view cdg-hybrid/sap/em.pdf @ 636:57e67ca2e1cb

pcmdata.c: default +CGMI to "FreeCalypso" and +CGMM to model The present change has no effect whatsoever on Falconia-made and Openmoko-made devices on which /pcm/CGMI and /pcm/CGMM files have been programmed in FFS with sensible ID strings by the respective factories, but what should AT+CGMI and AT+CGMM queries return when the device is a Huawei GTM900 or Tango modem that has been converted to FreeCalypso with a firmware change? Before the present change they would return compiled-in defaults of "<manufacturer>" and "<model>", respectively; with the present change the firmware will self-identify as "FreeCalypso GTM900-FC" or "FreeCalypso Tango" on the two respective targets. This firmware identification will become important if someone incorporates an FC-converted GTM900 or Tango modem into a ZeroPhone-style smartphone where some high-level software like ofono will be talking to the modem and will need to properly identify this modem as FreeCalypso, as opposed to some other AT command modem flavor with different quirks. In technical terms, the compiled-in default for the AT+CGMI query (which will always be overridden by the /pcm/CGMI file in FFS if one is present) is now "FreeCalypso" in all configs on all targets; the compiled-in default for the AT+CGMM query (likewise always overridden by /pcm/CGMM if present) is "GTM900-FC" if CONFIG_TARGET_GTM900 or "Tango" if CONFIG_TARGET_TANGO or the original default of "<model>" otherwise.
author Mychaela Falconia <falcon@freecalypso.org>
date Sun, 19 Jan 2020 20:14:58 +0000
parents e7a67accfad9
children
line wrap: on
line source

;********************************************************************************
;*** File           : em.pdf
;*** Creation       : Wed Mar 11 09:58:00 CST 2009
;*** XSLT Processor : Apache Software Foundation / http://xml.apache.org/xalan-j / supports XSLT-Ver: 1
;*** Copyright      : (c) Texas Instruments AG, Berlin Germany 2002
;********************************************************************************
;*** Document Type  : Service Access Point Specification
;*** Document Name  : em
;*** Document No.   : 8304.129.96.103
;*** Document Date  : 2002-02-25
;*** Document Status: BEING_PROCESSED
;*** Document Author: Oliver
;********************************************************************************



PRAGMA 	SRC_FILE_TIME 	"Thu Nov 29 09:40:50 2007"
PRAGMA 	LAST_MODIFIED 	"2002-02-25"
PRAGMA 	ID_AND_VERSION 	"8304.129.96.103"



CONST 	MAX_SDU_LEN 	1 	; 
CONST 	MAX_PDP_CTXT 	2 	; MAX number of PDP contexts supported



VALTAB 	VAL_arfcn
VAL 	1 - 124 	"GSM 900 without extension band"
VAL 	0 - 124 	"GSM 900 with extension band"
VAL 	975 - 1023 	"GSM 900 with extension band"
VAL 	512 - 1023 	"DCS 1800"
VAL 	0xFFFF 	 	"not present"

VALTAB 	VAL_tn
VAL 	0 - 7 	"timeslot number 0-7"

VALTAB 	VAL_txlev
VAL 	0 - 31 	"power level"

VALTAB 	VAL_rxlev
VAL 	0 - 63 	"received field strength"

VALTAB 	VAL_rxqual_f
VAL 	0 - 7 	"received quality"

VALTAB 	VAL_bsic
VAL 	0 - 63 	"base station identification code"
VAL 	0xFF 	 	"not present"

VALTAB 	VAL_t3212
VAL 	0 - 255 	"value times 6minutes"

VALTAB 	VAL_v_start
VAL 	0 	 	"no starting time"
VAL 	1 	 	"with starting time"

VALTAB 	VAL_dtx_stat
VAL 	0 	 	"without dtx"
VAL 	1 	 	"with dtx"

VALTAB 	VAL_bs_pa_mfrms
VAL 	0 	 	"2 Multiframe Periods"
VAL 	1 	 	"3 Multiframe Periods"
VAL 	2 	 	"4 Multiframe Periods"
VAL 	3 	 	"5 Multiframe Periods"
VAL 	4 	 	"6 Multiframe Periods"
VAL 	5 	 	"7 Multiframe Periods"
VAL 	6 	 	"8 Multiframe Periods"
VAL 	7 	 	"9 Multiframe Periods"

VALTAB 	VAL_entity
VAL 	1 	EM_L1 	"L1"
VAL 	2 	EM_DL 	"DL"
VAL 	3 	EM_RR 	"RR"
VAL 	4 	EM_MM 	"MM"
VAL 	5 	EM_CC 	"CC"
VAL 	6 	EM_SS 	"SS"
VAL 	7 	EM_SMS 	"SMS"
VAL 	8 	EM_SIM 	"SIM"
VAL 	9 	EM_GRR 	"GRR"
VAL 	10 	EM_GMM 	"GMM"
VAL 	11 	EM_GRLC 	"GRLC"

VALTAB 	VAL_pco_bitmap
VAL 	0x0001 	EM_PCO_SC_INFO 	"request RR SC information"
VAL 	0x0002 	EM_PCO_GPRS_INFO 	"request GPRS SC information"
VAL 	0x0004 	EM_PCO_NC_INFO 	"request RR NC information"
VAL 	0x0008 	EM_PCO_LOC_PAG_INFO 	"request RR Location and Paging information"
VAL 	0x0010 	EM_PCO_PLMN_INFO 	"request RR PLMN information"
VAL 	0x0020 	EM_PCO_CIPH_HOP_DTX_INFO 	"request RR Ciphering Hopping and DTX information"
VAL 	0x0040 	EM_PCO_POWER_INFO 	"request RR Power (Classmark) information"
VAL 	0x0080 	EM_PCO_IDENTITY_INFO 	"request RR Identity information"
VAL 	0x0100 	EM_PCO_SW_VERSION_INFO 	"request SW Version information"
VAL 	0x0200 	EM_PCO_GMM_INFO 	"request GMM information"
VAL 	0x0400 	EM_PCO_GRLC_INFO 	"request GRLC information"
VAL 	0x0800 	EM_PCO_AMR_INFO 	"request AMR information"
VAL 	0x1000 	EM_PCO_PDP_INFO 	"request PDP information"

