#ifndef _GSM_DATA_H
#define _GSM_DATA_H
#include <stdint.h>
#include <sys/types.h>
#include <stdbool.h>
#include <osmocom/core/timer.h>
#include <osmocom/core/rate_ctr.h>
#include <osmocom/core/select.h>
#include <osmocom/core/socket.h>
#include <osmocom/core/stats.h>
#include <osmocom/core/stat_item.h>
#include <osmocom/gsm/bts_features.h>
#include <osmocom/gsm/protocol/gsm_08_08.h>
#include <osmocom/gsm/protocol/gsm_48_049.h>
#include <osmocom/gsm/gsm0808.h>
#include <osmocom/gsm/gsm48.h>
#include <osmocom/core/fsm.h>
#include <osmocom/core/tdef.h>
#include <osmocom/core/time_cc.h>
#include <osmocom/core/linuxlist.h>
#include <osmocom/core/hashtable.h>
#include <osmocom/core/linuxrbtree.h>
#include <osmocom/core/utils.h>
#include <osmocom/crypt/auth.h>
#include <osmocom/gsm/gsm48_rest_octets.h>
#include <osmocom/core/bitvec.h>
#include <osmocom/gsm/gsm_utils.h>
#include <osmocom/gsm/rxlev_stat.h>
#include <osmocom/gsm/protocol/gsm_08_58.h>
#include <osmocom/gsm/protocol/gsm_12_21.h>
#include <osmocom/gsm/protocol/gsm_03_41.h>
#include <osmocom/abis/e1_input.h>
#include <osmocom/bsc/bts_setup_ramp.h>
#include <osmocom/bsc/meas_rep.h>
#include <osmocom/bsc/acc.h>
#include <osmocom/bsc/osmux.h>
#include <osmocom/bsc/chan_counts.h>
#include <osmocom/bsc/lchan.h>
#define GSM_T3122_DEFAULT 10
#define GSM_T3105_DEFAULT 100UL
#define GSM_T3124_SDCCH 675UL
#define GSM_T3124_OTHER_CH 320UL
#define GSM_T3124_MAX GSM_T3124_SDCCH
/* Some guess for delta (see comment below) */
#define GSM_NY1_REQ_DELTA 1000UL
/* Requirements: We want Ny1 to be as low as possible, while respecting T3105 * Ny1 > T3124 + delta
* with delta = time between expiration of T3124 and receiving HANDOVER FAILURE by the serving BSC. */
#define GSM_NY1_DEFAULT ((unsigned long)((GSM_T3124_MAX + GSM_NY1_REQ_DELTA)/GSM_T3105_DEFAULT + 1))
#define SCCP_CONN_ID_UNSET 0xFFFFFFFF
#define SCCP_CONN_ID_MAX 0x00FFFFFE
struct mgcp_client_conf;
struct mgcp_client;
struct gsm0808_cell_id;
struct osmo_mgcpc_ep;
struct gsm_bts;
struct gsm_bts_trx;
/** annotations for msgb ownership */
#define __uses
#define OBSC_NM_W_ACK_CB(__msgb) (__msgb)->cb[3]
struct bsc_subscr;
struct gprs_ra_id;
struct handover;
struct osmo_sccp_instance;
struct smlc_config;
#define OBSC_LINKID_CB(__msgb) (__msgb)->cb[3]
/* Data Link Connection Identifier (DLCI) is defined in 3GPP TS 48.006, section 9.3.2.
* .... .SSS - SAPI value used on the radio link;
* CC.. .... - control channel identification:
* 00.. .... - indicates that the control channel is not further specified,
* 10.. .... - represents the FACCH or the SDCCH,
* 11.. .... - represents the SACCH,
* other values are reserved. */
#define RSL_LINK_ID2DLCI(link_id) \
((link_id & 0x40 ? 0xc0 : 0x80) | (link_id & 0x07))
/* RSL Link Identifier is defined in 3GPP TS 3GPP TS 48.058, section 9.3.2.
