FreeCalypso > hg > fc-magnetite
view src/g23m-gprs/upm/upm_pei.c @ 624:012028896cfb
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 | 2cf312e56ee7 |
children |
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/*---------------------------------------------------------------------------- | Project : 3G PS | Module : UPM +----------------------------------------------------------------------------- | Copyright 2003 Texas Instruments. | All rights reserved. | | This file is confidential and a trade secret of Texas | Instruments . | 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. +----------------------------------------------------------------------------- | Purpose: This module implements the process body interface | for the User Plane Manager (UPM) entity. | For design details, see: | 8010.939 UPM Detailed Specification +---------------------------------------------------------------------------*/ /*==== DECLARATION CONTROL =================================================*/ #ifndef UPM_PEI_C #define UPM_PEI_C #endif /*==== INCLUDES =============================================================*/ #include "upm.h" #include <pei.h> #include <custom.h> #include "upm_dispatcher.h" #include "mon_upm.h" /*==== CONSTS ===============================================================*/ /*==== TYPES ================================================================*/ /*==== LOCALS ===============================================================*/ static T_MONITOR upm_mon; static BOOL first_access = TRUE; /*==== PRIVATE FUNCTIONS ====================================================*/ /* +------------------------------------------------------------------------------ | Function : pei_primitive +------------------------------------------------------------------------------ | Description : This function is called by the frame when a primitive is | received and needs to be processed. | | | | | UPPER LAYER | v | +---------------------------(DTI SAP)--------------------------+ | | | | | UPM | | | | | +-^---------^---------^---------^--------^---------^---------^-+ | | | | | | | | | | | | | | | | LOWER LAYER | (SM SAP) (MMPM SAP) (RR SAP) (RRC SAP) (SN SAP) (PDCP SAP) (MEM SAP) | | Parameters : prim - Pointer to the received primitive | | Return : PEI_OK - function succeeded | PEI_ERROR - function failed +------------------------------------------------------------------------------ */ static short pei_primitive (void *primitive) /*@globals upm_data@*/ { (void)TRACE_FUNCTION("UPM pei_primitive"); if (primitive != NULL) { T_PRIM_HEADER *prim; U32 opc; opc = P_OPC(primitive); /*@i1@*/(void)PTRACE_IN (opc); prim = (T_PRIM_HEADER *)&((T_PRIM *)primitive)->data; /* Memory supervision ? */ VSI_PPM_RCV (primitive); switch (opc) { #ifndef UPM_WITHOUT_USER_PLANE /* DTI SAP */ #ifdef DTI2 case DTI2_CONNECT_REQ: upm_disp_dti_connect_req((T_DTI2_CONNECT_REQ *)(prim)); /* PFREE is called in the DTILIB */ break; case DTI2_CONNECT_CNF: upm_disp_dti_connect_cnf ((T_DTI2_CONNECT_CNF *)(prim)); /* PFREE is called in the DTILIB */ break; case DTI2_CONNECT_IND: upm_disp_dti_connect_ind ((T_DTI2_CONNECT_IND *)(prim)); /* PFREE is called in the DTILIB */ break; case DTI2_CONNECT_RES: upm_disp_dti_connect_res((T_DTI2_CONNECT_RES *)(prim)); /* PFREE is called in the DTILIB */ break; case DTI2_DISCONNECT_IND: upm_disp_dti_disconnect_ind((T_DTI2_DISCONNECT_IND *)(prim)); /* PFREE is