VALTAB 	VAL_hyst
VAL 	0 	CELL_HYST_0_DB 	"0 dB RXLEV hysteresis for LA re-selection"
VAL 	1 	CELL_HYST_2_DB 	"2 dB RXLEV hysteresis for LA re-selection"
VAL 	2 	CELL_HYST_4_DB 	"4 dB RXLEV hysteresis for LA re-selection"
VAL 	3 	CELL_HYST_6_DB 	"6 dB RXLEV hysteresis for LA re-selection"
VAL 	4 	CELL_HYST_8_DB 	"8 dB RXLEV hysteresis for LA re-selection"
VAL 	5 	CELL_HYST_10_DB 	"10 dB RXLEV hysteresis for LA re-selection"
VAL 	6 	CELL_HYST_12_DB 	"12 dB RXLEV hysteresis for LA re-selection"
VAL 	7 	CELL_HYST_14_DB 	"14 dB RXLEV hysteresis for LA re-selection"

VALTAB 	VAL_gprs_prio_class
VAL 	0xFF 	GPRS_PRIORITY_CLASS_INVALID 	"This value is used to indicate the absence of this parameter"

VALTAB 	VAL_tbf_trans_type
VAL 	0x00 	EM_TBF_TYPE_NULL 	"No GPRS data transfer"
VAL 	0x01 	EM_TBF_TYPE_SB 	""
VAL 	0x02 	EM_TBF_TYPE_FA 	"Fixed Allocation"
VAL 	0x03 	EM_TBF_TYPE_DA 	"Dynamic Allocation"
VAL 	0x04 	EM_TBF_TYPE_DL 	"DL"
VAL 	0x05 	EM_TBF_TYPE_DL_AND_DA 	"DL + Dynamic Allocation"
VAL 	0x06 	EM_TBF_TYPE_DL_AND_FA 	"DL + Fixed Allocation"

VALTAB 	VAL_nco
VAL 	0x00 	FMM_NC0 	"NC0"
VAL 	0x01 	FMM_NC1 	"NC1"
VAL 	0x02 	FMM_NC2 	"NC2, network controlled"
VAL 	0x03 	FMM_RESET 	"BCCH based reselection order"
VAL 	0x04 	FMM_EMPTY 	"undefined"

VALTAB 	VAL_grlc_state
VAL 	0x00 	ACCESS_DISABLED 	"access disabled      "
VAL 	0x01 	PIM 	"Packet idle mode"
VAL 	0x02 	PAM 	"Packet access mode"
VAL 	0x03 	PTM 	"Packet transfer mode"
VAL 	0x04 	WAIT_4_PIM 	"wait for PIM"

VALTAB 	VAL_cs
VAL 	0x00 	CS_MODE_1 	"Values Item"
VAL 	0x01 	CS_MODE_2 	"Values Item"
VAL 	0x02 	CS_MODE_3 	"Values Item"
VAL 	0x03 	CS_MODE_4 	"Values Item"

VALTAB 	VAL_cell_type_ind
VAL 	0 	EM_CELL_NA 	"Cell type is not available"
VAL 	1 	EM_CELL_GSM 	"Cell supports GSM only"
VAL 	2 	EM_CELL_GPRS 	"Cell supports GSM and GPRS"

VALTAB 	VAL_cell_resel_offset
VAL 	0 - 63 	"0   126 dB,2 dB steps, i.e. 0 = 0 dB, 1 = 2 dB, etc."

VALTAB 	VAL_temp_offset
VAL 	0 - 7 	"0   60 dB, 10 dB steps i.e. 0 = 0 dB,1 = 10 dB, etc. and 7 = infinity"

VALTAB 	VAL_rxlev_acc_min
VAL 	0 - 63 	"Values Range"

VALTAB 	VAL_vocoder
VAL 	0b00000000 	EM_VOC_SIG 	"Signalling only"
VAL 	0b00000001 	EM_VOC_SPEECH 	"Speech"
VAL 	0b00100001 	EM_VOC_EFR 	"Enhanced full rate"
VAL 	0b01000001 	EM_VOC_AMR 	"Adaptive multi rate"
VAL 	0b00001111 	EM_VOC_14_4 	"User data rate of 14.4 kbps "
VAL 	0b00000011 	EM_VOC_9_6 	"User data rate of 9.6kbps/12kbps radio interface rate"
VAL 	0b00001011 	EM_VOC_4_8 	"User data rate of 4.8kbps/6kbps radio interface rate"
VAL 	0b00010011 	EM_VOC_2_4 	"User data rate of 2.4kbps/3.6 radio interface rate"
VAL 	0b11111111 	EM_VOC_NA 	"Not applicable in this state"

VALTAB 	VAL_t3312_state
VAL 	0 	EM_T3312_ACTIVE 	"Periodic RAU timer is active"
VAL 	1 	EM_T3312_DEACTIVE 	"Periodic RAU timer is de active"

VALTAB 	VAL_amr_voc
VAL 	1 	EM_AFS 	"AMR full rate speech"
VAL 	2 	EM_AH0 	"AMR half speech on sub channel 0"
VAL 	3 	EM_AH1 	"AMR half rate speech on sub channel 1"

VALTAB 	VAL_amr_icmi
VAL 	0 	EM_AMR_ICMI_IMP 	"The initial codec mode is defined by the implicit rule provided in 3GPP TS 05.09"
VAL 	1 	EM_AMR_ICMI_SMF 	"The initial codec mode is defined by the Start Mode field"

VALTAB 	VAL_amr_first_cod
VAL 	0 	EM_AMR_MODE_4_75 	"4.75 kbps codec bit rate"
VAL 	1 	EM_AMR_MODE_5_15 	"5.15 kbps codec bit rate"
VAL 	2 	EM_AMR_MODE_5_9 	"5.9 kbps codec bit rate"
VAL 	3 	EM_AMR_MODE_6_7 	"6.7 kbps codec bit rate"
VAL 	4 	EM_AMR_MODE_7_4 	"7.4 kbps codec bit rate"
VAL 	5 	EM_AMR_MODE_7_95 	"7.95 kbps codec bit rate"
VAL 	6 	EM_AMR_MODE_10_2 	"10.2 kbps codec bit rate"
VAL 	7 	EM_AMR_MODE_12_2 	"12.2 kbps codec bit rate"

VALTAB 	VAL_hop
VAL 	0 	EM_HOP_NO 	"Hopping is not present"
VAL 	1 	EM_HOP 	"Hopping used"

VALTAB 	VAL_sgsnr 	%REL99%
VAL 	0 	EM_SGSNR_L98 	%REL99% 	"SGSN is R-98 or older"
VAL 	1 	EM_SGSNR_G99 	%REL99% 	"SGSN is R-99 or later."

