FreeCalypso > hg > fc-magnetite
view src/cs/drivers/drv_app/lcc/lcc_task.c @ 682:17b7b92e7dba
uartfax.c: fix for old Openmoko bug with Auto-CTS
Openmoko made the change of enabling hardware assisted CTS flow control
in the UART when RTS/CTS flow control is used - it is a change which we
have retained in FreeCalypso - but they forgot to turn this hw mode off
if RTS/CTS flow control is deselected at the application level. We
(FreeCalypso) are now fixing the latter defect ourselves.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Fri, 26 Jun 2020 02:53:02 +0000 |
parents | 945cf7f506b2 |
children |
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/****************************************************************************** * Power Task (pwr) * Design and coding by Svend Kristian Lindholm, skl@ti.com * * Main PWR Task * * $Id: pwr_task.c 1.1 Wed, 20 Aug 2003 10:22:37 +0200 skl $ * ******************************************************************************/ #include "lcc/lcc.h" #include "lcc/lcc_task.h" #include "lcc/lcc_handle_message.h" #include "lcc/lcc_tm_i.h" #include "lcc/lcc_trace.h" #include "rv/rv_defined_swe.h" #include "ffs/ffs.h" #include <string.h> /****************************************************************************** * Globals and function prototypes ******************************************************************************/ extern T_PWR_CTRL_BLOCK *pwr_ctrl; extern T_PWR_CFG_BLOCK *pwr_cfg; // Event handling functions T_RV_RET process_spi_adc_indication (T_PWR_REQ *request); // Timer event handling functions T_RV_RET process_pwr_handle_T1_expiration (T_PWR_REQ *request); T_RV_RET process_pwr_handle_T2_expiration (T_PWR_REQ *request); T_RV_RET process_pwr_handle_T3_expiration (T_PWR_REQ *request); T_RV_RET process_pwr_handle_T4_expiration (T_PWR_REQ *request); T_RV_RET process_pwr_handle_mod_cycle_expiration(T_PWR_REQ *request); T_RV_RET process_pwr_handle_mmi_info_expiration (T_PWR_REQ *request); // Interrupt event handling functions T_RV_RET process_abb_chg_unplugged_ind (T_PWR_REQ *request); T_RVM_RETURN pwr_check_files(void); T_RVM_RETURN pwr_read_files(void); T_RVM_RETURN pwr_read_chg_files(void); T_RVM_RETURN pwr_read_cal_files(void); void build_name(const char *ch_pre, char *cfg_id , UINT8 index, const char * ch_post, char * name); // FFS function prototypes effs_t ffs_stat(const char *name, struct stat_s *stat); int ffs_fread(const char *name, void *addr, int size); void ttr(unsigned trmask, char *format, ...); void str(unsigned mask, char *string); /****************************************************************************** * PWR Task ******************************************************************************/ // This function checks the existance of FFS directories and files related // to the PWR module - See RD818 // If the existance of the object is MANDATORY pwr_check_files returns an // error and the PWR configuration is stopped // If the existance of the object is OPTIONAL pwr_check_files a // warning is given and the PWR configuration proceeds T_RVM_RETURN pwr_check_files() { T_FFS_SIZE error; T_FFS_STAT stat; ttw(ttr(TTrInit, "pwr_check_files(%d)" NL, 0)); // Check directories: // /pwr MANDATORY // /pwr/bat MANDATORY // /pwr/chg OPTIONAL // /mmi OPTIONAL // /mmi/pwr OPTIONAL // MANDATORY directories if ((error = ffs_stat("/pwr", &stat)) == EFFS_OK) { if (stat.type != OT_DIR) { ttr(TTrFatal, "pwr exists but is not a directory %d" NL, 0); return