FreeCalypso > hg > fc-magnetite
view cdg3/cdginc-locosto/p_mphc.h @ 604:a7ed7d4483b0
main assembly boot path code: MEMIF change for 26 MHz targets
as explained in the MEMIF-wait-states document
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Mon, 17 Jun 2019 02:11:17 +0000 |
parents | c15047b3d00d |
children |
line wrap: on
line source
/* +--------------------------------------------------------------------------+ | PROJECT : PROTOCOL STACK | | FILE : p_mphc.h | | SOURCE : "sap\mphc.pdf" | | LastModified : "2003-04-03" | | IdAndVersion : "10.10.10.011" | | SrcFileTime : "Thu Nov 29 09:49:44 2007" | | Generated by CCDGEN_2.5.5A on Thu Sep 25 09:18:53 2014 | | !!DO NOT MODIFY!!DO NOT MODIFY!!DO NOT MODIFY!! | +--------------------------------------------------------------------------+ */ /* PRAGMAS * PREFIX : NONE * COMPATIBILITY_DEFINES : NO (require PREFIX) * ALWAYS_ENUM_IN_VAL_FILE: NO * ENABLE_GROUP: NO * CAPITALIZE_TYPENAME: NO */ #ifndef P_MPHC_H #define P_MPHC_H #define CDG_ENTER__P_MPHC_H #define CDG_ENTER__FILENAME _P_MPHC_H #define CDG_ENTER__P_MPHC_H__FILE_TYPE CDGINC #define CDG_ENTER__P_MPHC_H__LAST_MODIFIED _2003_04_03 #define CDG_ENTER__P_MPHC_H__ID_AND_VERSION _10_10_10_011 #define CDG_ENTER__P_MPHC_H__SRC_FILE_TIME _Thu_Nov_29_09_49_44_2007 #include "CDG_ENTER.h" #undef CDG_ENTER__P_MPHC_H #undef CDG_ENTER__FILENAME #include "p_mphc.val" #ifndef __T_schedule_array__ #define __T_schedule_array__ /* * positional info * CCDGEN:WriteStruct_Count==2096 */ typedef struct { U16 modulus; /*< 0: 2> modulo part */ U16 relative_position; /*< 2: 2> relative part */ } T_schedule_array; #endif #ifndef __T_l2_frame__ #define __T_l2_frame__ /* * layer 2 frame * CCDGEN:WriteStruct_Count==2097 */ typedef struct { U8 content[MAX_L2_FRAME_SIZE]; /*< 0: 23> frame content */ U8 _align0; /*< 23: 1> alignment */ } T_l2_frame; #endif #ifndef __T_chan_list__ #define __T_chan_list__ /* * channel list * CCDGEN:WriteStruct_Count==2098 */ typedef struct { U16 radio_freq[BA_LIST_SIZE]; /*< 0: 66> channel number */ U8 _align0; /*< 66: 1> alignment */ U8 _align1; /*< 67: 1> alignment */ } T_chan_list; #endif #ifndef __T_result__ #define __T_result__ /* * measurement results * CCDGEN:WriteStruct_Count==2099 */ typedef struct { U16 radio_freq; /*< 0: 2> channel number */ U8 rxlev; /*< 2: 1> The accumulated result of a power measurements. The signal strength units used are based on those described in GSM 05.08 (ETS 300 911) section 8.1.4. The measurements continue above 63 and below 0 */ U8 _align0; /*< 3: 1> alignment */ } T_result; #endif #ifndef __T_rf_channel__ #define __T_rf_channel__ /* * channel choice * CCDGEN:WriteStruct_Count==2100 */ typedef struct { U8 maio; /*< 0: 1> mobile allocation index offset */ U8 hsn; /*< 1: 1> hopping sequence number */ U8 _align0; /*< 2: 1> alignment */ U8 _align1; /*< 3: 1> alignment */ } T_rf_channel; #endif #ifndef __T_chan_sel__ #define __T_chan_sel__ /* * channel selector * CCDGEN:WriteStruct_Count==2101 */ typedef struct { U8 h; /*< 0: 1> hopping */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ T_rf_channel rf_channel; /*< 4: 4> channel choice */ } T_chan_sel; #endif #ifndef __T_cbch_desc__ #define __T_cbch_desc__ /* * CBCH channel description * CCDGEN:WriteStruct_Count==2102 */ typedef struct { T_chan_sel chan_sel; /*< 0: 8> channel selector */ U8 channel_type; /*< 8: 1> SDCCH channel type */ U8 sub_channel; /*< 9: 1> sub channel */ U8 timeslot_no; /*< 10: 1> timeslot number */ U8 tsc; /*< 11: 1> training sequence code */ } T_cbch_desc; #endif /* * channel description * CCDGEN:WriteStruct_Count==2103 */ #ifndef __T_channel_desc__ #define __T_channel_desc__ typedef T_cbch_desc T_channel_desc; #endif /* * channel description * CCDGEN:WriteStruct_Count==2104 */ #ifndef __T_channel_desc_1__ #define __T_channel_desc_1__ typedef T_cbch_desc T_channel_desc_1; #endif /* * channel description * CCDGEN:WriteStruct_Count==2105 */ #ifndef __T_channel_desc_2__ #define __T_channel_desc_2__ typedef T_cbch_desc T_channel_desc_2; #endif /* * channel description before starting time * CCDGEN:WriteStruct_Count==2106 */ #ifndef __T_channel_desc_1_bef_sti__ #define __T_channel_desc_1_bef_sti__ typedef T_cbch_desc T_channel_desc_1_bef_sti; #endif /* * channel description before starting time * CCDGEN:WriteStruct_Count==2107 */ #ifndef __T_channel_desc_2_bef_sti__ #define __T_channel_desc_2_bef_sti__ typedef T_cbch_desc T_channel_desc_2_bef_sti; #endif #ifndef __T_rf_chan_no__ #define __T_rf_chan_no__ /* * channel list * CCDGEN:WriteStruct_Count==2108 */ typedef struct { U16 radio_freq[MAX_MA_CARRIER]; /*< 0:128> channel number */ } T_rf_chan_no; #endif #ifndef __T_cbch_freq_list__ #define __T_cbch_freq_list__ /* * CBCH frequency list * CCDGEN:WriteStruct_Count==2109 */ typedef struct { U16 rf_chan_cnt; /*< 0: 2> number of channels in the mobile allocation list or number of bcch in the list */ U8 _align0; /*< 2: 1> alignment */ U8 _align1; /*< 3: 1> alignment */ T_rf_chan_no rf_chan_no; /*< 4:128> channel list */ } T_cbch_freq_list; #endif /* * frequency list * CCDGEN:WriteStruct_Count==2110 */ #ifndef __T_frequency_list__ #define __T_frequency_list__ typedef T_cbch_freq_list T_frequency_list; #endif /* * frequency list before starting time * CCDGEN:WriteStruct_Count==2111 */ #ifndef __T_frequency_list_bef_sti__ #define __T_frequency_list_bef_sti__ typedef T_cbch_freq_list T_frequency_list_bef_sti; #endif #ifndef __T_start_time__ #define __T_start_time__ /* * starting time * CCDGEN:WriteStruct_Count==2112 */ typedef struct { U8 t1; /*< 0: 1> N32; named n32 in S922.doc */ U8 t3; /*< 1: 1> N51; named n51 in S922.doc */ U8 t2; /*< 2: 1> N26; named n26 in S922.doc */ U8 _align0; /*< 3: 1> alignment */ } T_start_time; #endif #ifndef __T_starting_time__ #define __T_starting_time__ /* * starting time * CCDGEN:WriteStruct_Count==2113 */ typedef struct { U8 start_time_present; /*< 0: 1> start time present */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ T_start_time start_time; /*< 4: 4> starting time */ } T_starting_time; #endif #ifndef __T_new_ciph_param__ #define __T_new_ciph_param__ /* * Cipher Key Kc * CCDGEN:WriteStruct_Count==2114 */ typedef struct { U8 A[MAX_KC_STRING_SIZE]; /*< 0: 16> Kc values */ } T_new_ciph_param; #endif /* * encryption key * CCDGEN:WriteStruct_Count==2115 */ #ifndef __T_cipher_key__ #define __T_cipher_key__ typedef T_new_ciph_param T_cipher_key; #endif #ifndef __T_cell_description__ #define __T_cell_description__ /* * cell description * CCDGEN:WriteStruct_Count==2116 */ typedef struct { U8 ncc; /*< 0: 1> national colour code */ U8 bcc; /*< 1: 1> base station colour code */ U16 bcch_carrier; /*< 2: 2> BCCH carrier */ } T_cell_description; #endif #ifndef __T_handover_command__ #define __T_handover_command__ /* * Handover Command * CCDGEN:WriteStruct_Count==2117 */ typedef struct { T_cell_description cell_description; /*< 0: 4> cell description */ T_channel_desc_1 channel_desc_1; /*< 4: 12> channel description */ U8 channel_mode_1; /*< 16: 1> channel mode */ U8 _align0; /*< 17: 1> alignment */ U8 _align1; /*< 18: 1> alignment */ U8 _align2; /*< 19: 1> alignment */ T_starting_time starting_time; /*< 20: 8> starting time */ U8 ho_acc; /*< 28: 1> handover access */ U8 txpwr; /*< 29: 1> Indicates the power level which the mobile should use for transmission . */ U8 report_time_diff; /*< 30: 1> time difference */ U8 _align3; /*< 31: 1> alignment */ T_frequency_list frequency_list; /*< 32:132> frequency list */ T_channel_desc_2 channel_desc_2; /*<164: 12> channel description */ U8 channel_mode_2; /*<176: 1> channel mode */ U8 _align4; /*<177: 1> alignment */ U8 _align5; /*<178: 1> alignment */ U8 _align6; /*<179: 1> alignment */ T_frequency_list_bef_sti frequency_list_bef_sti; /*<180:132> frequency list before starting time */ T_channel_desc_1_bef_sti channel_desc_1_bef_sti; /*<312: 12> channel description before starting time */ T_channel_desc_2_bef_sti channel_desc_2_bef_sti; /*<324: 12> channel description before starting time */ U8 cipher_mode; /*<336: 1> cipher mode */ U8 a5_algorithm; /*<337: 1> A5 algorithm */ U8 _align7; /*<338: 1> alignment */ U8 _align8; /*<339: 1> alignment */ } T_handover_command; #endif #ifndef __T_res_list__ #define __T_res_list__ /* * neighbour cell measurement results * CCDGEN:WriteStruct_Count==2118 */ typedef struct { U16 bcch_freq; /*< 0: 2> channel number */ U16 rxlev_acc; /*< 2: 2> accumulated rx level */ U8 rxlev_nbr_meas; /*< 4: 1> nbr of rxlevel samples */ U8 _align0; /*< 5: 1> alignment */ U8 _align1; /*< 6: 1> alignment */ U8 _align2; /*< 7: 1> alignment */ } T_res_list; #endif #ifndef __T_ncell_meas__ #define __T_ncell_meas__ /* * neighbour cell measurement results * CCDGEN:WriteStruct_Count==2119 */ typedef struct { T_res_list res_list[BA_LIST_SIZE]; /*< 0:264> neighbour cell measurement results */ } T_ncell_meas; #endif #ifndef __T_chan_number__ #define __T_chan_number__ /* * channel list * CCDGEN:WriteStruct_Count==2120 */ typedef struct { U16 radio_freq[BCCH_LIST_SIZE]; /*< 0: 64> channel number */ } T_chan_number; #endif #ifndef __T_bcch_allocation__ #define __T_bcch_allocation__ /* * BCCH allocation * CCDGEN:WriteStruct_Count==2121 */ typedef struct { U16 rf_chan_cnt; /*< 0: 2> number of channels in the mobile allocation list or number of bcch in the list */ U8 _align0; /*< 2: 1> alignment */ U8 _align1; /*< 3: 1> alignment */ T_chan_number chan_number; /*< 4: 64> channel list */ } T_bcch_allocation; #endif #ifndef __T_amr_configuration__ #define __T_amr_configuration__ /* * Parameters for AMR * CCDGEN:WriteStruct_Count==2122 */ typedef struct { U8 noise_suppression_control_bit; /*< 0: 1> noise suppression control bit */ U8 initial_codec_mode_indicator; /*< 1: 1> initial code mode indicator */ U8 initial_codec_mode; /*< 2: 1> initial code mode */ U8 active_codec_set; /*< 3: 1> active codec set */ U8 threshold[3]; /*< 4: 3> threshold */ U8 hysteresis[3]; /*< 7: 3> hysteresis */ U8 _align0; /*< 10: 1> alignment */ U8 _align1; /*< 11: 1> alignment */ } T_amr_configuration; #endif #ifndef __T_ncell_list__ #define __T_ncell_list__ /* * Parameters of a neighbour cell * CCDGEN:WriteStruct_Count==2123 */ typedef struct { U16 radio_freq; /*< 0: 2> channel number */ U8 _align0; /*< 2: 1> alignment */ U8 _align1; /*< 3: 1> alignment */ U32 fn_offset; /*< 4: 4> frame offset */ U32 time_alignment; /*< 8: 4> Difference in quarter bits between the first bit in a frame of the serving cell and the first bit in the next frame of the non-serving cell. Validity of time_alignment dependent upon timing_validity indication. (0 - 4999) */ U8 timing_validity; /*< 12: 1> timing validity */ U8 _align2; /*< 13: 1> alignment */ U8 _align3; /*< 14: 1> alignment */ U8 _align4; /*< 15: 1> alignment */ } T_ncell_list; #endif // STRUCT-FF: !TI_DUAL_MODE #ifndef __T_RADIO_FRAME__ #define __T_RADIO_FRAME__ /* * Layer 2 frame * CCDGEN:WriteStruct_Count==2124 */ typedef struct { U8 A[MAX_L2_FRAME_SIZE]; /*< 0: 23> frame content */ U8 _align0; /*< 23: 1> alignment */ } T_RADIO_FRAME; #endif // STRUCT-FF: TI_PS_FF_QUAD_BAND_SUPPORT #ifndef __T_multiband_power_class__ #define __T_multiband_power_class__ /* * Power Class information for multiple bands * CCDGEN:WriteStruct_Count==2125 */ typedef struct { U8 radio_band; /*< 0: 1> Radio Bands Supported */ U8 power_class; /*< 1: 1> Power Class associated with each radio band */ U8 _align0; /*< 2: 1> alignment */ U8 _align1; /*< 3: 1> alignment */ } T_multiband_power_class; #endif /* * End of substructure section, begin of primitive definition section */ #ifndef __T_MPHC_NETWORK_SYNC_REQ__ #define __T_MPHC_NETWORK_SYNC_REQ__ /* * * CCDGEN:WriteStruct_Count==2126 */ typedef