VALTAB 	VAL_mscr 	%REL99%
VAL 	0 	EM_MSCR_L98 	%REL99% 	"MSC release is 98 or older."
VAL 	1 	EM_MSCR_G99 	%REL99% 	"MSC release is 99 or later."

VALTAB 	VAL_net_rel 	%REL99%
VAL 	0 	EM_BSS_L98 	%REL99% 	"BSS release version is 98 or older."
VAL 	1 	EM_BSS_99 	%REL99% 	"BSS release version is 99"
VAL 	2 	EM_BSS_R4 	%REL99% 	"BSS release verison is R4"
VAL 	255 	EM_BSS_NOT_SET 	%REL99% 	"BSS release is not set."

VALTAB 	Val_band_ind 	%REL99%
VAL 	0 	EM_BAND_1800 	"ARFCN belongs to 1800 band"
VAL 	1 	EM_BAND_1900 	"ARFCN belongs to 1900 band"
VAL 	2 	EM_BAND_NOT_SET 	"Band Indicator Value is not set by serving cell"




VAR 	arfcn 	"channel number" 	S

VAL 	@p_em - VAL_arfcn@ 	

VAR 	arfcn_nc 	"channel number" 	S


VAR 	tn 	"timeslot number" 	B

VAL 	@p_em - VAL_tn@ 	

VAR 	txlev 	"Power Level" 	B

VAL 	@p_em - VAL_txlev@ 	

VAR 	txpwr_max 	"Max power level in a cell" 	B

VAL 	@p_em - VAL_txlev@ 	

VAR 	rxlev 	"received field strength" 	B

VAL 	@p_em - VAL_rxlev@ 	

VAR 	rxlev_nc 	"received field strength neighbour cell" 	B


VAR 	rxlev_f 	"received field strength" 	B


VAR 	rxlev_s 	"received field strength" 	B


VAR 	rxlev_min 	"min. rxlev to access the cell" 	B


VAR 	rxqual_f 	"received quality" 	B

VAL 	@p_em - VAL_rxqual_f@ 	

VAR 	rxqual_s 	"received quality" 	B


VAR 	bsic 	"base station ID code" 	B

VAL 	@p_em - VAL_bsic@ 	

VAR 	bsic_nc 	"base station ID code neighbour cell" 	B


VAR 	tav 	"timing advance" 	B


VAR 	frame_offset 	"frame offset" 	L


VAR 	time_alignmt 	"time alignment" 	L


VAR 	cell_id 	"cell identity SC" 	S


VAR 	cell_id_nc 	"cell identity neighbour cell" 	S


VAR 	lac 	"location area code" 	S


VAR 	lac_nc 	"location area code neighbour cells" 	S


VAR 	c1 	"path loss criterion C1" 	T


VAR 	c2 	"reselection criterion C2" 	T


VAR 	c1_nc 	"path loss criterion C1 neighbour cells" 	T


VAR 	c2_nc 	"reselection criterion C2 neighbour cells" 	T


VAR 	c31 	"reselection criterion C31 (GPRS)" 	T


VAR 	c32 	"reselection criterion C32 (GPRS)" 	T


VAR 	c31_nc 	"reselection criterion C31 (GPRS) neighbour cells" 	T


VAR 	c32_nc 	"reselection criterion C32 (GPRS) neighbour cells" 	T


VAR 	dsc 	"actual downlink signalling counter" 	B


VAR 	rlt 	"actual radiolink timeout counter" 	B


VAR 	cba 	"cell bar access" 	B


VAR 	cba_nc 	"cell bar access neighbour cells" 	B


VAR 	cbq 	"cell bar  qualifier" 	B


VAR 	cbq_nc 	"cell bar qualifier neighbour cells" 	B


VAR 	nmo 	"network mode of operation" 	B


VAR 	spgc_ccch_sup 	"SPLIT_PG_CYCLE_SUPPORT: whether it is supported or not - should be BOOL, but BOOL is not valid in SAP" 	B


VAR 	priority_access_thr 	"packet access to the network according to priority level" 	B


