kernel_samsung_a34x-permissive/drivers/misc/mediatek/dvfsrc/dvfsrc-debug-v79.c

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// SPDX-License-Identifier: GPL-2.0
/*
* Copyright (c) 2019 MediaTek Inc.
*/
#include <linux/arm-smccc.h>
#include <linux/clk.h>
#include <linux/io.h>
#include <linux/module.h>
#include <linux/of_device.h>
#include <linux/platform_device.h>
#include <linux/regulator/consumer.h>
#include <linux/soc/mediatek/mtk_dvfsrc.h>
#include "dvfsrc-debug.h"
#include "dvfsrc-common.h"
#if IS_ENABLED(CONFIG_MTK_DRAMC_LEGACY)
#include <mtk_dramc.h>
#endif
enum dvfsrc_regs {
DVFSRC_BASIC_CONTROL,
DVFSRC_SW_REQ1,
DVFSRC_INT,
DVFSRC_INT_EN,
DVFSRC_SW_BW_0,
DVFSRC_ISP_HRT,
DVFSRC_DEBUG_STA_0,
DVFSRC_VCORE_REQUEST,
DVFSRC_CURRENT_LEVEL,
DVFSRC_TARGET_LEVEL,
DVFSRC_LAST,
DVFSRC_RECORD_0,
DVFSRC_DDR_REQUEST,
DVSFRC_HRT_REQ_MD_URG,
DVFSRC_HRT_REQ_MD_BW_0,
DVFSRC_HRT_REQ_MD_BW_8,
};
static const int mt6779_regs[] = {
[DVFSRC_BASIC_CONTROL] = 0x0,
[DVFSRC_SW_REQ1] = 0x4,
[DVFSRC_INT] = 0xC4,
[DVFSRC_INT_EN] = 0xC8,
[DVFSRC_SW_BW_0] = 0x260,
[DVFSRC_ISP_HRT] = 0x290,
[DVFSRC_DEBUG_STA_0] = 0x700,
[DVFSRC_VCORE_REQUEST] = 0x6C,
[DVFSRC_CURRENT_LEVEL] = 0xD44,
[DVFSRC_TARGET_LEVEL] = 0xD48,
[DVFSRC_LAST] = 0xB08,
[DVFSRC_RECORD_0] = 0xB14,
[DVFSRC_DDR_REQUEST] = 0xA00,
[DVSFRC_HRT_REQ_MD_URG] = 0xA88,
[DVFSRC_HRT_REQ_MD_BW_0] = 0xA8C,
[DVFSRC_HRT_REQ_MD_BW_8] = 0xACC,
};
enum dvfsrc_spm_regs {
POWERON_CONFIG_EN,
SPM_PC_STA,
SPM_SW_FLAG,
SPM_DVFS_LEVEL,
SPM_DVFS_STA,
SPM_DVS_DFS_LEVEL,
SPM_DVFS_HISTORY_STA0,
SPM_DVFS_HISTORY_STA1,
SPM_DVFS_CMD0,
SPM_DVFS_CMD1,
SPM_DVFS_CMD2,
SPM_DVFS_CMD3,
};
static const int mt6779_spm_regs[] = {
[POWERON_CONFIG_EN] = 0x0,
[SPM_PC_STA] = 0x1A4,
[SPM_SW_FLAG] = 0x600,
[SPM_DVFS_LEVEL] = 0x0708,
[SPM_DVFS_STA] = 0x070C,
[SPM_DVS_DFS_LEVEL] = 0x07BC,
[SPM_DVFS_HISTORY_STA0] = 0x01C0,
[SPM_DVFS_HISTORY_STA1] = 0x01C4,
[SPM_DVFS_CMD0] = 0x710,
[SPM_DVFS_CMD1] = 0x714,
[SPM_DVFS_CMD2] = 0x718,
[SPM_DVFS_CMD3] = 0x71C,
};
static u32 dvfsrc_read(struct mtk_dvfsrc *dvfs, u32 reg, u32 offset)
{
return readl(dvfs->regs + dvfs->dvd->config->regs[reg] + offset);
}
static u32 spm_read(struct mtk_dvfsrc *dvfs, u32 reg)
{
return readl(dvfs->spm_regs + dvfs->dvd->config->spm_regs[reg]);
}
static u32 dvfsrc_get_total_emi_req(struct mtk_dvfsrc *dvfsrc)
{
/* DVFSRC_DEBUG_STA_2 */
return dvfsrc_read(dvfsrc, DVFSRC_DEBUG_STA_0, 0x8) & 0xFFF;
