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cci.lib compiles
author Mychaela Falconia <falcon@freecalypso.org>
date Thu, 13 Oct 2016 04:51:33 +0000
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;********************************************************************************
;*** File           : mphp.pdf
;*** Creation       : Wed Mar 11 09:58:33 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  : mphp
;*** Document No.   : 8441.100.03.011
;*** Document Date  : 2003-01-13
;*** Document Status: BEING_PROCESSED
;*** Document Author: SAB
;********************************************************************************



PRAGMA 	SRC_FILE_TIME 	"Thu Nov 29 09:50:10 2007"
PRAGMA 	LAST_MODIFIED 	"2003-01-13"
PRAGMA 	ID_AND_VERSION 	"8441.100.03.011"



CONST 	MAX_L2_FRAME_SIZE 	23 	; 
CONST 	MAX_RELATIVE_POS 	20 	; 
CONST 	MPHP_NUMC_MA 	64 	; Maximum number of carriers in the mobile allocation list handled by L1.
CONST 	MAX_USF_TABLE 	8 	; 
CONST 	MAX_ALLOC_BITMAP 	127 	; 
CONST 	MPHP_NUMC_BA_GPRS_SC 	33 	; Maximum number of carriers in the BA(GPRS) list plus the serving cell carrier handled by L1.



VALTAB 	VAL_psi_nr
VAL 	1 - 20 	"specifies the relative position array"
VAL 	0 	 	"read all PSI"

VALTAB 	VAL_bs_pbcch_blks
VAL 	0b00 	 	"B0 is used for PBCCH"
VAL 	0b01 	 	"B0, B6 is used for PBCCH"
VAL 	0b10 	 	"B0, B6, B3 is used for PBCCH"
VAL 	0b11 	 	"B0, B6, B3, B9 is used for PBCCH"

VALTAB 	VAL_psi1_rep_period
VAL 	1 - 16 	"PSI is repeated every 'value' multiframes"

VALTAB 	VAL_relative_pos_array
VAL 	0 - 64 	"index"

VALTAB 	VAL_hopping
VAL 	0 	 	"static"
VAL 	1 	 	"hopping"
VAL 	2 	MPHP_INT_MEAS_STATIC 	"static"
VAL 	3 	MPHP_INT_MEAS_HOPPING 	"hopping"
VAL 	4 	 	"static"
VAL 	5 	 	"hopping"

VALTAB 	VAL_tsc
VAL 	0 - 7 	"see 05.02, Annex A"

VALTAB 	VAL_tn
VAL 	0 - 7 	"timeslot number"
VAL 	255 	 	"Value not present"

VALTAB 	VAL_l2_channel
VAL 	1 	L2_PCHANNEL_PCCCH 	"PCCCH block"
VAL 	2 	L2_PCHANNEL_PBCCH 	"PBCCH block"
VAL 	3 	L2_PCHANNEL_PPCH 	"PPCH block"
VAL 	4 	L2_PCHANNEL_PEPCH 	"PEPCH block"
VAL 	5 	L2_PCHANNEL_PACCH 	"PACCH block"

VALTAB 	VAL_error_flag
VAL 	1 	 	"valid block info"
VAL 	0 	 	"invalid block info"

VALTAB 	VAL_bs_pag_blks_res
VAL 	0 - 12 	"number blocks for PAGCH, PDTCH and PACCH"

VALTAB 	VAL_page_mode
VAL 	0 	PAGE_NORMAL 	"normal paging"
VAL 	1 	PAGE_EXT 	"extended paging"
VAL 	2 	PAGE_REORG 	"paging reorganisation"

VALTAB 	VAL_nb_carrier
VAL 	1 - 65 	"_"

VALTAB 	VAL_nmeas
VAL 	1 - 65 	"_"

VALTAB 	VAL_fn_offset
VAL 	0 - 2715647 	"max. GSM frames -1"

VALTAB 	VAL_time_alignment
VAL 	0 - 4999 	"_"