VAR 	rac 	"routing area code" 	B


VAR 	rac_nc 	"routing area code" 	B


VAR 	no_ncells 	"no of neighbour cells" 	B


VAR 	t3212 	"Timer T3212" 	B

VAL 	@p_em - VAL_t3212@ 	

VAR 	ident_type 	"Type of identity" 	B


VAR 	odd_even 	"Odd/ Even indication" 	B


VAR 	v_ident_dig 	"valid-flag" 	B


VAR 	c_ident_dig 	"counter" 	B


VAR 	ident_dig 	"Identity digit" 	B


VAR 	tmsi 	"binary representation TMSI" 	L


VAR 	mcc 	"mobile country code" 	B


VAR 	mnc 	"mobile network code" 	B


VAR 	no_creq_max 	"mobile country code" 	B


VAR 	ciph_stat 	"Cipher status" 	B


VAR 	ma 	"MA list after time" 	S


VAR 	ma2 	"MA list before  time" 	S


VAR 	v_start 	"starting time valid" 	B

VAL 	@p_em - VAL_v_start@ 	

VAR 	hsn 	"Hopping sequence number" 	B


VAR 	dtx_stat 	"DTX status" 	B

VAL 	@p_em - VAL_dtx_stat@ 	

VAR 	rev_lev 	"rev_lev" 	B


VAR 	es_ind 	"es_ind" 	B


VAR 	a5_1 	"a5_1" 	B


VAR 	rf_pow_cap 	"rf_pow_cap" 	B


VAR 	ps_cap 	"ps_cap" 	B


VAR 	ss_screen 	"ss_screen" 	B


VAR 	sm_cap 	"sm_cap" 	B


VAR 	freq_cap 	"freq_cap" 	B


VAR 	class_3 	"class_3" 	B


VAR 	cmsp 	"cmsp" 	B


VAR 	a5_3 	"a5_3" 	B


VAR 	a5_2 	"a5_2" 	B


VAR 	mb_sub 	"mb_sub" 	B


VAR 	a5_7 	"a5_7" 	B


VAR 	a5_6 	"a5_6" 	B


VAR 	a5_5 	"a5_5" 	B


VAR 	a5_4 	"a5_4" 	B


VAR 	v_radio_cap_2 	"v_radio_cap_2" 	B


VAR 	radio_cap_2 	"radio_cap_2" 	B


VAR 	v_radio_cap_1 	"v_radio_cap_1" 	B


VAR 	radio_cap_1 	"radio_cap_1" 	B


VAR 	v_r_support 	"v_r_support" 	B


VAR 	r_support 	"r_support" 	B


VAR 	v_m_s_class 	"v_m_s_class" 	B


VAR 	m_s_class 	"m_s_class" 	B


VAR 	ucs2_treat 	"ucs2_treat" 	B


VAR 	ext_meas_cap 	"ext_meas_cap" 	B


VAR 	v_meas_cap 	"v_meas_cap" 	B


VAR 	sw_time 	"sw_time" 	B


VAR 	sws_time 	"sws_time" 	B


VAR 	dummy1 	"dummy1" 	B


VAR 	dummy2 	"dummy2" 	B


VAR 	v_mmi 	"not implemented yet" 	S


VAR 	v_sim 	"not implemented yet" 	S


VAR 	v_cc 	"not implemented yet" 	S


VAR 	v_ss 	"not implemented yet" 	S


VAR 	v_sms 	"not implemented yet" 	S


VAR 	v_mm 	"not implemented yet" 	S


VAR 	v_rr 	"not implemented yet" 	S


VAR 	v_dl 	"not implemented yet" 	S


VAR 	v_l1 	"not implemented yet" 	S


VAR 	rel_cause 	"release cause" 	S


VAR 	bs_pa_mfrms 	"Multiframe Period" 	B

VAL 	@p_em - VAL_bs_pa_mfrms@ 	

VAR 	data 	"requested data" 	S


VAR 	reest_flag 	"Re-establishment flag" 	B


VAR 	max_dlt 	"maximum downlink timeout counter" 	B


VAR 	act_dlt 	"actual downlink timeout counter" 	B


VAR 	max_rlt 	"maximum radiolink timeout counter" 	B


VAR 	act_rlt 	"actual radiolink timeout counter" 	B


VAR 	bitmask_l1_h 	"bitmask for L1 higher bits" 	S


VAR 	bitmask_l1_l 	"bitmask for L1 lower bits" 	L


VAR 	bitmask_dl 	"bitmask for DL" 	S


VAR 	bitmask_rr_h 	"bitmask for RR higher bits" 	S


VAR 	bitmask_rr_l 	"bitmask for RR lower bits" 	L


VAR 	bitmask_mm 	"bitmask for MM" 	L


VAR 	bitmask_cc_h 	"bitmask for CC higher bits" 	L


VAR 	bitmask_cc_l 	"bitmask for CC lower bits" 	L


VAR 	bitmask_ss 	"bitmask for SS" 	S


VAR 	bitmask_sms_h 	"bitmask for SMS higher bits" 	L


VAR 	bitmask_sms_l 	"bitmask for SMS lower bits" 	L


VAR 	bitmask_sim 	"bitmask for SIM" 	L


VAR 	entity 	"Entity name" 	B

VAL 	@p_em - VAL_entity@ 	

VAR 	pco_bitmap 	"EM-Data output to PCO according to bitmap" 	L

VAL 	@p_em - VAL_pco_bitmap@ 	

VAR 	hyst 	"C2 / C32 Hysteresis" 	B

VAL 	@p_em - VAL_hyst@ 	

VAR 	gprs_prio_class 	"GPRS_PRIORITY_CLASS" 	B

VAL 	@p_em - VAL_gprs_prio_class@ 	

VAR 	gprs_prio_class_nc 	"GPRS_PRIORITY_CLASS" 	B

VAL 	@p_em - VAL_gprs_prio_class@ 	

VAR 	c31_hyst 	"C31_HYST" 	B


VAR 	ra_re_hyst 	"RAC_HYSTERESIS" 	B


VAR 	res_type 	"Reselection Type" 	B


VAR 	tbf_trans_type 	"TBF unique ID" 	B

VAL 	@p_em - VAL_tbf_trans_type@ 	

VAR 	tbf_num_ults 	"number of assigned Timeslots" 	B


VAR 	tbf_num_rlc 	"number of granted uplink RLC blocks" 	S


VAR 	nco 	"Network Controlled reselection Order" 	B

VAL 	@p_em - VAL_nco@ 	

VAR 	rlc_num_retrans 	"Info about the number of retransmitted RLCs" 	B


VAR 	rlc_num_trans 	"Info about the number of transmitted RLCs" 	S


VAR 	rlc_pdu_cnt 	"Info about the number of transmitted RLCs" 	B


VAR 	rlc_start_fn 	"Info about the number of transmitted RLCs" 	L


VAR 	rlc_end_fn 	"Info about the number of transmitted RLCs" 	L


VAR 	ul_nb_block 	"Number of blocks to be sent for uplink" 	S


VAR 	grlc_state 	"grlc state" 	B

VAL 	@p_em - VAL_grlc_state@ 	

VAR 	cv 	"countdown value" 	B


VAR 	cs 	"Basic Element" 	B

VAL 	@p_em - VAL_cs@ 	

VAR 	ready_state 	"ready-standby state" 	B


VAR 	tlli 	"tlli" 	L


VAR 	ptmsi 	"ptmsi" 	L


VAR 	ptmsi_sig 	"ptmsi signature" 	L


VAR 	ready_timer 	"ready timer T3314" 	L


VAR 	ciphering_algorithm 	"ciphering algorithm" 	B


VAR 	tbf_mod 	"Basic Element" 	B


VAR 	mac_mod 	"Basic Element" 	B


VAR 	tfi 	"Basic Element" 	B


VAR 	gmm_state 	"codes the GPRS state" 	B


VAR 	rlc_tbc 	"Number of rlc data blocks during the tbf, which is requested to send" 	S