}
static u32 dvfsrc_get_scp_req(struct mtk_dvfsrc *dvfsrc)
{
/* DVFSRC_DEBUG_STA_2 */
return (dvfsrc_read(dvfsrc, DVFSRC_DEBUG_STA_0, 0x8) >> 14) & 0x1;
}
static u32 dvfsrc_get_hifi_scenario(struct mtk_dvfsrc *dvfsrc)
{
/* DVFSRC_DEBUG_STA_2 */
return (dvfsrc_read(dvfsrc, DVFSRC_DEBUG_STA_0, 0x8) >> 16) & 0xFF;
}
static u32 dvfsrc_get_hifi_vcore_gear(struct mtk_dvfsrc *dvfsrc)
{
u32 hifi_scen;
hifi_scen = __builtin_ffs(dvfsrc_get_hifi_scenario(dvfsrc));
if (hifi_scen)
return (dvfsrc_read(dvfsrc, DVFSRC_VCORE_REQUEST, 0xC) >>
((hifi_scen - 1) * 4)) & 0xF;
else
return 0;
}
static u32 dvfsrc_get_hifi_ddr_gear(struct mtk_dvfsrc *dvfsrc)
{
u32 hifi_scen;
hifi_scen = __builtin_ffs(dvfsrc_get_hifi_scenario(dvfsrc));
if (hifi_scen)
return (dvfsrc_read(dvfsrc, DVFSRC_DDR_REQUEST, 0x14) >>
((hifi_scen - 1) * 4)) & 0xF;
else
return 0;
}
static u32 dvfsrc_get_hifi_rising_ddr_gear(struct mtk_dvfsrc *dvfsrc)
{
u32 offset;
offset = 0x18 + 0x1C * dvfsrc_read(dvfsrc, DVFSRC_LAST, 0);
/* DVFSRC_RECORD_0_6 */
return (dvfsrc_read(dvfsrc, DVFSRC_RECORD_0, offset) >> 15) & 0x7;
}
static u32 dvfsrc_get_md_bw(struct mtk_dvfsrc *dvfsrc)
{
u32 is_urgent, md_scen;
u32 val;
u32 index, shift;
val = dvfsrc_read(dvfsrc, DVFSRC_DEBUG_STA_0, 0);
is_urgent = (val >> 16) & 0x1;
md_scen = val & 0xFFFF;
if (is_urgent) {
val = dvfsrc_read(dvfsrc, DVSFRC_HRT_REQ_MD_URG, 0) & 0x1F;
} else {
index = md_scen / 3;
shift = (md_scen % 3) * 10;
if (index > 10)
return 0;
if (index < 8) {
val = dvfsrc_read(dvfsrc, DVFSRC_HRT_REQ_MD_BW_0,
index * 4);
} else {
val = dvfsrc_read(dvfsrc, DVFSRC_HRT_REQ_MD_BW_8,
(index - 8) * 4);
}
val = (val >> shift) & 0x3FF;
}
return val;
}
static u32 dvfsrc_get_md_rising_ddr_gear(struct mtk_dvfsrc *dvfsrc)
{
u32 val;
u32 last = dvfsrc_read(dvfsrc, DVFSRC_LAST, 0);
/* DVFSRC_RECORD_0_6 */
val = dvfsrc_read(dvfsrc, DVFSRC_RECORD_0, 0x18 + 0x1C * last);
return (val >> 9) & 0x7;
}
static u32 dvfsrc_get_hrt_bw_ddr_gear(struct mtk_dvfsrc *dvfsrc)
{
u32 val;
u32 last = dvfsrc_read(dvfsrc, DVFSRC_LAST, 0);
/* DVFSRC_RECORD_0_6 */
val = dvfsrc_read(dvfsrc, DVFSRC_RECORD_0, 0x18 + 0x1C * last);
return (val >> 2) & 0x7;
}
static char *dvfsrc_dump_info(struct mtk_dvfsrc *dvfsrc,
char *p, u32 size)
{
int vcore_uv = 0;
char *buff_end = p + size;
if (dvfsrc->vcore_power)
vcore_uv = regulator_get_voltage(dvfsrc->vcore_power);
p += snprintf(p, buff_end - p, "%-10s: %-8u uv\n",