VALTAB 	VAL_bs_prach_blks
VAL 	0b0000 	 	"No block is reserved for PRACH (default)"
VAL 	0b0001 	 	"B0 is used for PRACH"
VAL 	0b0010 	 	"B0, B6 is used for PRACH"
VAL 	0b0011 	 	"B0, B6, B3 is used for PRACH"
VAL 	0b0100 	 	"B0, B6, B3, B9 is used for PRACH"
VAL 	0b0101 	 	"B0, B6, B3, B9, B1 is used for PRACH"
VAL 	0b0110 	 	"B0, B6, B3, B9, B1, B7 is used for PRACH"
VAL 	0b0111 	 	"B0, B6, B3, B9, B1, B7, B4 is used for PRACH"
VAL 	0b1000 	 	"B0, B6, B3, B9, B1, B7, B4, B10 is used for PRACH"
VAL 	0b1001 	 	"B0, B6, B3, B9, B1, B7, B4, B10, B2 is used for PRACH"
VAL 	0b1010 	 	"B0, B6, B3, B9, B1, B7, B4, B10, B2, B8 is used for PRACH"
VAL 	0b1011 	 	"B0, B6, B3, B9, B1, B7, B4, B10, B2, B8, B5 is used for PRACH"
VAL 	0b1100 	 	"B0, B6, B3, B9, B1, B7, B4, B10, B2, B8, B5, B11 is used for PRACH"

VALTAB 	VAL_burst_type
VAL 	0 	ACCESS_8_BIT 	""
VAL 	1 	ACCESS_11_BIT 	""

VALTAB 	VAL_assign_cmd
VAL 	0 	DL_ASSIGNMENT 	"Downlink assignment"
VAL 	1 	UL_ASSIGNMENT 	"Uplink assignment"
VAL 	2 	UL_DL_ASSIGNMENT 	"Uplink and downlink assignment"
VAL 	5 	UL_TP_ACCESS 	"Uplink Two Phase Access"

VALTAB 	VAL_m_class
VAL 	1 - 12 	"Speech mode"

VALTAB 	VAL_repeat_alloc
VAL 	0 	 	"cancel any pending repeat allocation"
VAL 	1 	 	"repeat the current fixed allocation when it ends"

VALTAB 	VAL_purpose
VAL 	0 	 	"reserved"
VAL 	1 	 	"reserved"
VAL 	2 	 	"reserved"
VAL 	3 	SINGLE_BLOCK_TRANSFER_DL 	"todo ??? reception?"
VAL 	4 	SINGLE_BLOCK_TRANSFER_UL 	"i.e. measurement report"
VAL 	5 	TWO_PHASE_ACESS 	"two phases access"

VALTAB 	VAL_ta_value
VAL 	0 - 63 	"Speech mode"
VAL 	255 	 	"value not present"

VALTAB 	VAL_ta_index
VAL 	0 - 15 	"_"
VAL 	255 	 	"value not present"

VALTAB 	VAL_ul_tfi
VAL 	0 - 127 	"_"

VALTAB 	VAL_dl_tfi
VAL 	0 - 31 	"_"

VALTAB 	VAL_mac_mode
VAL 	0 	DA 	"Dynamic allocation"
VAL 	1 	EDA 	"Extended Dynamic allocation"
VAL 	2 	FA 	"Fixed allocation, not half duplex mode"
VAL 	3 	FA_HD 	"Fixed allocation, half duplex mode"

VALTAB 	VAL_usf_gran
VAL 	0 	 	"the ms shall transmit one RLC/MAC-Block"
VAL 	1 	 	"the ms shall transmit four consecutive RLC/MAC-Block"

VALTAB 	VAL_dl_ctrl_ts
VAL 	0 - 7 	"_"

VALTAB 	VAL_size_bitmap
VAL 	0 - 127 	"_"

VALTAB 	VAL_tbf_start_present
VAL 	0 	 	"not present"
VAL 	1 	 	"present"

