 1) | r->orig_arfcn_lo;
- w[1] = (r->w1_hi << 2) | r->w1_lo;
- if (len >= 5)
- w[2] = (r->w2_hi << 2) | r->w2_lo;
- if (len >= 6)
- w[3] = (r->w3_hi << 2) | r->w3_lo;
- if (len >= 7)
- w[4] = (r->w4_hi << 1) | r->w4_lo;
- if (len >= 7)
- w[5] = r->w5;
- if (len >= 8)
- w[6] = r->w6;
- if (len >= 9)
- w[7] = (r->w7_hi << 6) | r->w7_lo;
- if (len >= 10)
- w[8] = (r->w8_hi << 4) | r->w8_lo;
- if (len >= 11)
- w[9] = (r->w9_hi << 2) | r->w9_lo;
- if (len >= 11)
- w[10] = r->w10;
- if (len >= 12)
- w[11] = r->w11;
- if (len >= 13)
- w[12] = (r->w12_hi << 4) | r->w12_lo;
- if (len >= 14)
- w[13] = (r->w13_hi << 2) | r->w13_lo;
- if (len >= 14)
- w[14] = r->w14;
- if (len >= 15)
- w[15] = r->w15;
- if (len >= 16)
- w[16] = (r->w16_hi << 3) | r->w16_lo;
- if (len >= 16)
- w[17] = r->w17;
- f[w[0]].mask |= frqt;
- if (w[1])
- f[(w[0] + w[1]) % 1024].mask |= frqt;
- if (w[2])
- f[(w[0] + ((w[1] - 256 + w[2] - 1) % 511) + 1) % 1024].mask |= frqt;
- if (w[3])
- f[(w[0] + ((w[1] + w[3] - 1) % 511) + 1) % 1024].mask |= frqt;
- if (w[4])
- f[(w[0] + ((w[1] - 256 + ((w[2] - 128 + w[4] - 1) % 255)) % 511) + 1) % 1024].mask |= frqt;
- if (w[5])
- f[(w[0] + ((w[1] + ((w[3] - 128 + w[5] - 1) % 255)) % 511) + 1) % 1024].mask |= frqt;
- if (w[6])
- f[(w[0] + ((w[1] - 256 + ((w[2] + w[6] - 1) % 255)) % 511) + 1) % 1024].mask |= frqt;
- if (w[7])
- f[(w[0] + ((w[1] + ((w[3] + w[7] - 1) % 255)) % 511) + 1) % 1024].mask |= frqt;
- if (w[8])
- f[(w[0] + ((w[1] - 256 + ((w[2] - 128 + ((w[4] - 64 + w[8] - 1) % 127)) % 255)) % 511) + 1) % 1024].mask |= frqt;
- if (w[9])
- f[(w[0] + ((w[1] + ((w[3] - 128 + ((w[5] - 64 + w[9] - 1) % 127)) % 255)) % 511) + 1) % 1024].mask |= frqt;
- if (w[10])
- f[(w[0] + ((w[1] - 256 + ((w[2] + ((w[6] - 64 + w[10] - 1) % 127)) % 255)) % 511) + 1) % 1024].mask |= frqt;
- if (w[11])
- f[(w[0] + ((w[1] + ((w[3] + ((w[7] - 64 + w[11] - 1) % 127)) % 255)) % 511) + 1) % 1024].mask |= frqt;
- if (w[12])
- f[(w[0] + ((w[1] - 256 + ((w[2] - 128 + ((w[4] + w[12] - 1) % 127)) % 255)) % 511) + 1) % 1024].mask |= frqt;
- if (w[13])
- f[(w[0] + ((w[1] + ((w[3] - 128 + ((w[5] + w[13] - 1) % 127)) % 255)) % 511) + 1) % 1024].mask |= frqt;
- if (w[14])
- f[(w[0] + ((w[1] - 256 + ((w[2] + ((w[6] + w[14] - 1) % 127)) % 255)) % 511) + 1) % 1024].mask |= frqt;
- if (w[15])
- f[(w[0] + ((w[1] + ((w[3] + ((w[7] + w[15] - 1) % 127)) % 255)) % 511) + 1) % 1024].mask |= frqt;
- if (w[16])
- f[(w[0] + ((w[1] - 256 + ((w[2] - 128 + ((w[4] - 64 + ((w[8] - 32 + w[16] - 1) % 63)) % 127)) % 255)) % 511) + 1) % 1024].mask |= frqt;
- if (w[17])
- f[(w[0] + ((w[1] + ((w[3] - 128 + ((w[5] - 64 + ((w[9] - 32 + w[17] - 1) % 63)) % 127)) % 255)) % 511) + 1) % 1024].mask |= frqt;
-
- return 0;
- }
- /* 10..101. */
- if ((cd[0] & 0xce & mask) == 0x8a) {
- /* Range 256 format */
- uint16_t w[22]; /* 1..21 */
- struct gsm48_range_256 *r = (struct gsm48_range_256 *)cd;
-
- if (len < 4)
- return -EINVAL;
- memset(w, 0, sizeof(w));
- w[0] = (r->orig_arfcn_hi << 9) | (r->orig_arfcn_mid << 1) | r->orig_arfcn_lo;
- w[1] = (r->w1_hi << 1) | r->w1_lo;
- if (len >= 4)
- w[2] = r->w2;
- if (len >= 5)
- w[3] = r->w3;
- if (len >= 6)
- w[4] = (r->w4_hi << 5) | r->w4_lo;
- if (len >= 7)
- w[5] = (r->w5_hi << 3) | r->w5_lo;
- if (len >= 8)
- w[6] = (r->w6_hi << 1) | r->w6_lo;
- if (len >= 8)
- w[7] = r->w7;
- if (len >= 9)
- w[8] = (r->w8_hi << 4) | r->w8_lo;
- if (len >= 10)
- w[9] = (r->w9_hi << 1) | r->w9_lo;
- if (len >= 10)
- w[10] = r->w10;
- if (len >= 11)
- w[11] = (r->w11_hi << 3) | r->w11_lo;
- if (len >= 11)
- w[12] = r->w12;
- if (len >= 12)
- w[13] = r->w13;
- if (len >= 13)
- w[14] = r->w15;
- if (len >= 13)
- w[15] = (r->w14_hi << 2) | r->w14_lo;
- if (len >= 14)
- w[16] = (r->w16_hi << 3) | r->w16_lo;
- if (len >= 14)
- w[17] = r->w17;
- if (len >= 15)
- w[18] = r->w19;
- if (len >= 15)
- w[19] = (r->w18_hi << 3) | r->w18_lo;
- if (len >= 16)
- w[20] = (r->w20_hi << 3) | r->w20_lo;
- if (len >= 16)
- w[21] = r->w21;
- f[w[0]].mask |= frqt;
- if (w[1])
- f[(w[0] + w[1]) % 1024].mask |= frqt;
- if (w[2])
- f[(w[0] + ((w[1] - 128 + w[2] - 1) % 255) + 1) % 1024].mask |= frqt;
- if (w[3])
- f[(w[0] + ((w[1] + w[3] - 1) % 255) + 1) % 1024].mask |= frqt;
- if (w[4])
- f[(w[0] + ((w[1] - 128 + ((w[2] - 64 + w[4] - 1) % 127)) % 255) + 1) % 1024].mask |= frqt;
- if (w[5])
- f[(w[0] + ((w[1] + ((w[3] - 64 + w[5] - 1) % 127)) % 255) + 1) % 1024].mask |= frqt;
- if (w[6])
- f[(w[0] + ((w[1] - 128 + ((w[2] + w[6] - 1) % 127)) % 255) + 1) % 1024].mask |= frqt;
- if (w[7])
- f[(w[0] + ((w[1] + ((w[3] + w[7] - 1) % 127)) % 255) + 1) % 1024].mask |= frqt;
- if (w[8])
- f[(w[0] + ((w[1] - 128 + ((w[2] - 64 + ((w[4] - 32 + w[8] - 1) % 63)) % 127)) % 255) + 1) % 1024].mask |= frqt;
- if (w[9])
- f[(w[0] + ((w[1] + ((w[3] - 64 + ((w[5] - 32 + w[9] - 1) % 63)) % 127)) % 255) + 1) % 1024].mask |= frqt;
- if (w[10])
- f[(w[0] + ((w[1] - 128 + ((w[2] + ((w[6] - 32 + w[10] - 1) % 63)) % 127)) % 255) + 1) % 1024].mask |= frqt;
- if (w[11])
- f[(w[0] + ((w[1] + ((w[3] + ((w[7] - 32 + w[11] - 1) % 63)) % 127)) % 255) + 1) % 1024].mask |= frqt;
- if (w[12])
- f[(w[0] + ((w[1] - 128 + ((w[2] - 64 + ((w[4] + w[12] - 1) % 63)) % 127)) % 255) + 1) % 1024].mask |= frqt;
- if (w[13])
- f[(w[0] + ((w[1] + ((w[3] - 64 + ((w[5] + w[13] - 1) % 63)) % 127)) % 255) + 1) % 1024].mask |= frqt;
- if (w[14])
- f[(w[0] + ((w[1] - 128 + ((w[2] + ((w[6] + w[14] - 1) % 63)) % 127)) % 255) + 1) % 1024].mask |= frqt;
- if (w[15])
- f[(w[0] + ((w[1] + ((w[3] + ((w[7] + w[15] - 1) % 63)) % 127)) % 255) + 1) % 1024].mask |= frqt;
- if (w[16])
- f[(w[0] + ((w[1] - 128 + ((w[2] - 64 + ((w[4] - 32 + ((w[8] - 16 + w[16] - 1) % 31)) % 63)) % 127)) % 255) + 1) % 1024].mask |= frqt;
- if (w[17])
- f[(w[0] + ((w[1] + ((w[3] - 64 + ((w[5] - 32 + ((w[9] - 16 + w[17] - 1) % 31)) % 63)) % 127)) % 255) + 1) % 1024].mask |= frqt;
- if (w[18])
- f[(w[0] + ((w[1] - 128 + ((w[2] + ((w[6] - 32 + ((w[10] - 16 + w[18] - 1) % 31)) % 63)) % 127)) % 255) + 1) % 1024].mask |= frqt;
- if (w[19])
- f[(w[0] + ((w[1] + ((w[3] + ((w[7] - 32 + ((w[11] - 16 + w[19] - 1) % 31)) % 63)) % 127)) % 255) + 1) % 1024].mask |= frqt;
- if (w[20])
- f[(w[0] + ((w[1] - 128 + ((w[2] - 64 + ((w[4] + ((w[12] - 16 + w[20] - 1) % 31)) % 63)) % 127)) % 255) + 1) % 1024].mask |= frqt;
- if (w[21])
- f[(w[0] + ((w[1] + ((w[3] - 64 + ((w[5] + ((w[13] - 16 + w[21] - 1) % 31)) % 63)) % 127)) % 255) + 1) % 1024].mask |= frqt;
-
- return 0;
- }
- /* 10..110. */
- if ((cd[0] & 0xce & mask) == 0x8c) {
- /* Range 128 format */
- uint16_t w[29]; /* 1..28 */
- struct gsm48_range_128 *r = (struct gsm48_range_128 *)cd;
-
- if (len < 3)
- return -EINVAL;
- memset(w, 0, sizeof(w));
- w[0] = (r->orig_arfcn_hi << 9) | (r->orig_arfcn_mid << 1) | r->orig_arfcn_lo;
- w[1] = r->w1;
- if (len >= 4)
- w[2] = r->w2;
- if (len >= 5)
- w[3] = (r->w3_hi << 4) | r->w3_lo;
- if (len >= 6)
- w[4] = (r->w4_hi << 1) | r->w4_lo;
- if (len >= 6)
- w[5] = r->w5;
- if (len >= 7)
- w[6] = (r->w6_hi << 3) | r->w6_lo;
- if (len >= 7)
- w[7] = r->w7;
- if (len >= 8)
- w[8] = r->w8;
- if (len >= 8)
- w[9] = r->w9;
- if (len >= 9)
- w[10] = r->w10;
- if (len >= 9)
- w[11] = r->w11;
- if (len >= 10)
- w[12] = r->w12;
- if (len >= 10)
- w[13] = r->w13;
- if (len >= 11)
- w[14] = r->w14;
- if (len >= 11)
- w[15] = r->w15;
- if (len >= 12)
- w[16] = r->w16;
- if (len >= 12)
- w[17] = r->w17;
- if (len >= 13)
- w[18] = (r->w18_hi << 1) | r->w18_lo;
- if (len >= 13)
- w[19] = r->w19;
- if (len >= 13)
- w[20] = r->w20;
- if (len >= 14)
- w[21] = (r->w21_hi << 2) | r->w21_lo;
- if (len >= 14)
- w[22] = r->w22;
- if (len >= 14)
- w[23] = r->w23;
- if (len >= 15)
- w[24] = r->w24;
- if (len >= 15)
- w[25] = r->w25;
- if (len >= 16)
- w[26] = (r->w26_hi << 1) | r->w26_lo;
- if (len >= 16)
- w[27] = r->w27;
- if (len >= 16)
- w[28] = r->w28;
- f[w[0]].mask |= frqt;
- if (w[1])
- f[(w[0] + w[1]) % 1024].mask |= frqt;
- if (w[2])
- f[(w[0] + ((w[1] - 64 + w[2] - 1) % 127) + 1) % 1024].mask |= frqt;
- if (w[3])
- f[(w[0] + ((w[1] + w[3] - 1) % 127) + 1) % 1024].mask |= frqt;
- if (w[4])
- f[(w[0] + ((w[1] - 64 + ((w[2] - 32 + w[4] - 1) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[5])
- f[(w[0] + ((w[1] + ((w[3] - 32 + w[5] - 1) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[6])
- f[(w[0] + ((w[1] - 64 + ((w[2] + w[6] - 1) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[7])
- f[(w[0] + ((w[1] + ((w[3] + w[7] - 1) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[8])
- f[(w[0] + ((w[1] - 64 + ((w[2] - 32 + ((w[4] - 16 + w[8] - 1) % 31)) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[9])
- f[(w[0] + ((w[1] + ((w[3] - 32 + ((w[5] - 16 + w[9] - 1) % 31)) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[10])
- f[(w[0] + ((w[1] - 64 + ((w[2] + ((w[6] - 16 + w[10] - 1) % 31)) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[11])
- f[(w[0] + ((w[1] + ((w[3] + ((w[7] - 16 + w[11] - 1) % 31)) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[12])
- f[(w[0] + ((w[1] - 64 + ((w[2] - 32 + ((w[4] + w[12] - 1) % 31)) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[13])
- f[(w[0] + ((w[1] + ((w[3] - 32 + ((w[5] + w[13] - 1) % 31)) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[14])
- f[(w[0] + ((w[1] - 64 + ((w[2] + ((w[6] + w[14] - 1) % 31)) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[15])
- f[(w[0] + ((w[1] + ((w[3] + ((w[7] + w[15] - 1) % 31)) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[16])
- f[(w[0] + ((w[1] - 64 + ((w[2] - 32 + ((w[4] - 16 + ((w[8] - 8 + w[16] - 1) % 15)) % 31)) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[17])
- f[(w[0] + ((w[1] + ((w[3] - 32 + ((w[5] - 16 + ((w[9] - 8 + w[17] - 1) % 15)) % 31)) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[18])
- f[(w[0] + ((w[1] - 64 + ((w[2] + ((w[6] - 16 + ((w[10] - 8 + w[18] - 1) % 15)) % 31)) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[19])
- f[(w[0] + ((w[1] + ((w[3] + ((w[7] - 16 + ((w[11] - 8 + w[19] - 1) % 15)) % 31)) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[20])
- f[(w[0] + ((w[1] - 64 + ((w[2] - 32 + ((w[4] + ((w[12] - 8 + w[20] - 1) % 15)) % 31)) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[21])
- f[(w[0] + ((w[1] + ((w[3] - 32 + ((w[5] + ((w[13] - 8 + w[21] - 1) % 15)) % 31)) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[22])
- f[(w[0] + ((w[1] - 64 + ((w[2] + ((w[6] + ((w[14] - 8 + w[22] - 1) % 15)) % 31)) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[23])
- f[(w[0] + ((w[1] + ((w[3] + ((w[7] + ((w[15] - 8 + w[23] - 1) % 15)) % 31)) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[24])
- f[(w[0] + ((w[1] - 64 + ((w[2] - 32 + ((w[4] - 16 + ((w[8] + w[24] - 1) % 15)) % 31)) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[25])
- f[(w[0] + ((w[1] + ((w[3] - 32 + ((w[5] - 16 + ((w[9] + w[25] - 1) % 15)) % 31)) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[26])
- f[(w[0] + ((w[1] - 64 + ((w[2] + ((w[6] - 16 + ((w[10] + w[26] - 1) % 15)) % 31)) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[27])
- f[(w[0] + ((w[1] + ((w[3] + ((w[7] - 16 + ((w[11] + w[27] - 1) % 15)) % 31)) % 63)) % 127) + 1) % 1024].mask |= frqt;
- if (w[28])
- f[(w[0] + ((w[1] - 64 + ((w[2] - 32 + ((w[4] + ((w[12] + w[28] - 1) % 15)) % 31)) % 63)) % 127) + 1) % 1024].mask |= frqt;
