FreeCalypso > hg > fc-magnetite
view src/cs/layer1/include/l1_const.h @ 702:9394305d4ff5 default tip
etm_audio.c: fix off-by-one error in auw of FIR coefficients
This fix was already made in FC Tourmaline a while back, but it is also
the kind of bugfix that deserves to be backported to Magnetite and
Selenite as well.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Mon, 31 Oct 2022 00:14:44 +0000 |
parents | b24d42baa30d |
children |
line wrap: on
line source
/************* Revision Controle System Header ************* * GSM Layer 1 software * L1_CONST.H * * Filename l1_const.h * Copyright 2003 (C) Texas Instruments * ************* Revision Controle System Header *************/ #ifdef __MSDOS__ // Running BORLANDC compiler. #ifdef MVC #define EXIT exit(0) #define FAR #else #define EXIT DOS_Exit(0) #define FAR far #endif #else // Running ARM compiler. #define FAR #define EXIT exit(0) #define stricmp strcmp #endif #if (CODE_VERSION != SIMULATION) #define NULL 0 #endif #define NO_PAR 0 #define NO_TASK 0 #define ALL_TASK 0xffffffff #define ALL_PARAM 0xffffffff #define TRUE 1 #define TRUE_L 1L #define FALSE 0 #define NOT_PENDING 0 #define PENDING 1 #define INACTIVE 2 #define ACTIVE 3 #define RE_ENTERED 4 #define WAIT_IQ 5 //--------------------------------------------- // MCU-DSP bit-field bit position definitions //--------------------------------------------- #if L1_GPRS #define GPRS_SCHEDULER 1 // Select GPRS scheduler #endif #define GSM_SCHEDULER 2 // Select GSM scheduler //----------------------------- // POWER MANAGEMENT............ //----------------------------- #define MIN_SLEEP_TIME (SETUP_FRAME+2+l1_config.params.setup_afc_and_rf) //HW WAKE-UP+MIN_SLEEP(2)+AFC RESTORE(2) #define TPU_LOAD 01 #define TPU_FREEZE 02 // SLEEP ALGO SWITCH #define NO_SLEEP 00 // ------ + ------ + ------ #define SMALL_SLEEP 01 // SMALL + ------ + ------ #define BIG_SLEEP 02 // ------ + BIG + ------ #define DEEP_SLEEP 03 // ------ + BIG + DEEP #define ALL_SLEEP 04 // SMALL + BIG + DEEP #define BIG_SMALL_SLEEP 05 // SMALL + BIG + ------ // GAUGING SAMPLES #define SIZE_HIST 10 #define MAX_BAD_GAUGING 3 // GAUG_IN_32T = (HF in clock of 13Mhz*dpll) * ( LF in Khz) #define GAUG_IN_32T 1348 // gauging duration is 1348*T32 measured on eva4 // DSP state need to be used to enter Deep Sleep mode #if (W_A_DSP_IDLE3 == 1) #define C_DSP_IDLE3 3 #endif //------------------------------------------------- // INIT: value is 32.768Khz at [-500 ppm, +100 ppm] // to face temperature variation // // ACQUIS: variations allowed 32.768Khz +- 50 ppm // 9 frames gauging is 1348*T32 (measured on eva4) // UPDATE: variation allowed is +- 6 ppm jitter //------------------------------------------------- #define MCUCLK 13000 // 13 Mhz #define LF 32.768 #define LF_100PPM 32.7712768 // 32.768*(1+100*10E-6) #define LF_500PPM 32.751616 // 32.768*(1-500*10E-6) #define LF_50PPM 32.7696384 // 32.768*(1+50*10E-6) #define LF_6PPM 32.76819661 // 32.768*(1+6*10E-6) #define NB_INIT 5 // nbr of gauging to pass to ACQUIS #define NB_ACQU 10 // nbr of gauging to pass to UPDATE #if (CHIPSET ==2 || CHIPSET ==3 || CHIPSET == 5 || CHIPSET == 6 || CHIPSET == 9) // PLL is at 65 Mhz !!!!!! #define PLL 5 // 5*13Mhz = 65 Mhz //------------------------------------------------- // INIT: value is 32.768Khz at [-500 ppm, +100 ppm] // // ACQUIS: variations allowed 32.768Khz +- 50 ppm // 9 frames gauging is 1348*T32 (measured on eva4) // UPDATE: variation allowed is +- 6 ppm jitter //------------------------------------------------- #define C_CLK_MIN 1983 // 65000/32.7712768 = 1983.444234 #define C_CLK_INIT_MIN 29113 // 0.444234*2^16 #define C_CLK_MAX 1984 // 65000 / 32.751616 = 1984.634896 #define C_CLK_INIT_MAX 41608 // 0.634896*2^16 #define C_DELTA_HF_ACQUIS 130 // 1348/32.768-1348/32.7696384 = 0.002056632ms // 0.002056632/0.0001538 = 130 T65Mhz #define C_DELTA_HF_UPDATE 15 // 1348/32.768-1348/32.76819661 =0.00024691ms // 0.00024691/0.0001538 = 15 T65Mhz #endif #define ARMIO_CLK_CUT 0x0001 #define UWIRE_CLK_CUT 0x0002 //----------------------------- // Neighbour cell sync. reading //----------------------------- #if (L1_12NEIGH) #define NBR_NEIGHBOURS 12 #else #define NBR_NEIGHBOURS 6 #endif //----------------------------- // LAYER 1 MEASUREMENT TASKS... //----------------------------- #define NBR_L1S_MEAS_TASKS 4 #define FSMS 0 #define I_BAMS 1 #define D_BAMS 2 #define SERVMS 3 #define FSMS_MEAS (TRUE_L << FSMS) // Measurement task on FULL list (Cell Selection/Idle). #define I_BAMS_MEAS (TRUE_L << I_BAMS) // Measurement task on BA list in Idle. #define D_BAMS_MEAS (TRUE_L << D_BAMS) // Measurement task on BA list in Dedicated. #define SERVMS_MEAS (TRUE_L << SERVMS) // Measurement task for Serving. #define FSMS_MEAS_MASK ALL_TASK ^ FSMS_MEAS #define I_BAMS_MEAS_MASK ALL_TASK ^ I_BAMS_MEAS #define D_BAMS_MEAS_MASK ALL_TASK ^ D_BAMS_MEAS #define SERVMS_MEAS_MASK ALL_TASK ^ SERVMS_MEAS #define A_D_BLEN 456 // SACCH/SDCCH data block length (GSM 5.01 $7) #define TCH_FS_BLEN 378 // TCH FULL SPEECH block length #define TCH_HS_BLEN 211 // TCH HALF SPEECH block length #define TCH_F_D_BLEN 456 // FACCH, TCH_DATA block length /* * FreeCalypso Frankenstein: the following definition was not present in * our TCS211 version and we had to pull it from the LoCosto version for * l1_cmplx.c to compile. However, the comment in the place where it is * used says that it "valuable for code running on target with DSP 3606." */ #define MIN_ACCEPTABLE_SNR_FOR_SB 200 // threshold under which a SB shall be considered as not found // Define max PM/TDMA according to DSP code and TPU RAM size //---------------------------------------------------------- // NOTE: we should use a global variable initialized at L1 start and function of rx synth setup