FreeCalypso > hg > fc-magnetite
view src/cs/system/main/create_RVtasks.c @ 680:ee3ac8c617cb
armio.c: set GPIO2 output high initially
On TI-canonical platforms GPIO2 is DCD modem control output. In TI's
original code the AI_InitIOConfig() function called from Init_Target()
would configure GPIO2 as an output and set the initial output value to
low, but then the init code in uartfax.c called from Init_Serial_Flows()
would immediately change it to high, corresponding to DCD not asserted.
The result is a momentary asserted-state glitch on the DCD output.
The present change eliminates this glitch, setting DCD output to
not-asserted initially like it should be.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Thu, 25 Jun 2020 03:17:43 +0000 |
parents | 838eeafb0051 |
children |
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/******************************************************************************* * * * Name create_RVtasks.c * * * * Function this file contains functions allowing tasks creation in * * the Riviera environment * * * * Version 0.1 * * * * Date Modification * * ------------------------------------ * * 03 August 2000 Create * * * * Author Pascal Puel * * * * (C) Copyright 2000 by Texas Instruments Incorporated, All Rights Reserved * * * * --------------------------------------------------------------------------- * * * * History: * * * * 10/18/2001 - Updated for R2D by Christophe Favergeon * * 08/28/2002 - Clean-Up by Gerard Cauvy * * * ******************************************************************************/ #ifndef _WINDOWS #include "rv.cfg" #endif #include "rv/rv_general.h" #include "rvf/rvf_api.h" #include "rvm/rvm_api.h" #include "rvm/rvm_use_id_list.h" #include "rvt/rvt_gen.h" //sys_types.h is necessary for function prototypes in buzzer.h #include "sys_types.h" #include "buzzer/buzzer.h" #include "rv/rv_defined_swe.h" #include "chipset.cfg" #ifndef _WINDOWS # include "power/power.h" #endif #include <stdio.h> #include <string.h> #define START_TASK_ID (MAX_RVF_TASKS-1) #define RV_START_TASK_PRIO (249) T_RVT_USER_ID rv_trace_user_id = 0xff; T_RVT_USER_ID etm_trace_user_id; extern void etm_receive(unsigned char *inbuf, unsigned short size); #ifdef MIXED_TRACE T_RVT_USER_ID l23_trace_user_id; extern void ext_processExtInput (T_RVT_BUFFER, UINT16); #endif #ifdef RVM_RNET_BR_SWE T_RVT_USER_ID rnet_trace_user_id; extern void rnet_receive (UINT8 *inbuf, UINT16 size); #endif #if (TEST==1) // The name that uniquely identifies the Memory Bank MUST be // 'TEST1', whereas it might be used by some other software // entity for testing purpose. #define RVTEST_MENU_MB_NAME ("TEST1") // Memory requirements. #define RVTEST_MENU_MB_SIZE (5000) #define RVTEST_MENU_MB_WATERMARK (4000) extern void rv_test (UINT32 p); #endif /******************************************************************************* ** ** Function rvt_init_trace ** ** Description This function is called by the RV_START task to register ** the Riviera Frame in the trace module ** ** Returns void ** *******************************************************************************/ void rvt_init_trace (void) { rvt_register_id ("RV", &rv_trace_user_id, rvt_set_trace_level); } #ifdef RVM_ETM_SWE /******************************************************************************* ** ** Function etm_init_trace ** ** Description This function is called by the RV_START task to register ** the ETM in the trace module ** ** Returns void ** *******************************************************************************/ void etm_init_trace (void) { extern T_RVT_USER_ID tm_trace_user_id; rvt_register_id("TM", &etm_trace_user_id, etm_receive); #if (PSP_STANDALONE != 1) tm_trace_user_id = etm_trace_user_id; // TML1 use the tm_trace_user_id #endif } #endif #ifdef MIXED_TRACE /******************************************************************************* ** ** Function l23_init_trace ** ** Description This function is called by the RV_START task to register ** the Protocol Stack (Layers 2 & 3) in the trace module ** ** Returns void ** *******************************************************************************/ void l23_init_trace (void) { rvt_register_id ("L23", &l23_trace_user_id, ext_processExtInput); } #endif #ifdef RVM_RNET_BR_SWE /******************************************************************************* ** ** Function rnet_init_trace ** ** Description This function is called by the RV_START task to register ** RNET in the trace module ** ** Returns void ** *******************************************************************************/ void rnet_init_trace (void) { rvt_register_id ("RNET", &rnet_trace_user_id, rnet_receive); } #endif /******************************************************************************* ** ** Function rv_start_swe_and_check ** ** Description This internal function is called by the stater task to ** start the basic SWEs in the system and to check if ** they started successfully or not. ** ** Returns void ** *******************************************************************************/ #if (CHIPSET!=15) || (REMU==0) BOOLEAN rv_start_swe_and_check (T_RVM_USE_ID swe_use_id, T_RVM_NAME swe_name) { T_RV_RETURN return_path = {0}; T_RV_HDR *msg_ptr = NULL; UINT16 rec_evt = 0; char error_msg[150] = ""; /* temporary initialization of addr_id */ return_path.addr_id = START_TASK_ID; return_path.callback_func = NULL; /* attempt to initialize the required SWE */ if (rvm_start_swe (swe_use_id, return_path) != RVM_OK) { sprintf (error_msg, "create_RVtasks: Unable to start %s (0x%.8x). Error in rvm_start_swe", (char *)swe_name, swe_use_id); rvf_send_trace ((char *)error_msg, strlen((char *)error_msg), NULL_PARAM, RV_TRACE_LEVEL_WARNING, RVM_USE_ID); return FALSE; } /* * wait for the SWE to be actually started. * note that the 'RVM_EVT_TO_APPLI' notification is sent back * once xxx_start () is invoked. */ while (rec_evt = rvf_evt_wait (START_TASK_ID, \ 0xFFFF, \ 0xFFFFFFFFL)) { if (rec_evt & ~RVF_TASK_MBOX_0_EVT_MASK) { sprintf (error_msg, "create_RVtasks: Starting %s (0x%.8x). Event ", (char *)swe_name, swe_use_id); rvf_send_trace ((char *)error_msg, strlen((char *)error_msg), (UINT32)rec_evt, RV_TRACE_LEVEL_WARNING, RVM_USE_ID); } if (rec_evt & RVF_TASK_MBOX_0_EVT_MASK) { if ((msg_ptr = (T_RV_HDR *) rvf_read_addr_mbox (START_TASK_ID, \ RVF_TASK_MBOX_0)) == NULL) { sprintf (error_msg, "create_RVtasks: Starting %s (0x%.8x). Message NULL", (char *)swe_name, swe_use_id); rvf_send_trace ((char *)error_msg, strlen((char *)error_msg), NULL_PARAM, RV_TRACE_LEVEL_WARNING, RVM_USE_ID); continue; } if (msg_ptr->msg_id != RVM_EVT_TO_APPLI) { sprintf (error_msg, "create_RVtasks: Starting %s (0x%.8x). Message ID ", (char *)swe_name, swe_use_id); rvf_send_trace ((char *)error_msg, strlen((char *)error_msg), msg_ptr->msg_id, RV_TRACE_LEVEL_WARNING, RVM_USE_ID); rvf_free_buf (msg_ptr); continue; } break; } } switch (((T_RVM_APPLI_RESULT *)msg_ptr)->result) { case RVM_OK: { sprintf (error_msg, "create_RVtasks: %s (0x%.8x) started", (char *)swe_name, swe_use_id); rvf_send_trace ((char *)error_msg, strlen ((char *)error_msg), NULL_PARAM, RV_TRACE_LEVEL_DEBUG_HIGH, RVM_USE_ID); rvf_free_buf (msg_ptr); return TRUE; } case RVM_NOT_READY: { sprintf (error_msg, "create_RVtasks: %s (0x%.8x) already started", (char *)swe_name, swe_use_id); rvf_send_trace ((char *)error_msg, strlen ((char *)error_msg), NULL_PARAM, RV_TRACE_LEVEL_DEBUG_MEDIUM, RVM_USE_ID); rvf_free_buf (msg_ptr); return TRUE; } default: { break; } } sprintf (error_msg, "create_RVtasks: Unable to start %s (0x%.8x). Error ", (char *)swe_name, swe_use_id); rvf_send_trace ((char *)error_msg, strlen ((char *)error_msg), ((T_RVM_APPLI_RESULT *)msg_ptr)->result, RV_TRACE_LEVEL_WARNING, RVM_USE_ID); rvf_free_buf (msg_ptr); return FALSE; } #endif /******************************************************************************* ** ** Function rv_start ** ** Description This function is called by the RV_START task. It starts the ** Riviera environment and the TRACE task. This start must be ** done after Application_initialize(). ** ** Returns void ** *******************************************************************************/ void rv_start (void) { #if (TEST==1) T_RVF_MB_ID mb_id = RVF_INVALID_MB_ID; T_RVF_MB_PARAM mb_requirements = {0}; volatile UINT16 result = 0; #endif /* initialize the RVM and the RVF at the same time */ #if (CHIPSET!=15) || (REMU==0) rvm_start_environment (); #endif /* ** Init trace module */ rvt_init_trace (); #ifdef RVM_ETM_SWE etm_init_trace (); #endif #if (_GSM==1) #ifdef MIXED_TRACE l23_init_trace (); #endif #endif // if (_GSM==1) #ifdef RVM_RNET_BR_SWE rnet_init_trace (); #endif #if (REMU==1) #ifdef RVM_LLS_SWE /* initialize LLS SWE */ lls_init(); #endif #ifdef RVM_RNG_SWE /* initialize RNG SWE */ rng_init (); #endif #endif #if (CHIPSET!