cregit-Linux how code gets into the kernel

Release 4.11 drivers/gpu/drm/amd/amdgpu/ci_dpm.c

/*
 * Copyright 2013 Advanced Micro Devices, Inc.
 *
 * Permission is hereby granted, free of charge, to any person obtaining a
 * copy of this software and associated documentation files (the "Software"),
 * to deal in the Software without restriction, including without limitation
 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
 * and/or sell copies of the Software, and to permit persons to whom the
 * Software is furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included in
 * all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL
 * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR
 * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
 * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
 * OTHER DEALINGS IN THE SOFTWARE.
 *
 */

#include <linux/firmware.h>
#include "drmP.h"
#include "amdgpu.h"
#include "amdgpu_pm.h"
#include "amdgpu_ucode.h"
#include "cikd.h"
#include "amdgpu_dpm.h"
#include "ci_dpm.h"
#include "gfx_v7_0.h"
#include "atom.h"
#include "amd_pcie.h"
#include <linux/seq_file.h>

#include "smu/smu_7_0_1_d.h"
#include "smu/smu_7_0_1_sh_mask.h"

#include "dce/dce_8_0_d.h"
#include "dce/dce_8_0_sh_mask.h"

#include "bif/bif_4_1_d.h"
#include "bif/bif_4_1_sh_mask.h"

#include "gca/gfx_7_2_d.h"
#include "gca/gfx_7_2_sh_mask.h"

#include "gmc/gmc_7_1_d.h"
#include "gmc/gmc_7_1_sh_mask.h"

MODULE_FIRMWARE("radeon/bonaire_smc.bin");
MODULE_FIRMWARE("radeon/bonaire_k_smc.bin");
MODULE_FIRMWARE("radeon/hawaii_smc.bin");
MODULE_FIRMWARE("radeon/hawaii_k_smc.bin");


#define MC_CG_ARB_FREQ_F0           0x0a

#define MC_CG_ARB_FREQ_F1           0x0b

#define MC_CG_ARB_FREQ_F2           0x0c

#define MC_CG_ARB_FREQ_F3           0x0d


#define SMC_RAM_END 0x40000


#define VOLTAGE_SCALE               4

#define VOLTAGE_VID_OFFSET_SCALE1    625

#define VOLTAGE_VID_OFFSET_SCALE2    100


static const struct ci_pt_defaults defaults_hawaii_xt =
{
	1, 0xF, 0xFD, 0x19, 5, 0x14, 0, 0xB0000,
	{ 0x2E,  0x00,  0x00,  0x88,  0x00,  0x00,  0x72,  0x60,  0x51,  0xA7,  0x79,  0x6B,  0x90,  0xBD,  0x79  },
	{ 0x217, 0x217, 0x217, 0x242, 0x242, 0x242, 0x269, 0x269, 0x269, 0x2A1, 0x2A1, 0x2A1, 0x2C9, 0x2C9, 0x2C9 }
};


static const struct ci_pt_defaults defaults_hawaii_pro =
{
	1, 0xF, 0xFD, 0x19, 5, 0x14, 0, 0x65062,
	{ 0x2E,  0x00,  0x00,  0x88,  0x00,  0x00,  0x72,  0x60,  0x51,  0xA7,  0x79,  0x6B,  0x90,  0xBD,  0x79  },
	{ 0x217, 0x217, 0x217, 0x242, 0x242, 0x242, 0x269, 0x269, 0x269, 0x2A1, 0x2A1, 0x2A1, 0x2C9, 0x2C9, 0x2C9 }
};


static const struct ci_pt_defaults defaults_bonaire_xt =
{
	1, 0xF, 0xFD, 0x19, 5, 45, 0, 0xB0000,
	{ 0x79,  0x253, 0x25D, 0xAE,  0x72,  0x80,  0x83,  0x86,  0x6F,  0xC8,  0xC9,  0xC9,  0x2F,  0x4D,  0x61  },
	{ 0x17C, 0x172, 0x180, 0x1BC, 0x1B3, 0x1BD, 0x206, 0x200, 0x203, 0x25D, 0x25A, 0x255, 0x2C3, 0x2C5, 0x2B4 }
};

#if 0
static const struct ci_pt_defaults defaults_bonaire_pro =
{
        1, 0xF, 0xFD, 0x19, 5, 45, 0, 0x65062,
        { 0x8C,  0x23F, 0x244, 0xA6,  0x83,  0x85,  0x86,  0x86,  0x83,  0xDB,  0xDB,  0xDA,  0x67,  0x60,  0x5F  },
        { 0x187, 0x193, 0x193, 0x1C7, 0x1D1, 0x1D1, 0x210, 0x219, 0x219, 0x266, 0x26C, 0x26C, 0x2C9, 0x2CB, 0x2CB }
};
#endif


static const struct ci_pt_defaults defaults_saturn_xt =
{
	1, 0xF, 0xFD, 0x19, 5, 55, 0, 0x70000,
	{ 0x8C,  0x247, 0x249, 0xA6,  0x80,  0x81,  0x8B,  0x89,  0x86,  0xC9,  0xCA,  0xC9,  0x4D,  0x4D,  0x4D  },
	{ 0x187, 0x187, 0x187, 0x1C7, 0x1C7, 0x1C7, 0x210, 0x210, 0x210, 0x266, 0x266, 0x266, 0x2C9, 0x2C9, 0x2C9 }
};

#if 0
static const struct ci_pt_defaults defaults_saturn_pro =
{
        1, 0xF, 0xFD, 0x19, 5, 55, 0, 0x30000,
        { 0x96,  0x21D, 0x23B, 0xA1,  0x85,  0x87,  0x83,  0x84,  0x81,  0xE6,  0xE6,  0xE6,  0x71,  0x6A,  0x6A  },
        { 0x193, 0x19E, 0x19E, 0x1D2, 0x1DC, 0x1DC, 0x21A, 0x223, 0x223, 0x26E, 0x27E, 0x274, 0x2CF, 0x2D2, 0x2D2 }
};
#endif


static const struct ci_pt_config_reg didt_config_ci[] =
{
	{ 0x10, 0x000000ff, 0, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x10, 0x0000ff00, 8, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x10, 0x00ff0000, 16, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x10, 0xff000000, 24, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x11, 0x000000ff, 0, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x11, 0x0000ff00, 8, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x11, 0x00ff0000, 16, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x11, 0xff000000, 24, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x12, 0x000000ff, 0, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x12, 0x0000ff00, 8, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x12, 0x00ff0000, 16, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x12, 0xff000000, 24, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x2, 0x00003fff, 0, 0x4, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x2, 0x03ff0000, 16, 0x80, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x2, 0x78000000, 27, 0x3, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x1, 0x0000ffff, 0, 0x3FFF, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x1, 0xffff0000, 16, 0x3FFF, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x0, 0x00000001, 0, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x30, 0x000000ff, 0, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x30, 0x0000ff00, 8, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x30, 0x00ff0000, 16, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x30, 0xff000000, 24, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x31, 0x000000ff, 0, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x31, 0x0000ff00, 8, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x31, 0x00ff0000, 16, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x31, 0xff000000, 24, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x32, 0x000000ff, 0, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x32, 0x0000ff00, 8, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x32, 0x00ff0000, 16, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x32, 0xff000000, 24, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x22, 0x00003fff, 0, 0x4, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x22, 0x03ff0000, 16, 0x80, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x22, 0x78000000, 27, 0x3, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x21, 0x0000ffff, 0, 0x3FFF, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x21, 0xffff0000, 16, 0x3FFF, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x20, 0x00000001, 0, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x50, 0x000000ff, 0, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x50, 0x0000ff00, 8, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x50, 0x00ff0000, 16, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x50, 0xff000000, 24, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x51, 0x000000ff, 0, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x51, 0x0000ff00, 8, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x51, 0x00ff0000, 16, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x51, 0xff000000, 24, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x52, 0x000000ff, 0, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x52, 0x0000ff00, 8, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x52, 0x00ff0000, 16, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x52, 0xff000000, 24, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x42, 0x00003fff, 0, 0x4, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x42, 0x03ff0000, 16, 0x80, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x42, 0x78000000, 27, 0x3, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x41, 0x0000ffff, 0, 0x3FFF, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x41, 0xffff0000, 16, 0x3FFF, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x40, 0x00000001, 0, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x70, 0x000000ff, 0, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x70, 0x0000ff00, 8, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x70, 0x00ff0000, 16, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x70, 0xff000000, 24, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x71, 0x000000ff, 0, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x71, 0x0000ff00, 8, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x71, 0x00ff0000, 16, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x71, 0xff000000, 24, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x72, 0x000000ff, 0, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x72, 0x0000ff00, 8, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x72, 0x00ff0000, 16, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x72, 0xff000000, 24, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x62, 0x00003fff, 0, 0x4, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x62, 0x03ff0000, 16, 0x80, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x62, 0x78000000, 27, 0x3, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x61, 0x0000ffff, 0, 0x3FFF, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x61, 0xffff0000, 16, 0x3FFF, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0x60, 0x00000001, 0, 0x0, CISLANDS_CONFIGREG_DIDT_IND },
	{ 0xFFFFFFFF }
};


static u8 ci_get_memory_module_index(struct amdgpu_device *adev) { return (u8) ((RREG32(mmBIOS_SCRATCH_4) >> 16) & 0xff); }

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#define MC_CG_ARB_FREQ_F0 0x0a #define MC_CG_ARB_FREQ_F1 0x0b #define MC_CG_ARB_FREQ_F2 0x0c #define MC_CG_ARB_FREQ_F3 0x0d
static int ci_copy_and_switch_arb_sets(struct amdgpu_device *adev, u32 arb_freq_src, u32 arb_freq_dest) { u32 mc_arb_dram_timing; u32 mc_arb_dram_timing2; u32 burst_time; u32 mc_cg_config; switch (arb_freq_src) { case MC_CG_ARB_FREQ_F0: mc_arb_dram_timing = RREG32(mmMC_ARB_DRAM_TIMING); mc_arb_dram_timing2 = RREG32(mmMC_ARB_DRAM_TIMING2); burst_time = (RREG32(mmMC_ARB_BURST_TIME) & MC_ARB_BURST_TIME__STATE0_MASK) >> MC_ARB_BURST_TIME__STATE0__SHIFT; break; case MC_CG_ARB_FREQ_F1: mc_arb_dram_timing = RREG32(mmMC_ARB_DRAM_TIMING_1); mc_arb_dram_timing2 = RREG32(mmMC_ARB_DRAM_TIMING2_1); burst_time = (RREG32(mmMC_ARB_BURST_TIME) & MC_ARB_BURST_TIME__STATE1_MASK) >> MC_ARB_BURST_TIME__STATE1__SHIFT; break; default: return -EINVAL; } switch (arb_freq_dest) { case MC_CG_ARB_FREQ_F0: WREG32(mmMC_ARB_DRAM_TIMING, mc_arb_dram_timing); WREG32(mmMC_ARB_DRAM_TIMING2, mc_arb_dram_timing2); WREG32_P(mmMC_ARB_BURST_TIME, (burst_time << MC_ARB_BURST_TIME__STATE0__SHIFT), ~MC_ARB_BURST_TIME__STATE0_MASK); break; case MC_CG_ARB_FREQ_F1: WREG32(mmMC_ARB_DRAM_TIMING_1, mc_arb_dram_timing); WREG32(mmMC_ARB_DRAM_TIMING2_1, mc_arb_dram_timing2); WREG32_P(mmMC_ARB_BURST_TIME, (burst_time << MC_ARB_BURST_TIME__STATE1__SHIFT), ~MC_ARB_BURST_TIME__STATE1_MASK); break; default: return -EINVAL; } mc_cg_config = RREG32(mmMC_CG_CONFIG) | 0x0000000F; WREG32(mmMC_CG_CONFIG, mc_cg_config); WREG32_P(mmMC_ARB_CG, (arb_freq_dest) << MC_ARB_CG__CG_ARB_REQ__SHIFT, ~MC_ARB_CG__CG_ARB_REQ_MASK); return 0; }

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static u8 ci_get_ddr3_mclk_frequency_ratio(u32 memory_clock) { u8 mc_para_index; if (memory_clock < 10000) mc_para_index = 0; else if (memory_clock >= 80000) mc_para_index = 0x0f; else mc_para_index = (u8)((memory_clock - 10000) / 5000 + 1); return mc_para_index; }

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static u8 ci_get_mclk_frequency_ratio(u32 memory_clock, bool strobe_mode) { u8 mc_para_index; if (strobe_mode) { if (memory_clock < 12500) mc_para_index = 0x00; else if (memory_clock > 47500) mc_para_index = 0x0f; else mc_para_index = (u8)((memory_clock - 10000) / 2500); } else { if (memory_clock < 65000) mc_para_index = 0x00; else if (memory_clock > 135000) mc_para_index = 0x0f; else mc_para_index = (u8)((memory_clock - 60000) / 5000); } return mc_para_index; }

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static void ci_trim_voltage_table_to_fit_state_table(struct amdgpu_device *adev, u32 max_voltage_steps, struct atom_voltage_table *voltage_table) { unsigned int i, diff; if (voltage_table->count <= max_voltage_steps) return; diff = voltage_table->count - max_voltage_steps; for (i = 0; i < max_voltage_steps; i++) voltage_table->entries[i] = voltage_table->entries[i + diff]; voltage_table->count = max_voltage_steps; }