VAR 	cell_type_ind 	"Indicates the cell type GSM/GPRS" 	B

VAL 	@p_em - VAL_cell_type_ind@ 	

VAR 	cell_resel_offset 	"stores cell reselect offset" 	B

VAL 	@p_em - VAL_cell_resel_offset@ 	

VAR 	temp_offset 	"Stores temporary offset" 	B

VAL 	@p_em - VAL_temp_offset@ 	

VAR 	rxlev_acc_min 	"stores RXLEV_ACCESS_MIN" 	B

VAL 	@p_em - VAL_rxlev_acc_min@ 	

VAR 	vocoder 	"Vocoder type" 	B

VAL 	@p_em - VAL_vocoder@ 	

VAR 	t3312_deactivated 	"Periodic RAU timer state" 	B

VAL 	@p_em - VAL_t3312_state@ 	

VAR 	t3312_val 	"Periodic RAU timer value in seconds" 	L


VAR 	amr_vocoder 	"AMR vocoder type" 	B

VAL 	@p_em - VAL_amr_voc@ 	

VAR 	amr_icmi 	"AMR initial codec mode indicator" 	B

VAL 	@p_em - VAL_amr_icmi@ 	

VAR 	amr_icm 	"AMR initial codec mode(index in the ACS)" 	B


VAR 	amr_acs 	"AMR active codec set" 	B


VAR 	amr_nr_modes 	"Number of AMR codec modes" 	B


VAR 	amr_codec_thr 	"Lower thresholds for switching between mode j and j-1" 	B


VAR 	amr_codec_hyst 	"Hysteresis values to obtain the higher thresholds for switching between mode j and j+1" 	B


VAR 	amr_first_codec 	"Highest bit rate AMR codec mode" 	B

VAL 	@p_em - VAL_amr_first_cod@ 	

VAR 	maio 	"Mobile allocation index offset" 	B


VAR 	nr_arfcns 	"Number of arfcns in hopping list" 	B


VAR 	hop 	"Hopping valid or not flag" 	B

VAL 	@p_em - VAL_hop@ 	

VAR 	sgsnr_rel 	%REL99% 	"SGSNR release" 	B

VAL 	@p_em - VAL_sgsnr@ 	

VAR 	mscr_rel 	%REL99% 	"MSCR Release" 	B

VAL 	@p_em - VAL_mscr@ 	

VAR 	net_rel 	%REL99% 	"N/W Rel. information" 	B

VAL 	@p_em - VAL_net_rel@ 	

VAR 	band_ind 	%REL99% 	"Band Indicator" 	B

VAL 	@p_em - Val_band_ind@ 	

VAR 	bss_paging_coord 	%REL99% 	"BS paging coordination" 	B


VAR 	ul_net_octet 	"octet count on up link" 	L


VAR 	ul_gross_octet 	"Gross throughput octet count on up link" 	L


VAR 	dl_gross_octet 	"Gross throughput octet count on down link" 	L


VAR 	dl_net_octet 	"Net throughput octet count on down link" 	L


VAR 	dl_crc_errors 	"CRC errors in Downlink" 	L


VAR 	bitmask_grr 	"Bitmask for GRR " 	L


VAR 	bitmask_gmm 	"GMM bitmask" 	L


VAR 	bitmask_grlc 	"GRLC bitmask" 	L





COMP 	net_ctrl 	 "Network control"
{
 	spgc_ccch_sup 	 ; SPLIT_PG_CYCLE_SUPPORT: whether it is supported or not - should be BOOL, but BOOL is not valid in SAP
 	priority_access_thr 	 ; packet access to the network according to priority level
}



COMP 	em_imeisv 	 "IMEISV"
{
 	ident_type 	 ; Type of identity
 	odd_even 	 ; Odd/ Even indication
 	v_ident_dig 	 ; valid-flag
 	c_ident_dig 	 ; counter
 	ident_dig 	[16] 	 ; Identity digit
}
TYPEDEF COMP em_imeisv 	em_imsi 	 "IMSI"



COMP 	hop_chn 	 "frequency hopping channel list after time"
{
 	maio 	 ; Mobile allocation index offset
 	nr_arfcns 	 ; Number of hopping channels
 	ma 	[65] 	 ; MA list after time
}



COMP 	classm2 	 "Classmark 2"
{
 	rev_lev 	 ; rev_lev
 	es_ind 	 ; es_ind
 	a5_1 	 ; a5_1
 	rf_pow_cap 	 ; rf_pow_cap
 	ps_cap 	 ; ps_cap
 	ss_screen 	 ; ss_screen
 	sm_cap 	 ; sm_cap
 	freq_cap 	 ; freq_cap
 	class_3 	 ; class_3
 	cmsp 	 ; cmsp
 	a5_3 	 ; a5_3
 	a5_2 	 ; a5_2
}



COMP 	meas_cap 	 "meas_cap"
{
 	sw_time 	 ; sw_time
 	sws_time 	 ; sws_time
 	dummy1 	 ; dummy1
 	dummy2 	 ; dummy2
}



COMP 	classm3 	 "Classmark 3"
{
 	mb_sub 	 ; mb_sub
 	a5_7 	 ; a5_7
 	a5_6 	 ; a5_6
 	a5_5 	 ; a5_5
 	a5_4 	 ; a5_4
 	v_radio_cap_2 	 ; v_radio_cap_2
 	radio_cap_2 	 ; radio_cap_2
 	v_radio_cap_1 	 ; v_radio_cap_1
 	radio_cap_1 	 ; radio_cap_1
 	v_r_support 	 ; v_r_support
 	r_support 	 ; r_support
 	v_m_s_class 	 ; v_m_s_class
 	m_s_class 	 ; m_s_class
 	ucs2_treat 	 ; ucs2_treat
 	ext_meas_cap 	 ; ext_meas_cap
 	v_meas_cap 	 ; v_meas_cap
 	meas_cap 	 ; T_meas_cap
}



