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abb.c
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abb.c
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/*
*
* @Component OMAPCONF
* @Filename abb.c
* @Description PRCM ABB Common Definitions & Functions
* @Author Patrick Titiano (p-titiano@ti.com)
* @Date 2010
* @Copyright Texas Instruments Incorporated
*
*
* Copyright (C) 2010 Texas Instruments Incorporated - http://www.ti.com/
*
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the
* distribution.
*
* Neither the name of Texas Instruments Incorporated nor the names of
* its contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*/
#include <abb.h>
#include <autoadjust_table.h>
#include <lib.h>
#include <string.h>
#include <cpuinfo.h>
/* #define ABB_DEBUG */
#ifdef ABB_DEBUG
#define dprintf(format, ...) printf(format, ## __VA_ARGS__)
#else
#define dprintf(format, ...)
#endif
/* ------------------------------------------------------------------------*//**
* @FUNCTION abb_status2string
* @BRIEF convert bitfield value from register into string
* @RETURNS 0 on success
* OMAPCONF_ERR_ARG
* @param[in,out] s: destination string (pre-allocated)
* @param[in] status: bitfield value
* @DESCRIPTION convert bitfield value from register into string
*//*------------------------------------------------------------------------ */
int abb_status2string(char s[9], unsigned int status)
{
if (s == NULL)
return OMAPCONF_ERR_ARG;
switch (status) {
case 0:
strcpy(s, "Bypass");
break;
case 1:
strcpy(s, "RBB");
break;
case 2:
strcpy(s, "FBB");
break;
case 3:
strcpy(s, "Reserved");
break;
default:
return OMAPCONF_ERR_ARG;
}
return 0;
}
/* ------------------------------------------------------------------------*//**
* @FUNCTION abb_opp_sel2string
* @BRIEF convert bitfield value from register into string
* @RETURNS 0 on success
* OMAPCONF_ERR_ARG
* @param[in,out] s: destination string (pre-allocated)
* @param[in] opp_sel: bitfield value
* @DESCRIPTION convert bitfield value from register into string
*//*------------------------------------------------------------------------ */
int abb_opp_sel2string(char s[8], unsigned int opp_sel)
{
if (s == NULL)
return OMAPCONF_ERR_ARG;
switch (opp_sel) {
case 0:
case 2:
strcpy(s, "Nominal");
break;
case 1:
strcpy(s, "Fast");
break;
case 3:
strcpy(s, "Slow");
break;
default:
return OMAPCONF_ERR_ARG;
}
return 0;
}
/* ------------------------------------------------------------------------*//**
* @FUNCTION abb_config_show
* @BRIEF analyze power configuration
* @RETURNS 0 in case of success
* OMAPCONF_ERR_ARG
* @param[in,out] stream: output file
* @param[in] sysclk_rate: system_clock rate (MHz)
* @param[in] abb_mpu_setup: PRM_LDO_ABB_MPU_SETUP register content
* @param[in] abb_mpu_ctrl: PRM_LDO_ABB_MPU_CTRL register content
* @param[in] abb_iva_setup: PRM_LDO_ABB_IVA_SETUP register content
* @param[in] abb_iva_ctrl: PRM_LDO_ABB_IVA_CTRL register content
* @DESCRIPTION analyze power configuration
*//*------------------------------------------------------------------------ */
int abb_config_show(FILE *stream, double sysclk_rate,
unsigned int abb_mpu_setup, unsigned int abb_mpu_ctrl,
unsigned int abb_iva_setup, unsigned int abb_iva_ctrl)
{
unsigned short int abb_mpu_en, abb_iva_en;
char table[TABLE_MAX_ROW][TABLE_MAX_COL][TABLE_MAX_ELT_LEN];
unsigned int row = 0;
char s[9];
CHECK_NULL_ARG(stream, OMAPCONF_ERR_ARG);
if (sysclk_rate <= 0.0) {
fprintf(stderr, "%s(): sysclk_rate (%lf) <= 0!!!\n", __func__,
sysclk_rate);
return OMAPCONF_ERR_ARG;
}
dprintf("%s(): sysclk_rate=%lfMHz abb_mpu_setup=0x%08X, "
"abb_mpu_ctrl=0x%08X, abb_iva_setup=0x%08X, "
"abb_iva_ctrl=0x%08X\n", sysclk_rate,