time. #if ((CHIPSET == 2) || (CHIPSET == 3) || (CHIPSET == 4)) // TPU RAM size limitation #define NB_MEAS_MAX 4 #define NB_MEAS_MAX_GPRS 4 #elif ((CHIPSET == 5) || (CHIPSET == 6) || (CHIPSET == 7) || (CHIPSET == 8) || (CHIPSET == 9) || (CHIPSET == 10) || (CHIPSET == 11) || (CHIPSET == 12)) #if (DSP == 33) || (DSP == 34) || (DSP == 35) || (DSP == 36) // DSP code 33: upto 8 PMs with GSM and GPRS scheduler #define NB_MEAS_MAX 8 #define NB_MEAS_MAX_GPRS 8 #elif (DSP == 32) // DSP code prior to code 33 support upto 4 PMs with GSM scheduler // and 8 PMs with GPRS scheduler, 6 for DSP 32 because of CPU load #define NB_MEAS_MAX 4 #define NB_MEAS_MAX_GPRS 6 #else // DSP code prior to code 33 support upto 4 PMs with GSM scheduler // and 8 PMs with GPRS scheduler #define NB_MEAS_MAX 4 #define NB_MEAS_MAX_GPRS 8 #endif #endif #if (AMR == 1) #define SID_UPDATE_BLEN 212 // SID UPDATE block length #define RATSCCH_BLEN 212 // RATSCCH block length #define TCH_AFS_BLEN 448 // TCH Adaptative Full rate Speech block length // Note: the d_nerr value is calculated thanks to the bit class 1 of the block. // But the number AHS bit class 1 depends on the type of vocoder currently used (c.f. 5.03 &3.10.7.2) #define TCH_AHS_7_95_BLEN 188 // TCH AHS 7.95 Speech block length #define TCH_AHS_7_4_BLEN 196 // TCH AHS 7.4 Speech block length #define TCH_AHS_6_7_BLEN 200 // TCH AHS 6.7 Speech block length #define TCH_AHS_5_9_BLEN 208 // TCH AHS 5.9 Speech block length #define TCH_AHS_5_15_BLEN 212 // TCH AHS 5.15 Speech block length #define TCH_AHS_4_75_BLEN 212 // TCH AHS 4.75 Speech block length #endif //---------------------------------------- // LAYER 1 Asynchronous processes names... //---------------------------------------- #if (TESTMODE) && !(L1_GPRS) #if (AUDIO_TASK == 1) #if (L1_GTT) #if (OP_L1_STANDALONE == 1) #define NBR_L1A_PROCESSES 45 #else #define NBR_L1A_PROCESSES 44 #endif #else #if (OP_L1_STANDALONE == 1) #define NBR_L1A_PROCESSES 44 #else #define NBR_L1A_PROCESSES 43 #endif #endif #else #if (L1_GTT) #if (OP_L1_STANDALONE == 1) #define NBR_L1A_PROCESSES 27 #else #define NBR_L1A_PROCESSES 26 #endif #else #if (OP_L1_STANDALONE == 1) #define NBR_L1A_PROCESSES 26 #else #define NBR_L1A_PROCESSES 25 #endif #endif #endif #endif #if (TESTMODE) && (L1_GPRS) #if (AUDIO_TASK == 1) #if (L1_GTT) #if (OP_L1_STANDALONE == 1) #define NBR_L1A_PROCESSES 46 #else #define NBR_L1A_PROCESSES 45 #endif #else #if (OP_L1_STANDALONE == 1) #define NBR_L1A_PROCESSES 45 #else #define NBR_L1A_PROCESSES 44 #endif #endif #else #if (L1_GTT) #if (OP_L1_STANDALONE == 1) #define NBR_L1A_PROCESSES 28 #else #define NBR_L1A_PROCESSES 27 #endif #else #if (OP_L1_STANDALONE == 1) #define NBR_L1A_PROCESSES 27 #else #define NBR_L1A_PROCESSES 26 #endif #endif #endif #endif #if !(TESTMODE) #if (AUDIO_TASK == 1) #if (L1_GTT) #if (OP_L1_STANDALONE == 1) #define NBR_L1A_PROCESSES 37 #else #define NBR_L1A_PROCESSES 36 #endif #else #if (OP_L1_STANDALONE == 1) #define NBR_L1A_PROCESSES 36 #else #define NBR_L1A_PROCESSES 35 #endif #endif #else #if (L1_GTT) #if (OP_L1_STANDALONE == 1) #define NBR_L1A_PROCESSES 19 #else #define NBR_L1A_PROCESSES 18 #endif #else #if (OP_L1_STANDALONE == 1) #define NBR_L1A_PROCESSES 18 #else #define NBR_L1A_PROCESSES 17 #endif #endif #endif #endif #define FULL_MEAS 0 // l1a_full_list_meas_process(msg) #define CS_NORM 1 // l1a_cs_bcch_process(msg) #define I_6MP 2 // l1a_idle_6strongest_monitoring_process(msg) #define I_SCP 3 // l1a_idle_serving_cell_paging_process(msg) #define I_SCB 4 // l1a_idle_serving_cell_bcch_reading_process(msg) #define I_SMSCB 5 // l1a_idle_smscb_process(msg) #define CR_B 6 // l1a_cres_process(msg) #define ACCESS 7 // l1a_access_process(msg) #define DEDICATED 8 // l1a_dedicated_process(msg) #define I_FULL_MEAS 9 // l1a_dedicated_process(msg) #define I_NMEAS 10 // l1a_idle_ba_meas_process(msg) #define DEDIC_6 11 // l1a_dedic6_process(msg) #define D_NMEAS 12 // l1a_dedic_ba_list_meas_process(msg) #define HW_TEST 13 // l1a_test_process(msg) #define I_BCCHN 14 // l1a_idle_neighbour_cell_bcch_reading_process(msg) #define I_ADC 15 // l1a_mmi_adc_req(msg) #if (TESTMODE) && !(L1_GPRS) #define TMODE_FB0 16 // l1a_tmode_fb0_process(msg) #define TMODE_FB1 17 // l1a_tmode_fb1_process(msg) #define TMODE_SB 18 // l1a_tmode_sb_process(msg) #define TMODE_BCCH 19 // l1a_tmode_bcch_reading_process(msg) #define TMODE_RA 20 // l1a_tmode_access_process(msg) #define TMODE_DEDICATED 21 // l1a_tmode_dedicated_process(msg) #define TMODE_FULL_MEAS 22 // l1a_tmode_full_list_meas_process(msg) #define TMODE_PM 23 // l1a_tmode_meas_process(msg) #if (AUDIO_TASK == 1) #define L1A_KEYBEEP_STATE 24 // l1a_mmi_keybeep_process(msg) #define L1A_TONE_STATE 25 // l1a_mmi_tone_process(msg) #define L1A_MELODY0_STATE 26 // l1a_mmi_melody0_process(msg) #define L1A_MELODY1_STATE 27 // l1a_mmi_melody1_process(msg) #define L1A_VM_PLAY_STATE 28 // l1a_mmi_vm_playing_process(msg) #define L1A_VM_RECORD_STATE 29 // l1a_mmi_vm_recording_process(msg) #define L1A_SR_ENROLL_STATE 30 // l1a_mmi_sr_enroll_process(msg) #define L1A_SR_UPDATE_STATE 31 // l1a_mmi_sr_update_process(msg) #define L1A_SR_RECO_STATE 32 // l1a_mmi_sr_reco_process(msg) #define L1A_SR_UPDATE_CHECK_STATE 33 // l1a_mmi_sr_update_check_process(msg) #define L1A_AEC_STATE 34 // l1a_mmi_aec_process(msg) #define L1A_FIR_STATE 35 // l1a_mmi_fir_process(msg) #define L1A_AUDIO_MODE_STATE 36 // l1a_mmi_audio_mode_process(msg) #define L1A_MELODY0_E2_STATE 37 // l1a_mmi_melody0_e2_process(msg) #define L1A_MELODY1_E2_STATE 38 // l1a_mmi_melody1_e2_process(msg) #define L1A_VM_AMR_PLAY_STATE 39 // l1a_mmi_vm_amr_playing_process(msg) #define L1A_VM_AMR_RECORD_STATE 40 // l1a_mmi_vm_amr_recording_process(msg) #define L1A_CPORT_STATE 41 // l1a_mmi_cport_process(msg) #if (L1_GTT == 1) #define L1A_GTT_STATE 42 // l1a_mmi_gtt_process(msg) #define INIT_L1 43 // l1a_init_layer1_process(msg) #if (OP_L1_STANDALONE == 1) #define HSW_CONF 44 // l1a_test_config_process(msg) #endif #else #define INIT_L1 42 // l1a_init_layer1_process(msg) #if (OP_L1_STANDALONE == 1) #define HSW_CONF 43 // l1a_test_config_process(msg) #endif #endif #else #if (L1_GTT == 1) #define L1A_GTT_STATE 24 // l1a_mmi_gtt_process(msg) #define INIT_L1 25 // l1a_init_layer1_process(msg) #if (OP_L1_STANDALONE == 1) #define HSW_CONF 26 // l1a_test_config_process(msg) #endif #else #define INIT_L1 24 // l1a_init_layer1_process(msg) #if (OP_L1_STANDALONE == 1) #define HSW_CONF 25 // l1a_test_config_process(msg) #endif #endif #endif #endif #if (TESTMODE) && (L1_GPRS) #define TMODE_FB0 16 // l1a_tmode_fb0_process(msg) #define TMODE_FB1 17 // l1a_tmode_fb1_process(msg) #define TMODE_SB 18 // l1a_tmode_sb_process(msg) #define TMODE_BCCH 19 // l1a_tmode_bcch_reading_process(msg) #define TMODE_RA 20 // l1a_tmode_access_process(msg) #define TMODE_DEDICATED 21 // l1a_tmode_dedicated_process(msg) #define TMODE_FULL_MEAS 22 // l1a_tmode_full_list_meas_process(msg) #define TMODE_PM 23 // l1a_tmode_meas_process(msg) #define TMODE_TRANSFER 24 // l1a_tmode_transfer_process(msg) #if (AUDIO_TASK == 1) #define L1A_KEYBEEP_STATE 25 // l1a_mmi_keybeep_process(msg) #define L1A_TONE_STATE 26 // l1a_mmi_tone_process(msg) #define L1A_MELODY0_STATE 27 // l1a_mmi_melody0_process(msg) #define L1A_MELODY1_STATE 28 // l1a_mmi_melody1_process(msg) #define L1A_VM_PLAY_STATE 29 // l1a_mmi_vm_playing_process(msg) #define L1A_VM_RECORD_STATE 30 // l1a_mmi_vm_recording_process(msg) #define L1A_SR_ENROLL_STATE 31 // l1a_mmi_sr_enroll_process(msg) #define L1A_SR_UPDATE_STATE 32 // l1a_mmi_sr_update_process(msg) #define L1A_SR_RECO_STATE 33 // l1a_mmi_sr_reco_process(msg) #define L1A_SR_UPDATE_CHECK_STATE 34 // l1a_mmi_sr_update_check_process(msg) #define L1A_AEC_STATE 35 // l1a_mmi_aec_process(msg) #define L1A_FIR_STATE 36 // l1a_mmi_fir_process(msg) #define L1A_AUDIO_MODE_STATE 37 // l1a_mmi_audio_mode_process(msg) #define L1A_MELODY0_E2_STATE 38 // l1a_mmi_melody0_e2_process(msg) #define L1A_MELODY1_E2_STATE 39 // l1a_mmi_melody1_e2_process(msg) #define L1A_VM_AMR_PLAY_STATE 40 // l1a_mmi_vm_amr_playing_process(msg) #define L1A_VM_AMR_RECORD_STATE 41 // l1a_mmi_vm_amr_recording_process(msg) #define L1A_CPORT_STATE 42 // l1a_mmi_cport_process(msg) #if (L1_GTT == 1) #define L1A_GTT_STATE 43 #define INIT_L1 44 // l1a_init_layer1_process(msg) #if (OP_L1_STANDALONE == 1) #define HSW_CONF 45 // l1a_test_config_process(msg) #endif #else #define INIT_L1 43 // l1a_init_layer1_process(msg) #if (OP_L1_STANDALONE == 1) #define HSW_CONF 44 // l1a_test_config_process(msg) #endif #endif #else #if (L1_GTT == 1) #define L1A_GTT_STATE 25 #define INIT_L1 26 // l1a_init_layer1_process(msg) #if (OP_L1_STANDALONE == 1) #define HSW_CONF 27 // l1a_test_config_process(msg) #endif #else #define INIT_L1 25 // l1a_init_layer1_process(msg) #if (OP_L1_STANDALONE == 1) #define HSW_CONF 26 // l1a_test_config_process(msg) #endif #endif #endif #endif #if !(TESTMODE) && (AUDIO_TASK == 1) #define L1A_KEYBEEP_STATE 16 // l1a_mmi_keybeep_process(msg) #define L1A_TONE_STATE 17 // l1a_mmi_tone_process(msg) #define L1A_MELODY0_STATE 18 // l1a_mmi_melody0_process(msg) #define L1A_MELODY1_STATE 19 // l1a_mmi_melody1_process(msg) #define L1A_VM_PLAY_STATE 20 // l1a_mmi_vm_playing_process(msg) #define L1A_VM_RECORD_STATE 21 // l1a_mmi_vm_recording_process(msg) #define L1A_SR_ENROLL_STATE 22 // l1a_mmi_sr_enroll_process(msg) #define L1A_SR_UPDATE_STATE 23 // l1a_mmi_sr_update_process(msg) #define L1A_SR_RECO_STATE 24 // l1a_mmi_sr_reco_process(msg) #define L1A_SR_UPDATE_CHECK_STATE 25 // l1a_mmi_sr_update_check_process(msg) #define L1A_AEC_STATE 26 // l1a_mmi_aec_process(msg) #define L1A_FIR_STATE 27 // l1a_mmi_fir_process(msg) #define L1A_AUDIO_MODE_STATE 28 // l1a_mmi_audio_mode_process(msg) #define L1A_MELODY0_E2_STATE 29 // l1a_mmi_melody0_e2_process(msg) #define L1A_MELODY1_E2_STATE 30 // l1a_mmi_melody1_e2_process(msg) #define L1A_VM_AMR_PLAY_STATE 31 // l1a_mmi_vm_amr_playing_process(msg) #define L1A_VM_AMR_RECORD_STATE 32 // l1a_mmi_vm_amr_recording_process(msg) #define L1A_CPORT_STATE 33 // l1a_mmi_cport_process(msg) #if (L1_GTT == 1) #define L1A_GTT_STATE 34 // l1a_mmi_tty_process(msg) #define INIT_L1 35 // l1a_init_layer1_process(msg) #if (OP_L1_STANDALONE == 1) #define HSW_CONF 36 // l1a_test_config_process(msg) #endif #else #define INIT_L1 34 // l1a_init_layer1_process(msg) #if (OP_L1_STANDALONE == 1) #define HSW_CONF 35 // l1a_test_config_process(msg) #endif #endif #elif !(TESTMODE) && !(AUDIO_TASK == 1) #if (L1_GTT == 1) #define L1A_GTT_STATE 16 // l1a_mmi_tty_process(msg) #define INIT_L1 17 // l1a_init_layer1_process(msg) #if (OP_L1_STANDALONE == 1) #define HSW_CONF 18 // l1a_test_config_process(msg) #endif #else #define INIT_L1 16 // l1a_init_layer1_process(msg) #if (OP_L1_STANDALONE == 1) #define HSW_CONF 17 // l1a_test_config_process(msg) #endif #endif #endif #if TESTMODE #define TMODE_UPLINK (1<<0) #define TMODE_DOWNLINK (1<<1) #endif //------------------------------------ // LAYER 1 DOWNLINK & UPLINK TASKS... //------------------------------------ #define TASK_DISABLED 0 #define TASK_ENABLED 1 #define SEMAPHORE_RESET 0 #define SEMAPHORE_SET 1 #define NO_NEW_TASK -1 // Tasks in the order of their priority (low to high). #if !L1_GPRS #define NBR_DL_L1S_TASKS 32 //GSM_TASKS/ #define HWTEST 0 // DSP checksum reading #define ADC_CSMODE0 1 // ADC task in CS_MODE0 mode #define DEDIC 2 // Global Dedicated mode switch #define RAACC 3 // Channel access (ul) #define RAHO 4 // Handover access (ul) #define NSYNC 