"Vcore", vcore_uv);
#if IS_ENABLED(CONFIG_MTK_DRAMC_LEGACY)
p += snprintf(p, buff_end - p, "%-10s: %-8u khz\n",
"DDR", get_dram_data_rate() * 1000);
#endif
p += snprintf(p, buff_end - p, "\n");
return p;
}
static char *dvfsrc_dump_record(struct mtk_dvfsrc *dvfsrc,
char *p, u32 size)
{
int i, rec_offset, offset;
char *buff_end = p + size;
p += sprintf(p, "%-17s: 0x%08x\n",
"DVFSRC_LAST",
dvfsrc_read(dvfsrc, DVFSRC_LAST, 0));
if (dvfsrc->dvd->config->ip_verion > 0)
rec_offset = 0x20;
else
rec_offset = 0x1C;
for (i = 0; i < 8; i++) {
offset = i * rec_offset;
p += snprintf(p, buff_end - p,
"[%d]%-14s: %08x,%08x,%08x,%08x\n",
i,
"DVFSRC_REC 0~3",
dvfsrc_read(dvfsrc, DVFSRC_RECORD_0, offset + 0x0),
dvfsrc_read(dvfsrc, DVFSRC_RECORD_0, offset + 0x4),
dvfsrc_read(dvfsrc, DVFSRC_RECORD_0, offset + 0x8),
dvfsrc_read(dvfsrc, DVFSRC_RECORD_0, offset + 0xC));
if (dvfsrc->dvd->config->ip_verion > 0) {
p += snprintf(p, buff_end - p,
"[%d]%-14s: %08x,%08x,%08x,%08x\n",
i,
"DVFSRC_REC 4~7",
dvfsrc_read(dvfsrc, DVFSRC_RECORD_0, offset + 0x10),
dvfsrc_read(dvfsrc, DVFSRC_RECORD_0, offset + 0x14),
dvfsrc_read(dvfsrc, DVFSRC_RECORD_0, offset + 0x18),
dvfsrc_read(dvfsrc, DVFSRC_RECORD_0, offset + 0x1C));
} else {
p += snprintf(p, buff_end - p,
"[%d]%-14s: %08x,%08x,%08x\n",
i,
"DVFSRC_REC 4~6",
dvfsrc_read(dvfsrc, DVFSRC_RECORD_0, offset + 0x10),
dvfsrc_read(dvfsrc, DVFSRC_RECORD_0, offset + 0x14),
dvfsrc_read(dvfsrc, DVFSRC_RECORD_0, offset + 0x18));
}
}
p += snprintf(p, buff_end - p, "\n");
return p;
}
static char *dvfsrc_dump_reg(struct mtk_dvfsrc *dvfsrc, char *p, u32 size)
{
char *buff_end = p + size;
p += snprintf(p, buff_end - p, "%-16s: 0x%08x\n",
"BASIC_CONTROL",
dvfsrc_read(dvfsrc, DVFSRC_BASIC_CONTROL, 0x0));
p += snprintf(p, buff_end - p,
"%-16s: %08x, %08x, %08x, %08x\n",
"SW_REQ 1~4",
dvfsrc_read(dvfsrc, DVFSRC_SW_REQ1, 0x0),
dvfsrc_read(dvfsrc, DVFSRC_SW_REQ1, 0x4),
dvfsrc_read(dvfsrc, DVFSRC_SW_REQ1, 0x8),
dvfsrc_read(dvfsrc, DVFSRC_SW_REQ1, 0xC));
p += snprintf(p, buff_end - p,
"%-16s: %08x, %08x, %08x, %08x\n",
"SW_REQ 5~8",
dvfsrc_read(dvfsrc, DVFSRC_SW_REQ1, 0x10),
dvfsrc_read(dvfsrc, DVFSRC_SW_REQ1, 0x14),
dvfsrc_read(dvfsrc, DVFSRC_SW_REQ1, 0x18),
dvfsrc_read(dvfsrc, DVFSRC_SW_REQ1, 0x1C));
p += snprintf(p, buff_end - p, "%-16s: %d, %d, %d, %d, %d\n",
"SW_BW_0~4",
dvfsrc_read(dvfsrc, DVFSRC_SW_BW_0, 0x0),