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static int ci_get_std_voltage_value_sidd(struct amdgpu_device *adev, struct atom_voltage_table_entry *voltage_table, u16 *std_voltage_hi_sidd, u16 *std_voltage_lo_sidd); static int ci_set_power_limit(struct amdgpu_device *adev, u32 n); static int ci_set_overdrive_target_tdp(struct amdgpu_device *adev, u32 target_tdp); static int ci_update_uvd_dpm(struct amdgpu_device *adev, bool gate); static void ci_dpm_set_dpm_funcs(struct amdgpu_device *adev); static void ci_dpm_set_irq_funcs(struct amdgpu_device *adev); static PPSMC_Result amdgpu_ci_send_msg_to_smc_with_parameter(struct amdgpu_device *adev, PPSMC_Msg msg, u32 parameter); static void ci_thermal_start_smc_fan_control(struct amdgpu_device *adev); static void ci_fan_ctrl_set_default_mode(struct amdgpu_device *adev);
static struct ci_power_info *ci_get_pi(struct amdgpu_device *adev) { struct ci_power_info *pi = adev->pm.dpm.priv; return pi; }

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static struct ci_ps *ci_get_ps(struct amdgpu_ps *rps) { struct ci_ps *ps = rps->ps_priv; return ps; }

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static void ci_initialize_powertune_defaults(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); switch (adev->pdev->device) { case 0x6649: case 0x6650: case 0x6651: case 0x6658: case 0x665C: case 0x665D: default: pi->powertune_defaults = &defaults_bonaire_xt; break; case 0x6640: case 0x6641: case 0x6646: case 0x6647: pi->powertune_defaults = &defaults_saturn_xt; break; case 0x67B8: case 0x67B0: pi->powertune_defaults = &defaults_hawaii_xt; break; case 0x67BA: case 0x67B1: pi->powertune_defaults = &defaults_hawaii_pro; break; case 0x67A0: case 0x67A1: case 0x67A2: case 0x67A8: case 0x67A9: case 0x67AA: case 0x67B9: case 0x67BE: pi->powertune_defaults = &defaults_bonaire_xt; break; } pi->dte_tj_offset = 0; pi->caps_power_containment = true; pi->caps_cac = false; pi->caps_sq_ramping = false; pi->caps_db_ramping = false; pi->caps_td_ramping = false; pi->caps_tcp_ramping = false; if (pi->caps_power_containment) { pi->caps_cac = true; if (adev->asic_type == CHIP_HAWAII) pi->enable_bapm_feature = false; else pi->enable_bapm_feature = true; pi->enable_tdc_limit_feature = true; pi->enable_pkg_pwr_tracking_feature = true; } }

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static u8 ci_convert_to_vid(u16 vddc) { return (6200 - (vddc * VOLTAGE_SCALE)) / 25; }

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static int ci_populate_bapm_vddc_vid_sidd(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); u8 *hi_vid = pi->smc_powertune_table.BapmVddCVidHiSidd; u8 *lo_vid = pi->smc_powertune_table.BapmVddCVidLoSidd; u8 *hi2_vid = pi->smc_powertune_table.BapmVddCVidHiSidd2; u32 i; if (adev->pm.dpm.dyn_state.cac_leakage_table.entries == NULL) return -EINVAL; if (adev->pm.dpm.dyn_state.cac_leakage_table.count > 8) return -EINVAL; if (adev->pm.dpm.dyn_state.cac_leakage_table.count != adev->pm.dpm.dyn_state.vddc_dependency_on_sclk.count) return -EINVAL; for (i = 0; i < adev->pm.dpm.dyn_state.cac_leakage_table.count; i++) { if (adev->pm.dpm.platform_caps & ATOM_PP_PLATFORM_CAP_EVV) { lo_vid[i] = ci_convert_to_vid(adev->pm.dpm.dyn_state.cac_leakage_table.entries[i].vddc1); hi_vid[i] = ci_convert_to_vid(adev->pm.dpm.dyn_state.cac_leakage_table.entries[i].vddc2); hi2_vid[i] = ci_convert_to_vid(adev->pm.dpm.dyn_state.cac_leakage_table.entries[i].vddc3); } else { lo_vid[i] = ci_convert_to_vid(adev->pm.dpm.dyn_state.cac_leakage_table.entries[i].vddc); hi_vid[i] = ci_convert_to_vid((u16)adev->pm.dpm.dyn_state.cac_leakage_table.entries[i].leakage); } } return 0; }

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static int ci_populate_vddc_vid(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); u8 *vid = pi->smc_powertune_table.VddCVid; u32 i; if (pi->vddc_voltage_table.count > 8) return -EINVAL; for (i = 0; i < pi->vddc_voltage_table.count; i++) vid[i] = ci_convert_to_vid(pi->vddc_voltage_table.entries[i].value); return 0; }

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static int ci_populate_svi_load_line(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); const struct ci_pt_defaults *pt_defaults = pi->powertune_defaults; pi->smc_powertune_table.SviLoadLineEn = pt_defaults->svi_load_line_en; pi->smc_powertune_table.SviLoadLineVddC = pt_defaults->svi_load_line_vddc; pi->smc_powertune_table.SviLoadLineTrimVddC = 3; pi->smc_powertune_table.SviLoadLineOffsetVddC = 0; return 0; }

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static int ci_populate_tdc_limit(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); const struct ci_pt_defaults *pt_defaults = pi->powertune_defaults; u16 tdc_limit; tdc_limit = adev->pm.dpm.dyn_state.cac_tdp_table->tdc * 256; pi->smc_powertune_table.TDC_VDDC_PkgLimit = cpu_to_be16(tdc_limit); pi->smc_powertune_table.TDC_VDDC_ThrottleReleaseLimitPerc = pt_defaults->tdc_vddc_throttle_release_limit_perc; pi->smc_powertune_table.TDC_MAWt = pt_defaults->tdc_mawt; return 0; }

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static int ci_populate_dw8(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); const struct ci_pt_defaults *pt_defaults = pi->powertune_defaults; int ret; ret = amdgpu_ci_read_smc_sram_dword(adev, SMU7_FIRMWARE_HEADER_LOCATION + offsetof(SMU7_Firmware_Header, PmFuseTable) + offsetof(SMU7_Discrete_PmFuses, TdcWaterfallCtl), (u32 *)&pi->smc_powertune_table.TdcWaterfallCtl, pi->sram_end); if (ret) return -EINVAL; else pi->smc_powertune_table.TdcWaterfallCtl = pt_defaults->tdc_waterfall_ctl; return 0; }

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static int ci_populate_fuzzy_fan(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); if ((adev->pm.dpm.fan.fan_output_sensitivity & (1 << 15)) || (adev->pm.dpm.fan.fan_output_sensitivity == 0)) adev->pm.dpm.fan.fan_output_sensitivity = adev->pm.dpm.fan.default_fan_output_sensitivity; pi->smc_powertune_table.FuzzyFan_PwmSetDelta = cpu_to_be16(adev->pm.dpm.fan.fan_output_sensitivity); return 0; }

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static int ci_min_max_v_gnbl_pm_lid_from_bapm_vddc(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); u8 *hi_vid = pi->smc_powertune_table.BapmVddCVidHiSidd; u8 *lo_vid = pi->smc_powertune_table.BapmVddCVidLoSidd; int i, min, max; min = max = hi_vid[0]; for (i = 0; i < 8; i++) { if (0 != hi_vid[i]) { if (min > hi_vid[i]) min = hi_vid[i]; if (max < hi_vid[i]) max = hi_vid[i]; } if (0 != lo_vid[i]) { if (min > lo_vid[i]) min = lo_vid[i]; if (max < lo_vid[i]) max = lo_vid[i]; } } if ((min == 0) || (max == 0)) return -EINVAL; pi->smc_powertune_table.GnbLPMLMaxVid = (u8)max; pi->smc_powertune_table.GnbLPMLMinVid = (u8)min; return 0; }

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static int ci_populate_bapm_vddc_base_leakage_sidd(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); u16 hi_sidd = pi->smc_powertune_table.BapmVddCBaseLeakageHiSidd; u16 lo_sidd = pi->smc_powertune_table.BapmVddCBaseLeakageLoSidd; struct amdgpu_cac_tdp_table *cac_tdp_table = adev->pm.dpm.dyn_state.cac_tdp_table; hi_sidd = cac_tdp_table->high_cac_leakage / 100 * 256; lo_sidd = cac_tdp_table->low_cac_leakage / 100 * 256; pi->smc_powertune_table.BapmVddCBaseLeakageHiSidd = cpu_to_be16(hi_sidd); pi->smc_powertune_table.BapmVddCBaseLeakageLoSidd = cpu_to_be16(lo_sidd); return 0; }

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static int ci_populate_bapm_parameters_in_dpm_table(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); const struct ci_pt_defaults *pt_defaults = pi->powertune_defaults; SMU7_Discrete_DpmTable *dpm_table = &pi->smc_state_table; struct amdgpu_cac_tdp_table *cac_tdp_table = adev->pm.dpm.dyn_state.cac_tdp_table; struct amdgpu_ppm_table *ppm = adev->pm.dpm.dyn_state.ppm_table; int i, j, k; const u16 *def1; const u16 *def2; dpm_table->DefaultTdp = cac_tdp_table->tdp * 256; dpm_table->TargetTdp = cac_tdp_table->configurable_tdp * 256; dpm_table->DTETjOffset = (u8)pi->dte_tj_offset; dpm_table->GpuTjMax = (u8)(pi->thermal_temp_setting.temperature_high / 1000); dpm_table->GpuTjHyst = 8; dpm_table->DTEAmbientTempBase = pt_defaults->dte_ambient_temp_base; if (ppm) { dpm_table->PPM_PkgPwrLimit = cpu_to_be16((u16)ppm->dgpu_tdp * 256 / 1000); dpm_table->PPM_TemperatureLimit = cpu_to_be16((u16)ppm->tj_max * 256); } else { dpm_table->PPM_PkgPwrLimit = cpu_to_be16(0); dpm_table->PPM_TemperatureLimit = cpu_to_be16(0); } dpm_table->BAPM_TEMP_GRADIENT = cpu_to_be32(pt_defaults->bapm_temp_gradient); def1 = pt_defaults->bapmti_r; def2 = pt_defaults->bapmti_rc; for (i = 0; i < SMU7_DTE_ITERATIONS; i++) { for (j = 0; j < SMU7_DTE_SOURCES; j++) { for (k = 0; k < SMU7_DTE_SINKS; k++) { dpm_table->BAPMTI_R[i][j][k] = cpu_to_be16(*def1); dpm_table->BAPMTI_RC[i][j][k] = cpu_to_be16(*def2); def1++; def2++; } } } return 0; }

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static int ci_populate_pm_base(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); u32 pm_fuse_table_offset; int ret; if (pi->caps_power_containment) { ret = amdgpu_ci_read_smc_sram_dword(adev, SMU7_FIRMWARE_HEADER_LOCATION + offsetof(SMU7_Firmware_Header, PmFuseTable), &pm_fuse_table_offset, pi->sram_end); if (ret) return ret; ret = ci_populate_bapm_vddc_vid_sidd(adev); if (ret) return ret; ret = ci_populate_vddc_vid(adev); if (ret) return ret; ret = ci_populate_svi_load_line(adev); if (ret) return ret; ret = ci_populate_tdc_limit(adev); if (ret) return ret; ret = ci_populate_dw8(adev); if (ret) return ret; ret = ci_populate_fuzzy_fan(adev); if (ret) return ret; ret = ci_min_max_v_gnbl_pm_lid_from_bapm_vddc(adev); if (ret) return ret; ret = ci_populate_bapm_vddc_base_leakage_sidd(adev); if (ret) return ret; ret = amdgpu_ci_copy_bytes_to_smc(adev, pm_fuse_table_offset, (u8 *)&pi->smc_powertune_table, sizeof(SMU7_Discrete_PmFuses), pi->sram_end); if (ret) return ret; } return 0; }

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static void ci_do_enable_didt(struct amdgpu_device *adev, const bool enable) { struct ci_power_info *pi = ci_get_pi(adev); u32 data; if (pi->caps_sq_ramping) { data = RREG32_DIDT(ixDIDT_SQ_CTRL0); if (enable) data |= DIDT_SQ_CTRL0__DIDT_CTRL_EN_MASK; else data &= ~DIDT_SQ_CTRL0__DIDT_CTRL_EN_MASK; WREG32_DIDT(ixDIDT_SQ_CTRL0, data); } if (pi->caps_db_ramping) { data = RREG32_DIDT(ixDIDT_DB_CTRL0); if (enable) data |= DIDT_DB_CTRL0__DIDT_CTRL_EN_MASK; else data &= ~DIDT_DB_CTRL0__DIDT_CTRL_EN_MASK; WREG32_DIDT(ixDIDT_DB_CTRL0, data); } if (pi->caps_td_ramping) { data = RREG32_DIDT(ixDIDT_TD_CTRL0); if (enable) data |= DIDT_TD_CTRL0__DIDT_CTRL_EN_MASK; else data &= ~DIDT_TD_CTRL0__DIDT_CTRL_EN_MASK; WREG32_DIDT(ixDIDT_TD_CTRL0, data); } if (pi->caps_tcp_ramping) { data = RREG32_DIDT(ixDIDT_TCP_CTRL0); if (enable) data |= DIDT_TCP_CTRL0__DIDT_CTRL_EN_MASK; else data &= ~DIDT_TCP_CTRL0__DIDT_CTRL_EN_MASK; WREG32_DIDT(ixDIDT_TCP_CTRL0, data); } }