5 // Global Neighbour cell synchro switch #define FBNEW 6 // Frequency burst search (Idle mode) #define SBCONF 7 // Synchro. burst confirmation #define SB2 8 // Synchro. burst read (1 frame uncertainty / SB position) #define FB26 9 // Frequency burst search, dedic/transfer mode MF26 or MF52 #define SB26 10 // Synchro burst search, dedic/transfer mode MF26 or MF52 #define SBCNF26 11 // Synchro burst confirmation, dedic/transfer mode MF26 or MF52 #define FB51 12 // Frequency burst search, dedic mode MF51 #define SB51 13 // Synchro burst search, dedic MF51 #define SBCNF51 14 // Synchro burst confirmation, dedic MF51 #define BCCHN 15 // BCCH Neighbor in GSM Idle #define ALLC 16 // All CCCH Reading #define EBCCHS 17 // Extended BCCH Serving Reading #define NBCCHS 18 // Normal BCCH ServingReading #define SMSCB 19 // CBCH serving Reading #define NP 20 // Normal paging Reading #define EP 21 // Extended pagingReading #define ADL 22 // SACCH(SDCCH) DL #define AUL 23 // SACCH(SDCCH) UL #define DDL 24 // SDCCH DL #define DUL 25 // SDCCH UL #define TCHD 26 // Dummy for TCH Half rate #define TCHA 27 // SACCH(TCH) #define TCHTF 28 // TCH Full rate #define TCHTH 29 // TCH Half rate #define BCCHN_TOP 30 // BCCH Neighbour TOP priority in Idle mode #define SYNCHRO 31 // synchro task: L1S reset //END_GSM_TASKS/ #else #define NBR_DL_L1S_TASKS 45 //GPRS_TASKS/ #define HWTEST 0 // DSP checksum reading #define ADC_CSMODE0 1 // ADC task in CS_MODE0 mode #define DEDIC 2 // Global Dedicated mode switch #define RAACC 3 // Channel access (ul) #define RAHO 4 // Handover access (ul) #define NSYNC 5 // Global Neighbour cell synchro switch #define POLL 6 // Packet Polling (Access) #define PRACH 7 // Packet Random Access Channel #define ITMEAS 8 // Interference measurements #define FBNEW 9 // Frequency burst search (Idle mode) #define SBCONF 10 // Synchro. burst confirmation #define SB2 11 // Synchro. burst read (1 frame uncertainty / SB position) #define PTCCH 12 // Packet Timing Advance control channel #define FB26 13 // Frequency burst search, dedic/transfer mode MF26 or MF52 #define SB26 14 // Synchro burst search, dedic/transfer mode MF26 or MF52 #define SBCNF26 15 // Synchro burst confirmation, dedic/transfer mode MF26 or MF52 #define FB51 16 // Frequency burst search, dedic mode MF51 #define SB51 17 // Synchro burst search, dedic MF51 #define SBCNF51 18 // Synchro burst confirmation, dedic MF51 #define PDTCH 19 // Packet Data channel #define BCCHN 20 // BCCH Neighbor in GSM Idle #define ALLC 21 // All CCCH Reading #define EBCCHS 22 // Extended BCCH Serving Reading #define NBCCHS 23 // Normal BCCH Serving Reading #define ADL 24 // SACCH(SDCCH) DL #define AUL 25 // SACCH(SDCCH) UL #define DDL 26 // SDCCH DL #define DUL 27 // SDCCH UL #define TCHD 28 // Dummy for TCH Half rate #define TCHA 29 // SACCH(TCH) #define TCHTF 30 // TCH Full rate #define TCHTH 31 // TCH Half rate #define PALLC 32 // All PCCCH reading #define SMSCB 33 // CBCH serving Reading #define PBCCHS 34 // PBCCH serving reading #define PNP 35 // Packet Normal paging Reading #define PEP 36 // Packet Extended paging Reading #define SINGLE 37 // Single Block for GPRS #define PBCCHN_TRAN 38 // Packet BCCH Neighbor in Packet Transfer mode. #define PBCCHN_IDLE 39 // Packet BCCH Neighbor in Idle mode. #define BCCHN_TRAN 40 // BCCH Neighbour in Packet Transfer mode #define NP 41 // Normal paging Reading #define EP 42 // Extended paging Reading #define BCCHN_TOP 43 // BCCH Neighbour TOP priority in Idle mode #define SYNCHRO 44 // synchro task: L1S reset //END_GPRS_TASKS/ #endif //------------------------------------ // LAYER 1 API //------------------------------------ #define MCSI_PORT1 0 #define MCSI_PORT2 1 //--------------------------------- // DSP vocoder Enable/ Disable //--------------------------------- #if (L1M_WAIT_DSP_RESTART_AFTER_VOCODER_ENABLE ==1) #if (FF_L1_TCH_VOCODER_CONTROL == 1) #define TCH_VOCODER_DISABLE_REQ 0 #define TCH_VOCODER_ENABLE_REQ 1 #define TCH_VOCODER_ENABLED 2 #define TCH_VOCODER_DISABLED 3 // Number of TDMA wait frames until the DSP output is steady #define DSP_VOCODER_ON_TRANSITION 165 #endif // FF_L1_TCH_VOCODER_CONTROL #endif //--------------------------------- // Handover Finished cause defines. //--------------------------------- #define HO_COMPLETE 0 #define HO_TIMEOUT 1 //--------------------------------- // FB detection algorithm defines. //--------------------------------- #define FB_MODE_0 0 // FB detec. mode 0. #define FB_MODE_1 1 // FB detec. mode 1. //--------------------------------- // AFC control defines. //--------------------------------- #define AFC_INIT 1 #define AFC_OPEN_LOOP 2 #define AFC_CLOSED_LOOP 3 // For VCXO algo. #if (VCXO_ALGO) #define AFC_INIT_CENTER 4 #define AFC_INIT_MAX 5 #define AFC_INIT_MIN 6 #endif //--------------------------------- // TOA control defines. //--------------------------------- #define TOA_INIT 1 #define TOA_RUN 2 //--------------------------------- // Neighbour Synchro possible status. //--------------------------------- #define NSYNC_FREE 0 #define NSYNC_PENDING 1 #define NSYNC_COMPLETED 2 #if (L1_12NEIGH ==1) #define NSYNC_WAIT 3 #endif /************************************/ /* Layer 1 constants declaration... */ /************************************/ #define MAX_FN ((UWORD32)26*51*2048) #if L1_GPRS #define MAX_BLOCK_ID ((UWORD32) (3 * (UWORD32) (MAX_FN / 13))) // Block ID corresponding to fn = FN MAX #endif //-------------------------------------------------------- // standard specific constants used in l1_config.std.xxx //-------------------------------------------------------- // GSM #define FIRST_ARFCN_GSM 1 // 1st arfcn is 1 #define NBMAX_CARRIER_GSM 124 // 124 for GSM, 174 for E_GSM, 374 for DCS1800. #define MAX_TXPWR_GSM 