EFFS_NOTADIR; } } else { ttr(TTrFatal, "no /pwr directory %d" NL, 0); return error; } if ((error = ffs_stat("/pwr/bat", &stat)) == EFFS_OK) { if (stat.type != OT_DIR) { ttr(TTrFatal, "/pwr/bat exists but is not a directory %d" NL, 0); return EFFS_NOTADIR; } } else { ttr(TTrFatal, "no /pwr/bat directory %d" NL, 0); return error; } // OPTIONAL directories if ((error = ffs_stat("/pwr/chg", &stat)) == EFFS_OK) { if (stat.type != OT_DIR) { ttr(TTrWarning, "/pwr/chg exists but is not a directory %d" NL, 0); } } else { ttr(TTrWarning, "no /pwr/chg directory %d" NL, 0); } if ((error = ffs_stat("/mmi", &stat)) == EFFS_OK) { if (stat.type != OT_DIR) { ttr(TTrWarning, "/mmi exists but is not a directory %d" NL, 0); } } else { ttr(TTrWarning, "no /mmi directory %d" NL, 0); } if ((error = ffs_stat("/mmi/pwr", &stat)) == EFFS_OK) { if (stat.type != OT_DIR) { ttr(TTrWarning, "/mmi/pwr exists but is not a directory %d" NL, 0); } } else { ttr(TTrWarning, "no /mmi/pwr directory %d" NL, 0); } // Check calibration files: // /pwr/vbat.cal MANDATORY // NOT checked - it MUST be present - else we will have no Vbat measurements // Check configuration files: // /pwr/common.cfg MANDATORY // /pwr/bat/bat<N>.cfg MANDATORY // /pwr/bat/temp<N>.cfg OPTIONAL // /pwr/chg/chg<N>.cfg OPTIONAL // MANDATORY files if ((error = ffs_stat("/pwr/common.cfg", &stat)) == EFFS_OK) { if (stat.type != OT_FILE) { ttr(TTrFatal, "/pwr/common.cfg exists but is not a file %d" NL, 0); return EFFS_NOTADIR; } } else { ttr(TTrFatal, "no /pwr/common.cfg file %d" NL, 0); return error; } ttw(ttr(TTrInit, "pwr_check_files(%d)" NL, 0xFF)); return RV_OK; } // This function reads the FFS pwr configuration files // /pwr/vbat.cal MANDATORY // /mmi/pwr/bsie OPTIONAL // /pwr/common.cfg MANDATORY // /pwr/bat/bat<n>.cfg MANDATORY // /pwr/bat/temp<n>.cfg MANDATORY // // Precondition: Files have been checked with pwr_check_files() // Therefore we know they exist. Charger files are read later. // T_RVM_RETURN pwr_read_files() { T_FFS_SIZE error; T_FFS_STAT stat; char name[20]; uint8 i; char cfg_id; ttw(ttr(TTrInit, "pwr_read_files(%d)" NL, 0)); // Brute force of charger configuration ? /pwr/chg/force if ((error = ffs_stat("/pwr/chg/force", &stat)) == EFFS_OK) { error = ffs_fread("/pwr/chg/force", &pwr_cfg->data.cforce, 1); ttw(ttr(TTrInitLow, "Read /pwr/chg/force(%d)" NL, error)); pwr_cfg->data.chg_cfg_id = pwr_cfg->data.cforce + '0'; pwr_ctrl->chg_cfg_id = pwr_cfg->data.cforce; } else { // Use 'normal' 'plug & play' configuration pwr_cfg->data.cforce = 0; pwr_cfg->data.chg_cfg_id = 1 + '0'; // Default pwr_ctrl->chg_cfg_id = 1; // Default } // Brute force of battery configuration ? /pwr/bat/force if ((error = ffs_stat("/pwr/bat/force", &stat)) == EFFS_OK) { error = ffs_fread("/pwr/bat/force", &pwr_cfg->data.bforce, 1); ttw(ttr(TTrInitLow, "Read /pwr/bat/force(%d)" NL, error)); pwr_ctrl->cfg_id = pwr_cfg->data.bforce; pwr_cfg->data.cfg_id = pwr_cfg->data.bforce + '0'; } else { // Use 'normal' 'plug & play' configuration // Precondition: We have a reliable battery id measurement pwr_cfg->data.bforce = 0; ttw(ttr(TTrInitLow, "Plug & play bat_id=%d" NL, pwr_cfg->data.bat_id)); } // Read /pwr/common.cfg error = ffs_fread("/pwr/common.cfg", &pwr_cfg->common, PWR_COMMON_CFG_SIZE); ttw(ttr(TTrInitLow, "Read /pwr/common.cfg(%d)" NL, error)); // Read /mmi/pwr/bsie // Apply defaults if file doesn't exist if ((error = ffs_stat("/mmi/pwr/bsie.cfg", &stat)) == EFFS_OK) { if (stat.type != OT_FILE) { ttr(TTrWarning, "/mmi/pwr/bsie.cfg exists but is not a file %d" NL, 0); return EFFS_NOTAFILE; } else { error = ffs_fread("/mmi/pwr/bsie.cfg", &pwr_cfg->mmi, sizeof(pwr_cfg->mmi)); ttw(ttr(TTrInitLow, "Read /mmi/pwr/bsie.cfg(%d)" NL, error)); } } else { ttr(TTrWarning, "no /mmi/pwr/bsie file %d" NL, 0); // Apply defaults pwr_cfg->mmi.repetition = PWR_MMI_REP_THR; } if (pwr_cfg->data.bforce > 0) { // Brute force battery configuration build_name("/pwr/bat/bat", &pwr_cfg->data.cfg_id, 12, ".cfg", name); error = ffs_fread(name, &pwr_cfg->bat, PWR_BAT_CFG_SIZE); build_name("/pwr/bat/temp", &pwr_cfg->data.cfg_id, 13, ".cfg", name); error = ffs_fread(name, &pwr_cfg->temp, PWR_TEMP_CFG_SIZE); } else { // Find out which <n> and read /pwr/bat/bat<n>.cfg // We know that at least one battery configuration file exists // Pick the file that matches the bat_id measured earlier for (i = 1; i <= 5; i++) { cfg_id = i + '0'; build_name("/pwr/bat/bat", &cfg_id, 12, ".cfg", name); error = ffs_fread(name, &pwr_cfg->bat, PWR_BAT_CFG_SIZE); // Found the right battery id?? if ((pwr_cfg->data.bat_id >= pwr_cfg->bat.id_low) && (pwr_cfg->data.bat_id <= pwr_cfg->bat.id_high)) { ttw(ttr(TTrInitLow, "Chose %s" NL, name)); // Save the configuration number in the name pwr_ctrl->cfg_id = i; pwr_cfg->data.cfg_id = cfg_id; pwr_ctrl->flag_bat_unknown = 0; // Read the corresponding temperature configuration build_name("/pwr/bat/temp", &pwr_cfg->data.cfg_id, 13, ".cfg", name); error = ffs_fread(name, &pwr_cfg->temp, PWR_TEMP_CFG_SIZE); break; } } // Check if a matching battery configuration was found if ((pwr_cfg->data.cfg_id < '1') || (pwr_cfg->data.cfg_id > '5')) { pwr_cfg->data.cfg_id = '1'; pwr_ctrl->cfg_id = 1; ttr(TTrWarning, "No matching battery configuration id - Defaults to %d" NL, pwr_ctrl->cfg_id); // Flag that battery configuration was unknown // Inform the MMI later when it has registered pwr_ctrl->flag_bat_unknown = 1; } } ttw(ttr(TTrInit, "pwr_read_files(%d)" NL, 0xFF)); return RV_OK; } // Read calibration files only T_RVM_RETURN pwr_read_cal_files() { T_FFS_SIZE error; // Read /pwr/vbat.cal error = ffs_fread("/pwr/vbat.cal", &pwr_cfg->cal.vbat, sizeof(pwr_cfg->cal.vbat)); if ( error < EFFS_OK ) return RVM_INTERNAL_ERR; ttw(ttr(TTrInitLow, "Read /pwr/vbat.cal(%d)" NL, error)); ttw(ttr(TTrInitLow, "pwr_cfg->cal.vbat.alfa_num=%d" NL, pwr_cfg->cal.vbat.alfa_num)); ttw(ttr(TTrInitLow, "pwr_cfg->cal.vbat.alfa_denom=%d" NL, pwr_cfg->cal.vbat.alfa_denom)); ttw(ttr(TTrInitLow, "pwr_cfg->cal.vbat.beta=%d" NL, pwr_cfg->cal.vbat.beta)); return RVM_OK; } // This function reads the FFS pwr configuration file // It is invoked when a charger is plugged // /pwr/chg/chg<n>.cfg MANDATORY T_RVM_RETURN pwr_read_chg_files() { T_FFS_SIZE error; char name[20]; uint8 i; char chg_id; ttw(ttr(TTrInit, "pwr_read_chg_files(%d)" NL, 0)); if (pwr_cfg->data.cforce > 0) { // Brute force charger configuration build_name("/pwr/chg/chg", &pwr_cfg->data.chg_cfg_id, 12, ".cfg", name); error = ffs_fread(name, &pwr_cfg->chg, PWR_CHG_CFG_SIZE); ttw(ttr(TTrInitLow,"error = %d" NL, error)); // Readout /pwr/chg/chg<N>.cfg ttw(ttr(TTrInitLow,"chg.cfg: type: %d" NL, pwr_cfg->chg.type)); ttw(ttr(TTrInitLow,"ichg_max: %d" NL, pwr_cfg->chg.ichg_max)); ttw(ttr(TTrInitLow,"vchg_low: %d" NL, pwr_cfg->chg.vchg_low)); ttw(ttr(TTrInitLow,"vchg_high: %d" NL, pwr_cfg->chg.vchg_high)); } else { // Find out which <n> and read /pwr/chg/chg<n>.cfg // We know that at least one charger configuration