called in the DTILIB */ break; case DTI2_DISCONNECT_REQ: upm_disp_dti_disconnect_req((T_DTI2_DISCONNECT_REQ *)(prim)); /* PFREE is called in the DTILIB */ break; #endif /* DTI2 */ case DTI2_GETDATA_REQ: upm_disp_dti_getdata_req((T_DTI2_GETDATA_REQ *)(prim)); /* PFREE is called in the DTILIB */ break; case DTI2_READY_IND: upm_disp_dti_ready_ind ((T_DTI2_READY_IND *)(prim)); /* PFREE is called in the DTILIB */ break; case DTI2_DATA_REQ: upm_disp_dti_data_req((T_DTI2_DATA_REQ *)(prim)); /* PFREE is called in the upm_sig_callback function in upm_dti_handler.c */ break; case DTI2_DATA_IND: upm_disp_dti_data_ind ((T_DTI2_DATA_IND *)(prim)); /* PFREE is called in the upm_sig_callback function in upm_dti_handler.c */ break; #ifdef DEBUG case DTI2_DATA_TEST_REQ: upm_disp_dti_data_test_req((T_DTI2_DATA_TEST_REQ *)(prim)); /* PFREE is called in the DTILIB */ break; case DTI2_DATA_TEST_IND: upm_disp_dti_data_test_ind((T_DTI2_DATA_TEST_IND *)(prim)); /* PFREE is called in the DTILIB */ break; #endif /* DEBUG */ #endif /* UPM_WITHOUT_USER_PLANE */ /* SM SAP */ case SM_ACTIVATE_STARTED_IND: upm_disp_sm_activate_started_ind((T_SM_ACTIVATE_STARTED_IND *)(prim)); PFREE(prim); break; case SM_ACTIVATE_IND: upm_disp_sm_activate_ind((T_SM_ACTIVATE_IND *)(prim)); PFREE(prim); break; case SM_DEACTIVATE_IND: upm_link_dispatch_sm_deactivate_ind((T_SM_DEACTIVATE_IND *)(prim)); PFREE(prim); break; case SM_MODIFY_IND: upm_disp_sm_modify_ind((T_SM_MODIFY_IND *)(prim)); PFREE(prim); break; #ifndef UPM_WITHOUT_USER_PLANE /* MMPM SAP */ case MMPM_SUSPEND_IND: upm_disp_mmpm_suspend_ind((T_MMPM_SUSPEND_IND *)(prim)); PFREE(prim); break; case MMPM_RESUME_IND: upm_disp_mmpm_resume_ind((T_MMPM_RESUME_IND *)(prim)); PFREE(prim); break; #endif /* UPM_WITHOUT_USER_PLANE */ #ifdef TI_UMTS case MMPM_REESTABLISH_CNF: upm_disp_mmpm_reestablish_cnf((T_MMPM_REESTABLISH_CNF *)(prim)); PFREE(prim); break; case MMPM_REESTABLISH_REJ: upm_disp_mmpm_reestablish_rej((T_MMPM_REESTABLISH_REJ *)(prim)); PFREE(prim); break; #endif /* TI_UMTS */ #ifdef TI_GPRS case MMPM_SEQUENCE_IND: upm_disp_mmpm_sequence_ind((T_MMPM_SEQUENCE_IND *)(prim)); PFREE(prim); break; #endif /* TI_GPRS */ #ifdef TI_DUAL_MODE case MMPM_RAT_CHANGE_COMPLETED_IND: upm_disp_mmpm_rat_change_completed_ind((T_MMPM_RAT_CHANGE_COMPLETED_IND *)(prim)); PFREE(prim); break; case MMPM_RAT_CHANGE_IND: upm_disp_mmpm_rat_change_ind((T_MMPM_RAT_CHANGE_IND *)(prim)); PFREE(prim); break; #endif /* TI_DUAL_MODE */ #ifdef TI_UMTS /* PDCP SAP */ case PDCP_DATA_IND: upm_disp_pdcp_data_ind((T_PDCP_DATA_IND *)(prim)); PFREE(prim); break; #ifdef DEBUG case PDCP_TEST_DATA_IND: upm_disp_pdcp_test_data_ind((T_PDCP_TEST_DATA_IND *)(prim)); PFREE(prim); break; #endif /* DEBUG */ #ifdef TI_DUAL_MODE case PDCP_AM_GET_PENDING_PDU_CNF: upm_disp_pdcp_get_pending_pdu_cnf((T_PDCP_AM_GET_PENDING_PDU_CNF *)(prim)); PFREE(prim); break; #ifdef DEBUG case PDCP_TEST_AM_GET_PENDING_PDU_CNF: upm_disp_pdcp_test_am_get_pending_pdu_cnf((T_PDCP_TEST_AM_GET_PENDING_PDU_CNF *)(prim)); PFREE(prim); break; #endif /* RRC SAP */ case RRC_MOVE_USER_DATA_IND: upm_disp_rrc_move_user_data_ind((T_RRC_MOVE_USER_DATA_IND *)(prim)); PFREE(prim); break; #endif /* TI_DUAL_MODE */ case RRC_RAB_ESTABLISH_IND: upm_disp_rrc_rab_establish_ind((T_RRC_RAB_ESTABLISH_IND *)(prim)); PFREE(prim); break; case RRC_RAB_ESTABLISH_COMPLETE_IND: upm_disp_rrc_rab_establish_complete_ind((T_RRC_RAB_ESTABLISH_COMPLETE_IND *)(prim)); PFREE(prim); break; case RRC_RAB_RELEASE_IND: upm_disp_rrc_rab_release_ind((T_RRC_RAB_RELEASE_IND *)(prim)); PFREE(prim); break; /* MEM SAP */ case MEM_READY_IND: upm_disp_mem_ready_ind((T_MEM_READY_IND *)(prim)); PFREE(prim); break; #endif /* TI_UMTS */ #ifdef TI_GPRS /* SN SAP */ case SN_ACTIVATE_CNF: upm_disp_sn_activate_cnf((T_SN_ACTIVATE_CNF *)(prim)); PFREE(prim); break; case SN_COUNT_CNF: upm_disp_sn_count_cnf((T_SN_COUNT_CNF *)(prim)); PFREE(prim); break; case SN_MODIFY_CNF: upm_disp_sn_modify_cnf((T_SN_MODIFY_CNF *)(prim)); PFREE(prim); break; case SN_DEACTIVATE_CNF: upm_disp_sn_deactivate_cnf((T_SN_DEACTIVATE_CNF *)(prim)); PFREE(prim); break; case SN_STATUS_IND: /* May affect multiple contexts. Special dispatch handling. */ upm_sndcp_dispatch_sn_status_ind((T_SN_STATUS_IND *)(prim)); PFREE(prim); break; case SN_SEQUENCE_CNF: /* May affect multiple contexts. Special dispatch handling. */ upm_sndcp_dispatch_sn_sequence_cnf((T_SN_SEQUENCE_CNF *)(prim)); PFREE(prim); break; #ifdef TI_DUAL_MODE case SN_GET_PENDING_PDU_CNF: upm_disp_sn_get_pending_pdu_cnf((T_SN_GET_PENDING_PDU_CNF *)(prim)); PFREE(prim); break; #ifdef DEBUG case SN_TEST_GET_PENDING_PDU_CNF: upm_disp_sn_test_get_pending_pdu_cnf((T_SN_TEST_GET_PENDING_PDU_CNF *)(prim)); PFREE(prim); break; #endif /* DEBUG */ /* RR SAP */ case RR_MOVE_USER_DATA_IND: upm_disp_rr_move_user_data_ind((T_RR_MOVE_USER_DATA_IND *)(prim)); PFREE(prim); break; #endif /* TI_DUAL_MODE */ #endif /* TI_GPRS */ /* UPM SAP */ case UPM_COUNT_REQ: upm_disp_upm_count_req((T_UPM_COUNT_REQ *)(prim)); PFREE(prim); break; #ifndef UPM_WITHOUT_USER_PLANE case UPM_DTI_REQ: upm_disp_upm_dti_req((T_UPM_DTI_REQ *)(prim)); PFREE(prim); break; #endif /* UPM_WITHOUT_USER_PLANE */ default: /* forward sys primitives to the environment */ if ( (opc & SYS_MASK) != 0) { (void)vsi_c_primitive(VSI_CALLER primitive); return (short)PEI_OK; } else { PFREE(prim); return (short)PEI_ERROR; } } /* switch */ } /* if (prim != NULL) */ return PEI_OK; } /* +------------------------------------------------------------------------------ | Function : pei_init +------------------------------------------------------------------------------ | Description : This function is called by the frame. It is used | to initialise the entity. | | Parameters : handle - task handle | | Return : PEI_OK - entity initialised | PEI_ERROR - entity not (yet) initialised +------------------------------------------------------------------------------ */ static short pei_init (T_HANDLE handle) /*@globals undef upm_data@*/ /*@modifies upm_data@*/ { (void)TRACE_FUNCTION ("UPM pei_init"); /* Clear static entity data store */ memset(&upm_data, 0, sizeof(upm_data)); /* * Initialize task handles */ upm_data.upm_handle = handle; hCommACI = VSI_ERROR; hCommSM = VSI_ERROR; hCommMM = VSI_ERROR; #ifdef TI_UMTS hCommPDCP = VSI_ERROR; hCommRRC = VSI_ERROR; #endif /* TI_UMTS */ #ifdef TI_GPRS hCommSNDCP = VSI_ERROR; hCommRR = VSI_ERROR; #endif /* TI_GPRS */ /* * Open communication channels */ if (hCommACI < VSI_OK) { if ((hCommACI = vsi_c_open(VSI_CALLER ACI_NAME)) < VSI_OK) { return (short)PEI_ERROR; } } if (hCommSM < VSI_OK) { if ((hCommSM = vsi_c_open(VSI_CALLER SM_NAME)) < VSI_OK) { return (short)PEI_ERROR; } } if (hCommMM < VSI_OK) { /*#ifdef UPM_EDGE */ if ((hCommMM = vsi_c_open(VSI_CALLER GMM_NAME)) < VSI_OK) /*#else */ /*#ifdef UPM_EDGE*/ /* if ((hCommMM = vsi_c_open(VSI_CALLER