19 // lowest power ctrl level value in GSM band // GSM_E #define FIRST_ARFCN_EGSM 1 // 1st arfcn is 1 #define NBMAX_CARRIER_EGSM 174 // 174 carriers for GSM_E. #define MAX_TXPWR_EGSM 19 // lowest power ctrl level value in GSM-E band // PCS1900 #define FIRST_ARFCN_PCS 512 // 1st arfcn is 512 #define NBMAX_CARRIER_PCS 299 // 299 carriers for PCS1900. #define MAX_TXPWR_PCS 15 // lowest power ctrl level value in PCS band #define TXPWR_TURNING_POINT_PCS 21 // DCS1800 #define FIRST_ARFCN_DCS 512 // 1st arfcn is 512 #define NBMAX_CARRIER_DCS 374 // 374 carriers for DCS1800. #define MAX_TXPWR_DCS 15 // lowest power ctrl level value in DCS band #define TXPWR_TURNING_POINT_DCS 28 // GSM850 #define FIRST_ARFCN_GSM850 128 // 1st arfcn is 128 #define NBMAX_CARRIER_GSM850 124 // 124 carriers for GSM850 #define NBMEAS_GSM850 3 // 3 measurement per frame TBD #define MAX_TXPWR_GSM850 19 // lowest power ctrl level value in GSM band // DUAL #define FIRST_DCS_INDEX_DUAL 125 // 1st DCS index within the 498 continu list #define NBMAX_CARRIER_DUAL 124+374 // 374 carriers for DCS1800 + 124 carriers for GSM900 Band #define TXPWR_TURNING_POINT_DUAL 28 // DUALEXT #define FIRST_DCS_INDEX_DUALEXT 175 // 1st DCS index within the 548 continu list #define NBMAX_CARRIER_DUALEXT 174+374 // 374 carriers for DCS1800 + 174 carriers for E-GSM900 Band #define TXPWR_TURNING_POINT_DUALEXT 28 // DUAL_US #define FIRST_ARFCN_GSM850_DUAL_US 1 // 1st GSM850 index within the 423 continu list #define FIRST_PCS_INDEX_DUAL_US 125 // 1st PCS index within the 423 continu list #define NBMAX_CARRIER_DUAL_US 124+299 // 299 carriers for PCS1900 + 124 carriers for GSM850\ Band #define NBMEAS_DUAL_US 4 // 4 measurements per frames. #define TXPWR_TURNING_POINT_DUAL_US 28 // TBD #define NBMAX_CARRIER NBMAX_CARRIER_DUALEXT //used in arrays for power measurement //non optimized!!! (dynamic memory allocation to optimize) #define BAND1 1 #define BAND2 2 #define NO_TXPWR 255 // sentinal value used with UWORD8 type. //-------------------------------------------------------- // Receive level values. //-------------------------------------------------------- #define RXLEV63 63 // max value for RXLEV. #define IL_MIN 240 // minimum input level is -120 dbm. //-------------------------------------------------------- // Max number of cell to report in MPHC_RXLEV_IND. // Nb cells to check to see if cell of MPHC_NETWORK_SYNC_REQ has been detected //-------------------------------------------------------- #define MAX_MEAS_RXLEV_IND_TRACE 10 #define NB_FQ_TO_CHK 4 /*--------------------------------------------------------*/ /* Max value for GSM Paging Parameters. */ /*--------------------------------------------------------*/ #define MAX_AG_BLKS_RES_NCOMB 7 #define MAX_AG_BLKS_RES_COMB 2 #define MAX_PG_BLOC_INDEX_NCOMB 8 #define MAX_PG_BLOC_INDEX_COMB 2 #define MAX_BS_PA_MFRMS 9 /*--------------------------------------------------------*/ /* Position of different blocs in a MF51. */ /*--------------------------------------------------------*/ #define NBCCH_POSITION 2 // Normal BCCH position in a MF51. #define EBCCH_POSITION 6 // Extended BCCH position in a MF51. #define CCCH_0 6 #define CCCH_1 12 #define CCCH_2 16 #define CCCH_3 22 #define CCCH_4 26 #define CCCH_5 32 #define CCCH_6 36 #define CCCH_7 42 #define CCCH_8 46 #define FB_0 0 #define FB_1 10 #define FB_2 20 #define FB_3 30 #define FB_4 40 #define SB_0 1 #define SB_1 11 #define SB_2 21 #define SB_3 31 #define SB_4 41 /*--------------------------------------------------------*/ /* System information position in the "si_bit_map". */ /*--------------------------------------------------------*/ #define SI_1 0x0001 #define SI_2 0x0002 #define SI_2BIS 0x0100 #define SI_2TER 0x0200 #define SI_3 0x0004 #define SI_4 0x0008 #define SI_7 0x0040 #define SI_8 0x0080 #define ALL_SI SI_1 | SI_2 | SI_2BIS | SI_2TER | SI_3 | SI_4 | SI_7 | SI_8 /*--------------------------------------------------------*/ /* CBCH position in the "smscb_bit_map". */ /*--------------------------------------------------------*/ #define CBCH_TB1 0x0001 #define CBCH_TB2 0x0002 #define CBCH_TB3 0x0004 #define CBCH_TB5 0x0008 #define CBCH_TB6 0x0010 #define CBCH_TB7 0x0020 #define CBCH_CONTINUOUS_READING 0 #define CBCH_SCHEDULED 1 #define CBCH_INACTIVE 2 /*--------------------------------------------------------*/ /* Channel type definitions for DEDICATED mode. */ /*--------------------------------------------------------*/ //TABLE/ CHAN TYPE #define INVALID_CHANNEL 0 #define TCH_F 1 #define TCH_H 2 #define SDCCH_4 3 #define SDCCH_8 4 //END_TABLE/ /*--------------------------------------------------------*/ /* Channel mode definitions for DEDICATED. */ /*--------------------------------------------------------*/ #define SIG_ONLY_MODE 0 // signalling only #define TCH_FS_MODE 1 // speech full rate #define TCH_HS_MODE 2 // speech half rate #define TCH_96_MODE 3 // data 9,6 kb/s #define TCH_48F_MODE 4 // data 4,8 kb/s full rate #define TCH_48H_MODE 5 // data 4,8 kb/s half rate #define TCH_24F_MODE 6 // data 2,4 kb/s full rate #define TCH_24H_MODE 7 // data 2,4 kb/s half rate #define TCH_EFR_MODE 8 // enhanced full rate #define TCH_144_MODE 9 // data 14,4 kb/s half rate #if (AMR == 1) #define TCH_AHS_MODE 10 // adaptative speech half rate #define TCH_AFS_MODE 11 // adaptative speech full rate #endif /*--------------------------------------------------------*/ /* Layer 1 functional modes for "mode" setting pupose. */ /*--------------------------------------------------------*/ #define CS_MODE0 0 // functional mode at reset. #define CS_MODE 1 // functional mode in CELL SELECTION. #define I_MODE 2 // functional mode in IDLE. #define CON_EST_MODE1 3 // functional mode in ACCESS (before 1st RA, for TOA