* .... .SSS - SAPI value used on the radio link;
* ...P P... - priority for SAPI0 messages;
* CC.. .... - control channel identification:
* 00.. .... - main signalling channel (FACCH or SDCCH),
* 01.. .... - SACCH,
* other values are reserved. */
#define DLCI2RSL_LINK_ID(dlci) \
((dlci & 0xc0) == 0xc0 ? 0x40 : 0x00) | (dlci & 0x07)
typedef uint16_t gsm_bts_nr_t; /* See (struct gsm_bts *)->nr */
/* BTS_NR_MAX = ((2 << ((sizeof(gsm_bts_nr_t) * 8) - 1)) - 1)
* This is needed as a constant so that the value can be stringified properly: */
#define BTS_NR_MAX 65535
#define BTS_NR_MAX_STR OSMO_STRINGIFY_VAL(BTS_NR_MAX)
#define BTS_NR_VTY_ARG_VAL "<0-" BTS_NR_MAX_STR ">"
/* 3-bit long values */
#define EARFCN_PRIO_INVALID 8
#define EARFCN_MEAS_BW_INVALID 8
/* 5-bit long values */
#define EARFCN_QRXLV_INVALID 32
#define EARFCN_THRESH_LOW_INVALID 32
struct msgb;
typedef int gsm_cbfn(unsigned int hooknum,
unsigned int event,
struct msgb *msg,
void *data, void *param);
struct gsm_classmark {
bool classmark1_set;
struct gsm48_classmark1 classmark1;
uint8_t classmark2_len;
uint8_t classmark2[3];
uint8_t classmark3_len;
uint8_t classmark3[14]; /* if cm3 gets extended by spec, it will be truncated */
};
enum subscr_sccp_state {
SUBSCR_SCCP_ST_NONE,
SUBSCR_SCCP_ST_WAIT_CONN_CONF,
SUBSCR_SCCP_ST_CONNECTED
};
enum assign_for {
ASSIGN_FOR_NONE,
ASSIGN_FOR_BSSMAP_REQ,
ASSIGN_FOR_CONGESTION_RESOLUTION,
ASSIGN_FOR_VTY,
};
extern const struct value_string assign_for_names[];
static inline const char *assign_for_name(enum assign_for assign_for)
{ return get_value_string(assign_for_names, assign_for); }
/* Information retrieved during an Assignment Request from the MSC. This is storage of the Assignment instructions
* parsed from the Assignment Request message, to pass on until the gscon and assignment FSMs have decided whether an
* Assignment is actually going to be carried out. Should remain unchanged after initial decoding. */
struct assignment_request {
enum assign_for assign_for;
bool aoip;
bool vgcs;
uint16_t msc_assigned_cic;
char msc_rtp_addr[INET6_ADDRSTRLEN];
uint16_t msc_rtp_port;
bool use_osmux;
uint8_t osmux_cid;
uint8_t rtp_extensions;
/* Rate/codec setting in preference order (need at least 1 !) */
int n_ch_mode_rate;
struct channel_mode_and_rate ch_mode_rate_list[3];
/* An assignment request usually requests to assign any available lchan, to match above requirements. This may
* also choose to just keep the current lchan and merely modify it as appropriate. In these cases, keep
* target_lchan == NULL.
* In some situations, an assignment to a specific target lchan is requested (congestion resolution, VAMOS
* multiplexing, user request via VTY). In these situations, select a target lchan beforehand and point
* target_lchan to it. */
struct gsm_lchan *target_lchan;
/* The TSC Set to use if 'use' is true, otherwise automatically determine the TSC Set value to use. Valid range
* is 1 to 4, as described in 3GPP TS 45.002. */
struct optional_val tsc_set;
/* The TSC to use if 'use' is true, otherwise automatically determine the TSC value to use. Valid range is 0 to
* 7, as described in 3GPP TS 45.002. */
struct optional_val tsc;
/* The "speech / data indicator" from 3GPP TS 48.008 § 3.2.2.11 Channel Type (speech/data/signalling). */
enum gsm0808_chan_indicator ch_indctr;
};
/* State of an ongoing Assignment, while the assignment_fsm is still busy. This serves as state separation to keep the
* currently used lchan and gscon unmodified until the outcome of an Assignment is known. If the Assignment fails, this
* state is simply discarded, and the gscon carries on with the original lchan remaining unchanged. */
struct assignment_fsm_data {
/* The request as made by the caller, see GSCON_EV_ASSIGNMENT_START or reassignment_request_to_lchan() /
* reassignment_request_to_chan_type().
* conn->assignment.req is treated immutable: remains unchanged throughout the Assignment. The mutable fields
* are below: choices and automatic adjustments are stored in conn->assignment.*, not conn->assignment.req.
*/
struct assignment_request req;
enum gsm0808_chan_indicator ch_indctr;
struct channel_mode_and_rate selected_ch_mode_rate;
struct osmo_fsm_inst *fi;
struct gsm_lchan *new_lchan;
/* Whether this assignment triggered creation of the MGW endpoint: if the assignment
* fails, we will release that again as soon as possible. (If false, the endpoint already
* existed before or isn't needed at all.)*/
struct osmo_mgcpc_ep_ci *created_ci_for_msc;
enum gsm0808_cause failure_cause;
enum gsm48_rr_cause rr_cause;
bool result_rate_ctr_done;
};
enum hodec_id {
HODEC_NONE,
HODEC1 = 1,
HODEC2 = 2,
HODEC_USER,
HODEC_REMOTE,
};
/* For example, to count specific kinds of ongoing handovers, it is useful to be able to OR-combine
* scopes. */
enum handover_scope {
HO_NO_HANDOVER = 0,
HO_INTRA_CELL = 0x1,
HO_INTRA_BSC = 0x2,
HO_INTER_BSC_OUT = 0x4,
HO_INTER_BSC_IN = 0x8,
HO_SCOPE_ALL = 0xffff,
};
extern const struct value_string handover_scope_names[];
inline static const char *handover_scope_name(enum handover_scope val)
{ return get_value_string(handover_scope_names, val); }
/* Cell ARFCN + BSIC. */
struct cell_ab {
uint16_t arfcn;
uint8_t bsic;
};
struct handover_out_req {
enum hodec_id from_hodec_id;
struct gsm_lchan *old_lchan;
struct cell_ab target_cell_ab;
enum gsm_chan_t new_lchan_type; /*< leave GSM_LCHAN_NONE to use same as old_lchan */
};
struct handover_in_req {
struct gsm0808_channel_type ct;
struct gsm0808_speech_codec_list scl;
struct gsm0808_encrypt_info ei;
/* The same information as in 'ei' but as the handy bitmask as on the wire. */
uint8_t ei_as_bitmask;
bool kc128_present;
uint8_t kc128[16];
struct gsm_classmark classmark;
/* chosen_encr_alg reflects the encoded value as in RSL_ENC_ALG_A5(a5_numer):
* chosen_encr_alg == 1 means A5/0 i.e. no encryption, chosen_encr_alg == 4 means A5/3.