VALTAB 	VAL_pc_meas_chan
VAL 	0 	MEAS_BCCH 	""
VAL 	1 	MEAS_PDCH 	""

VALTAB 	VAL_tbf_type
VAL 	0 	REL_DL_TBF 	"Release only the downlink TBF"
VAL 	1 	REL_UL_TBF 	"Release only the uplink TBF"
VAL 	2 	REL_ALL_TBF 	"Release both uplink and downlink TBFs"

VALTAB 	VAL_poll_resp_type
VAL 	3 	POLL_RESP_NB_CS1 	"normal burst"
VAL 	7 	POLL_RESP_AB_8_BIT 	"access burst"
VAL 	8 	POLL_RESP_AB_11_BIT 	"access burst"

VALTAB 	VAL_sb_status
VAL 	0 	SB_STAT_OK 	"In uplink, indicates that the single block was sent."
VAL 	0 	SB_STAT_DL_CRC_ERROR 	"In downlink, indicates that the downlink single block was received with no CRC_ERROR."
VAL 	1 	SB_STAT_STIME_PASSED 	"Starting time is passed. Single block uplink/downlink was not sent/received."
VAL 	2 	SB_STAT_TA_INVALID 	"No valid timing advance. Single block was not sent."
VAL 	3 	SB_STAT_DL_OK 	"Valid downlink single block received ( NO CRC_ERROR)."

VALTAB 	VAL_if_meas_enable
VAL 	0 	MPHP_IM_DISABLED 	"interference measurement processing disabled"
VAL 	1 	MPHP_IM_ENABLED 	"interference measurement processing enabled"