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static int ci_program_pt_config_registers(struct amdgpu_device *adev, const struct ci_pt_config_reg *cac_config_regs) { const struct ci_pt_config_reg *config_regs = cac_config_regs; u32 data; u32 cache = 0; if (config_regs == NULL) return -EINVAL; while (config_regs->offset != 0xFFFFFFFF) { if (config_regs->type == CISLANDS_CONFIGREG_CACHE) { cache |= ((config_regs->value << config_regs->shift) & config_regs->mask); } else { switch (config_regs->type) { case CISLANDS_CONFIGREG_SMC_IND: data = RREG32_SMC(config_regs->offset); break; case CISLANDS_CONFIGREG_DIDT_IND: data = RREG32_DIDT(config_regs->offset); break; default: data = RREG32(config_regs->offset); break; } data &= ~config_regs->mask; data |= ((config_regs->value << config_regs->shift) & config_regs->mask); data |= cache; switch (config_regs->type) { case CISLANDS_CONFIGREG_SMC_IND: WREG32_SMC(config_regs->offset, data); break; case CISLANDS_CONFIGREG_DIDT_IND: WREG32_DIDT(config_regs->offset, data); break; default: WREG32(config_regs->offset, data); break; } cache = 0; } config_regs++; } return 0; }

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static int ci_enable_didt(struct amdgpu_device *adev, bool enable) { struct ci_power_info *pi = ci_get_pi(adev); int ret; if (pi->caps_sq_ramping || pi->caps_db_ramping || pi->caps_td_ramping || pi->caps_tcp_ramping) { adev->gfx.rlc.funcs->enter_safe_mode(adev); if (enable) { ret = ci_program_pt_config_registers(adev, didt_config_ci); if (ret) { adev->gfx.rlc.funcs->exit_safe_mode(adev); return ret; } } ci_do_enable_didt(adev, enable); adev->gfx.rlc.funcs->exit_safe_mode(adev); } return 0; }

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static int ci_enable_power_containment(struct amdgpu_device *adev, bool enable) { struct ci_power_info *pi = ci_get_pi(adev); PPSMC_Result smc_result; int ret = 0; if (enable) { pi->power_containment_features = 0; if (pi->caps_power_containment) { if (pi->enable_bapm_feature) { smc_result = amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_EnableDTE); if (smc_result != PPSMC_Result_OK) ret = -EINVAL; else pi->power_containment_features |= POWERCONTAINMENT_FEATURE_BAPM; } if (pi->enable_tdc_limit_feature) { smc_result = amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_TDCLimitEnable); if (smc_result != PPSMC_Result_OK) ret = -EINVAL; else pi->power_containment_features |= POWERCONTAINMENT_FEATURE_TDCLimit; } if (pi->enable_pkg_pwr_tracking_feature) { smc_result = amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_PkgPwrLimitEnable); if (smc_result != PPSMC_Result_OK) { ret = -EINVAL; } else { struct amdgpu_cac_tdp_table *cac_tdp_table = adev->pm.dpm.dyn_state.cac_tdp_table; u32 default_pwr_limit = (u32)(cac_tdp_table->maximum_power_delivery_limit * 256); pi->power_containment_features |= POWERCONTAINMENT_FEATURE_PkgPwrLimit; ci_set_power_limit(adev, default_pwr_limit); } } } } else { if (pi->caps_power_containment && pi->power_containment_features) { if (pi->power_containment_features & POWERCONTAINMENT_FEATURE_TDCLimit) amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_TDCLimitDisable); if (pi->power_containment_features & POWERCONTAINMENT_FEATURE_BAPM) amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_DisableDTE); if (pi->power_containment_features & POWERCONTAINMENT_FEATURE_PkgPwrLimit) amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_PkgPwrLimitDisable); pi->power_containment_features = 0; } } return ret; }

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static int ci_enable_smc_cac(struct amdgpu_device *adev, bool enable) { struct ci_power_info *pi = ci_get_pi(adev); PPSMC_Result smc_result; int ret = 0; if (pi->caps_cac) { if (enable) { smc_result = amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_EnableCac); if (smc_result != PPSMC_Result_OK) { ret = -EINVAL; pi->cac_enabled = false; } else { pi->cac_enabled = true; } } else if (pi->cac_enabled) { amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_DisableCac); pi->cac_enabled = false; } } return ret; }

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static int ci_enable_thermal_based_sclk_dpm(struct amdgpu_device *adev, bool enable) { struct ci_power_info *pi = ci_get_pi(adev); PPSMC_Result smc_result = PPSMC_Result_OK; if (pi->thermal_sclk_dpm_enabled) { if (enable) smc_result = amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_ENABLE_THERMAL_DPM); else smc_result = amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_DISABLE_THERMAL_DPM); } if (smc_result == PPSMC_Result_OK) return 0; else return -EINVAL; }

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static int ci_power_control_set_level(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); struct amdgpu_cac_tdp_table *cac_tdp_table = adev->pm.dpm.dyn_state.cac_tdp_table; s32 adjust_percent; s32 target_tdp; int ret = 0; bool adjust_polarity = false; /* ??? */ if (pi->caps_power_containment) { adjust_percent = adjust_polarity ? adev->pm.dpm.tdp_adjustment : (-1 * adev->pm.dpm.tdp_adjustment); target_tdp = ((100 + adjust_percent) * (s32)cac_tdp_table->configurable_tdp) / 100; ret = ci_set_overdrive_target_tdp(adev, (u32)target_tdp); } return ret; }

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static void ci_dpm_powergate_uvd(struct amdgpu_device *adev, bool gate) { struct ci_power_info *pi = ci_get_pi(adev); pi->uvd_power_gated = gate; if (gate) { /* stop the UVD block */ amdgpu_set_powergating_state(adev, AMD_IP_BLOCK_TYPE_UVD, AMD_PG_STATE_GATE); ci_update_uvd_dpm(adev, gate); } else { amdgpu_set_powergating_state(adev, AMD_IP_BLOCK_TYPE_UVD, AMD_PG_STATE_UNGATE); ci_update_uvd_dpm(adev, gate); } }

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static bool ci_dpm_vblank_too_short(struct amdgpu_device *adev) { u32 vblank_time = amdgpu_dpm_get_vblank_time(adev); u32 switch_limit = adev->mc.vram_type == AMDGPU_VRAM_TYPE_GDDR5 ? 450 : 300; if (vblank_time < switch_limit) return true; else return false; }

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static void ci_apply_state_adjust_rules(struct amdgpu_device *adev, struct amdgpu_ps *rps) { struct ci_ps *ps = ci_get_ps(rps); struct ci_power_info *pi = ci_get_pi(adev); struct amdgpu_clock_and_voltage_limits *max_limits; bool disable_mclk_switching; u32 sclk, mclk; int i; if (rps->vce_active) { rps->evclk = adev->pm.dpm.vce_states[adev->pm.dpm.vce_level].evclk; rps->ecclk = adev->pm.dpm.vce_states[adev->pm.dpm.vce_level].ecclk; } else { rps->evclk = 0; rps->ecclk = 0; } if ((adev->pm.dpm.new_active_crtc_count > 1) || ci_dpm_vblank_too_short(adev)) disable_mclk_switching = true; else disable_mclk_switching = false; if ((rps->class & ATOM_PPLIB_CLASSIFICATION_UI_MASK) == ATOM_PPLIB_CLASSIFICATION_UI_BATTERY) pi->battery_state = true; else pi->battery_state = false; if (adev->pm.dpm.ac_power) max_limits = &adev->pm.dpm.dyn_state.max_clock_voltage_on_ac; else max_limits = &adev->pm.dpm.dyn_state.max_clock_voltage_on_dc; if (adev->pm.dpm.ac_power == false) { for (i = 0; i < ps->performance_level_count; i++) { if (ps->performance_levels[i].mclk > max_limits->mclk) ps->performance_levels[i].mclk = max_limits->mclk; if (ps->performance_levels[i].sclk > max_limits->sclk) ps->performance_levels[i].sclk = max_limits->sclk; } } /* XXX validate the min clocks required for display */ if (disable_mclk_switching) { mclk = ps->performance_levels[ps->performance_level_count - 1].mclk; sclk = ps->performance_levels[0].sclk; } else { mclk = ps->performance_levels[0].mclk; sclk = ps->performance_levels[0].sclk; } if (adev->pm.pm_display_cfg.min_core_set_clock > sclk) sclk = adev->pm.pm_display_cfg.min_core_set_clock; if (adev->pm.pm_display_cfg.min_mem_set_clock > mclk) mclk = adev->pm.pm_display_cfg.min_mem_set_clock; if (rps->vce_active) { if (sclk < adev->pm.dpm.vce_states[adev->pm.dpm.vce_level].sclk) sclk = adev->pm.dpm.vce_states[adev->pm.dpm.vce_level].sclk; if (mclk < adev->pm.dpm.vce_states[adev->pm.dpm.vce_level].mclk) mclk = adev->pm.dpm.vce_states[adev->pm.dpm.vce_level].mclk; } ps->performance_levels[0].sclk = sclk; ps->performance_levels[0].mclk = mclk; if (ps->performance_levels[1].sclk < ps->performance_levels[0].sclk) ps->performance_levels[1].sclk = ps->performance_levels[0].sclk; if (disable_mclk_switching) { if (ps->performance_levels[0].mclk < ps->performance_levels[1].mclk) ps->performance_levels[0].mclk = ps->performance_levels[1].mclk; } else { if (ps->performance_levels[1].mclk < ps->performance_levels[0].mclk) ps->performance_levels[1].mclk = ps->performance_levels[0].mclk; } }

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static int ci_thermal_set_temperature_range(struct amdgpu_device *adev, int min_temp, int max_temp) { int low_temp = 0 * 1000; int high_temp = 255 * 1000; u32 tmp; if (low_temp < min_temp) low_temp = min_temp; if (high_temp > max_temp) high_temp = max_temp; if (high_temp < low_temp) { DRM_ERROR("invalid thermal range: %d - %d\n", low_temp, high_temp); return -EINVAL; } tmp = RREG32_SMC(ixCG_THERMAL_INT); tmp &= ~(CG_THERMAL_INT__DIG_THERM_INTH_MASK | CG_THERMAL_INT__DIG_THERM_INTL_MASK); tmp |= ((high_temp / 1000) << CG_THERMAL_INT__DIG_THERM_INTH__SHIFT) | ((low_temp / 1000)) << CG_THERMAL_INT__DIG_THERM_INTL__SHIFT; WREG32_SMC(ixCG_THERMAL_INT, tmp); #if 0 /* XXX: need to figure out how to handle this properly */ tmp = RREG32_SMC(ixCG_THERMAL_CTRL); tmp &= DIG_THERM_DPM_MASK; tmp |= DIG_THERM_DPM(high_temp / 1000); WREG32_SMC(ixCG_THERMAL_CTRL, tmp); #endif adev->pm.dpm.thermal.min_temp = low_temp; adev->pm.dpm.thermal.max_temp = high_temp; return 0; }

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static int ci_thermal_enable_alert(struct amdgpu_device *adev, bool enable) { u32 thermal_int = RREG32_SMC(ixCG_THERMAL_INT); PPSMC_Result result; if (enable) { thermal_int &= ~(CG_THERMAL_INT_CTRL__THERM_INTH_MASK_MASK | CG_THERMAL_INT_CTRL__THERM_INTL_MASK_MASK); WREG32_SMC(ixCG_THERMAL_INT, thermal_int); result = amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_Thermal_Cntl_Enable); if (result != PPSMC_Result_OK) { DRM_DEBUG_KMS("Could not enable thermal interrupts.\n"); return -EINVAL; } } else { thermal_int |= CG_THERMAL_INT_CTRL__THERM_INTH_MASK_MASK | CG_THERMAL_INT_CTRL__THERM_INTL_MASK_MASK; WREG32_SMC(ixCG_THERMAL_INT, thermal_int); result = amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_Thermal_Cntl_Disable); if (result != PPSMC_Result_OK) { DRM_DEBUG_KMS("Could not disable thermal interrupts.\n"); return -EINVAL; } } return 0; }

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static void ci_fan_ctrl_set_static_mode(struct amdgpu_device *adev, u32 mode) { struct ci_power_info *pi = ci_get_pi(adev); u32 tmp; if (pi->fan_ctrl_is_in_default_mode) { tmp = (RREG32_SMC(ixCG_FDO_CTRL2) & CG_FDO_CTRL2__FDO_PWM_MODE_MASK) >> CG_FDO_CTRL2__FDO_PWM_MODE__SHIFT; pi->fan_ctrl_default_mode = tmp; tmp = (RREG32_SMC(ixCG_FDO_CTRL2) & CG_FDO_CTRL2__TMIN_MASK) >> CG_FDO_CTRL2__TMIN__SHIFT; pi->t_min = tmp; pi->fan_ctrl_is_in_default_mode = false; } tmp = RREG32_SMC(ixCG_FDO_CTRL2) & ~CG_FDO_CTRL2__TMIN_MASK; tmp |= 0 << CG_FDO_CTRL2__TMIN__SHIFT; WREG32_SMC(ixCG_FDO_CTRL2, tmp); tmp = RREG32_SMC(ixCG_FDO_CTRL2) & ~CG_FDO_CTRL2__FDO_PWM_MODE_MASK; tmp |= mode << CG_FDO_CTRL2__FDO_PWM_MODE__SHIFT; WREG32_SMC(ixCG_FDO_CTRL2, tmp); }

