FreeCalypso > hg > fc-tourmaline
view cdg-hybrid/cdginc/p_mphc.h @ 301:4bb5772a05a3
AT%SPVER: new command for setting custom speech version lists
The speech version list in the Bearer Capability IE tells the network
which speech codecs are supported by the MS, and in which order of
preference. The standard behaviour is to list all codecs that are
supported by the hw+fw platform, and the standard preference order
is newer over older, FR over HR. But sometimes it is desirable
(for network testing) to artificially restrict which codecs the test MS
will declare as supported, and/or to list them in some peculiar
non-standard order of preference. Add a new private AT command,
AT%SPVER, allowing the user to set and clear custom speech version
lists for the Bearer Capability IE composer in CC.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Sun, 21 May 2023 21:43:10 +0000 |
parents | 35f7a1dc9f7d |
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 : "Mon Sep 26 14:30:48 2005" | | Generated by CCDGEN_2.5.5A on Fri Oct 14 21:41:52 2016 | | !!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 _Mon_Sep_26_14_30_48_2005 #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[8]; /*< 0: 8> 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 /* * End of substructure section, begin of primitive definition section */ #ifndef __T_MPHC_NETWORK_SYNC_REQ__ #define __T_MPHC_NETWORK_SYNC_REQ__ /* * * CCDGEN:WriteStruct_Count==2125 */ 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==2126 */ 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==2127 */ 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==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_CON; #endif #ifndef __T_MPHC_START_CCCH_REQ__ #define __T_MPHC_START_CCCH_REQ__ /* * * CCDGEN:WriteStruct_Count==2129 */ 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==2130 */ 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==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_CON; #endif #ifndef __T_MPHC_SCELL_NBCCH_REQ__ #define __T_MPHC_SCELL_NBCCH_REQ__ /* * * CCDGEN:WriteStruct_Count==2132 */ 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==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_EBCCH_REQ; #endif #ifndef __T_MPHC_STOP_SCELL_BCCH_REQ__ #define __T_MPHC_STOP_SCELL_BCCH_REQ__ /* * * CCDGEN:WriteStruct_Count==2134 */ 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==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_CON; #endif #ifndef __T_MPHC_DATA_IND__ #define __T_MPHC_DATA_IND__ /* * * CCDGEN:WriteStruct_Count==2136 */ 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==2137 */ 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==2138 */ 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==2139 */ 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==2140 */ 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==2141 */ 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==2142 */ 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==2143 */ 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==2144 */ 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==2145 */ 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==2146 */ 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==2147 */ 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 */ } T_MPHC_RXLEV_PERIODIC_IND; #endif #ifndef __T_MPHC_STOP_RXLEV_PERIODIC_REQ__ #define __T_MPHC_STOP_RXLEV_PERIODIC_REQ__ /* * * CCDGEN:WriteStruct_Count==2148 */ 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==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_CON; #endif #ifndef __T_MPHC_RXLEV_REQ__ #define __T_MPHC_RXLEV_REQ__ /* * * CCDGEN:WriteStruct_Count==2150 */ 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==2151 */ 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==2152 */ 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==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_CON; #endif #ifndef __T_MPHC_CONFIG_CBCH_REQ__ #define __T_MPHC_CONFIG_CBCH_REQ__ /* * * CCDGEN:WriteStruct_Count==2154 */ 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==2155 */ 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==2156 */ 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==2157 */ 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==2158 */ 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==2159 */ 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==2160 */ 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==2161 */ 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==2162 */ 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 */ U8 powerclass_gsm; /*< 3: 1> GSM power class of the MS. */ U8 powerclass_dcs; /*< 4: 1> DCS power class of the MS. */ U8 _align0; /*< 5: 1> alignment */ U8 _align1; /*< 6: 1> alignment */ U8 _align2; /*< 7: 1> alignment */ } T_MPHC_RA_REQ; #endif #ifndef __T_MPHC_RA_CON__ #define __T_MPHC_RA_CON__ /* * * CCDGEN:WriteStruct_Count==2163 */ 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==2164 */ 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==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_CON; #endif #ifndef __T_MPHC_IMMED_ASSIGN_REQ__ #define __T_MPHC_IMMED_ASSIGN_REQ__ /* * * CCDGEN:WriteStruct_Count==2166 */ 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==2167 */ 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==2168 */ 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: 8> encryption key */ U8 dtx_allowed; /*<340: 