struct { U16 radio_freq; /*< 0: 2> channel number */ U8 _align0; /*< 2: 1> alignment */ U8 _align1; /*< 3: 1> alignment */ U32 fn_offset; /*< 4: 4> frame offset */ U32 time_alignment; /*< 8: 4> Difference in quarter bits between the first bit in a frame of the serving cell and the first bit in the next frame of the non-serving cell. Validity of time_alignment dependent upon timing_validity indication. (0 - 4999) */ U8 timing_validity; /*< 12: 1> timing validity */ U8 search_mode; /*< 13: 1> search mode */ U8 _align2; /*< 14: 1> alignment */ U8 _align3; /*< 15: 1> alignment */ } T_MPHC_NETWORK_SYNC_REQ; #endif #ifndef __T_MPHC_NETWORK_SYNC_IND__ #define __T_MPHC_NETWORK_SYNC_IND__ /* * * CCDGEN:WriteStruct_Count==2127 */ typedef struct { U16 radio_freq; /*< 0: 2> channel number */ U8 sb_flag; /*< 2: 1> Flag indicating whether synchronisation channel was read correctly or not */ U8 _align0; /*< 3: 1> alignment */ U32 fn_offset; /*< 4: 4> frame offset */ U32 time_alignment; /*< 8: 4> Difference in quarter bits between the first bit in a frame of the serving cell and the first bit in the next frame of the non-serving cell. Validity of time_alignment dependent upon timing_validity indication. (0 - 4999) */ U8 bsic; /*< 12: 1> base station identification code */ U8 _align1; /*< 13: 1> alignment */ U8 _align2; /*< 14: 1> alignment */ U8 _align3; /*< 15: 1> alignment */ } T_MPHC_NETWORK_SYNC_IND; #endif #ifndef __T_MPHC_STOP_NETWORK_SYNC_REQ__ #define __T_MPHC_STOP_NETWORK_SYNC_REQ__ /* * * CCDGEN:WriteStruct_Count==2128 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_STOP_NETWORK_SYNC_REQ; #endif #ifndef __T_MPHC_STOP_NETWORK_SYNC_CON__ #define __T_MPHC_STOP_NETWORK_SYNC_CON__ /* * * CCDGEN:WriteStruct_Count==2129 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_STOP_NETWORK_SYNC_CON; #endif #ifndef __T_MPHC_START_CCCH_REQ__ #define __T_MPHC_START_CCCH_REQ__ /* * * CCDGEN:WriteStruct_Count==2130 */ typedef struct { U8 bs_pa_mfrms; /*< 0: 1> Multiframe Period */ U8 bs_ag_blks_res; /*< 1: 1> Blocks reserved for AGCH */ U8 bcch_combined; /*< 2: 1> combined BCCH flag */ U8 ccch_group; /*< 3: 1> CCCH group */ U8 page_group; /*< 4: 1> paging group */ U8 page_block_index; /*< 5: 1> page block index */ U8 page_mode; /*< 6: 1> paging mode */ U8 _align0; /*< 7: 1> alignment */ } T_MPHC_START_CCCH_REQ; #endif #ifndef __T_MPHC_STOP_CCCH_REQ__ #define __T_MPHC_STOP_CCCH_REQ__ /* * * CCDGEN:WriteStruct_Count==2131 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_STOP_CCCH_REQ; #endif #ifndef __T_MPHC_STOP_CCCH_CON__ #define __T_MPHC_STOP_CCCH_CON__ /* * * CCDGEN:WriteStruct_Count==2132 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_STOP_CCCH_CON; #endif #ifndef __T_MPHC_SCELL_NBCCH_REQ__ #define __T_MPHC_SCELL_NBCCH_REQ__ /* * * CCDGEN:WriteStruct_Count==2133 */ typedef struct { U8 schedule_array_size; /*< 0: 1> number of channel numbers */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ T_schedule_array schedule_array[MAX_SCHED_SIZE]; /*< 4: 40> positional info */ } T_MPHC_SCELL_NBCCH_REQ; #endif #ifndef __T_MPHC_SCELL_EBCCH_REQ__ #define __T_MPHC_SCELL_EBCCH_REQ__ /* * * CCDGEN:WriteStruct_Count==2134 */ typedef struct { U8 schedule_array_size; /*< 0: 1> number of channel numbers */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ T_schedule_array schedule_array[MAX_SCHED_SIZE]; /*< 4: 40> positional info */ } T_MPHC_SCELL_EBCCH_REQ; #endif #ifndef __T_MPHC_STOP_SCELL_BCCH_REQ__ #define __T_MPHC_STOP_SCELL_BCCH_REQ__ /* * * CCDGEN:WriteStruct_Count==2135 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_STOP_SCELL_BCCH_REQ; #endif #ifndef __T_MPHC_STOP_SCELL_BCCH_CON__ #define __T_MPHC_STOP_SCELL_BCCH_CON__ /* * * CCDGEN:WriteStruct_Count==2136 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_STOP_SCELL_BCCH_CON; #endif #ifndef __T_MPHC_DATA_IND__ #define __T_MPHC_DATA_IND__ /* * * CCDGEN:WriteStruct_Count==2137 */ typedef struct { U16 radio_freq; /*< 0: 2> channel number */ U8 l2_channel; /*< 2: 1> layer 2 channel type */ U8 error_flag; /*< 3: 1> error cause */ T_l2_frame l2_frame; /*< 4: 24> layer 2 frame */ U8 tc; /*< 28: 1> multiframe number modulo 8 */ U8 ccch_lev; /*< 29: 1> Power strength level */ U8 _align0; /*< 30: 1> alignment */ U8 _align1; /*< 31: 1> alignment */ U32 fn; /*< 32: 4> frame number */ } T_MPHC_DATA_IND; #endif #ifndef __T_MPHC_NCELL_SYNC_REQ__ #define __T_MPHC_NCELL_SYNC_REQ__ /* * * CCDGEN:WriteStruct_Count==2138 */ typedef struct { U16 radio_freq; /*< 0: 2> channel number */ U8 _align0; /*< 2: 1> alignment */ U8 _align1; /*< 3: 1> alignment */ U32 fn_offset; /*< 4: 4> frame offset */ U32 time_alignment; /*< 8: 4> Difference in quarter bits between the first bit in a frame of the serving cell and the first bit in the next frame of the non-serving cell. Validity of time_alignment dependent upon timing_validity indication. (0 - 4999) */ U8 timing_validity; /*< 12: 1> timing validity */ U8 _align2; /*< 13: 1> alignment */ U8 _align3; /*< 14: 1> alignment */ U8 _align4; /*< 15: 1> alignment */ } T_MPHC_NCELL_SYNC_REQ; #endif #ifndef __T_MPHC_NCELL_LIST_SYNC_REQ__ #define __T_MPHC_NCELL_LIST_SYNC_REQ__ /* * * CCDGEN:WriteStruct_Count==2139 */ typedef struct { U8 eotd; /*< 0: 1> EOTD or neighbour cell monitoring */ U8 list_size; /*< 1: 1> 1 up to 12 neighbour cells */ U8 _align0; /*< 2: 1> alignment */ U8 _align1; /*< 3: 1> alignment */ T_ncell_list ncell_list[MAX_NCELL_EOTD_L1]; /*< 4:192> Parameters of a neighbour cell */ } T_MPHC_NCELL_LIST_SYNC_REQ; #endif #ifndef __T_MPHC_NCELL_SYNC_IND__ #define __T_MPHC_NCELL_SYNC_IND__ /* * * CCDGEN:WriteStruct_Count==2140 */ typedef struct { U16 radio_freq; /*< 0: 2> channel number */ U8 sb_flag; /*< 2: 1> Flag indicating whether synchronisation channel was read correctly or not */ U8 _align0; /*< 3: 1> alignment */ U32 fn_offset; /*< 4: 4> frame