-
- return 0;
- }
- /* 10..111. */
- if ((cd[0] & 0xce & mask) == 0x8e) {
- /* Variable bitmap format (can be any length >= 3) */
- uint16_t orig = 0;
- struct gsm48_var_bit *r = (struct gsm48_var_bit *)cd;
-
- if (len < 3)
- return -EINVAL;
- orig = (r->orig_arfcn_hi << 9) | (r->orig_arfcn_mid << 1) | r->orig_arfcn_lo;
- f[orig].mask |= frqt;
- for (i = 1; 2 + (i >> 3) < len; i++)
- if ((cd[2 + (i >> 3)] & (0x80 >> (i & 7))))
- f[(orig + i) % 1024].mask |= frqt;
-
- return 0;
- }
-
- return 0;
+ return gsm48_decode_freq_list(f, cd, len, mask, frqt);
}
/* decode "Cell Selection Parameters" (10.5.2.4) */
}
/* decode "Mobile Allocation" (10.5.2.21) */
-static int gsm48_decode_mobile_alloc(struct gsm48_sysinfo *s,
+static int gsm48_decode_mobile_alloc(struct gsm_sysinfo_freq *freq,
uint8_t *ma, uint8_t len, uint16_t *hopping, uint8_t *hopp_len, int si4)
{
int i, j = 0;
*hopp_len = 0;
if (si4) {
for (i = 0; i < 1024; i++)
- s->freq[i].mask &= ~FREQ_TYPE_HOPP;
+ freq[i].mask &= ~FREQ_TYPE_HOPP;
}
/* generating list of all frequencies (1..1023,0) */
for (i = 1; i <= 1024; i++) {
- if ((s->freq[i & 1023].mask & FREQ_TYPE_SERV)) {
+ if ((freq[i & 1023].mask & FREQ_TYPE_SERV)) {
LOGP(DRR, LOGL_INFO, "Serving cell ARFCN #%d: %d\n",
j, i & 1023);
f[j++] = i & 1023;
}
hopping[(*hopp_len)++] = f[i];
if (si4)
- s->freq[f[i]].mask |= FREQ_TYPE_HOPP;
+ freq[f[i]].mask |= FREQ_TYPE_HOPP;
}
}
}
/* send sysinfo event to other layers */
-static int gsm48_send_sysinfo(struct osmocom_ms *ms, uint8_t type)
+static int gsm48_new_sysinfo(struct osmocom_ms *ms, uint8_t type)
{
+ struct gsm48_sysinfo *s = ms->cellsel.si;
struct msgb *nmsg;
struct gsm322_msg *em;
+ /* update list of measurements, if BA(SACCH) is complete and new */
+ if (s
+ && (type == GSM48_MT_RR_SYSINFO_5
+ || type == GSM48_MT_RR_SYSINFO_5bis
+ || type == GSM48_MT_RR_SYSINFO_5ter)
+ && s->si5
+ && (!s->nb_ext_ind_si5
+ || (s->si5bis && s->nb_ext_ind_si5 && !s->nb_ext_ind_si5bis)
+ || (s->si5bis && s->si5ter && s->nb_ext_ind_si5
+ && s->nb_ext_ind_si5bis))) {
+ struct gsm48_rr_meas *rrmeas = &ms->rrlayer.meas;
+ int n = 0, i;
+
+ LOGP(DRR, LOGL_NOTICE, "Complete set of SI5* for BA(%d)\n",
+ s->nb_ba_ind_si5);
+ rrmeas->nc_num = 0;
+ for (i = 1; i <= 1024; i++) {
+ if ((s->freq[i & 1023].mask & FREQ_TYPE_REP)) {
+ if (n == 32) {
+ LOGP(DRR, LOGL_NOTICE, "SI5* report "
+ "exceeds 32 BCCHs\n");
+ break;
+ }
+ LOGP(DRR, LOGL_NOTICE, "SI5* report arfcn %d\n",
+ i & 1023);
+ rrmeas->nc_arfcn[n] = i & 1023;
+ rrmeas->nc_rxlev[n] = -128;
+ n++;
+ }
+ }
+ rrmeas->nc_num = n;
+ }
+
+ /* send sysinfo event to other layers */
nmsg = gsm322_msgb_alloc(GSM322_EVENT_SYSINFO);
if (!nmsg)
return -ENOMEM;
LOGP(DRR, LOGL_INFO, "New SYSTEM INFORMATION 1\n");
/* Cell Channel Description */
- gsm48_decode_freq_list(&ms->support, s->freq,
+ decode_freq_list(&ms->settings, s->freq,
si->cell_channel_description,
sizeof(si->cell_channel_description), 0xce, FREQ_TYPE_SERV);
/* RACH Control Parameter */
s->si1 = 1;
- return gsm48_send_sysinfo(ms, si->header.system_information);
+ return gsm48_new_sysinfo(ms, si->header.system_information);
}
/* receive "SYSTEM INFORMATION 2" message (9.1.32) */
"message.\n");
return -EINVAL;
}
-//printf("len = %d\n", MIN(msgb_l3len(msg), sizeof(s->si2_msg)));
if (!memcmp(si, s->si2_msg, MIN(msgb_l3len(msg), sizeof(s->si2_msg))))
return 0;
/* Neighbor Cell Description */
s->nb_ext_ind_si2 = (si->bcch_frequency_list[0] >> 6) & 1;
s->nb_ba_ind_si2 = (si->bcch_frequency_list[0] >> 5) & 1;
- gsm48_decode_freq_list(&ms->support, s->freq, si->bcch_frequency_list,
+ decode_freq_list(&ms->settings, s->freq, si->bcch_frequency_list,
sizeof(si->bcch_frequency_list), 0xce, FREQ_TYPE_NCELL_2);
/* NCC Permitted */
- s->nb_ncc_permitted = si->ncc_permitted;
+ s->nb_ncc_permitted_si2 = si->ncc_permitted;
/* RACH Control Parameter */
gsm48_decode_rach_ctl_neigh(s, &si->rach_control);
s->si2 = 1;
- return gsm48_send_sysinfo(ms, si->header.system_information);
+ return gsm48_new_sysinfo(ms, si->header.system_information);
}
/* receive "SYSTEM INFORMATION 2bis" message (9.1.33) */
/* Neighbor Cell Description */
s->nb_ext_ind_si2bis = (si->bcch_frequency_list[0] >> 6) & 1;
s->nb_ba_ind_si2bis = (si->bcch_frequency_list[0] >> 5) & 1;
- gsm48_decode_freq_list(&ms->support, s->freq,
+ decode_freq_list(&ms->settings, s->freq,
si->bcch_frequency_list,
- sizeof(si->bcch_frequency_list), 0x8e,
- FREQ_TYPE_NCELL_2bis);
+ sizeof(si->bcch_frequency_list), 0xce, FREQ_TYPE_NCELL_2bis);
/* RACH Control Parameter */
gsm48_decode_rach_ctl_neigh(s, &si->rach_control);
s->si2bis = 1;
- return gsm48_send_sysinfo(ms, si->header.system_information);
+ return gsm48_new_sysinfo(ms, si->header.system_information);
}
/* receive "SYSTEM INFORMATION 2ter" message (9.1.34) */
/* Neighbor Cell Description 2 */
s->nb_multi_rep_si2ter = (si->ext_bcch_frequency_list[0] >> 6) & 3;
- gsm48_decode_freq_list(&ms->support, s->freq,
+ s->nb_ba_ind_si2ter = (si->ext_bcch_frequency_list[0] >> 5) & 1;
+ decode_freq_list(&ms->settings, s->freq,
si->ext_bcch_frequency_list,
sizeof(si->ext_bcch_frequency_list), 0x8e,
- FREQ_TYPE_NCELL_2ter);
+ FREQ_TYPE_NCELL_2ter);
s->si2ter = 1;
- return gsm48_send_sysinfo(ms, si->header.system_information);
+ return gsm48_new_sysinfo(ms, si->header.system_information);
}
/* receive "SYSTEM INFORMATION 3" message (9.1.35) */
l1ctl_tx_ccch_mode_req(ms, cs->ccch_mode);
}
- return gsm48_send_sysinfo(ms, si->header.system_information);
+ return gsm48_new_sysinfo(ms, si->header.system_information);
}
/* receive "SYSTEM INFORMATION 4" message (9.1.36) */
if (payload_len >= 1 && data[0] == GSM48_IE_CBCH_MOB_AL) {
if (payload_len < 1 || payload_len < 2 + data[1])
goto short_read;
- gsm48_decode_mobile_alloc(s, data + 2, si->data[1], s->hopping,
- &s->hopp_len, 1);
+ gsm48_decode_mobile_alloc(s->freq, data + 2, si->data[1],
+ s->hopping, &s->hopp_len, 1);
payload_len -= 2 + data[1];
data += 2 + data[1];
}
s->si4 = 1;
- return gsm48_send_sysinfo(ms, si->header.system_information);
+ return gsm48_new_sysinfo(ms, si->header.system_information);
}
/* receive "SYSTEM INFORMATION 5" message (9.1.37) */
/* Neighbor Cell Description */
s->nb_ext_ind_si5 = (si->bcch_frequency_list[0] >> 6) & 1;
s->nb_ba_ind_si5 = (si->bcch_frequency_list[0] >> 5) & 1;
- gsm48_decode_freq_list(&ms->support, s->freq, si->bcch_frequency_list,
+ decode_freq_list(&ms->settings, s->freq, si->bcch_frequency_list,
sizeof(si->bcch_frequency_list), 0xce, FREQ_TYPE_REP_5);
s->si5 = 1;
- return gsm48_send_sysinfo(ms, si->system_information);
+ return gsm48_new_sysinfo(ms, si->system_information);
}
/* receive "SYSTEM INFORMATION 5bis" message (9.1.38) */
/* Neighbor Cell Description */
s->nb_ext_ind_si5bis = (si->bcch_frequency_list[0] >> 6) & 1;
s->nb_ba_ind_si5bis = (si->bcch_frequency_list[0] >> 5) & 1;
- gsm48_decode_freq_list(&ms->support, s->freq, si->bcch_frequency_list,
+ decode_freq_list(&ms->settings, s->freq, si->bcch_frequency_list,
sizeof(si->bcch_frequency_list), 0xce, FREQ_TYPE_REP_5bis);
s->si5bis = 1;
- return gsm48_send_sysinfo(ms, si->system_information);
+ return gsm48_new_sysinfo(ms, si->system_information);
}
/* receive "SYSTEM INFORMATION 5ter" message (9.1.39) */
memcpy(s->si5t_msg, si, MIN(msgb_l3len(msg), sizeof(s->si5t_msg)));
/* Neighbor Cell Description */
- gsm48_decode_freq_list(&ms->support, s->freq, si->bcch_frequency_list,
- sizeof(si->bcch_frequency_list), 0xce, FREQ_TYPE_REP_5ter);
+ s->nb_multi_rep_si5ter = (si->bcch_frequency_list[0] >> 6) & 3;
+ s->nb_ba_ind_si5ter = (si->bcch_frequency_list[0] >> 5) & 1;
+ decode_freq_list(&ms->settings, s->freq, si->bcch_frequency_list,
+ sizeof(si->bcch_frequency_list), 0x8e, FREQ_TYPE_REP_5ter);
s->si5ter = 1;
- return gsm48_send_sysinfo(ms, si->system_information);
+ return gsm48_new_sysinfo(ms, si->system_information);
}
/* receive "SYSTEM INFORMATION 6" message (9.1.39) */
/* NOTE: pseudo length is not in this structure, so we skip */
struct gsm48_system_information_type_6 *si = msgb_l3(msg) + 1;
struct gsm48_sysinfo *s = ms->cellsel.si;
+ struct rx_meas_stat *meas = &ms->meas;
int payload_len = msgb_l3len(msg) - sizeof(*si) - 1;
if (!s) {
/* Cell Options (SACCH) */
gsm48_decode_cellopt_sacch(s, &si->cell_options);
/* NCC Permitted */
- s->nb_ncc_permitted = si->ncc_permitted;
+ s->nb_ncc_permitted_si6 = si->ncc_permitted;
/* SI 6 Rest Octets */
if (payload_len >= 4)
gsm48_decode_si6_rest(s, si->rest_octets, payload_len);
"lac 0x%04x SACCH-timeout %d)\n", gsm_print_mcc(s->mcc),
gsm_print_mnc(s->mnc), s->lac, s->sacch_radio_link_timeout);
+ meas->rl_fail = meas->s = s->sacch_radio_link_timeout;
+ LOGP(DRR, LOGL_INFO, "using (new) SACCH timeout %d\n", meas->rl_fail);
s->si6 = 1;
- return gsm48_send_sysinfo(ms, si->system_information);
+ return gsm48_new_sysinfo(ms, si->system_information);
}
/*
/* given LV of mobile identity is checked agains ms */
static int gsm_match_mi(struct osmocom_ms *ms, uint8_t *mi)
{
+ struct gsm322_cellsel *cs = &ms->cellsel;
char imsi[16];
uint32_t tmsi;
uint8_t mi_type;
return 0;
memcpy(&tmsi, mi+2, 4);
if (ms->subscr.tmsi == ntohl(tmsi)
- && ms->subscr.tmsi_valid) {
+ && ms->subscr.mcc == cs->sel_mcc
+ && ms->subscr.mnc == cs->sel_mnc
+ && ms->subscr.lac == cs->sel_lac) {
LOGP(DPAG, LOGL_INFO, "TMSI %08x matches\n",
ntohl(tmsi));
chan_2 = pa->cneed2;
/* first MI */
if (ms->subscr.tmsi == ntohl(pa->tmsi1)
- && ms->subscr.tmsi_valid) {
+ && ms->subscr.mcc == cs->sel_mcc
+ && ms->subscr.mnc == cs->sel_mnc
+ && ms->subscr.lac == cs->sel_lac) {
LOGP(DPAG, LOGL_INFO, "TMSI %08x matches\n", ntohl(pa->tmsi1));
return gsm48_rr_chan_req(ms, gsm48_rr_chan2cause[chan_1], 1);
} else
ntohl(pa->tmsi1));
/* second MI */
if (ms->subscr.tmsi == ntohl(pa->tmsi2)
- && ms->subscr.tmsi_valid) {
+ && ms->subscr.mcc == cs->sel_mcc
+ && ms->subscr.mnc == cs->sel_mnc
+ && ms->subscr.lac == cs->sel_lac) {
LOGP(DPAG, LOGL_INFO, "TMSI %08x matches\n", ntohl(pa->tmsi2));
return gsm48_rr_chan_req(ms, gsm48_rr_chan2cause[chan_2], 1);
} else
chan_4 = pa->cneed4;
/* first MI */
if (ms->subscr.tmsi == ntohl(pa->tmsi1)
- && ms->subscr.tmsi_valid) {
+ && ms->subscr.mcc == cs->sel_mcc
+ && ms->subscr.mnc == cs->sel_mnc
+ && ms->subscr.lac == cs->sel_lac) {
LOGP(DPAG, LOGL_INFO, "TMSI %08x matches\n", ntohl(pa->tmsi1));
return gsm48_rr_chan_req(ms, gsm48_rr_chan2cause[chan_1], 1);
} else
ntohl(pa->tmsi1));
/* second MI */
if (ms->subscr.tmsi == ntohl(pa->tmsi2)
- && ms->subscr.tmsi_valid) {
+ && ms->subscr.mcc == cs->sel_mcc
+ && ms->subscr.mnc == cs->sel_mnc
+ && ms->subscr.lac == cs->sel_lac) {
LOGP(DPAG, LOGL_INFO, "TMSI %08x matches\n", ntohl(pa->tmsi2));
return gsm48_rr_chan_req(ms, gsm48_rr_chan2cause[chan_2], 1);
} else
ntohl(pa->tmsi2));
/* thrid MI */
if (ms->subscr.tmsi == ntohl(pa->tmsi3)
- && ms->subscr.tmsi_valid) {
+ && ms->subscr.mcc == cs->sel_mcc
+ && ms->subscr.mnc == cs->sel_mnc
+ && ms->subscr.lac == cs->sel_lac) {
LOGP(DPAG, LOGL_INFO, "TMSI %08x matches\n", ntohl(pa->tmsi3));
return gsm48_rr_chan_req(ms, gsm48_rr_chan2cause[chan_3], 1);
} else
ntohl(pa->tmsi3));
/* fourth MI */
if (ms->subscr.tmsi == ntohl(pa->tmsi4)
- && ms->subscr.tmsi_valid) {
+ && ms->subscr.mcc == cs->sel_mcc
+ && ms->subscr.mnc == cs->sel_mnc
+ && ms->subscr.lac == cs->sel_lac) {