* chosen_encr_alg == 0 means no such IE was present. */
uint8_t chosen_encr_alg;
struct gsm0808_cell_id cell_id_serving;
char cell_id_serving_name[64];
struct gsm0808_cell_id cell_id_target;
char cell_id_target_name[64];
uint16_t msc_assigned_cic;
char msc_assigned_rtp_addr[INET6_ADDRSTRLEN];
uint16_t msc_assigned_rtp_port;
bool last_eutran_plmn_valid;
struct osmo_plmn_id last_eutran_plmn;
};
struct handover {
struct osmo_fsm_inst *fi;
enum hodec_id from_hodec_id;
enum handover_scope scope;
enum gsm_chan_t new_lchan_type;
struct cell_ab target_cell_ab;
/* For inter-BSC handover, this may reflect more than one Cell ID. Must also be set for intra-BSC handover,
* because it is used as key for penalty timers (e.g. in handover decision 2). */
struct gsm0808_cell_id_list2 target_cell_ids;
uint8_t ho_ref;
struct gsm_bts *new_bts;
struct gsm_lchan *new_lchan;
bool async;
struct handover_in_req inter_bsc_in;
struct osmo_mgcpc_ep_ci *created_ci_for_msc;
};
struct gsm_subscriber_connection;
struct bscp_sccp_conn_node {
/* entry in (struct bsc_sccp_inst)->connections */
struct rb_node node;
/* Sigtran connection ID:
* if set: Range (0..SCCP_CONN_ID_MAX) (24 bit)
* if unset: SCCP_CONN_ID_UNSET (-1) if unset */
uint32_t conn_id;
/* backpointer where this sccp conn belongs to: */
struct gsm_subscriber_connection *gscon;
};
void bscp_sccp_conn_node_init(struct bscp_sccp_conn_node *sccp_conn, struct gsm_subscriber_connection *gscon);
/* active radio connection of a mobile subscriber */
struct gsm_subscriber_connection {
/* global linked list of subscriber_connections */
struct llist_head entry;
/* FSM instance to control the subscriber connection state (RTP, A) */
struct osmo_fsm_inst *fi;
/* libbsc subscriber information (if available) */
struct bsc_subscr *bsub;
/* back pointers */
struct gsm_network *network;
/* the primary / currently active lchan to the BTS/subscriber. During Assignment and Handover, separate lchans
* are kept in the .assignment or .handover sub-structs, respectively, so that this lchan remains unaffected
* until Assignment or Handover have actually succeeded. */
struct gsm_lchan *lchan;
/* Only valid during an ongoing Assignment; might be overwritten at any time by a failed Assignment attempt.
* Once an Assignment was successful, all relevant state must be copied out of this sub-struct. */
struct assignment_fsm_data assignment;
/* handover information, if a handover is pending for this conn. Valid only during an ongoing Handover
* operation. If a Handover was successful, all relevant state must be copied out of this sub-struct. */
struct handover ho;
/* Queue DTAP messages during handover/assignment (msgb_enqueue()/msgb_dequeue())*/
struct llist_head dtap_queue;
unsigned int dtap_queue_len;
struct {
int failures;
struct llist_head penalty_timers;
} hodec2;
/* "Codec List (MSC Preferred)" as received by the BSSAP Assignment Request. 3GPP 48.008
* 3.2.2.103 says:
* The "Codec List (MSC Preferred)" shall not include codecs
* that are not supported by the MS.
* i.e. by heeding the "Codec list (MSC Preferred)", we inherently heed the MS bearer
* capabilities, which the MSC is required to translate into the codec list. */
struct gsm0808_speech_codec_list codec_list;
/* flag to prevent multiple simultaneous ciphering commands */
int ciphering_handled;
/* SCCP connection associated with this subscriber_connection */
struct {
/* SCCP connection related */
struct bsc_msc_data *msc;
enum subscr_sccp_state state;
struct bscp_sccp_conn_node conn;
} sccp;
/* for audio handling */
struct {
uint16_t msc_assigned_cic;
/* RTP address where the MSC expects us to send the RTP stream coming from the BTS. */
char msc_assigned_rtp_addr[INET6_ADDRSTRLEN];
uint16_t msc_assigned_rtp_port;
uint8_t rtp_extensions;
/* The endpoint at the MGW used to join both BTS and MSC side connections, e.g.
* "rtpbridge/23@mgw". */
struct osmo_mgcpc_ep *mgw_endpoint;
/* The connection identifier of the osmo_mgcpc_ep used to transceive RTP towards the MSC.
* (The BTS side CI is handled by struct gsm_lchan and the lchan_fsm.) */
struct osmo_mgcpc_ep_ci *mgw_endpoint_ci_msc;
} user_plane;
/* LCLS (local call, local switch) related state */
struct {
uint8_t global_call_ref[15];
uint8_t global_call_ref_len; /* length of global_call_ref */
enum gsm0808_lcls_config config; /* TS 48.008 3.2.2.116 */
enum gsm0808_lcls_control control; /* TS 48.008 3.2.2.117 */
/* LCLS FSM */
struct osmo_fsm_inst *fi;
/* pointer to "other" connection, if Call Leg Relocation was successful */
struct gsm_subscriber_connection *other;
} lcls;
/* MS Power Class, TS 05.05 sec 4.1.1 "Mobile station". 0 means unset. */
uint8_t ms_power_class:3;
bool rx_clear_command;
/* Location Services handling for this subscriber */
struct {
/* FSM to handle Perform Location Request coming in from the MSC via A interface,
* and receive BSSMAP-LE responses from the SMLC. */
struct lcs_loc_req *loc_req;
/* FSM to handle BSSLAP requests coming in from the SMLC via Lb interface.