offset */ U32 time_alignment; /*< 8: 4> Difference in quarter bits between the first bit in a frame of the serving cell and the first bit in the next frame of the non-serving cell. Validity of time_alignment dependent upon timing_validity indication. (0 - 4999) */ U8 bsic; /*< 12: 1> base station identification code */ U8 neigh_id; /*< 13: 1> reserved */ U8 attempt; /*< 14: 1> reserved */ U8 _align1; /*< 15: 1> alignment */ U32 pm; /*< 16: 4> reserved */ U32 toa; /*< 20: 4> reserved */ U32 angle; /*< 24: 4> reserved */ U32 snr; /*< 28: 4> reserved */ U8 eodt_data_valid; /*< 32: 1> EOTD data present */ U8 mode; /*< 33: 1> idle or dedicated mode */ S16 d_eotd_first; /*< 34: 2> Delay to first correlation */ S16 d_eotd_max; /*< 36: 2> Delay to maximum correlation */ U8 _align2; /*< 38: 1> alignment */ U8 _align3; /*< 39: 1> alignment */ U32 d_eotd_nrj; /*< 40: 4> sum of amplitudes */ S16 a_eotd_crosscor[18]; /*< 44: 36> Cross correlation */ U32 time_tag; /*< 80: 4> Time tag */ U32 fn_sb_neigh; /*< 84: 4> reserved */ U32 fn_in_sb; /*< 88: 4> reserved */ U32 toa_correction; /*< 92: 4> reserved */ U32 delta_fn; /*< 96: 4> reserved */ U32 delta_qbit; /*<100: 4> reserved */ } T_MPHC_NCELL_SYNC_IND; #endif #ifndef __T_MPHC_STOP_NCELL_SYNC_REQ__ #define __T_MPHC_STOP_NCELL_SYNC_REQ__ /* * * CCDGEN:WriteStruct_Count==2141 */ typedef struct { U8 radio_freq_array_size; /*< 0: 1> Number of entries in the radio_freq_array within a stop request. When 6 (maximum number of requests to be served in parallel) are provided the message is interpreted as a complete process stop request. */ U8 _align0; /*< 1: 1> alignment */ U16 radio_freq_array[MAX_NCELL_EOTD_L1]; /*< 2: 24> channel list */ U8 _align1; /*< 26: 1> alignment */ U8 _align2; /*< 27: 1> alignment */ } T_MPHC_STOP_NCELL_SYNC_REQ; #endif #ifndef __T_MPHC_STOP_NCELL_SYNC_CON__ #define __T_MPHC_STOP_NCELL_SYNC_CON__ /* * * CCDGEN:WriteStruct_Count==2142 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_STOP_NCELL_SYNC_CON; #endif #ifndef __T_MPHC_NCELL_BCCH_REQ__ #define __T_MPHC_NCELL_BCCH_REQ__ /* * * CCDGEN:WriteStruct_Count==2143 */ typedef struct { U16 radio_freq; /*< 0: 2> channel number */ U8 _align0; /*< 2: 1> alignment */ U8 _align1; /*< 3: 1> alignment */ U32 fn_offset; /*< 4: 4> frame offset */ U32 time_alignment; /*< 8: 4> Difference in quarter bits between the first bit in a frame of the serving cell and the first bit in the next frame of the non-serving cell. Validity of time_alignment dependent upon timing_validity indication. (0 - 4999) */ U8 tsc; /*< 12: 1> training sequence code */ U8 _align2; /*< 13: 1> alignment */ U16 bcch_blocks_required; /*< 14: 2> sys info bitmap */ U8 gprs_prio; /*< 16: 1> Gprs priority */ U8 _align3; /*< 17: 1> alignment */ U8 _align4; /*< 18: 1> alignment */ U8 _align5; /*< 19: 1> alignment */ } T_MPHC_NCELL_BCCH_REQ; #endif #ifndef __T_MPHC_NCELL_BCCH_IND__ #define __T_MPHC_NCELL_BCCH_IND__ /* * * CCDGEN:WriteStruct_Count==2144 */ typedef struct { U16 radio_freq; /*< 0: 2> channel number */ U8 l2_channel; /*< 2: 1> layer 2 channel type */ U8 error_flag; /*< 3: 1> error cause */ T_l2_frame l2_frame; /*< 4: 24> layer 2 frame */ U8 tc; /*< 28: 1> multiframe number modulo 8 */ U8 _align0; /*< 29: 1> alignment */ U8 _align1; /*< 30: 1> alignment */ U8 _align2; /*< 31: 1> alignment */ U32 fn; /*< 32: 4> frame number */ } T_MPHC_NCELL_BCCH_IND; #endif #ifndef __T_MPHC_STOP_NCELL_BCCH_REQ__ #define __T_MPHC_STOP_NCELL_BCCH_REQ__ /* * * CCDGEN:WriteStruct_Count==2145 */ typedef struct { U8 radio_freq_array_size; /*< 0: 1> Number of entries in the radio_freq_array within a stop request. When 6 (maximum number of requests to be served in parallel) are provided the message is interpreted as a complete process stop request. */ U8 _align0; /*< 1: 1> alignment */ U16 radio_freq_array[6]; /*< 2: 12> channel list */ U8 _align1; /*< 14: 1> alignment */ U8 _align2; /*< 15: 1> alignment */ } T_MPHC_STOP_NCELL_BCCH_REQ; #endif #ifndef __T_MPHC_STOP_NCELL_BCCH_CON__ #define __T_MPHC_STOP_NCELL_BCCH_CON__ /* * * CCDGEN:WriteStruct_Count==2146 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_STOP_NCELL_BCCH_CON; #endif #ifndef __T_MPHC_RXLEV_PERIODIC_REQ__ #define __T_MPHC_RXLEV_PERIODIC_REQ__ /* * * CCDGEN:WriteStruct_Count==2147 */ typedef struct { T_chan_list chan_list; /*< 0: 68> channel list */ U8 num_of_chans; /*< 68: 1> Number of valid carrier numbers contained in the BA list (chan_number) array (1 to 33) */ U8 ba_id; /*< 69: 1> band allocation identification */ U8 next_radio_freq_measured; /*< 70: 1> channel index */ U8 _align0; /*< 71: 1> alignment */ } T_MPHC_RXLEV_PERIODIC_REQ; #endif #ifndef __T_MPHC_RXLEV_PERIODIC_IND__ #define __T_MPHC_RXLEV_PERIODIC_IND__ /* * * CCDGEN:WriteStruct_Count==2148 */ typedef struct { T_result result[MAX_MEAS_VALUES]; /*< 0: 32> measurement results */ U8 nbr_of_carriers; /*< 32: 1> The number of cell carriers measured during the PCH block */ U8 s_rxlev; /*< 33: 1> The serving cell received power level (average of the 4 PCH bursts read during the particular PCH block). */ U8 ba_id; /*< 34: 1> band allocation identification */ U8 _align0; /*< 35: 1> alignment */ U32 qual_acc_idle; /*< 36: 4> accumulated rxqual meas. on different channels in Idle mode - error bits */ U32 qual_nbr_meas_idle; /*< 40: 4> accumulated rxqual meas. on different channels in Idle mode - total number of bits decoded */ } T_MPHC_RXLEV_PERIODIC_IND; #endif #ifndef __T_MPHC_STOP_RXLEV_PERIODIC_REQ__ #define __T_MPHC_STOP_RXLEV_PERIODIC_REQ__ /* * * CCDGEN:WriteStruct_Count==2149 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_STOP_RXLEV_PERIODIC_REQ; #endif #ifndef __T_MPHC_STOP_RXLEV_PERIODIC_CON__ #define __T_MPHC_STOP_RXLEV_PERIODIC_CON__ /* * * CCDGEN:WriteStruct_Count==2150 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_STOP_RXLEV_PERIODIC_CON; #endif #ifndef __T_MPHC_RXLEV_REQ__ #define __T_MPHC_RXLEV_REQ__ /* * * CCDGEN:WriteStruct_Count==2151 */ typedef struct { U32 shared_ptr; /*< 0: 4> Pointer */ } T_MPHC_RXLEV_REQ; #endif #ifndef __T_MPHC_RXLEV_IND__ #define __T_MPHC_RXLEV_IND__ /* * * CCDGEN:WriteStruct_Count==2152 */ typedef struct { U32 shared_ptr; /*< 0: 4> Pointer */ } T_MPHC_RXLEV_IND; #endif #ifndef __T_MPHC_STOP_RXLEV_REQ__ #define __T_MPHC_STOP_RXLEV_REQ__ /* * * CCDGEN:WriteStruct_Count==2153 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_STOP_RXLEV_REQ; #endif #ifndef __T_MPHC_STOP_RXLEV_CON__ #define __T_MPHC_STOP_RXLEV_CON__ /* * * CCDGEN:WriteStruct_Count==2154 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_STOP_RXLEV_CON; #endif #ifndef __T_MPHC_CONFIG_CBCH_REQ__ #define __T_MPHC_CONFIG_CBCH_REQ__ /* * * CCDGEN:WriteStruct_Count==2155 */ typedef struct { T_cbch_desc cbch_desc; /*< 0: 12> CBCH channel description */ T_cbch_freq_list cbch_freq_list; /*< 12:132> CBCH frequency list */ } T_MPHC_CONFIG_CBCH_REQ; #endif #ifndef __T_MPHC_CBCH_SCHEDULE_REQ__ #define __T_MPHC_CBCH_SCHEDULE_REQ__ /* * * CCDGEN:WriteStruct_Count==2156 */ typedef struct { U8 cbch_select; /*< 0: 1> which cbch channel to read */ U8 schedule_length; /*< 1: 1> length of schedule period */ U8 _align0; /*< 2: 1> alignment */ U8 _align1; /*< 3: 1> alignment */ U32 first_blocks_0; /*< 4: 4> Bitmap defining a set of blocks to be read during the schedule period. The bits represent the blocks as follows: bit MSB=31 -> block=32; bit LSB=0 -> block=1. */ U16 first_blocks_1; /*< 8: 2> Bitmap defining a set of blocks to be read during the schedule period. The bits represent the blocks as follows: bit MSB=15 -> block=48; bit LSB=0 -> block=33. */ U8 _align2; /*< 10: 1> alignment */ U8 _align3; /*< 11: 1> alignment */ } T_MPHC_CBCH_SCHEDULE_REQ; #endif #ifndef __T_MPHC_CBCH_INFO_REQ__ #define __T_MPHC_CBCH_INFO_REQ__ /* * * CCDGEN:WriteStruct_Count==2157 */ typedef struct { U8 tb_bitmap; /*< 0: 1> blocks to read */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_CBCH_INFO_REQ; #endif #ifndef __T_MPHC_CBCH_UPDATE_REQ__ #define __T_MPHC_CBCH_UPDATE_REQ__ /* * * CCDGEN:WriteStruct_Count==2158 */ typedef struct { U8 cbch_select; /*< 0: 1> which cbch channel to read */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ U32 first_blocks_0; /*< 4: 4> Bitmap defining a set of blocks to be read during the schedule period. The bits represent the blocks as follows: bit MSB=31 -> block=32; bit LSB=0 -> block=1. */ U16 first_blocks_1; /*< 8: 2> Bitmap defining a set of blocks to be read during the schedule period. The bits represent the blocks as follows: bit MSB=15 -> block=48; bit LSB=0 -> block=33. */ U8 _align3; /*< 10: 1> alignment */ U8 _align4; /*< 11: 1> alignment */ } T_MPHC_CBCH_UPDATE_REQ; #endif #ifndef __T_MPHC_STOP_CBCH_REQ__ #define __T_MPHC_STOP_CBCH_REQ__ /* * * CCDGEN:WriteStruct_Count==2159 */ typedef struct { U8 normal_cbch; /*< 0: 1> normal cbch */ U8 extended_cbch; /*< 1: 1> extended cbch */ U8 _align0; /*< 2: 1> alignment */ U8 _align1; /*< 3: 1> alignment */ } T_MPHC_STOP_CBCH_REQ; #endif #ifndef __T_MPHC_STOP_CBCH_CON__ #define __T_MPHC_STOP_CBCH_CON__ /* * * CCDGEN:WriteStruct_Count==2160 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_STOP_CBCH_CON; #endif #ifndef __T_MPHC_NEW_SCELL_REQ__ #define __T_MPHC_NEW_SCELL_REQ__ /* * * CCDGEN:WriteStruct_Count==2161 */ typedef struct { U16 radio_freq; /*< 0: 2> channel number */ U8 _align0; /*< 2: 1> alignment */ U8 _align1; /*< 3: 1> alignment */ U32 fn_offset; /*< 4: 4> frame offset */ U32 time_alignment; /*< 8: 4> Difference in quarter bits between the first bit in a frame of the serving cell and the first bit in the next frame of the non-serving cell. Validity of time_alignment dependent upon timing_validity indication. (0 - 4999) */ U8 tsc; /*< 12: 1> training sequence code */ U8 _align2; /*< 13: 1> alignment */ U8 _align3; /*< 14: 1> alignment */ U8 _align4; /*< 15: 1> alignment */ } T_MPHC_NEW_SCELL_REQ; #endif #ifndef __T_MPHC_NEW_SCELL_CON__ #define __T_MPHC_NEW_SCELL_CON__ /* * * CCDGEN:WriteStruct_Count==2162 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_NEW_SCELL_CON; #endif #ifndef __T_MPHC_RA_REQ__ #define __T_MPHC_RA_REQ__ /* * * CCDGEN:WriteStruct_Count==2163 */ typedef struct { U8 txpwr; /*< 0: 1> Indicates the power level which the mobile should use for transmission . */ U8 rand; /*< 1: 1> TDMA frames before sending RACH burst */ U8 channel_request; /*< 2: 1> content of channel request message */ // ELEM-FF: !TI_PS_FF_QUAD_BAND_SUPPORT // U8 powerclass_gsm; /*< 0: 0> GSM power class of the MS. */ // ELEM-FF: !TI_PS_FF_QUAD_BAND_SUPPORT // U8 powerclass_dcs; /*< 0: 0> DCS power class of the MS. */ U8 _align0; /*< 3: 1> alignment */ } T_MPHC_RA_REQ; #endif #ifndef __T_MPHC_RA_CON__ #define __T_MPHC_RA_CON__ /* * * CCDGEN:WriteStruct_Count==2164 */ typedef struct { U32 fn; /*< 0: 4> frame number */ U8 channel_request; /*< 4: 1> content of channel request message */ U8 _align0; /*< 5: 1> alignment */ U8 _align1; /*< 6: 1> alignment */ U8 _align2; /*< 7: 1> alignment */ } T_MPHC_RA_CON; #endif #ifndef __T_MPHC_STOP_RA_REQ__ #define __T_MPHC_STOP_RA_REQ__ /* * * CCDGEN:WriteStruct_Count==2165 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_STOP_RA_REQ; #endif #ifndef __T_MPHC_STOP_RA_CON__ #define __T_MPHC_STOP_RA_CON__ /* * * CCDGEN:WriteStruct_Count==2166 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_STOP_RA_CON; #endif #ifndef __T_MPHC_IMMED_ASSIGN_REQ__ #define __T_MPHC_IMMED_ASSIGN_REQ__ /* * * CCDGEN:WriteStruct_Count==2167 */ typedef struct { T_channel_desc channel_desc; /*< 0: 12> channel description */ U8 timing_advance; /*< 12: 1> timing advance */ U8 _align0; /*< 13: 1> alignment */ U8 _align1; /*< 14: 1> alignment */ U8 _align2; /*< 15: 1> alignment */ T_frequency_list