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Alex Deucher125100.00%1100.00%
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static int ci_thermal_setup_fan_table(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); SMU7_Discrete_FanTable fan_table = { FDO_MODE_HARDWARE }; u32 duty100; u32 t_diff1, t_diff2, pwm_diff1, pwm_diff2; u16 fdo_min, slope1, slope2; u32 reference_clock, tmp; int ret; u64 tmp64; if (!pi->fan_table_start) { adev->pm.dpm.fan.ucode_fan_control = false; return 0; } duty100 = (RREG32_SMC(ixCG_FDO_CTRL1) & CG_FDO_CTRL1__FMAX_DUTY100_MASK) >> CG_FDO_CTRL1__FMAX_DUTY100__SHIFT; if (duty100 == 0) { adev->pm.dpm.fan.ucode_fan_control = false; return 0; } tmp64 = (u64)adev->pm.dpm.fan.pwm_min * duty100; do_div(tmp64, 10000); fdo_min = (u16)tmp64; t_diff1 = adev->pm.dpm.fan.t_med - adev->pm.dpm.fan.t_min; t_diff2 = adev->pm.dpm.fan.t_high - adev->pm.dpm.fan.t_med; pwm_diff1 = adev->pm.dpm.fan.pwm_med - adev->pm.dpm.fan.pwm_min; pwm_diff2 = adev->pm.dpm.fan.pwm_high - adev->pm.dpm.fan.pwm_med; slope1 = (u16)((50 + ((16 * duty100 * pwm_diff1) / t_diff1)) / 100); slope2 = (u16)((50 + ((16 * duty100 * pwm_diff2) / t_diff2)) / 100); fan_table.TempMin = cpu_to_be16((50 + adev->pm.dpm.fan.t_min) / 100); fan_table.TempMed = cpu_to_be16((50 + adev->pm.dpm.fan.t_med) / 100); fan_table.TempMax = cpu_to_be16((50 + adev->pm.dpm.fan.t_max) / 100); fan_table.Slope1 = cpu_to_be16(slope1); fan_table.Slope2 = cpu_to_be16(slope2); fan_table.FdoMin = cpu_to_be16(fdo_min); fan_table.HystDown = cpu_to_be16(adev->pm.dpm.fan.t_hyst); fan_table.HystUp = cpu_to_be16(1); fan_table.HystSlope = cpu_to_be16(1); fan_table.TempRespLim = cpu_to_be16(5); reference_clock = amdgpu_asic_get_xclk(adev); fan_table.RefreshPeriod = cpu_to_be32((adev->pm.dpm.fan.cycle_delay * reference_clock) / 1600); fan_table.FdoMax = cpu_to_be16((u16)duty100); tmp = (RREG32_SMC(ixCG_MULT_THERMAL_CTRL) & CG_MULT_THERMAL_CTRL__TEMP_SEL_MASK) >> CG_MULT_THERMAL_CTRL__TEMP_SEL__SHIFT; fan_table.TempSrc = (uint8_t)tmp; ret = amdgpu_ci_copy_bytes_to_smc(adev, pi->fan_table_start, (u8 *)(&fan_table), sizeof(fan_table), pi->sram_end); if (ret) { DRM_ERROR("Failed to load fan table to the SMC."); adev->pm.dpm.fan.ucode_fan_control = false; } return 0; }

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static int ci_fan_ctrl_start_smc_fan_control(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); PPSMC_Result ret; if (pi->caps_od_fuzzy_fan_control_support) { ret = amdgpu_ci_send_msg_to_smc_with_parameter(adev, PPSMC_StartFanControl, FAN_CONTROL_FUZZY); if (ret != PPSMC_Result_OK) return -EINVAL; ret = amdgpu_ci_send_msg_to_smc_with_parameter(adev, PPSMC_MSG_SetFanPwmMax, adev->pm.dpm.fan.default_max_fan_pwm); if (ret != PPSMC_Result_OK) return -EINVAL; } else { ret = amdgpu_ci_send_msg_to_smc_with_parameter(adev, PPSMC_StartFanControl, FAN_CONTROL_TABLE); if (ret != PPSMC_Result_OK) return -EINVAL; } pi->fan_is_controlled_by_smc = true; return 0; }

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Alex Deucher115100.00%1100.00%
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static int ci_fan_ctrl_stop_smc_fan_control(struct amdgpu_device *adev) { PPSMC_Result ret; struct ci_power_info *pi = ci_get_pi(adev); ret = amdgpu_ci_send_msg_to_smc(adev, PPSMC_StopFanControl); if (ret == PPSMC_Result_OK) { pi->fan_is_controlled_by_smc = false; return 0; } else { return -EINVAL; } }

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static int ci_dpm_get_fan_speed_percent(struct amdgpu_device *adev, u32 *speed) { u32 duty, duty100; u64 tmp64; if (adev->pm.no_fan) return -ENOENT; duty100 = (RREG32_SMC(ixCG_FDO_CTRL1) & CG_FDO_CTRL1__FMAX_DUTY100_MASK) >> CG_FDO_CTRL1__FMAX_DUTY100__SHIFT; duty = (RREG32_SMC(ixCG_THERMAL_STATUS) & CG_THERMAL_STATUS__FDO_PWM_DUTY_MASK) >> CG_THERMAL_STATUS__FDO_PWM_DUTY__SHIFT; if (duty100 == 0) return -EINVAL; tmp64 = (u64)duty * 100; do_div(tmp64, duty100); *speed = (u32)tmp64; if (*speed > 100) *speed = 100; return 0; }

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Alex Deucher110100.00%1100.00%
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static int ci_dpm_set_fan_speed_percent(struct amdgpu_device *adev, u32 speed) { u32 tmp; u32 duty, duty100; u64 tmp64; struct ci_power_info *pi = ci_get_pi(adev); if (adev->pm.no_fan) return -ENOENT; if (pi->fan_is_controlled_by_smc) return -EINVAL; if (speed > 100) return -EINVAL; duty100 = (RREG32_SMC(ixCG_FDO_CTRL1) & CG_FDO_CTRL1__FMAX_DUTY100_MASK) >> CG_FDO_CTRL1__FMAX_DUTY100__SHIFT; if (duty100 == 0) return -EINVAL; tmp64 = (u64)speed * duty100; do_div(tmp64, 100); duty = (u32)tmp64; tmp = RREG32_SMC(ixCG_FDO_CTRL0) & ~CG_FDO_CTRL0__FDO_STATIC_DUTY_MASK; tmp |= duty << CG_FDO_CTRL0__FDO_STATIC_DUTY__SHIFT; WREG32_SMC(ixCG_FDO_CTRL0, tmp); return 0; }

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static void ci_dpm_set_fan_control_mode(struct amdgpu_device *adev, u32 mode) { if (mode) { /* stop auto-manage */ if (adev->pm.dpm.fan.ucode_fan_control) ci_fan_ctrl_stop_smc_fan_control(adev); ci_fan_ctrl_set_static_mode(adev, mode); } else { /* restart auto-manage */ if (adev->pm.dpm.fan.ucode_fan_control) ci_thermal_start_smc_fan_control(adev); else ci_fan_ctrl_set_default_mode(adev); } }

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static u32 ci_dpm_get_fan_control_mode(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); u32 tmp; if (pi->fan_is_controlled_by_smc) return 0; tmp = RREG32_SMC(ixCG_FDO_CTRL2) & CG_FDO_CTRL2__FDO_PWM_MODE_MASK; return (tmp >> CG_FDO_CTRL2__FDO_PWM_MODE__SHIFT); }

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#if 0 static int ci_fan_ctrl_get_fan_speed_rpm(struct amdgpu_device *adev, u32 *speed) { u32 tach_period; u32 xclk = amdgpu_asic_get_xclk(adev); if (adev->pm.no_fan) return -ENOENT; if (adev->pm.fan_pulses_per_revolution == 0) return -ENOENT; tach_period = (RREG32_SMC(ixCG_TACH_STATUS) & CG_TACH_STATUS__TACH_PERIOD_MASK) >> CG_TACH_STATUS__TACH_PERIOD__SHIFT; if (tach_period == 0) return -ENOENT; *speed = 60 * xclk * 10000 / tach_period; return 0; } static int ci_fan_ctrl_set_fan_speed_rpm(struct amdgpu_device *adev, u32 speed) { u32 tach_period, tmp; u32 xclk = amdgpu_asic_get_xclk(adev); if (adev->pm.no_fan) return -ENOENT; if (adev->pm.fan_pulses_per_revolution == 0) return -ENOENT; if ((speed < adev->pm.fan_min_rpm) || (speed > adev->pm.fan_max_rpm)) return -EINVAL; if (adev->pm.dpm.fan.ucode_fan_control) ci_fan_ctrl_stop_smc_fan_control(adev); tach_period = 60 * xclk * 10000 / (8 * speed); tmp = RREG32_SMC(ixCG_TACH_CTRL) & ~CG_TACH_CTRL__TARGET_PERIOD_MASK; tmp |= tach_period << CG_TACH_CTRL__TARGET_PERIOD__SHIFT; WREG32_SMC(CG_TACH_CTRL, tmp); ci_fan_ctrl_set_static_mode(adev, FDO_PWM_MODE_STATIC_RPM); return 0; } #endif
static void ci_fan_ctrl_set_default_mode(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); u32 tmp; if (!pi->fan_ctrl_is_in_default_mode) { tmp = RREG32_SMC(ixCG_FDO_CTRL2) & ~CG_FDO_CTRL2__FDO_PWM_MODE_MASK; tmp |= pi->fan_ctrl_default_mode << CG_FDO_CTRL2__FDO_PWM_MODE__SHIFT; WREG32_SMC(ixCG_FDO_CTRL2, tmp); tmp = RREG32_SMC(ixCG_FDO_CTRL2) & ~CG_FDO_CTRL2__TMIN_MASK; tmp |= pi->t_min << CG_FDO_CTRL2__TMIN__SHIFT; WREG32_SMC(ixCG_FDO_CTRL2, tmp); pi->fan_ctrl_is_in_default_mode = true; } }

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static void ci_thermal_start_smc_fan_control(struct amdgpu_device *adev) { if (adev->pm.dpm.fan.ucode_fan_control) { ci_fan_ctrl_start_smc_fan_control(adev); ci_fan_ctrl_set_static_mode(adev, FDO_PWM_MODE_STATIC); } }

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static void ci_thermal_initialize(struct amdgpu_device *adev) { u32 tmp; if (adev->pm.fan_pulses_per_revolution) { tmp = RREG32_SMC(ixCG_TACH_CTRL) & ~CG_TACH_CTRL__EDGE_PER_REV_MASK; tmp |= (adev->pm.fan_pulses_per_revolution - 1) << CG_TACH_CTRL__EDGE_PER_REV__SHIFT; WREG32_SMC(ixCG_TACH_CTRL, tmp); } tmp = RREG32_SMC(ixCG_FDO_CTRL2) & ~CG_FDO_CTRL2__TACH_PWM_RESP_RATE_MASK; tmp |= 0x28 << CG_FDO_CTRL2__TACH_PWM_RESP_RATE__SHIFT; WREG32_SMC(ixCG_FDO_CTRL2, tmp); }

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static int ci_thermal_start_thermal_controller(struct amdgpu_device *adev) { int ret; ci_thermal_initialize(adev); ret = ci_thermal_set_temperature_range(adev, CISLANDS_TEMP_RANGE_MIN, CISLANDS_TEMP_RANGE_MAX); if (ret) return ret; ret = ci_thermal_enable_alert(adev, true); if (ret) return ret; if (adev->pm.dpm.fan.ucode_fan_control) { ret = ci_thermal_setup_fan_table(adev); if (ret) return ret; ci_thermal_start_smc_fan_control(adev); } return 0; }

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static void ci_thermal_stop_thermal_controller(struct amdgpu_device *adev) { if (!adev->pm.no_fan) ci_fan_ctrl_set_default_mode(adev); }

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static int ci_read_smc_soft_register(struct amdgpu_device *adev, u16 reg_offset, u32 *value) { struct ci_power_info *pi = ci_get_pi(adev); return amdgpu_ci_read_smc_sram_dword(adev, pi->soft_regs_start + reg_offset, value, pi->sram_end); }

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Rex Zhu46100.00%1100.00%
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static int ci_write_smc_soft_register(struct amdgpu_device *adev, u16 reg_offset, u32 value) { struct ci_power_info *pi = ci_get_pi(adev); return amdgpu_ci_write_smc_sram_dword(adev, pi->soft_regs_start + reg_offset, value, pi->sram_end); }

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static void ci_init_fps_limits(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); SMU7_Discrete_DpmTable *table = &pi->smc_state_table; if (pi->caps_fps) { u16 tmp; tmp = 45; table->FpsHighT = cpu_to_be16(tmp); tmp = 30; table->FpsLowT = cpu_to_be16(tmp); } }

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static int ci_update_sclk_t(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); int ret = 0; u32 low_sclk_interrupt_t = 0; if (pi->caps_sclk_throttle_low_notification) { low_sclk_interrupt_t = cpu_to_be32(pi->low_sclk_interrupt_t); ret = amdgpu_ci_copy_bytes_to_smc(adev, pi->dpm_table_start + offsetof(SMU7_Discrete_DpmTable, LowSclkInterruptT), (u8 *)&low_sclk_interrupt_t, sizeof(u32), pi->sram_end); } return ret; }