COMP 	ul_tbf_par 	 "ul tbf parameter"
{
 	tfi 	 ; tfi
 	mac_mod 	 ; allocation type
 	ul_nb_block 	 ; Number of blocks to be sent for uplink
 	cv 	 ; countdown value
 	cs 	 ; coding scheme
}



COMP 	dl_tbf_par 	 "dl tbf parameters"
{
 	tfi 	 ; temporary flow identifier
 	mac_mod 	 ; allocation type
}



COMP 	t3312 	 "Structured Element"
{
 	t3312_deactivated 	 ; Primitive structure element item
 	t3312_val 	 ; Primitive structure element item
}



COMP 	amr_cod_prop 	 "Parameters for multirate speech field"
{
 	amr_codec_thr 	 ; Primitive structure element item
 	amr_codec_hyst 	 ; Primitive structure element item
}



COMP 	hop_chn2 	 "Frequency channel hopping list before time"
{
 	maio 	 ; Mobile allocation index offset
 	nr_arfcns 	 ; Number of hopping channels
 	ma 	[65] 	 ; Hopping channel list
}






; EM_SC_INFO_REQ 	0x3E00
; EM_SC_INFO_CNF 	0x7E00
; EM_SC_GPRS_INFO_REQ 	0x3E01
; EM_SC_GPRS_INFO_CNF 	0x7E01
; EM_NC_INFO_REQ 	0x3E02
; EM_NC_INFO_CNF 	0x7E02
; EM_LOC_PAG_INFO_REQ 	0x3E03
; EM_LOC_PAG_INFO_CNF 	0x7E03
; EM_PLMN_INFO_REQ 	0x3E04
; EM_PLMN_INFO_CNF 	0x7E04
; EM_CIP_HOP_DTX_INFO_REQ 	0x3E05
; EM_CIP_HOP_DTX_INFO_CNF 	0x7E05
; EM_POWER_INFO_REQ 	0x3E06
; EM_POWER_INFO_CNF 	0x7E06
; EM_IDENTITY_INFO_REQ 	0x3E07
; EM_IDENTITY_INFO_CNF 	0x7E07
; EM_SW_VERSION_INFO_REQ 	0x3E08
; EM_SW_VERSION_INFO_CNF 	0x7E08
; EM_COUNTER_IDLE_IND 	0x7E09
; EM_COUNTER_DEDI_IND 	0x7E0A
; EM_L1_EVENT_REQ 	0x3E09
; EM_DL_EVENT_REQ 	0x3E0A
; EM_RR_EVENT_REQ 	0x3E0B
; EM_MM_EVENT_REQ 	0x3E0C
; EM_CC_EVENT_REQ 	0x3E0D
; EM_SS_EVENT_REQ 	0x3E0E
; EM_SMS_EVENT_REQ 	0x3E0F
; EM_SIM_EVENT_REQ 	0x3E10
; EM_DATA_IND 	0x7E0B
; EM_FMM_SC_INFO_REQ 	0x3E12
; EM_FMM_SC_INFO_CNF 	0x7E12
; EM_FMM_SC_GPRS_INFO_REQ 	0x3E13
; EM_FMM_SC_GPRS_INFO_CNF 	0x7E13
; EM_FMM_NC_INFO_REQ 	0x3E14
; EM_FMM_NC_INFO_CNF 	0x7E14
; EM_FMM_RLC_TRANS_INFO_REQ 	0x3E15
; EM_FMM_RLC_TRANS_INFO_CNF 	0x7E15
; EM_FMM_RESELECTION_START_IND 	0x7E0C
; EM_FMM_RESELECTION_END_IND 	0x7E0D
; EM_FMM_TBF_INFO_REQ 	0x3E16
; EM_FMM_TBF_INFO_CNF 	0x7E16
; EM_PCO_TRACE_REQ 	0x3E11
; EM_GRLC_INFO_REQ 	0x3E18
; EM_GRLC_INFO_CNF 	0x7E18
; EM_GMM_INFO_REQ 	0x3E17
; EM_GMM_INFO_CNF 	0x7E17
; EM_AMR_INFO_REQ 	0x3E19
; EM_AMR_INFO_CNF 	0x7E19
; EM_THROUGHPUT_INFO_REQ 	0x3E1D
; EM_THROUGHPUT_INFO_CNF 	0x7E1D
; EM_GRR_EVENT_REQ 	0x3E1A
; EM_GMM_EVENT_REQ 	0x3E1B
; EM_GRLC_EVENT_REQ 	0x3E1C



PRIM 	EM_SC_INFO_REQ 	0x3E00
{
 	data 	 ; Data bitmask
}






PRIM 	EM_SC_INFO_CNF 	0x7E00
{
 	arfcn 	 ; Channel number
 	c1 	 ; Path loss criterion
 	c2 	 ; Cell reselection criterion
 	rxlev 	 ; Received field strength
 	bsic 	 ; Base station ID code
 	dsc 	 ; Downlink signalling counter
 	txlev 	 ; Transmit power level
 	tn 	 ; Timeslot number
 	rlt 	 ; Radio link timeout counter
 	tav 	 ; Timing advance
 	rxlev_f 	 ; Received field strength full
 	rxlev_s 	 ; Received field strength sub
 	rxqual_f 	 ; Received quality full
 	rxqual_s 	 ; Received quality sub
 	lac 	 ; Location area code
 	cba 	 ; Cell bar access
 	cbq 	 ; Cell bar qualifier
 	cell_id 	 ; Cell Identity
 	cell_type_ind 	 ; Cell type indicator
 	vocoder 	 ; vocoder type
}






PRIM 	EM_SC_GPRS_INFO_REQ 	0x3E01
{
 	data 	 ; Data bitmask
}






PRIM 	EM_SC_GPRS_INFO_CNF 	0x7E01
{
 	gmm_state 	 ; GPRS state
 	tn 	 ; PCCCH_Timeslot
 	nmo 	 ; Network Mode of Operation
 	net_ctrl 	 ; Network control
 	cba 	 ; Cell bar access
 	rac 	 ; Routing area code
 	tav 	 ; Timing advance
 	dsc 	 ; Downlink signalling counter
 	c31 	 ; Cell reselection criterion c32
 	c32 	 ; Cell reselection criterion c32
 	nco 	 ; Network controlled order
 	bss_paging_coord 	 	%REL99% ; Primitive Item
 	band_ind 	 	%REL99% ; Primitive Item
}