dvfsrc_read(dvfsrc, DVFSRC_SW_BW_0, 0x4),
dvfsrc_read(dvfsrc, DVFSRC_SW_BW_0, 0x8),
dvfsrc_read(dvfsrc, DVFSRC_SW_BW_0, 0xC),
dvfsrc_read(dvfsrc, DVFSRC_SW_BW_0, 0x10));
if (dvfsrc->dvd->config->ip_verion > 1)
p += snprintf(p, buff_end - p, "%-16s: %d, %d\n",
"SW_BW_5~6",
dvfsrc_read(dvfsrc, DVFSRC_SW_BW_0, 0x14),
dvfsrc_read(dvfsrc, DVFSRC_SW_BW_0, 0x18));
p += snprintf(p, buff_end - p, "%-16s: 0x%08x\n",
"ISP_HRT",
dvfsrc_read(dvfsrc, DVFSRC_ISP_HRT, 0x0));
p += snprintf(p, buff_end - p, "%-16s: 0x%08x, 0x%08x, 0x%08x\n",
"DEBUG_STA",
dvfsrc_read(dvfsrc, DVFSRC_DEBUG_STA_0, 0x0),
dvfsrc_read(dvfsrc, DVFSRC_DEBUG_STA_0, 0x4),
dvfsrc_read(dvfsrc, DVFSRC_DEBUG_STA_0, 0x8));
p += snprintf(p, buff_end - p, "%-16s: 0x%08x\n",
"DVFSRC_INT",
dvfsrc_read(dvfsrc, DVFSRC_INT, 0x0));
p += snprintf(p, buff_end - p, "%-16s: 0x%08x\n",
"DVFSRC_INT_EN",
dvfsrc_read(dvfsrc, DVFSRC_INT_EN, 0x0));
p += snprintf(p, buff_end - p, "%-16s: 0x%02x\n",
"TOTAL_EMI_REQ",
dvfsrc_get_total_emi_req(dvfsrc));
p += snprintf(p, buff_end - p, "%-16s: %d\n",
"MD_RISING_REQ",
dvfsrc_get_md_rising_ddr_gear(dvfsrc));
p += snprintf(p, buff_end - p, "%-16s: 0x%08x\n",
"MD_HRT_BW",
dvfsrc_get_md_bw(dvfsrc));
p += sprintf(p, "%-16s: %d\n",
"HRT_BW_REQ",
dvfsrc_get_hrt_bw_ddr_gear(dvfsrc));
p += snprintf(p, buff_end - p, "%-16s: %d\n",
"HIFI_VCORE_REQ",
dvfsrc_get_hifi_vcore_gear(dvfsrc));
p += snprintf(p, buff_end - p, "%-16s: %d\n",
"HIFI_DDR_REQ",
dvfsrc_get_hifi_ddr_gear(dvfsrc));
p += snprintf(p, buff_end - p, "%-16s: %d\n",
"HIFI_RISINGREQ",
dvfsrc_get_hifi_rising_ddr_gear(dvfsrc));
p += snprintf(p, buff_end - p, "%-16s: %d , 0x%08x\n",
"SCP_VCORE_REQ",
dvfsrc_get_scp_req(dvfsrc),
dvfsrc_read(dvfsrc, DVFSRC_VCORE_REQUEST, 0x0));
p += snprintf(p, buff_end - p, "%-16s: 0x%08x\n",
"CURRENT_LEVEL",
dvfsrc_read(dvfsrc, DVFSRC_CURRENT_LEVEL, 0x0));
p += snprintf(p, buff_end - p, "%-16s: 0x%08x\n",
"TARGET_LEVEL",
dvfsrc_read(dvfsrc, DVFSRC_TARGET_LEVEL, 0x0));
p += snprintf(p, buff_end - p, "%-16s: %d\n",
"FORCE_OPP_IDX",
dvfsrc->force_opp_idx);
p += snprintf(p, buff_end - p, "%-16s: %d\n",
"CURR_DVFS_OPP",
mtk_dvfsrc_query_opp_info(MTK_DVFSRC_CURR_DVFS_OPP));
p += snprintf(p, buff_end - p, "%-16s: %d\n",
"CURR_VCORE_OPP",
mtk_dvfsrc_query_opp_info(MTK_DVFSRC_CURR_VCORE_OPP));
p += snprintf(p, buff_end - p, "%-16s: %d\n",
"CURR_DRAM_OPP",
mtk_dvfsrc_query_opp_info(MTK_DVFSRC_CURR_DRAM_OPP));