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static void ci_get_leakage_voltages(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); u16 leakage_id, virtual_voltage_id; u16 vddc, vddci; int i; pi->vddc_leakage.count = 0; pi->vddci_leakage.count = 0; if (adev->pm.dpm.platform_caps & ATOM_PP_PLATFORM_CAP_EVV) { for (i = 0; i < CISLANDS_MAX_LEAKAGE_COUNT; i++) { virtual_voltage_id = ATOM_VIRTUAL_VOLTAGE_ID0 + i; if (amdgpu_atombios_get_voltage_evv(adev, virtual_voltage_id, &vddc) != 0) continue; if (vddc != 0 && vddc != virtual_voltage_id) { pi->vddc_leakage.actual_voltage[pi->vddc_leakage.count] = vddc; pi->vddc_leakage.leakage_id[pi->vddc_leakage.count] = virtual_voltage_id; pi->vddc_leakage.count++; } } } else if (amdgpu_atombios_get_leakage_id_from_vbios(adev, &leakage_id) == 0) { for (i = 0; i < CISLANDS_MAX_LEAKAGE_COUNT; i++) { virtual_voltage_id = ATOM_VIRTUAL_VOLTAGE_ID0 + i; if (amdgpu_atombios_get_leakage_vddc_based_on_leakage_params(adev, &vddc, &vddci, virtual_voltage_id, leakage_id) == 0) { if (vddc != 0 && vddc != virtual_voltage_id) { pi->vddc_leakage.actual_voltage[pi->vddc_leakage.count] = vddc; pi->vddc_leakage.leakage_id[pi->vddc_leakage.count] = virtual_voltage_id; pi->vddc_leakage.count++; } if (vddci != 0 && vddci != virtual_voltage_id) { pi->vddci_leakage.actual_voltage[pi->vddci_leakage.count] = vddci; pi->vddci_leakage.leakage_id[pi->vddci_leakage.count] = virtual_voltage_id; pi->vddci_leakage.count++; } } } } }

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static void ci_set_dpm_event_sources(struct amdgpu_device *adev, u32 sources) { struct ci_power_info *pi = ci_get_pi(adev); bool want_thermal_protection; enum amdgpu_dpm_event_src dpm_event_src; u32 tmp; switch (sources) { case 0: default: want_thermal_protection = false; break; case (1 << AMDGPU_DPM_AUTO_THROTTLE_SRC_THERMAL): want_thermal_protection = true; dpm_event_src = AMDGPU_DPM_EVENT_SRC_DIGITAL; break; case (1 << AMDGPU_DPM_AUTO_THROTTLE_SRC_EXTERNAL): want_thermal_protection = true; dpm_event_src = AMDGPU_DPM_EVENT_SRC_EXTERNAL; break; case ((1 << AMDGPU_DPM_AUTO_THROTTLE_SRC_EXTERNAL) | (1 << AMDGPU_DPM_AUTO_THROTTLE_SRC_THERMAL)): want_thermal_protection = true; dpm_event_src = AMDGPU_DPM_EVENT_SRC_DIGIAL_OR_EXTERNAL; break; } if (want_thermal_protection) { #if 0 /* XXX: need to figure out how to handle this properly */ tmp = RREG32_SMC(ixCG_THERMAL_CTRL); tmp &= DPM_EVENT_SRC_MASK; tmp |= DPM_EVENT_SRC(dpm_event_src); WREG32_SMC(ixCG_THERMAL_CTRL, tmp); #endif tmp = RREG32_SMC(ixGENERAL_PWRMGT); if (pi->thermal_protection) tmp &= ~GENERAL_PWRMGT__THERMAL_PROTECTION_DIS_MASK; else tmp |= GENERAL_PWRMGT__THERMAL_PROTECTION_DIS_MASK; WREG32_SMC(ixGENERAL_PWRMGT, tmp); } else { tmp = RREG32_SMC(ixGENERAL_PWRMGT); tmp |= GENERAL_PWRMGT__THERMAL_PROTECTION_DIS_MASK; WREG32_SMC(ixGENERAL_PWRMGT, tmp); } }

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static void ci_enable_auto_throttle_source(struct amdgpu_device *adev, enum amdgpu_dpm_auto_throttle_src source, bool enable) { struct ci_power_info *pi = ci_get_pi(adev); if (enable) { if (!(pi->active_auto_throttle_sources & (1 << source))) { pi->active_auto_throttle_sources |= 1 << source; ci_set_dpm_event_sources(adev, pi->active_auto_throttle_sources); } } else { if (pi->active_auto_throttle_sources & (1 << source)) { pi->active_auto_throttle_sources &= ~(1 << source); ci_set_dpm_event_sources(adev, pi->active_auto_throttle_sources); } } }

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static void ci_enable_vr_hot_gpio_interrupt(struct amdgpu_device *adev) { if (adev->pm.dpm.platform_caps & ATOM_PP_PLATFORM_CAP_REGULATOR_HOT) amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_EnableVRHotGPIOInterrupt); }

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static int ci_unfreeze_sclk_mclk_dpm(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); PPSMC_Result smc_result; if (!pi->need_update_smu7_dpm_table) return 0; if ((!pi->sclk_dpm_key_disabled) && (pi->need_update_smu7_dpm_table & (DPMTABLE_OD_UPDATE_SCLK | DPMTABLE_UPDATE_SCLK))) { smc_result = amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_SCLKDPM_UnfreezeLevel); if (smc_result != PPSMC_Result_OK) return -EINVAL; } if ((!pi->mclk_dpm_key_disabled) && (pi->need_update_smu7_dpm_table & DPMTABLE_OD_UPDATE_MCLK)) { smc_result = amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_MCLKDPM_UnfreezeLevel); if (smc_result != PPSMC_Result_OK) return -EINVAL; } pi->need_update_smu7_dpm_table = 0; return 0; }

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static int ci_enable_sclk_mclk_dpm(struct amdgpu_device *adev, bool enable) { struct ci_power_info *pi = ci_get_pi(adev); PPSMC_Result smc_result; if (enable) { if (!pi->sclk_dpm_key_disabled) { smc_result = amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_DPM_Enable); if (smc_result != PPSMC_Result_OK) return -EINVAL; } if (!pi->mclk_dpm_key_disabled) { smc_result = amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_MCLKDPM_Enable); if (smc_result != PPSMC_Result_OK) return -EINVAL; WREG32_P(mmMC_SEQ_CNTL_3, MC_SEQ_CNTL_3__CAC_EN_MASK, ~MC_SEQ_CNTL_3__CAC_EN_MASK); WREG32_SMC(ixLCAC_MC0_CNTL, 0x05); WREG32_SMC(ixLCAC_MC1_CNTL, 0x05); WREG32_SMC(ixLCAC_CPL_CNTL, 0x100005); udelay(10); WREG32_SMC(ixLCAC_MC0_CNTL, 0x400005); WREG32_SMC(ixLCAC_MC1_CNTL, 0x400005); WREG32_SMC(ixLCAC_CPL_CNTL, 0x500005); } } else { if (!pi->sclk_dpm_key_disabled) { smc_result = amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_DPM_Disable); if (smc_result != PPSMC_Result_OK) return -EINVAL; } if (!pi->mclk_dpm_key_disabled) { smc_result = amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_MCLKDPM_Disable); if (smc_result != PPSMC_Result_OK) return -EINVAL; } } return 0; }

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static int ci_start_dpm(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); PPSMC_Result smc_result; int ret; u32 tmp; tmp = RREG32_SMC(ixGENERAL_PWRMGT); tmp |= GENERAL_PWRMGT__GLOBAL_PWRMGT_EN_MASK; WREG32_SMC(ixGENERAL_PWRMGT, tmp); tmp = RREG32_SMC(ixSCLK_PWRMGT_CNTL); tmp |= SCLK_PWRMGT_CNTL__DYNAMIC_PM_EN_MASK; WREG32_SMC(ixSCLK_PWRMGT_CNTL, tmp); ci_write_smc_soft_register(adev, offsetof(SMU7_SoftRegisters, VoltageChangeTimeout), 0x1000); WREG32_P(mmBIF_LNCNT_RESET, 0, ~BIF_LNCNT_RESET__RESET_LNCNT_EN_MASK); smc_result = amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_Voltage_Cntl_Enable); if (smc_result != PPSMC_Result_OK) return -EINVAL; ret = ci_enable_sclk_mclk_dpm(adev, true); if (ret) return ret; if (!pi->pcie_dpm_key_disabled) { smc_result = amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_PCIeDPM_Enable); if (smc_result != PPSMC_Result_OK) return -EINVAL; } return 0; }

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static int ci_freeze_sclk_mclk_dpm(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); PPSMC_Result smc_result; if (!pi->need_update_smu7_dpm_table) return 0; if ((!pi->sclk_dpm_key_disabled) && (pi->need_update_smu7_dpm_table & (DPMTABLE_OD_UPDATE_SCLK | DPMTABLE_UPDATE_SCLK))) { smc_result = amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_SCLKDPM_FreezeLevel); if (smc_result != PPSMC_Result_OK) return -EINVAL; } if ((!pi->mclk_dpm_key_disabled) && (pi->need_update_smu7_dpm_table & DPMTABLE_OD_UPDATE_MCLK)) { smc_result = amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_MCLKDPM_FreezeLevel); if (smc_result != PPSMC_Result_OK) return -EINVAL; } return 0; }

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static int ci_stop_dpm(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); PPSMC_Result smc_result; int ret; u32 tmp; tmp = RREG32_SMC(ixGENERAL_PWRMGT); tmp &= ~GENERAL_PWRMGT__GLOBAL_PWRMGT_EN_MASK; WREG32_SMC(ixGENERAL_PWRMGT, tmp); tmp = RREG32_SMC(ixSCLK_PWRMGT_CNTL); tmp &= ~SCLK_PWRMGT_CNTL__DYNAMIC_PM_EN_MASK; WREG32_SMC(ixSCLK_PWRMGT_CNTL, tmp); if (!pi->pcie_dpm_key_disabled) { smc_result = amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_PCIeDPM_Disable); if (smc_result != PPSMC_Result_OK) return -EINVAL; } ret = ci_enable_sclk_mclk_dpm(adev, false); if (ret) return ret; smc_result = amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_Voltage_Cntl_Disable); if (smc_result != PPSMC_Result_OK) return -EINVAL; return 0; }

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static void ci_enable_sclk_control(struct amdgpu_device *adev, bool enable) { u32 tmp = RREG32_SMC(ixSCLK_PWRMGT_CNTL); if (enable) tmp &= ~SCLK_PWRMGT_CNTL__SCLK_PWRMGT_OFF_MASK; else tmp |= SCLK_PWRMGT_CNTL__SCLK_PWRMGT_OFF_MASK; WREG32_SMC(ixSCLK_PWRMGT_CNTL, tmp); }

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#if 0 static int ci_notify_hw_of_power_source(struct amdgpu_device *adev, bool ac_power) { struct ci_power_info *pi = ci_get_pi(adev); struct amdgpu_cac_tdp_table *cac_tdp_table = adev->pm.dpm.dyn_state.cac_tdp_table; u32 power_limit; if (ac_power) power_limit = (u32)(cac_tdp_table->maximum_power_delivery_limit * 256); else power_limit = (u32)(cac_tdp_table->battery_power_limit * 256); ci_set_power_limit(adev, power_limit); if (pi->caps_automatic_dc_transition) { if (ac_power) amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_RunningOnAC); else amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_Remove_DC_Clamp); } return 0; } #endif
static PPSMC_Result amdgpu_ci_send_msg_to_smc_with_parameter(struct amdgpu_device *adev, PPSMC_Msg msg, u32 parameter) { WREG32(mmSMC_MSG_ARG_0, parameter); return amdgpu_ci_send_msg_to_smc(adev, msg); }

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static PPSMC_Result amdgpu_ci_send_msg_to_smc_return_parameter(struct amdgpu_device *adev, PPSMC_Msg msg, u32 *parameter) { PPSMC_Result smc_result; smc_result = amdgpu_ci_send_msg_to_smc(adev, msg); if ((smc_result == PPSMC_Result_OK) && parameter) *parameter = RREG32(mmSMC_MSG_ARG_0); return smc_result; }

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static int ci_dpm_force_state_sclk(struct amdgpu_device *adev, u32 n) { struct ci_power_info *pi = ci_get_pi(adev); if (!pi->sclk_dpm_key_disabled) { PPSMC_Result smc_result = amdgpu_ci_send_msg_to_smc_with_parameter(adev, PPSMC_MSG_SCLKDPM_SetEnabledMask, 1 << n); if (smc_result != PPSMC_Result_OK) return -EINVAL; } return 0; }

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static int ci_dpm_force_state_mclk(struct amdgpu_device *adev, u32 n) { struct ci_power_info *pi = ci_get_pi(adev); if (!pi->mclk_dpm_key_disabled) { PPSMC_Result smc_result = amdgpu_ci_send_msg_to_smc_with_parameter(adev, PPSMC_MSG_MCLKDPM_SetEnabledMask, 1 << n); if (smc_result != PPSMC_Result_OK) return -EINVAL; } return 0; }

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static int ci_dpm_force_state_pcie(struct amdgpu_device *adev, u32 n) { struct ci_power_info *pi = ci_get_pi(adev); if (!pi->pcie_dpm_key_disabled) { PPSMC_Result smc_result = amdgpu_ci_send_msg_to_smc_with_parameter(adev, PPSMC_MSG_PCIeDPM_ForceLevel, n); if (smc_result != PPSMC_Result_OK) return -EINVAL; } return 0; }

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static int ci_set_power_limit(struct amdgpu_device *adev, u32 n) { struct ci_power_info *pi = ci_get_pi(adev); if (pi->power_containment_features & POWERCONTAINMENT_FEATURE_PkgPwrLimit) { PPSMC_Result smc_result = amdgpu_ci_send_msg_to_smc_with_parameter(adev, PPSMC_MSG_PkgPwrSetLimit, n); if (smc_result != PPSMC_Result_OK) return -EINVAL; } return 0; }

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static int ci_set_overdrive_target_tdp(struct amdgpu_device *adev, u32 target_tdp) { PPSMC_Result smc_result = amdgpu_ci_send_msg_to_smc_with_parameter(adev, PPSMC_MSG_OverDriveSetTargetTdp, target_tdp); if (smc_result != PPSMC_Result_OK) return -EINVAL; return 0; }

