FreeCalypso > hg > fc-tourmaline
view src/cs/riviera/rvm/rvm_mem.c @ 303:f76436d19a7a default tip
!GPRS config: fix long-standing AT+COPS chance hanging bug
There has been a long-standing bug in FreeCalypso going back years:
sometimes in the AT command bring-up sequence of an ACI-only MS,
the AT+COPS command would produce only a power scan followed by
cessation of protocol stack activity (only L1 ADC traces), instead
of the expected network search sequence. This behaviour was seen
in different FC firmware versions going back to Citrine, and seemed
to follow some law of chance, not reliably repeatable.
This bug has been tracked down and found to be specific to !GPRS
configuration, stemming from our TCS2/TCS3 hybrid and reconstruction
of !GPRS support that was bitrotten in TCS3.2/LoCosto version.
ACI module psa_mms.c, needed only for !GPRS, was missing in the TCS3
version and had to be pulled from TCS2 - but as it turns out,
there is a new field in the MMR_REG_REQ primitive that needs to be
set correctly, and that psa_mms.c module is the place where this
initialization needed to be added.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Thu, 08 Jun 2023 08:23:37 +0000 |
| parents | 4e78acac3d88 |
| children |
line wrap: on
line source
/** * * @file rvm_mem.c * * This file contains the functions related to memory management within RVM. * * @author David Lamy-Charrier (d-lamy@ti.com) * @version 0.1 * */ /* * Revision History: * * 10/26/2001 David Lamy-Charrier Create for Riviera 1.6. * * (C) Copyright 2001 by Texas Instruments Incorporated, All Rights Reserved */ #include "rvm/rvm_i.h" #include "rvm/rvm_gen.h" #include "rvm/rvm_api.h" #include "rvm/rvm_use_id_list.h" #include "rvf/rvf_env.h" extern T_RVM_GET_INFO_FUNC RVM_SWE_GET_INFO_ARRAY[]; extern T_RVM_KNOWN_SWE * rvm_swe_array; /******************************************************************************* ** Function rvm_delete_used_memory ** ** Description Internal function which deletes used local mem if an error ** was received or at the end of the start/stop process. ** *******************************************************************************/ T_RVM_RETURN rvm_delete_used_memory ( T_RVM_PROCESSING_SWE * appli) { T_RVF_BUFFER_Q buffer_to_free_q = {0, 0, 0}; T_RVM_PROCESSING_SWE * cur_elem = appli; while (cur_elem != NULL) { rvf_enqueue (&buffer_to_free_q, cur_elem); cur_elem = cur_elem->next_swe; } while (buffer_to_free_q.p_first) { rvf_free_buf (rvf_dequeue (&buffer_to_free_q)); } return RVM_OK; } /******************************************************************************* ** Function rvm_delete_created_mb ** ** Description Internal function which deletes all created MB if an error ** was received, or in case application has to be stopped. ** *******************************************************************************/ T_RVM_RETURN rvm_delete_created_mb (T_RVM_PROCESSING_SWE * appli) { UINT8 mb_index; T_RVM_PROCESSING_SWE * cur_elem = appli; volatile T_RV_RET ret_value = RV_OK; UINT8 mb_to_delete; while (cur_elem != NULL ) { UINT8 swe_index = cur_elem->swe_id; /* If more than one appli is using this SWE, cannot delete MB Process to the next SWE. */ if (rvm_swe_array[swe_index].nb_using_appli > 1) { cur_elem = cur_elem->next_swe; /* process the next SWE */ continue; } /* If the state is running, it means that this SWE has not to be stopped. */ if (rvm_swe_array[swe_index].swe_state == SWE_RUNNING) { cur_elem = cur_elem->next_swe; /* process the next SWE */ continue; } /* We're here: - either because swe_state == SWE_NOT_STARTED => error in starting prcess - either because swe_state == SWE_STOPPING => regular stopping process */ if (cur_elem->nb_created_mb == 0) { cur_elem = cur_elem->next_swe; /* process the next SWE */ continue; } mb_to_delete = cur_elem->nb_created_mb; for( mb_index = 0; mb_index < mb_to_delete; mb_index++) { ret_value = rvf_delete_mb(cur_elem->swe_mem_bank[mb_index].mb_name); if (ret_value != RV_OK) { rvf_send_trace("RVM: Error in deletion of memory bank: ", 39, NULL_PARAM, RV_TRACE_LEVEL_WARNING, RVM_USE_ID ); rvf_send_trace(cur_elem->swe_mem_bank[mb_index].mb_name, RVF_MAX_MB_LEN, NULL_PARAM, RV_TRACE_LEVEL_WARNING, RVM_USE_ID ); } else { (cur_elem->nb_created_mb)--; } ret_value = RVM_OK; } cur_elem = cur_elem->next_swe; /* process the next SWE */ } return ret_value; } /******************************************************************************* ** ** Function rvm_check_memory_requirement ** ** Description This function checks if there is enough memory ** to start a SWE(and all the linked SWEs) ** ** Parameters: T_RVM_PROCESSING_SWE * appli: list of required SWEs with their parameters. ** ** Returns T_RVM_RETURN: RVM_OK if there is enough memory, else RVM_MEMORY_ERR. ** *******************************************************************************/ T_RVM_RETURN rvm_verify_memory_requirement( T_RVM_PROCESSING_SWE * appli, T_RVM_GROUP_DIRECTIVE* gd, UINT8 cnt) { T_RVM_PROCESSING_SWE * cur_swe = appli; UINT32 required_mem = 0; UINT32 total_mem = 0; UINT32 used_mem = 0; UINT8 mb_index; UINT8 i=0; UINT16 host_task_mem=0; /* get available memory from the rvf */ if ( rvf_get_available_mem( &total_mem, &used_mem) != RVF_OK ) { return RVM_MEMORY_ERR; } /* count required memory */ while (cur_swe !