c05564c4d8
Android 13
324 lines
8.5 KiB
C
Executable file
324 lines
8.5 KiB
C
Executable file
/* SPDX-License-Identifier: GPL-2.0 */
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/*
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* Copyright (c) 2019 MediaTek Inc.
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*/
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#include <linux/kernel.h>
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#include <mt-plat/mtk_devinfo.h>
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#include <linux/of.h>
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#include <linux/of_address.h>
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#include <helio-dvfsrc-opp.h>
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#include <helio-dvfsrc-qos.h>
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#ifdef CONFIG_MEDIATEK_DRAMC
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#include <dramc.h>
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#endif
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#ifdef CONFIG_MTK_DRAMC
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#include <mtk_dramc.h>
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#endif
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#define V_VMODE_SHIFT 0
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#define V_CT_SHIFT 5
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#define V_CT_TEST_SHIFT 6
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#define V_CT_OPP2_SHIFT 7
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static int opp_min_bin_opp0;
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static int opp_min_bin_opp2;
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static int dvfsrc_rsrv;
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#ifndef CONFIG_MTK_DRAMC
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static int dram_steps_freq(unsigned int step)
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{
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pr_info("get dram steps_freq fail\n");
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return 4266;
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}
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#endif
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int ddr_level_to_step(int opp)
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{
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unsigned int step[] = {0, 1, 3, 5, 7, 9};
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return step[opp];
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}
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void dvfsrc_opp_level_mapping(void)
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{
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set_vcore_opp(VCORE_DVFS_OPP_0, VCORE_OPP_0);
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set_vcore_opp(VCORE_DVFS_OPP_1, VCORE_OPP_0);
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set_vcore_opp(VCORE_DVFS_OPP_2, VCORE_OPP_0);
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set_vcore_opp(VCORE_DVFS_OPP_3, VCORE_OPP_0);
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set_vcore_opp(VCORE_DVFS_OPP_4, VCORE_OPP_0);
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set_vcore_opp(VCORE_DVFS_OPP_5, VCORE_OPP_1);
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set_vcore_opp(VCORE_DVFS_OPP_6, VCORE_OPP_1);
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set_vcore_opp(VCORE_DVFS_OPP_7, VCORE_OPP_1);
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set_vcore_opp(VCORE_DVFS_OPP_8, VCORE_OPP_1);
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set_vcore_opp(VCORE_DVFS_OPP_9, VCORE_OPP_2);
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set_vcore_opp(VCORE_DVFS_OPP_10, VCORE_OPP_2);
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set_vcore_opp(VCORE_DVFS_OPP_11, VCORE_OPP_2);
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set_vcore_opp(VCORE_DVFS_OPP_12, VCORE_OPP_2);
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set_ddr_opp(VCORE_DVFS_OPP_0, DDR_OPP_0);
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set_ddr_opp(VCORE_DVFS_OPP_1, DDR_OPP_1);
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set_ddr_opp(VCORE_DVFS_OPP_2, DDR_OPP_2);
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set_ddr_opp(VCORE_DVFS_OPP_3, DDR_OPP_3);
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set_ddr_opp(VCORE_DVFS_OPP_4, DDR_OPP_4);
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set_ddr_opp(VCORE_DVFS_OPP_5, DDR_OPP_1);
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set_ddr_opp(VCORE_DVFS_OPP_6, DDR_OPP_2);
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set_ddr_opp(VCORE_DVFS_OPP_7, DDR_OPP_3);
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set_ddr_opp(VCORE_DVFS_OPP_8, DDR_OPP_4);
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set_ddr_opp(VCORE_DVFS_OPP_9, DDR_OPP_2);
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set_ddr_opp(VCORE_DVFS_OPP_10, DDR_OPP_3);
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set_ddr_opp(VCORE_DVFS_OPP_11, DDR_OPP_4);
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set_ddr_opp(VCORE_DVFS_OPP_12, DDR_OPP_5);
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}
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void dvfsrc_opp_table_init(void)
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{
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int i;
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int vcore_opp, ddr_opp;
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for (i = 0; i < VCORE_DVFS_OPP_NUM; i++) {
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vcore_opp = get_vcore_opp(i);
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ddr_opp = get_ddr_opp(i);
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if (vcore_opp == VCORE_OPP_UNREQ || ddr_opp == DDR_OPP_UNREQ) {
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set_opp_table(i, 0, 0);
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continue;
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}
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set_opp_table(i, get_vcore_uv_table(vcore_opp),
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dram_steps_freq(ddr_level_to_step(ddr_opp)) * 1000);
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}
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}
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static int get_vb_volt(int vcore_opp)
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{
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int idx;
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int ret = 0;
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int ptpod = get_devinfo_with_index(69);
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pr_info("%s: PTPOD: 0x%x\n", __func__, ptpod);
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switch (vcore_opp) {
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case VCORE_OPP_0:
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idx = (ptpod >> 4) & 0xF;