VAR 	psi_nr 	"Specifies the number of PSI to read" 	B

VAL 	@p_mphp - VAL_psi_nr@ 	

VAR 	bs_pbcch_blks 	"Number of PBCCH per multiframe" 	B

VAL 	@p_mphp - VAL_bs_pbcch_blks@ 	

VAR 	psi1_rep_period 	"psi1 repeat period" 	B

VAL 	@p_mphp - VAL_psi1_rep_period@ 	

VAR 	relative_pos_array 	"relative position to B0" 	B

VAL 	@p_mphp - VAL_relative_pos_array@ 	

VAR 	hopping 	"hopping indicator" 	B

VAL 	@p_mphp - VAL_hopping@ 	

VAR 	arfcn 	"channel number" 	S


VAR 	tsc 	"training sequence number" 	B

VAL 	@p_mphp - VAL_tsc@ 	

VAR 	tn 	"timeslot number" 	B

VAL 	@p_mphp - VAL_tn@ 	

VAR 	l2_channel 	"layer 2 channel type" 	B

VAL 	@p_mphp - VAL_l2_channel@ 	

VAR 	error_flag 	"validity of the data block" 	B

VAL 	@p_mphp - VAL_error_flag@ 	

VAR 	l2_frame 	"decoded data" 	B


VAR 	relative_pos 	"relative position" 	B


VAR 	fn 	"full frame number" 	L


VAR 	imsi_mod 	"see description" 	S


VAR 	split_pg_cycle 	"SPLIT_PG_CYCLE" 	S


VAR 	bs_pag_blks_res 	"BS_PAG_BLKS_RES" 	B

VAL 	@p_mphp - VAL_bs_pag_blks_res@ 	

VAR 	page_mode 	"PAGE_MODE" 	B

VAL 	@p_mphp - VAL_page_mode@ 	

VAR 	nb_carrier 	"neighbour cell carrier" 	B

VAL 	@p_mphp - VAL_nb_carrier@ 	

VAR 	carrier_list 	"List of carrier" 	S


VAR 	list_id 	"List identifier" 	B


VAR 	nmeas 	"Number of measurements" 	B

VAL 	@p_mphp - VAL_nmeas@ 	

VAR 	reporting_period 	"Reporting period" 	S


VAR 	carrier_id 	"Measurement Carrier Identifier" 	B


VAR 	fn_offset 	"Frame number offset" 	L

VAL 	@p_mphp - VAL_fn_offset@ 	

VAR 	time_alignment 	"Time alignment" 	L

VAL 	@p_mphp - VAL_time_alignment@ 	

VAR 	txpwr 	"" 	B


VAR 	rand 	"" 	S


VAR 	channel_request_data 	"" 	S


VAR 	poll_data 	"" 	B


VAR 	bs_prach_blks 	"" 	B

VAL 	@p_mphp - VAL_bs_prach_blks@ 	

VAR 	burst_type 	"" 	B

VAL 	@p_mphp - VAL_burst_type@ 	

VAR 	assign_cmd 	"" 	B

VAL 	@p_mphp - VAL_assign_cmd@ 	

VAR 	m_class 	"" 	B

VAL 	@p_mphp - VAL_m_class@ 	

VAR 	repeat_alloc 	"" 	B

VAL 	@p_mphp - VAL_repeat_alloc@ 	

VAR 	ts_mask 	"" 	B


VAR 	ts_override 	"" 	B


VAR 	purpose 	"" 	B

VAL 	@p_mphp - VAL_purpose@ 	

VAR 	ta_value 	"" 	B

VAL 	@p_mphp - VAL_ta_value@ 	

VAR 	ta_index 	"" 	B

VAL 	@p_mphp - VAL_ta_index@ 	

VAR 	ul_tfi 	"" 	B

VAL 	@p_mphp - VAL_ul_tfi@ 	

VAR 	dl_tfi 	"" 	B

VAL 	@p_mphp - VAL_dl_tfi@ 	

VAR 	mac_mode 	"" 	B

VAL 	@p_mphp - VAL_mac_mode@ 	

VAR 	usf_table 	"" 	B


VAR 	usf_gran 	"" 	B

VAL 	@p_mphp - VAL_usf_gran@ 	

VAR 	dl_ctrl_ts 	"" 	B

VAL 	@p_mphp - VAL_dl_ctrl_ts@ 	

VAR 	size_bitmap 	"" 	B

VAL 	@p_mphp - VAL_size_bitmap@ 	

VAR 	bitmap 	"" 	B


VAR 	tbf_start_present 	"" 	B

VAL 	@p_mphp - VAL_tbf_start_present@ 	

VAR 	pb 	"" 	B


VAR 	pc_meas_chan 	"" 	B

VAL 	@p_mphp - VAL_pc_meas_chan@ 	

VAR 	tbf_type 	"" 	B

VAL 	@p_mphp - VAL_tbf_type@ 	

VAR 	pccch_lev 	"" 	B


VAR 	kcn 	"" 	S


VAR 	acc_nbr 	"" 	B


VAR 	rxlev 	"" 	B


VAR 	poll_resp_type 	"" 	B

VAL 	@p_mphp - VAL_poll_resp_type@ 	

VAR 	acc_level 	"" 	S


VAR 	assign_id 	"" 	B


VAR 	p0 	"" 	B


VAR 	bts_pwr_ctl_mode 	"should be BOOL, but BOOL is not valid in SAP" 	B


VAR 	pr_mode 	"should be BOOL, but BOOL is not valid in SAP" 	B


VAR 	sb_status 	"" 	B

VAL 	@p_mphp - VAL_sb_status@ 	

VAR 	if_meas_enable 	"" 	B

VAL 	@p_mphp - VAL_if_meas_enable@ 	

VAR 	dl_error 	"" 	B


VAR 	rx_lev 	"" 	B


VAR 	p_rf_chan_cnt 	"Number of channels" 	S


VAR 	bcch_carrier 	"BCCH Carrier" 	S


VAR 	p_radio_freq 	"Absolute Radio Frequency Number" 	S





COMP 	int_meas_rxlev 	 "Idle Int. Meas. Level"
{
 	rx_lev 	[2] 	 ; Downlink Control Timeslot
}



COMP 	p_timing_advance 	 ""
{
 	ta_value 	 ; timing advance value
 	ta_index 	 ; timing advance index
 	tn 	 ; timing advance timeslot number
}



