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view src/cs/services/etm/etm_tmpwr.c @ 75:8697f358f505

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backlight rework: Condat light driver accepts levels The present change is another intermediate step on the path toward new FreeCalypso backlight handling. At this intermediate step the Condat light driver accepts 0-255 backlight levels driven by MFW, and puts them out on PWL on Luna development boards. At the same time on C139 it is now possible to turn on the display backlight with or without the keypad bl - the lsb of the 0-255 backlight level controls the keypad bl. MFW presently drives only 0 and 255 backlight levels, thus there is no visible behavioral change yet - but the plan for subsequent stages of this backlight rework is to add a dimmed backlight state (no keypad bl on C139) during active calls.
author Mychaela Falconia <falcon@freecalypso.org>
date Sat, 24 Oct 2020 20:44:04 +0000
parents 4e78acac3d88
children
line wrap: on
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/******************************************************************************
 * Enhanced TestMode (PWR)
 * Copyright Texas Instruments, 2003
 * Svend Kristian Lindholm, skl@ti.com
 *
 * $Id: tmpwr.c 1.1 Wed, 20 Aug 2003 10:22:37 +0200 skl $
 *
 ******************************************************************************/

#include "etm/etm.h"
#include "etm/etm_trace.h"
#include "etm/etm.h"
#include "etm/etm_env.h"
#include "etm/etm_api.h"
#include "etm/etm_misc.h"

#include "rv/rv_general.h"
#include "rv/rv_defined_swe.h"

#include "memif/mem.h"
#include <string.h>


#include "rv/rv_defined_swe.h"
#define TRACE_WANTED 1
#include "lcc/lcc_api.h"
#include "lcc/lcc_cfg_i.h"
#include "lcc/lcc.h"
#include "lcc/lcc_trace.h"
#include "lcc/lcc_tm_i.h"
#include "lcc/lcc_task.h"
#include "lcc/lcc_modulate.h"
#include "ffs/ffs.h"

/******************************************************************************
 * Globals
 *****************************************************************************/

extern T_ETM_ENV_CTRL_BLK *etm_env_ctrl_blk;
extern T_PWR_CTRL_BLOCK *pwr_ctrl;
extern T_PWR_CFG_BLOCK *pwr_cfg;


/******************************************************************************
 * EMT PWR Version
 *****************************************************************************/
/* 
The version of the etm pwr module can be found in the file etm_version.h
*/

/******************************************************************************
 * ETM PWR Module
 *****************************************************************************/
// pwr uplink packet structure for pwr read/write : 
// |fid|index|--data(W)--|

int etm_pwr(uint8 *indata, int insize);

/******************************************************************************
 * Register the PWR Module to the ETM database 
 *****************************************************************************/

int etm_pwr_init(void)
{
    return etm_register("PWR", ETM_PWR, 0, 0, etm_pwr);
}


int etm_pwr(uint8 *buf, int insize)
{
    int error = ETM_OK;
    uint8 fid, size, index,i;
    T_ETM_PKT *pkt = NULL;  
    T_FFS_STAT stat;
    char name[20], id;

    ttw(pwr_ttr(TTrInit, "etm_pwr(%d)" NL, 0));

    fid = *buf;

    ttw(pwr_ttr(TTrInit, "insize = %d " NL, insize));
       
    /* Create TestMode return Packet */
    if ((pkt = (T_ETM_PKT *) etm_malloc(sizeof(T_ETM_PKT))) == NULL) {
        return ETM_NOMEM;
    }
    
    // Init. of return packet
    pkt->mid     = ETM_PWR;
    pkt->status  = ETM_OK;
    pkt->size    = 0;
    pkt->index   = 0;
    etm_pkt_put8(pkt, fid);

    index = *(buf+1);
    etm_pkt_put8(pkt, index);
    
    name[0] = 0; // FIXME: Really needed?

    for (i=0; i<insize; i++) {
        ttw(ttr(TTrTmpwr, "buf[%d]=%d" NL,i, (*(buf+i))));
    }

    switch (fid) {
    case 'R':
	ttw(ttr(TTrTmpwr,"pwr (%d)" NL, 0));

