FreeCalypso > hg > fc-tourmaline
view src/cs/layer1/tm_include/l1tm_defty.h @ 244:96784b8974eb
Switch_ON(): detect charging mode by CHGPRES bit
Consider the following scenario: the phone is on, the user plugs in
the charger, and then executes the power-off operation. In the Iota
VRPC this sequence translates to a switch-off immediately followed
by another switch-on - but the CHGSTS bit doesn't get set on the second
switch-on cycle! Disassembly of Pirelli's fw shows that they check
the CHGPRES bit, and furthermore, if both CHGPRES and ONBSTS are set,
the code they pass to their modified Power_ON_Button() function is
the one for charging - so let's adopt the same CHGPRES check and
the same priority order for switch-on causes.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Mon, 03 May 2021 06:51:29 +0000 |
parents | 4e78acac3d88 |
children |
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/************* Revision Controle System Header ************* * GSM Layer 1 software * L1TM_DEFTY.H * * Filename l1tm_defty.h * Copyright 2003 (C) Texas Instruments * ************* Revision Controle System Header *************/ // Max size of data portion of a testmode packet #define TM_PAYLOAD_UPLINK_SIZE_MAX 128 // CID, STATUS and CHECKSUM #define TM_UPLINK_PACKET_OVERHEAD 3 typedef struct { UWORD32 toa_sum; UWORD32 toa_sq_sum; UWORD32 toa_recent; UWORD32 pm_sum; UWORD32 pm_sq_sum; UWORD16 pm_recent; WORD16 angle_sum; UWORD32 angle_sq_sum; WORD16 angle_min; WORD16 angle_max; WORD16 angle_recent; UWORD32 snr_sum; UWORD32 snr_sq_sum; UWORD32 snr_recent; UWORD8 rssi_fifo[4]; UWORD8 rssi_recent; WORD32 loop_count; //Must be signed for divide operation in statistics!!! WORD32 flag_count; //Must be signed for divide operation in statistics!!! UWORD32 flag_recent; UWORD8 bsic; UWORD32 fn; UWORD32 qual_acc_full; // Fullset: accu. rxqual meas. UWORD32 qual_nbr_meas_full; // Fullset: nbr meas. of rxqual. #if L1_GPRS UWORD8 nb_dl_pdtch_slots; #endif } T_TM_STATS; typedef struct { UWORD8 dedicated_active; UWORD32 rx_counter; UWORD16 num_bcchs; #if L1_GPRS BOOL packet_transfer_active; #endif } T_TM_STATE; typedef struct { UWORD16 prbs1_seed; // UWORD16 prbs2_seed; //for future use } T_TM_PRBS; // Global TM variable typedef struct { BOOL tm_msg_received; T_TM_STATS tmode_stats; T_TM_STATE tmode_state; T_TM_PRBS tmode_prbs; } T_L1TM_GLOBAL; typedef struct { UWORD16 bcch_arfcn; UWORD16 tch_arfcn; UWORD16 mon_arfcn; #if L1_GPRS UWORD16 pdtch_arfcn; UWORD8 multislot_class; #endif UWORD8 down_up; UWORD8 channel_type; UWORD8 subchannel; UWORD8 tmode_continuous; UWORD8 reload_ramps_flag; BOOL mon_report; //Used to determine wether RX stats are done in Monitor channel or TCH channel BOOL mon_tasks; //Used to enable tasks associated with Monitor Channel } T_TM_RF_PARAMS; typedef struct { UWORD8 slot_num; WORD8 agc; WORD8 lna_off; UWORD8 number_of_measurements; UWORD8 place_of_measurement; BOOL pm_enable; UWORD8 rssi_band; #if L1_GPRS UWORD8 timeslot_alloc; UWORD8 coding_scheme; #endif } T_TM_RX_PARAMS; typedef struct { UWORD8 tsc; UWORD8 txpwr; UWORD8 txpwr_skip; UWORD8 timing_advance; UWORD8 burst_type; UWORD8 burst_data; #if L1_GPRS UWORD8 timeslot_alloc; UWORD8 txpwr_gprs[8]; UWORD8 coding_scheme; UWORD8 rlc_buffer_size; UWORD16 rlc_buffer[27]; #endif } T_TM_TX_PARAMS; typedef struct { UWORD32 num_loops; UWORD32 auto_result_loops; UWORD32 auto_reset_loops; UWORD8 stat_type; UWORD16 stat_bitmask; #if L1_GPRS UWORD8 stat_gprs_slots; #endif } T_TM_STATS_CONFIG; typedef struct { T_TM_RF_PARAMS rf_params; T_TM_RX_PARAMS rx_params; T_TM_TX_PARAMS tx_params; T_TM_STATS_CONFIG stats_config; } T_TM_PARAMS; typedef struct { UWORD8 cid; UWORD8 index; UWORD8 status; UWORD16 size; // size of result[] array UWORD8 result[TM_PAYLOAD_UPLINK_SIZE_MAX]; } T_TM_RETURN; typedef struct { UWORD8 cid; UWORD8 index; UWORD8 status; UWORD16 size; // size of result[] array UWORD8 result[5]; } T_TM_RETURN_ABBREV;