#include <string.h>
#include <errno.h>
#include <sysmocom/femtobts/superfemto.h>
#include <sysmocom/femtobts/gsml1prim.h>
#include <sysmocom/femtobts/gsml1const.h>
#include <sysmocom/femtobts/gsml1types.h>
#include <osmocom/core/gsmtap.h>
#include <osmocom/core/talloc.h>
#include <osmocom/core/timer.h>
#include <osmocom/gsm/protocol/gsm_04_08.h>
#include <sysmo_l1_if.h>
#include <gprs_debug.h>
#include <pcu_l1_if.h>
#include <pcu_l1_if_phy.h>
#include <pdch.h>
#include <bts.h>
extern void *tall_pcu_ctx;
uint32_t l1if_ts_to_hLayer2(uint8_t trx, uint8_t ts)
{
return (ts << 16) | (trx << 24);
}
/* allocate a msgb containing a GsmL1_Prim_t */
struct msgb *l1p_msgb_alloc(void)
{
struct msgb *msg = msgb_alloc(sizeof(GsmL1_Prim_t), "l1_prim");
if (msg)
msg->l1h = msgb_put(msg, sizeof(GsmL1_Prim_t));
return msg;
}
static int l1if_req_pdch(struct femtol1_hdl *fl1h, struct msgb *msg)
{
struct osmo_wqueue *wqueue = &fl1h->write_q[MQ_PDTCH_WRITE];
if (osmo_wqueue_enqueue(wqueue, msg) != 0) {
LOGP(DL1IF, LOGL_ERROR, "PDTCH queue full. dropping message.\n");
msgb_free(msg);
}
return 0;
}
static void *prim_init(GsmL1_Prim_t *prim, GsmL1_PrimId_t id, struct femtol1_hdl *gl1)
{
prim->id = id;
/* for some reason the hLayer1 field is not always at the same position
* in the GsmL1_Prim_t, so we have to have this ugly case statement here... */
switch (id) {
case GsmL1_PrimId_MphInitReq:
//prim->u.mphInitReq.hLayer1 = gl1->hLayer1;
break;
case GsmL1_PrimId_MphCloseReq:
prim->u.mphCloseReq.hLayer1 = gl1->hLayer1;
break;
case GsmL1_PrimId_MphConnectReq:
prim->u.mphConnectReq.hLayer1 = gl1->hLayer1;
break;
case GsmL1_PrimId_MphDisconnectReq:
prim->u.mphDisconnectReq.hLayer1 = gl1->hLayer1;
break;
case GsmL1_PrimId_MphActivateReq:
prim->u.mphActivateReq.hLayer1 = gl1->hLayer1;
break;
case GsmL1_PrimId_MphDeactivateReq:
prim->u.mphDeactivateReq.hLayer1 = gl1->hLayer1;
break;
case GsmL1_PrimId_MphConfigReq:
prim->u.mphConfigReq.hLayer1 = gl1->hLayer1;
break;
case GsmL1_PrimId_MphMeasureReq:
prim->u.mphMeasureReq.hLayer1 = gl1->hLayer1;
break;
case GsmL1_PrimId_MphInitCnf:
case GsmL1_PrimId_MphCloseCnf:
case GsmL1_PrimId_MphConnectCnf:
case GsmL1_PrimId_MphDisconnectCnf:
case GsmL1_PrimId_MphActivateCnf:
case GsmL1_PrimId_MphDeactivateCnf:
case GsmL1_PrimId_MphConfigCnf:
case GsmL1_PrimId_MphMeasureCnf:
break;
case GsmL1_PrimId_MphTimeInd:
break;
case GsmL1_PrimId_MphSyncInd:
break;
case GsmL1_PrimId_PhEmptyFrameReq:
prim->u.phEmptyFrameReq.hLayer1 = gl1->hLayer1;
break;
case GsmL1_PrimId_PhDataReq:
prim->u.phDataReq.hLayer1 = gl1->hLayer1;
break;
case GsmL1_PrimId_PhConnectInd:
break;
case GsmL1_PrimId_PhReadyToSendInd:
break;
case GsmL1_PrimId_PhDataInd:
break;
case GsmL1_PrimId_PhRaInd:
break;
default:
LOGP(DL1IF, LOGL_ERROR, "unknown L1 primitive %u\n", id);
break;
}
return &prim->u;
}
/* connect PDTCH */
int l1if_connect_pdch(void *obj, uint8_t ts)
{
struct femtol1_hdl *fl1h = obj;
struct msgb *msg = l1p_msgb_alloc();
GsmL1_MphConnectReq_t *cr;
cr = prim_init(msgb_l1prim(msg), GsmL1_PrimId_MphConnectReq, fl1h);
cr->u8Tn = ts;
cr->logChComb = GsmL1_LogChComb_XIII;
return l1if_req_pdch(fl1h, msg);
}
int l1if_disconnect_pdch(void *obj, uint8_t ts)
{
return 0;
}