	// All reads start from index 2 since the fid + index is kept
	switch (index) {
	case PWR_CFG_ID :
	    // We can read different configurations swiching between them using pwtw
	    size = PWR_CFG_ID_SIZE;
	    *(buf+2) = pwr_ctrl->cfg_id;
	    *(buf+3) = pwr_ctrl->chg_cfg_id;
	    ttw(ttr(TTrTmpwr,"Using cfg_id %d" NL, *(buf+2)));
	    ttw(ttr(TTrTmpwr,"Using chg_cfg_id %d" NL, *(buf+3)));

	    // If either the bat.cfg or the chg.cfg lacks object not found is returned

	    // If (battery) file can't be stat'ed then the configuration doesn't exist
	    id = *(buf+2) + '0';
	    build_name("/pwr/bat/bat", &id, 12, ".cfg", name);
	    error = ffs_stat(name, &stat);

	    // If charger file can't be stat'ed then the configuration doesn't exist
	    id = *(buf+3) + '0';
	    build_name("/pwr/chg/chg", &id, 12, ".cfg", name);
	    error = ffs_stat(name, &stat);
	    break;
	case PWR_COMMON :
	    // Read the /pwr/common.cfg file
	    // NOTE: sizeof(pwr_cfg->common) = 16 <>  (14 byte alignment)
	    size = PWR_COMMON_CFG_SIZE;
	    error = ffs_fread("/pwr/common.cfg", buf+2, size);
	    ttw(ttr(TTrTmpwr,"Read %d bytes" NL, error));
	    break;
	case PWR_CHG :
	    // Read the /pwr/chg/chg<cfgid>.cfg file
	    size = PWR_CHG_CFG_SIZE;
	    id = pwr_ctrl->chg_cfg_id + '0';
	    build_name("/pwr/chg/chg", &id, 12, ".cfg", name);
	    error = ffs_fread(name, buf+2, size);
	    ttw(ttr(TTrTmpwr, "Read %d bytes " NL, error));
	    break;
	case PWR_BAT :
	    // Read the /pwr/bat/bat<cfgid>.cfg file
	    size = PWR_BAT_CFG_SIZE;
	    id = pwr_ctrl->cfg_id + '0';
	    build_name("/pwr/bat/bat", &id, 12, ".cfg", name);
	    error = ffs_fread(name, buf+2, size);
	    ttw(ttr(TTrTmpwr,"Read %d bytes" NL, error));
	    break;
	case PWR_TEMP :
	    // Read the /pwr/bat/temp<cfgid>.cfg file
	    size = PWR_TEMP_CFG_SIZE;
	    id = pwr_ctrl->cfg_id + '0';
	    build_name("/pwr/bat/temp", &id, 13, ".cfg", name);
	    error = ffs_fread(name, buf+2, size);
	    ttw(ttr(TTrTmpwr,"Read %d bytes" NL, error));
	    break;
	case PWR_MMI:
	    // Read the /mmi/pwr/bsie.cfg file
	    size = PWR_MMI_CFG_SIZE;
	    error = ffs_fread("/mmi/pwr/bsie.cfg", buf+2, size);
	    ttw(ttr(TTrTmpwr,"Read %d bytes" NL, error));
	    break;
	case PWR_I2V_CAL :
	    // Read the /pwr/i2v.cal file
	    size = PWR_I2V_CAL_SIZE;
	    error = ffs_fread("/pwr/i2v.cal", buf+2, size);
	    ttw(ttr(TTrTmpwr,"Read %d bytes" NL, error));
	    break;
	case PWR_VBAT_CAL :
	    // Read the /pwr/vbat.cal file
	    size = PWR_VBAT_CAL_SIZE;
	    error = ffs_fread("/pwr/vbat.cal", buf+2, size);
	    ttw(ttr(TTrTmpwr,"Read %d bytes" NL, error));
	    break;
	case PWR_MMI_TEST :