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if (idx >= opp_min_bin_opp0)
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ret = 1;
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break;
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case VCORE_OPP_2:
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idx = ptpod & 0xF;
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if (idx >= opp_min_bin_opp2 && idx < 10)
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ret = 1;
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break;
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default:
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break;
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}
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return ret * 25000;
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}
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#define DEF_CPUL_LEAKAGE 100
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#define DEVINFO_IDX_L 136 /* 07B8 */
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#define DEVINFO_OFF_L 8
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#define V_OF_FUSE_CPU 950
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#define V_RISING_700000 1
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#define V_RISING_675000 2
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static int devinfo_table[] = {
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3539, 492, 1038, 106, 231, 17, 46, 2179,
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4, 481, 1014, 103, 225, 17, 45, 2129,
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3, 516, 1087, 111, 242, 19, 49, 2282,
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4, 504, 1063, 108, 236, 18, 47, 2230,
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4, 448, 946, 96, 210, 15, 41, 1986,
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2, 438, 924, 93, 205, 14, 40, 1941,
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2, 470, 991, 101, 220, 16, 43, 2080,
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3, 459, 968, 98, 215, 16, 42, 2033,
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3, 594, 1250, 129, 279, 23, 57, 2621,
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6, 580, 1221, 126, 273, 22, 56, 2561,
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6, 622, 1309, 136, 293, 24, 60, 2745,
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7, 608, 1279, 132, 286, 23, 59, 2683,
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6, 541, 1139, 117, 254, 20, 51, 2390,
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5, 528, 1113, 114, 248, 19, 50, 2335,
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4, 566, 1193, 123, 266, 21, 54, 2503,
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5, 553, 1166, 120, 260, 21, 53, 2446,
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5, 338, 715, 70, 157, 9, 29, 1505,
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3153, 330, 699, 69, 153, 9, 28, 1470,
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3081, 354, 750, 74, 165, 10, 31, 1576,
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3302, 346, 732, 72, 161, 10, 30, 1540,
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3227, 307, 652, 63, 142, 8, 26, 1371,
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2875, 300, 637, 62, 139, 7, 25, 1340,
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2809, 322, 683, 67, 149, 8, 27, 1436,
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3011, 315, 667, 65, 146, 8, 26, 1404,
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2942, 408, 862, 86, 191, 13, 37, 1811,
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1, 398, 842, 84, 186, 12, 36, 1769,
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1, 428, 903, 91, 200, 14, 39, 1896,
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2, 418, 882, 89, 195, 13, 38, 1853,
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2, 371, 785, 78, 173, 11, 33, 1651,
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3458, 363, 767, 76, 169, 10, 32, 1613,
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3379, 389, 823, 82, 182, 12, 35, 1729,
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1, 380, 804, 80, 177, 11, 34, 1689,
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};
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static int check_power_leakage(void)
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{
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int devinfo;
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unsigned int temp_lkg;
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devinfo = (int)get_devinfo_with_index(DEVINFO_IDX_L);
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temp_lkg = (devinfo >> DEVINFO_OFF_L) & 0xff;
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if (temp_lkg != 0)
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temp_lkg = (int)devinfo_table[temp_lkg];
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pr_info("cpu efuse leakage : 0x%x\n", temp_lkg);
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if (temp_lkg > 0 && temp_lkg <= 40)
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return 1;
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return 0;
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}
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static int is_rising_need(void)
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{
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int idx;
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int ptpod = get_devinfo_with_index(69);
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int leakage = check_power_leakage();
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pr_info("%s: PTPOD: 0x%x\n", __func__, ptpod);
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if (leakage) {
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idx = ptpod & 0xF;
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if (idx == 1)
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return V_RISING_700000;
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else if (idx > 1 && idx < 10)
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return V_RISING_675000;
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}
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return 0;
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}
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static int __init dvfsrc_opp_init(void)
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{
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struct device_node *dvfsrc_node = NULL;
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int vcore_opp_0_uv, vcore_opp_1_uv, vcore_opp_2_uv;
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int is_vcore_ct = 0;
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int dvfs_v_mode = 0;
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int ct_test = 0;
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int ct_opp2_en = 0;
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void __iomem *dvfsrc_base;
