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view src/g23m-gprs/gmm/gmm_em.h @ 624:012028896cfb

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FFS dev.c, Leonardo target: Fujitsu MB84VF5F5F4J2 #if 0'ed out The FFS code we got from TI/Openmoko had a stanza for "Fujitsu MB84VF5F5F4J2 stacked device", using a fake device ID code that would need to be patched manually into cfgffs.c (suppressing and overriding autodetection) and using an FFS base address in the nCS2 bank, indicating that this FFS config was probably meant for the MCP version of Leonardo which allows for 16 MiB flash with a second bank on nCS2. We previously had this FFS config stanza conditionalized under CONFIG_TARGET_LEONARDO because the base address contained therein is invalid for other targets, but now that we actually have a Leonardo build target in FC Magnetite, I realize that the better approach is to #if 0 out this stanza altogether: it is already non-functional because it uses a fake device ID code, thus it is does not add support for more Leonardo board variants, instead it is just noise.
author Mychaela Falconia <falcon@freecalypso.org>
date Sun, 22 Dec 2019 21:24:29 +0000
parents 219afcfc6250
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 GMM_EM_H
#define GMM_EM_H


#ifdef FF_EM_MODE
/*also defined in rr_em.h*/

/*
 * buffer size has been chosen to store ten state events for now.
 */
#define EM_GMM_BUFFER_SIZE             5

/*
 * EM_MAX_GMM_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_GMM_EVENTS              2

/*
 *  The offset is used to indicate the source entity the event trace is from.
 *  L1/ALR = 0x00, DL = 0x2D, GRLC = 0x33, RR = 0x37, MM = 0x64, CC = 0x78, 
 *  GMM=0xAA, GRR=0xAC, SS = 0xAF, SMS = 0xBE, SIM = E1
 */
#define GMM_OFFSET                   0xAA

#define TRACE_EVENT_EM_P8(s,a1,a2,a3,a4,a5,a6,a7,a8)  TRACE_USER_CLASS_P8(TC_USER8,s,a1,a2,a3,a4,a5,a6,a7,a8)
#define GMM_EM_NULL_STATE  0x0
#define GMM_EM_DEREG_STATE 0x1
#define GMM_EM_REG_INIT_STATE 0x2
#define GMM_EM_REG_STATE 0x3
#define GMM_EM_RAU_INIT_STATE 0x4
#define GMM_EM_DEREG_INIT_STATE 0x5

#define GMM_EM_NORMAL_SRVC_SUBSTATE 0x0
#define GMM_EM_NO_CELL_SUBSTATE 0x1
#define GMM_EM_SUSPENDED_SUBSTATE 0x2
#define GMM_EM_ATTEMPT_TO_ATT_SUBSTATE 0x3
#define GMM_EM_ATT_NEEDED_SUBSTATE 0x4
#define GMM_EM_STATUS_IND_SUBSTATE 0x5
#define GMM_EM_IMSI_DETACH_INIT_SUBSTATE 0x6
#define GMM_EM_ATTEMPT_TO_UPDATE_MM_SUBSTATE 0x7
#define GMM_EM_ATTEMPT_TO_UPDATE_SUBSTATE 0x8
#define GMM_EM_UPDATE_NEEDED_SUBSTATE 0x9
#define GMM_EM_POWER_OFF_SUBSTATE 0xA

#define GMM_V_1          (1+GMM_OFFSET)

#define TRACE_EVENT_EM_P2(s,a1,a2)              TRACE_USER_CLASS_P2(TC_USER8,s,a1,a2)
#define GMM_V_1          (1+GMM_OFFSET)

EXTERN void em_gmm_pco_trace_req    ( T_EM_PCO_TRACE_REQ    *em_pco_trace_req);

EXTERN BOOL gmm_v[EM_MAX_GMM_EVENTS];

EXTERN UBYTE em_gmm_event_buffer[EM_GMM_BUFFER_SIZE];
EXTERN UBYTE em_gmm_buffer_write;

EXTERN void em_gmm_sc_gprs_info_req ( T_EM_SC_GPRS_INFO_REQ *em_sc_gprs_info_req);
EXTERN void em_gmm_sc_gprs_info_cnf ( T_EM_SC_GPRS_INFO_CNF *em_sc_gprs_info_cnf);
EXTERN void em_gmm_info_req         ( T_EM_GMM_INFO_REQ     *em_gmm_info_req);
EXTERN void em_gmm_grlc_info_cnf    ( T_EM_GRLC_INFO_CNF    *em_grlc_info_cnf);
EXTERN void em_gmm_grlc_info_req    ( T_EM_GRLC_INFO_REQ    *em_grlc_info_req);

#define EM_GMM_SET_STATE(s) \
  {\
    UBYTE gmm_main_state, gmm_sub_state;\
    em_gmm_map_state(s,&gmm_main_state,&gmm_sub_state);\
    if (gmm_v[1])\
    {\
      gmm_v[1] = em_write_buffer_4 (GMM_V_1,gmm_main_state,gmm_sub_state);\
    } \
  }
EXTERN void em_gmm_throughput_info_req ( T_EM_THROUGHPUT_INFO_REQ *em_throughput_info_req);
EXTERN void em_gmm_throughput_info_cnf ( T_EM_THROUGHPUT_INFO_CNF *em_throughput_info_cnf);
EXTERN void em_gmm_grr_event_req ( T_EM_GRR_EVENT_REQ *em_grr_event_req);
EXTERN void em_gmm_grlc_event_req( T_EM_GRLC_EVENT_REQ *em_grlc_event_req);
EXTERN void em_gmm_data_ind ( T_EM_DATA_IND *em_data_ind);


EXTERN       void em_init_gmm_event_trace    (void);

#ifdef OPTION_MULTITHREAD
  #define em_write_buffer_4     _ENTITY_PREFIXED(em_write_buffer_4)
  #define check_write_index     _ENTITY_PREFIXED(check_write_index)
#endif /*OPTION_MULTITHREAD*/

EXTERN UBYTE em_write_buffer_4 (UBYTE event_no, UBYTE value1, UBYTE value2);

EXTERN void em_gmm_event_req (T_EM_GMM_EVENT_REQ *em_gmm_event_req);


#else
#define EM_GMM_SET_STATE                                 /* Event 1*/

#endif /* FF_EM_MODE */

#endif /* GMM_EM_H */