convergency). #define CON_EST_MODE2 4 // functional mode in ACCESS (after 1st RA). #define DEDIC_MODE 5 // functional mode in DEDICATED. #define DEDIC_MODE_HALF_DATA 6 // used only for TOA histogram length purpose. #if L1_GPRS #define PACKET_TRANSFER_MODE 7 #endif /*--------------------------------------------------------*/ /* Error causes for MPHC_NO_BCCH message. */ /*--------------------------------------------------------*/ #define NO_FB_SB 0 // FB or SB not found. #define NCC_NOT_PERMITTED 1 // Synchro OK! but PLMN not permitted. /*--------------------------------------------------------*/ /* MFTAB constants and flags. */ /*--------------------------------------------------------*/ #define L1_MAX_FCT 5 /* Max number of fctions in a frame */ #define MFTAB_SIZE 20 /********************************/ /* Software register/flags */ /* definitions. */ /********************************/ #define NO_CTRL (TRUE_L << 0) #define CTRL_MS (TRUE_L << 1) #define CTRL_TX (TRUE_L << 2) #define CTRL_RX (TRUE_L << 3) #define CTRL_ADC (TRUE_L << 4) #define CTRL_SYNC (TRUE_L << 5) #define CTRL_ABORT (TRUE_L << 6) #define CTRL_TEST (TRUE_L << 7) #define CTRL_SYCB (TRUE_L << 8) #define CTRL_FB_ABORT (TRUE_L << 9) #if L1_GPRS #define CTRL_PRACH (TRUE_L << 10) #define CTRL_SYSINGLE (TRUE_L << 11) #endif /********************************/ /* MISC management */ /********************************/ #define GSM_CTL 0 // DSP ctrl for a GSM task #define MISC_CTL 1 // DSP ctrl for a MISC task #define GSM_MISC_CTL 2 // DSP ctrl for a GSM and MISC tasks /********************************/ /* TOA management */ /********************************/ #define ISH_INVALID 128 // value used to disable the toa offset /********************************/ /* AGC management */ /********************************/ #define DPAGC_FIFO_LEN 4 #define DPAGC_MAX_FLAG 1 #if (AMR == 1) #define DPAGC_AMR_FIFO_LEN 4 #endif /********************************/ /* ADC management */ /********************************/ #define ADC_DISABLED 0x0000 // Traffic part #define ADC_MASK_RESET_TRAFFIC 0xFF00 #define ADC_NEXT_TRAFFIC_UL 0x0001 #define ADC_EACH_TRAFFIC_UL 0x0002 #define ADC_NEXT_TRAFFIC_DL 0x0004 #define ADC_EACH_TRAFFIC_DL 0x0008 #define ADC_EACH_RACH 0x0010 // Idle part #define ADC_MASK_RESET_IDLE 0x00FF #define ADC_NEXT_NORM_PAGING 0x0100 #define ADC_EACH_NORM_PAGING 0x0200 #define ADC_NEXT_MEAS_SESSION 0x0400 #define ADC_EACH_MEAS_SESSION 0x0800 #define ADC_NEXT_NORM_PAGING_REORG 0x1000 #define ADC_EACH_NORM_PAGING_REORG 0x2000 // CS_MODE0 part #define ADC_NEXT_CS_MODE0 0x4000 #define ADC_EACH_CS_MODE0 0x8000 /********************************/ /* Neighbor BCCH priorities */ /********************************/ #define TOP_PRIORITY 0 #define HIGH_PRIORITY 1 #define NORMAL_PRIORITY 2 /********************************/ /* Driver constants definitions */ /********************************/ // Used to identify the 1st and last burst for offset management in Drivers. #define BURST_1 0 #define BURST_2 1 #define BURST_3 2 #define BURST_4 3 // Identifier for all DSP tasks. // ...RX & TX tasks identifiers. #define NO_DSP_TASK 0 // No task. #define NP_DSP_TASK 21 // Normal Paging reading task. #define EP_DSP_TASK 22 // Extended Paging reading task. #define NBS_DSP_TASK 19 // Normal BCCH serving reading task. #define EBS_DSP_TASK 20 // Extended BCCH serving reading task. #define NBN_DSP_TASK 17 // Normal BCCH neighbour reading task. #define EBN_DSP_TASK 18 // Extended BCCH neighbour reading task. #define ALLC_DSP_TASK 24 // CCCH reading task while performing FULL BCCH/CCCH reading task. #define CB_DSP_TASK 25 // CBCH reading task. #define DDL_DSP_TASK 26 // SDCCH/D (data) reading task. #define ADL_DSP_TASK 27 // SDCCH/A (SACCH) reading task. #define DUL_DSP_TASK 12 // SDCCH/D (data) transmit task. #define AUL_DSP_TASK 11 // SDCCH/A (SACCH) transmit task. #define RACH_DSP_TASK 10 // RACH transmit task. #define TCHT_DSP_TASK 13 // TCH Traffic data DSP task id (RX or TX) #define TCHA_DSP_TASK 14 // TCH SACCH data DSP task id (RX or TX) #define TCHD_DSP_TASK 28 // TCH Traffic data DSP task id (RX or TX) #define TCH_DTX_UL 15 // Replace UL task in DSP->MCU com. to say "burst not transmitted". #if (L1_GPRS) // Identifier for DSP tasks Packet dedicated. // ...RX & TX tasks identifiers. //------------------------------------------------------------------------ // WARNING ... Need to aligned following macro with MCU/DSP GPRS Interface //------------------------------------------------------------------------ #define PNP_DSP_TASK 30 #define PEP_DSP_TASK 31 #define PALLC_DSP_TASK 32 #define PBS_DSP_TASK 33 #define PTCCH_DSP_TASK 33 #endif // Identifier for measurement, FB / SB search tasks. // Values 1,2,3 reserved for "number of measurements". #define FB_DSP_TASK 5 // Freq. Burst reading task in Idle mode. #define SB_DSP_TASK 6 // Sync. Burst reading task in Idle mode. #define TCH_FB_DSP_TASK 8 // Freq. Burst reading task in Dedicated mode. #define TCH_SB_DSP_TASK 9 // Sync. Burst reading task in Dedicated mode. #define IDLE1 1 // Debug tasks #define CHECKSUM_DSP_TASK 33 #define TST_NDB 35 // Checksum DSP->MCU #define TST_DB 36 // DB communication check #define INIT_VEGA 37 #define DSP_LOOP_C 38 // Identifier for measurement, FB / SB search tasks. // Values 1,2,3 reserved for "number of measurements". #define TCH_LOOP_A 31 #define TCH_LOOP_B 32 #if (DSP == 33) || (DSP == 34) || (DSP == 35) || (DSP == 36) #define SC_CHKSUM_VER (DB_W_PAGE_0 + (2 * (0x08DB - 0x800))) #else #define SC_CHKSUM_VER (DB_W_PAGE_0 + (2 * (0x09A0 - 0x800))) #endif // bits in d_gsm_bgd_mgt - background task management #define B_DSPBGD_RECO 1 // start of reco in dsp background #define B_DSPBGD_UPD 2 // start of alignement update in dsp background #define