MM_NAME)) < VSI_OK) #endif */ /*#ifdef UPM_EDGE*/ { return (short)PEI_ERROR; } } #ifdef TI_UMTS if (hCommPDCP < VSI_OK) { if ((hCommPDCP = vsi_c_open(VSI_CALLER PDCP_NAME)) < VSI_OK) { return (short)PEI_ERROR; } } if (hCommRRC < VSI_OK) { if ((hCommRRC = vsi_c_open(VSI_CALLER RRC_NAME)) < VSI_OK) { return (short)PEI_ERROR; } } #endif /* TI_UMTS */ #ifdef TI_GPRS if (hCommSNDCP < VSI_OK) { if ((hCommSNDCP = vsi_c_open (VSI_CALLER SNDCP_NAME)) < VSI_OK) { return (short)PEI_ERROR; } } if (hCommRR < VSI_OK) { if ((hCommRR = vsi_c_open (VSI_CALLER RR_NAME)) < VSI_OK) { return (short)PEI_ERROR; } } #endif /* TI_GPRS */ /* * Initialize entity data (call init functions) */ #ifdef TI_UMTS mem_init(); #endif /* TI_UMTS */ /* * Initialize DTI */ #ifndef UPM_WITHOUT_USER_PLANE assert (upm_hDTI == NULL); upm_hDTI = dti_init((U8)NAS_SIZE_NSAPI, upm_data.upm_handle, DTI_DEFAULT_OPTIONS, upm_sig_callback); #endif /* UPM_WITHOUT_USER_PLANE */ return (short)PEI_OK; } /* +------------------------------------------------------------------------------ | Function : pei_exit +------------------------------------------------------------------------------ | Description : This function is called by the frame when the entity | is terminated. All open resources are freed. | | Parameters : - | | Return : PEI_OK - exit sucessful | PEI_ERROR - exit not successful +------------------------------------------------------------------------------ */ static short pei_exit (void) { int nsapi; (void)TRACE_FUNCTION ("UPM pei_exit"); /* * Clean up entity data */ for (nsapi = (int)NAS_NSAPI_5; nsapi < NAS_SIZE_NSAPI; nsapi++) { struct T_CONTEXT_DATA *ptr_context_data; ptr_context_data = upm_get_context_data_from_nsapi(nsapi); if (ptr_context_data != NULL) { #ifdef TI_GPRS upm_sndcp_control_exit (ptr_context_data); #endif /* TI_GPRS */ #ifdef TI_UMTS upm_rab_control_exit (ptr_context_data); #endif upm_link_control_exit (ptr_context_data); #ifndef UPM_WITHOUT_USER_PLANE upm_downlink_data_control_exit(ptr_context_data); upm_uplink_data_control_exit (ptr_context_data); upm_dti_control_exit (ptr_context_data); #endif /* UPM_WITHOUT_USER_PLANE */ #ifdef DEBUG #ifdef TI_UMTS upm_free_mem_buffer(ptr_context_data); #endif #endif upm_free_context_data(nsapi); } } #ifdef TI_DUAL_MODE upm_rat_control_exit(); #endif #ifndef UPM_WITHOUT_USER_PLANE /* * Clean-up DTILIB */ dti_deinit(upm_hDTI); /* Disable forced DTI neighbor routing */ #ifdef DEBUG upm_disp_force_neighbor(NULL); #endif #endif /* UPM_WITHOUT_USER_PLANE */ /* * Close communication channels */ (void)vsi_c_close(VSI_CALLER hCommACI); hCommACI = VSI_ERROR; (void)vsi_c_close(VSI_CALLER hCommSM); hCommSM = VSI_ERROR; (void)vsi_c_close(VSI_CALLER hCommMM); hCommMM = VSI_ERROR; #ifdef TI_UMTS (void)vsi_c_close(VSI_CALLER hCommPDCP); hCommPDCP = VSI_ERROR; (void)vsi_c_close(VSI_CALLER hCommRRC); hCommRRC = VSI_ERROR; #endif /* TI_UMTS */ #ifdef TI_GPRS (void)vsi_c_close(VSI_CALLER hCommSNDCP); hCommSNDCP = VSI_ERROR; (void)vsi_c_close(VSI_CALLER hCommRR); hCommRR = VSI_ERROR; #endif /* TI_GPRS */ return PEI_OK; } /* +------------------------------------------------------------------------------ | Function : pei_config +------------------------------------------------------------------------------ | Description : This function is called by the frame when a primitive is | received indicating dynamic configuration. | | This function is not used in