LOGP(DPAG, LOGL_INFO, "TMSI %08x matches\n", ntohl(pa->tmsi4));
return gsm48_rr_chan_req(ms, gsm48_rr_chan2cause[chan_4], 1);
} else
int ma_len = msgb_l3len(msg) - sizeof(*ia);
uint8_t ch_type, ch_subch, ch_ts;
struct gsm48_rr_cd cd;
+#ifndef TEST_STARTING_TIMER
uint8_t *st, st_len;
+#endif
memset(&cd, 0, sizeof(cd));
+ cd.ind_tx_power = rr->cd_now.ind_tx_power;
if (ma_len < 0 /* mobile allocation IE must be included */
|| ia->mob_alloc_len > ma_len) { /* short read of IE */
}
/* starting time */
+#ifdef TEST_STARTING_TIMER
+ cd.start = 1;
+ cd.start_tm.fn = (ms->meas.last_fn + TEST_STARTING_TIMER) % 42432;
+ LOGP(DRR, LOGL_INFO, " TESTING: starting time ahead\n");
+#else
st_len = ma_len - ia->mob_alloc_len;
st = ia->mob_alloc + ia->mob_alloc_len;
if (st_len >= 3 && st[0] == GSM48_IE_START_TIME)
gsm48_decode_start_time(&cd, (struct gsm48_start_time *)(st+1));
+#endif
/* decode channel description */
LOGP(DRR, LOGL_INFO, "IMMEDIATE ASSIGNMENT:\n");
/* channel description */
memcpy(&rr->cd_now, &cd, sizeof(rr->cd_now));
/* timing advance */
- rr->cd_now.ta = ia->timing_advance;
+ rr->cd_now.ind_ta = ia->timing_advance;
/* mobile allocation */
memcpy(&rr->cd_now.mob_alloc_lv, &ia->mob_alloc_len,
ia->mob_alloc_len + 1);
rr->wait_assign = 2;
+ /* reset scheduler */
+ LOGP(DRR, LOGL_INFO, "resetting scheduler\n");
+ l1ctl_tx_reset_req(ms, L1CTL_RES_T_SCHED);
+
return gsm48_rr_dl_est(ms);
}
LOGP(DRR, LOGL_INFO, "Request, but not for us.\n");
int ma_len = msgb_l3len(msg) - sizeof(*ia);
uint8_t ch_type, ch_subch, ch_ts;
struct gsm48_rr_cd cd1, cd2;
+#ifndef TEST_STARTING_TIMER
uint8_t *st, st_len;
+#endif
memset(&cd1, 0, sizeof(cd1));
+ cd1.ind_tx_power = rr->cd_now.ind_tx_power;
memset(&cd2, 0, sizeof(cd2));
+ cd2.ind_tx_power = rr->cd_now.ind_tx_power;
if (ma_len < 0 /* mobile allocation IE must be included */
|| ia->mob_alloc_len > ma_len) { /* short read of IE */
return -EINVAL;
}
+#ifdef TEST_STARTING_TIMER
+ cd1.start = 1;
+ cd2.start_tm.fn = (ms->meas.last_fn + TEST_STARTING_TIMER) % 42432;
+ memcpy(&cd2, &cd1, sizeof(cd2));
+ LOGP(DRR, LOGL_INFO, " TESTING: starting time ahead\n");
+#else
/* starting time */
st_len = ma_len - ia->mob_alloc_len;
st = ia->mob_alloc + ia->mob_alloc_len;
(struct gsm48_start_time *)(st+1));
memcpy(&cd2, &cd1, sizeof(cd2));
}
+#endif
/* decode channel description */
LOGP(DRR, LOGL_INFO, "IMMEDIATE ASSIGNMENT EXTENDED:\n");
- cd2.chan_nr = ia->chan_desc1.chan_nr;
+ cd1.chan_nr = ia->chan_desc1.chan_nr;
rsl_dec_chan_nr(cd1.chan_nr, &ch_type, &ch_subch, &ch_ts);
if (ia->chan_desc1.h0.h) {
cd1.h = 1;
/* channel description */
memcpy(&rr->cd_now, &cd1, sizeof(rr->cd_now));
/* timing advance */
- rr->cd_now.ta = ia->timing_advance1;
+ rr->cd_now.ind_ta = ia->timing_advance1;
/* mobile allocation */
memcpy(&rr->cd_now.mob_alloc_lv, &ia->mob_alloc_len,
ia->mob_alloc_len + 1);
rr->wait_assign = 2;
+ /* reset scheduler */
+ LOGP(DRR, LOGL_INFO, "resetting scheduler\n");
+ l1ctl_tx_reset_req(ms, L1CTL_RES_T_SCHED);
+
return gsm48_rr_dl_est(ms);
}
- /* request ref 1 */
+ /* request ref 2 */
if (gsm48_match_ra(ms, &ia->req_ref2)) {
/* channel description */
memcpy(&rr->cd_now, &cd2, sizeof(rr->cd_now));
/* timing advance */
- rr->cd_now.ta = ia->timing_advance2;
+ rr->cd_now.ind_ta = ia->timing_advance2;
/* mobile allocation */
memcpy(&rr->cd_now.mob_alloc_lv, &ia->mob_alloc_len,
ia->mob_alloc_len + 1);
rr->wait_assign = 2;
+ /* reset scheduler */
+ LOGP(DRR, LOGL_INFO, "resetting scheduler\n");
+ l1ctl_tx_reset_req(ms, L1CTL_RES_T_SCHED);
+
return gsm48_rr_dl_est(ms);
}
LOGP(DRR, LOGL_INFO, "Request, but not for us.\n");
return 0;
}
-/* 9.1.1 ADDITIONAL ASSIGMENT is received */
+/* 9.1.1 ADDITIONAL ASSIGMENT is received */
static int gsm48_rr_rx_add_ass(struct osmocom_ms *ms, struct msgb *msg)
{
struct gsm48_hdr *gh = msgb_l3(msg);
static int gsm48_rr_tx_meas_rep(struct osmocom_ms *ms)
{
struct gsm48_rrlayer *rr = &ms->rrlayer;
- struct gsm48_rr_meas *meas = &rr->meas;
+ struct gsm48_sysinfo *s = ms->cellsel.si;
+ struct rx_meas_stat *meas = &rr->ms->meas;
+ struct gsm48_rr_meas *rrmeas = &rr->meas;
struct msgb *nmsg;
struct gsm48_hdr *gh;
struct gsm48_meas_res *mr;
+ uint8_t serv_rxlev_full = 0, serv_rxlev_sub = 0, serv_rxqual_full = 0,
+ serv_rxqual_sub = 0;
+ uint8_t ta, tx_power;
+ uint8_t rep_ba = 0, rep_valid = 0, meas_valid = 0, multi_rep = 0;
+ uint8_t n = 0, rxlev_nc[6], bsic_nc[6], bcch_f_nc[6];
+
+ /* just in case! */
+ if (!s)
+ return -EINVAL;
+
+ /* check if SI5* is completely received, check BA-IND */
+ if (s->si5
+ && (!s->nb_ext_ind_si5
+ || (s->si5bis && s->nb_ext_ind_si5 && !s->nb_ext_ind_si5bis)
+ || (s->si5bis && s->si5ter && s->nb_ext_ind_si5
+ && s->nb_ext_ind_si5bis))) {
+ rep_ba = s->nb_ba_ind_si5;
+ if ((s->si5bis && s->nb_ext_ind_si5
+ && s->nb_ba_ind_si5bis != rep_ba)
+ || (s->si5bis && s->si5ter && s->nb_ext_ind_si5
+ && s->nb_ext_ind_si5bis && s->nb_ba_ind_si5ter != rep_ba)) {
+ LOGP(DRR, LOGL_NOTICE, "BA-IND missmatch on SI5*");
+ } else
+ rep_valid = 1;
+ }
+
+ /* check for valid measurements, any frame must exist */
+ if (meas->frames) {
+ meas_valid = 1;
+ serv_rxlev_full = serv_rxlev_sub = meas->rxlev / meas->frames;
+ serv_rxqual_full = serv_rxqual_sub = 0; // FIXME
+ }
+
+ memset(&rxlev_nc, 0, sizeof(rxlev_nc));
+ memset(&bsic_nc, 0, sizeof(bsic_nc));
+ memset(&bcch_f_nc, 0, sizeof(bcch_f_nc));
+ if (rep_valid) {
+ int8_t strongest, current;
+ uint8_t ncc;
+ int i, index;
+
+ /* multiband reporting, if not: 0 = normal reporting */
+ if (s->si5 && s->si5bis && s->si5ter && s->nb_ext_ind_si5
+ && s->nb_ext_ind_si5bis)
+ multi_rep = s->nb_multi_rep_si5ter;
+
+ /* get 6 strongest measurements */
+ // FIXME: multiband report
+ strongest = 127; /* infinite */
+ for (n = 0; n < 6; n++) {
+ current = -128; /* -infinite */
+ index = 0;
+ for (i = 0; i < rrmeas->nc_num; i++) {
+ /* only check if NCC is permitted */
+ ncc = rrmeas->nc_bsic[i] >> 3;
+ if ((s->nb_ncc_permitted_si6 & (1 << ncc))
+ && rrmeas->nc_rxlev[i] > current
+ && rrmeas->nc_rxlev[i] < strongest) {
+ current = rrmeas->nc_rxlev[i];
+ index = i;
+ }
+ }
+ if (current == -128) /* no more found */
+ break;
+ rxlev_nc[n] = rrmeas->nc_rxlev[index] + 110;
+ bsic_nc[n] = rrmeas->nc_bsic[index];
+ bcch_f_nc[n] = index;
+ }
+ }
nmsg = gsm48_l3_msgb_alloc();
if (!nmsg)
return -ENOMEM;
+
+ /* use indicated tx-power and TA (not the altered ones) */
+ tx_power = rr->cd_now.ind_tx_power;
+ // FIXME: degrade power to the max supported level
+ ta = rr->cd_now.ind_ta;
+
gh = (struct gsm48_hdr *) msgb_put(nmsg, sizeof(*gh));
mr = (struct gsm48_meas_res *) msgb_put(nmsg, sizeof(*mr));
gh->msg_type = GSM48_MT_RR_MEAS_REP;
/* measurement results */
- mr->rxlev_full = meas->rxlev_full;
- mr->rxlev_sub = meas->rxlev_sub;
- mr->rxqual_full = meas->rxqual_full;
- mr->rxqual_sub = meas->rxqual_sub;
- mr->dtx_used = meas->dtx;
- mr->ba_used = meas->ba;
- mr->meas_valid = meas->meas_valid;
- if (meas->ncell_na) {
+ mr->rxlev_full = serv_rxlev_full;
+ mr->rxlev_sub = serv_rxlev_sub;
+ mr->rxqual_full = serv_rxqual_full;
+ mr->rxqual_sub = serv_rxqual_sub;
+ mr->dtx_used = 0; // FIXME: no DTX yet
+ mr->ba_used = rep_ba;
+ mr->meas_valid = !meas_valid; /* 0 = valid */
+ if (rep_valid) {
+ mr->no_nc_n_hi = n >> 2;
+ mr->no_nc_n_lo = n & 3;
+ } else {
/* no results for serving cells */
mr->no_nc_n_hi = 1;
mr->no_nc_n_lo = 3;
- } else {
- mr->no_nc_n_hi = meas->count >> 2;
- mr->no_nc_n_lo = meas->count & 3;
- }
- mr->rxlev_nc1 = meas->rxlev_nc[0];
- mr->rxlev_nc2_hi = meas->rxlev_nc[1] >> 1;
- mr->rxlev_nc2_lo = meas->rxlev_nc[1] & 1;
- mr->rxlev_nc3_hi = meas->rxlev_nc[2] >> 2;
- mr->rxlev_nc3_lo = meas->rxlev_nc[2] & 3;
- mr->rxlev_nc4_hi = meas->rxlev_nc[3] >> 3;
- mr->rxlev_nc4_lo = meas->rxlev_nc[3] & 7;
- mr->rxlev_nc5_hi = meas->rxlev_nc[4] >> 4;
- mr->rxlev_nc5_lo = meas->rxlev_nc[4] & 15;
- mr->rxlev_nc6_hi = meas->rxlev_nc[5] >> 5;
- mr->rxlev_nc6_lo = meas->rxlev_nc[5] & 31;
- mr->bsic_nc1_hi = meas->bsic_nc[0] >> 3;
- mr->bsic_nc1_lo = meas->bsic_nc[0] & 7;
- mr->bsic_nc2_hi = meas->bsic_nc[1] >> 4;
- mr->bsic_nc2_lo = meas->bsic_nc[1] & 15;
- mr->bsic_nc3_hi = meas->bsic_nc[2] >> 5;
- mr->bsic_nc3_lo = meas->bsic_nc[2] & 31;
- mr->bsic_nc4 = meas->bsic_nc[3];
- mr->bsic_nc5 = meas->bsic_nc[4];
- mr->bsic_nc6 = meas->bsic_nc[5];
- mr->bcch_f_nc1 = meas->bcch_f_nc[0];
- mr->bcch_f_nc2 = meas->bcch_f_nc[1];
- mr->bcch_f_nc3 = meas->bcch_f_nc[2];
- mr->bcch_f_nc4 = meas->bcch_f_nc[3];
- mr->bcch_f_nc5_hi = meas->bcch_f_nc[4] >> 1;
- mr->bcch_f_nc5_lo = meas->bcch_f_nc[4] & 1;
- mr->bcch_f_nc6_hi = meas->bcch_f_nc[5] >> 2;
- mr->bcch_f_nc6_lo = meas->bcch_f_nc[5] & 3;
-
- return gsm48_send_rsl(ms, RSL_MT_UNIT_DATA_REQ, nmsg);
+ }
+ mr->rxlev_nc1 = rxlev_nc[0];
+ mr->rxlev_nc2_hi = rxlev_nc[1] >> 1;
+ mr->rxlev_nc2_lo = rxlev_nc[1] & 1;
+ mr->rxlev_nc3_hi = rxlev_nc[2] >> 2;
+ mr->rxlev_nc3_lo = rxlev_nc[2] & 3;
+ mr->rxlev_nc4_hi = rxlev_nc[3] >> 3;
+ mr->rxlev_nc4_lo = rxlev_nc[3] & 7;
+ mr->rxlev_nc5_hi = rxlev_nc[4] >> 4;
+ mr->rxlev_nc5_lo = rxlev_nc[4] & 15;
+ mr->rxlev_nc6_hi = rxlev_nc[5] >> 5;
+ mr->rxlev_nc6_lo = rxlev_nc[5] & 31;
+ mr->bsic_nc1_hi = bsic_nc[0] >> 3;
+ mr->bsic_nc1_lo = bsic_nc[0] & 7;
+ mr->bsic_nc2_hi = bsic_nc[1] >> 4;
+ mr->bsic_nc2_lo = bsic_nc[1] & 15;
+ mr->bsic_nc3_hi = bsic_nc[2] >> 5;
+ mr->bsic_nc3_lo = bsic_nc[2] & 31;
+ mr->bsic_nc4 = bsic_nc[3];
+ mr->bsic_nc5 = bsic_nc[4];
+ mr->bsic_nc6 = bsic_nc[5];
+ mr->bcch_f_nc1 = bcch_f_nc[0];
+ mr->bcch_f_nc2 = bcch_f_nc[1];
+ mr->bcch_f_nc3 = bcch_f_nc[2];
+ mr->bcch_f_nc4 = bcch_f_nc[3];
+ mr->bcch_f_nc5_hi = bcch_f_nc[4] >> 1;
+ mr->bcch_f_nc5_lo = bcch_f_nc[4] & 1;
+ mr->bcch_f_nc6_hi = bcch_f_nc[5] >> 2;
+ mr->bcch_f_nc6_lo = bcch_f_nc[5] & 3;
+
+ LOGP(DRR, LOGL_INFO, "MEAS REP: pwr=%d TA=%d meas-invalid=%d "
+ "rxlev-full=%d rxlev-sub=%d rxqual-full=%d rxqual-sub=%d "
+ "dtx %d ba %d no-ncell-n %d\n", tx_power, ta, mr->meas_valid,
+ mr->rxlev_full - 110, mr->rxlev_sub - 110,
+ mr->rxqual_full, mr->rxqual_sub, mr->dtx_used, mr->ba_used,
+ (mr->no_nc_n_hi << 2) | mr->no_nc_n_lo);
+
+ msgb_tv16_push(nmsg, RSL_IE_L3_INFO,
+ nmsg->tail - (uint8_t *)msgb_l3(nmsg));
+ msgb_push(nmsg, 2 + 2);
+ nmsg->data[0] = RSL_IE_TIMING_ADVANCE;
+ nmsg->data[1] = ta;
+ nmsg->data[2] = RSL_IE_MS_POWER;
+ nmsg->data[3] = tx_power;
+ rsl_rll_push_hdr(nmsg, RSL_MT_UNIT_DATA_REQ, rr->cd_now.chan_nr,
+ 0x40, 1);
+
+ return rslms_recvmsg(nmsg, ms);
}
/*
return 0;
}
-/* activate link and send establish request */
-static int gsm48_rr_dl_est(struct osmocom_ms *ms)
+/* activation of channel in dedicated mode */
+static int gsm48_rr_activate_channel(struct osmocom_ms *ms,
+ struct gsm48_rr_cd *cd, uint16_t *ma, uint8_t ma_len)
{
- struct gsm48_rrlayer *rr = &ms->rrlayer;
struct gsm_subscriber *subscr = &ms->subscr;
- struct gsm322_cellsel *cs = &ms->cellsel;
- struct gsm48_sysinfo *s = cs->si;
+ struct gsm48_rrlayer *rr = &ms->rrlayer;
struct gsm_settings *set = &ms->settings;
- struct msgb *nmsg;
- struct gsm48_hdr *gh;
- struct gsm48_pag_rsp *pr;
- uint8_t mi[11];
+ struct gsm48_sysinfo *s = ms->cellsel.si;
+ struct rx_meas_stat *meas = &ms->meas;
uint8_t ch_type, ch_subch, ch_ts;
- uint16_t ma[64];
- uint8_t ma_len;
+ uint8_t timeout = 64;
- if (rr->cd_now.h) {
- gsm48_decode_mobile_alloc(s, rr->cd_now.mob_alloc_lv + 1,