PRIM 	EM_NC_INFO_REQ 	0x3E02
{
 	data 	 ; Data bitmask
}






PRIM 	EM_NC_INFO_CNF 	0x7E02
{
 	no_ncells 	 ; Number of neighbour cells
 	arfcn_nc 	[6] 	 ; BCCH channel number
 	c1_nc 	[6] 	 ; Path loss criterion C1
 	c2_nc 	[6] 	 ; Reselection criterion C2
 	rxlev_nc 	[6] 	 ; Received field strength
 	bsic_nc 	[6] 	 ; Base station ID code
 	cell_id_nc 	[6] 	 ; Cell ID
 	lac_nc 	[6] 	 ; Location area code
 	frame_offset 	[6] 	 ; Frame offset
 	time_alignmt 	[6] 	 ; Time alignment
 	cba_nc 	[6] 	 ; Cell bar access
 	cbq_nc 	[6] 	 ; Cell bar qualifier
 	cell_type_ind 	[6] 	 ; cell type indicator
 	rac 	[6] 	 ; routing area code
 	temp_offset 	[6] 	 ; temporary offset
 	cell_resel_offset 	[6] 	 ; Cell reselect offset
 	rxlev_acc_min 	[6] 	 ; RXLEV_ACCESS_MIN
}






PRIM 	EM_LOC_PAG_INFO_REQ 	0x3E03
{
 	data 	 ; Data bitmask
}






PRIM 	EM_LOC_PAG_INFO_CNF 	0x7E03
{
 	bs_pa_mfrms 	 ; Paging repeat period
 	t3212 	 ; Periodic location updating interval
 	mcc 	[3] 	 ; Mobile Country Code
 	mnc 	[3] 	 ; Mobile Network Code
 	tmsi 	 ; Temporary Mobile Subscriber Identity
}






PRIM 	EM_PLMN_INFO_REQ 	0x3E04
{
 	data 	 ; Data bitmask
}






PRIM 	EM_PLMN_INFO_CNF 	0x7E04
{
 	no_creq_max 	 ; Max. no of retries for channel requests
 	reest_flag 	 ; Re-establishment flag
 	txpwr_max 	 ; MS TXPWR MAX CCCH
 	rxlev_min 	 ; Rxlev access min
 	rel_cause 	 ; Release cause
 	sgsnr_rel 	 	%REL99% ; SGSNR Release
 	mscr_rel 	 	%REL99% ; MSCR Release
 	net_rel 	 	%REL99% ; BSS Release
}






PRIM 	EM_CIP_HOP_DTX_INFO_REQ 	0x3E05
{
 	data 	 ; Data bitmask
}






PRIM 	EM_CIP_HOP_DTX_INFO_CNF 	0x7E05
{
 	ciph_stat 	 ; Cipher status
 	hop 	 ; Hopping configuration
 	arfcn 	 ; ARFCN, valid if hop = 0
 	hsn 	 ; HSN, valid if hop = 1
 	dtx_stat 	 ; DTX status
 	v_start 	 ; Starting time valid or not
 	hop_chn 	 ; Hopping channels
 	hop_chn2 	 ; Hopping channels
}






PRIM 	EM_POWER_INFO_REQ 	0x3E06
{
 	data 	 ; Data bitmask
}






PRIM 	EM_POWER_INFO_CNF 	0x7E06
{
 	classm2 	 ; Classmark 2
 	classm3 	 ; Classmark 3
}






PRIM 	EM_IDENTITY_INFO_REQ 	0x3E07
{
 	data 	 ; Data bitmask
}






PRIM 	EM_IDENTITY_INFO_CNF 	0x7E07
{
 	em_imeisv 	 ; IMEISV
 	em_imsi 	 ; IMSI
 	tmsi 	 ; tmsi
}






PRIM 	EM_SW_VERSION_INFO_REQ 	0x3E08
{
 	data 	 ; Data bitmask
}






PRIM 	EM_SW_VERSION_INFO_CNF 	0x7E08
{
 	v_mmi 	 ; Version MMI (SMI/ACI/MFW)
 	v_sim 	 ; Version SIM
 	v_cc 	 ; Version CC
 	v_ss 	 ; Version SS
 	v_sms 	 ; Version SMS
 	v_mm 	 ; Version MM
 	v_rr 	 ; Version RR
 	v_dl 	 ; Version DL
 	v_l1 	 ; Version Layer 1 (ALR)
}






PRIM 	EM_COUNTER_IDLE_IND 	0x7E09
{
 	max_dlt 	 ; Maximum Downlink Counter
 	act_dlt 	 ; Actual Downlink Counter
}






PRIM 	EM_COUNTER_DEDI_IND 	0x7E0A
{
 	max_rlt 	 ; Maximum Radiolink Timeout Counter
 	act_rlt 	 ; Actual Radiolink Timeout Counter
}






PRIM 	EM_L1_EVENT_REQ 	0x3E09
{
 	bitmask_l1_h 	 ; Information bits high
 	bitmask_l1_l 	 ; Information bits low
}






PRIM 	EM_DL_EVENT_REQ 	0x3E0A
{
 	bitmask_dl 	 ; Information bits
}






PRIM 	EM_RR_EVENT_REQ 	0x3E0B
{
 	bitmask_rr_h 	 ; Information bits high
 	bitmask_rr_l 	 ; Information bits low
}






PRIM 	EM_MM_EVENT_REQ 	0x3E0C
{
 	bitmask_mm 	 ; Information bits
}






PRIM 	EM_CC_EVENT_REQ 	0x3E0D
{
 	bitmask_cc_h 	 ; Information bits high
 	bitmask_cc_l 	 ; Information bits low
}