#if (TEST_PWR_MMI_INTERFACE == 1)
	    // Trigger MMI registration 
	    return_path.callback_func = mmi_test_cb_function;
	    ttw(ttr(TTrInit,"before: &mmi_test_cb_function=(0x%x)" NL, return_path.callback_func));
	    return_path.addr_id = NULL; // FIXME??
	    ttw(ttr(TTrTmpwr,"MMI testing callback: %d" NL, 0x0));
	    size = 1;
	    *(buf+2) = 0xBA;
	    pwr_register(&return_path, &mmi_data);
	    ttw(ttr(TTrInit,"after: &mmi_test_cb_function=(0x%x)" NL, pwr_ctrl->rpath.callback_func));
	    ttw(ttr(TTrTmpwr,"MMI testing callback: %d" NL, 0xFF));
#endif
	    break;
	case PWR_DYNAMIC :
	    // Dump 'dynamic' configuration data to trace
	    size = PWR_DYNAMIC_SIZE;
	    *(buf+2) = 0xBA;
	    ttr(TTrAll,"*PWR Module Version = 0x%x" NL, PWRVERSION );
	    ttr(TTrAll,"*bat_id = %d" NL,               pwr_cfg->data.bat_id );
	    ttr(TTrAll,"*state = %d" NL,                pwr_ctrl->state);
	    ttr(TTrAll,"*chg_id = %d" NL,               pwr_cfg->data.chg_id );
	    ttr(TTrAll,"*Vbat = %d" NL,                 pwr_cfg->data.Vbat);
	    ttr(TTrAll,"*Vbat_avg = %d" NL,             pwr_cfg->data.Vbat_avg);
	    ttr(TTrAll,"*Vbat_avg_mV = %d" NL,          pwr_cfg->data.Vbat_avg_mV);
	    ttr(TTrAll,"*Tbat = %d" NL,                 pwr_cfg->data.Tbat);
	    ttr(TTrAll,"*Tbat_avg = %d" NL,             pwr_cfg->data.Tbat_avg);
	    ttr(TTrAll,"*Vchg = %d" NL,                 pwr_cfg->data.Vchg);
	    ttr(TTrAll,"*Ichg = %d" NL,                 pwr_cfg->data.Ichg);
	    ttr(TTrAll,"*Cbat = %d" NL,                 pwr_cfg->data.Cbat);
	    ttr(TTrAll,"*cfg_id = %d" NL,               pwr_cfg->data.cfg_id);
	    ttr(TTrAll,"*chg_cfg_id = %d" NL,           pwr_cfg->data.chg_cfg_id);
	    ttr(TTrAll,"*bforce = %d" NL,               pwr_cfg->data.bforce);
	    ttr(TTrAll,"*cforce = %d" NL,               pwr_cfg->data.cforce);
	    ttr(TTrAll,"*k = %d" NL,                    pwr_cfg->data.k);
	    ttr(TTrAll,"*T4 = %d" NL,                   pwr_cfg->data.T4);
	    ttr(TTrAll,"*T1 elapsed = %d" NL,           pwr_ctrl->time_elapsed_T1);
	    ttr(TTrAll,"*T2 elapsed = %d" NL,           pwr_ctrl->time_elapsed_T2);
	    ttr(TTrAll,"*T3 elapsed = %d" NL,           pwr_ctrl->time_elapsed_T3);
	    ttr(TTrAll,"*MMI timer elapsed = %d" NL,    pwr_ctrl->time_elapsed_mmi_rep);
	    error = PWR_OK;
	    break;
	case PWR_TRACE_MASK:
	    // Read the trace mask of the PWR module 
	    size = PWR_TMASK_SIZE;
	    memcpy(buf+2, &pwr_ctrl->tmask, size);
	    ttw(ttr(TTrTmpwr,"tmask: 0x%x" NL, pwr_ctrl->tmask));
	    break;
	default :
	    {
	     // Unknown index
	    error = PWR_INDEX;
	    ttr(TTrWarning, "Unknown index! %d" NL, index);
	    }
	}