- rr->cd_now.mob_alloc_lv[0], ma, &ma_len, 0);
- if (ma_len < 1) {
- LOGP(DRR, LOGL_NOTICE, "Hopping, but no allocation\n");
- return -EINVAL;
+ /* setting (new) timing advance */
+ LOGP(DRR, LOGL_INFO, "setting indicated TA %d (actual TA %d)\n",
+ cd->ind_ta, cd->ind_ta - set->alter_delay);
+ l1ctl_tx_param_req(ms, cd->ind_ta - set->alter_delay,
+ (set->alter_tx_power) ? set->alter_tx_power_value
+ : cd->ind_tx_power);
+
+ /* reset measurement and link timeout */
+ meas->ds_fail = 0;
+ if (s) {
+ if (s->sacch_radio_link_timeout) {
+ timeout = s->sacch_radio_link_timeout;
+ LOGP(DRR, LOGL_INFO, "using last SACCH timeout %d\n",
+ timeout);
+ } else if (s->bcch_radio_link_timeout) {
+ timeout = s->bcch_radio_link_timeout;
+ LOGP(DRR, LOGL_INFO, "using last BCCH timeout %d\n",
+ timeout);
}
}
+ meas->rl_fail = meas->s = timeout;
- /* 3.3.1.1.3.1 */
- stop_rr_t3126(rr);
+ /* setting initial (invalid) measurement report, resetting SI5* */
+ if (s) {
+ memset(s->si5_msg, 0, sizeof(s->si5_msg));
+ memset(s->si5b_msg, 0, sizeof(s->si5b_msg));
+ memset(s->si5t_msg, 0, sizeof(s->si5t_msg));
+ }
+ meas->frames = meas->snr = meas->berr = meas->rxlev = 0;
+ rr->meas.nc_num = 0;
+ stop_rr_t_meas(rr);
+ start_rr_t_meas(rr, 1, 0);
+ gsm48_rr_tx_meas_rep(ms);
+
+ /* establish */
+ LOGP(DRR, LOGL_INFO, "establishing channel in dedicated mode\n");
+ rsl_dec_chan_nr(cd->chan_nr, &ch_type, &ch_subch, &ch_ts);
+ LOGP(DRR, LOGL_INFO, " Channel type %d, subch %d, ts %d, mode %d, "
+ "cipher %d\n", ch_type, ch_subch, ch_ts, cd->mode,
+ rr->cipher_type + 1);
+ if (cd->h)
+ l1ctl_tx_dm_est_req_h1(ms, cd->maio, cd->hsn,
+ ma, ma_len, cd->chan_nr, cd->tsc, cd->mode);
+ else
+ l1ctl_tx_dm_est_req_h0(ms, cd->arfcn, cd->chan_nr, cd->tsc,
+ cd->mode);
+ rr->dm_est = 1;
+
+ if (rr->cipher_on)
+ l1ctl_tx_crypto_req(ms, rr->cipher_type + 1, subscr->key, 8);
+
+ return 0;
+}
+
+/* frequency change of channel "after time" */
+static int gsm48_rr_channel_after_time(struct osmocom_ms *ms,
+ struct gsm48_rr_cd *cd, uint16_t *ma, uint8_t ma_len, uint16_t fn)
+{
+ struct gsm_subscriber *subscr = &ms->subscr;
+ struct gsm48_rrlayer *rr = &ms->rrlayer;
+
+ if (cd->h)
+ l1ctl_tx_dm_freq_req_h1(ms, cd->maio, cd->hsn,
+ ma, ma_len, cd->tsc, fn);
+ else
+ l1ctl_tx_dm_freq_req_h0(ms, cd->arfcn, cd->tsc, fn);
+
+ if (rr->cipher_on)
+ l1ctl_tx_crypto_req(ms, rr->cipher_type + 1, subscr->key, 8);
+
+ gsm48_rr_set_mode(ms, cd->chan_nr, cd->mode);
+
+ return 0;
+}
+
+/* render list of hopping channels from channel description elements */
+static int gsm48_rr_render_ma(struct osmocom_ms *ms, struct gsm48_rr_cd *cd,
+ uint16_t *ma, uint8_t *ma_len)
+{
+ struct gsm48_sysinfo *s = ms->cellsel.si;
+ struct gsm_support *sup = &ms->support;
+ int i;
+ uint16_t arfcn;
+
+ /* no hopping (no MA), channel description is valid */
+ if (!cd->h) {
+ ma_len = 0;
+ return 0;
+ }
+
+ /* decode mobile allocation */
+ if (cd->mob_alloc_lv[0]) {
+ struct gsm_sysinfo_freq *freq = s->freq;
+
+ LOGP(DRR, LOGL_INFO, "decoding mobile allocation\n");
+
+ if (cd->cell_desc_lv[0]) {
+ LOGP(DRR, LOGL_INFO, "using cell channel descr.\n");
+ if (cd->cell_desc_lv[0] != 16) {
+ LOGP(DRR, LOGL_ERROR, "cell channel descr. "
+ "has invalid lenght\n");
+ return GSM48_RR_CAUSE_ABNORMAL_UNSPEC;
+ }
+ gsm48_decode_freq_list(freq, cd->cell_desc_lv + 1, 16,
+ 0xce, FREQ_TYPE_SERV);
+ }
+
+ gsm48_decode_mobile_alloc(freq, cd->mob_alloc_lv + 1,
+ cd->mob_alloc_lv[0], ma, ma_len, 0);
+ if (*ma_len < 1) {
+ LOGP(DRR, LOGL_NOTICE, "mobile allocation with no "
+ "frequency available\n");
+ return GSM48_RR_CAUSE_NO_CELL_ALLOC_A;
+
+ }
+ } else
+ /* decode frequency list */
+ if (cd->freq_list_lv[0]) {
+ struct gsm_sysinfo_freq f[1024];
+ int j = 0;
+
+ LOGP(DRR, LOGL_INFO, "decoding frequency list\n");
+
+ /* get bitmap */
+ if (gsm48_decode_freq_list(f, cd->freq_list_lv + 1,
+ cd->freq_list_lv[0], 0xce, FREQ_TYPE_SERV)) {
+ LOGP(DRR, LOGL_NOTICE, "frequency list invalid\n");
+ return GSM48_RR_CAUSE_ABNORMAL_UNSPEC;
+ }
+
+ /* collect channels from bitmap (1..1023,0) */
+ for (i = 1; i <= 1024; i++) {
+ if ((f[i & 1023].mask & FREQ_TYPE_SERV)) {
+ LOGP(DRR, LOGL_INFO, "Listed ARFCN #%d: %d\n",
+ j, i);
+ if (j == 64) {
+ LOGP(DRR, LOGL_NOTICE, "frequency list "
+ "exceeds 64 entries!\n");
+ return GSM48_RR_CAUSE_ABNORMAL_UNSPEC;
+ }
+ ma[j++] = i;
+ }
+ }
+ *ma_len = j;
+ return 0;
+ } else
+ /* decode frequency channel sequence */
+ if (cd->freq_seq_lv[0]) {
+ int j = 0, inc;
+
+ LOGP(DRR, LOGL_INFO, "decoding frequency channel sequence\n");
+
+ if (cd->freq_seq_lv[0] != 9) {
+ LOGP(DRR, LOGL_NOTICE, "invalid frequency channel "
+ "sequence\n");
+ return GSM48_RR_CAUSE_ABNORMAL_UNSPEC;
+ }
+ arfcn = cd->freq_seq_lv[1] & 0x7f;
+ LOGP(DRR, LOGL_INFO, "Listed Sequence ARFCN #%d: %d\n", j,
+ arfcn);
+ ma[j++] = arfcn;
+ for (i = 0; i <= 16; i++) {
+ if ((i & 1))
+ inc = cd->freq_seq_lv[2 + (i >> 1)] & 0x0f;
+ else
+ inc = cd->freq_seq_lv[2 + (i >> 1)] >> 4;
+ if (inc) {
+ arfcn += inc;
+ LOGP(DRR, LOGL_INFO, "Listed Sequence ARFCN "
+ "#%d: %d\n", j, arfcn);
+ ma[j++] = arfcn;
+ } else
+ arfcn += 15;
+ }
+ *ma_len = j;
+ return 0;
+ } else {
+ LOGP(DRR, LOGL_NOTICE, "hopping, but nothing that tells us "
+ "a sequence\n");
+ return GSM48_RR_CAUSE_ABNORMAL_UNSPEC;
+ }
+
+ /* check for unsported frequency */
+ for (i = 0; i < *ma_len; i++) {
+ arfcn = ma[i];
+ if (!(sup->freq_map[arfcn >> 3] & (1 << (arfcn & 7)))) {
+ LOGP(DRR, LOGL_NOTICE, "Hopping frequency %d not "
+ "supported\n", arfcn);
+ return GSM48_RR_CAUSE_FREQ_NOT_IMPL;
+ }
+ }
+
+ return 0;
+}
+
+/* activate link and send establish request */
+static int gsm48_rr_dl_est(struct osmocom_ms *ms)
+{
+ struct gsm48_rrlayer *rr = &ms->rrlayer;
+ struct gsm322_cellsel *cs = &ms->cellsel;
+ struct gsm_subscriber *subscr = &ms->subscr;
+ struct msgb *nmsg;
+ struct gsm48_hdr *gh;
+ struct gsm48_pag_rsp *pr;
+ uint8_t mi[11];
+ uint16_t ma[64];
+ uint8_t ma_len;
+
+ /* check if we have to change channel at starting time (we delay) */
+ if (rr->cd_now.start) {
+ int32_t now, start, diff;
+ uint32_t start_mili = 0;
+
+ /* how much time do we have left? */
+ now = ms->meas.last_fn % 42432;
+ start = rr->cd_now.start_tm.fn % 42432;
+ diff = start - now;
+ if (diff < 0)
+ diff += 42432;
+ LOGP(DRR, LOGL_INFO, " (Tnow %d Tstart %d diff %d)\n",
+ now, start, diff);
+ start_mili = (uint32_t)diff * 19580 / 42432 * 10;
+ if (diff >= 32024 || !start_mili) {
+ LOGP(DRR, LOGL_INFO, " -> Start time already "
+ "elapsed\n");
+ rr->cd_now.start = 0;
+ } else {
+ LOGP(DRR, LOGL_INFO, " -> Start time is %d ms in the "
+ "future\n", start_mili);
+ }
+
+#ifndef TEST_FREQUENCY_MOD
+ /* schedule start of IMM.ASS */
+ rr->modify_state = GSM48_RR_MOD_IMM_ASS;
+ start_rr_t_starting(rr, start_mili / 1000,
+ (start_mili % 1000) * 1000);
+ /* when timer fires, start time is already elapsed */
+ rr->cd_now.start = 0;
+
+ return 0;
+#endif
+ }
+
+ /* get hopping sequence, if required */
+ if (gsm48_rr_render_ma(ms, &rr->cd_now, ma, &ma_len))
+ return -EINVAL;
+
+ /* 3.3.1.1.3.1 */
+ stop_rr_t3126(rr);
+
+ /* clear all sequence numbers for all possible PDs */
+ rr->v_sd = 0;
/* send DL_EST_REQ */
if (rr->rr_est_msg) {
+ LOGP(DRR, LOGL_INFO, "sending establish message\n");
+
/* use queued message */
nmsg = rr->rr_est_msg;
rr->rr_est_msg = 0;
- LOGP(DRR, LOGL_INFO, "sending establish message\n");
+
+ /* set sequence number and increment */
+ gsm48_apply_v_sd(rr, nmsg);
} else {
/* create paging response */
nmsg = gsm48_l3_msgb_alloc();
pr->cm2_len = sizeof(pr->cm2);
gsm48_rr_enc_cm2(ms, &pr->cm2);
/* mobile identity */
- if (ms->subscr.tmsi_valid) {
+ if (ms->subscr.tmsi != 0xffffffff
+ && ms->subscr.mcc == cs->sel_mcc
+ && ms->subscr.mnc == cs->sel_mnc
+ && ms->subscr.lac == cs->sel_lac) {
gsm48_generate_mid_from_tmsi(mi, subscr->tmsi);
LOGP(DRR, LOGL_INFO, "sending paging response with "
"TMSI\n");
memcpy(pr->data, mi + 1, 1 + mi[1]);
}
- /* reset scheduler */
- LOGP(DRR, LOGL_INFO, "resetting scheduler\n");
- l1ctl_tx_reset_req(ms, L1CTL_RES_T_SCHED);
-
- /* setting (new) timing advance */
- rr->ind_ta = rr->cd_now.ta;
- LOGP(DRR, LOGL_INFO, "setting indicated TA %d (actual TA %d)\n",
- rr->ind_ta, rr->ind_ta - set->alter_delay);
- l1ctl_tx_param_req(ms, rr->ind_ta - set->alter_delay,
- (set->alter_tx_power) ? set->alter_tx_power_value
- : rr->ind_tx_power);
-
+#ifdef TEST_FREQUENCY_MOD
+ LOGP(DRR, LOGL_INFO, " TESTING: frequency modify IMM.ASS\n");
+ memcpy(&rr->cd_before, &rr->cd_now, sizeof(rr->cd_before));
+ rr->cd_before.h = 0;
+ rr->cd_before.arfcn = 0;
/* activate channel */
- LOGP(DRR, LOGL_INFO, "activating channel\n");
-#ifdef TODO
- RSL_MT_ to activate channel with all the cd_now informations
+ gsm48_rr_activate_channel(ms, &rr->cd_before, ma, ma_len);
+ /* render channel "after time" */
+ gsm48_rr_render_ma(ms, &rr->cd_now, ma, &ma_len);
+ /* schedule change of channel */
+ gsm48_rr_channel_after_time(ms, &rr->cd_now, ma, ma_len,
+ rr->cd_now.start_tm.fn);
#else
- rsl_dec_chan_nr(rr->cd_now.chan_nr, &ch_type, &ch_subch, &ch_ts);
- if ((ch_type != RSL_CHAN_SDCCH8_ACCH
- && ch_type != RSL_CHAN_SDCCH4_ACCH) || ch_ts > 4 || ch_subch >= 4) {
- printf("Channel type %d, subch %d, ts %d not supported, "
- "exitting.\n", ch_type, ch_subch, ch_ts);
- exit(-ENOTSUP);
- }
- if (rr->cd_now.h)
- l1ctl_tx_dm_est_req_h1(ms, rr->cd_now.maio, rr->cd_now.hsn,
- ma, ma_len, rr->cd_now.chan_nr, rr->cd_now.tsc);
- else
- l1ctl_tx_dm_est_req_h0(ms, rr->cd_now.arfcn, rr->cd_now.chan_nr,
- rr->cd_now.tsc);
+ /* activate channel */
+ gsm48_rr_activate_channel(ms, &rr->cd_now, ma, ma_len);
#endif
/* start establishmnet */
struct msgb *nmsg;
struct gsm48_rr_hdr *nrrh;
+ /* switch back to old channel, if modify/ho failed */
+ switch (rr->modify_state) {
+ case GSM48_RR_MOD_ASSIGN:
+ case GSM48_RR_MOD_HANDO:
+ /* channel is deactivate there */
+ return gsm48_rr_rel_cnf(ms, msg);
+ case GSM48_RR_MOD_ASSIGN_RESUME:
+ case GSM48_RR_MOD_HANDO_RESUME:
+ rr->modify_state = GSM48_RR_MOD_NONE;
+ break;
+ }
+
LOGP(DSUM, LOGL_INFO, "Radio link is released\n");
/* send inication to upper layer */
}
/*
- * chanel mode modify, assignment, and handover
+ * frequency redefition, chanel mode modify, assignment, and handover
*/
+/* set channel mode in case of TCH */
+static int gsm48_rr_set_mode(struct osmocom_ms *ms, uint8_t chan_nr,
+ uint8_t mode)
+{
+ uint8_t ch_type, ch_subch, ch_ts;
+
+ /* only apply mode to TCH/F or TCH/H */
+ rsl_dec_chan_nr(chan_nr, &ch_type, &ch_subch, &ch_ts);
+ if (ch_type != RSL_CHAN_Bm_ACCHs
+ && ch_type != RSL_CHAN_Lm_ACCHs)
+ return -ENOTSUP;
+
+ /* setting (new) timing advance */
+ LOGP(DRR, LOGL_INFO, "setting TCH mode to %d\n", mode);
+ l1ctl_tx_tch_mode_req(ms, mode);
+
+ return 0;
+}
+
+/* 9.1.13 FREQUENCY REDEFINITION is received */
+static int gsm48_rr_rx_frq_redef(struct osmocom_ms *ms, struct msgb *msg)
+{
+ struct gsm48_rrlayer *rr = &ms->rrlayer;
+ struct gsm48_frq_redef *fr = msgb_l3(msg);
+ int mob_al_len = msgb_l3len(msg) - sizeof(*fr);
+ uint8_t ch_type, ch_subch, ch_ts;
+ struct gsm48_rr_cd cd;
+ uint8_t cause;
+ uint8_t *st;
+ uint16_t ma[64];
+ uint8_t ma_len;
+
+ memcpy(&cd, &rr->cd_now, sizeof(cd));
+
+ if (mob_al_len < 0 /* mobile allocation IE must be included */
+ || fr->mob_alloc_len + 2 > mob_al_len) { /* short read of IE */