* BSSLAP APDU are encapsulated in BSSMAP-LE Connection Oriented Information messages. */
struct lcs_bsslap *bsslap;
/* Lb interface to the SMLC: BSSMAP-LE/SCCP connection associated with this subscriber */
struct {
enum subscr_sccp_state state;
struct bscp_sccp_conn_node conn;
} lb;
} lcs;
struct gsm48_classmark3 cm3;
bool cm3_valid;
struct {
bool allowed; /* Is fast return to LTE allowed once the conn is released? */
bool last_eutran_plmn_valid; /* Is information stored in field below available? */
struct osmo_plmn_id last_eutran_plmn;
} fast_return;
enum gsm0808_cause clear_cause;
/* VGCS/VBS "call controling" connection */
struct {
/* Features supported by MSC/BSC */
bool ff_present;
struct gsm0808_vgcs_feature_flags ff;
/* Group Call Reference IE */
struct gsm0808_group_callref gc_ie;
enum gsm0808_service_flag sf;
uint32_t call_ref;
/* Call (BSC) FSM */
struct osmo_fsm_inst *fi;
/* Current talker */
struct gsm_subscriber_connection *talker;
/* L3 info of link establihment (Talker established) */
struct llist_head l3_queue;
/* Flag and cause (Talker released) */
bool talker_rel;
uint8_t talker_cause;
/* Flag that states acknowledgement of the talker by MSC */
bool msc_ack;
/* List of VGCS/VBS "resource controling" connections */
struct llist_head chan_list;
} vgcs_call;
/* VGCS/VBS "resource controling" connection */
struct {
/* List entry of chan_list of "call controling" connection */
struct llist_head list;
/* Group Call Reference IE */
struct gsm0808_group_callref gc_ie;
enum gsm0808_service_flag sf;
uint32_t call_ref;
/* Channel type IE */
struct gsm0808_channel_type ct;
/* Channel mode and rate */
struct channel_mode_and_rate ch_mode_rate;
/* Cell Identifier IE */
struct gsm0808_cell_id ci;
char ci_str[16];
/* Assignment Requirements IE */
enum gsm0808_assignment_requirement ar;
/* Call Identifier IE */
uint32_t call_id;
/* Pointer to VGCS/VBS "call controling" gsconn */
struct gsm_subscriber_connection *call;
/* Cell (BTS) FSM */
struct osmo_fsm_inst *fi;
/* lchan to be assigned */
struct gsm_lchan *new_lchan;
/* MGW peer */
char msc_rtp_addr[INET6_ADDRSTRLEN];
uint16_t msc_rtp_port;
} vgcs_chan;
};
/* 16 is the max. number of SI2quater messages according to 3GPP TS 44.018 Table 10.5.2.33b.1:
4-bit index is used (2#1111 = 10#15) */
#define SI2Q_MAX_NUM 16
/* length in bits (for single SI2quater message) */
#define SI2Q_MAX_LEN 160
#define SI2Q_MIN_LEN 18
struct osmo_bsc_data;
struct osmo_bsc_sccp_con;
/* lchans 0..3 are SDCCH in combined channel configuration,
use 4 as magic number for BCCH hack - see osmo-bts-../oml.c:opstart_compl() */
#define CCCH_LCHAN 4
#define TS_MAX_LCHAN 8
#define HARDCODED_ARFCN 123
#define HARDCODED_BSIC 0x3f /* NCC = 7 / BCC = 7 */
/* for multi-drop config */
#define HARDCODED_BTS0_TS 1
#define HARDCODED_BTS1_TS 6
#define HARDCODED_BTS2_TS 11
#define MAX_VERSION_LENGTH 64
enum gsm_hooks {
GSM_HOOK_NM_SWLOAD,
GSM_HOOK_RR_PAGING,
GSM_HOOK_RR_SECURITY,
};
enum bts_gprs_mode {
BTS_GPRS_NONE = 0,
BTS_GPRS_GPRS = 1,
BTS_GPRS_EGPRS = 2,
};
struct gsm_lchan;
struct osmo_rtp_socket;
struct rtp_socket;
/* Network Management State */
struct gsm_nm_state {
uint8_t operational;
uint8_t administrative;
uint8_t availability;
};
struct gsm_abis_mo {
uint8_t obj_class;
uint8_t procedure_pending;
struct abis_om_obj_inst obj_inst;
const char *name;
struct gsm_nm_state nm_state;
struct gsm_bts *bts;
struct osmo_fsm_inst *fi;
bool sw_act_rep_received;
bool opstart_sent;
bool adm_unlock_sent;
bool get_attr_sent;
bool get_attr_rep_received;
bool set_attr_sent;
bool set_attr_ack_received;
bool rsl_connect_sent;
bool rsl_connect_ack_received;
bool force_rf_lock;
/* vendor specific fields below */
union {
struct {
uint8_t obj_version;
} ipaccess;
};
};
/* Ericsson OM2000 Managed Object */
struct abis_om2k_mo {
uint8_t class;
uint8_t bts;
uint8_t assoc_so;
uint8_t inst;
} __attribute__ ((packed));
struct om2k_mo {
struct abis_om2k_mo addr;
struct osmo_fsm_inst *fsm;
};
#define A38_XOR_MIN_KEY_LEN 12
#define A38_XOR_MAX_KEY_LEN 16
#define A38_COMP128_KEY_LEN 16
/* There are these representations of A5/n:
*
* - (uint8_t)(1<<n), either as a single bit, or combined as a list of
* permitted algorithms.