abb_mpu_setup, abb_mpu_ctrl, abb_iva_setup, abb_iva_ctrl);
abb_mpu_en = extract_bit(abb_mpu_setup, 0);
abb_iva_en = extract_bit(abb_iva_setup, 0);
autoadjust_table_init(table);
row = 0;
strncpy(table[row][0], "ABB Configuration", TABLE_MAX_ELT_LEN);
strncpy(table[row][1], "MPU Voltage Domain", TABLE_MAX_ELT_LEN);
if (cpu_is_omap44xx())
strncpy(table[row][2], "IVAHD Voltage Domain",
TABLE_MAX_ELT_LEN);
else
strncpy(table[row][2], "MM Voltage Domain",
TABLE_MAX_ELT_LEN);
row++;
strncpy(table[row][0], "Mode", TABLE_MAX_ELT_LEN);
strncpy(table[row][1],
((abb_mpu_en == 1) ? "Enabled" : "Disabled"),
TABLE_MAX_ELT_LEN);
strncpy(table[row][2],
((abb_iva_en == 1) ? "Enabled" : "Disabled"),
TABLE_MAX_ELT_LEN);
row++;
strncpy(table[row][0], "Status", TABLE_MAX_ELT_LEN);
if (abb_mpu_en == 1) {
abb_status2string(s,
extract_bitfield(abb_mpu_ctrl, 3, 2));
strncpy(table[row][1],
s,
TABLE_MAX_ELT_LEN);
}
if (abb_iva_en == 1) {
abb_status2string(s,
extract_bitfield(abb_iva_ctrl, 3, 2));
strncpy(table[row][2],
s,
TABLE_MAX_ELT_LEN);
}
row++;
strncpy(table[row][0], "In Transition?", TABLE_MAX_ELT_LEN);
if (abb_mpu_en == 1)
strncpy(table[row][1],
((extract_bit(abb_mpu_ctrl, 6) == 1) ? "YES" : "No"),
TABLE_MAX_ELT_LEN);
if (abb_iva_en == 1)
strncpy(table[row][2],
((extract_bit(abb_iva_ctrl, 6) == 1) ? "YES" : "No"),
TABLE_MAX_ELT_LEN);
row++;
strncpy(table[row][0], "Selected OPP", TABLE_MAX_ELT_LEN);
if (abb_mpu_en == 1) {
abb_opp_sel2string(s,
extract_bitfield(abb_mpu_ctrl, 0, 2));
strncpy(table[row][1],
s,
TABLE_MAX_ELT_LEN);
}
if (abb_iva_en == 1) {
abb_opp_sel2string(s,
extract_bitfield(abb_iva_ctrl, 0, 2));
strncpy(table[row][2],
s,
TABLE_MAX_ELT_LEN);
}
row++;
strncpy(table[row][0], "LDO ABB Mode When Voltage is:",
TABLE_MAX_ELT_LEN);
row++;
strncpy(table[row][0], " Slow OPP (ACTIVE_RBB_SEL)",
TABLE_MAX_ELT_LEN);
if (abb_mpu_en == 1)
strncpy(table[row][1],
((extract_bit(abb_mpu_setup,
1) == 1) ? "RBB" : "Bypass"),
TABLE_MAX_ELT_LEN);
if (abb_iva_en == 1)
strncpy(table[row][2],
((extract_bit(abb_iva_setup,
1) == 1) ? "RBB" : "Bypass"),
TABLE_MAX_ELT_LEN);
row++;
strncpy(table[row][0], " Fast OPP (ACTIVE_FBB_SEL)",
TABLE_MAX_ELT_LEN);
if (abb_mpu_en == 1)
strncpy(table[row][1],
((extract_bit(abb_mpu_setup,
2) == 1) ? "FBB" : "Bypass"),
TABLE_MAX_ELT_LEN);
if (abb_iva_en == 1)
strncpy(table[row][2],
((extract_bit(abb_iva_setup,
2) == 1) ? "FBB" : "Bypass"),
TABLE_MAX_ELT_LEN);
row++;
strncpy(table[row][0], " Sleep Volt. (SLEEP_RBB_SEL)",
TABLE_MAX_ELT_LEN);
if (abb_mpu_en == 1)
strncpy(table[row][1],
((extract_bit(abb_mpu_setup,
3) == 1) ? "RBB" : "Bypass"),
TABLE_MAX_ELT_LEN);
if (abb_iva_en == 1)
strncpy(table[row][2],
((extract_bit(abb_iva_setup,
3) == 1) ? "RBB" : "Bypass"),
TABLE_MAX_ELT_LEN);
row++;
strncpy(table[row][0], "LDO Settling Time", TABLE_MAX_ELT_LEN);
if (abb_mpu_en == 1)
snprintf(table[row][1], TABLE_MAX_ELT_LEN, "%d (%fus)",
extract_bitfield(abb_mpu_setup, 8, 8),
extract_bitfield(abb_mpu_setup, 8, 8) *
(16.0 / sysclk_rate));
if (abb_iva_en == 1)
snprintf(table[row][2], TABLE_MAX_ELT_LEN, "%d (%fus)",
extract_bitfield(abb_iva_setup, 8, 8),
extract_bitfield(abb_iva_setup, 8, 8) *
(16.0 / sysclk_rate));
row++;
strncpy(table[row][0], " (Target is 50us)", TABLE_MAX_ELT_LEN);
row++;
strncpy(table[row][0], "Stat", TABLE_MAX_ELT_LEN);
if (abb_mpu_en == 1)
snprintf(table[row][1], TABLE_MAX_ELT_LEN, "%d (%.3fus)",
extract_bitfield(abb_mpu_setup, 8, 8),
extract_bitfield(abb_mpu_setup, 8, 8) *
(16.0 / sysclk_rate));
if (abb_iva_en == 1)
snprintf(table[row][2], TABLE_MAX_ELT_LEN, "%d (%.3fus)",
extract_bitfield(abb_iva_setup, 8, 8),
extract_bitfield(abb_iva_setup, 8, 8) *
(16.0 / sysclk_rate));
autoadjust_table_print(table, row, 3);
return 0;
}