+ LOGP(DRR, LOGL_NOTICE, "Short read of FREQUENCY REDEFINITION "
+ "message.\n");
+ return -EINVAL;
+ }
+ if (fr->mob_alloc_len > 8) {
+ LOGP(DRR, LOGL_NOTICE, "Moble allocation in FREQUENCY "
+ "REDEFINITION too large.\n");
+ return -EINVAL;
+ }
+
+ /* decode channel description */
+ LOGP(DRR, LOGL_INFO, "FREQUENCY REDEFINITION:\n");
+ cd.chan_nr = fr->chan_desc.chan_nr;
+ rsl_dec_chan_nr(cd.chan_nr, &ch_type, &ch_subch, &ch_ts);
+ if (fr->chan_desc.h0.h) {
+ cd.h = 1;
+ gsm48_decode_chan_h1(&fr->chan_desc, &cd.tsc, &cd.maio,
+ &cd.hsn);
+ LOGP(DRR, LOGL_INFO, " (MAIO %u HSN %u TS %u SS %u TSC %u)\n",
+ cd.maio, cd.hsn, ch_ts, ch_subch, cd.tsc);
+ } else {
+ cd.h = 0;
+ gsm48_decode_chan_h0(&fr->chan_desc, &cd.tsc, &cd.arfcn);
+ LOGP(DRR, LOGL_INFO, " (ARFCN %u TS %u SS %u TSC %u)\n",
+ cd.arfcn, ch_ts, ch_subch, cd.tsc);
+ }
+
+ /* mobile allocation */
+ memcpy(rr->cd_now.mob_alloc_lv, &fr->mob_alloc_len,
+ fr->mob_alloc_len + 1);
+
+ /* starting time */
+ st = fr->mob_alloc + fr->mob_alloc_len;
+ gsm48_decode_start_time(&cd, (struct gsm48_start_time *)(st+1));
+
+ /* cell channel description */
+ if (mob_al_len >= fr->mob_alloc_len + 2 + 17
+ && fr->mob_alloc[fr->mob_alloc_len + 2] == GSM48_IE_CELL_CH_DESC) {
+ const uint8_t *v = fr->mob_alloc + fr->mob_alloc_len + 2 + 1;
+
+ LOGP(DRR, LOGL_INFO, " using cell channel description)\n");
+ cd.cell_desc_lv[0] = 16;
+ memcpy(cd.cell_desc_lv + 1, v, 17);
+ }
+
+ /* render channel "after time" */
+ cause = gsm48_rr_render_ma(ms, &rr->cd_now, ma, &ma_len);
+ if (cause)
+ return gsm48_rr_tx_rr_status(ms, cause);
+
+ /* update to new channel data */
+ memcpy(&rr->cd_now, &cd, sizeof(rr->cd_now));
+
+ /* schedule change of channel */
+ gsm48_rr_channel_after_time(ms, &rr->cd_now, ma, ma_len,
+ rr->cd_now.start_tm.fn);
+
+ rr->cd_now.start = 0;
+
+ return 0;
+}
+
/* 9.1.6 sending CHANNEL MODE MODIFY ACKNOWLEDGE */
static int gsm48_rr_tx_chan_modify_ack(struct osmocom_ms *ms,
struct gsm48_chan_desc *cd, uint8_t mode)
int payload_len = msgb_l3len(msg) - sizeof(*gh) - sizeof(*cm);
struct gsm48_rr_cd *cd = &rr->cd_now;
uint8_t ch_type, ch_subch, ch_ts;
- uint8_t mode;
+ uint8_t cause;
LOGP(DRR, LOGL_INFO, "CHANNEL MODE MODIFY\n");
ch_ts, ch_subch, cd->tsc, cm->mode);
}
/* mode */
- mode = cm->mode;
- switch (mode) {
- case GSM48_CMODE_SIGN:
- LOGP(DRR, LOGL_INFO, "Mode set to signalling.\n");
- break;
- case GSM48_CMODE_SPEECH_V1:
- LOGP(DRR, LOGL_INFO, "Mode set to GSM full-rate codec.\n");
- break;
- default:
- LOGP(DRR, LOGL_ERROR, "Mode %u not supported!\n", mode);
- }
+ cause = gsm48_rr_check_mode(ms, cd->chan_nr, cm->mode);
+ if (cause)
+ return gsm48_rr_tx_rr_status(ms, cause);
+ cd->mode = cm->mode;
+ gsm48_rr_set_mode(ms, cd->chan_nr, cd->mode);
- return gsm48_rr_tx_chan_modify_ack(ms, &cm->chan_desc, mode);
+ return gsm48_rr_tx_chan_modify_ack(ms, &cm->chan_desc, cm->mode);
}
/* 9.1.3 sending ASSIGNMENT COMPLETE */
/* RR_CAUSE */
ac->rr_cause = cause;
- return gsm48_send_rsl(ms, RSL_MT_DATA_REQ, nmsg);
+ return gsm48_send_rsl(ms, RSL_MT_RES_REQ, nmsg);
}
/* 9.1.4 sending ASSIGNMENT FAILURE */
-static int gsm48_rr_tx_ass_fail(struct osmocom_ms *ms, uint8_t cause)
+static int gsm48_rr_tx_ass_fail(struct osmocom_ms *ms, uint8_t cause,
+ uint8_t rsl_prim)
{
struct msgb *nmsg;
struct gsm48_hdr *gh;
/* RR_CAUSE */
af->rr_cause = cause;
- return gsm48_send_rsl(ms, RSL_MT_DATA_REQ, nmsg);
+ return gsm48_send_rsl(ms, rsl_prim, nmsg);
}
/* 9.1.2 ASSIGNMENT COMMAND is received */
static int gsm48_rr_rx_ass_cmd(struct osmocom_ms *ms, struct msgb *msg)
{
-// struct gsm48_rrlayer *rr = &ms->rrlayer;
+ struct gsm48_rrlayer *rr = &ms->rrlayer;
struct gsm48_hdr *gh = msgb_l3(msg);
struct gsm48_ass_cmd *ac = (struct gsm48_ass_cmd *)gh->data;
int payload_len = msgb_l3len(msg) - sizeof(*gh) - sizeof(*ac);
struct tlv_parsed tp;
- struct gsm48_rr_cd cd;
+ struct gsm48_rr_cd *cda = &rr->cd_after;
+ struct gsm48_rr_cd *cdb = &rr->cd_before;
+ uint8_t ch_type, ch_subch, ch_ts;
+ uint8_t before_time = 0;
+ uint16_t ma[64];
+ uint8_t ma_len;
+ uint32_t start_mili = 0;
+ uint8_t cause;
+ struct msgb *nmsg;
+
LOGP(DRR, LOGL_INFO, "ASSIGNMENT COMMAND\n");
- memset(&cd, 0, sizeof(cd));
+ memset(cda, 0, sizeof(*cda));
+ cda->ind_tx_power = rr->cd_now.ind_tx_power;
+ memset(cdb, 0, sizeof(*cdb));
+ cdb->ind_tx_power = rr->cd_now.ind_tx_power;
if (payload_len < 0) {
LOGP(DRR, LOGL_NOTICE, "Short read of ASSIGNMENT COMMAND "
}
tlv_parse(&tp, &gsm48_rr_att_tlvdef, ac->data, payload_len, 0, 0);
-#if 0
- /* channel description */
- memcpy(&cd.chan_desc, &ac->chan_desc, sizeof(chan_desc));
- /* power command */
- cd.power_command = ac->power_command;
- /* frequency list, after timer */
- tlv_copy(&cd.fl, sizeof(fl_after), &tp, GSM48_IE_FRQLIST_AFTER);
+ /* decode channel description (before time) */
+ if (TLVP_PRESENT(&tp, GSM48_IE_CH_DESC_1_BEFORE)) {
+ struct gsm48_chan_desc *ccd = (struct gsm48_chan_desc *)
+ TLVP_VAL(&tp, GSM48_IE_CH_DESC_1_BEFORE);
+ cdb->chan_nr = ccd->chan_nr;
+ rsl_dec_chan_nr(cdb->chan_nr, &ch_type, &ch_subch, &ch_ts);
+ if (ccd->h0.h) {
+ cdb->h = 1;
+ gsm48_decode_chan_h1(ccd, &cdb->tsc, &cdb->maio,
+ &cdb->hsn);
+ LOGP(DRR, LOGL_INFO, " before: (chan_nr 0x%02x MAIO %u "
+ "HSN %u TS %u SS %u TSC %u)\n", ccd->chan_nr,
+ cdb->maio, cdb->hsn, ch_ts, ch_subch, cdb->tsc);
+ } else {
+ cdb->h = 0;
+ gsm48_decode_chan_h0(ccd, &cdb->tsc, &cdb->arfcn);
+ LOGP(DRR, LOGL_INFO, " before: (chan_nr 0x%02x "
+ "ARFCN %u TS %u SS %u TSC %u)\n", ccd->chan_nr,
+ cdb->arfcn, ch_ts, ch_subch, cdb->tsc);
+ }
+ before_time = 1;
+ }
+
+ /* decode channel description (after time) */
+ cda->chan_nr = ac->chan_desc.chan_nr;
+ rsl_dec_chan_nr(cda->chan_nr, &ch_type, &ch_subch, &ch_ts);
+ if (ac->chan_desc.h0.h) {
+ cda->h = 1;
+ gsm48_decode_chan_h1(&ac->chan_desc, &cda->tsc, &cda->maio,
+ &cda->hsn);
+ LOGP(DRR, LOGL_INFO, " after: (chan_nr 0x%02x MAIO %u HSN %u "
+ "TS %u SS %u TSC %u)\n", ac->chan_desc.chan_nr,
+ cda->maio, cda->hsn, ch_ts, ch_subch, cda->tsc);
+ } else {
+ cda->h = 0;
+ gsm48_decode_chan_h0(&ac->chan_desc, &cda->tsc, &cda->arfcn);
+ LOGP(DRR, LOGL_INFO, " after: (chan_nr 0x%02x ARFCN %u TS %u "
+ "SS %u TSC %u)\n", ac->chan_desc.chan_nr,
+ cda->arfcn, ch_ts, ch_subch, cda->tsc);
+ }
+
+ /* starting time */
+#ifdef TEST_STARTING_TIMER
+ cda->start = 1;
+ cda->start_tm.fn = (ms->meas.last_fn + TEST_STARTING_TIMER) % 42432;
+ LOGP(DRR, LOGL_INFO, " TESTING: starting time ahead\n");
+#else
+ if (TLVP_PRESENT(&tp, GSM48_IE_START_TIME)) {
+ gsm48_decode_start_time(cda, (struct gsm48_start_time *)
+ TLVP_VAL(&tp, GSM48_IE_START_TIME));
+ /* 9.1.2.5 "... before time IE is not present..." */
+ if (!before_time) {
+ LOGP(DRR, LOGL_INFO, " -> channel description after "
+ "time only, but starting time\n");
+ } else
+ LOGP(DRR, LOGL_INFO, " -> channel description before "
+ "and after time\n");
+ } else {
+ /* 9.1.2.5 "... IEs unnecessary in this message." */
+ if (before_time) {
+ before_time = 0;
+ LOGP(DRR, LOGL_INFO, " -> channel description before "
+ "time, but no starting time, ignoring!\n");
+ }
+ }
+#endif
+
+ /* mobile allocation / frequency list after time */
+ if (cda->h) {
+ if (TLVP_PRESENT(&tp, GSM48_IE_MA_AFTER)) {
+ const uint8_t *lv =
+ TLVP_VAL(&tp, GSM48_IE_MA_AFTER) - 1;
+
+ LOGP(DRR, LOGL_INFO, " after: hopping required and "
+ "mobile allocation available\n");
+ if (*lv + 1 > sizeof(cda->mob_alloc_lv)) {
+ LOGP(DRR, LOGL_ERROR, "Error: no LV space!\n");
+ return -ENOMEM;
+ }
+ memcpy(cda->mob_alloc_lv, lv, *lv + 1);
+ } else
+ if (TLVP_PRESENT(&tp, GSM48_IE_FREQ_L_AFTER)) {
+ const uint8_t *lv =
+ TLVP_VAL(&tp, GSM48_IE_FREQ_L_AFTER) - 1;
+
+ LOGP(DRR, LOGL_INFO, " after: hopping required and "
+ "frequency list available\n");
+ if (*lv + 1 > sizeof(cda->freq_list_lv)) {
+ LOGP(DRR, LOGL_ERROR, "Error: no LV space!\n");
+ return -ENOMEM;
+ }
+ memcpy(cda->freq_list_lv, lv, *lv + 1);
+ } else {
+ LOGP(DRR, LOGL_NOTICE, " after: hopping required, but "
+ "no mobile allocation / frequency list\n");
+ }
+ }
+
+ /* mobile allocation / frequency list before time */
+ if (cdb->h) {
+ if (TLVP_PRESENT(&tp, GSM48_IE_MA_BEFORE)) {
+ const uint8_t *lv =
+ TLVP_VAL(&tp, GSM48_IE_MA_BEFORE) - 1;
+
+ LOGP(DRR, LOGL_INFO, " before: hopping required and "
+ "mobile allocation available\n");
+ if (*lv + 1 > sizeof(cdb->mob_alloc_lv)) {
+ LOGP(DRR, LOGL_ERROR, "Error: no LV space!\n");
+ return -ENOMEM;
+ }
+ memcpy(cdb->mob_alloc_lv, lv, *lv + 1);
+ } else
+ if (TLVP_PRESENT(&tp, GSM48_IE_FREQ_L_BEFORE)) {
+ const uint8_t *lv =
+ TLVP_VAL(&tp, GSM48_IE_FREQ_L_BEFORE) - 1;
+
+ LOGP(DRR, LOGL_INFO, " before: hopping required and "
+ "frequency list available\n");
+ if (*lv + 1 > sizeof(cdb->freq_list_lv)) {
+ LOGP(DRR, LOGL_ERROR, "Error: no LV space!\n");
+ return -ENOMEM;
+ }
+ memcpy(cdb->freq_list_lv, lv, *lv + 1);
+ } else
+ if (TLVP_PRESENT(&tp, GSM48_IE_F_CH_SEQ_BEFORE)) {
+ const uint8_t *v =
+ TLVP_VAL(&tp, GSM48_IE_F_CH_SEQ_BEFORE);
+ uint8_t len = TLVP_LEN(&tp, GSM48_IE_F_CH_SEQ_BEFORE);
+
+ LOGP(DRR, LOGL_INFO, " before: hopping required and "
+ "frequency channel sequence available\n");
+ if (len + 1 > sizeof(cdb->freq_seq_lv)) {
+ LOGP(DRR, LOGL_ERROR, "Error: no LV space!\n");
+ return -ENOMEM;
+ }
+ cdb->freq_seq_lv[0] = len;
+ memcpy(cdb->freq_seq_lv + 1, v, len);
+ } else
+ if (cda->mob_alloc_lv[0]) {
+ LOGP(DRR, LOGL_INFO, " before: hopping required and "
+ "mobile allocation not available, using "
+ "mobile allocation after time\n");
+ memcpy(cdb->mob_alloc_lv, cda->mob_alloc_lv,
+ sizeof(cdb->mob_alloc_lv));
+ } else
+ if (cda->freq_list_lv[0]) {
+ LOGP(DRR, LOGL_INFO, " before: hopping required and "
+ "frequency list not available, using "
+ "frequency list after time\n");
+ memcpy(cdb->freq_list_lv, cda->freq_list_lv,
+ sizeof(cdb->freq_list_lv));
+ } else {
+ LOGP(DRR, LOGL_NOTICE, " before: hopping required, but "
+ "no mobile allocation / frequency list\n");
+ }
+ }
+
/* cell channel description */
- tlv_copy(&cd.ccd, sizeof(ccd), &tp, GSM48_IE_CELL_CH_DESC);
- /* multislot allocation */
- tlv_copy(&cd.multia, sizeof(ma), &tp, GSM48_IE_MSLOT_DESC);
+ if (TLVP_PRESENT(&tp, GSM48_IE_CELL_CH_DESC)) {
+ const uint8_t *v = TLVP_VAL(&tp, GSM48_IE_CELL_CH_DESC);
+ uint8_t len = TLVP_LEN(&tp, GSM48_IE_CELL_CH_DESC);
+
+ LOGP(DRR, LOGL_INFO, " both: using cell channel description "
+ "in case of mobile allocation\n");
+ if (len + 1 > sizeof(cdb->cell_desc_lv)) {
+ LOGP(DRR, LOGL_ERROR, "Error: no LV space!\n");
+ return -ENOMEM;
+ }
+ cdb->cell_desc_lv[0] = len;
+ memcpy(cdb->cell_desc_lv + 1, v, len);
+ cda->cell_desc_lv[0] = len;
+ memcpy(cda->cell_desc_lv + 1, v, len);
+ } else {
+ /* keep old */
+ memcpy(cdb->cell_desc_lv, rr->cd_now.cell_desc_lv,
+ sizeof(cdb->cell_desc_lv));
+ memcpy(cda->cell_desc_lv, rr->cd_now.cell_desc_lv,
+ sizeof(cda->cell_desc_lv));
+ }
+
/* channel mode */
- tlv_copy(&cd.chanmode, sizeof(chanmode), &tp, GSM48_IE_CHANMODE_1);
- /* mobile allocation, after time */
- tlv_copy(&cd.moba_after, sizeof(moba_after), &tp, GSM48_IE_MOB_AL_AFTER);
+ if (TLVP_PRESENT(&tp, GSM48_IE_CHANMODE_1)) {
+ cda->mode = cdb->mode = *TLVP_VAL(&tp, GSM48_IE_CHANMODE_1);
+ LOGP(DRR, LOGL_INFO, " both: changing channel mode 0x%02x\n",
+ cda->mode);
+ } else
+ cda->mode = cdb->mode = rr->cd_now.mode;