* A5/0 == 0x01, A5/3 == 0x08, none = 0
*
* - n+1, used on the RSL wire.
* A5/0 == 1, A5/3 == 4, none = 0
*
* - n, used for human interaction and returned by select_best_cipher().
* A5/0 == 0, A5/3 == 3, none <= -1
*
* These macros convert from n to the other representations:
*/
#define ALG_A5_NR_TO_RSL(A5_N) ((int)(A5_N) >= 0 ? (A5_N)+1 : 0)
#define ALG_A5_NR_TO_BSSAP(A5_N) ALG_A5_NR_TO_RSL(A5_N)
#define ALG_A5_NR_TO_PERM_ALG_BITS(A5_N) ((int)(A5_N) >= 0 ? 1<<(A5_N) : 0)
/* Up to 16 SI2quater are multiplexed; each fits 3 EARFCNS, so the practical maximum is 3*16.
* The real maximum that fits in a total of 16 SI2quater rest octets also depends on the bits left by other SI2quater
* rest octets elements, so to really fit 48 EARFCNs most other SI2quater elements need to be omitted. */
#define MAX_EARFCN_LIST (3*16)
/* BTS ONLY */
#define MAX_NUM_UL_MEAS 104
#define LC_UL_M_F_L1_VALID (1 << 0)
#define LC_UL_M_F_RES_VALID (1 << 1)
struct bts_ul_meas {
/* BER in units of 0.01%: 10.000 == 100% ber, 0 == 0% ber */
uint16_t ber10k;
/* timing advance offset (in quarter bits) */
int16_t ta_offs_qbits;
/* C/I ratio in dB */
float c_i;
/* flags */
uint8_t is_sub:1;
/* RSSI in dBm * -1 */
uint8_t inv_rssi;
};
struct bts_codec_conf {
uint8_t hr;
uint8_t efr;
uint8_t amr;
};
struct amr_mode {
uint8_t mode;
uint8_t threshold;
uint8_t hysteresis;
};
struct amr_multirate_conf {
uint8_t gsm48_ie[2];
struct amr_mode ms_mode[4];
struct amr_mode bts_mode[4];
uint8_t num_modes;
};
/* /BTS ONLY */
/* Iterate at most N lchans of the given timeslot.
* usage:
* struct gsm_lchan *lchan;
* struct gsm_bts_trx_ts *ts = get_some_timeslot();
* ts_for_n_lchans(lchan, ts, 3) {
* LOG_LCHAN(lchan, LOGL_DEBUG, "hello world\n");
* }
*/
#define ts_for_n_lchans(lchan, ts, N) \
for (lchan = (ts)->lchan; \
((lchan - (ts)->lchan) < ARRAY_SIZE((ts)->lchan)) \
&& lchan->fi \
&& ((lchan - (ts)->lchan) < (N)); \
lchan++)
#define INTERF_DBM_UNKNOWN 0
#define INTERF_BAND_UNKNOWN 0xff
/* One Timeslot in a TRX */
struct gsm_bts_trx_ts {
struct gsm_bts_trx *trx;
/* number of this timeslot at the TRX */
uint8_t nr;
struct osmo_fsm_inst *fi;
char *last_errmsg;
/* vty phys_chan_config setting, not necessarily in effect in case it was changed in the telnet
* vty after OML activation. Gets written on vty 'write file'. */
enum gsm_phys_chan_config pchan_from_config;
/* When the timeslot OML is established, pchan_from_config is copied here. This is the pchan
* currently in effect; for dynamic ts, this is the dyn kind (GSM_PCHAN_OSMO_DYN or
* GSM_PCHAN_TCH_F_PDCH) and does not show the pchan type currently active. */
enum gsm_phys_chan_config pchan_on_init;
/* This is the *actual* pchan type currently active. For dynamic timeslots, this reflects either
* GSM_PCHAN_NONE or one of the standard GSM_PCHAN_TCH_F, GSM_PCHAN_TCH_H, GSM_PCHAN_PDCH.
* Callers can use this transparently without being aware of dyn ts. */
enum gsm_phys_chan_config pchan_is;
/* After a PDCH ACT NACK, we shall not infinitely loop to try and ACT again.
* Also marks a timeslot where PDCH was deactivated by VTY. This is cleared whenever a timeslot
* enters IN_USE state, i.e. after each TCH use we try to PDCH ACT once again. */
bool pdch_act_allowed;
/* Whether TS_EV_OML_READY was received */
bool is_oml_ready;
/* Whether TS_EV_RSL_READY was received */
bool is_rsl_ready;
struct gsm_abis_mo mo;
uint8_t nm_chan_comb;
int tsc; /* -1 == use BTS TSC */
struct {
/* Parameters below are configured by VTY */
int enabled;
uint8_t maio;
uint8_t hsn;
struct bitvec arfcns;
uint8_t arfcns_data[1024/8];
/* This is the pre-computed MA for channel assignments */
struct bitvec ma;
uint8_t ma_len; /* part of ma_data that is used */
uint8_t ma_data[8]; /* 10.5.2.21: max 8 bytes value part */
} hopping;
/* To which E1 subslot are we connected */
struct gsm_e1_subslot e1_link;
union {
struct {
struct om2k_mo om2k_mo;
} rbs2000;
};
/* Maximum BCCH carrier power reduction */
uint8_t c0_max_power_red_db;
/* Maximum number of lchans that could become usable, for example by switching a dynamic timeslot's type or by
* enabling VAMOS secondary lchans. This does include the maximum count of possible VAMOS secondary lchans. */
uint8_t max_lchans_possible;
/* Currently usable lchans, according to the current pchan mode (for dynamic timeslots, this may change).
