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view src/g23m-gsm/mm/mm_tim.c @ 184:39a713b2130c
cci.lib compiles
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Thu, 13 Oct 2016 04:51:33 +0000 |
parents | 27a4235405c6 |
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/* +----------------------------------------------------------------------------- | Project : GSM-PS (8410) | Modul : MM_TIM +----------------------------------------------------------------------------- | 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 : This Modul defines the timer handling functions | for the component MM of the mobile station +----------------------------------------------------------------------------- */ #ifndef MM_TIM_C #define MM_TIM_C #define ENTITY_MM /*==== INCLUDES ===================================================*/ #if defined (NEW_FRAME) #include <string.h> #include <stdlib.h> #include <stddef.h> #include "typedefs.h" #include "pcm.h" #include "pconst.cdg" #include "mconst.cdg" #include "message.h" #include "ccdapi.h" #include "vsi.h" #include "custom.h" #include "gsm.h" #include "prim.h" #include "cnf_mm.h" #include "mon_mm.h" #include "pei.h" #include "tok.h" #include "mm.h" #else #include <string.h> #include <stdlib.h> #include <stddef.h> #include "stddefs.h" #include "pcm.h" #include "pconst.cdg" #include "mconst.cdg" #include "message.h" #include "ccdapi.h" #include "custom.h" #include "gsm.h" #include "prim.h" #include "cnf_mm.h" #include "mon_mm.h" #include "vsi.h" #include "pei.h" #include "tok.h" #include "mm.h" #endif /*==== EXPORT =====================================================*/ /*==== PRIVAT =====================================================*/ /*==== VARIABLES ==================================================*/ #if defined (OPTION_TIMER) LOCAL T_TIMER_CONFIG config_table[NUM_OF_MM_TIMERS]; #endif /*==== FUNCTIONS ==================================================*/ #if defined (OPTION_TIMER) /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : MM_TIM | | STATE : code ROUTINE : tim_init_timer | +--------------------------------------------------------------------+ PURPOSE : Initialise Time-out FIFO and configuration data. */ GLOBAL BOOL tim_init_timer (void) { USHORT i; TRACE_FUNCTION ("tim_init_timer()"); for (i = 0; i < NUM_OF_MM_TIMERS; i++) { config_table[i].t_mode = TIMER_RESET; config_table[i].t_val = 0L; } return TRUE; } #endif /* #if defined (OPTION_TIMER) */ #if defined (OPTION_TIMER) /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : MM_TIM | | STATE : code ROUTINE : tim_config_timer | +--------------------------------------------------------------------+ PURPOSE : Configure Timer */ GLOBAL void tim_config_timer (UBYTE t_num, UBYTE t_mod, ULONG t_val) { TRACE_FUNCTION ("tim_config_timer()"); assert (t_num < NUM_OF_MM_TIMERS); if (t_num < NUM_OF_MM_TIMERS) { config_table[t_num].t_mode = t_mod; config_table[t_num].t_val = t_val; } else { TRACE_ERROR ("tim_config_timer(): index out of range"); } } #endif /* #if defined (OPTION_TIMER) */ #if defined (NEW_FRAME) /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : MM_TIM | | STATE : code ROUTINE : tim_exec_timeout | +--------------------------------------------------------------------+ PURPOSE : execute timeout */ GLOBAL void tim_exec_timeout (USHORT index) { GET_INSTANCE_DATA; /* typedef void (*T_VOID_FUNC)(); */ /* Already defined */ static const T_VOID_FUNC timer_jump_table[NUM_OF_MM_TIMERS] = { tim_t_reg, /* T_REGISTRATION */ tim_t3210, /* T3210 */ tim_t3211, /* T3211 */ tim_t3212, /* T3212 */ tim_t3213, /* T3213 */ tim_t3220, /* T3220 */ tim_t3230, /* T3230 */ tim_t3240, /* T3240 */ tim_t_hplmn /* T_HPLMN */ #ifdef REL99 , tim_t3241 /* T3241 */ #endif }; if (index < NUM_OF_MM_TIMERS) { /* * Timeout is handled in SDL like the reception of a primitive, * so enable also this trace