+
+ /* cipher mode setting */
+ if (TLVP_PRESENT(&tp, GSM48_IE_CIP_MODE_SET)) {
+ cda->cipher = cdb->cipher =
+ *TLVP_VAL(&tp, GSM48_IE_CIP_MODE_SET);
+ LOGP(DRR, LOGL_INFO, " both: changing cipher mode 0x%02x\n",
+ cda->cipher);
+ } else
+ cda->cipher = cdb->cipher = rr->cd_now.cipher;
+
+ /* power command and TA (before and after time) */
+ gsm48_decode_power_cmd_acc(
+ (struct gsm48_power_cmd *) &ac->power_command,
+ &cda->ind_tx_power, NULL);
+ cdb->ind_tx_power = cda->ind_tx_power;
+ cda->ind_ta = cdb->ind_ta = rr->cd_now.ind_ta; /* same cell */
+ LOGP(DRR, LOGL_INFO, " both: (tx_power %d TA %d)\n", cda->ind_tx_power,
+ cda->ind_ta);
+
+ /* check if we have to change channel at starting time */
+ if (cda->start) {
+ int32_t now, start, diff;
+
+ /* how much time do we have left? */
+ now = ms->meas.last_fn % 42432;
+ start = cda->start_tm.fn % 42432;
+ diff = start - now;
+ if (diff < 0)
+ diff += 42432;
+ LOGP(DRR, LOGL_INFO, " after: (Tnow %d Tstart %d diff %d)\n",
+ now, start, diff);
+ start_mili = (uint32_t)diff * 19580 / 42432 * 10;
+ if (diff >= 32024 || !start_mili) {
+ LOGP(DRR, LOGL_INFO, " -> Start time already "
+ "elapsed\n");
+ before_time = 0;
+ cda->start = 0;
+ } else {
+ LOGP(DRR, LOGL_INFO, " -> Start time is %d ms in the "
+ "future\n", start_mili);
+ }
+ }
+
+ /* check if channels are valid */
+ cause = gsm48_rr_check_mode(ms, cda->chan_nr, cda->mode);
+ if (cause)
+ return gsm48_rr_tx_ass_fail(ms, cause, RSL_MT_DATA_REQ);
+ if (before_time) {
+ cause = gsm48_rr_render_ma(ms, cdb, ma, &ma_len);
+ if (cause)
+ return gsm48_rr_tx_ass_fail(ms, cause, RSL_MT_DATA_REQ);
+ }
+ cause = gsm48_rr_render_ma(ms, cda, ma, &ma_len);
+ if (cause)
+ return gsm48_rr_tx_ass_fail(ms, cause, RSL_MT_DATA_REQ);
+
+#ifdef TEST_FREQUENCY_MOD
+ LOGP(DRR, LOGL_INFO, " TESTING: frequency modify ASS.CMD\n");
+ before_time = 1;
+ memcpy(cdb, cda, sizeof(*cdb));
+ cdb->h = 0;
+ cdb->arfcn = 0;
+#endif
+
+ /* schedule start of assignment */
+ rr->modify_state = GSM48_RR_MOD_ASSIGN;
+ if (!before_time && cda->start) {
+ start_rr_t_starting(rr, start_mili / 1000, start_mili % 1000);
+ /* when timer fires, start time is already elapsed */
+ cda->start = 0;
+
+ return 0;
+ }
+
+ /* if no starting time, start suspension of current link directly */
+ LOGP(DRR, LOGL_INFO, "request suspension of data link\n");
+ nmsg = gsm48_l3_msgb_alloc();
+ if (!nmsg)
+ return -ENOMEM;
+ gsm48_send_rsl(ms, RSL_MT_SUSP_REQ, nmsg);
+
+ return 0;
+}
+
+/* 9.1.16 sending HANDOVER COMPLETE */
+static int gsm48_rr_tx_hando_cpl(struct osmocom_ms *ms, uint8_t cause)
+{
+ struct msgb *nmsg;
+ struct gsm48_hdr *gh;
+ struct gsm48_ho_cpl *hc;
+
+ LOGP(DRR, LOGL_INFO, "HANDOVER COMPLETE (cause #%d)\n", cause);
+
+ nmsg = gsm48_l3_msgb_alloc();
+ if (!nmsg)
+ return -ENOMEM;
+ gh = (struct gsm48_hdr *) msgb_put(nmsg, sizeof(*gh));
+ hc = (struct gsm48_ho_cpl *) msgb_put(nmsg, sizeof(*hc));
+
+ gh->proto_discr = GSM48_PDISC_RR;
+ gh->msg_type = GSM48_MT_RR_HANDO_COMPL;
+
+ /* RR_CAUSE */
+ hc->rr_cause = cause;
+
+ // FIXME: mobile observed time
+
+ return gsm48_send_rsl(ms, RSL_MT_RES_REQ, nmsg);
+}
+
+/* 9.1.4 sending HANDOVER FAILURE */
+static int gsm48_rr_tx_hando_fail(struct osmocom_ms *ms, uint8_t cause,
+ uint8_t rsl_prim)
+{
+ struct msgb *nmsg;
+ struct gsm48_hdr *gh;
+ struct gsm48_ho_fail *hf;
+
+ LOGP(DRR, LOGL_INFO, "HANDOVER FAILURE (cause #%d)\n", cause);
+
+ nmsg = gsm48_l3_msgb_alloc();
+ if (!nmsg)
+ return -ENOMEM;
+ gh = (struct gsm48_hdr *) msgb_put(nmsg, sizeof(*gh));
+ hf = (struct gsm48_ho_fail *) msgb_put(nmsg, sizeof(*hf));
+
+ gh->proto_discr = GSM48_PDISC_RR;
+ gh->msg_type = GSM48_MT_RR_ASS_COMPL;
+
+ /* RR_CAUSE */
+ hf->rr_cause = cause;
+
+ return gsm48_send_rsl(ms, rsl_prim, nmsg);
+}
+
+/* receiving HANDOVER COMMAND message (9.1.15) */
+static int gsm48_rr_rx_hando_cmd(struct osmocom_ms *ms, struct msgb *msg)
+{
+ struct gsm48_rrlayer *rr = &ms->rrlayer;
+ struct gsm48_hdr *gh = msgb_l3(msg);
+ struct gsm48_ho_cmd *ho = (struct gsm48_ho_cmd *)gh->data;
+ int payload_len = msgb_l3len(msg) - sizeof(*gh) - sizeof(*ho);
+ struct tlv_parsed tp;
+ struct gsm48_rr_cd *cda = &rr->cd_after;
+ struct gsm48_rr_cd *cdb = &rr->cd_before;
+ uint16_t arfcn;
+ uint8_t bcc, ncc;
+ uint8_t ch_type, ch_subch, ch_ts;
+ uint8_t before_time = 0;
+ uint16_t ma[64];
+ uint8_t ma_len;
+ uint32_t start_mili = 0;
+ uint8_t cause;
+ struct msgb *nmsg;
+
+ LOGP(DRR, LOGL_INFO, "HANDOVER COMMAND\n");
+
+ memset(cda, 0, sizeof(*cda));
+ cda->ind_tx_power = rr->cd_now.ind_tx_power;
+ memset(cdb, 0, sizeof(*cdb));
+ cdb->ind_tx_power = rr->cd_now.ind_tx_power;
+
+ if (payload_len < 0) {
+ LOGP(DRR, LOGL_NOTICE, "Short read of HANDOVER COMMAND "
+ "message.\n");
+ return gsm48_rr_tx_rr_status(ms,
+ GSM48_RR_CAUSE_PROT_ERROR_UNSPC);
+ }
+
+ /* cell description */
+ gsm48_decode_cell_desc(&ho->cell_desc, &arfcn, &ncc, &bcc);
+
+ /* handover reference */
+ rr->chan_req_val = ho->ho_ref;
+ rr->chan_req_mask = 0x00;
+
+ tlv_parse(&tp, &gsm48_rr_att_tlvdef, ho->data, payload_len, 0, 0);
+
+ /* sync ind */
+ if (TLVP_PRESENT(&tp, GSM48_IE_SYNC_IND)) {
+ gsm48_decode_sync_ind(rr, (struct gsm48_sync_ind *)
+ TLVP_VAL(&tp, GSM48_IE_SYNC_IND));
+ LOGP(DRR, LOGL_INFO, " (sync_ind=%d rot=%d nci=%d)\n",
+ rr->hando_sync_ind, rr->hando_rot, rr->hando_nci);
+ }
+
+ /* decode channel description (before time) */
+ if (TLVP_PRESENT(&tp, GSM48_IE_CH_DESC_1_BEFORE)) {
+ struct gsm48_chan_desc *ccd = (struct gsm48_chan_desc *)
+ TLVP_VAL(&tp, GSM48_IE_CH_DESC_1_BEFORE);
+ cdb->chan_nr = ccd->chan_nr;
+ rsl_dec_chan_nr(cdb->chan_nr, &ch_type, &ch_subch, &ch_ts);
+ if (ccd->h0.h) {
+ cdb->h = 1;
+ gsm48_decode_chan_h1(ccd, &cdb->tsc, &cdb->maio,
+ &cdb->hsn);
+ LOGP(DRR, LOGL_INFO, " before: (chan_nr 0x%02x MAIO %u "
+ "HSN %u TS %u SS %u TSC %u)\n", ccd->chan_nr,
+ cdb->maio, cdb->hsn, ch_ts, ch_subch, cdb->tsc);
+ } else {
+ cdb->h = 0;
+ gsm48_decode_chan_h0(ccd, &cdb->tsc, &cdb->arfcn);
+ LOGP(DRR, LOGL_INFO, " before: (chan_nr 0x%02x "
+ "ARFCN %u TS %u SS %u TSC %u)\n", ccd->chan_nr,
+ cdb->arfcn, ch_ts, ch_subch, cdb->tsc);
+ }
+ before_time = 1;
+ }
+
+ /* decode channel description (after time) */
+ cda->chan_nr = ho->chan_desc.chan_nr;
+ rsl_dec_chan_nr(cda->chan_nr, &ch_type, &ch_subch, &ch_ts);
+ if (ho->chan_desc.h0.h) {
+ cda->h = 1;
+ gsm48_decode_chan_h1(&ho->chan_desc, &cda->tsc, &cda->maio,
+ &cda->hsn);
+ LOGP(DRR, LOGL_INFO, " after: (chan_nr 0x%02x MAIO %u HSN %u "
+ "TS %u SS %u TSC %u)\n", ho->chan_desc.chan_nr,
+ cda->maio, cda->hsn, ch_ts, ch_subch, cda->tsc);
+ } else {
+ cda->h = 0;
+ gsm48_decode_chan_h0(&ho->chan_desc, &cda->tsc, &cda->arfcn);
+ LOGP(DRR, LOGL_INFO, " after: (chan_nr 0x%02x ARFCN %u TS %u "
+ "SS %u TSC %u)\n", ho->chan_desc.chan_nr,
+ cda->arfcn, ch_ts, ch_subch, cda->tsc);
+ }
+
/* starting time */
- tlv_copy(&cd.start, sizeof(start), &tp, GSM_IE_START_TIME);
- /* frequency list, before time */
- tlv_copy(&cd.fl_before, sizeof(fl_before), &tp, GSM48_IE_FRQLIST_BEFORE);
- /* channel description, before time */
- tlv_copy(&cd.chan_desc_before, sizeof(cd_before), &tp, GSM48_IE_CHDES_1_BEFORE);
- /* frequency channel sequence, before time */
- tlv_copy(&cd.fcs_before, sizeof(fcs_before), &tp, GSM48_IE_FRQSEQ_BEFORE);
- /* mobile allocation, before time */
- tlv_copy(&cd.moba_before, sizeof(moba_before), &tp, GSM48_IE_MOB_AL_BEFORE);
+#ifdef TEST_STARTING_TIMER
+ cda->start = 1;
+ cda->start_tm.fn = (ms->meas.last_fn + TEST_STARTING_TIMER) % 42432;
+ LOGP(DRR, LOGL_INFO, " TESTING: starting time ahead\n");
+#else
+ if (TLVP_PRESENT(&tp, GSM48_IE_START_TIME)) {
+ gsm48_decode_start_time(cda, (struct gsm48_start_time *)
+ TLVP_VAL(&tp, GSM48_IE_START_TIME));
+ /* 9.1.2.5 "... before time IE is not present..." */
+ if (!before_time) {
+ LOGP(DRR, LOGL_INFO, " -> channel description after "
+ "time only, but starting time\n");
+ } else
+ LOGP(DRR, LOGL_INFO, " -> channel description before "
+ "and after time\n");
+ } else {
+ /* 9.1.2.5 "... IEs unnecessary in this message." */
+ if (before_time) {
+ before_time = 0;
+ LOGP(DRR, LOGL_INFO, " -> channel description before "
+ "time, but no starting time, ignoring!\n");
+ }
+ }
+#endif
+
+ /* mobile allocation / frequency list after time */
+ if (cda->h) {
+ if (TLVP_PRESENT(&tp, GSM48_IE_MA_AFTER)) {
+ const uint8_t *lv =
+ TLVP_VAL(&tp, GSM48_IE_MA_AFTER) - 1;
+
+ LOGP(DRR, LOGL_INFO, " after: hopping required and "
+ "mobile allocation available\n");
+ if (*lv + 1 > sizeof(cda->mob_alloc_lv)) {
+ LOGP(DRR, LOGL_ERROR, "Error: no LV space!\n");
+ return -ENOMEM;
+ }
+ memcpy(cda->mob_alloc_lv, lv, *lv + 1);
+ } else
+ if (TLVP_PRESENT(&tp, GSM48_IE_FREQ_L_AFTER)) {
+ const uint8_t *lv =
+ TLVP_VAL(&tp, GSM48_IE_FREQ_L_AFTER) - 1;
+
+ LOGP(DRR, LOGL_INFO, " after: hopping required and "
+ "frequency list available\n");
+ if (*lv + 1 > sizeof(cda->freq_list_lv)) {
+ LOGP(DRR, LOGL_ERROR, "Error: no LV space!\n");
+ return -ENOMEM;
+ }
+ memcpy(cda->freq_list_lv, lv, *lv + 1);
+ } else {
+ LOGP(DRR, LOGL_NOTICE, " after: hopping required, but "
+ "no mobile allocation / frequency list\n");
+ }
+ }
+
+ /* mobile allocation / frequency list before time */
+ if (cdb->h) {
+ if (TLVP_PRESENT(&tp, GSM48_IE_MA_BEFORE)) {
+ const uint8_t *lv =
+ TLVP_VAL(&tp, GSM48_IE_MA_BEFORE) - 1;
+
+ LOGP(DRR, LOGL_INFO, " before: hopping required and "
+ "mobile allocation available\n");
+ if (*lv + 1 > sizeof(cdb->mob_alloc_lv)) {
+ LOGP(DRR, LOGL_ERROR, "Error: no LV space!\n");
+ return -ENOMEM;
+ }
+ memcpy(cdb->mob_alloc_lv, lv, *lv + 1);
+ } else
+ if (TLVP_PRESENT(&tp, GSM48_IE_FREQ_L_BEFORE)) {
+ const uint8_t *lv =
+ TLVP_VAL(&tp, GSM48_IE_FREQ_L_BEFORE) - 1;
+
+ LOGP(DRR, LOGL_INFO, " before: hopping required and "
+ "frequency list available\n");
+ if (*lv + 1 > sizeof(cdb->freq_list_lv)) {
+ LOGP(DRR, LOGL_ERROR, "Error: no LV space!\n");
+ return -ENOMEM;
+ }
+ memcpy(cdb->freq_list_lv, lv, *lv + 1);
+ } else
+ if (TLVP_PRESENT(&tp, GSM48_IE_F_CH_SEQ_BEFORE)) {
+ const uint8_t *v =
+ TLVP_VAL(&tp, GSM48_IE_F_CH_SEQ_BEFORE);
+ uint8_t len = TLVP_LEN(&tp, GSM48_IE_F_CH_SEQ_BEFORE);
+
+ LOGP(DRR, LOGL_INFO, " before: hopping required and "
+ "frequency channel sequence available\n");
+ if (len + 1 > sizeof(cdb->freq_seq_lv)) {
+ LOGP(DRR, LOGL_ERROR, "Error: no LV space!\n");
+ return -ENOMEM;
+ }
+ cdb->freq_seq_lv[0] = len;
+ memcpy(cdb->freq_seq_lv, v + 1, *v);
+ } else
+ if (cda->mob_alloc_lv[0]) {
+ LOGP(DRR, LOGL_INFO, " before: hopping required and "
+ "mobile allocation not available, using "
+ "mobile allocation after time\n");
+ memcpy(cdb->mob_alloc_lv, cda->mob_alloc_lv,
+ sizeof(cdb->mob_alloc_lv));
+ } else
+ if (cda->freq_list_lv[0]) {
+ LOGP(DRR, LOGL_INFO, " before: hopping required and "
+ "frequency list not available, using "
+ "frequency list after time\n");
+ memcpy(cdb->freq_list_lv, cda->freq_list_lv,
+ sizeof(cdb->freq_list_lv));
+ } else {
+ LOGP(DRR, LOGL_NOTICE, " before: hopping required, but "
+ "no mobile allocation / frequency list\n");
+ }
+ }
+
+ /* cell channel description */
+ if (TLVP_PRESENT(&tp, GSM48_IE_CELL_CH_DESC)) {
+ const uint8_t *v = TLVP_VAL(&tp, GSM48_IE_CELL_CH_DESC);
+ uint8_t len = TLVP_LEN(&tp, GSM48_IE_CELL_CH_DESC);
+
+ LOGP(DRR, LOGL_INFO, " both: using cell channel description "