* Does not include count of secondary VAMOS lchans. */
uint8_t max_primary_lchans;
struct gsm_lchan lchan[TS_MAX_LCHAN];
struct chan_counts chan_counts;
};
struct gsm_envabtse {
struct gsm_abis_mo mo;
};
enum gprs_rlc_par {
RLC_T3142,
RLC_T3169,
RLC_T3191,
RLC_T3193,
RLC_T3195,
RLC_N3101,
RLC_N3103,
RLC_N3105,
CV_COUNTDOWN,
T_DL_TBF_EXT, /* ms */
T_UL_TBF_EXT, /* ms */
_NUM_RLC_PAR
};
enum gprs_cs {
GPRS_CS1,
GPRS_CS2,
GPRS_CS3,
GPRS_CS4,
GPRS_MCS1,
GPRS_MCS2,
GPRS_MCS3,
GPRS_MCS4,
GPRS_MCS5,
GPRS_MCS6,
GPRS_MCS7,
GPRS_MCS8,
GPRS_MCS9,
_NUM_GRPS_CS
};
struct gprs_rlc_cfg {
uint16_t parameter[_NUM_RLC_PAR];
struct {
uint16_t repeat_time; /* ms */
uint8_t repeat_count;
} paging;
uint32_t cs_mask; /* bitmask of gprs_cs */
uint8_t initial_cs;
uint8_t initial_mcs;
};
enum neigh_list_manual_mode {
NL_MODE_AUTOMATIC = 0,
NL_MODE_MANUAL = 1,
NL_MODE_MANUAL_SI5SEP = 2, /* SI2 and SI5 have separate neighbor lists */
};
enum bts_loc_fix {
BTS_LOC_FIX_INVALID = 0,
BTS_LOC_FIX_2D = 1,
BTS_LOC_FIX_3D = 2,
};
extern const struct value_string bts_loc_fix_names[];
struct bts_location {
struct llist_head list;
time_t tstamp;
enum bts_loc_fix valid;
double lat;
double lon;
double height;
};
/* Channel load counter */
struct load_counter {
unsigned int total;
unsigned int used;
};
/* A single Page of a SMSCB message */
struct bts_smscb_page {
/* SMSCB message we're part of */
struct bts_smscb_message *msg;
/* Page Number within message (1 to 15) */
uint8_t nr;
/* number of valid blocks in data (up to 4) */
uint8_t num_blocks;
/* up to four blocks of 22 bytes each */
uint8_t data[88];
};
/* A SMSCB message (received from CBSP) */
struct bts_smscb_message {
/* entry in bts_smscb_chan_state.messages */
struct llist_head list;
struct {
/* input data from CBSP (CBC) side */
uint16_t msg_id;
uint16_t serial_nr;
enum cbsp_category category;
uint16_t rep_period;
uint16_t num_bcast_req;
uint8_t dcs;
} input;
/* how often have all pages of this message been broadcast? */
uint32_t bcast_count;
/* actual page data of this message */
uint8_t num_pages; /* up to 15 */
struct bts_smscb_page page[15];
};
/* per-channel (basic/extended) CBCH state for a single BTS */
struct bts_smscb_chan_state {
/* back-pointer to BTS */
struct gsm_bts *bts;
/* list of bts_smscb_message */
struct llist_head messages;
/* scheduling array; pointer of SMSCB pages */
struct bts_smscb_page **sched_arr;
size_t sched_arr_size;
/* index of the next to be transmitted page into the scheduler array */
size_t next_idx;
/* number of messages we have to pause due to overflow */
uint8_t overflow;
};
#define ETWS_PRIM_NOTIF_SIZE 56
#define ETWS_SEC_INFO_SIZE (ETWS_PRIM_NOTIF_SIZE - sizeof(struct gsm341_etws_message))
/* per-BTS ETWS/PWS (Emergency) state */
struct bts_etws_state {
/* are we actively broadcasting emergency in this cell? */
bool active;
/* input parameters received from CBC */
struct {
uint16_t msg_id;
uint16_t serial_nr;
uint16_t warn_type;
uint8_t sec_info[ETWS_SEC_INFO_SIZE];
} input;
/* encoded ETWS primary notification */
uint8_t primary[ETWS_PRIM_NOTIF_SIZE];
/* timer running for the duration of the ETWS Primary Notification (PN) */
struct osmo_timer_list timer;
};
struct bts_oml_fail_rep {
struct llist_head list;
time_t time;
struct msgb *mb;
};
/* One rejected BTS */
struct gsm_bts_rejected {
/* list header in net->bts_rejected */
struct llist_head list;
uint16_t site_id;
uint16_t bts_id;
char ip[INET6_ADDRSTRLEN];
time_t time;
};
extern struct osmo_tdef_group bsc_tdef_group[];
struct gsm_network *gsm_network_init(void *ctx);
struct gsm_bts *gsm_bts_num(const struct gsm_network *net, gsm_bts_nr_t num);
struct gsm_bts *gsm_bts_by_cell_id(const struct gsm_network *net,
const struct gsm0808_cell_id *cell_id,
int match_idx);
extern const struct value_string gsm_chreq_descs[];
extern const struct value_string gsm_pchant_names[];
extern const struct value_string gsm_pchant_descs[];
const char *gsm_pchan_name(enum gsm_phys_chan_config c);
enum gsm_phys_chan_config gsm_pchan_parse(const char *name);
const char *gsm_chreq_name(enum gsm_chreq_reason_t c);