static int handle_ph_readytosend_ind(struct femtol1_hdl *fl1h,
GsmL1_PhReadyToSendInd_t *rts_ind)
{
struct gsm_time g_time;
struct gprs_rlcmac_bts *bts;
int rc = 0;
gsm_fn2gsmtime(&g_time, rts_ind->u32Fn);
DEBUGP(DL1IF, "Rx PH-RTS.ind %02u/%02u/%02u SAPI=%s\n",
g_time.t1, g_time.t2, g_time.t3,
get_value_string(femtobts_l1sapi_names, rts_ind->sapi));
bts = llist_first_entry_or_null(&the_pcu->bts_list, struct gprs_rlcmac_bts, list);
switch (rts_ind->sapi) {
case GsmL1_Sapi_Pdtch:
case GsmL1_Sapi_Pacch:
rc = pcu_rx_rts_req_pdtch(bts, fl1h->trx_no, rts_ind->u8Tn,
rts_ind->u32Fn, rts_ind->u8BlockNbr);
break;
case GsmL1_Sapi_Ptcch:
rc = pcu_rx_rts_req_ptcch(bts, fl1h->trx_no, rts_ind->u8Tn,
rts_ind->u32Fn, rts_ind->u8BlockNbr);
break;
default:
break;
}
return rc;
}
static void get_meas(struct pcu_l1_meas *meas, const GsmL1_MeasParam_t *l1_meas)
{
meas->rssi = (int8_t) (l1_meas->fRssi);
meas->have_rssi = 1;
meas->ber = (uint8_t) (l1_meas->fBer * 100);
meas->have_ber = 1;
meas->bto = (int16_t) (l1_meas->i16BurstTiming);
meas->have_bto = 1;
meas->link_qual = (int16_t) (l1_meas->fLinkQuality);
meas->have_link_qual = 1;
}
static int handle_ph_data_ind(struct femtol1_hdl *fl1h,
GsmL1_PhDataInd_t *data_ind, struct msgb *l1p_msg)
{
int rc = 0;
struct gprs_rlcmac_bts *bts;
struct gprs_rlcmac_pdch *pdch;
struct pcu_l1_meas meas = {0};
uint8_t *data;
uint8_t data_len;
DEBUGP(DL1IF, "(trx=%" PRIu8 ",ts=%u) FN=%u Rx PH-DATA.ind %s (hL2 %08x): %s\n",
fl1h->trx_no, data_ind->u8Tn, data_ind->u32Fn,
get_value_string(femtobts_l1sapi_names, data_ind->sapi),
data_ind->hLayer2,
osmo_hexdump(data_ind->msgUnitParam.u8Buffer,
data_ind->msgUnitParam.u8Size));
bts = llist_first_entry_or_null(&the_pcu->bts_list, struct gprs_rlcmac_bts, list);
pcu_rx_block_time(bts, data_ind->u16Arfcn, data_ind->u32Fn, data_ind->u8Tn);
get_meas(&meas, &data_ind->measParam);
bts_update_tbf_ta(bts, "PH-DATA", data_ind->u32Fn, fl1h->trx_no,
data_ind->u8Tn, sign_qta2ta(meas.bto), false);
switch (data_ind->sapi) {
case GsmL1_Sapi_Pdtch:
case GsmL1_Sapi_Pacch:
/* PDTCH / PACCH frame handling */
if (data_ind->msgUnitParam.u8Size != 0 &&
data_ind->msgUnitParam.u8Buffer[0] == GsmL1_PdtchPlType_Full) {
data = data_ind->msgUnitParam.u8Buffer + 1;
data_len = data_ind->msgUnitParam.u8Size - 1;
if (data_len == 0)
data = NULL;
} else {
data = NULL;
data_len = 0;
}
pdch = &bts->trx[fl1h->trx_no].pdch[data_ind->u8Tn];
pcu_rx_data_ind_pdtch(bts, pdch, data, data_len, data_ind->u32Fn, &meas);
break;
default:
LOGP(DL1IF, LOGL_NOTICE,
"(trx=%" PRIu8 ",ts=%u) FN=%u Rx PH-DATA.ind for unknown L1 SAPI %s\n",
fl1h->trx_no, data_ind->u8Tn, data_ind->u32Fn,
get_value_string(femtobts_l1sapi_names, data_ind->sapi));
rc = -1;
break;
}
if (rc < 0) {
gsmtap_send(fl1h->gsmtap, data_ind->u16Arfcn | GSMTAP_ARFCN_F_UPLINK,
data_ind->u8Tn, GSMTAP_CHANNEL_PACCH, 0,
data_ind->u32Fn, 0, 0, data_ind->msgUnitParam.u8Buffer+1,
data_ind->msgUnitParam.u8Size-1);
}
return rc;
}
#define MIN_QUAL_RACH 5.0f
static int handle_ph_ra_ind(struct femtol1_hdl *fl1h, GsmL1_PhRaInd_t *ra_ind)
{
struct gprs_rlcmac_bts *bts;
bts = llist_first_entry_or_null(&the_pcu->bts_list, struct gprs_rlcmac_bts, list);
if (ra_ind->measParam.fLinkQuality < MIN_QUAL_RACH)
return 0;