COMP 	p_dl_alloc 	 ""
{
 	dl_tfi 	 ; Downlink TFI
 	ts_mask 	 ; Downlink Timeslot Allocation
}



COMP 	p_dynamic_alloc 	 ""
{
 	usf_table 	[MAX_USF_TABLE] 	 ; USF Index Table
 	usf_gran 	 ; USF granularity
}



COMP 	p_fixed_alloc 	 ""
{
 	dl_ctrl_ts 	 ; Downlink Control Timeslot
 	size_bitmap 	 ; Allocation Bitmap Length
 	bitmap 	[MAX_ALLOC_BITMAP] 	 ; Allocation Bitmap
}



COMP 	p_ul_alloc 	 ""
{
 	ul_tfi 	 ; Uplink TFI
 	ts_mask 	 ; Uplink Timeslot Allocation
 	p_dynamic_alloc 	 ; Dynamic Allocation
 	p_fixed_alloc 	 ; Fixed Allocation
}



COMP 	p_tbf_start 	 ""
{
 	tbf_start_present 	 ; Starting time present
 	fn 	 ; Full frame number
}



COMP 	p_ncell_meas 	 ""
{
 	rxlev 	 ; RX-Level
}



COMP 	p_rf_ch 	 ""
{
 	arfcn 	 ; Absolute RF
}



COMP 	p_chan_sel 	 ""
{
 	hopping 	 ; Hopping flag
 	p_rf_ch 	 ; Channel Selection Choice
}



COMP 	p_ch_des 	 ""
{
 	p_chan_sel 	 ; Channel Selection
 	tn 	 ; Timeslot number
 	tsc 	 ; Training sequence code
}



COMP 	p_dl_power 	 ""
{
 	p0 	 ; P0
 	bts_pwr_ctl_mode 	 ; BTS_PWR_CTL_MODE
 	pr_mode 	 ; PR_MODE
}



COMP 	p_rf_chan_no 	 "Frequency list"
{
 	p_radio_freq 	[MPHP_NUMC_MA] 	 ; Radio Frequency List
}



COMP 	p_freq_list 	 "list of frequencies"
{
 	p_rf_chan_cnt 	 ; Number of channels
 	p_rf_chan_no 	 ; Radio Frequency List
}



COMP 	p_frequency_par 	 ""
{
 	p_chan_sel 	 ; Channel Selection
 	p_freq_list 	 ; Mobile Allocation
}






; MPHP_SCELL_PBCCH_REQ 	0x021C
; MPHP_DATA_IND 	0x0228
; MPHP_SCELL_PBCCH_STOP_REQ 	0x021D
; MPHP_SCELL_PBCCH_STOP_CON 	0x021E
; MPHP_START_PCCCH_REQ 	0x0219
; MPHP_STOP_PCCCH_REQ 	0x021A
; MPHP_STOP_PCCCH_CON 	0x021B
; MPHP_CR_MEAS_REQ 	0x021F
; MPHP_CR_MEAS_IND 	0x0229
; MPHP_CR_MEAS_STOP_REQ 	0x0220
; MPHP_CR_MEAS_STOP_CON 	0x0221
; MPHP_INT_MEAS_REQ 	0x0222
; MPHP_INT_MEAS_IND 	0x022A
; MPHP_INT_MEAS_STOP_REQ 	0x0223
; MPHP_INT_MEAS_STOP_CON 	0x0224
; MPHP_NCELL_PBCCH_REQ 	0x0225
; MPHP_NCELL_PBCCH_IND 	0x022C
; MPHP_NCELL_PBCCH_STOP_REQ 	0x0226
; MPHP_NCELL_PBCCH_STOP_CON 	0x0227
; MPHP_RA_REQ 	0x0212
; MPHP_RA_CON 	0x0213
; MPHP_RA_STOP_REQ 	0x0214
; MPHP_RA_STOP_CON 	0x0215
; MPHP_POLLING_RESPONSE_REQ 	0x0216
; MPHP_POLLING_IND 	0x0217
; MPHP_ASSIGNMENT_REQ 	0x0206
; MPHP_ASSIGNMENT_CON 	0x0207
; MPHP_REPEAT_UL_FIXED_ALLOC_REQ 	0x020A
; MPHP_REPEAT_UL_FIXED_ALLOC_CON 	0x020B
; MPHP_SINGLE_BLOCK_REQ 	0x0201
; MPHP_SINGLE_BLOCK_CON 	0x0202
; MPHP_STOP_SINGLE_BLOCK_REQ 	0x0203
; MPHP_STOP_SINGLE_BLOCK_CON 	0x0204
; MPHP_TBF_RELEASE_REQ 	0x0208
; MPHP_TBF_RELEASE_CON 	0x0209
; MPHP_PDCH_RELEASE_REQ 	0x020C
; MPHP_PDCH_RELEASE_CON 	0x020D
; MPHP_TIMING_ADVANCE_REQ 	0x020E
; MPHP_TIMING_ADVANCE_CON 	0x020F
; MPHP_UPDATE_PSI_PARAM_REQ 	0x0210
; MPHP_UPDATE_PSI_PARAM_CON 	0x0211
; MPHP_TCR_MEAS_REQ 	0x022D
; MPHP_TCR_MEAS_IND 	0x022E
; MPHP_TINT_MEAS_IND 	0x022B