char *gsm_ts_name(const struct gsm_bts_trx_ts *ts);
char *gsm_ts_and_pchan_name(const struct gsm_bts_trx_ts *ts);
void gsm_abis_mo_reset(struct gsm_abis_mo *mo);
void gsm_mo_init(struct gsm_abis_mo *mo, struct gsm_bts *bts,
uint8_t obj_class, uint8_t p1, uint8_t p2, uint8_t p3);
struct gsm_abis_mo *gsm_objclass2mo(struct gsm_bts *bts, uint8_t obj_class,
const struct abis_om_obj_inst *obj_inst);
struct gsm_nm_state *
gsm_objclass2nmstate(struct gsm_bts *bts, uint8_t obj_class,
const struct abis_om_obj_inst *obj_inst);
void *
gsm_objclass2obj(struct gsm_bts *bts, uint8_t obj_class,
const struct abis_om_obj_inst *obj_inst);
int gsm_pchan2chan_nr(enum gsm_phys_chan_config pchan,
uint8_t ts_nr, uint8_t lchan_nr, bool vamos_is_secondary);
int gsm_lchan2chan_nr(const struct gsm_lchan *lchan, bool allow_osmo_cbits);
int gsm_lchan_and_pchan2chan_nr(const struct gsm_lchan *lchan, enum gsm_phys_chan_config pchan, bool allow_osmo_cbits);
int gsm48_lchan2chan_desc(struct gsm48_chan_desc *cd,
const struct gsm_lchan *lchan,
uint8_t tsc, bool allow_osmo_cbits);
int gsm48_lchan_and_pchan2chan_desc(struct gsm48_chan_desc *cd,
const struct gsm_lchan *lchan,
enum gsm_phys_chan_config pchan,
uint8_t tsc, bool allow_osmo_cbits);
uint8_t gsm_ts_tsc(const struct gsm_bts_trx_ts *ts);
uint8_t pchan_subslots(enum gsm_phys_chan_config pchan);
uint8_t pchan_subslots_vamos(enum gsm_phys_chan_config pchan);
bool ts_is_tch(struct gsm_bts_trx_ts *ts);
struct gsm_bts *conn_get_bts(struct gsm_subscriber_connection *conn);
void conn_update_ms_power_class(struct gsm_subscriber_connection *conn, uint8_t power_class);
struct gsm_tz {
int override; /* if 0, use system's time zone instead. */
int hr; /* hour */
int mn; /* minute */
int dst; /* daylight savings */
};
struct all_allocated {
struct osmo_time_cc sdcch;
struct osmo_time_cc static_sdcch;
struct osmo_time_cc tch;
struct osmo_time_cc static_tch;
};
struct bsc_sccp_inst {
struct osmo_sccp_instance *sccp; /* backpointer */
/* rbtree root of 'struct bscp_sccp_conn_node' in this instance, ordered by conn_id */
struct rb_root connections;
uint32_t next_id; /* next id to allocate */
};
struct bsc_sccp_inst *bsc_sccp_inst_alloc(void *ctx);
uint32_t bsc_sccp_inst_next_conn_id(struct bsc_sccp_inst *bsc_sccp);
int bsc_sccp_inst_register_gscon(struct bsc_sccp_inst *bsc_sccp, struct bscp_sccp_conn_node *sccp_conn);
void bsc_sccp_inst_unregister_gscon(struct bsc_sccp_inst *bsc_sccp, struct bscp_sccp_conn_node *sccp_conn);
struct gsm_subscriber_connection *bsc_sccp_inst_get_gscon_by_conn_id(const struct bsc_sccp_inst *bsc_sccp, uint32_t conn_id);
struct gsm_network {
struct osmo_plmn_id plmn;
/* bit-mask of permitted encryption algorithms. LSB=A5/0, MSB=A5/7 */
uint8_t a5_encryption_mask;
int neci;
struct handover_cfg *ho;
struct {
unsigned int congestion_check_interval_s;
struct osmo_timer_list congestion_check_timer;
} hodec2;
/* structures for keeping rate counters and gauge stats */
struct rate_ctr_group *bsc_ctrs;
struct osmo_stat_item_group *bsc_statg;
gsm_bts_nr_t num_bts;
struct llist_head bts_list;
struct llist_head bts_rejected;
DECLARE_HASHTABLE(bts_by_nr, 10);
DECLARE_HASHTABLE(bts_by_lac, 10);
DECLARE_HASHTABLE(bts_by_lac_ci, 10);
#define LAC_CI_HASHTABLE_KEY(lac, ci) ((((uint32_t)(ci)) << sizeof(lac)) | (uint32_t)(lac))
DECLARE_HASHTABLE(bts_by_ci, 10);
/* BTS-based counters when we can't find the actual BTS
* e.g. when conn->lchan is NULL */
struct rate_ctr_group *bts_unknown_ctrs;
struct osmo_stat_item_group *bts_unknown_statg;
/* see gsm_network_T_defs */
struct osmo_tdef *T_defs;
enum gsm_chan_t ctype_by_chreq[_NUM_CHREQ_T];
/* Use a TCH for handling requests of type paging any */
int pag_any_tch;
/* msc configuration */
struct llist_head mscs;
unsigned int mscs_round_robin_next_nr;
/* Emergency calls potentially select a different set of MSCs, so to not mess up the normal round-robin
* behavior, emergency calls need a separate round-robin counter. */
unsigned int mscs_round_robin_next_emerg_nr;
/* rf ctl related bits */
int mid_call_timeout;