=15) || (REMU==0) #ifdef RVM_RVT_SWE /* initialize TRACE SWE */ rv_start_swe_and_check (RVT_USE_ID, "RVT"); #endif #ifdef RVM_I2C_SWE rv_start_swe_and_check (I2C_USE_ID, "I2C"); #endif #ifdef RVM_DMA_SWE rv_start_swe_and_check (DMA_USE_ID, "DMA"); #endif #ifdef RVM_DMG_SWE rv_start_swe_and_check (DMG_USE_ID, "DMG"); #endif #ifdef RVM_NAN_SWE rv_start_swe_and_check (NAN_USE_ID, "NAN"); #endif #ifdef RVM_MC_SWE rv_start_swe_and_check (MC_USE_ID, "MC"); #endif #ifdef RVM_FFS_SWE /* initialize FFS SWE */ rv_start_swe_and_check (FFS_USE_ID, "FFS"); #endif #ifdef RVM_SPI_SWE /* initialize SPI SWE */ rv_start_swe_and_check (SPI_USE_ID, "SPI"); #endif #ifdef RVM_PWR_SWE /* initialize PWR SWE */ rv_start_swe_and_check (PWR_USE_ID, "PWR"); #endif #ifdef RVM_LCC_SWE /* initialize LCC(PWR) SWE */ rv_start_swe_and_check (LCC_USE_ID, "LCC"); #endif #ifdef RVM_FCHG_SWE /* initialize FCHG (new PWR) SWE */ rv_start_swe_and_check (FCHG_USE_ID, "FCHG"); #endif #ifdef RVM_KPD_SWE /* initialize KPD SWE */ rv_start_swe_and_check (KPD_USE_ID, "KPD"); #endif #ifdef RVM_DAR_SWE /* initialize DAR SWE */ rv_start_swe_and_check (DAR_USE_ID, "DAR"); #endif #ifdef RVM_R2D_SWE /* initialize R2D SWE */ rv_start_swe_and_check (R2D_USE_ID, "R2D"); #endif #ifdef RVM_LCD_SWE /* initialize LCD SWE */ rv_start_swe_and_check (LCD_USE_ID, "LCD"); #endif #ifdef RVM_ETM_SWE /* initialize ETM SWE */ rv_start_swe_and_check (ETM_USE_ID, "ETM"); #endif #ifdef RVM_TTY_SWE /* initialize TTY SWE */ rv_start_swe_and_check (TTY_USE_ID, "TTY"); #endif #ifdef RVM_AUDIO_MAIN_SWE /* initialize AUDIO SWE */ rv_start_swe_and_check (AUDIO_USE_ID, "AUDIO"); #endif #if (PSP_STANDALONE==0) #ifdef RVM_AUDIO_BGD_SWE /* initialize AUDIO BACKGROUND SWE */ rv_start_swe_and_check (AUDIO_BGD_USE_ID, "AUDIO_BGD"); #endif #endif #if (PSP_STANDALONE==0) #ifdef RVM_BAE_SWE /* initialize BAE SWE */ rv_start_swe_and_check (BAE_USE_ID, "BAE"); #endif #endif #ifdef RVM_AS_SWE /* initialize AS (Audio Services) SWE */ rv_start_swe_and_check (AS_USE_ID, "AS"); #endif #if (PSP_STANDALONE==0) #ifdef RVM_BPR_SWE /* initialize sample BPR SWE */ rv_start_swe_and_check (BPR_USE_ID, "BPR"); #endif #endif /* PSP_STANDALONE */ #ifdef RVM_RTC_SWE /* initialize RTC SWE */ rv_start_swe_and_check (RTC_USE_ID, "RTC"); #endif #ifdef RVM_LLS_SWE /* initialize LLS SWE */ rv_start_swe_and_check (LLS_USE_ID, "LLS"); #endif #ifdef RVM_TUT_SWE /* initialize TUT SWE */ // rv_start_swe_and_check (TUT_USE_ID, "TUT"); #endif #ifdef RVM_RGUI_SWE /* initialize RGUI SWE */ rv_start_swe_and_check (RGUI_USE_ID, "RGUI"); #endif #ifdef RVM_ATP_SWE /* initialize ATP SWE */ rv_start_swe_and_check (ATP_USE_ID, "ATP"); #endif /* * FreeCalypso: the main.lib:Create_RVtasks.obj binary blob we got with our * TCS211 semi-src does not start MKS, even though the SWE itself is enabled * in the build system and pulled into the link. */ #if 0 #ifdef RVM_MKS_SWE rv_start_swe_and_check (MKS_USE_ID, "MKS"); #endif #endif #ifdef RVM_IMG_SWE rv_start_swe_and_check (IMG_USE_ID, "IMG"); #endif #ifdef RVM_GBI_SWE rv_start_swe_and_check (GBI_USE_ID, "GBI"); #endif #ifdef RVM_CAMD_SWE rv_start_swe_and_check (CAMD_USE_ID, "CAMD"); #endif #ifdef RVM_USB_SWE /* initialize USB SWE */ rv_start_swe_and_check (USB_USE_ID, "USB"); #endif #ifdef RVM_CAMA_SWE rv_start_swe_and_check (CAMA_USE_ID, "CAMA"); #endif #ifdef RVM_MFW_SWE /* initialize MFW SWE */ rv_start_swe_and_check (MFW_USE_ID, "MFW"); #endif #ifdef RVM_SMBS_SWE /* initialize SMBS SWE */ rv_start_swe_and_check (SMBS_USE_ID, "SMBS"); #endif #ifdef RVM_USBFAX_SWE /* initialize USB SWE */ rv_start_swe_and_check (USBFAX_USE_ID, "USBFAX"); #endif #ifdef RVM_USBTRC_SWE /* initialize USBTRC SWE */ rv_start_swe_and_check (USBTRC_USE_ID, "USBTRC"); #endif #ifdef RVM_USBMS_SWE /* initialize USBMS SWE */ rv_start_swe_and_check (USBMS_USE_ID, "USBMS"); #endif #ifdef RVM_RFS_SWE /* initialize RFS SWE */ rv_start_swe_and_check (RFS_USE_ID, "RFS"); #endif #ifdef RVM_CCI_SWE /* initialize CCI SWE */ rv_start_swe_and_check (CCI_USE_ID, "CCI"); #endif #ifdef RVM_BTUI_SWE /* initialize sample BTUI SWE */ rv_start_swe_and_check (BTUI_USE_ID, "BTUI"); #endif #ifdef RVM_JPEG_SWE /* initialize sample JPEG SWE */ rv_start_swe_and_check (JPEG_USE_ID, "JPEG"); #endif #ifdef RVM_JPEG_SWE /* initialize sample JPEG SWE */ rv_start_swe_and_check (JPEG_USE_ID, "JPEG"); #endif #endif // WARNING WARNING ---------------------------------------------------- // Do not perform any SWE initialization after this line ! // WARNING WARNING ---------------------------------------------------- #if (REMU==0) /* moved this to kpd start function. rv_start function for REMU. rv_start is called from Application Initialize context. Since this is a blocking call, we cannot afford to block in Application_Initialization. */ #ifndef _WINDOWS // Perform switch ON processing. Switch_ON(); #endif #if (_GSM==1) BZ_KeyBeep_ON (); // Audio feedback if ON/OFF pushed #endif // if (_GSM==1) #endif #if (CHIPSET!=15) || (REMU==0) /* dump the Riviera memory state */ rvf_delay (RVF_MS_TO_TICKS (300)) ; rvf_dump_mem (); rvf_dump_pool(); rvf_dump_tasks(); #endif #if (TEST==1) #if (PSP_STANDALONE == 1) /* Just For Testing Reset of UICC */ // bspUicc_reset(1,0); /* Just For Testing GEA */ // bspTest_Gea3_ciph_req(1); #endif #if (CHIPSET!=15) || (REMU==0) // create a Memory Bank for the 'Test Selection Menu'. mb_requirements.size = RVTEST_MENU_MB_SIZE; mb_requirements.watermark = RVTEST_MENU_MB_WATERMARK; mb_requirements.pool_id = RVF_POOL_EXTERNAL_MEM; if (rvf_create_mb (RVTEST_MENU_MB_NAME, mb_requirements, &mb_id) != RVF_OK) { // error case. result++; } #if (PSP_STANDALONE == 1) /* Just For Testing Reset of UICC */ bspUicc_reset(1,0); /* Just For Testing GEA */ bspTest_Gea3_ciph_req(1); #endif // Go to the 'Test Selection Menu' (using rv_test ()). rv_test (0); #endif #endif // (TEST==1) #if (CHIPSET!=15) || (REMU==0) // infinite wait rvf_evt_wait (START_TASK_ID, 0xFFFF, 0xFFFFFFFFL); #endif } #if (TEST==1) #define RV_START_TASK_STACK (4096) #else #define RV_START_TASK_STACK (1024) #endif #if (CHIPSET!=15) || (REMU==0) UINT8 stack_start[RV_START_TASK_STACK]; /******************************************************************************* ** ** Function create_tasks ** ** Description This function is called once at startup to allow task ** creation thanks to Riviera environment. ** ** Returns void ** *******************************************************************************/ void create_tasks (void) { // Tasks creation rvf_create_legacy_task ((TASKPTR) rv_start, START_TASK_ID, "RV_START", stack_start, RV_START_TASK_STACK, RV_START_TASK_PRIO, 0, RUNNING); } #endif