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#if 0 static int ci_set_boot_state(struct amdgpu_device *adev) { return ci_enable_sclk_mclk_dpm(adev, false); } #endif
static u32 ci_get_average_sclk_freq(struct amdgpu_device *adev) { u32 sclk_freq; PPSMC_Result smc_result = amdgpu_ci_send_msg_to_smc_return_parameter(adev, PPSMC_MSG_API_GetSclkFrequency, &sclk_freq); if (smc_result != PPSMC_Result_OK) sclk_freq = 0; return sclk_freq; }

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static u32 ci_get_average_mclk_freq(struct amdgpu_device *adev) { u32 mclk_freq; PPSMC_Result smc_result = amdgpu_ci_send_msg_to_smc_return_parameter(adev, PPSMC_MSG_API_GetMclkFrequency, &mclk_freq); if (smc_result != PPSMC_Result_OK) mclk_freq = 0; return mclk_freq; }

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static void ci_dpm_start_smc(struct amdgpu_device *adev) { int i; amdgpu_ci_program_jump_on_start(adev); amdgpu_ci_start_smc_clock(adev); amdgpu_ci_start_smc(adev); for (i = 0; i < adev->usec_timeout; i++) { if (RREG32_SMC(ixFIRMWARE_FLAGS) & FIRMWARE_FLAGS__INTERRUPTS_ENABLED_MASK) break; } }

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static void ci_dpm_stop_smc(struct amdgpu_device *adev) { amdgpu_ci_reset_smc(adev); amdgpu_ci_stop_smc_clock(adev); }

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static int ci_process_firmware_header(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); u32 tmp; int ret; ret = amdgpu_ci_read_smc_sram_dword(adev, SMU7_FIRMWARE_HEADER_LOCATION + offsetof(SMU7_Firmware_Header, DpmTable), &tmp, pi->sram_end); if (ret) return ret; pi->dpm_table_start = tmp; ret = amdgpu_ci_read_smc_sram_dword(adev, SMU7_FIRMWARE_HEADER_LOCATION + offsetof(SMU7_Firmware_Header, SoftRegisters), &tmp, pi->sram_end); if (ret) return ret; pi->soft_regs_start = tmp; ret = amdgpu_ci_read_smc_sram_dword(adev, SMU7_FIRMWARE_HEADER_LOCATION + offsetof(SMU7_Firmware_Header, mcRegisterTable), &tmp, pi->sram_end); if (ret) return ret; pi->mc_reg_table_start = tmp; ret = amdgpu_ci_read_smc_sram_dword(adev, SMU7_FIRMWARE_HEADER_LOCATION + offsetof(SMU7_Firmware_Header, FanTable), &tmp, pi->sram_end); if (ret) return ret; pi->fan_table_start = tmp; ret = amdgpu_ci_read_smc_sram_dword(adev, SMU7_FIRMWARE_HEADER_LOCATION + offsetof(SMU7_Firmware_Header, mcArbDramTimingTable), &tmp, pi->sram_end); if (ret) return ret; pi->arb_table_start = tmp; return 0; }

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static void ci_read_clock_registers(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); pi->clock_registers.cg_spll_func_cntl = RREG32_SMC(ixCG_SPLL_FUNC_CNTL); pi->clock_registers.cg_spll_func_cntl_2 = RREG32_SMC(ixCG_SPLL_FUNC_CNTL_2); pi->clock_registers.cg_spll_func_cntl_3 = RREG32_SMC(ixCG_SPLL_FUNC_CNTL_3); pi->clock_registers.cg_spll_func_cntl_4 = RREG32_SMC(ixCG_SPLL_FUNC_CNTL_4); pi->clock_registers.cg_spll_spread_spectrum = RREG32_SMC(ixCG_SPLL_SPREAD_SPECTRUM); pi->clock_registers.cg_spll_spread_spectrum_2 = RREG32_SMC(ixCG_SPLL_SPREAD_SPECTRUM_2); pi->clock_registers.dll_cntl = RREG32(mmDLL_CNTL); pi->clock_registers.mclk_pwrmgt_cntl = RREG32(mmMCLK_PWRMGT_CNTL); pi->clock_registers.mpll_ad_func_cntl = RREG32(mmMPLL_AD_FUNC_CNTL); pi->clock_registers.mpll_dq_func_cntl = RREG32(mmMPLL_DQ_FUNC_CNTL); pi->clock_registers.mpll_func_cntl = RREG32(mmMPLL_FUNC_CNTL); pi->clock_registers.mpll_func_cntl_1 = RREG32(mmMPLL_FUNC_CNTL_1); pi->clock_registers.mpll_func_cntl_2 = RREG32(mmMPLL_FUNC_CNTL_2); pi->clock_registers.mpll_ss1 = RREG32(mmMPLL_SS1); pi->clock_registers.mpll_ss2 = RREG32(mmMPLL_SS2); }

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static void ci_init_sclk_t(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); pi->low_sclk_interrupt_t = 0; }

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static void ci_enable_thermal_protection(struct amdgpu_device *adev, bool enable) { u32 tmp = RREG32_SMC(ixGENERAL_PWRMGT); if (enable) tmp &= ~GENERAL_PWRMGT__THERMAL_PROTECTION_DIS_MASK; else tmp |= GENERAL_PWRMGT__THERMAL_PROTECTION_DIS_MASK; WREG32_SMC(ixGENERAL_PWRMGT, tmp); }

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static void ci_enable_acpi_power_management(struct amdgpu_device *adev) { u32 tmp = RREG32_SMC(ixGENERAL_PWRMGT); tmp |= GENERAL_PWRMGT__STATIC_PM_EN_MASK; WREG32_SMC(ixGENERAL_PWRMGT, tmp); }

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#if 0 static int ci_enter_ulp_state(struct amdgpu_device *adev) { WREG32(mmSMC_MESSAGE_0, PPSMC_MSG_SwitchToMinimumPower); udelay(25000); return 0; } static int ci_exit_ulp_state(struct amdgpu_device *adev) { int i; WREG32(mmSMC_MESSAGE_0, PPSMC_MSG_ResumeFromMinimumPower); udelay(7000); for (i = 0; i < adev->usec_timeout; i++) { if (RREG32(mmSMC_RESP_0) == 1) break; udelay(1000); } return 0; } #endif
static int ci_notify_smc_display_change(struct amdgpu_device *adev, bool has_display) { PPSMC_Msg msg = has_display ? PPSMC_MSG_HasDisplay : PPSMC_MSG_NoDisplay; return (amdgpu_ci_send_msg_to_smc(adev, msg) == PPSMC_Result_OK) ? 0 : -EINVAL; }

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static int ci_enable_ds_master_switch(struct amdgpu_device *adev, bool enable) { struct ci_power_info *pi = ci_get_pi(adev); if (enable) { if (pi->caps_sclk_ds) { if (amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_MASTER_DeepSleep_ON) != PPSMC_Result_OK) return -EINVAL; } else { if (amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_MASTER_DeepSleep_OFF) != PPSMC_Result_OK) return -EINVAL; } } else { if (pi->caps_sclk_ds) { if (amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_MASTER_DeepSleep_OFF) != PPSMC_Result_OK) return -EINVAL; } } return 0; }

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static void ci_program_display_gap(struct amdgpu_device *adev) { u32 tmp = RREG32_SMC(ixCG_DISPLAY_GAP_CNTL); u32 pre_vbi_time_in_us; u32 frame_time_in_us; u32 ref_clock = adev->clock.spll.reference_freq; u32 refresh_rate = amdgpu_dpm_get_vrefresh(adev); u32 vblank_time = amdgpu_dpm_get_vblank_time(adev); tmp &= ~CG_DISPLAY_GAP_CNTL__DISP_GAP_MASK; if (adev->pm.dpm.new_active_crtc_count > 0) tmp |= (AMDGPU_PM_DISPLAY_GAP_VBLANK_OR_WM << CG_DISPLAY_GAP_CNTL__DISP_GAP__SHIFT); else tmp |= (AMDGPU_PM_DISPLAY_GAP_IGNORE << CG_DISPLAY_GAP_CNTL__DISP_GAP__SHIFT); WREG32_SMC(ixCG_DISPLAY_GAP_CNTL, tmp); if (refresh_rate == 0) refresh_rate = 60; if (vblank_time == 0xffffffff) vblank_time = 500; frame_time_in_us = 1000000 / refresh_rate; pre_vbi_time_in_us = frame_time_in_us - 200 - vblank_time; tmp = pre_vbi_time_in_us * (ref_clock / 100); WREG32_SMC(ixCG_DISPLAY_GAP_CNTL2, tmp); ci_write_smc_soft_register(adev, offsetof(SMU7_SoftRegisters, PreVBlankGap), 0x64); ci_write_smc_soft_register(adev, offsetof(SMU7_SoftRegisters, VBlankTimeout), (frame_time_in_us - pre_vbi_time_in_us)); ci_notify_smc_display_change(adev, (adev->pm.dpm.new_active_crtc_count == 1)); }

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static void ci_enable_spread_spectrum(struct amdgpu_device *adev, bool enable) { struct ci_power_info *pi = ci_get_pi(adev); u32 tmp; if (enable) { if (pi->caps_sclk_ss_support) { tmp = RREG32_SMC(ixGENERAL_PWRMGT); tmp |= GENERAL_PWRMGT__DYN_SPREAD_SPECTRUM_EN_MASK; WREG32_SMC(ixGENERAL_PWRMGT, tmp); } } else { tmp = RREG32_SMC(ixCG_SPLL_SPREAD_SPECTRUM); tmp &= ~CG_SPLL_SPREAD_SPECTRUM__SSEN_MASK; WREG32_SMC(ixCG_SPLL_SPREAD_SPECTRUM, tmp); tmp = RREG32_SMC(ixGENERAL_PWRMGT); tmp &= ~GENERAL_PWRMGT__DYN_SPREAD_SPECTRUM_EN_MASK; WREG32_SMC(ixGENERAL_PWRMGT, tmp); } }

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static void ci_program_sstp(struct amdgpu_device *adev) { WREG32_SMC(ixCG_STATIC_SCREEN_PARAMETER, ((CISLANDS_SSTU_DFLT << CG_STATIC_SCREEN_PARAMETER__STATIC_SCREEN_THRESHOLD_UNIT__SHIFT) | (CISLANDS_SST_DFLT << CG_STATIC_SCREEN_PARAMETER__STATIC_SCREEN_THRESHOLD__SHIFT))); }

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static void ci_enable_display_gap(struct amdgpu_device *adev) { u32 tmp = RREG32_SMC(ixCG_DISPLAY_GAP_CNTL); tmp &= ~(CG_DISPLAY_GAP_CNTL__DISP_GAP_MASK | CG_DISPLAY_GAP_CNTL__DISP_GAP_MCHG_MASK); tmp |= ((AMDGPU_PM_DISPLAY_GAP_IGNORE << CG_DISPLAY_GAP_CNTL__DISP_GAP__SHIFT) | (AMDGPU_PM_DISPLAY_GAP_VBLANK << CG_DISPLAY_GAP_CNTL__DISP_GAP_MCHG__SHIFT)); WREG32_SMC(ixCG_DISPLAY_GAP_CNTL, tmp); }

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static void ci_program_vc(struct amdgpu_device *adev) { u32 tmp; tmp = RREG32_SMC(ixSCLK_PWRMGT_CNTL); tmp &= ~(SCLK_PWRMGT_CNTL__RESET_SCLK_CNT_MASK | SCLK_PWRMGT_CNTL__RESET_BUSY_CNT_MASK); WREG32_SMC(ixSCLK_PWRMGT_CNTL, tmp); WREG32_SMC(ixCG_FREQ_TRAN_VOTING_0, CISLANDS_VRC_DFLT0); WREG32_SMC(ixCG_FREQ_TRAN_VOTING_1, CISLANDS_VRC_DFLT1); WREG32_SMC(ixCG_FREQ_TRAN_VOTING_2, CISLANDS_VRC_DFLT2); WREG32_SMC(ixCG_FREQ_TRAN_VOTING_3, CISLANDS_VRC_DFLT3); WREG32_SMC(ixCG_FREQ_TRAN_VOTING_4, CISLANDS_VRC_DFLT4); WREG32_SMC(ixCG_FREQ_TRAN_VOTING_5, CISLANDS_VRC_DFLT5); WREG32_SMC(ixCG_FREQ_TRAN_VOTING_6, CISLANDS_VRC_DFLT6); WREG32_SMC(ixCG_FREQ_TRAN_VOTING_7, CISLANDS_VRC_DFLT7); }

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static void ci_clear_vc(struct amdgpu_device *adev) { u32 tmp; tmp = RREG32_SMC(ixSCLK_PWRMGT_CNTL); tmp |= (SCLK_PWRMGT_CNTL__RESET_SCLK_CNT_MASK | SCLK_PWRMGT_CNTL__RESET_BUSY_CNT_MASK); WREG32_SMC(ixSCLK_PWRMGT_CNTL, tmp); WREG32_SMC(ixCG_FREQ_TRAN_VOTING_0, 0); WREG32_SMC(ixCG_FREQ_TRAN_VOTING_1, 0); WREG32_SMC(ixCG_FREQ_TRAN_VOTING_2, 0); WREG32_SMC(ixCG_FREQ_TRAN_VOTING_3, 0); WREG32_SMC(ixCG_FREQ_TRAN_VOTING_4, 0); WREG32_SMC(ixCG_FREQ_TRAN_VOTING_5, 0); WREG32_SMC(ixCG_FREQ_TRAN_VOTING_6, 0); WREG32_SMC(ixCG_FREQ_TRAN_VOTING_7, 0); }