	etm_pkt_putdata(pkt, buf+2 , size);
        break;
    case 'W':

	ttw(ttr(TTrTmpwr,"pww (%d)" NL, 0));
	switch (index) {
	case PWR_CFG_ID :
	    // Write the configuration id to be used
	    pwr_ctrl->cfg_id = *(buf+2);
	    pwr_ctrl->chg_cfg_id = *(buf+3);
	    pwr_cfg->data.cfg_id = pwr_ctrl->cfg_id + '0';
	    pwr_cfg->data.chg_cfg_id = pwr_ctrl->chg_cfg_id + '0';
	    ttw(ttr(TTrTmpwr,"Switched to bat id=%d" NL, pwr_ctrl->cfg_id));
	    ttw(ttr(TTrTmpwr,"Switched to chg id=%d" NL, pwr_ctrl->chg_cfg_id));
	    break;
	case PWR_COMMON :
	    // Write the /pwr/common.cfg file
	    // Blocking version of ffs_fwrite is used since this is a test mode command
	    error = ffs_fwrite("/pwr/common.cfg", buf+2, PWR_COMMON_CFG_SIZE);
	    ttw(ttr(TTrTmpwr,"Wrote %d bytes" NL, error));
	    break;
	case PWR_CHG :
	    // Write the /pwr/chg/chg<cfgid>.cfg file
	    size = PWR_CHG_CFG_SIZE;
	    id = pwr_ctrl->chg_cfg_id + '0';
	    build_name("/pwr/chg/chg", &id, 12, ".cfg", name);
	    error = ffs_fwrite(name, buf+2, size);
	    ttw(ttr(TTrTmpwr, "Wrote %d bytes = %d" NL, error));
	    break;
	case PWR_BAT :
	    // Write the /pwr/bat/bat<cfgid>.cfg file
	    size = PWR_BAT_CFG_SIZE;
	    id = pwr_ctrl->cfg_id + '0';
	    build_name("/pwr/bat/bat", &id, 12, ".cfg", name);
	    error = ffs_fwrite(name, buf+2, size);
	    ttw(ttr(TTrTmpwr, "Wrote %d bytes = %d" NL, error));
	    break;
	case PWR_TEMP :
	    // Write the /pwr/bat/temp<cfgid>.cfg file
	    size = PWR_TEMP_CFG_SIZE;
	    id = pwr_ctrl->cfg_id + '0';
	    build_name("/pwr/bat/temp", &id, 13, ".cfg", name);
	    error = ffs_fwrite(name, buf+2, size);
	    ttw(ttr(TTrTmpwr, "Wrote %d bytes = %d" NL, error));
	    break;
	case PWR_MMI:
	    // Write the /mmi/pwr/bsie.cfg file
	    size = PWR_MMI_CFG_SIZE;
	    error = ffs_fwrite("/mmi/pwr/bsie.cfg", buf+2, size);
	    ttw(ttr(TTrTmpwr, "Wrote %d bytes = %d" NL, error));
	    break;
	case PWR_I2V_CAL :
	    // Write the /pwr/i2v.cal file
	    error = ffs_fwrite("/pwr/i2v.cal", buf+2, PWR_I2V_CAL_SIZE);
	    ttw(ttr(TTrTmpwr,"Wrote %d bytes" NL, PWR_I2V_CAL_SIZE));
	    break;
	case PWR_VBAT_CAL:
	    // Write the /pwr/vbat.cal file
	    error = ffs_fwrite("/pwr/vbat.cal", buf+2, PWR_VBAT_CAL_SIZE);
	    ttw(ttr(TTrTmpwr,"Wrote %d bytes" NL, PWR_VBAT_CAL_SIZE));
	    break;
	case PWR_MMI_TEST :
	    break;
	case PWR_TRACE_MASK:
	    // Write the trace mask of the PWR module 
	    memcpy(&pwr_ctrl->tmask, buf+2, sizeof(pwr_ctrl->tmask));
	    ttw(ttr(TTrTmpwr,"Wrote tmask 0x%x" NL, pwr_ctrl->tmask));
	    pwr_ttr_init(pwr_ctrl->tmask);
	    break;
	default :
	    {
	     // Unknown index
	    error = PWR_INDEX;
	    ttr(TTrWarning, "Unknown index! %d" NL, index);
	    }
	}

	size = 0; // Size of write message reply is always 0

        break;
    default:
        pwr_ttr(TTrWarning, "etm_pwr: fid unknown (%d)" NL, fid);
        error = ETM_NOSYS;
        break;
    }
    
    for (i=0; i<size+2; i++) {
        ttw(ttr(TTrTmpwr, "buf[%d]=0x%x" NL, i, (*(buf+i))));
    }

    if (error < 0) {
        pwr_ttr(TTrWarning, "etm_pwr: error %d" NL, error);
        pkt->status = -error;

    }

    pkt->size += size;

    etm_pkt_send(pkt);
    etm_free(pkt);

    ttw(pwr_ttr(TTrInit, "etm_pwr(%d)" NL, 0xFF));
    return ETM_OK;
}