1> DTX allowed */ U8 _align7; /*<341: 1> alignment */ U8 _align8; /*<342: 1> alignment */ U8 _align9; /*<343: 1> alignment */ T_amr_configuration amr_configuration; /*<344: 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==2169 */ 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==2170 */ 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: 8> encryption key */ T_amr_configuration amr_configuration; /*<356: 12> Parameters for AMR */ } T_MPHC_ASYNC_HO_REQ; #endif #ifndef __T_MPHC_ASYNC_HO_CON__ #define __T_MPHC_ASYNC_HO_CON__ /* * * CCDGEN:WriteStruct_Count==2171 */ 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==2172 */ typedef struct { U8 cause; /*< 0: 1> handover success */ U8 _align0; /*< 1: 1> alignment */ U8 _align1; /*< 2: 1> alignment */ U8 _align2; /*< 3: 1> alignment */ } T_MPHC_HANDOVER_FINISHED; #endif #ifndef __T_MPHC_SYNC_HO_REQ__ #define __T_MPHC_SYNC_HO_REQ__ /* * * CCDGEN:WriteStruct_Count==2173 */ 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: 8> encryption key */ U8 nci; /*<356: 1> normal cell indication */ U8 _align0; /*<357: 1> alignment */ U8 _align1; /*<358: 1> alignment */ U8 _align2; /*<359: 1> alignment */ T_amr_configuration amr_configuration; /*<360: 12> Parameters for AMR */ } T_MPHC_SYNC_HO_REQ; #endif #ifndef __T_MPHC_SYNC_HO_CON__ #define __T_MPHC_SYNC_HO_CON__ /* * * CCDGEN:WriteStruct_Count==2174 */ 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==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_TA_FAIL_IND; #endif #ifndef __T_MPHC_PRE_SYNC_HO_REQ__ #define __T_MPHC_PRE_SYNC_HO_REQ__ /* * * CCDGEN:WriteStruct_Count==2176 */ 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: 8> encryption key */ U8 nci; /*<356: 1> normal cell indication */ U8 timing_advance_valid; /*<357: 1> timing advance information valid flag */ U8 timing_advance; /*<358: 1> timing advance */ U8 _align0; /*<359: 1> alignment */ T_amr_configuration amr_configuration; /*<360: 12> Parameters for AMR */ } T_MPHC_PRE_SYNC_HO_REQ; #endif #ifndef __T_MPHC_PRE_SYNC_HO_CON__ #define __T_MPHC_PRE_SYNC_HO_CON__ /* * * CCDGEN:WriteStruct_Count==2177 */ 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==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_HANDOVER_FAIL_REQ; #endif #ifndef __T_MPHC_HANDOVER_FAIL_CON__ #define __T_MPHC_HANDOVER_FAIL_CON__ /* * * 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_CON; #endif #ifndef __T_MPHC_CHANGE_FREQUENCY__ #define __T_MPHC_CHANGE_FREQUENCY__ /* * * CCDGEN:WriteStruct_Count==2180 */ 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==2181 */ 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==2182 */ 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==2183 */ 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==2184 */ 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: 8> Cipher Key Kc */ } T_MPHC_SET_CIPHERING_REQ; #endif #ifndef __T_MPHC_SET_CIPHERING_CON__ #define __T_MPHC_SET_CIPHERING_CON__ /* * * CCDGEN:WriteStruct_Count==2185 */ 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==2186 */ 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). */ U8 facch_dl_count; /*<287: 1> reserved */ U8 facch_ul_count; /*<288: 1> reserved */ U8 _align3; /*<289: 1> alignment */ U8 _align4; /*<290: 1> alignment */ U8 _align5; /*<291: 1> alignment */ } T_MPHC_MEAS_REPORT; #endif #ifndef __T_MPHC_UPDATE_BA_LIST__ #define __T_MPHC_UPDATE_BA_LIST__ /* * * CCDGEN:WriteStruct_Count==2187 */ 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==2188 */ 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==2189 */ 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==2190 */ 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==2191 */ 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==2192 */ 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==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_OPEN_TCH_LOOP_REQ; #endif #ifndef __T_OML1_OPEN_TCH_LOOP_CON__ #define __T_OML1_OPEN_TCH_LOOP_CON__ /* * * 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_CON; #endif #ifndef __T_OML1_START_DAI_TEST_REQ__ #define __T_OML1_START_DAI_TEST_REQ__ /* * * CCDGEN:WriteStruct_Count==2195 */ 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==2196 */ 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==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_STOP_DAI_TEST_REQ; #endif #ifndef __T_OML1_STOP_DAI_TEST_CON__ #define __T_OML1_STOP_DAI_TEST_CON__ /* * * 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_CON; #endif #ifndef __T_TST_SLEEP_REQ__ #define __T_TST_SLEEP_REQ__ /* * * CCDGEN:WriteStruct_Count==2199 */ 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==2200 */ 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==2201 */ typedef struct { U8 radio_band_config; /*< 0: 1> Bitmap of frequency bands */ 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==2202 */ 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_INIT_L1_CON; #endif #ifndef __T_MPHC_DEACTIVATE_REQ__ #define __T_MPHC_DEACTIVATE_REQ__ /* * * CCDGEN:WriteStruct_Count==2203 */ 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==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_TST_TEST_HW_REQ; #endif #ifndef __T_TST_TEST_HW_CON__ #define __T_TST_TEST_HW_CON__ /* * * CCDGEN:WriteStruct_Count==2205 */ 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==2206 */ 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==2207 */ 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