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static int ci_upload_firmware(struct amdgpu_device *adev) { int i, ret; if (amdgpu_ci_is_smc_running(adev)) { DRM_INFO("smc is running, no need to load smc firmware\n"); return 0; } for (i = 0; i < adev->usec_timeout; i++) { if (RREG32_SMC(ixRCU_UC_EVENTS) & RCU_UC_EVENTS__boot_seq_done_MASK) break; } WREG32_SMC(ixSMC_SYSCON_MISC_CNTL, 1); amdgpu_ci_stop_smc_clock(adev); amdgpu_ci_reset_smc(adev); ret = amdgpu_ci_load_smc_ucode(adev, SMC_RAM_END); return ret; }

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static int ci_get_svi2_voltage_table(struct amdgpu_device *adev, struct amdgpu_clock_voltage_dependency_table *voltage_dependency_table, struct atom_voltage_table *voltage_table) { u32 i; if (voltage_dependency_table == NULL) return -EINVAL; voltage_table->mask_low = 0; voltage_table->phase_delay = 0; voltage_table->count = voltage_dependency_table->count; for (i = 0; i < voltage_table->count; i++) { voltage_table->entries[i].value = voltage_dependency_table->entries[i].v; voltage_table->entries[i].smio_low = 0; } return 0; }

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static int ci_construct_voltage_tables(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); int ret; if (pi->voltage_control == CISLANDS_VOLTAGE_CONTROL_BY_GPIO) { ret = amdgpu_atombios_get_voltage_table(adev, VOLTAGE_TYPE_VDDC, VOLTAGE_OBJ_GPIO_LUT, &pi->vddc_voltage_table); if (ret) return ret; } else if (pi->voltage_control == CISLANDS_VOLTAGE_CONTROL_BY_SVID2) { ret = ci_get_svi2_voltage_table(adev, &adev->pm.dpm.dyn_state.vddc_dependency_on_mclk, &pi->vddc_voltage_table); if (ret) return ret; } if (pi->vddc_voltage_table.count > SMU7_MAX_LEVELS_VDDC) ci_trim_voltage_table_to_fit_state_table(adev, SMU7_MAX_LEVELS_VDDC, &pi->vddc_voltage_table); if (pi->vddci_control == CISLANDS_VOLTAGE_CONTROL_BY_GPIO) { ret = amdgpu_atombios_get_voltage_table(adev, VOLTAGE_TYPE_VDDCI, VOLTAGE_OBJ_GPIO_LUT, &pi->vddci_voltage_table); if (ret) return ret; } else if (pi->vddci_control == CISLANDS_VOLTAGE_CONTROL_BY_SVID2) { ret = ci_get_svi2_voltage_table(adev, &adev->pm.dpm.dyn_state.vddci_dependency_on_mclk, &pi->vddci_voltage_table); if (ret) return ret; } if (pi->vddci_voltage_table.count > SMU7_MAX_LEVELS_VDDCI) ci_trim_voltage_table_to_fit_state_table(adev, SMU7_MAX_LEVELS_VDDCI, &pi->vddci_voltage_table); if (pi->mvdd_control == CISLANDS_VOLTAGE_CONTROL_BY_GPIO) { ret = amdgpu_atombios_get_voltage_table(adev, VOLTAGE_TYPE_MVDDC, VOLTAGE_OBJ_GPIO_LUT, &pi->mvdd_voltage_table); if (ret) return ret; } else if (pi->mvdd_control == CISLANDS_VOLTAGE_CONTROL_BY_SVID2) { ret = ci_get_svi2_voltage_table(adev, &adev->pm.dpm.dyn_state.mvdd_dependency_on_mclk, &pi->mvdd_voltage_table); if (ret) return ret; } if (pi->mvdd_voltage_table.count > SMU7_MAX_LEVELS_MVDD) ci_trim_voltage_table_to_fit_state_table(adev, SMU7_MAX_LEVELS_MVDD, &pi->mvdd_voltage_table); return 0; }

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Alex Deucher315100.00%1100.00%
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static void ci_populate_smc_voltage_table(struct amdgpu_device *adev, struct atom_voltage_table_entry *voltage_table, SMU7_Discrete_VoltageLevel *smc_voltage_table) { int ret; ret = ci_get_std_voltage_value_sidd(adev, voltage_table, &smc_voltage_table->StdVoltageHiSidd, &smc_voltage_table->StdVoltageLoSidd); if (ret) { smc_voltage_table->StdVoltageHiSidd = voltage_table->value * VOLTAGE_SCALE; smc_voltage_table->StdVoltageLoSidd = voltage_table->value * VOLTAGE_SCALE; } smc_voltage_table->Voltage = cpu_to_be16(voltage_table->value * VOLTAGE_SCALE); smc_voltage_table->StdVoltageHiSidd = cpu_to_be16(smc_voltage_table->StdVoltageHiSidd); smc_voltage_table->StdVoltageLoSidd = cpu_to_be16(smc_voltage_table->StdVoltageLoSidd); }

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static int ci_populate_smc_vddc_table(struct amdgpu_device *adev, SMU7_Discrete_DpmTable *table) { struct ci_power_info *pi = ci_get_pi(adev); unsigned int count; table->VddcLevelCount = pi->vddc_voltage_table.count; for (count = 0; count < table->VddcLevelCount; count++) { ci_populate_smc_voltage_table(adev, &pi->vddc_voltage_table.entries[count], &table->VddcLevel[count]); if (pi->voltage_control == CISLANDS_VOLTAGE_CONTROL_BY_GPIO) table->VddcLevel[count].Smio |= pi->vddc_voltage_table.entries[count].smio_low; else table->VddcLevel[count].Smio = 0; } table->VddcLevelCount = cpu_to_be32(table->VddcLevelCount); return 0; }

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static int ci_populate_smc_vddci_table(struct amdgpu_device *adev, SMU7_Discrete_DpmTable *table) { unsigned int count; struct ci_power_info *pi = ci_get_pi(adev); table->VddciLevelCount = pi->vddci_voltage_table.count; for (count = 0; count < table->VddciLevelCount; count++) { ci_populate_smc_voltage_table(adev, &pi->vddci_voltage_table.entries[count], &table->VddciLevel[count]); if (pi->vddci_control == CISLANDS_VOLTAGE_CONTROL_BY_GPIO) table->VddciLevel[count].Smio |= pi->vddci_voltage_table.entries[count].smio_low; else table->VddciLevel[count].Smio = 0; } table->VddciLevelCount = cpu_to_be32(table->VddciLevelCount); return 0; }

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static int ci_populate_smc_mvdd_table(struct amdgpu_device *adev, SMU7_Discrete_DpmTable *table) { struct ci_power_info *pi = ci_get_pi(adev); unsigned int count; table->MvddLevelCount = pi->mvdd_voltage_table.count; for (count = 0; count < table->MvddLevelCount; count++) { ci_populate_smc_voltage_table(adev, &pi->mvdd_voltage_table.entries[count], &table->MvddLevel[count]); if (pi->mvdd_control == CISLANDS_VOLTAGE_CONTROL_BY_GPIO) table->MvddLevel[count].Smio |= pi->mvdd_voltage_table.entries[count].smio_low; else table->MvddLevel[count].Smio = 0; } table->MvddLevelCount = cpu_to_be32(table->MvddLevelCount); return 0; }

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static int ci_populate_smc_voltage_tables(struct amdgpu_device *adev, SMU7_Discrete_DpmTable *table) { int ret; ret = ci_populate_smc_vddc_table(adev, table); if (ret) return ret; ret = ci_populate_smc_vddci_table(adev, table); if (ret) return ret; ret = ci_populate_smc_mvdd_table(adev, table); if (ret) return ret; return 0; }

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static int ci_populate_mvdd_value(struct amdgpu_device *adev, u32 mclk, SMU7_Discrete_VoltageLevel *voltage) { struct ci_power_info *pi = ci_get_pi(adev); u32 i = 0; if (pi->mvdd_control != CISLANDS_VOLTAGE_CONTROL_NONE) { for (i = 0; i < adev->pm.dpm.dyn_state.mvdd_dependency_on_mclk.count; i++) { if (mclk <= adev->pm.dpm.dyn_state.mvdd_dependency_on_mclk.entries[i].clk) { voltage->Voltage = pi->mvdd_voltage_table.entries[i].value; break; } } if (i >= adev->pm.dpm.dyn_state.mvdd_dependency_on_mclk.count) return -EINVAL; } return -EINVAL; }

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static int ci_get_std_voltage_value_sidd(struct amdgpu_device *adev, struct atom_voltage_table_entry *voltage_table, u16 *std_voltage_hi_sidd, u16 *std_voltage_lo_sidd) { u16 v_index, idx; bool voltage_found = false; *std_voltage_hi_sidd = voltage_table->value * VOLTAGE_SCALE; *std_voltage_lo_sidd = voltage_table->value * VOLTAGE_SCALE; if (adev->pm.dpm.dyn_state.vddc_dependency_on_sclk.entries == NULL) return -EINVAL; if (adev->pm.dpm.dyn_state.cac_leakage_table.entries) { for (v_index = 0; (u32)v_index < adev->pm.dpm.dyn_state.vddc_dependency_on_sclk.count; v_index++) { if (voltage_table->value == adev->pm.dpm.dyn_state.vddc_dependency_on_sclk.entries[v_index].v) { voltage_found = true; if ((u32)v_index < adev->pm.dpm.dyn_state.cac_leakage_table.count) idx = v_index; else idx = adev->pm.dpm.dyn_state.cac_leakage_table.count - 1; *std_voltage_lo_sidd = adev->pm.dpm.dyn_state.cac_leakage_table.entries[idx].vddc * VOLTAGE_SCALE; *std_voltage_hi_sidd = adev->pm.dpm.dyn_state.cac_leakage_table.entries[idx].leakage * VOLTAGE_SCALE; break; } } if (!voltage_found) { for (v_index = 0; (u32)v_index < adev->pm.dpm.dyn_state.vddc_dependency_on_sclk.count; v_index++) { if (voltage_table->value <= adev->pm.dpm.dyn_state.vddc_dependency_on_sclk.entries[v_index].v) { voltage_found = true; if ((u32)v_index < adev->pm.dpm.dyn_state.cac_leakage_table.count) idx = v_index; else idx = adev->pm.dpm.dyn_state.cac_leakage_table.count - 1; *std_voltage_lo_sidd = adev->pm.dpm.dyn_state.cac_leakage_table.entries[idx].vddc * VOLTAGE_SCALE; *std_voltage_hi_sidd = adev->pm.dpm.dyn_state.cac_leakage_table.entries[idx].leakage * VOLTAGE_SCALE; break; } } } } return 0; }

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static void ci_populate_phase_value_based_on_sclk(struct amdgpu_device *adev, const struct amdgpu_phase_shedding_limits_table *limits, u32 sclk, u32 *phase_shedding) { unsigned int i; *phase_shedding = 1; for (i = 0; i < limits->count; i++) { if (sclk < limits->entries[i].sclk) { *phase_shedding = i; break; } } }

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static void ci_populate_phase_value_based_on_mclk(struct amdgpu_device *adev, const struct amdgpu_phase_shedding_limits_table *limits, u32 mclk, u32 *phase_shedding) { unsigned int i; *phase_shedding = 1; for (i = 0; i < limits->count; i++) { if (mclk < limits->entries[i].mclk) { *phase_shedding = i; break; } } }

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static int ci_init_arb_table_index(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); u32 tmp; int ret; ret = amdgpu_ci_read_smc_sram_dword(adev, pi->arb_table_start, &tmp, pi->sram_end); if (ret) return ret; tmp &= 0x00FFFFFF; tmp |= MC_CG_ARB_FREQ_F1 << 24; return amdgpu_ci_write_smc_sram_dword(adev, pi->arb_table_start, tmp, pi->sram_end); }

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static int ci_get_dependency_volt_by_clk(struct amdgpu_device *adev, struct amdgpu_clock_voltage_dependency_table *allowed_clock_voltage_table, u32 clock, u32 *voltage) { u32 i = 0; if (allowed_clock_voltage_table->count == 0) return -EINVAL; for (i = 0; i < allowed_clock_voltage_table->count; i++) { if (allowed_clock_voltage_table->entries[i].clk >= clock) { *voltage = allowed_clock_voltage_table->entries[i].v; return 0; } } *voltage = allowed_clock_voltage_table->entries[i-1].v; return 0; }

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static u8 ci_get_sleep_divider_id_from_clock(u32 sclk, u32 min_sclk_in_sr) { u32 i; u32 tmp; u32 min = max(min_sclk_in_sr, (u32)CISLAND_MINIMUM_ENGINE_CLOCK); if (sclk < min) return 0; for (i = CISLAND_MAX_DEEPSLEEP_DIVIDER_ID; ; i--) { tmp = sclk >> i; if (tmp >= min || i == 0) break; } return (u8)i; }

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static int ci_initial_switch_from_arb_f0_to_f1(struct amdgpu_device *adev) { return ci_copy_and_switch_arb_sets(adev, MC_CG_ARB_FREQ_F0, MC_CG_ARB_FREQ_F1); }

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static int ci_reset_to_default(struct amdgpu_device *adev) { return (amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_ResetToDefaults) == PPSMC_Result_OK) ? 0 : -EINVAL; }