if primitive traces are enabled only */ /* Implements Measure#36 */ #if defined(NCONFIG) /* partab is not defined when NCONFIG is defined */ TRACE_EVENT_P1 ("tim_exec_timeout: index (%d)", index); #else /* not (NCONFIG) */ #if defined (TRACE_PRIM) AND defined(OPTION_TIMER) TRACE_EVENT_P1 ("tim_exec_timeout (%s)", partab[index].keyword); #endif #endif /* NCONFIG */ mm_data->t_running[index] = FALSE; timer_jump_table[index](); } else { TRACE_ERROR ("tim_exec_timeout(): index out of range"); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : MM_TIM | | STATE : code ROUTINE : tim_stop_timer | +--------------------------------------------------------------------+ PURPOSE : stop timer */ GLOBAL void tim_stop_timer (USHORT index) { GET_INSTANCE_DATA; assert (index < NUM_OF_MM_TIMERS); if (index < NUM_OF_MM_TIMERS) { /* Implements Measure#36 */ #if defined(NCONFIG) /* partab is not defined when NCONFIG is defined */ TRACE_EVENT_P1 ("tim_stop_timer: index (%d)", index); #else /* not (NCONFIG) */ #if defined (TRACE_PRIM) AND defined(OPTION_TIMER) TRACE_EVENT_P1 ("tim_stop_timer (%s)", partab[index].keyword); #endif #endif /* NCONFIG */ mm_data->t_running[index] = FALSE; TIMER_STOP (mm_handle, index); } else { TRACE_ERROR ("tim_stop_timer(): index out of range"); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : MM_TIM | | STATE : code ROUTINE : tim_start_timer | +--------------------------------------------------------------------+ PURPOSE : start timer */ GLOBAL void tim_start_timer (USHORT index, T_TIME value) { GET_INSTANCE_DATA; assert (index < NUM_OF_MM_TIMERS); if (index < NUM_OF_MM_TIMERS) { /* Implements Measure#36 */ #if defined(NCONFIG) /* partab is not defined when NCONFIG is defined */ TRACE_EVENT_P1 ("tim_start_timer: index (%d)", index); #else /* not (NCONFIG) */ #if defined (TRACE_PRIM) AND defined(OPTION_TIMER) TRACE_EVENT_P1 ("tim_start_timer (%s)", partab[index].keyword); #endif #endif /* NCONFIG */ #if defined (OPTION_TIMER) switch (config_table[index].t_mode) { case TIMER_SET: value = config_table[index].t_val; break; case TIMER_RESET: value = value; break; case TIMER_SPEED_UP: value = value / config_table[index].t_val; if (value == 0) value = 1; TRACE_EVENT_P1 ("timer_speed_up (%d)", value); break; case TIMER_SLOW_DOWN: value = value * config_table[index].t_val; TRACE_EVENT_P1 ("timer_speed_down (%d)", value); break; default: TRACE_FUNCTION ("ERROR: UNKNOWN MODE"); return; } #endif mm_data->t_running[index] = TRUE; TIMER_START (mm_handle, index, value); } else { TRACE_ERROR ("tim_start_timer(): index out of range"); } } #endif /* #if defined (NEW_FRAME) */ /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : MM_TIM | | STATE : code ROUTINE : tim_t3210 | +--------------------------------------------------------------------+ PURPOSE : Timeout of timer T3210 */ GLOBAL void tim_t3210 (void) { GET_INSTANCE_DATA; TRACE_FUNCTION ("tim_t3210()"); switch (GET_STATE (STATE_MM)) { case MM_LUP_INITIATED: case MM_WAIT_FOR_RR_CONN_LUP: TIMERSTOP (T3240); mm_abort_connection (ABCS_NORM); /* * The RR connection is aborted normally. RR guarantees that this will * be answered by RR_RELEASE_IND. * This has the advange that GMM gets the MMGMM_NREG_IND after the * channel release of layer 2 if GPRS present without any disadvantage * for a GSM only protocol stack. No state change here. */ break; default: /* Ignore event */ break; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : MM_TIM | | STATE : code ROUTINE : tim_t3211 | +--------------------------------------------------------------------+ PURPOSE : Timeout of timer T3211 */ // T3211 handling routine does the same as T3213 handling routine now ... GLOBAL void tim_t3211 (void) { GET_INSTANCE_DATA; TRACE_FUNCTION ("tim_t3211()"); switch (GET_STATE (STATE_MM)) { // If we leave these states and reenter a full service IDLE