PRIM 	MPHP_SCELL_PBCCH_REQ 	0x021C
{
 	psi_nr 	 ; PSI number
 	bs_pbcch_blks 	 ; Number of PBCCH blocks
 	pb 	 ; Power reduction value
 	psi1_rep_period 	 ; Occurrence of PSI1
 	relative_pos_array 	[MAX_RELATIVE_POS] 	 ; Position of other PSIs
 	p_ch_des 	 ; Packet Channel Description
 	p_freq_list 	 ; Mobile allocation
}






PRIM 	MPHP_DATA_IND 	0x0228
{
 	arfcn 	 ; Radio frequency; belongs to BCCH !! not to any GPRS channel
 	l2_channel 	 ; Layer2 channel
 	error_flag 	 ; Error flag
 	l2_frame 	[MAX_L2_FRAME_SIZE] 	 ; Decoded data
 	relative_pos 	 ; Relative position
 	pccch_lev 	 ; PCCCH_LEV
 	fn 	 ; Full frame number
}






PRIM 	MPHP_SCELL_PBCCH_STOP_REQ 	0x021D
{
}






PRIM 	MPHP_SCELL_PBCCH_STOP_CON 	0x021E
{
}






PRIM 	MPHP_START_PCCCH_REQ 	0x0219
{
 	imsi_mod 	 ; IMSImod
 	kcn 	 ; KCN
 	split_pg_cycle 	 ; SPLIT_PG_CYCLE
 	bs_pag_blks_res 	 ; BS_PAG_BLKS_RES
 	bs_pbcch_blks 	 ; BS_PBCCH_BLKS
 	pb 	 ; Power reduction value
 	page_mode 	 ; Page mode
 	p_ch_des 	 ; Packet Channel Description
 	p_freq_list 	 ; Mobile allocation
}






PRIM 	MPHP_STOP_PCCCH_REQ 	0x021A
{
}






PRIM 	MPHP_STOP_PCCCH_CON 	0x021B
{
}






PRIM 	MPHP_CR_MEAS_REQ 	0x021F
{
 	nb_carrier 	 ; Number of neighbour cell carrier
 	carrier_list 	[MPHP_NUMC_BA_GPRS_SC] 	 ; List of carrier
 	list_id 	 ; List identifier
}






PRIM 	MPHP_CR_MEAS_IND 	0x0229
{
 	nmeas 	 ; Number of measurements reported
 	p_ncell_meas 	[MPHP_NUMC_BA_GPRS_SC] 	 ; NCELL Measurements
 	list_id 	 ; List identifier
 	reporting_period 	 ; Reporting period
}