+ "in case of mobile allocation\n");
+ if (len + 1 > sizeof(cdb->cell_desc_lv)) {
+ LOGP(DRR, LOGL_ERROR, "Error: no LV space!\n");
+ return -ENOMEM;
+ }
+ cdb->cell_desc_lv[0] = len;
+ memcpy(cdb->cell_desc_lv + 1, v, len);
+ cda->cell_desc_lv[0] = len;
+ memcpy(cda->cell_desc_lv + 1, v, len);
+ } else {
+ /* keep old */
+ memcpy(cdb->cell_desc_lv, rr->cd_now.cell_desc_lv,
+ sizeof(cdb->cell_desc_lv));
+ memcpy(cda->cell_desc_lv, rr->cd_now.cell_desc_lv,
+ sizeof(cda->cell_desc_lv));
+ }
+
+ /* channel mode */
+ if (TLVP_PRESENT(&tp, GSM48_IE_CHANMODE_1)) {
+ cda->mode = cdb->mode = *TLVP_VAL(&tp, GSM48_IE_CHANMODE_1);
+ LOGP(DRR, LOGL_INFO, " both: changing channel mode 0x%02x\n",
+ cda->mode);
+ } else
+ cda->mode = cdb->mode = rr->cd_now.mode;
+
/* cipher mode setting */
- if (TLVP_PRESENT(&tp, GSM48_IE_CIP_MODE_SET))
- cd.cipher = *TLVP_VAL(&tp, GSM48_IE_CIP_MODE_SET);
- else
- cd.cipher = 0;
+ if (TLVP_PRESENT(&tp, GSM48_IE_CIP_MODE_SET)) {
+ cda->cipher = cdb->cipher =
+ *TLVP_VAL(&tp, GSM48_IE_CIP_MODE_SET);
+ LOGP(DRR, LOGL_INFO, " both: changing cipher mode 0x%02x\n",
+ cda->cipher);
+ } else
+ cda->cipher = cdb->cipher = rr->cd_now.cipher;
+
+ /* power command and TA (before and after time) */
+ gsm48_decode_power_cmd_acc(
+ (struct gsm48_power_cmd *) &ho->power_command,
+ &cda->ind_tx_power, &rr->hando_act);
+ cdb->ind_tx_power = cda->ind_tx_power;
+ cda->ind_ta = cdb->ind_ta = rr->cd_now.ind_ta; /* same cell */
+ LOGP(DRR, LOGL_INFO, " both: (tx_power %d TA %d access=%s)\n",
+ cda->ind_tx_power, cda->ind_ta,
+ (rr->hando_act) ? "optional" : "mandatory");
+
+ /* check if we have to change channel at starting time */
+ if (cda->start) {
+ int32_t now, start, diff;
+
+ /* how much time do we have left? */
+ now = ms->meas.last_fn % 42432;
+ start = cda->start_tm.fn % 42432;
+ diff = start - now;
+ if (diff < 0)
+ diff += 42432;
+ LOGP(DRR, LOGL_INFO, " after: (Tnow %d Tstart %d diff %d)\n",
+ now, start, diff);
+ start_mili = (uint32_t)diff * 19580 / 42432 * 10;
+ if (diff >= 32024 || !start_mili) {
+ LOGP(DRR, LOGL_INFO, " -> Start time already "
+ "elapsed\n");
+ before_time = 0;
+ cda->start = 0;
+ } else {
+ LOGP(DRR, LOGL_INFO, " -> Start time is %d ms in the "
+ "future\n", start_mili);
+ }
+ }
+
+ /* check if channels are valid */
+ if (before_time) {
+ cause = gsm48_rr_render_ma(ms, cdb, ma, &ma_len);
+ if (cause)
+ return gsm48_rr_tx_hando_fail(ms, cause, RSL_MT_DATA_REQ);
+ }
+ cause = gsm48_rr_render_ma(ms, cda, ma, &ma_len);
+ if (cause)
+ return gsm48_rr_tx_hando_fail(ms, cause, RSL_MT_DATA_REQ);
+
+
+#if 0
+ if (not supported) {
+ LOGP(DRR, LOGL_NOTICE, "New channel is not supported.\n");
+ return GSM48_RR_CAUSE_CHAN_MODE_UNACCEPT;
+ }
+#endif
+
+#ifdef TEST_FREQUENCY_MOD
+ LOGP(DRR, LOGL_INFO, " TESTING: frequency modify HANDO.CMD\n");
+ before_time = 1;
+ memcpy(cdb, cda, sizeof(*cdb));
+ cdb->h = 0;
+ cdb->arfcn = 0;
+#endif
+
+ /* schedule start of handover */
+ rr->modify_state = GSM48_RR_MOD_HANDO;
+ if (!before_time && cda->start) {
+ start_rr_t_starting(rr, start_mili / 1000, start_mili % 1000);
+ /* when timer fires, start time is already elapsed */
+ cda->start = 0;
+
+ return 0;
+ }
+
+ /* if no starting time, start suspension of current link directly */
+ LOGP(DRR, LOGL_INFO, "request suspension of data link\n");
+ nmsg = gsm48_l3_msgb_alloc();
+ if (!nmsg)
+ return -ENOMEM;
+ gsm48_send_rsl(ms, RSL_MT_SUSP_REQ, nmsg);
+
+ return 0;
+}
+
+/* send all queued messages down to layer 2 */
+static int gsm48_rr_dequeue_down(struct osmocom_ms *ms)
+{
+ struct gsm48_rrlayer *rr = &ms->rrlayer;
+ struct msgb *msg;
+
+ while((msg = msgb_dequeue(&rr->downqueue))) {
+ LOGP(DRR, LOGL_INFO, "Sending queued message.\n");
+ gsm48_send_rsl(ms, RSL_MT_DATA_REQ, msg);
+ }
+
+ return 0;
+}
+
+/* channel is resumed in dedicated mode */
+static int gsm48_rr_estab_cnf_dedicated(struct osmocom_ms *ms, struct msgb *msg)
+{
+ struct gsm48_rrlayer *rr = &ms->rrlayer;
+
+ LOGP(DRR, LOGL_INFO, "data link is resumed\n");
+
+ /* transmit queued frames during ho / ass transition */
+ gsm48_rr_dequeue_down(ms);
+
+ rr->modify_state = GSM48_RR_MOD_NONE;
+
+ return 0;
+}
+
+/* suspend confirm in dedicated mode */
+static int gsm48_rr_susp_cnf_dedicated(struct osmocom_ms *ms, struct msgb *msg)
+{
+ struct gsm48_rrlayer *rr = &ms->rrlayer;
+
+ if (rr->modify_state) {
+ uint16_t ma[64];
+ uint8_t ma_len;
+
+ /* deactivating dedicated mode */
+ LOGP(DRR, LOGL_INFO, "suspension coplete, leaving dedicated "
+ "mode\n");
+ l1ctl_tx_dm_rel_req(ms);
+ ms->meas.rl_fail = 0;
+ rr->dm_est = 0;
+ l1ctl_tx_reset_req(ms, L1CTL_RES_T_SCHED);
+
+ /* store current channel descriptions */
+ memcpy(&rr->cd_last, &rr->cd_now, sizeof(rr->cd_last));
+
+ /* copy channel description "after time" */
+ memcpy(&rr->cd_now, &rr->cd_after, sizeof(rr->cd_now));
- if (no CA) {
- LOGP(DRR, LOGL_INFO, "No current cell allocation available.\n");
- return gsm48_rr_tx_ass_fail(ms, GSM48_GSM48_RR_CAUSE_NO_CELL_ALLOC_A);
- }
-
- if (not supported) {
- LOGP(DRR, LOGL_INFO, "New channel is not supported.\n");
- return gsm48_rr_tx_ass_fail(ms, GSM48_RR_CAUSE_CHAN_MODE_UNACCEPT);
- }
+ if (rr->cd_after.start) {
+ /* render channel "before time" */
+ gsm48_rr_render_ma(ms, &rr->cd_before, ma, &ma_len);
- if (freq not supported) {
- LOGP(DRR, LOGL_INFO, "New frequency is not supported.\n");
- return gsm48_rr_tx_ass_fail(ms, GSM48_RR_CAUSE_FREQ_NOT_IMPL);
- }
+ /* activate channel */
+ gsm48_rr_activate_channel(ms, &rr->cd_before, ma,
+ ma_len);
- /* store current channel descriptions, to return in case of failure */
- memcpy(&rr->chan_last, &rr->chan_desc, sizeof(*cd));
- /* copy new description */
- memcpy(&rr->chan_desc, cd, sizeof(cd));
+ /* render channel "after time" */
+ gsm48_rr_render_ma(ms, &rr->cd_now, ma, &ma_len);
- /* start suspension of current link */
- nmsg = gsm48_l3_msgb_alloc();
- if (!nmsg)
- return -ENOMEM;
- gsm48_send_rsl(ms, RSL_MT_SUSP_REQ, msg);
+ /* schedule change of channel */
+ gsm48_rr_channel_after_time(ms, &rr->cd_now, ma, ma_len,
+ rr->cd_now.start_tm.fn);
+ } else {
+ /* render channel "after time" */
+ gsm48_rr_render_ma(ms, &rr->cd_now, ma, &ma_len);
- /* change into special assignment suspension state */
- rr->assign_susp_state = 1;
- rr->resume_last_state = 0;
-#else
- return gsm48_rr_tx_ass_fail(ms, GSM48_RR_CAUSE_FREQ_NOT_IMPL);
-#endif
+ /* activate channel */
+ gsm48_rr_activate_channel(ms, &rr->cd_now, ma, ma_len);
+ }
+
+ /* send DL-RESUME REQUEST */
+ LOGP(DRR, LOGL_INFO, "request resume of data link\n");
+ switch (rr->modify_state) {
+ case GSM48_RR_MOD_ASSIGN:
+ gsm48_rr_tx_ass_cpl(ms, GSM48_RR_CAUSE_NORMAL);
+ break;
+ case GSM48_RR_MOD_HANDO:
+ gsm48_rr_tx_hando_cpl(ms, GSM48_RR_CAUSE_NORMAL);
+ break;
+ }
+#ifdef TODO
+ /* trigger RACH */
+ if (rr->modify_state == GSM48_RR_MOD_HANDO) {
+ gsm48_rr_tx_hando_access(ms);
+ rr->hando_acc_left = 3;
+ }
+#endif
+ }
return 0;
}
/* check if camping */
if (cs->state != GSM322_C3_CAMPED_NORMALLY
&& rrh->cause != RR_EST_CAUSE_EMERGENCY) {
- LOGP(DRR, LOGL_INFO, "Not camping normally, rejecting!\n");
+ LOGP(DRR, LOGL_INFO, "Not camping normally, rejecting! "
+ "(cs->state = %d)\n", cs->state);
cause = RR_REL_CAUSE_EMERGENCY_ONLY;
goto reject;
}
if (cs->state != GSM322_C3_CAMPED_NORMALLY
&& cs->state != GSM322_C7_CAMPED_ANY_CELL) {
- LOGP(DRR, LOGL_INFO, "Not camping, rejecting!\n");
+ LOGP(DRR, LOGL_INFO, "Not camping, rejecting! "
+ "(cs->state = %d)\n", cs->state);
cause = RR_REL_CAUSE_TRY_LATER;
goto reject;
}
return gsm48_rr_chan_req(ms, rrh->cause, 0);
}
-/* send all queued messages down to layer 2 */
-static int gsm48_rr_dequeue_down(struct osmocom_ms *ms)
-{
- struct gsm48_rrlayer *rr = &ms->rrlayer;
- struct msgb *msg;
-
- while((msg = msgb_dequeue(&rr->downqueue))) {
- LOGP(DRR, LOGL_INFO, "Sending queued message.\n");
- gsm48_send_rsl(ms, RSL_MT_DATA_REQ, msg);
- }
-
- return 0;
-}
-
/* 3.4.2 transfer data in dedicated mode */
static int gsm48_rr_data_req(struct osmocom_ms *ms, struct msgb *msg)
{
/* pull RR header */
msgb_pull(msg, sizeof(struct gsm48_rr_hdr));
+ /* set sequence number and increment */
+ gsm48_apply_v_sd(rr, msg);
+
/* queue message, during handover or assignment procedure */
- if (rr->hando_susp_state || rr->assign_susp_state) {
+ if (rr->modify_state == GSM48_RR_MOD_ASSIGN
+ || rr->modify_state == GSM48_RR_MOD_HANDO) {
LOGP(DRR, LOGL_INFO, "Queueing message during suspend.\n");
msgb_enqueue(&rr->downqueue, msg);
return 0;
case GSM48_MT_RR_ASS_CMD:
rc = gsm48_rr_rx_ass_cmd(ms, msg);
break;
-#if 0
- case GSM48_MT_RR_CIP_MODE_CMD:
+ case GSM48_MT_RR_CIPH_M_CMD:
rc = gsm48_rr_rx_cip_mode_cmd(ms, msg);
break;
-#endif
case GSM48_MT_RR_CLSM_ENQ:
rc = gsm48_rr_rx_cm_enq(ms, msg);
break;
case GSM48_MT_RR_CHAN_MODE_MODIF:
rc = gsm48_rr_rx_chan_modify(ms, msg);
break;
-#if 0
case GSM48_MT_RR_HANDO_CMD:
rc = gsm48_rr_rx_hando_cmd(ms, msg);
break;
case GSM48_MT_RR_FREQ_REDEF:
- rc = gsm48_rr_rx_freq_redef(ms, msg);
+ rc = gsm48_rr_rx_frq_redef(ms, msg);
break;
-#endif
case GSM48_MT_RR_CHAN_REL:
rc = gsm48_rr_rx_chan_rel(ms, msg);
break;
+ case GSM48_MT_RR_APP_INFO:
+ LOGP(DRR, LOGL_NOTICE, "APP INFO not supported!\n");
+ break;
default:
LOGP(DRR, LOGL_NOTICE, "Message type 0x%02x unknown.\n",
gh->msg_type);
ind_ta, ind_ta - set->alter_delay);
LOGP(DRR, LOGL_INFO, "Indicated tx_power %d\n",
ind_tx_power);
- if (ind_ta != rr->ind_ta || ind_tx_power != rr->ind_tx_power) {
+ if (ind_ta != rr->cd_now.ind_ta
+ || ind_tx_power != rr->cd_now.ind_tx_power) {
LOGP(DRR, LOGL_INFO, "setting new ta and tx_power\n");
l1ctl_tx_param_req(ms, ind_ta - set->alter_delay,
(set->alter_tx_power) ? set->alter_tx_power_value
: ind_tx_power);
- rr->ind_ta = ind_ta;
- rr->ind_tx_power = ind_tx_power;
+ rr->cd_now.ind_ta = ind_ta;
+ rr->cd_now.ind_tx_power = ind_tx_power;
}
switch (sih->system_information) {
/* unit data from layer 2 to RR layer */
static int gsm48_rr_unit_data_ind(struct osmocom_ms *ms, struct msgb *msg)
{
- struct gsm48_rrlayer *rr = &ms->rrlayer;
struct gsm322_cellsel *cs = &ms->cellsel;
struct abis_rsl_rll_hdr *rllh = msgb_l2(msg);
struct tlv_parsed tv;
&& cs->ccch_state != GSM322_CCCH_ST_DATA)
return -EINVAL;
- /* when camping, start/reset loss timer */
- if (cs->state == GSM322_C3_CAMPED_NORMALLY
- || cs->state == GSM322_C7_CAMPED_ANY_CELL) {
- struct gsm48_sysinfo *s = &ms->cellsel.sel_si;
-#ifdef TODO
- set radio link timeout on layer 1
- it is the number of subsequent BCCH blocks. (about 1/4 seconds)
-#else
- /* use maximu loss timer, if to value is not available yet */
- start_loss_timer(cs, ((rr->state == GSM48_RR_ST_DEDICATED)
- ? ((s->sacch_radio_link_timeout) ? : 64)
- : s->bcch_radio_link_timeout) / 4, 0);
-#endif
- }
-
/* temporary moved here until confirm is fixed */
if (cs->ccch_state != GSM322_CCCH_ST_DATA) {
LOGP(DCS, LOGL_INFO, "Channel provides data.\n");
return gsm48_rr_rx_pch_agch(ms, msg);
case RSL_CHAN_BCCH:
return gsm48_rr_rx_bcch(ms, msg);
+ case RSL_CHAN_Bm_ACCHs:
+ case RSL_CHAN_Lm_ACCHs:
case RSL_CHAN_SDCCH4_ACCH:
- return gsm48_rr_rx_acch(ms, msg);
case RSL_CHAN_SDCCH8_ACCH:
return gsm48_rr_rx_acch(ms, msg);
default:
return 0;
}
-/* release confirm in dedicated mode */
-static int gsm48_rr_susp_cnf_dedicated(struct osmocom_ms *ms, struct msgb *msg)