=NULL ) /* for each SWE */ { UINT8 swe_index = cur_swe->swe_id; /* ** If SWE is already running => MB already created => do nothing */ if (rvm_swe_array[swe_index].swe_state != SWE_RUNNING ) { for( mb_index = 0; mb_index < cur_swe->nb_requested_mb; mb_index++) /* for each mb */ { required_mem += cur_swe->swe_mem_bank[mb_index].mb_initial_param.size; } /* add the necessary stack sizes */ /* TO DO: add the stack size for host groups not yet started */ if( (cur_swe->swe_type == RVM_SWE_TYPE_3) || (cur_swe->swe_type == RVM_SWE_TYPE_4) ) /* || ((cur_swe->swe_type == RVM_SWE_TYPE_2) && (rvm_swe_array[swe_index].group_index == RVM_OWN_GROUP) )) */ { required_mem += rvm_swe_array[swe_index].swe_stack_size; required_mem += SYSTEM_TASK_MEM; /* only for type 3 & 4. A-M-E-N-D-E-D! */ } } cur_swe = cur_swe->next_swe; } /* type 2 group host system and stack mem. is catered for here */ for(i=0; i<cnt; i++) host_task_mem+=gd[i].stack_size; /* A-M-E-N-D-E-D! */ host_task_mem+=(cnt*SYSTEM_TASK_MEM); /* compare available memory and required memory (eventually, use a percentage to improve performances) */ if ((required_mem+host_task_mem) + used_mem > total_mem ) { /* A-M-E-N-D-E-D! */ RVM_TRACE_WARNING_PARAM("RVM: Memory required (incl. used): ", (UINT32)(required_mem+host_task_mem+ used_mem) ); RVM_TRACE_WARNING_PARAM("RVM: Total Memory available : ", (UINT32)total_mem); return RVM_MEMORY_ERR; } else{ return RVM_OK; } } /******************************************************************************* ** ** Function rvm_allocate_mem ** ** Description This function creates all the required memory banks or ** increases their size if needed, to start a SWE. ** ** Parameters: T_RVM_PROCESSING_SWE * appli: list of required SWEs with their parameters. ** ** Returns T_RVM_RETURN: RVM_OK if all allocations are successful, ** else RVM_MEMORY_ERR and it releases all the allocated memory. ** *******************************************************************************/ T_RVM_RETURN rvm_allocate_mb( T_RVM_PROCESSING_SWE * appli) { T_RVM_PROCESSING_SWE * cur_swe = appli; UINT8 mb_index; volatile T_RVM_RETURN rvm_ret_value = RVM_OK; /* for each SWE in the list */ while ((cur_swe != NULL ) && (rvm_ret_value == RVM_OK)) { UINT8 swe_index = cur_swe->swe_id; if (rvm_swe_array[swe_index].swe_state == SWE_NOT_STARTED) /* If the state is not SWE_RUNNING, then the MBs have to be created */ { for( mb_index = 0; mb_index < cur_swe->nb_requested_mb; mb_index++) /* for each mb */ { T_RVF_MB_PARAM mb_param; /* add the initial size */ mb_param.size = cur_swe->swe_mem_bank[mb_index].mb_initial_param.size; mb_param.watermark = cur_swe->swe_mem_bank[mb_index].mb_initial_param.watermark; /* create the mb */ if ( mb_param.size != 0) { /* create the mb */ if ( rvf_create_mb( cur_swe->swe_mem_bank[mb_index].mb_name, mb_param, &(cur_swe->bk_id_table[mb_index]) ) != RVF_OK) { /* if an error occurs */ rvm_ret_value = RVM_MEMORY_ERR; break; } else { cur_swe->nb_created_mb++; } } } } cur_swe = cur_swe->next_swe; /* process the next SWE */ } if (rvm_ret_value != RVM_OK) /* Something went wrong, should release all used memory */ { rvf_send_trace("RVM: Problem in memory bank creation !!!", 40, NULL_PARAM, RV_TRACE_LEVEL_WARNING, RVM_USE_ID ); if (rvm_delete_created_mb (appli) != RVM_OK) { rvf_send_trace("RVM: MB deleting error!!!", 25, NULL_PARAM, RV_TRACE_LEVEL_WARNING, RVM_USE_ID ); } } return rvm_ret_value; } /******************************************************************************* ** ** Function rvm_allocate_stack_buffer ** ** Description This function allocates a buffer for the stack of a new ** task created by RVM. ** ** Parameters: UINT32 stack_size: size of stack. ** T_RVF_BUFFER** stack_ptr: pointer to the allocated buffer. ** ** Returns T_RVM_RETURN: RVM_OK if all allocation is successful, ** else RVM_MEMORY_ERR. ** *******************************************************************************/ T_RVM_RETURN rvm_allocate_stack_buffer( UINT32 stack_size, T_RVF_BUFFER** stack_ptr ) { T_RVF_MB_PARAM mb_params; /* increase the size of the stack MB before allocating the new buffer */ if( rvf_get_mb_param( RVM_STACK_MB, &mb_params) != RV_OK) { return RVM_MEMORY_ERR; } mb_params.size += stack_size; mb_params.watermark += stack_size; if( rvf_set_mb_param( RVM_STACK_MB, &mb_params) != RV_OK) { return RVM_MEMORY_ERR; } if( rvf_get_buf( rvm_stack_mem_bank, stack_size, stack_ptr) == RVF_RED) { return RVM_MEMORY_ERR; } return RVM_OK; }