PRIM 	MPHP_CR_MEAS_STOP_REQ 	0x0220
{
}






PRIM 	MPHP_CR_MEAS_STOP_CON 	0x0221
{
}






PRIM 	MPHP_INT_MEAS_REQ 	0x0222
{
 	p_frequency_par 	 ; Frequency parameter
 	carrier_id 	 ; Measurement Carrier Identifier
 	ts_mask 	 ; Timeslot number
 	m_class 	 ; Multislot class
}






PRIM 	MPHP_INT_MEAS_IND 	0x022A
{
 	int_meas_rxlev 	[8] 	 ; Idle Int. Meas. Level
 	carrier_id 	 ; Measurement carrier identifier
}






PRIM 	MPHP_INT_MEAS_STOP_REQ 	0x0223
{
}






PRIM 	MPHP_INT_MEAS_STOP_CON 	0x0224
{
}






PRIM 	MPHP_NCELL_PBCCH_REQ 	0x0225
{
 	bs_pbcch_blks 	 ; Number of PBCCH blocks
 	pb 	 ; PB
 	psi1_rep_period 	 ; Occurrence of PSI1
 	relative_pos 	 ; Relative position
 	p_ch_des 	 ; Packet Channel Description
 	p_freq_list 	 ; Mobile allocation list
 	bcch_carrier 	 ; BCCH Carrier
 	fn_offset 	 ; Frame number offset
 	time_alignment 	 ; Time alignment
}






PRIM 	MPHP_NCELL_PBCCH_IND 	0x022C
{
 	arfcn 	 ; Radio frequency
 	l2_channel 	 ; Layer2 channel
 	error_flag 	 ; Error flag
 	l2_frame 	[MAX_L2_FRAME_SIZE] 	 ; Decoded data
 	relative_pos 	 ; Relative position
 	pccch_lev 	 ; PCCCH_LEV
 	fn 	 ; Full frame number
}






PRIM 	MPHP_NCELL_PBCCH_STOP_REQ 	0x0226
{
}






PRIM 	MPHP_NCELL_PBCCH_STOP_CON 	0x0227
{
}






PRIM 	MPHP_RA_REQ 	0x0212
{
 	txpwr 	 ; Transmit power
 	rand 	 ; Delay
 	channel_request_data 	 ; Channel request data
 	bs_prach_blks 	 ; BS_PRACH_BLKS
 	burst_type 	 ; Access burst type
}






PRIM 	MPHP_RA_CON 	0x0213
{
 	fn 	 ; Full frame number
 	channel_request_data 	 ; Channel request data
}






PRIM 	MPHP_RA_STOP_REQ 	0x0214
{
}






PRIM 	MPHP_RA_STOP_CON 	0x0215
{
}






PRIM 	MPHP_POLLING_RESPONSE_REQ 	0x0216
{
 	poll_resp_type 	 ; Polling Response Type
 	poll_data 	[MAX_L2_FRAME_SIZE+1] 	 ; polling request data
 	fn 	 ; Full frame number
 	ta_index 	 ; timing advance index
 	txpwr 	 ; Transmit power
}






PRIM 	MPHP_POLLING_IND 	0x0217
{
 	fn 	 ; Frame number
}






PRIM 	MPHP_ASSIGNMENT_REQ 	0x0206
{
 	assign_id 	 ; Assignment ID
 	assign_cmd 	 ; Assignment command
 	m_class 	 ; Multislot class
 	if_meas_enable 	 ; INTERF_MEAS_ENABLE
 	pc_meas_chan 	 ; PC_MEAS_CHAN
 	burst_type 	 ; Access burst type
 	p_timing_advance 	 ; Packet timing advance
 	p_dl_power 	 ; Downlink Power Control
 	tsc 	 ; Training sequence code
 	p_frequency_par 	 ; Frequency parameter
 	p_tbf_start 	 ; TBF starting time
 	mac_mode 	 ; MAC Mode
 	p_dl_alloc 	 ; Downlink resource allocation
 	p_ul_alloc 	 ; Uplink resource allocation
}






