FreeCalypso > hg > fc-tourmaline
view src/cs/drivers/drv_app/lcc/lcc_env.c @ 275:79cfefc1e2b4
audio mode load: gracefully handle mode files of wrong AEC version
Unfortunately our change of enabling L1_NEW_AEC (which is necessary
in order to bring our Calypso ARM fw into match with the underlying
DSP reality) brings along a change in the audio mode file binary
format and file size - all those new tunable AEC parameters do need
to be stored somewhere, after all. But we already have existing
mode files in the old format, and setting AEC config to garbage when
loading old audio modes (which is what would happen without the
present change) is not an appealing proposition.
The solution implemented in the present change is as follows: the
audio mode loading code checks the file size, and if it differs
from the active version of T_AUDIO_MODE, the T_AUDIO_AEC_CFG structure
is cleared - set to the default (disabled AEC) for the compiled type
of AEC. We got lucky in that this varying T_AUDIO_AEC_CFG structure
sits at the end of T_AUDIO_MODE!
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Fri, 30 Jul 2021 02:55:48 +0000 |
| parents | 4e78acac3d88 |
| children |
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/****************************************************************************** * Power Task (pwr) * Design and coding by Svend Kristian Lindholm, skl@ti.com * * Environment (Riviera) functions * * $Id: pwr_env.c 1.2 Wed, 20 Aug 2003 12:54:50 +0200 skl $ * ******************************************************************************/ #include "lcc/lcc.h" #include "lcc/lcc_env.h" #include "lcc/lcc_task.h" #include "lcc/lcc_trace.h" #include "lcc/lcc_handle_timers.h" #include "rv/rv_defined_swe.h" #include "rvm/rvm_priorities.h" #include "rvm/rvm_api.h" #include "rvm/rvm_use_id_list.h" #include <string.h> #include "abb/abb.h" /* Define a pointer to the PWR environment control block */ T_PWR_CTRL_BLOCK *pwr_ctrl = NULL; /* Define a pointer to the PWR configuration block */ T_PWR_CFG_BLOCK *pwr_cfg = NULL; // Function Prototypes T_RVM_RETURN pwr_init(void); T_RVM_RETURN pwr_start(void); T_RVM_RETURN pwr_stop(T_RV_HDR *msg); T_RVM_RETURN pwr_kill (void); void ttr(unsigned trmask, char *format, ...); void str(unsigned mask, char *string); T_RVM_RETURN pwr_task_init (void); /* Define global pointer to the error function */ static T_RVM_RETURN (*pwr_error_ft) (T_RVM_NAME swe_name, T_RVM_RETURN error_cause, T_RVM_ERROR_TYPE error_type, T_RVM_STRING error_msg); // Handle timers #include "lcc/lcc_handle_timers.c" T_RVM_RETURN lcc_get_info (T_RVM_INFO_SWE *infoSWE) { #if 1 ttw(ttr(TTrEnv, "lcc_get_info(%d):" NL, 0)); #endif /* SWE info */ /* TYPE3 : Blocking by using FFS */ infoSWE->swe_type = RVM_SWE_TYPE_3; infoSWE->type_info.type3.swe_use_id = LCC_USE_ID; infoSWE->type_info.type3.stack_size = LCC_STACK_SIZE; infoSWE->type_info.type3.priority = RVM_LCC_TASK_PRIORITY; infoSWE->type_info.type3.version = LCC_TASK_VERSION; memcpy( infoSWE->type_info.type3.swe_name, "LCC", sizeof("LCC") ); /* Set the return path */ infoSWE->type_info.type3.return_path.callback_func = NULL; infoSWE->type_info.type3.return_path.addr_id = 0; /* memory bank info */ infoSWE->type_info.type3.nb_mem_bank = 1; memcpy ((UINT8 *) infoSWE->type_info.type3.mem_bank[0].bank_name, "LCC_PRIM", 9); infoSWE->type_info.type3.mem_bank[0].initial_params.size = LCC_MB_PRIM_SIZE; infoSWE->type_info.type3.mem_bank[0].initial_params.watermark = LCC_MB_PRIM_WATERMARK; /* Linked SW entities : FIXME: LCC needs SPI & FFS */ infoSWE->type_info.type3.nb_linked_swe = 0; /* generic functions */ infoSWE->type_info.type3.set_info = pwr_set_info; infoSWE->type_info.type3.init = pwr_init; infoSWE->type_info.type3.start = pwr_start; infoSWE->type_info.type3.stop = pwr_stop; infoSWE->type_info.type3.kill = pwr_kill; return RV_OK; } T_RVM_RETURN pwr_set_info(T_RVF_ADDR_ID addr_id, T_RV_RETURN return_path[], T_RVF_MB_ID mbId[], T_RVM_RETURN (*callBackFct) (T_RVM_NAME SWEntName, T_RVM_RETURN errorCause, T_RVM_ERROR_TYPE errorType, T_RVM_STRING errorMsg)) { T_RVF_MB_STATUS mb_status; ttw(ttr(TTrEnv, "pwr_set_info(%d)" NL, addr_id)); ttw(ttr(TTrEnvLow, " mbId[0] = %d" NL, mbId[0])); mb_status = rvf_get_buf(mbId[0],sizeof(T_PWR_CTRL_BLOCK),(void **) &pwr_ctrl); if (mb_status == RVF_RED) { ttr(TTrFatal, "LCC FATAL: no memory: %d" NL, addr_id); return (RVM_MEMORY_ERR); } memset(&pwr_ctrl->state, 0xBA, sizeof(T_PWR_CTRL_BLOCK)); mb_status = rvf_get_buf(mbId[0],sizeof(T_PWR_CFG_BLOCK),(void **) &pwr_cfg); if (mb_status == RVF_RED) { ttr(TTrFatal, "LCC FATAL: no memory: %d" NL, addr_id); return (RVM_MEMORY_ERR); } memset(&pwr_cfg->cal.i2v , 0xBA, sizeof(T_PWR_CFG_BLOCK)); /* store the pointer to the error function */ pwr_error_ft = callBackFct ; /* Store the addr id */ pwr_ctrl->addr_id = addr_id; /* Store the memory bank id */ pwr_ctrl->prim_id = mbId[0]; /* Battery & charging related initialisation */ // State initialisation pwr_ctrl->state = CAL; // Create timers (Initialize...) pwr_create_timer(&pwr_ctrl->time_begin_T0); pwr_create_timer(&pwr_ctrl->time_begin_T1); pwr_create_timer(&pwr_ctrl->time_begin_T2); pwr_create_timer(&pwr_ctrl->time_begin_T3); pwr_create_timer(&pwr_ctrl->time_begin_T4); pwr_create_timer(&pwr_ctrl->time_begin_mod_cycle); pwr_create_timer(&pwr_ctrl->time_begin_mmi_rep); /* Flags initialisation and other state related init */ // Calibration configuration file not read pwr_ctrl->flag_cal_cfg_read = 0; // Charger configuration file not read pwr_ctrl->flag_chg_cfg_read = 0; // Default configuration id used pwr_cfg->data.cfg_id = '1'; // Number of battery identification measurements reported pwr_ctrl->count_bat_type = 0; pwr_ctrl->count_chg_type = 0; // Precharge PRE state - Applies only for 3.2V < Vbat < 3.6V pwr_ctrl->flag_prechg_started = 0; // Charger Interrupts are disabled from the start pwr_ctrl->flag_chg_int_disabled = 1; // First time in INI state pwr_ctrl->flag_ini_virgo = 0; // Default charger type is UNREGULATED // Meaning charger interrupts will not be enabled pwr_cfg->chg.type = UNREGULATED; // Unplug default is that charger is unplugged (0) memset(&pwr_ctrl->chg_unplug_vec , 0x0, CONSECUTIVE_CHG_UNPLUGS); pwr_ctrl->index = 0; // MMI hasn't registered pwr_ctrl->flag_mmi_registered = 0; // Init of plug/unplug state machine - from default the charger is not plugged pwr_ctrl->flag_chg_prev_plugged = 0; return RV_OK; } T_RVM_RETURN pwr_init(void) { T_RVM_RETURN error; // Mask off the charger interrupts (plug/unplug) - in case it was a linear charger // Don't want to get killed in a vast number of interrupts... ABB_Write_Register_on_page(PAGE0, ITMASK, CHARGER_IT_MSK); pwr_ttr_init(0xff000000); pwr_ctrl->tmask = 0xff000000; ttw(ttr(TTrEnv, "pwr_init(%d)" NL, 0)); return RV_OK; } T_RVM_RETURN pwr_start(void) { T_RVM_RETURN error; ttw(ttr(TTrEnv, "pwr_start(%d)" NL, 0)); pwr_task(); ttw(ttr(TTrEnv, "pwr_start(%d)" NL, 0xFF)); return RV_OK; } T_RVM_RETURN pwr_stop(T_RV_HDR *msg) { ttw(ttr(TTrEnv, "pwr_stop(%d)" NL, 0)); return RV_OK; } T_RVM_RETURN pwr_kill (void) { T_RVM_RETURN error; ttw(ttr(TTrEnv, "pwr_kill(%d)" NL, 0)); /* free all memory buffer previously allocated */ rvf_free_buf ((void *) pwr_ctrl); rvf_free_buf ((void *) pwr_cfg); ttw(ttr(TTrEnv, "pwr_kill(%d)" NL, 0xFF)); return RV_OK; }