frequency_list; /*< 16:132> frequency list */ T_starting_time starting_time; /*<148: 8> starting time */ T_frequency_list_bef_sti frequency_list_bef_sti; /*<156:132> frequency list before starting time */ U8 maio_bef_sti; /*<288: 1> MAIO used before starting time */ U8 dtx_allowed; /*<289: 1> DTX allowed */ U8 _align3; /*<290: 1> alignment */ U8 _align4; /*<291: 1> alignment */ T_bcch_allocation bcch_allocation; /*<292: 68> BCCH allocation */ U8 ba_id; /*<360: 1> band allocation identification */ U8 pwrc; /*<361: 1> power control indicator */ U8 _align5; /*<362: 1> alignment */ U8 _align6; /*<363: 1> alignment */ } T_MPHC_IMMED_ASSIGN_REQ; #endif #ifndef __T_MPHC_IMMED_ASSIGN_CON__ #define __T_MPHC_IMMED_ASSIGN_CON__ /* * * CCDGEN:WriteStruct_Count==2168 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_IMMED_ASSIGN_CON; #endif #ifndef __T_MPHC_CHANNEL_ASSIGN_REQ__ #define __T_MPHC_CHANNEL_ASSIGN_REQ__ /* * * CCDGEN:WriteStruct_Count==2169 */ typedef struct { T_channel_desc_1 channel_desc_1; /*< 0: 12> channel description */ U8 channel_mode_1; /*< 12: 1> channel mode */ U8 txpwr; /*< 13: 1> Indicates the power level which the mobile should use for transmission . */ U8 _align0; /*< 14: 1> alignment */ U8 _align1; /*< 15: 1> alignment */ T_frequency_list frequency_list; /*< 16:132> frequency list */ T_starting_time starting_time; /*<148: 8> starting time */ T_channel_desc_2 channel_desc_2; /*<156: 12> channel description */ U8 channel_mode_2; /*<168: 1> channel mode */ U8 _align2; /*<169: 1> alignment */ U8 _align3; /*<170: 1> alignment */ U8 _align4; /*<171: 1> alignment */ T_frequency_list_bef_sti frequency_list_bef_sti; /*<172:132> frequency list before starting time */ T_channel_desc_1_bef_sti channel_desc_1_bef_sti; /*<304: 12> channel description before starting time */ T_channel_desc_2_bef_sti channel_desc_2_bef_sti; /*<316: 12> channel description before starting time */ U8 cipher_mode; /*<328: 1> cipher mode */ U8 a5_algorithm; /*<329: 1> A5 algorithm */ U8 _align5; /*<330: 1> alignment */ U8 _align6; /*<331: 1> alignment */ T_cipher_key cipher_key; /*<332: 16> encryption key */ U8 dtx_allowed; /*<348: 1> DTX allowed */ U8 _align7; /*<349: 1> alignment */ U8 _align8; /*<350: 1> alignment */ U8 _align9; /*<351: 1> alignment */ T_amr_configuration amr_configuration; /*<352: 12> Parameters for AMR */ } T_MPHC_CHANNEL_ASSIGN_REQ; #endif #ifndef __T_MPHC_CHANNEL_ASSIGN_CON__ #define __T_MPHC_CHANNEL_ASSIGN_CON__ /* * * CCDGEN:WriteStruct_Count==2170 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_CHANNEL_ASSIGN_CON; #endif #ifndef __T_MPHC_ASYNC_HO_REQ__ #define __T_MPHC_ASYNC_HO_REQ__ /* * * CCDGEN:WriteStruct_Count==2171 */ typedef struct { T_handover_command handover_command; /*< 0:340> Handover Command */ U32 fn_offset; /*<340: 4> frame offset */ U32 time_alignmnt; /*<344: 4> Difference in quarter bits between serving and handover destination cell (0 to 5000) */ T_cipher_key cipher_key; /*<348: 16> encryption key */ T_amr_configuration amr_configuration; /*<364: 12> Parameters for AMR */ // ELEM-FF: REL99 AND FF_BHO U8 handover_type; /*<376: 1> handover type */ U8 _align0; /*<377: 1> alignment */ U8 _align1; /*<378: 1> alignment */ U8 _align2; /*<379: 1> alignment */ } T_MPHC_ASYNC_HO_REQ; #endif #ifndef __T_MPHC_ASYNC_HO_CON__ #define __T_MPHC_ASYNC_HO_CON__ /* * * CCDGEN:WriteStruct_Count==2172 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_ASYNC_HO_CON; #endif #ifndef __T_MPHC_HANDOVER_FINISHED__ #define __T_MPHC_HANDOVER_FINISHED__ /* * * CCDGEN:WriteStruct_Count==2173 */ typedef struct { U8 cause; /*< 0: 1> handover success */ // ELEM-FF: REL99 AND FF_BHO U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ U32 fn_offset; /*< 4: 4> frame offset */ // ELEM-FF: REL99 AND FF_BHO U32 time_alignment; /*< 8: 4> Difference in quarter bits between the first bit in a frame of the serving cell and the first bit in the next frame of the non-serving cell. Validity of time_alignment dependent upon timing_validity indication. (0 - 4999) */ } T_MPHC_HANDOVER_FINISHED; #endif #ifndef __T_MPHC_SYNC_HO_REQ__ #define __T_MPHC_SYNC_HO_REQ__ /* * * CCDGEN:WriteStruct_Count==2174 */ typedef struct { T_handover_command handover_command; /*< 0:340> Handover Command */ U32 fn_offset; /*<340: 4> frame offset */ U32 time_alignmnt; /*<344: 4> Difference in quarter bits between serving and handover destination cell (0 to 5000) */ T_cipher_key cipher_key; /*<348: 16> encryption key */ U8 nci; /*<364: 1> normal cell indication */ U8 _align0; /*<365: 1> alignment */ U8 _align1; /*<366: 1> alignment */ U8 _align2; /*<367: 1> alignment */ T_amr_configuration amr_configuration; /*<368: 12> Parameters for AMR */ // ELEM-FF: REL99 AND FF_BHO U8 handover_type; /*<380: 1> handover type */ U8 _align3; /*<381: 1> alignment */ U8 _align4; /*<382: 1> alignment */ U8 _align5; /*<383: 1> alignment */ } T_MPHC_SYNC_HO_REQ; #endif #ifndef __T_MPHC_SYNC_HO_CON__ #define __T_MPHC_SYNC_HO_CON__ /* * * CCDGEN:WriteStruct_Count==2175 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_SYNC_HO_CON; #endif #ifndef __T_MPHC_TA_FAIL_IND__ #define __T_MPHC_TA_FAIL_IND__ /* * * CCDGEN:WriteStruct_Count==2176 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_TA_FAIL_IND; #endif #ifndef __T_MPHC_PRE_SYNC_HO_REQ__ #define __T_MPHC_PRE_SYNC_HO_REQ__ /* * * CCDGEN:WriteStruct_Count==2177 */ typedef struct { T_handover_command handover_command; /*< 0:340> Handover Command */ U32 fn_offset; /*<340: 4> frame offset */ U32 time_alignmnt; /*<344: 4> Difference in quarter bits between serving and handover destination cell (0 to 5000) */ T_cipher_key cipher_key; /*<348: 16> encryption key */ U8 nci; /*<364: 1> normal cell indication */ U8 timing_advance_valid; /*<365: 1> timing advance information valid flag */ U8 timing_advance; /*<366: 1> timing advance */ U8 _align0; /*<367: 1> alignment */ T_amr_configuration amr_configuration; /*<368: 12> Parameters for AMR */ // ELEM-FF: REL99 AND FF_BHO U8 handover_type; /*<380: 1> handover type */ U8 _align1; /*<381: 1> alignment */ U8 _align2; /*<382: 1> alignment */ U8 _align3; /*<383: 1> alignment */ } T_MPHC_PRE_SYNC_HO_REQ; #endif #ifndef __T_MPHC_PRE_SYNC_HO_CON__ #define __T_MPHC_PRE_SYNC_HO_CON__ /* * * CCDGEN:WriteStruct_Count==2178 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_PRE_SYNC_HO_CON; #endif #ifndef __T_MPHC_HANDOVER_FAIL_REQ__ #define __T_MPHC_HANDOVER_FAIL_REQ__ /* * * CCDGEN:WriteStruct_Count==2179 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_HANDOVER_FAIL_REQ; #endif #ifndef __T_MPHC_HANDOVER_FAIL_CON__ #define __T_MPHC_HANDOVER_FAIL_CON__ /* * * CCDGEN:WriteStruct_Count==2180 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_HANDOVER_FAIL_CON; #endif #ifndef __T_MPHC_CHANGE_FREQUENCY__ #define __T_MPHC_CHANGE_FREQUENCY__ /* * * CCDGEN:WriteStruct_Count==2181 */ typedef struct { T_channel_desc channel_desc; /*< 0: 12> channel description */ T_frequency_list frequency_list; /*< 12:132> frequency list */ T_starting_time starting_time; /*<144: 8> starting time */ } T_MPHC_CHANGE_FREQUENCY; #endif #ifndef __T_MPHC_CHANGE_FREQUENCY_CON__ #define __T_MPHC_CHANGE_FREQUENCY_CON__ /* * * CCDGEN:WriteStruct_Count==2182 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_CHANGE_FREQUENCY_CON; #endif #ifndef __T_MPHC_CHANNEL_MODE_MODIFY_REQ__ #define __T_MPHC_CHANNEL_MODE_MODIFY_REQ__ /* * * CCDGEN:WriteStruct_Count==2183 */ typedef struct { U8 sub_channel; /*< 0: 1> sub channel */ U8 channel_mode; /*< 1: 1> channel mode */ U8 _align0; /*< 2: 1> alignment */ U8 _align1; /*< 3: 1> alignment */ T_amr_configuration amr_configuration; /*< 4: 12> Parameters for AMR */ } T_MPHC_CHANNEL_MODE_MODIFY_REQ; #endif #ifndef __T_MPHC_CHANNEL_MODE_MODIFY_CON__ #define __T_MPHC_CHANNEL_MODE_MODIFY_CON__ /* * * CCDGEN:WriteStruct_Count==2184 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_CHANNEL_MODE_MODIFY_CON; #endif #ifndef __T_MPHC_SET_CIPHERING_REQ__ #define __T_MPHC_SET_CIPHERING_REQ__ /* * * CCDGEN:WriteStruct_Count==2185 */ typedef struct { U8 cipher_mode; /*< 0: 1> cipher mode */ U8 a5_algorithm; /*< 1: 1> A5 algorithm */ U8 _align0; /*< 2: 1> alignment */ U8 _align1; /*< 3: 1> alignment */ T_new_ciph_param new_ciph_param; /*< 4: 16> Cipher Key Kc */ } T_MPHC_SET_CIPHERING_REQ; #endif #ifndef __T_MPHC_SET_CIPHERING_CON__ #define __T_MPHC_SET_CIPHERING_CON__ /* * * CCDGEN:WriteStruct_Count==2186 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_SET_CIPHERING_CON; #endif #ifndef __T_MPHC_MEAS_REPORT__ #define __T_MPHC_MEAS_REPORT__ /* * * CCDGEN:WriteStruct_Count==2187 */ typedef struct { U8 dtx_used; /*< 0: 1> DTX used flag */ U8 meas_valid; /*< 1: 1> measurement valid flag */ U16 rxlev_full_acc; /*< 2: 2> rxlevel full serving cell accumulated */ U8 rxlev_full_nbr_meas; /*< 4: 1> number of rxlevel full serving cell samples */ U8 _align0; /*< 5: 1> alignment */ U16 rxlev_sub_acc; /*< 6: 2> rxlevel sub serving cell accumulated */ U8 rxlev_sub_nbr_meas; /*< 8: 1> number of rxlevel sub serving cell samples */ U8 _align1; /*< 9: 1> alignment */ U16 rxqual_full_acc_errors; /*< 10: 2> rxqual full serving cell bit errors */ U16 rxqual_full_nbr_bits; /*< 12: 2> number of examined bits for rxqual full serving cell */ U16 rxqual_sub_acc_errors; /*< 14: 2> rxlevel sub serving cell bit errors */ U16 rxqual_sub_nbr_bits; /*< 16: 2> number of examined bits for rxqual sub serving cell */ U8 no_of_ncells_meas; /*< 18: 1> number of neighbour cell results */ U8 _align2; /*< 19: 1> alignment */ T_ncell_meas ncell_meas; /*< 20:264> neighbour cell measurement results */ U8 ba_id; /*<284: 1> band allocation identification */ U8 timing_advance; /*<285: 1> timing advance */ U8 txpwr_used; /*<286: 1> TX power level currently used by L1 (For TEST MOBILE only). */ // ELEM-FF: REL99 AND ( TI_PS_FF_EMR OR TI_PS_FF_RTD ) U8 _align3; /*<287: 1> alignment */ S16 rxlev_val_acc; /*<288: 2> RXLEV accumuated on SACCH for EMR */ // ELEM-FF: REL99 AND ( TI_PS_FF_EMR OR TI_PS_FF_RTD ) U8 rxlev_val_nbr_meas; /*<290: 1> Number of rxlev_val measurements taken on serving cell */ // ELEM-FF: REL99 AND ( TI_PS_FF_EMR OR TI_PS_FF_RTD ) U8 _align4; /*<291: 1> alignment */ U32 mean_bep_block_acc; /*<292: 4> Accumulated value of Mean Bit Error Probability of a block taken over a reporting period. */ // ELEM-FF: REL99 AND ( TI_PS_FF_EMR OR TI_PS_FF_RTD ) U16 cv_bep_block_acc; /*<296: 2> Accumulated value of coefficient of variation of BEP of a block taken over a reporting period. */ // ELEM-FF: REL99 AND ( TI_PS_FF_EMR OR TI_PS_FF_RTD ) U16 mean_bep_block_num; /*<298: 2> Number of block used to accumulate the MEAN_BEPblock */ // ELEM-FF: REL99 AND ( TI_PS_FF_EMR OR TI_PS_FF_RTD ) U16 cv_bep_block_num; /*<300: 2> Number of block used to accumulate the CV_BEPblock */ // ELEM-FF: REL99 AND ( TI_PS_FF_EMR OR TI_PS_FF_RTD ) U8 nbr_rcvd_blocks; /*<302: 1> Number of correctly decoded block during a reporting period. */ U8 facch_dl_count; /*<303: 1> reserved */ U8 facch_ul_count; /*<304: 1> reserved */ U8 _align5; /*<305: 1> alignment */ U8 _align6; /*<306: 1> alignment */ U8 _align7; /*<307: 1> alignment */ } T_MPHC_MEAS_REPORT; #endif #ifndef __T_MPHC_UPDATE_BA_LIST__ #define __T_MPHC_UPDATE_BA_LIST__ /* * * CCDGEN:WriteStruct_Count==2188 */ typedef struct { U8 num_of_chans; /*< 0: 1> Number of valid carrier numbers contained in the BA list (chan_number) array (1 to 33) */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ T_chan_list chan_list; /*< 4: 68> channel list */ U8 pwrc; /*< 72: 1> power control indicator */ U8 dtx_allowed; /*< 73: 1> DTX allowed */ U8 ba_id; /*< 74: 1> band allocation identification */ U8 _align3; /*< 75: 1> alignment */ } T_MPHC_UPDATE_BA_LIST; #endif #ifndef __T_MPHC_STOP_DEDICATED_REQ__ #define __T_MPHC_STOP_DEDICATED_REQ__ /* * * CCDGEN:WriteStruct_Count==2189 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_STOP_DEDICATED_REQ; #endif #ifndef __T_MPHC_NCELL_FB_SB_READ__ #define __T_MPHC_NCELL_FB_SB_READ__ /* * * CCDGEN:WriteStruct_Count==2190 */ typedef struct { U16 radio_freq; /*< 0: 2> channel number */ U8 _align0; /*< 2: 1> alignment */ U8 _align1; /*< 3: 1> alignment */ } T_MPHC_NCELL_FB_SB_READ; #endif #ifndef __T_MPHC_NCELL_SB_READ__ #define __T_MPHC_NCELL_SB_READ__ /* * * CCDGEN:WriteStruct_Count==2191 */ typedef struct { U8 sb_flag; /*< 0: 1> Flag indicating whether synchronisation channel was read correctly or not */ U8 _align0; /*< 1: 1> alignment */ U16 radio_freq; /*< 2: 2> channel number */ U8 bsic; /*< 4: 1> base station identification code */ U8 _align1; /*< 5: 1> alignment */ U8 _align2; /*< 6: 1> alignment */ U8 _align3; /*< 7: 1> alignment */ U32 fn_offset; /*< 8: 4> frame offset */ U32 time_alignmnt; /*< 12: 4> Difference in quarter bits between serving and handover destination cell (0 to 5000) */ } T_MPHC_NCELL_SB_READ; #endif #ifndef __T_OML1_CLOSE_TCH_LOOP_REQ__ #define __T_OML1_CLOSE_TCH_LOOP_REQ__ /* * * CCDGEN:WriteStruct_Count==2192 */ typedef struct { U8 sub_channel; /*< 0: 1> sub channel */ U8 frame_erasure; /*< 1: 1> TCH loop type */ U8 _align0; /*< 2: 1> alignment */ U8 _align1; /*< 3: 1> alignment */ } T_OML1_CLOSE_TCH_LOOP_REQ; #endif #ifndef __T_OML1_CLOSE_TCH_LOOP_CON__ #define __T_OML1_CLOSE_TCH_LOOP_CON__ /* * * CCDGEN:WriteStruct_Count==2193 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_OML1_CLOSE_TCH_LOOP_CON; #endif #ifndef __T_OML1_OPEN_TCH_LOOP_REQ__ #define __T_OML1_OPEN_TCH_LOOP_REQ__ /* * * CCDGEN:WriteStruct_Count==2194 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_OML1_OPEN_TCH_LOOP_REQ; #endif #ifndef __T_OML1_OPEN_TCH_LOOP_CON__ #define __T_OML1_OPEN_TCH_LOOP_CON__ /* * * CCDGEN:WriteStruct_Count==2195 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_OML1_OPEN_TCH_LOOP_CON; #endif #ifndef __T_OML1_START_DAI_TEST_REQ__ #define __T_OML1_START_DAI_TEST_REQ__ /* * * CCDGEN:WriteStruct_Count==2196 */ typedef struct { U8 tested_device; /*< 0: 1> DAI test device */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_OML1_START_DAI_TEST_REQ; #endif #ifndef __T_OML1_START_DAI_TEST_CON__ #define __T_OML1_START_DAI_TEST_CON__ /* * * CCDGEN:WriteStruct_Count==2197 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_OML1_START_DAI_TEST_CON; #endif #ifndef __T_OML1_STOP_DAI_TEST_REQ__ #define __T_OML1_STOP_DAI_TEST_REQ__ /* * * CCDGEN:WriteStruct_Count==2198 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_OML1_STOP_DAI_TEST_REQ; #endif #ifndef __T_OML1_STOP_DAI_TEST_CON__ #define __T_OML1_STOP_DAI_TEST_CON__ /* * * CCDGEN:WriteStruct_Count==2199 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_OML1_STOP_DAI_TEST_CON; #endif #ifndef __T_TST_SLEEP_REQ__ #define __T_TST_SLEEP_REQ__ /* * * CCDGEN:WriteStruct_Count==2200 */ typedef struct { U8 sleep_mode; /*< 0: 1> sleep mode */ U8 _align0; /*< 1: 1> alignment */ U16 Clocks; /*< 2: 2> clock modules */ } T_TST_SLEEP_REQ; #endif #ifndef __T_MPHC_ADC_IND__ #define __T_MPHC_ADC_IND__ /* * * CCDGEN:WriteStruct_Count==2201 */ typedef struct { U16 adc_results[9]; /*< 0: 18> result */ U8 _align0; /*< 18: 1> alignment */ U8 _align1; /*< 19: 1> alignment */ } T_MPHC_ADC_IND; #endif #ifndef __T_MPHC_INIT_L1_REQ__ #define __T_MPHC_INIT_L1_REQ__ /* * * CCDGEN:WriteStruct_Count==2202 */ typedef struct { // ELEM-FF: !TI_PS_FF_QUAD_BAND_SUPPORT // U8 radio_band_config; /*< 0: 0> Bitmap of frequency bands */ // ELEM-FF: TI_PS_FF_QUAD_BAND_SUPPORT U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_INIT_L1_REQ; #endif #ifndef __T_MPHC_INIT_L1_CON__ #define __T_MPHC_INIT_L1_CON__ /* * * CCDGEN:WriteStruct_Count==2203 */ typedef struct { // ELEM-FF: !TI_PS_FF_QUAD_BAND_SUPPORT // U8 param; /*< 0: 0> dummy parameter */ // ELEM-FF: TI_PS_FF_QUAD_BAND_SUPPORT T_multiband_power_class multiband_power_class[NB_MAX_GSM_BANDS]; /*< 0: 48> Power Class information for multiple bands */ } T_MPHC_INIT_L1_CON; #endif #ifndef __T_MPHC_DEACTIVATE_REQ__ #define __T_MPHC_DEACTIVATE_REQ__ /* * * CCDGEN:WriteStruct_Count==2204 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_DEACTIVATE_REQ; #endif #ifndef __T_TST_TEST_HW_REQ__ #define __T_TST_TEST_HW_REQ__ /* * * CCDGEN:WriteStruct_Count==2205 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_TST_TEST_HW_REQ; #endif #ifndef __T_TST_TEST_HW_CON__ #define __T_TST_TEST_HW_CON__ /* * * CCDGEN:WriteStruct_Count==2206 */ typedef struct { U16 dsp_code_version; /*< 0: 2> Version number of the DSP code */ U16 dsp_checksum; /*< 2: 2> Checksum of DSP code */ U16 dsp_patch_version; /*< 4: 2> Version number of the DSP patch code */ U16 mcu_alr_version; /*< 6: 2> Version number of the MCU ALR code */ U16 mcu_gprs_version; /*< 8: 2> Version number of the MCU GPRS code */ U16 mcu_tm_version; /*< 10: 2> Version number of the Testmode */ } T_TST_TEST_HW_CON; #endif #ifndef __T_PH_DATA_IND__ #define __T_PH_DATA_IND__ /* * * CCDGEN:WriteStruct_Count==2207 */ typedef struct { U16 rf_chan_num; /*< 0: 2> channel number */ U8 l2_channel_type; /*< 2: 1> layer 2 channel type */ U8 error_cause; /*< 3: 1> error cause */ T_RADIO_FRAME l2_frame; /*< 4: 24> Layer 2 frame */ U8 bsic; /*< 28: 1> base station identification code */ U8 tc; /*< 29: 1> multiframe number modulo 8 */ U8 _align0; /*< 30: 1> alignment */ U8 _align1; /*< 31: 1> alignment */ } T_PH_DATA_IND; #endif #ifndef __T_MPHC_STOP_DEDICATED_CON__ #define __T_MPHC_STOP_DEDICATED_CON__ /* * * CCDGEN:WriteStruct_Count==2208 */ typedef struct { U8 param; /*< 0: 1> dummy parameter */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_STOP_DEDICATED_CON; #endif #include "CDG_LEAVE.h" #endif