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#if defined(CONFIG_MTK_DVFSRC_MT6781_PRETEST)
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set_pwrap_cmd(VCORE_OPP_0, 3);
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set_pwrap_cmd(VCORE_OPP_1, 1);
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set_pwrap_cmd(VCORE_OPP_2, 0);
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vcore_opp_0_uv = 825000;
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vcore_opp_1_uv = 725000;
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vcore_opp_2_uv = 650000;
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/* meta vcore opp */
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spm_dvfs_pwrap_cmd(2,
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vcore_uv_to_pmic((vcore_opp_0_uv + vcore_opp_1_uv) >> 1));
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#else
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set_pwrap_cmd(VCORE_OPP_0, 0);
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set_pwrap_cmd(VCORE_OPP_1, 2);
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set_pwrap_cmd(VCORE_OPP_2, 3);
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vcore_opp_0_uv = 800000;
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vcore_opp_1_uv = 700000;
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vcore_opp_2_uv = 650000;
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#endif
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dvfsrc_node =
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of_find_compatible_node(NULL, NULL, "mediatek,dvfsrc");
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/* For Doe */
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if (dvfsrc_node) {
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dvfsrc_base = of_iomap(dvfsrc_node, 0);
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if (dvfsrc_base) {
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dvfsrc_rsrv = readl(dvfsrc_base + 0x610);
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iounmap(dvfsrc_base);
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}
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pr_info("%s: vcore_arg = %08x\n", __func__, dvfsrc_rsrv);
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dvfs_v_mode = (dvfsrc_rsrv >> V_VMODE_SHIFT) & 0x3;
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is_vcore_ct = (dvfsrc_rsrv >> V_CT_SHIFT) & 0x1;
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ct_test = (dvfsrc_rsrv >> V_CT_TEST_SHIFT) & 0x1;
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ct_opp2_en = (dvfsrc_rsrv >> V_CT_OPP2_SHIFT) & 0x1;
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}
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if (is_vcore_ct) {
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if (ct_test) {
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opp_min_bin_opp0 = 2;
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opp_min_bin_opp2 = 4;
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} else {
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opp_min_bin_opp0 = 3;
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opp_min_bin_opp2 = 5;
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}
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vcore_opp_0_uv -= get_vb_volt(VCORE_OPP_0);
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if (ct_opp2_en)
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vcore_opp_2_uv -= get_vb_volt(VCORE_OPP_2);
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}
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if (is_rising_need() == V_RISING_675000)
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vcore_opp_2_uv = 675000;
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else if (is_rising_need() == V_RISING_700000)
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vcore_opp_2_uv = 700000;
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if (dvfs_v_mode == 3) {
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/* LV */
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vcore_opp_0_uv = rounddown((vcore_opp_0_uv * 95) / 100, 6250);
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vcore_opp_1_uv = rounddown((vcore_opp_1_uv * 95) / 100, 6250);
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vcore_opp_2_uv = rounddown((vcore_opp_2_uv * 95) / 100, 6250);
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} else if (dvfs_v_mode == 1) {
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/* HV */
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vcore_opp_0_uv = roundup((vcore_opp_0_uv * 105) / 100, 6250);
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vcore_opp_1_uv = roundup((vcore_opp_1_uv * 105) / 100, 6250);
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vcore_opp_2_uv = roundup((vcore_opp_2_uv * 105) / 100, 6250);
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}
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pr_info("%s: CT=%d, VMODE=%d, RSV4=%x\n",
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__func__,
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is_vcore_ct,
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dvfs_v_mode,
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dvfsrc_rsrv);
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pr_info("%s: FINAL vcore_opp_uv: %d, %d, %d\n",
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__func__,
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vcore_opp_0_uv,
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vcore_opp_1_uv,
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vcore_opp_2_uv);
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set_vcore_uv_table(VCORE_OPP_0, vcore_opp_0_uv);
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set_vcore_uv_table(VCORE_OPP_1, vcore_opp_1_uv);
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set_vcore_uv_table(VCORE_OPP_2, vcore_opp_2_uv);
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/* meta vcore opp*/
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spm_dvfs_pwrap_cmd(1,
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vcore_uv_to_pmic((vcore_opp_0_uv + vcore_opp_1_uv) >> 1));
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return 0;
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}
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fs_initcall_sync(dvfsrc_opp_init)
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static int __init dvfsrc_dram_opp_init(void)
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{
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int i;
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for (i = 0; i < DDR_OPP_NUM; i++) {
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set_opp_ddr_freq(i,
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dram_steps_freq(ddr_level_to_step(i)) * 1000);
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}
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return 0;
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}
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device_initcall_sync(dvfsrc_dram_opp_init)
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