+/* release confirm */
+static int gsm48_rr_rel_cnf(struct osmocom_ms *ms, struct msgb *msg)
{
struct gsm48_rrlayer *rr = &ms->rrlayer;
+ struct msgb *nmsg;
+ struct gsm48_rr_hdr *nrrh;
+ uint8_t cause = RR_REL_CAUSE_NORMAL;
+ uint16_t ma[64];
+ uint8_t ma_len;
- if (rr->hando_susp_state || rr->assign_susp_state) {
- struct msgb *nmsg;
+ /* switch back to old channel, if modify/ho failed */
+ switch (rr->modify_state) {
+ case GSM48_RR_MOD_ASSIGN:
+ case GSM48_RR_MOD_HANDO:
+ /* deactivate channel */
+ l1ctl_tx_dm_rel_req(ms);
+ ms->meas.rl_fail = 0;
+ rr->dm_est = 0;
+ l1ctl_tx_reset_req(ms, L1CTL_RES_T_SCHED);
- /* change radio to new channel */
-//todo tx_ph_dm_est_req(ms, rr->cd_now.arfcn, rr->cd_now.chan_nr,
-// rr->cd_now.tsc);
+ /* get old channel description */
+ memcpy(&rr->cd_now, &rr->cd_last, sizeof(rr->cd_now));
- /* send DL-ESTABLISH REQUEST */
+ /* render and change radio to old channel */
+ gsm48_rr_render_ma(ms, &rr->cd_now, ma, &ma_len);
+ gsm48_rr_activate_channel(ms, &rr->cd_now, ma, ma_len);
+
+ /* re-establish old link */
nmsg = gsm48_l3_msgb_alloc();
if (!nmsg)
return -ENOMEM;
- gsm48_send_rsl(ms, RSL_MT_EST_REQ, nmsg);
-
-#ifdef TODO
- /* trigger RACH */
- if (rr->hando_susp_state) {
- gsm48_rr_tx_hando_access(ms);
- rr->hando_acc_left = 3;
+ if (rr->modify_state == GSM48_RR_MOD_ASSIGN) {
+ rr->modify_state = GSM48_RR_MOD_ASSIGN_RESUME;
+ return gsm48_rr_tx_ass_fail(ms,
+ GSM48_RR_CAUSE_ABNORMAL_UNSPEC,
+ RSL_MT_RECON_REQ);
+ } else {
+ rr->modify_state = GSM48_RR_MOD_HANDO_RESUME;
+ return gsm48_rr_tx_hando_fail(ms,
+ GSM48_RR_CAUSE_ABNORMAL_UNSPEC,
+ RSL_MT_RECON_REQ);
}
-#endif
+ /* returns above */
+ case GSM48_RR_MOD_ASSIGN_RESUME:
+ case GSM48_RR_MOD_HANDO_RESUME:
+ rr->modify_state = GSM48_RR_MOD_NONE;
+ cause = RR_REL_CAUSE_LINK_FAILURE;
+ break;
}
+
+ LOGP(DSUM, LOGL_INFO, "Requested channel aborted\n");
+
+ /* stop T3211 if running */
+ stop_rr_t3110(rr);
+
+ /* send release indication */
+ nmsg = gsm48_rr_msgb_alloc(GSM48_RR_REL_IND);
+ if (!nmsg)
+ return -ENOMEM;
+ nrrh = (struct gsm48_rr_hdr *)nmsg->data;
+ nrrh->cause = cause;
+ gsm48_rr_upmsg(ms, nmsg);
+
+ /* return idle */
+ new_rr_state(rr, GSM48_RR_ST_IDLE);
return 0;
}
-/* release confirm */
-static int gsm48_rr_rel_cnf(struct osmocom_ms *ms, struct msgb *msg)
+/* MDL-ERROR */
+static int gsm48_rr_mdl_error_ind(struct osmocom_ms *ms, struct msgb *msg)
{
struct gsm48_rrlayer *rr = &ms->rrlayer;
+ struct abis_rsl_rll_hdr *rllh = msgb_l2(msg);
struct msgb *nmsg;
struct gsm48_rr_hdr *nrrh;
+ uint8_t *mode;
+ uint8_t cause = rllh->data[2];
- LOGP(DSUM, LOGL_INFO, "Requesting channel aborted\n");
+ switch (cause) {
+ case RLL_CAUSE_SEQ_ERR:
+ case RLL_CAUSE_UNSOL_DM_RESP_MF:
+ break;
+ default:
+ LOGP(DRR, LOGL_NOTICE, "MDL-Error (cause %d) ignoring\n",
+ cause);
+ }
- /* stop T3211 if running */
- stop_rr_t3110(rr);
+ LOGP(DRR, LOGL_NOTICE, "MDL-Error (cause %d) aborting\n", cause);
- /* send release indication */
- nmsg = gsm48_rr_msgb_alloc(GSM48_RR_REL_IND);
+ /* disconnect the main signalling link */
+ nmsg = gsm48_l3_msgb_alloc();
+ if (!nmsg)
+ return -ENOMEM;
+ mode = msgb_put(nmsg, 2);
+ mode[0] = RSL_IE_RELEASE_MODE;
+ mode[1] = 1; /* local release */
+ gsm48_send_rsl_rel(ms, RSL_MT_REL_REQ, nmsg);
+
+ /* in case of modify/hando: wait for confirm */
+ if (rr->modify_state)
+ return 0;
+
+ /* send abort ind to upper layer */
+ nmsg = gsm48_rr_msgb_alloc(GSM48_RR_ABORT_IND);
if (!nmsg)
return -ENOMEM;
nrrh = (struct gsm48_rr_hdr *)nmsg->data;
- nrrh->cause = RR_REL_CAUSE_NORMAL;
+ nrrh->cause = RR_REL_CAUSE_LINK_FAILURE;
gsm48_rr_upmsg(ms, nmsg);
/* return idle */
SBIT(GSM48_RR_ST_REL_PEND),
RSL_MT_EST_CONF, gsm48_rr_estab_cnf},
-#if 0
+ /* resume */
{SBIT(GSM48_RR_ST_DEDICATED),
RSL_MT_EST_CONF, gsm48_rr_estab_cnf_dedicated},
- {SBIT(GSM_RRSTATE),
- RSL_MT_CONNECT_CNF, gsm48_rr_connect_cnf},
-
-#endif
-
/* release */
{SBIT(GSM48_RR_ST_CONN_PEND) |
SBIT(GSM48_RR_ST_DEDICATED),
{SBIT(GSM48_RR_ST_REL_PEND),
RSL_MT_REL_CONF, gsm48_rr_rel_cnf},
+ /* reconnect */
+ {SBIT(GSM48_RR_ST_CONN_PEND) |
+ SBIT(GSM48_RR_ST_DEDICATED),
+ RSL_MT_REL_CONF, gsm48_rr_rel_cnf},
+
/* suspenion */
{SBIT(GSM48_RR_ST_DEDICATED),
RSL_MT_SUSP_CONF, gsm48_rr_susp_cnf_dedicated},
#if 0
{SBIT(GSM48_RR_ST_DEDICATED),
RSL_MT_CHAN_CNF, gsm48_rr_rand_acc_cnf_dedicated},
-
- {SBIT(GSM_RRSTATE),
- RSL_MT_MDL_ERROR_IND, gsm48_rr_mdl_error_ind},
#endif
+
+ {SBIT(GSM48_RR_ST_DEDICATED),
+ RSL_MT_ERROR_IND, gsm48_rr_mdl_error_ind},
};
#define DLDATASLLEN \
{SBIT(GSM48_RR_ST_CONN_PEND) |
SBIT(GSM48_RR_ST_DEDICATED), /* 3.4.13.3 */
GSM48_RR_ABORT_REQ, gsm48_rr_abort_req},
-
-#if 0
- {SBIT(GSM48_RR_ST_DEDICATED),
- GSM48_RR_ACT_REQ, gsm48_rr_act_req},
-#endif
};
#define RRDOWNSLLEN \
osmol2_register_handler(ms, &gsm48_rx_rsl);
+ start_rr_t_meas(rr, 1, 0);
+
return 0;
}
rr->rr_est_msg = NULL;
}
- stop_rr_t_monitor(rr);
+ stop_rr_t_meas(rr);
+ stop_rr_t_starting(rr);
stop_rr_t_rel_wait(rr);
stop_rr_t3110(rr);
stop_rr_t3122(rr);
+ stop_rr_t3124(rr);
stop_rr_t3126(rr);
return 0;
#if 0
-the process above is complete
-------------------------------------------------------------------------------
-incomplete
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-todo:
-
-stop timers on abort
-wird beim abbruch immer der gepufferte cm-service-request entfernt, auch beim verschicken?:
-measurement reports
todo rr_sync_ind when receiving ciph, re ass, channel mode modify
-todo change procedures, release procedure
-
-static int gsm48_rr_act_req(struct osmocom_ms *ms, struct gsm48_rr *rrmsg)
-{
-}
-
-
-}
-
-/* memcopy of LV of given IE from tlv_parsed structure */
-static int tlv_copy(void *dest, int dest_len, struct tlv_parsed *tp, uint8_t ie)
-{
- uint8_t *lv = dest;
- uint8_t len;
-
- if (dest_len < 1)
- return -EINVAL;
- lv[0] = 0;
-
- if (!TLVP_PRESENT(tp, ie))
- return 0;
-
- len = TLVP_LEN(tp, ie);
- if (len < 1)
- return 0;
- if (len + 1 > dest_len)
- return -ENOMEM;
-
- memcpy(dest, TLVP_VAL(tp, ie) - 1, len + 1);
- return 0;
-}
-
-
-/* decode "Cell Description" (10.5.2.2) */
-static int gsm48_decode_cell_desc(struct gsm48_cell_desc *cd, uint16_t *arfcn, uint8_t *ncc uint8_t *bcc)
-{
- *arfcn = (cd->bcch_hi << 8) + cd->bcch_lo;
- *ncc = cd->ncc;
- *bcc = cd->bcc;
-}
-
-/* decode "Power Command" (10.5.2.28) and (10.5.2.28a) */
-static int gsm48_decode_power_cmd_acc(struct gsm48_power_cmd *pc, uint8_t *power_level uint8_t *atc)
-{
- *power_level = pc->power_level;
- if (atc) /* only in case of 10.5.2.28a */
- *atc = pc->atc;
-}
-
-/* decode "Synchronization Indication" (10.5.2.39) */
-static int gsm48_decode_power_cmd_acc(struct gsm48_rrlayer *rr, struct gsm48_rr_sync_ind *si)
-{
- rr->ho_sync_ind = si->si;
- rr->ho_rot = si->rot;
- rr->ho_nci = si->nci;
-}
-
-/* receiving HANDOVER COMMAND message (9.1.15) */
-static int gsm48_rr_rx_hando_cmd(struct osmocom_ms *ms, struct msgb *msg)
-{
- struct gsm48_rrlayer *rr = ms->rrlayer;
- struct gsm48_hdr *gh = msgb_l3(msg);
- struct gsm48_ho_cmd *ho = (struct gsm48_ho_cmd *)gh->data;
- int payload_len = msgb_l3len(msg) - sizeof(*gh) - wirklich sizeof(*ho);
- struct tlv_parsed tp;
- struct gsm48_rr_cd cd;
- struct msgb *nmsg;
-
- memset(&cd, 0, sizeof(cd));
-
- if (payload_len < 0) {
- LOGP(DRR, LOGL_NOTICE, "Short read of HANDOVER COMMAND message.\n");
- return gsm48_rr_tx_rr_status(ms, GSM48_RR_CAUSE_PROT_ERROR_UNSPC);
- }
- tlv_parse(&tp, &gsm48_rr_att_tlvdef, ho->data, payload_len, 0, 0);
-
- /* decode Cell Description */
- gsm_decode_cell_desc(&ho->cell_desc, &cd.bcch_arfcn, &cd.ncc, &cd.bcc);
- /* Channel Description */
- memcpy(&rr->chan_desc.chan_desc, ho->chan_desc, 3);
- /* Handover Reference */
- rr->hando_ref = ho->ho_ref;
- /* Power Command and access type */
- gsm_decode_power_cmd_acc((struct gsm48_power_cmd *)&ho->power_command,
- &cd.power_level, cd.atc);
- /* Synchronization Indication */
- if (TLVP_PRESENT(&tp, GSM48_IE_SYNC_IND))
- gsm48_decode_sync_ind(rr,
- TLVP_VAL(&tp, GSM48_IE_SYNC_IND)-1, &cd);
- /* Frequency Sort List */
- if (TLVP_PRESENT(&tp, GSM48_IE_FREQ_SHORT_LIST))
- gsm48_decode_freq_list(&ms->support, s->freq,
- TLVP_VAL(&tp, GSM48_IE_FREQ_SHORT_LIST),
- *(TLVP_VAL(&tp, GSM48_IE_FREQ_SHORT_LIST)-1),
- 0xce, FREQ_TYPE_SERV);
-
-
-today: more IE parsing
-
- /* store current channel descriptions, to return in case of failure */
- memcpy(&rr->chan_last, &rr->chan_desc, sizeof(*cd));
- /* copy new description */
- memcpy(&rr->chan_desc, cd, sizeof(cd));
-
- /* start suspension of current link */
- nmsg = gsm48_l3_msgb_alloc();
- if (!nmsg)
- return -ENOMEM;
- gsm48_send_rsl(ms, RSL_MT_SUSP_REQ, msg);
-
- /* change into special handover suspension state */
- rr->hando_susp_state = 1;
- rr->resume_last_state = 0;
-
- return 0;
-}
-
-static int gsm48_rr_estab_cnf_dedicated(struct osmocom_ms *ms, struct msgb *msg)
-{
- if (rr->hando_susp_state || rr->assign_susp_state) {
- if (rr->resume_last_state) {
- rr->resume_last_state = 0;
- gsm48_rr_tx_ass_cpl(ms, GSM48_RR_CAUSE_NORMAL);
- } else {
- gsm48_rr_tx_ass_fail(ms, GSM48_RR_CAUSE_PROTO_ERR_UNSPEC);
- }
- /* transmit queued frames during ho / ass transition */
- gsm48_rr_dequeue_down(ms);
- }
-
- return 0;
-}
-
-static int gsm48_rr_connect_cnf(struct osmocom_ms *ms, struct msgbl *msg)
-{
-}
-
-static int gsm48_rr_mdl_error_ind(struct osmocom_ms *ms, struct msgb *msg)
-{
- struct gsm48_rrlayer *rr = ms->rrlayer;
- struct abis_rsl_rll_hdr *rllh = msgb_l2(msg);
- struct msgb *nmsg;
- uint8_t cause = rllh->data[2];
-
- printing of the cause
-
- switch (cause) {
- case RLL_CAUSE_SEQ_ERR:
- case RLL_CAUSE_UNSOL_DM_RESP_MF:
- einige muessen ignoriert werden
- andere gelten als release
- }
-
- if (rr->hando_susp_state || rr->assign_susp_state) {
- if (!rr->resume_last_state) {
- rr->resume_last_state = 1;
-
- /* get old channel description */
- memcpy(&rr->chan_desc, &rr->chan_last, sizeof(*cd));
-
- /* change radio to old channel */
- tx_ph_dm_est_req(ms, rr->cd_now.arfcn,
- rr->cd_now.chan_nr, rr->cd_now.tsc);
-
- /* re-establish old link */
- nmsg = gsm48_l3_msgb_alloc();
- if (!nmsg)
- return -ENOMEM;
- return gsm48_send_rsl(ms, RSL_MT_RECON_REQ, nmsg);
- }
- rr->resume_last_state = 0;
- }
-
- /* deactivate channel */
- l1ctl_tx_dm_rel_req(ms, arfcn, rr->chan_desc.chan_desc.chan_nr);
-
- /* send abort ind to upper layer */
- nmsg = gsm48_mm_msgb_alloc();
-
- if (!msg)
- return -ENOMEM;
- nrrh = (struct gsm_mm_hdr *)nmsg->data;
- nrrh->msg_type = RR_ABORT_IND;
- nrrh->cause = GSM_MM_CAUSE_LINK_FAILURE;
- return gsm48_rr_upmsg(ms, msg);
-}
static void timeout_rr_t3124(void *arg)
{
hando_acc_left = 0;
/* get old channel description */
- memcpy(&rr->chan_desc, &rr->chan_last, sizeof(*cd));
+ memcpy(&rr->chan_desc, &rr->chan_last, sizeof(rr->chan_desc));
/* change radio to old channel */
tx_ph_dm_est_req(ms, rr->cd_now.arfcn, rr->cd_now.chan_nr,
rr->cd_now.tsc);
+ rr->dm_est = 1;
/* re-establish old link */
nmsg = gsm48_l3_msgb_alloc();
struct msgb *nmsg;
int s;
- if (!rr->hando_susp_state) {
+ if (rr->modify_state != GSM48_RR_MOD_HANDO) {
LOGP(DRR, LOGL_NOTICE, "Random acces confirm, but not in handover state.\n");
return 0;
}
start_rr_t3124(rr, GSM_T3124_675);
else
start_rr_t3124(rr, GSM_T3124_320);
+ }
if (!rr->n_chan_req) {
start_rr_t3126(rr, 5, 0); /* TODO improve! */
return 0;
#endif
-