B_DSPBGD_STOP_RECO 256 // stop of reco in dsp background #define B_DSPBGD_STOP_UPD 512 // stop of alignement update in dsp background // bit in d_pll_config #define B_32KHZ_CALIB (TRUE_L << 14) // force DSP in Idle1 during 32 khz calibration // **************************************************************** // NDB AREA (PARAM) MCU<->DSP COMMUNICATION DEFINITIONS // **************************************************************** // bits in d_tch_mode #define B_EOTD (TRUE_L << 0) // EOTD mode #define B_PLAY_UL (TRUE_L << 3) // Play UL #define B_DCO_ON (TRUE_L << 4) // DCO ON/OFF #define B_AUDIO_ASYNC (TRUE_L << 1) // WCP reserved // **************************************************************** // PARAMETER AREA (PARAM) MCU<->DSP COMMUNICATION DEFINITIONS // **************************************************************** #define C_POND_RED 1L // below values are defined in the file l1_time.h //#define D_NSUBB_IDLE 296L //#define D_NSUBB_DEDIC 30L #define D_FB_THR_DET_IACQ 0x3333L #define D_FB_THR_DET_TRACK 0x28f6L #define D_DC_OFF_THRES 0x7fffL #define D_DUMMY_THRES 17408L #define D_DEM_POND_GEWL 26624L #define D_DEM_POND_RED 20152L #define D_HOLE 0L #define D_TRANSFER_RATE 0x6666L // Full Rate vocoder definitions. #define D_MACCTHRESH1 7872L #define D_MLDT -4L #define D_MACCTHRESH 7872L #define D_GU 5772L #define D_GO 7872L #define D_ATTMAX 53L #define D_SM -892L #define D_B 208L #define D_SD_MIN_THR_TCHFS 15L //(24L *C_POND_RED) #define D_MA_MIN_THR_TCHFS 738L //(1200L *C_POND_RED) #define D_MD_MAX_THR_TCHFS 1700L //(2000L *C_POND_RED) #define D_MD1_MAX_THR_TCHFS 99L //(160L *C_POND_RED) #if (DSP == 33) || (DSP == 34) || (DSP == 35) || (DSP == 36) // Frequency burst definitions #define D_FB_MARGIN_BEG 24 #define D_FB_MARGIN_END 22 // V42bis definitions #define D_V42B_SWITCH_HYST 16L #define D_V42B_SWITCH_MIN 64L #define D_V42B_SWITCH_MAX 250L #define D_V42B_RESET_DELAY 10L // Latencies definitions #if (DSP == 33) || (DSP == 34) || (DSP == 35) || (DSP == 36) // C.f. BUG1404 #define D_LAT_MCU_BRIDGE 0x000FL #else #define D_LAT_MCU_BRIDGE 0x0009L #endif #define D_LAT_MCU_HOM2SAM 0x000CL #define D_LAT_MCU_BEF_FAST_ACCESS 0x0005L #define D_LAT_DSP_AFTER_SAM 0x0004L // Background Task in GSM mode: Initialization. #define D_GSM_BGD_MGT 0L #if (CHIPSET == 4) #define D_MISC_CONFIG 0L #elif (CHIPSET == 7) || (CHIPSET == 8) || (CHIPSET == 10) || (CHIPSET == 11) || (CHIPSET == 12) #define D_MISC_CONFIG 1L #else #define D_MISC_CONFIG 0L #endif #endif // Hall Rate vocoder and ched definitions. #define D_SD_MIN_THR_TCHHS 37L #define D_MA_MIN_THR_TCHHS 344L #define D_MD_MAX_THR_TCHHS 2175L #define D_MD1_MAX_THR_TCHHS 138L #define D_SD_AV_THR_TCHHS 1845L #define D_WED_FIL_TC 0x7c00L #define D_WED_FIL_INI 4650L #define D_X_MIN 15L #define D_X_MAX 23L #define D_Y_MIN 703L #define D_Y_MAX 2460L #define D_SLOPE 135L #define D_WED_DIFF_THRESHOLD 406L #define D_MABFI_MIN_THR_TCHHS 5320L #define D_LDT_HR -5 #define D_MACCTRESH_HR 6500 #define D_MACCTRESH1_HR 6500 #define D_GU_HR 2620 #define D_GO_HR 3700 #define D_B_HR 182 #define D_SM_HR -1608 #define D_ATTMAX_HR 53 // Enhanced Full Rate vocoder and ched definitions. #define C_MLDT_EFR -4 #define C_MACCTHRESH_EFR 8000 #define C_MACCTHRESH1_EFR 8000 #define C_GU_EFR 4522 #define C_GO_EFR 6500 #define C_B_EFR 174 #define C_SM_EFR -878 #define C_ATTMAX_EFR 53 #define D_SD_MIN_THR_TCHEFS 15L //(24L *C_POND_RED) #define D_MA_MIN_THR_TCHEFS 738L //(1200L *C_POND_RED) #define D_MD_MAX_THR_TCHEFS 1230L //(2000L *C_POND_RED) #define D_MD1_MAX_THR_TCHEFS 99L //(160L *C_POND_RED) // Integrated Data Services definitions. #define D_MAX_OVSPD_UL 8 // Detect frames containing 90% of 1s as synchro frames #define D_SYNC_THRES 0x3f50 // IDLE frames are only frames with 100 % of 1s #define D_IDLE_THRES 0x4000 #define D_M1_THRES 5 #define D_MAX_OVSP_DL 8 // d_ra_act: bit field definition #define B_F48BLK 5 // Mask for b_itc information (d_ra_conf) #define CE_MASK 0x04 #define D_FACCH_THR 0 #define D_DSP_TEST 0 #define D_VERSION_NUMBER 0 #define D_TI_VERSION 0 /*------------------------------------------------------------------------------*/ /* */ /* DEFINITIONS FOR DSP <-> MCU COMMUNICATION. */ /* ++++++++++++++++++++++++++++++++++++++++++ */ /* */ /*------------------------------------------------------------------------------*/ // COMMUNICATION Interrupt definition //------------------------------------ #define ALL_16BIT 0xffffL #define B_GSM_PAGE (TRUE_L << 0) #define B_GSM_TASK (TRUE_L << 1) #define B_MISC_PAGE (TRUE_L << 2) #define B_MISC_TASK (TRUE_L << 3) #define B_GSM_PAGE_MASK (ALL_16BIT ^ B_GSM_PAGE) #define B_GSM_TASK_MASK (ALL_16BIT ^ B_GSM_TASK) #define B_MISC_PAGE_MASK (ALL_16BIT ^ B_MISC_PAGE) #define B_MISC_TASK_MASK (ALL_16BIT ^ B_MISC_TASK) // Common definition //---------------------------------- // Index to *_DEMOD* arrays. #define D_TOA 0 // Time Of Arrival. #define D_PM 1 // Power Measurement. #define D_ANGLE 2 // Angle (AFC correction) #define D_SNR 3 // Signal / Noise Ratio. // Bit name/position definitions. #define B_FIRE0 5 // Fire result bit 0. (00 -> NO ERROR) (01 -> ERROR CORRECTED) #define B_FIRE1 6 // Fire result bit 1. (10 -> ERROR) (11 -> unused) #define B_SCH_CRC 8 // CRC result for SB decoding. (1 for ERROR). #define B_BLUD 15 // Uplink,Downlink data block Present. (1 for PRESENT). #define B_AF 14 // Activity bit: 1 if data block is valid. #define B_BFI 2 // Bad Frame Indicator #define B_UFI 0 // UNRELIABLE FRAME Indicator #define B_ECRC 9 // Enhanced full rate CRC bit #define B_EMPTY_BLOCK 10 // for voice memo purpose, this bit is used to determine #if (DEBUG_DEDIC_TCH_BLOCK_STAT == 1) #define FACCH_GOOD 10 #define FACCH_BAD 11 #endif #if (AMR == 1) // Place of the RX type in the AMR block header #define RX_TYPE_SHIFT 3 #define RX_TYPE_MASK 0x0038 // Place of the vocoder type in the AMR block header #define VOCODER_TYPE_SHIFT 0 #define VOCODER_TYPE_MASK 0x0007 // List of the possible RX types in a_dd block #define SPEECH_GOOD 0 #define SPEECH_DEGRADED 1 #define ONSET 2 #define SPEECH_BAD 3 #define SID_FIRST 4 #define SID_UPDATE 5 #define SID_BAD 6 #define AMR_NO_DATA 7 #define AMR_INHIBIT 8 // List of possible RX types in RATSCCH block #define C_RATSCCH_GOOD 5 // List of the possible AMR channel rate #define AMR_CHANNEL_4_75 0 #define AMR_CHANNEL_5_15 1 #define AMR_CHANNEL_5_9 2 #define AMR_CHANNEL_6_7 3 #define AMR_CHANNEL_7_4 4 #define AMR_CHANNEL_7_95 5 #define AMR_CHANNEL_10_2 6 #define AMR_CHANNEL_12_2 7 // Types of RATSCCH blocks #define C_RATSCCH_UNKNOWN 0 #define C_RATSCCH_CMI_PHASE_REQ 1 #define C_RATSCCH_AMR_CONFIG_REQ_MAIN 2 #define C_RATSCCH_AMR_CONFIG_REQ_ALT 3 #define C_RATSCCH_AMR_CONFIG_REQ_ALT_IGNORE 4 // Alternative AMR_CONFIG_REQ with updates coming in the next THRES_REQ block #define C_RATSCCH_THRES_REQ 5 // These flags define a bitmap that indicates which AMR parameters are being modified by a RATSCCH #define C_AMR_CHANGE_CMIP 0 #define C_AMR_CHANGE_ACS 1 #define C_AMR_CHANGE_ICM 2 #define C_AMR_CHANGE_THR1 3 #define C_AMR_CHANGE_THR2 4 #define C_AMR_CHANGE_THR3 5 #define C_AMR_CHANGE_HYST1 6 #define C_AMR_CHANGE_HYST2 7 #define C_AMR_CHANGE_HYST3 8 // CMIP default value #define C_AMR_CMIP_DEFAULT 1 // According to ETSI specification 05.09, cmip is always 1 by default (new channel, handover...) #endif // "d_ctrl_tch" bits positions for TCH configuration. #define B_CHAN_MODE 0 #define B_CHAN_TYPE 4 #define B_RESET_SACCH 6 #define B_VOCODER_ON 7 #define B_SYNC_TCH_UL 8 #if (AMR == 1) #define B_SYNC_AMR 9 #else #define B_SYNC_TCH_DL 9 #endif #define B_STOP_TCH_UL 10 #define B_STOP_TCH_DL 11 #define B_TCH_LOOP 12 #define B_SUBCHANNEL 15 // "d_ctrl_abb" bits positions for conditionnal loading of abb registers. #define B_RAMP 0 #if ((ANLG_FAM == 1) || (ANLG_FAM == 2) || (ANLG_FAM == 3)) #define B_BULRAMPDEL 3 // Note: this name is changed #define B_BULRAMPDEL2 2 // Note: this name is changed #define B_BULRAMPDEL_BIS 9 #define B_BULRAMPDEL2_BIS 10 #endif #define B_AFC 4 // "d_ctrl_system" bits positions. #define B_TSQ 0 #define B_BCCH_FREQ_IND 3 #define B_TASK_ABORT 15 // Abort RF tasks for DSP. /* * FreeCalypso Frankenstein: the following definition has been * imported from LoCosto version of l1_const.h; it is needed for * the LoCosto-based C code to compile. */ #define C_BA_PM_MEAS (2) // **************************************************************** // POLESTAR EVABOARD 3 REGISTERS & ADRESSES DEFINITIONS // **************************************************************** // DSP ADRESSES //-------------------- #define DB_SIZE (4*20L) // 4 pages of 20 words... #if (DSP == 33) || (DSP == 34) || (DSP == 35) || (DSP == 36) #define DB_W_PAGE_0 0xFFD00000L // DB page 0 write : 20 words long #define DB_W_PAGE_1 0xFFD00028L // DB page 1 write : 20 words long #define DB_R_PAGE_0 0xFFD00050L // DB page 0 read : 20 words long #define DB_R_PAGE_1 0xFFD00078L // DB page 1 read : 20 words long #define NDB_ADR 0xFFD001A8L // NDB start address : 268 words #define PARAM_ADR 0xFFD00862L // PARAM start address : 57 words #if (DSP_DEBUG_TRACE_ENABLE == 1) #define DB2_R_PAGE_0 0xFFD00184L #define DB2_R_PAGE_1 0xFFD00188L #endif #else #define DB_W_PAGE_0 0xFFD00000L // DB page 0 write : 20 words long #define DB_W_PAGE_1 0xFFD00028L // DB page 1 write : 20 words long #define DB_R_PAGE_0 0xFFD00050L // DB page 0 read : 20 words long #define DB_R_PAGE_1 0xFFD00078L // DB page 1 read : 20 words long #define NDB_ADR 0xFFD000a0L // NDB start address : 268 words #define PARAM_ADR 0xFFD002b8L // PARAM start address : 57 words #endif // **************************************************************** // ADC reading definitions // **************************************************************** #define ADC_READ_PERIOD (40) //30 * 4.615 = 140ms // **************************************************************** // AGC: IL table identifier used by function Cust_get_agc_from_IL // **************************************************************** #define MAX_ID 1 #define AV_ID 2 #define PWR_ID 3 #if TESTMODE // **************************************************************** // Testmode: State of the continous mode // **************************************************************** #define TM_NO_CONTINUOUS 1 // continuous mode isn't active #define TM_START_RX_CONTINUOUS 2 // start the Rx continuous mode #define TM_START_TX_CONTINUOUS 3 // start the Tx continuous mode #define TM_CONTINUOUS 4 // Rx or Tx continuous mode #endif #if (AMR == 1) // **************************************************************** // AMR: Position of each AMR parameters in the AMR API buffer // **************************************************************** #define NSCB_INDEX 0 #define NSCB_SHIFT 6 #define ICMUL_INDEX 0 #define ICMUL_SHIFT 4 #define ICMDL_INDEX 0 #define ICMDL_SHIFT 1 #define ICMIUL_INDEX 0 #define ICMIUL_SHIFT 3 #define ICMIDL_INDEX 0 #define ICMIDL_SHIFT 0 #define ACSUL_INDEX 1 #define ACSUL_SHIFT 0 #define ACSDL_INDEX 1 #define ACSDL_SHIFT 8 #define THR1_INDEX 2 #define THR1_SHIFT 0 #define THR2_INDEX 2 #define THR2_SHIFT 6 #define THR3_INDEX 3 #define THR3_SHIFT 8 #define HYST1_INDEX 3 #define HYST1_SHIFT 0 #define HYST2_INDEX 3 #define HYST2_SHIFT 4 #define HYST3_INDEX 2 #define HYST3_SHIFT 12 #define NSYNC_INDEX 3 #define NSYNC_SHIFT 14 #define CMIP_INDEX 3 #define CMIP_SHIFT 15 #define NSCB_MASK 0x0001 #define ICM_MASK 0x0003 #define ICMI_MASK 0x0001 #define ACS_MASK 0x00FF #define THR_MASK 0x003F #define HYST_MASK 0x000F #define CMIP_MASK 0x0001 #endif