p += snprintf(p, buff_end - p, "\n");
return p;
}
static char *dvfsrc_dump_spm_info(struct mtk_dvfsrc *dvfsrc,
char *p, u32 size)
{
char *buff_end = p + size;
if (!dvfsrc->spm_regs)
return p;
p += snprintf(p, buff_end - p, "%-24s: 0x%08x\n",
"POWERON_CONFIG_EN",
spm_read(dvfsrc, POWERON_CONFIG_EN));
p += snprintf(p, buff_end - p, "%-24s: 0x%08x\n",
"SPM_SW_FLAG_0",
spm_read(dvfsrc, SPM_SW_FLAG));
p += snprintf(p, buff_end - p, "%-24s: 0x%08x\n",
"SPM_PC_STA",
spm_read(dvfsrc, SPM_PC_STA));
p += snprintf(p, buff_end - p, "%-24s: 0x%08x\n",
"SPM_DVFS_LEVEL",
spm_read(dvfsrc, SPM_DVFS_LEVEL));
p += snprintf(p, buff_end - p, "%-24s: 0x%08x\n",
"SPM_DVS_DFS_LEVEL",
spm_read(dvfsrc, SPM_DVS_DFS_LEVEL));
p += snprintf(p, buff_end - p, "%-24s: 0x%08x\n",
"SPM_DVFS_STA",
spm_read(dvfsrc, SPM_DVFS_STA));
p += snprintf(p, buff_end - p, "%-24s: 0x%08x, 0x%08x\n",
"SPM_DVFS_HISTORY_STAx",
spm_read(dvfsrc, SPM_DVFS_HISTORY_STA0),
spm_read(dvfsrc, SPM_DVFS_HISTORY_STA1));
p += snprintf(p, buff_end - p,
"%-24s: 0x%08x, 0x%08x, 0x%08x, 0x%08x\n",
"SPM_DVFS_CMD0~3",
spm_read(dvfsrc, SPM_DVFS_CMD0),
spm_read(dvfsrc, SPM_DVFS_CMD1),
spm_read(dvfsrc, SPM_DVFS_CMD2),
spm_read(dvfsrc, SPM_DVFS_CMD3));
return p;
}
static void dvfsrc_force_opp(struct mtk_dvfsrc *dvfsrc, u32 opp)
{
dvfsrc->force_opp_idx = opp;
mtk_dvfsrc_send_request(dvfsrc->dev->parent,
MTK_DVFSRC_CMD_FORCE_OPP_REQUEST,
opp);
}
static int dvfsrc_query_request_status(struct mtk_dvfsrc *dvfsrc, u32 id)
{
int ret = 0;
switch (id) {
case DVFSRC_MD_RISING_DDR_REQ:
ret = dvfsrc_get_md_rising_ddr_gear(dvfsrc);
break;
case DVFSRC_MD_HRT_BW:
ret = dvfsrc_get_md_bw(dvfsrc);
break;
case DVFSRC_HIFI_VCORE_REQ:
ret = dvfsrc_get_hifi_vcore_gear(dvfsrc);
break;
case DVFSRC_HIFI_DDR_REQ:
ret = dvfsrc_get_hifi_ddr_gear(dvfsrc);
break;
case DVFSRC_HIFI_RISING_DDR_REQ:
ret = dvfsrc_get_hifi_rising_ddr_gear(dvfsrc);
break;
case DVFSRC_HRT_BW_DDR_REQ:
ret = dvfsrc_get_hrt_bw_ddr_gear(dvfsrc);
break;
case DVFSRC_MD_SCENARIO_REQ:
ret = dvfsrc_read(dvfsrc, DVFSRC_DEBUG_STA_0, 0);
break;
}
return ret;
}
const struct dvfsrc_config mt6779_dvfsrc_config = {
.ip_verion = 0,
.regs = mt6779_regs,
.spm_regs = mt6779_spm_regs,
.dump_info = dvfsrc_dump_info,
.dump_record = dvfsrc_dump_record,
.dump_reg = dvfsrc_dump_reg,
.dump_spm_info = dvfsrc_dump_spm_info,
.force_opp = dvfsrc_force_opp,
.query_request = dvfsrc_query_request_status,
};