PRIM 	MPHP_ASSIGNMENT_CON 	0x0207
{
 	assign_id 	 ; Assignment ID
}






PRIM 	MPHP_REPEAT_UL_FIXED_ALLOC_REQ 	0x020A
{
 	repeat_alloc 	 ; Repeat allocation
 	ts_override 	 ; Timeslot override
 	p_tbf_start 	 ; TBF starting time
}






PRIM 	MPHP_REPEAT_UL_FIXED_ALLOC_CON 	0x020B
{
}






PRIM 	MPHP_SINGLE_BLOCK_REQ 	0x0201
{
 	assign_id 	 ; Assignment ID
 	purpose 	 ; Single Block Purpose
 	pc_meas_chan 	 ; PC_MEAS_CHAN
 	burst_type 	 ; Access burst type
 	p_timing_advance 	 ; Packet timing advance
 	p_dl_power 	 ; Downlink Power Control
 	tsc 	 ; Training sequence code
 	p_frequency_par 	 ; Frequency parameter
 	p_tbf_start 	 ; TBF starting time
 	tn 	 ; Timeslot number
 	l2_frame 	[MAX_L2_FRAME_SIZE] 	 ; Decoded data
}






PRIM 	MPHP_SINGLE_BLOCK_CON 	0x0202
{
 	assign_id 	 ; Assignment ID
 	purpose 	 ; Single Block Purpose
 	sb_status 	 ; Single Block Status
 	dl_error 	 ; Downlink Error Flag
 	l2_frame 	[MAX_L2_FRAME_SIZE] 	 ; Decoded data
}






PRIM 	MPHP_STOP_SINGLE_BLOCK_REQ 	0x0203
{
}






PRIM 	MPHP_STOP_SINGLE_BLOCK_CON 	0x0204
{
}






PRIM 	MPHP_TBF_RELEASE_REQ 	0x0208
{
 	tbf_type 	 ; TBF Type
}






PRIM 	MPHP_TBF_RELEASE_CON 	0x0209
{
 	tbf_type 	 ; TBF Type
}






PRIM 	MPHP_PDCH_RELEASE_REQ 	0x020C
{
 	assign_id 	 ; Assignment ID
 	ts_mask 	 ; Timeslots available
}






PRIM 	MPHP_PDCH_RELEASE_CON 	0x020D
{
 	assign_id 	 ; Assignment ID
}






PRIM 	MPHP_TIMING_ADVANCE_REQ 	0x020E
{
 	assign_id 	 ; Assignment ID
 	p_timing_advance 	 ; Packet timing advance
}






PRIM 	MPHP_TIMING_ADVANCE_CON 	0x020F
{
 	assign_id 	 ; Assignment ID
}






PRIM 	MPHP_UPDATE_PSI_PARAM_REQ 	0x0210
{
 	pb 	 ; Pb
 	burst_type 	 ; Access burst type
}






PRIM 	MPHP_UPDATE_PSI_PARAM_CON 	0x0211
{
}






PRIM 	MPHP_TCR_MEAS_REQ 	0x022D
{
 	nb_carrier 	 ; Number of neighbour cell carrier
 	carrier_list 	[MPHP_NUMC_BA_GPRS_SC] 	 ; List of carrier
 	list_id 	 ; List identifier
}






PRIM 	MPHP_TCR_MEAS_IND 	0x022E
{
 	acc_level 	[MPHP_NUMC_BA_GPRS_SC] 	 ; Power strength level N-Cell
 	acc_nbr 	[MPHP_NUMC_BA_GPRS_SC] 	 ; Frequency Channel Number
 	list_id 	 ; List identifier
}






PRIM 	MPHP_TINT_MEAS_IND 	0x022B
{
 	int_meas_rxlev 	[8] 	 ; Idle Int. Meas. Level
 	carrier_id 	 ; Measurement carrier identifier
}