state, // mm_release_rr_connection() // for MM_WAIT_FOR_OUTG_MM_CONN and MM_WAIT_FOR_RR_CONN_MM will // handle the update. // mm_rr_activate_cnf() for MM_WAIT_FOR_RR_ACTIVE will also // handle the an outstanding update if coming back to full // service IDLE state. // mm_rr_abort_ind() will be called if the state was // MM_PLMN_SEARCH_NORMAL_SERVICE, if there is an outstanding // updating procedure and the new service is full service, // this will be checked there after state transition. // MM_IDLE_NO_CELL_AVAILABLE / RR_ACTIVATE_IND is handled also. // No need to store the timer anymore into the queue. /* // case MM_WAIT_FOR_OUTG_MM_CONN: // case MM_WAIT_FOR_RR_CONN_MM: // case MM_WAIT_FOR_RR_ACTIVE: case MM_PLMN_SEARCH_NORMAL_SERVICE: // case MM_IDLE_NO_CELL_AVAILABLE: mm_write_entry (TIMEOUT, T3211, 0); break; */ case MM_IDLE_ATTEMPT_TO_UPDATE: case MM_IDLE_NORMAL_SERVICE: mm_continue_running_update (); break; default: /* Ignore event */ break; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : MM_TIM | | STATE : code ROUTINE : tim_t3212 | +--------------------------------------------------------------------+ PURPOSE : Timeout of counter timer for timer T3212 */ GLOBAL void tim_t3212 (void) { GET_INSTANCE_DATA; TRACE_FUNCTION ("tim_t3212()"); switch (GET_STATE (STATE_MM)) { case MM_NULL: case MM_IDLE_NO_IMSI: break; /* Forget the event */ case MM_IDLE_NORMAL_SERVICE: mm_data->t3212_timeout = TRUE; mm_data->attempt_cnt = 0; /* Expiry of timer T3212 */ if (!mm_normal_upd_needed()) { /* MM is updated on the cell, no Imm Ass Rej, no cell barred */ if (mm_lup_allowed_by_gmm()) { mm_periodic_loc_upd (); } else { mm_mmgmm_lup_needed_ind (MMGMM_T3212); /* No state change, remains in MM_IDLE_NORMAL_SERVICE */ } } break; case MM_IDLE_ATTEMPT_TO_UPDATE: if (mm_data->mm.mm_info.t3212 NEQ T3212_NO_PRD_UPDAT) { mm_data->t3212_timeout = TRUE; mm_data->attempt_cnt = 0; /* Expiry of timer T3212 */ if (mm_lup_allowed_by_gmm()) { mm_normal_loc_upd (); } else { mm_mmgmm_lup_needed_ind (MMGMM_T3212); /* No state change, remains in MM_IDLE_ATTEMPT_TO_UPDATE */ } } break; default: /* Store the event until it is possible to handle it */ mm_data->t3212_timeout = TRUE; break; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : MM_TIM | | STATE : code ROUTINE : tim_t3213 | +--------------------------------------------------------------------+ PURPOSE : Timeout of timer T3213 */ GLOBAL void tim_t3213 (void) { GET_INSTANCE_DATA; TRACE_FUNCTION ("tim_t3213()"); switch (GET_STATE (STATE_MM)) { /* case MM_WAIT_FOR_OUTG_MM_CONN: case MM_WAIT_FOR_RR_CONN_MM: case MM_WAIT_FOR_RR_ACTIVE: case MM_PLMN_SEARCH_NORMAL_SERVICE: mm_write_entry (TIMEOUT, T3213, 0); break; */ case MM_IDLE_ATTEMPT_TO_UPDATE: case MM_IDLE_NORMAL_SERVICE: /* * if something is received from RR or T3213 was already restarted 2 times --> delay of additional 8 seconds * continue the LUP attempts */ mm_data->t3213_restart++; if (mm_data->t3213_restart > MAX_REST_T3213) mm_continue_running_update (); else TIMERSTART (T3213, T_3213_VALUE); break; default: /* Ignore event */ break; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : MM_TIM | | STATE : code ROUTINE : tim_t3220 | +--------------------------------------------------------------------+ PURPOSE : Timeout of timer T3220 */ GLOBAL void tim_t3220 (void) { GET_INSTANCE_DATA; TRACE_FUNCTION ("tim_t3220()"); switch (GET_STATE (STATE_MM)) { case MM_IMSI_DETACH_INIT: case MM_WAIT_FOR_RR_CONN_DETACH: /* * The RR connection is aborted normally. RR guarantees that this will * be answered by RR_RELEASE_IND. If MM receives the RR_RELEASE_IND, * the IMSI DETACH procedure ends and appropriate actions are taken. * This has the advange that GMM gets the MMGMM_NREG_CNF after the * channel release of layer 2 if GPRS present without any disadvantage * for a GSM only protocol stack. No state change here. */ mm_abort_connection (ABCS_NORM); break; default: /* Ignore event */ break; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : MM_TIM | | STATE : code ROUTINE : tim_t3230 | +--------------------------------------------------------------------+ PURPOSE : Timeout of timer T3230 */ GLOBAL void tim_t3230 (void) { GET_INSTANCE_DATA; TRACE_FUNCTION ("tim_t3230()"); /* * If T3230 expires (i.e. no response is given but a RR connection is * available) the MM connection establishment is aborted and the requesting * CM sublayer is informed. If no other MM connection exists then the mobile * station shall proceed as described in section 4.5.3.1 for release of the * RR connection. Otherwise the mobile station shall return to the MM * sublayer state where the request of an MM connection was received, * i.e. to MM sublayer state MM connection active. Other ongoing * MM connections (if any) shall not be affected. * [GSM 04.08 subclause 4.5.1.2 b)] * * If all MM connections are released by their CM entities, the * mobile station shall set timer T3240 and enter the state * WAIT FOR NETWORK COMMAND, expecting the release of the RR connection. * [Excerpt from GSM 04.08 subclause 4.5.3.1] */ switch (GET_STATE (STATE_MM)) { case MM_WAIT_FOR_REESTABLISH: case MM_WAIT_FOR_OUTG_MM_CONN: mm_mmxx_rel_ind (MMCS_TIMER_RECOVERY, CM_ACTIVE); mm_mmxx_rel_ind (MMCS_TIMER_RECOVERY, CM_PENDING); mm_data->wait_for_accept = FALSE; TIMERSTART (T3240, T_3240_VALUE); SET_STATE (STATE_MM, MM_WAIT_FOR_NW_CMD); break; case MM_CONN_ACTIVE: /* wait_for_accept expected to be TRUE */ mm_mmxx_rel_ind (MMCS_TIMER_RECOVERY, CM_PENDING); mm_data->wait_for_accept = FALSE; if ((mm_count_connections (CM_ACTIVE) EQ 0) AND (mm_count_connections (CM_STORE) EQ 0)) { TIMERSTART (T3240, T_3240_VALUE); SET_STATE (STATE_MM, MM_WAIT_FOR_NW_CMD); } USE_STORED_ENTRIES(); break; default: /* Ignore event */ break; } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : MM_TIM | | STATE : code ROUTINE : tim_t3240 | +--------------------------------------------------------------------+ PURPOSE : Timeout of timer T3240 */ GLOBAL void tim_t3240 (void) { GET_INSTANCE_DATA; TRACE_FUNCTION ("tim_t3240()"); switch (GET_STATE (STATE_MM)) { case MM_PROCESS_PROMPT: case MM_WAIT_FOR_NW_CMD: mm_abort_connection (ABCS_NORM); mm_mmxx_rel_ind (MMCS_TIMER_RECOVERY, CM_ACTIVE); mm_mmxx_rel_ind (MMCS_TIMER_RECOVERY, CM_PENDING); /* * The RR connection is aborted normally. RR guarantees that this will * be answered by RR_RELEASE_IND. * This has the advange that GMM gets the MMGMM_CM_RELEASE_IND after the * channel release of layer 2 if GPRS present without any disadvantage * for a GSM only protocol stack. No state change here. */ break; case MM_LUP_REJECTED: mm_abort_connection (ABCS_NORM); /* * The RR connection is aborted normally. RR guarantees that this will * be answered by RR_RELEASE_IND. * This has the advange that GMM gets the MMGMM_NREG_IND after the * channel release of layer 2 if GPRS present without any disadvantage * for a GSM only protocol stack. No state change here. */ break; default: /* Ignore event */ break; } } #ifdef REL99 /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : MM_TIM | | STATE : code ROUTINE : tim_t3241 | +--------------------------------------------------------------------+ PURPOSE : Timeout of timer T3241 */ GLOBAL void tim_t3241 (void) { GET_INSTANCE_DATA; TRACE_FUNCTION ("tim_t3241()"); switch (GET_STATE (STATE_MM)) { case MM_RR_CONN_RELEASE_NOT_ALLOWED: mm_abort_connection (ABCS_NORM); /* * The RR connection is aborted normally. RR guarantees that this will * be answered by RR_RELEASE_IND. * This has the advange that GMM gets the MMGMM_CM_RELEASE_IND after the * channel release of layer 2 if GPRS present without any disadvantage * for a GSM only protocol stack. No state change here. */ break; default: /* Ignore event */ break; } } #endif /* +----------------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : MM_TIM | | STATE : code ROUTINE : tim_t_hplmn | +----------------------------------------------------------------------------+ PURPOSE : Timeout of timer T_HPLMN. This timer allows control of the PPLMN rescan and national roaming procedure to recover the HPLMN. */ GLOBAL void tim_t_hplmn (void) { GET_INSTANCE_DATA; TRACE_FUNCTION ("tim_t_hplmn()"); /* * Launch the scan procedure if it still makes sense to do it according to * MM state. */ if (mm_full_service_pplmn_scan()) { mm_data->plmn_scan_mm = TRUE; mm_data->first_attach_mem = FALSE; mm_func_mmgmm_net_req(); } } /* +--------------------------------------------------------------------+ | PROJECT : GSM-PS (6147) MODULE : MM_TIM | | STATE : code ROUTINE : tim_t_reg | +--------------------------------------------------------------------+ PURPOSE : Timeout of timer T_REG. This timer is not foreseen by the recommendations. It is MM's health monitor timer, checking the conditions whether an update has been missed. */ GLOBAL void tim_t_reg (void) { GET_INSTANCE_DATA; TRACE_FUNCTION ("tim_t_reg()"); switch (GET_STATE (STATE_MM)) { case MM_NULL: break; /* No timer activity in this state */ case MM_IDLE_NORMAL_SERVICE: /* 19.1 */ /* Restart the registration timer */ TIMERSTART (T_REGISTRATION, T_REG_VALUE); /* * As it is not expected that the timer catches in state * MM_IDLE_NORMAL_SERVICE in FTA, there is no test * here for a test SIM. The goal is to have an MM * where the timer never catches in MM_IDLE_NORMAL_SERVICE. */ /* Check whether T3211, T3213 are running retriggering update anyway */ if ((TIMERACTIVE (T3211) OR TIMERACTIVE (T3213)) AND (mm_data->loc_upd_type.lut NEQ NOT_RUNNING)) return; /* Check whether MM is temporary barred and cannot update now */ if ((mm_data->idle_entry EQ RRCS_ACCESS_BARRED) OR (mm_data->idle_entry EQ RRCS_RND_ACC_DELAY)) return; /* * Check whether we are in an ATTACH update procedure, but there is no * T3211, T3213 timer running and MM is not temporary barred. */ if (mm_attach_upd_needed() OR mm_normal_upd_needed()) { TRACE_ERROR ("Recover ATTACH/NORMAL"); mm_mmgmm_lup_needed_ind (MMGMM_REG_TIMER); if (mm_normal_upd_needed ()) { mm_data->attempt_cnt = 0; /* New location area */ mm_normal_loc_upd (); } else { mm_attach_loc_upd (); } return; } /* * Check whether T3212 should run, but is not running. * If so, something irregular has happened and * we have to start the update immediately. */ if (mm_data->mm.mm_info.t3212 NEQ T3212_NO_PRD_UPDAT AND (!TIMERACTIVE (T3212) OR mm_data->t3212_timeout)) { /* * The networks says we have periodic updating, * but unexpectedly T3212 is not running or T3212 timed out. */ TRACE_ERROR ("Recover PERIODIC"); if (mm_lup_allowed_by_gmm()) { mm_periodic_loc_upd (); } else { // Don't add recovery code now for GPRS, maybe more has to be done. // mm_mmgmm_lup_needed_ind (MMGMM_REG_TIMER); } return; } break; case MM_IDLE_ATTEMPT_TO_UPDATE: /* 19.2 */ /* Restart the registration timer */ TIMERSTART (T_REGISTRATION, T_REG_VALUE); /* Timer only handled in this state if a normal SIM is present */ if (mm_data->reg.op.sim_ins EQ SIM_NO_INSRT OR mm_data->reg.op.ts EQ TS_AVAIL) return; /* Check whether T3211, T3213 are running retriggering update anyway */ if ((TIMERACTIVE (T3211) OR TIMERACTIVE (T3213)) AND (mm_data->loc_upd_type.lut NEQ NOT_RUNNING)) return; if (TIMERACTIVE (T3212)) return; /* Check whether MM is temporary barred and cannot update now */ if ((mm_data->idle_entry EQ RRCS_ACCESS_BARRED) OR (mm_data->idle_entry EQ RRCS_RND_ACC_DELAY)) return; if (mm_gsm_alone ()) { mm_normal_loc_upd (); } else { mm_mmgmm_lup_needed_ind (MMGMM_REG_TIMER); /* No state change, remains in MM_IDLE_ATTEMPT_TO_UPDATE */ } break; default: /* Restart the registration timer */ TIMERSTART (T_REGISTRATION, T_REG_VALUE); break; } } #endif