PRIM 	EM_SS_EVENT_REQ 	0x3E0E
{
 	bitmask_ss 	 ; Information bits
}






PRIM 	EM_SMS_EVENT_REQ 	0x3E0F
{
 	bitmask_sms_h 	 ; Information bits high
 	bitmask_sms_l 	 ; Information bits low
}






PRIM 	EM_SIM_EVENT_REQ 	0x3E10
{
 	bitmask_sim 	 ; Information bits
}






PRIM 	EM_DATA_IND 	0x7E0B
{
 	entity 	 ; Entity information
}






PRIM 	EM_FMM_SC_INFO_REQ 	0x3E12
{
 	data 	 ; Data bitmask
}






PRIM 	EM_FMM_SC_INFO_CNF 	0x7E12
{
 	arfcn 	 ; Channel number
 	c1 	 ; Path loss criterion
 	c2 	 ; Cell reselection criterion
 	rac 	 ; Routing area code
 	hyst 	 ; C2/C32 hysteresis value
 	c32 	 ; Cell reselection criterion c32
 	gprs_prio_class 	 ; GPRS Priority Class
}






PRIM 	EM_FMM_SC_GPRS_INFO_REQ 	0x3E13
{
 	data 	 ; Data bitmask
}






PRIM 	EM_FMM_SC_GPRS_INFO_CNF 	0x7E13
{
 	c31_hyst 	 ; C31 Hysteresis Flag
 	ra_re_hyst 	 ; RAC hysteresis
 	nco 	 ; Network Controlled resel. Order
}






PRIM 	EM_FMM_NC_INFO_REQ 	0x3E14
{
 	data 	 ; Data bitmask
}






PRIM 	EM_FMM_NC_INFO_CNF 	0x7E14
{
 	no_ncells 	 ; Number of neighbour cells
 	arfcn_nc 	[6] 	 ; BCCH channel number
 	c2_nc 	[6] 	 ; Reselection criterion C2
 	rac_nc 	[6] 	 ; Routing Area Code
 	c31_nc 	[6] 	 ; C31 Measurement
 	c32_nc 	[6] 	 ; C32 Measurement
 	gprs_prio_class_nc 	[6] 	 ; GPRS Priority Class
}






PRIM 	EM_FMM_RLC_TRANS_INFO_REQ 	0x3E15
{
 	data 	 ; Data bitmask
}






PRIM 	EM_FMM_RLC_TRANS_INFO_CNF 	0x7E15
{
 	rlc_num_retrans 	 ; RLC Blocks retransmitted
 	rlc_num_trans 	 ; RLC Blocks successfull transmitted
 	rlc_pdu_cnt 	 ; PDU Counter
 	rlc_start_fn 	 ; Start Frame Number
 	rlc_end_fn 	 ; End Frame Number
 	rlc_tbc 	 ; Number of rlc data blocks during the tbf, which is requested to send
}






PRIM 	EM_FMM_RESELECTION_START_IND 	0x7E0C
{
 	arfcn 	 ; Channel number
 	rac 	 ; Routing area code
 	res_type 	 ; Reselection Type
}






PRIM 	EM_FMM_RESELECTION_END_IND 	0x7E0D
{
 	arfcn 	 ; Channel number
 	rac 	 ; Routing area code
}






PRIM 	EM_FMM_TBF_INFO_REQ 	0x3E16
{
 	data 	 ; Data bitmask
}






PRIM 	EM_FMM_TBF_INFO_CNF 	0x7E16
{
 	tbf_trans_type 	 ; TBF transfer type
 	tbf_num_ults 	 ; Number of UL-Timeslots
 	tbf_num_rlc 	 ; Uplink RLC-Blocks
}






PRIM 	EM_PCO_TRACE_REQ 	0x3E11
{
 	pco_bitmap 	 ; bitmap for requested EM information
}






PRIM 	EM_GRLC_INFO_REQ 	0x3E18
{
 	data 	 ; Primitive Item
}






PRIM 	EM_GRLC_INFO_CNF 	0x7E18
{
 	grlc_state 	 ; grlc state
 	tbf_mod 	 ; tbf state
 	ul_tbf_par 	 ; ul tbf parameter
 	dl_tbf_par 	 ; dl tbf parameter
}






PRIM 	EM_GMM_INFO_REQ 	0x3E17
{
 	data 	 ; Primitive Item
}






PRIM 	EM_GMM_INFO_CNF 	0x7E17
{
 	ready_state 	 ; ready-standby state
 	ciphering_algorithm 	 ; Primitive Item
 	tlli 	 ; Primitive Item
 	ptmsi 	 ; Primitive Item
 	ptmsi_sig 	 ; Primitive Item
 	ready_timer 	 ; Primitive Item
 	t3312 	 ; Primitive Item
}






PRIM 	EM_AMR_INFO_REQ 	0x3E19
{
 	data 	 ; Primitive Item
}






PRIM 	EM_AMR_INFO_CNF 	0x7E19
{
 	amr_vocoder 	 ; AMR vocoder type
 	amr_icmi 	 ; Initial codec mode indicator
 	amr_icm 	 ; Index into ACS
 	amr_acs 	 ; Active codec set
 	amr_first_codec 	 ; Highest bit rate codec mode
 	amr_nr_modes 	 ; Number of modes in ACS
 	amr_cod_prop 	[3] 	 ; codec mode properties
}






PRIM 	EM_THROUGHPUT_INFO_REQ 	0x3E1D
{
 	data 	 ; Primitive Item
}






PRIM 	EM_THROUGHPUT_INFO_CNF 	0x7E1D
{
 	ul_net_octet 	 ; Primitive Item
 	ul_gross_octet 	 ; Primitive Item
 	dl_net_octet 	 ; Primitive Item
 	dl_gross_octet 	 ; Primitive Item
 	dl_crc_errors 	 ; Primitive Item
}






PRIM 	EM_GRR_EVENT_REQ 	0x3E1A
{
 	bitmask_grr 	 ; Primitive Item
}






PRIM 	EM_GMM_EVENT_REQ 	0x3E1B
{
 	bitmask_gmm 	 ; Primitive Item
}






PRIM 	EM_GRLC_EVENT_REQ 	0x3E1C
{
 	bitmask_grlc 	 ; Primitive Item
}