char *rf_ctrl_name;
struct osmo_bsc_rf *rf_ctrl;
int auto_off_timeout;
struct bsc_cbc_link *cbc;
/* control interface */
struct ctrl_handle *ctrl;
/* Allow or disallow TCH/F on dynamic TCH/F_TCH/H_SDCCH8_PDCH; OS#1778 */
bool dyn_ts_allow_tch_f;
/* all active subscriber connections. */
struct llist_head subscr_conns;
/* if override is nonzero, this timezone data is used for all MM
* contexts. */
/* TODO: in OsmoNITB, tz-override used to be BTS-specific. To enable
* BTS|RNC specific timezone overrides for multi-tz networks in
* OsmoMSC, this should be tied to the location area code (LAC). */
struct gsm_tz tz;
/* Keeps track of struct bsc_subcr. */
struct bsc_subscr_store *bsc_subscribers;
/* Timer for periodic channel load measurements to maintain each BTS's T3122. */
struct osmo_timer_list t3122_chan_load_timer;
/* Timer to write each BTS's uptime counter state to the stats system. */
struct osmo_timer_list bts_store_uptime_timer;
/* Timer to write each BTS's set of lchan duration counters' state to the stats system. */
struct osmo_timer_list bts_store_lchan_durations_timer;
struct {
/* Single MGCP client configuration under msc node (also required for
* MGCP proxy when sccp-lite is used) */
struct mgcp_client_conf *conf;
/* MGW pool, also includes the single MGCP client as fallback if no
* pool is configured. */
struct mgcp_client_pool *mgw_pool;
/* Timer definitions, the same for all MGW pool members */
struct osmo_tdef *tdefs;
} mgw;
/* Remote BSS resolution sevice (CTRL iface) */
struct {
char *addr;
uint16_t port;
struct ctrl_handle *handle;
} neigh_ctrl;
/* Don't refuse to start with mutually exclusive codec settings */
bool allow_unusable_timeslots;
struct bts_setup_ramp_net bts_setup_ramp;
uint8_t nri_bitlen;
struct osmo_nri_ranges *null_nri_ranges;
struct smlc_config *smlc;
struct chan_counts chan_counts;
struct all_allocated all_allocated;
/* PCU socket state */
char *pcu_sock_path;
unsigned int pcu_sock_wqueue_len_max;
struct pcu_sock_state *pcu_state;
};
struct gsm_audio_support {
uint8_t hr : 1,
ver : 7;
};
int gsm_audio_support_cmp(const struct gsm_audio_support *a, const struct gsm_audio_support *b);
extern void talloc_ctx_init(void *ctx_root);
enum gsm_bts_type parse_btstype(const char *arg);
const char *btstype2str(enum gsm_bts_type type);
extern void *tall_bsc_ctx;
extern struct gsm_network *bsc_gsmnet;
enum bts_gprs_mode bts_gprs_mode_parse(const char *arg, int *valid);
const char *bts_gprs_mode_name(enum bts_gprs_mode mode);
void gsm48_ra_id_by_bts(struct gsm48_ra_id *buf, struct gsm_bts *bts);
void gprs_ra_id_by_bts(struct gprs_ra_id *raid, struct gsm_bts *bts);
struct gsm_subscriber_connection *bsc_subscr_con_allocate(struct gsm_network *network);
struct gsm_bts *gsm_bts_alloc_register(struct gsm_network *net, enum gsm_bts_type type, uint8_t bsic);
struct gsm_bts *bsc_bts_alloc_register(struct gsm_network *net, enum gsm_bts_type type, uint8_t bsic);
void set_ts_e1link(struct gsm_bts_trx_ts *ts, uint8_t e1_nr,
uint8_t e1_ts, uint8_t e1_ts_ss);
/* generic E1 line operations for all ISDN-based BTS. */
extern struct e1inp_line_ops bts_isdn_e1inp_line_ops;
bool ts_is_usable(const struct gsm_bts_trx_ts *ts);
int gsm_lchan_type_by_pchan(enum gsm_phys_chan_config pchan);
enum gsm_phys_chan_config gsm_pchan_by_lchan_type(enum gsm_chan_t type);
enum gsm48_rr_cause bsc_gsm48_rr_cause_from_gsm0808_cause(enum gsm0808_cause c);
enum gsm48_rr_cause bsc_gsm48_rr_cause_from_rsl_cause(uint8_t c);
/* Interference Measurement Parameters */
struct gsm_interf_meas_params {
/* Intave: Interference Averaging period (see 3GPP TS 45.008, table A.1) */
uint8_t avg_period; /* number of SACCH multiframes, 1 .. 31 */
/* Interference level Boundaries (see 3GPP TS 52.021, section 9.4.25) */
uint8_t bounds_dbm[6]; /* -x dBm values for boundaries 0 .. X5 */
};
extern const struct gsm_interf_meas_params interf_meas_params_def;
enum rsl_cmod_spd chan_mode_to_rsl_cmod_spd(enum gsm48_chan_mode chan_mode);
int select_best_cipher(uint8_t msc_mask, uint8_t bsc_mask);
#endif /* _GSM_DATA_H */