file exists // Pick the file that matches the chg_id measured earlier for (i = 1; i <= 5; i++) { chg_id = i + '0'; build_name("/pwr/chg/chg", &chg_id, 12, ".cfg", name); error = ffs_fread(name, &pwr_cfg->chg, PWR_CHG_CFG_SIZE); ttw(ttr(TTrInitLow,"error = %d" NL, error)); // Readout /pwr/chg/chg<N>.cfg ttw(ttr(TTrInitLow,"chg.cfg: type: %d" NL, pwr_cfg->chg.type)); ttw(ttr(TTrInitLow,"ichg_max: %d" NL, pwr_cfg->chg.ichg_max)); ttw(ttr(TTrInitLow,"vchg_low: %d" NL, pwr_cfg->chg.vchg_low)); ttw(ttr(TTrInitLow,"vchg_high: %d" NL, pwr_cfg->chg.vchg_high)); // Found the right charger id?? if ((pwr_cfg->data.chg_id > pwr_cfg->chg.vchg_low) && (pwr_cfg->data.chg_id < pwr_cfg->chg.vchg_high)) { ttw(ttr(TTrInitLow, "Chose %s" NL, name)); // Save the configuration number in the name pwr_ctrl->chg_cfg_id = i; pwr_cfg->data.chg_cfg_id = chg_id; pwr_ctrl->flag_chg_unknown = 0; break; } } // Check if a matching charger configuration was found if ((pwr_cfg->data.chg_cfg_id < '1') || (pwr_cfg->data.chg_cfg_id > '5')) { pwr_cfg->data.chg_cfg_id = '1'; pwr_ctrl->chg_cfg_id = 1; ttr(TTrWarning, "No matching charger configuration id - Defaults to %d" NL, pwr_ctrl->chg_cfg_id); // Flag that charger configuration was unknown // Inform the MMI later when it has registered pwr_ctrl->flag_chg_unknown = 1; } } ttw(ttr(TTrInit, "pwr_read_chg_files(%d)" NL, 0xFF)); } void *pwr_malloc(int size) { void *addr; if (rvf_get_buf(pwr_ctrl->prim_id, size, &addr) == RVF_RED) { ttr(TTrFatal, "PWR FATAL: No Memory (%d)" NL, pwr_ctrl->state); return NULL; } return addr; } void pwr_free(void *addr) { int error; ttw(ttr(TTrEvent, "pwr_free (%d)" NL, 0)); if ((error = rvf_free_buf(addr)) != RV_OK) { ttr(TTrFatal, "PWR FATAL: pwr_free (%d)" NL, error); } } void pwr_task() { void *request; struct pwr_req_s *pwr_request; int error; ttw(ttr(TTrEnv, "pwr_task(%d)" NL, 0)); while (1) { rvf_wait(RVF_TASK_MBOX_0_EVT_MASK,0); request = rvf_read_mbox(RVF_TASK_MBOX_0); pwr_request = (struct pwr_req_s *)request; if (request != NULL) { ttw(ttr(TTrEvent, "Received Event(%d)" NL, pwr_request->header.msg_id)); ttw(ttr(TTrEventLow, "src_addr_id(%d)" NL, pwr_request->header.src_addr_id)); ttw(ttr(TTrEventLow, "dest_addr_id(%d)" NL, pwr_request->header.dest_addr_id)); switch (pwr_request->header.msg_id) { case PWR_CHARGER_PLUGGED_IND: // Sometimes (low voltage - init) receiving a ghost charger plug although interrupts are disabled pwr_free(request); break; case PWR_CHARGER_UNPLUGGED_IND: error = process_abb_chg_unplugged_ind(pwr_request); break; case PWR_ADC_IND : error = process_spi_adc_indication(request); break; // Timers case TIMER_T1_EXPIRED: error = process_pwr_handle_T1_expiration(request); break; case TIMER_T2_EXPIRED: error = process_pwr_handle_T2_expiration(request); break; case TIMER_T3_EXPIRED: error = process_pwr_handle_T3_expiration(request); break; case TIMER_T4_EXPIRED: error = process_pwr_handle_T4_expiration(request); break; case TIMER_MOD_CYCLE_EXPIRED: error = process_pwr_handle_mod_cycle_expiration(request); break; case TIMER_MMI_INFO_EXPIRED: error = process_pwr_handle_mmi_info_expiration(request); break; default : { ttr(TTrFatal, "PWR FATAL: Unknown Event: %d" NL, pwr_request->header.msg_id); ttr(TTrFatal, " State: %d" NL, pwr_ctrl->state); // Exception Handling - Unknown Event } } } else { // Exception Handling - NULL pointer ttr(TTrFatal, "PWR FATAL: NULL pointer (%d)" NL, pwr_ctrl->state); } } ttw(ttr(TTrEnv, "pwr_task(%d)" NL, 0xFF)); }