this entity. | | Parameters : handle - Communication handle | | Return : PEI_OK - sucessful | PEI_ERROR - not successful +------------------------------------------------------------------------------ */ static short pei_config (char *inString) { #ifdef DEBUG const size_t neighbor_strlen = strlen("NEIGHBOR_ENTITY"); #endif (void)TRACE_FUNCTION ("UPM pei_config"); (void)TRACE_FUNCTION (inString); #ifdef DEBUG #ifdef TI_UMTS if ( strcmp(inString, "MEM_FLOW_CONTROL ON") == 0) { upm_disp_adjust_mem_flow_control(TRUE); } else if ( strcmp(inString, "MEM_FLOW_CONTROL OFF") == 0) { upm_disp_adjust_mem_flow_control(FALSE); } else if ( strncmp(inString, "NEIGHBOR_ENTITY", neighbor_strlen) == 0) { if (strncmp(&inString[neighbor_strlen + 1], "CLEAR", sizeof("CLEAR")) != 0) { upm_disp_force_neighbor(&inString[neighbor_strlen + 1]); } else { upm_disp_force_neighbor(NULL); } } else #endif /* TI_UMTS */ if ( strcmp(inString, "LL_ENTITY_TEST") == 0) { upm_activate_ll_entity_test(); } #endif /* DEBUG */ return PEI_OK; } /* +------------------------------------------------------------------------------ | Function : pei_monitor +------------------------------------------------------------------------------ | Description : This function is called by the frame in case sudden entity | specific data is requested (e.g. entity Version). | | Parameters : out_monitor - return the address of the data to be | monitoredCommunication handle | | Return : PEI_OK - sucessful (address in out_monitor is valid) | PEI_ERROR - not successful +------------------------------------------------------------------------------ */ /*@-compdef@*/ /*@-mods@*/ static short pei_monitor (void **out_monitor) /*@globals undef upm_mon@*/ { (void)TRACE_FUNCTION ("UPM pei_monitor"); /* * Version = "0.S" (S = Step). */ upm_mon.version = "UPM 0.1"; *out_monitor = &upm_mon; return PEI_OK; } /*@=compdef@*/ /*@=mods@*/ /*==== PUBLIC FUNCTIONS =====================================================*/ /* +------------------------------------------------------------------------------ | Function : pei_create +------------------------------------------------------------------------------ | Description : This function is called by the frame when the process is | created. | | Parameters : out_name - Pointer to the buffer in which to locate | the name of this entity | | Return : PEI_OK - entity created successfuly | PEI_ERROR - entity could not be created | +------------------------------------------------------------------------------ */ short pei_create (T_PEI_INFO **info) /*@globals first_access@*/ /*@modifies first_access@*/ { /*@-nullassign@*/ static T_PEI_INFO pei_info = { /*@i1@*/ UPM_NAME, /* name */ { /* pei-table */ pei_init, pei_exit, pei_primitive, NULL, /* no pei_timeout function */ NULL, /* no pei_signal function */ NULL, /* no pei_run function */ pei_config, pei_monitor }, (U32)1024, /* stack size */ (U16)20, /* queue entries */ (U16)216, /* priority (1->low, 255->high) */ (U16)0, /* number of timers */ (U8)0x03 /* flags: bit 0 active(0) body/passive(1) */ }; /* bit 1 com by copy(0)/reference(1) */ /*@+nullassign@*/ (void)TRACE_FUNCTION ("UPM pei_create"); /* * Close Resources if open */ if (first_access) { first_access = FALSE; } else { (void)pei_exit(); } /* * Export startup configuration data */ *info = &pei_info; return PEI_OK; } /*==== END OF FILE ==========================================================*/