FreeCalypso > hg > fc-magnetite
view src/aci2/alr/alr_em.h @ 210:5dab5306bac5
configs: a couple of failed experiments
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Fri, 14 Oct 2016 19:53:30 +0000 |
parents | 93999a60b835 |
children |
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/* +----------------------------------------------------------------------------- | Project : | Modul : +----------------------------------------------------------------------------- | Copyright 2002 Texas Instruments Berlin, AG | All rights reserved. | | This file is confidential and a trade secret of Texas | Instruments Berlin, AG | The receipt of or possession of this file does not convey | any rights to reproduce or disclose its contents or to | manufacture, use, or sell anything it may describe, in | whole, or in part, without the specific written consent of | Texas Instruments Berlin, AG. +----------------------------------------------------------------------------- | Purpose : Engineering Mode (EM) Declarations + Macros | +----------------------------------------------------------------------------- */ #ifndef ALR_EM_H #define ALR_EM_H #if defined (FF_EM_MODE) AND defined (ALR) /* -------------------data declarations for EM / Variables------------------------------*/ /* * The offset is used to indicate the source entity the event trace is from. * L1/ALR = 0x00, DL = 0x2D, RR = 0x37, MM = 0x5F, CC = 0x78, SS = 0xAF, SMS = 0xBE, SIM = E1 */ #define L1_OFFSET 0x00 /* * EM_MAX_ALR_EVENTS defines maximum number of event traces for the engineering mode. * The number is increased by one to ensure that the event numbers defined in the * corresponding document are the same as in the sources. */ #define EM_MAX_ALR_EVENTS 40 #define EM_L1_SEM_SIZE 120 /* Max. number off all data fall on to the event tracing */ /* * Definitions for the additional parameters used for the event tracing. */ #define EM_AVAIL 1 #define EM_NOT_AVAIL 0 #define EM_HANDOVER_ASYNC 0 #define EM_HANDOVER_SYNC 1 #define EM_HANDOVER_PRE_SYNC 2 #define EM_TCH_CLOSE 0 #define EM_TCH_OPEN 1 #define EM_DAI_STOP 0 #define EM_DAI_START 1 /* * Type is combination of entity index(upper nibble) plus event number(lower nibble). * Bit 8 7 6 5 4 3 2 1 * | entity | event number | */ #define ALR_V_1 (1 + L1_OFFSET) #define ALR_V_2 (2 + L1_OFFSET) #define ALR_V_3 (3 + L1_OFFSET) #define ALR_V_4 (4 + L1_OFFSET) #define ALR_V_5 (5 + L1_OFFSET) #define ALR_V_6 (6 + L1_OFFSET) #define ALR_V_7 (7 + L1_OFFSET) #define ALR_V_8 (8 + L1_OFFSET) #define ALR_V_9 (9 + L1_OFFSET) #define ALR_V_10 (10+ L1_OFFSET) #define ALR_V_11 (11+ L1_OFFSET) #define ALR_V_12 (12+ L1_OFFSET) #define ALR_V_13 (13+ L1_OFFSET) #define ALR_V_14 (14+ L1_OFFSET) #define ALR_V_15 (15+ L1_OFFSET) #define ALR_V_16 (16+ L1_OFFSET) #define ALR_V_17 (17+ L1_OFFSET) #define ALR_V_18 (18+ L1_OFFSET) #define ALR_V_19 (19+ L1_OFFSET) #define ALR_V_20 (20+ L1_OFFSET) #define ALR_V_21 (21+ L1_OFFSET) #define ALR_V_22 (22+ L1_OFFSET) #define ALR_V_23 (23+ L1_OFFSET) #define ALR_V_24 (24+ L1_OFFSET) #define ALR_V_25 (25+ L1_OFFSET) #define ALR_V_26 (26+ L1_OFFSET) #define ALR_V_27 (27+ L1_OFFSET) #define ALR_V_28 (28+ L1_OFFSET) #define ALR_V_29 (29+ L1_OFFSET) #define ALR_V_30 (30+ L1_OFFSET) #define ALR_V_31 (31+ L1_OFFSET) #define ALR_V_32 (32+ L1_OFFSET) #define ALR_V_33 (33+ L1_OFFSET) #define ALR_V_34 (34+ L1_OFFSET) #define ALR_V_35 (35+ L1_OFFSET) #define ALR_V_36 (36+ L1_OFFSET) #define ALR_V_37 (37+ L1_OFFSET) #define ALR_V_38 (38+ L1_OFFSET) #define ALR_V_39 (39+ L1_OFFSET) /* Event tracing flags for EM */ EXTERN BOOL alr_v[EM_MAX_ALR_EVENTS]; EXTERN UBYTE em_act_rlt; /*lint -esym(526,em_act_rlt) : not defined here */ EXTERN UBYTE em_act_dlt; /*lint -esym(526,em_act_dlt) : not defined here */ #endif /* FF_EM_MODE */ /*----------------Functions--------*/ /* * Layer1/ALR primitives Engineering Mode * Bitmask for the event tracing */ #if defined (FF_EM_MODE) AND defined (ALR) EXTERN const void l1_em_l1_event_req (T_EM_L1_EVENT_REQ *em_l1_event_req); /* * If all entities are linked into one module this definitions * prefixes all this functions with the enity name */ #ifdef OPTION_MULTITHREAD #define em_write_buffer_2 _ENTITY_PREFIXED(em_write_buffer_2) #define em_write_buffer_3 _ENTITY_PREFIXED(em_write_buffer_3) #define em_write_buffer_3a _ENTITY_PREFIXED(em_write_buffer_3a) #define em_write_buffer_4 _ENTITY_PREFIXED(em_write_buffer_4) // #define check_write_index _ENTITY_PREFIXED(check_write_index) #endif EXTERN UBYTE em_write_buffer_2 (UBYTE event_no); EXTERN UBYTE em_write_buffer_3 (UBYTE event_no, UBYTE value); EXTERN UBYTE em_write_buffer_3a (UBYTE event_no, USHORT value); EXTERN UBYTE em_write_buffer_4 (UBYTE event_no, UBYTE value1, UBYTE value2); EXTERN void em_init_l1_event_trace(void); EXTERN void alr_em_error_cause(UBYTE cause, USHORT arfcn); /* * Semaphor handling */ EXTERN void em_l1_sem_init (void); EXTERN void em_l1_sem_exit (void); #endif /* FF_EM_MODE */ /*-----------------------Macro Definition -----------*/ #if defined (FF_EM_MODE) AND defined (ALR) /* Macros with NAME {...;} because of LINT */ #define ALR_EM_SET_EM_ACT_RLT (em_act_rlt=alr_data->dedi_data.act_rlt) #define ALR_EM_SET_EM_ACT_RLT_2 (em_act_rlt=dd->act_rlt) #define ALR_EM_SET_EM_ACT_DLT (em_act_dlt = alr_data->pch_data.act_dlt) #define ALR_EM_ERROR_IND(cause, arfcn) alr_em_error_cause(cause, arfcn) #define ALR_EM_POWER_MEASSUREMENT_REQUEST\ /* Power measurement request */\ if (alr_v[1])\ {\ alr_v[1] = em_write_buffer_3 (ALR_V_1 , mph_power_req->pch_interrupt);\ } /* alr_v[1] */ #define ALR_EM_POWER_MEASUREMENT_CONFIRM\ /* Power measurement confirm */\ if (alr_v[2])\ {\ alr_v[2] = em_write_buffer_2 (ALR_V_2 );\ } /* alr_v[2] */ #define ALR_EM_FIELDSTRENGTH_MEASUREMENT_REQUEST\ /* Fieldstrength measurement request */\ if (alr_v[3])\ {\ alr_v[3] = em_write_buffer_2 (ALR_V_3 );\ } /* alr_v[3] */ #define ALR_EM_FIELDSTRENGTH_MEASUREMENT_CONFIRM\ /* Fieldstrength measurement confirm */\ if (alr_v[4])\ {\ alr_v[4] = em_write_buffer_2 (ALR_V_4 );\ } /* alr_v[4] */ #define ALR_EM_BSIC_REQUEST\ /* BSIC request */\ if (alr_v[5])\ {\ alr_v[5] = em_write_buffer_3a (ALR_V_5 , (USHORT)(mph_bsic_req->arfcn&ARFCN_MASK));\ } /* alr_v[5] */ #define ALR_EM_BSIC_CONFIRM(x)\ /* BSIC confirm */\ if (alr_v[6])\ {\ alr_v[6] = em_write_buffer_3 (ALR_V_6, x);\ } /* alr_v[6] */ #define ALR_EM_BCCH_READ_ERROR\ /* CS_BCCH_READ_ERROR */\ if (alr_v[7])\ {\ alr_v[7] = em_write_buffer_3a (ALR_V_7 , arfcn);\ } /* alr_v[7] */\ #define ALR_EM_CONFIGURE_CLASSMARK\ /* Configure classmark */\ if (alr_v[8])\ {\ alr_v[8] = em_write_buffer_4 (ALR_V_8 , classmark->classmark.pclass,\ classmark->classmark.pclass2);\ } /* alr_v[8] */ #define ALR_EM_CONFIGURE_IDLE_MODE\ /* Configure idle mode */\ if (alr_v[9])\ {\ alr_v[9] = em_write_buffer_3a (ALR_V_9 , idle->arfcn);\ } /* alr_v[9] */ #define ALR_EM_CONFIGURE_CBCH_CHANNEL\ /* Configure CBCH channel */\ if (alr_v[10])\ {\ alr_v[10] = em_write_buffer_3 (ALR_V_10 , cbch->stat);\ } /* alr_v[10] */ #define ALR_EM_CONFIGURE_NEIGHBOUERCELL_LIST\ /* Configure neighbourcell list */\ if (alr_v[11])\ {\ alr_v[11] = em_write_buffer_3 (ALR_V_11, alr_data->nc_data.c_ba_arfcn);\ } /* alr_v[11] */ #define ALR_EM_PAGE_MODE_CHANGE\ /* Page mode change */\ if (alr_v[12])\ {\ alr_v[12] = em_write_buffer_3 (ALR_V_12, alr_data->pch_data.pl_idle.page_mode);\ } /* alr_v[12] */ #define ALR_EM_IDLE_MODE_BCCH_PARAMETER_CHANGED\ /* Idle mode BCCH parameter change */\ if (alr_v[13])\ {\ alr_v[13] = em_write_buffer_3a (ALR_V_13, data_ind->radio_freq);\ } /* alr_v[13] */ #define ALR_EM_DOWNLINK_FAILURE\ /* CS_DOWN_LINK_FAIL */\ if (alr_v[14])\ {\ alr_v[14] = em_write_buffer_2 (ALR_V_14);\ } /* alr_v[14] */ #define ALR_EM_PAGING_DETECTED\ /* Paging detected */\ if (alr_v[15])\ {\ alr_v[15] = em_write_buffer_3 (ALR_V_15, id_type);\ } /* alr_v[15] */ #define ALR_EM_NEIGHBOURCELL_BSIC_REQUEST\ /* NC BSIC request */\ if (alr_v[16])\ {\ alr_v[16] = em_write_buffer_3a (ALR_V_16, mph_bsic_req->arfcn);\ } /* alr_v[16] */ #define ALR_EM_NEIGHBOURCELL_BSIC_CONFIRM(x)\ /* NC BSIC confirm */\ if (alr_v[17])\ {\ alr_v[17] = em_write_buffer_3 (ALR_V_17, x);\ } /* alr_v[17] */ #define ALR_EM_READ_NEIGHBOURCELL_SB\ /* Read NC SB idle */\ if (alr_v[18])\ {\ alr_v[18] = em_write_buffer_3a (ALR_V_18 , p_ncell->ba_arfcn);\ } /* alr_v[18] */ #define ALR_EM_NEIGHBOURCELL_SB(x)\ /* NC SB */\ if (alr_v[19])\ {\ alr_v[19] = em_write_buffer_3 (ALR_V_19, x);\ } /* alr_v[19] */ #define ALR_EM_READ_NEIGHBOURCELL_BCCH\ /* Read NC BCCH */\ if (alr_v[20])\ {\ alr_v[20] = em_write_buffer_3a (ALR_V_20 , bcch_req->radio_freq);\ } /* alr_v[20] */ #define ALR_EM_NEIGHBOURCELL_BCCH(x)\ /* neighbourcell BCCH not available */\ if (alr_v[21])\ {\ alr_v[21] = em_write_buffer_3 (ALR_V_21, x);\ } /* alr_v[21] */ #define ALR_EM_CONFIGURE_CELL_RESELECTION\ /* Configure cell reselection */\ if (alr_v[22])\ {\ alr_v[22] = em_write_buffer_3a (ALR_V_22 , arfcn);\ } /* alr_v[22] */ #define ALR_EM_START_CONNECTION_ESTABLISHMENT\ /* Start connection establishment */\ if (alr_v[23])\ {\ alr_v[23] = em_write_buffer_2(ALR_V_23);\ } /* alr_v[23] */ #define ALR_EM_CONFIGURE_IMMIDIATE_ASSIGNMENT\ /* Configure immediate assignment */\ if (alr_v[24])\ {\ alr_v[24] = em_write_buffer_2(ALR_V_24);\ } /* alr_v[24] */ #define ALR_EM_STOP_CONNECTION_ESTABLISHMENT\ /* Stop connection establishment */\ if (alr_v[25])\ {\ alr_v[25] = em_write_buffer_2(ALR_V_25);\ } /* alr_v[25] */ #define ALR_EM_CONFIGURE_CHANNEL_ASSIGNMENT\ /* Configure channel assignment */\ if (alr_v[26])\ {\ alr_v[26] = em_write_buffer_2(ALR_V_26);\ } /* alr_v[26] */ #define ALR_EM_CONFIGURE_HANDOVER(x)\ /* Configure asynchronous, presynchr. or synchronized handover */\ if (alr_v[27])\ {\ alr_v[27] = em_write_buffer_3(ALR_V_27, x);\ } /* alr_v[27] */ #define ALR_EM_CONFIGURE_FREQUENCY_REDEFINITION\ /* Configure frequency redefinition */\ if (alr_v[28])\ {\ alr_v[28] = em_write_buffer_2(ALR_V_28);\ } /* alr_v[28] */ #define ALR_EM_CONFIGURE_CHANNEL_MODE_MODIFY\ /* Configure channel mode modify */\ if (alr_v[29])\ {\ alr_v[29] = em_write_buffer_2(ALR_V_29);\ } /* alr_v[29] */ #define ALR_EM_CONFIGURE_CIPHER_MODE_SETTING\ /* Configure cipher mode setting */\ if (alr_v[30])\ {\ alr_v[30] = em_write_buffer_2(ALR_V_30);\ } /* alr_v[30] */ #define ALR_EM_START_CBCH_READING\ /* Start CBCH reading */\ if (alr_v[31])\ {\ alr_v[31] = em_write_buffer_3(ALR_V_31,(flags & CBCH_SCHED));\ } /* alr_v[31] */ #define ALR_EM_RECEIVE_CBCH_MESSAGE\ /* Receive CBCH message */\ if (alr_v[32])\ {\ alr_v[32] = em_write_buffer_3(ALR_V_32, block_no);\ } /* alr_v[32] */ #define ALR_EM_CBCH_MESSAGE_COMPLETE\ /* CBCH message complete */\ if (alr_v[33])\ {\ alr_v[33] = em_write_buffer_2(ALR_V_33);\ } /* alr_v[33] */ #define ALR_EM_STOP_CBCH_READING\ /* Stop CBCH reading */\ if (alr_v[34])\ {\ alr_v[34] = em_write_buffer_2(ALR_V_34);\ } /* alr_v[34] */ #define ALR_EM_RECEIVE_NULL_MESSAGE\ /* Receive NULL message */\ if (alr_v[35])\ {\ alr_v[35] = em_write_buffer_2(ALR_V_35);\ } /* alr_v[35] */ #define ALR_EM_RECEIVE_SCHEDULE_MESSAGE\ /* Receive scheduled message */\ if (alr_v[36])\ {\ alr_v[36] = em_write_buffer_2(ALR_V_36);\ } /* alr_v[36] */ #define ALR_EM_CONFIGURE_TCH_LOOP(x)\ /* Configure TCH Loop */\ if (alr_v[37])\ {\ alr_v[37] = em_write_buffer_3(ALR_V_37, x);\ } /* alr_v[37] */ #define ALR_EM_CONFIGURE_DAI_TESTING(x)\ /* Configure DAI testing */\ if (alr_v[38])\ {\ alr_v[38] = em_write_buffer_3(ALR_V_38, x);\ } /* alr_v[38] */ #define ALR_EM_DEACTIVATE_L1\ /* Deactivate Layer 1 */\ if (alr_v[39])\ {\ alr_v[39] = em_write_buffer_2(ALR_V_39);\ } /* alr_v[39] */ #else #define EM_TCH_CLOSE 0/*necessary to compile*/ #define EM_TCH_OPEN 1 #define ALR_EM_SET_EM_ACT_RLT #define ALR_EM_SET_EM_ACT_RLT_2 #define ALR_EM_SET_EM_ACT_DLT #define ALR_EM_ERROR_IND(cause, arfcn) #define ALR_EM_POWER_MEASSUREMENT_REQUEST /*Event 1*/ #define ALR_EM_POWER_MEASUREMENT_CONFIRM /*Event 2*/ #define ALR_EM_FIELDSTRENGTH_MEASUREMENT_REQUEST /*Event 3*/ #define ALR_EM_FIELDSTRENGTH_MEASUREMENT_CONFIRM /*Event 4*/ #define ALR_EM_BSIC_REQUEST /*Event 5*/ #define ALR_EM_BSIC_CONFIRM(x) /*Event 6*/ #define ALR_EM_BCCH_READ_ERROR /*Event 7*/ #define ALR_EM_CONFIGURE_CLASSMARK /*Event 8*/ #define ALR_EM_CONFIGURE_IDLE_MODE /*Event 9*/ #define ALR_EM_CONFIGURE_CBCH_CHANNEL /*Event 10*/ #define ALR_EM_CONFIGURE_NEIGHBOUERCELL_LIST /*Event 11*/ #define ALR_EM_PAGE_MODE_CHANGE /*Event 12*/ #define ALR_EM_IDLE_MODE_BCCH_PARAMETER_CHANGED /*Event 13*/ #define ALR_EM_DOWNLINK_FAILURE /*Event 14*/ #define ALR_EM_PAGING_DETECTED /*Event 15*/ #define ALR_EM_NEIGHBOURCELL_BSIC_REQUEST /*Event 16*/ #define ALR_EM_NEIGHBOURCELL_BSIC_CONFIRM(x) /*Event 17*/ #define ALR_EM_READ_NEIGHBOURCELL_SB /*Event 18*/ #define ALR_EM_NEIGHBOURCELL_SB(x) /*Event 19*/ #define ALR_EM_READ_NEIGHBOURCELL_BCCH /*Event 20*/ #define ALR_EM_NEIGHBOURCELL_BCCH(x) /*Event 21*/ #define ALR_EM_CONFIGURE_CELL_RESELECTION /*Event 22*/ #define ALR_EM_START_CONNECTION_ESTABLISHMENT /*Event 23*/ #define ALR_EM_CONFIGURE_IMMIDIATE_ASSIGNMENT /*Event 24*/ #define ALR_EM_STOP_CONNECTION_ESTABLISHMENT /*Event 25*/ #define ALR_EM_CONFIGURE_CHANNEL_ASSIGNMENT /*Event 26*/ #define ALR_EM_CONFIGURE_HANDOVER(x) /*Event 27*/ #define ALR_EM_CONFIGURE_FREQUENCY_REDEFINITION /*Event 28*/ #define ALR_EM_CONFIGURE_CHANNEL_MODE_MODIFY /*Event 29*/ #define ALR_EM_CONFIGURE_CIPHER_MODE_SETTING /*Event 30*/ #define ALR_EM_START_CBCH_READING /*Event 31*/ #define ALR_EM_RECEIVE_CBCH_MESSAGE /*Event 32*/ #define ALR_EM_CBCH_MESSAGE_COMPLETE /*Event 33*/ #define ALR_EM_STOP_CBCH_READING /*Event 34*/ #define ALR_EM_RECEIVE_NULL_MESSAGE /*Event 35*/ #define ALR_EM_RECEIVE_SCHEDULE_MESSAGE /*Event 36*/ #define ALR_EM_CONFIGURE_TCH_LOOP /*Event 37*/ #define ALR_EM_CONFIGURE_DAI_TESTING(x) /*Event 38*/ #define ALR_EM_DEACTIVATE_L1 /*Event 39*/ #endif /*FF_EM_MODE*/ #endif /* ALR_EM_H */