DEBUGP(DL1IF, "Rx PH-RA.ind");
switch (ra_ind->sapi) {
case GsmL1_Sapi_Pdtch:
case GsmL1_Sapi_Prach:
bts_update_tbf_ta(bts, "PH-RA", ra_ind->u32Fn, fl1h->trx_no, ra_ind->u8Tn,
qta2ta(ra_ind->measParam.i16BurstTiming), true);
break;
case GsmL1_Sapi_Ptcch:
pcu_rx_rach_ind_ptcch(bts, fl1h->trx_no, ra_ind->u8Tn, ra_ind->u32Fn,
ra_ind->measParam.i16BurstTiming);
break;
default:
LOGP(DL1IF, LOGL_NOTICE, "Rx PH-RA.ind for unknown L1 SAPI %s\n",
get_value_string(femtobts_l1sapi_names, ra_ind->sapi));
return -ENOTSUP;
}
return 0;
}
/* handle any random indication from the L1 */
int l1if_handle_l1prim(int wq, struct femtol1_hdl *fl1h, struct msgb *msg)
{
GsmL1_Prim_t *l1p = msgb_l1prim(msg);
int rc = 0;
LOGP(DL1IF, LOGL_DEBUG, "Rx L1 prim %s on queue %d\n",
get_value_string(femtobts_l1prim_names, l1p->id), wq);
switch (l1p->id) {
#if 0
case GsmL1_PrimId_MphTimeInd:
rc = handle_mph_time_ind(fl1h, &l1p->u.mphTimeInd);
break;
case GsmL1_PrimId_MphSyncInd:
break;
case GsmL1_PrimId_PhConnectInd:
break;
#endif
case GsmL1_PrimId_PhReadyToSendInd:
rc = handle_ph_readytosend_ind(fl1h, &l1p->u.phReadyToSendInd);
break;
case GsmL1_PrimId_PhDataInd:
rc = handle_ph_data_ind(fl1h, &l1p->u.phDataInd, msg);
break;
case GsmL1_PrimId_PhRaInd:
rc = handle_ph_ra_ind(fl1h, &l1p->u.phRaInd);
break;
default:
break;
}
msgb_free(msg);
return rc;
}
int l1if_handle_sysprim(struct femtol1_hdl *fl1h, struct msgb *msg)
{
return -ENOTSUP;
}
/* send packet data request to L1 */
int l1if_pdch_req(void *obj, uint8_t ts, int is_ptcch, uint32_t fn,
uint16_t arfcn, uint8_t block_nr, uint8_t *data, uint8_t len)
{
struct femtol1_hdl *fl1h = obj;
struct msgb *msg;
GsmL1_Prim_t *l1p;
GsmL1_PhDataReq_t *data_req;
GsmL1_MsgUnitParam_t *msu_param;
struct gsm_time g_time;
gsm_fn2gsmtime(&g_time, fn);
DEBUGP(DL1IF, "TX packet data %02u/%02u/%02u is_ptcch=%d ts=%d "
"block_nr=%d, arfcn=%d, len=%d\n", g_time.t1, g_time.t2,
g_time.t3, is_ptcch, ts, block_nr, arfcn, len);
msg = l1p_msgb_alloc();
l1p = msgb_l1prim(msg);
l1p->id = GsmL1_PrimId_PhDataReq;
data_req = &l1p->u.phDataReq;
data_req->hLayer1 = fl1h->hLayer1;
data_req->sapi = (is_ptcch) ? GsmL1_Sapi_Ptcch : GsmL1_Sapi_Pdtch;
data_req->subCh = GsmL1_SubCh_NA;
data_req->u8BlockNbr = block_nr;
data_req->u8Tn = ts;
data_req->u32Fn = fn;
msu_param = &data_req->msgUnitParam;
msu_param->u8Size = len;
memcpy(msu_param->u8Buffer, data, len);
/* transmit */
if (osmo_wqueue_enqueue(&fl1h->write_q[MQ_PDTCH_WRITE], msg) != 0) {
LOGP(DL1IF, LOGL_ERROR, "PDTCH queue full. dropping message.\n");
msgb_free(msg);
}
return 0;
}
void *l1if_open_trx(uint8_t bts_nr, uint8_t trx_no, uint32_t hlayer1, struct gsmtap_inst *gsmtap)
{
struct femtol1_hdl *fl1h;
int rc;
fl1h = talloc_zero(tall_pcu_ctx, struct femtol1_hdl);
if (!fl1h)
return NULL;
fl1h->hLayer1 = hlayer1;
fl1h->trx_no = trx_no;
fl1h->clk_cal = 0;
/* default clock source: OCXO */
fl1h->clk_src = SuperFemto_ClkSrcId_Ocxo;
rc = l1if_transport_open(MQ_PDTCH_WRITE, fl1h);
if (rc < 0) {
talloc_free(fl1h);
return NULL;
}
fl1h->gsmtap = gsmtap;
return fl1h;
}
int l1if_close_trx(void *obj)
{
struct femtol1_hdl *fl1h = obj;
if (fl1h)
l1if_transport_close(MQ_PDTCH_WRITE, fl1h);
talloc_free(fl1h);
return 0;
}
int l1if_init(void)
{
return 0;
}