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static int ci_force_switch_to_arb_f0(struct amdgpu_device *adev) { u32 tmp; tmp = (RREG32_SMC(ixSMC_SCRATCH9) & 0x0000ff00) >> 8; if (tmp == MC_CG_ARB_FREQ_F0) return 0; return ci_copy_and_switch_arb_sets(adev, tmp, MC_CG_ARB_FREQ_F0); }

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static void ci_register_patching_mc_arb(struct amdgpu_device *adev, const u32 engine_clock, const u32 memory_clock, u32 *dram_timimg2) { bool patch; u32 tmp, tmp2; tmp = RREG32(mmMC_SEQ_MISC0); patch = ((tmp & 0x0000f00) == 0x300) ? true : false; if (patch && ((adev->pdev->device == 0x67B0) || (adev->pdev->device == 0x67B1))) { if ((memory_clock > 100000) && (memory_clock <= 125000)) { tmp2 = (((0x31 * engine_clock) / 125000) - 1) & 0xff; *dram_timimg2 &= ~0x00ff0000; *dram_timimg2 |= tmp2 << 16; } else if ((memory_clock > 125000) && (memory_clock <= 137500)) { tmp2 = (((0x36 * engine_clock) / 137500) - 1) & 0xff; *dram_timimg2 &= ~0x00ff0000; *dram_timimg2 |= tmp2 << 16; } } }

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static int ci_populate_memory_timing_parameters(struct amdgpu_device *adev, u32 sclk, u32 mclk, SMU7_Discrete_MCArbDramTimingTableEntry *arb_regs) { u32 dram_timing; u32 dram_timing2; u32 burst_time; amdgpu_atombios_set_engine_dram_timings(adev, sclk, mclk); dram_timing = RREG32(mmMC_ARB_DRAM_TIMING); dram_timing2 = RREG32(mmMC_ARB_DRAM_TIMING2); burst_time = RREG32(mmMC_ARB_BURST_TIME) & MC_ARB_BURST_TIME__STATE0_MASK; ci_register_patching_mc_arb(adev, sclk, mclk, &dram_timing2); arb_regs->McArbDramTiming = cpu_to_be32(dram_timing); arb_regs->McArbDramTiming2 = cpu_to_be32(dram_timing2); arb_regs->McArbBurstTime = (u8)burst_time; return 0; }

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static int ci_do_program_memory_timing_parameters(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); SMU7_Discrete_MCArbDramTimingTable arb_regs; u32 i, j; int ret = 0; memset(&arb_regs, 0, sizeof(SMU7_Discrete_MCArbDramTimingTable)); for (i = 0; i < pi->dpm_table.sclk_table.count; i++) { for (j = 0; j < pi->dpm_table.mclk_table.count; j++) { ret = ci_populate_memory_timing_parameters(adev, pi->dpm_table.sclk_table.dpm_levels[i].value, pi->dpm_table.mclk_table.dpm_levels[j].value, &arb_regs.entries[i][j]); if (ret) break; } } if (ret == 0) ret = amdgpu_ci_copy_bytes_to_smc(adev, pi->arb_table_start, (u8 *)&arb_regs, sizeof(SMU7_Discrete_MCArbDramTimingTable), pi->sram_end); return ret; }

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static int ci_program_memory_timing_parameters(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); if (pi->need_update_smu7_dpm_table == 0) return 0; return ci_do_program_memory_timing_parameters(adev); }

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static void ci_populate_smc_initial_state(struct amdgpu_device *adev, struct amdgpu_ps *amdgpu_boot_state) { struct ci_ps *boot_state = ci_get_ps(amdgpu_boot_state); struct ci_power_info *pi = ci_get_pi(adev); u32 level = 0; for (level = 0; level < adev->pm.dpm.dyn_state.vddc_dependency_on_sclk.count; level++) { if (adev->pm.dpm.dyn_state.vddc_dependency_on_sclk.entries[level].clk >= boot_state->performance_levels[0].sclk) { pi->smc_state_table.GraphicsBootLevel = level; break; } } for (level = 0; level < adev->pm.dpm.dyn_state.vddc_dependency_on_mclk.count; level++) { if (adev->pm.dpm.dyn_state.vddc_dependency_on_mclk.entries[level].clk >= boot_state->performance_levels[0].mclk) { pi->smc_state_table.MemoryBootLevel = level; break; } } }

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static u32 ci_get_dpm_level_enable_mask_value(struct ci_single_dpm_table *dpm_table) { u32 i; u32 mask_value = 0; for (i = dpm_table->count; i > 0; i--) { mask_value = mask_value << 1; if (dpm_table->dpm_levels[i-1].enabled) mask_value |= 0x1; else mask_value &= 0xFFFFFFFE; } return mask_value; }

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static void ci_populate_smc_link_level(struct amdgpu_device *adev, SMU7_Discrete_DpmTable *table) { struct ci_power_info *pi = ci_get_pi(adev); struct ci_dpm_table *dpm_table = &pi->dpm_table; u32 i; for (i = 0; i < dpm_table->pcie_speed_table.count; i++) { table->LinkLevel[i].PcieGenSpeed = (u8)dpm_table->pcie_speed_table.dpm_levels[i].value; table->LinkLevel[i].PcieLaneCount = amdgpu_encode_pci_lane_width(dpm_table->pcie_speed_table.dpm_levels[i].param1); table->LinkLevel[i].EnabledForActivity = 1; table->LinkLevel[i].DownT = cpu_to_be32(5); table->LinkLevel[i].UpT = cpu_to_be32(30); } pi->smc_state_table.LinkLevelCount = (u8)dpm_table->pcie_speed_table.count; pi->dpm_level_enable_mask.pcie_dpm_enable_mask = ci_get_dpm_level_enable_mask_value(&dpm_table->pcie_speed_table); }

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static int ci_populate_smc_uvd_level(struct amdgpu_device *adev, SMU7_Discrete_DpmTable *table) { u32 count; struct atom_clock_dividers dividers; int ret = -EINVAL; table->UvdLevelCount = adev->pm.dpm.dyn_state.uvd_clock_voltage_dependency_table.count; for (count = 0; count < table->UvdLevelCount; count++) { table->UvdLevel[count].VclkFrequency = adev->pm.dpm.dyn_state.uvd_clock_voltage_dependency_table.entries[count].vclk; table->UvdLevel[count].DclkFrequency = adev->pm.dpm.dyn_state.uvd_clock_voltage_dependency_table.entries[count].dclk; table->UvdLevel[count].MinVddc = adev->pm.dpm.dyn_state.uvd_clock_voltage_dependency_table.entries[count].v * VOLTAGE_SCALE; table->UvdLevel[count].MinVddcPhases = 1; ret = amdgpu_atombios_get_clock_dividers(adev, COMPUTE_GPUCLK_INPUT_FLAG_DEFAULT_GPUCLK, table->UvdLevel[count].VclkFrequency, false, &dividers); if (ret) return ret; table->UvdLevel[count].VclkDivider = (u8)dividers.post_divider; ret = amdgpu_atombios_get_clock_dividers(adev, COMPUTE_GPUCLK_INPUT_FLAG_DEFAULT_GPUCLK, table->UvdLevel[count].DclkFrequency, false, &dividers); if (ret) return ret; table->UvdLevel[count].DclkDivider = (u8)dividers.post_divider; table->UvdLevel[count].VclkFrequency = cpu_to_be32(table->UvdLevel[count].VclkFrequency); table->UvdLevel[count].DclkFrequency = cpu_to_be32(table->UvdLevel[count].DclkFrequency); table->UvdLevel[count].MinVddc = cpu_to_be16(table->UvdLevel[count].MinVddc); } return ret; }

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static int ci_populate_smc_vce_level(struct amdgpu_device *adev, SMU7_Discrete_DpmTable *table) { u32 count; struct atom_clock_dividers dividers; int ret = -EINVAL; table->VceLevelCount = adev->pm.dpm.dyn_state.vce_clock_voltage_dependency_table.count; for (count = 0; count < table->VceLevelCount; count++) { table->VceLevel[count].Frequency = adev->pm.dpm.dyn_state.vce_clock_voltage_dependency_table.entries[count].evclk; table->VceLevel[count].MinVoltage = (u16)adev->pm.dpm.dyn_state.vce_clock_voltage_dependency_table.entries[count].v * VOLTAGE_SCALE; table->VceLevel[count].MinPhases = 1; ret = amdgpu_atombios_get_clock_dividers(adev, COMPUTE_GPUCLK_INPUT_FLAG_DEFAULT_GPUCLK, table->VceLevel[count].Frequency, false, &dividers); if (ret) return ret; table->VceLevel[count].Divider = (u8)dividers.post_divider; table->VceLevel[count].Frequency = cpu_to_be32(table->VceLevel[count].Frequency); table->VceLevel[count].MinVoltage = cpu_to_be16(table->VceLevel[count].MinVoltage); } return ret; }

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static int ci_populate_smc_acp_level(struct amdgpu_device *adev, SMU7_Discrete_DpmTable *table) { u32 count; struct atom_clock_dividers dividers; int ret = -EINVAL; table->AcpLevelCount = (u8) (adev->pm.dpm.dyn_state.acp_clock_voltage_dependency_table.count); for (count = 0; count < table->AcpLevelCount; count++) { table->AcpLevel[count].Frequency = adev->pm.dpm.dyn_state.acp_clock_voltage_dependency_table.entries[count].clk; table->AcpLevel[count].MinVoltage = adev->pm.dpm.dyn_state.acp_clock_voltage_dependency_table.entries[count].v; table->AcpLevel[count].MinPhases = 1; ret = amdgpu_atombios_get_clock_dividers(adev, COMPUTE_GPUCLK_INPUT_FLAG_DEFAULT_GPUCLK, table->AcpLevel[count].Frequency, false, &dividers); if (ret) return ret; table->AcpLevel[count].Divider = (u8)dividers.post_divider; table->AcpLevel[count].Frequency = cpu_to_be32(table->AcpLevel[count].Frequency); table->AcpLevel[count].MinVoltage = cpu_to_be16(table->AcpLevel[count].MinVoltage); } return ret; }

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static int ci_populate_smc_samu_level(struct amdgpu_device *adev, SMU7_Discrete_DpmTable *table) { u32 count; struct atom_clock_dividers dividers; int ret = -EINVAL; table->SamuLevelCount = adev->pm.dpm.dyn_state.samu_clock_voltage_dependency_table.count; for (count = 0; count < table->SamuLevelCount; count++) { table->SamuLevel[count].Frequency = adev->pm.dpm.dyn_state.samu_clock_voltage_dependency_table.entries[count].clk; table->SamuLevel[count].MinVoltage = adev->pm.dpm.dyn_state.samu_clock_voltage_dependency_table.entries[count].v * VOLTAGE_SCALE; table->SamuLevel[count].MinPhases = 1; ret = amdgpu_atombios_get_clock_dividers(adev, COMPUTE_GPUCLK_INPUT_FLAG_DEFAULT_GPUCLK, table->SamuLevel[count].Frequency, false, &dividers); if (ret) return ret; table->SamuLevel[count].Divider = (u8)dividers.post_divider; table->SamuLevel[count].Frequency = cpu_to_be32(table->SamuLevel[count].Frequency); table->SamuLevel[count].MinVoltage = cpu_to_be16(table->SamuLevel[count].MinVoltage); } return ret; }

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Alex Deucher217100.00%1100.00%
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static int ci_calculate_mclk_params(struct amdgpu_device *adev, u32 memory_clock, SMU7_Discrete_MemoryLevel *mclk, bool strobe_mode, bool dll_state_on) { struct ci_power_info *pi = ci_get_pi(adev); u32 dll_cntl = pi->clock_registers.dll_cntl; u32 mclk_pwrmgt_cntl = pi->clock_registers.mclk_pwrmgt_cntl; u32 mpll_ad_func_cntl = pi->clock_registers.mpll_ad_func_cntl; u32 mpll_dq_func_cntl = pi->clock_registers.mpll_dq_func_cntl; u32 mpll_func_cntl = pi->clock_registers.mpll_func_cntl; u32 mpll_func_cntl_1 = pi->clock_registers.mpll_func_cntl_1; u32 mpll_func_cntl_2 = pi->clock_registers.mpll_func_cntl_2; u32 mpll_ss1 = pi->clock_registers.mpll_ss1; u32 mpll_ss2 = pi->clock_registers.mpll_ss2; struct atom_mpll_param mpll_param; int ret; ret = amdgpu_atombios_get_memory_pll_dividers(adev, memory_clock, strobe_mode, &mpll_param); if (ret) return ret; mpll_func_cntl &= ~MPLL_FUNC_CNTL__BWCTRL_MASK; mpll_func_cntl |= (mpll_param.bwcntl << MPLL_FUNC_CNTL__BWCTRL__SHIFT); mpll_func_cntl_1 &= ~(MPLL_FUNC_CNTL_1__CLKF_MASK | MPLL_FUNC_CNTL_1__CLKFRAC_MASK | MPLL_FUNC_CNTL_1__VCO_MODE_MASK); mpll_func_cntl_1 |= (mpll_param.clkf) << MPLL_FUNC_CNTL_1__CLKF__SHIFT | (mpll_param.clkfrac << MPLL_FUNC_CNTL_1__CLKFRAC__SHIFT) | (mpll_param.vco_mode << MPLL_FUNC_CNTL_1__VCO_MODE__SHIFT); mpll_ad_func_cntl &= ~MPLL_AD_FUNC_CNTL__YCLK_POST_DIV_MASK; mpll_ad_func_cntl |= (mpll_param.post_div << MPLL_AD_FUNC_CNTL__YCLK_POST_DIV__SHIFT); if (adev->mc.vram_type == AMDGPU_VRAM_TYPE_GDDR5) { mpll_dq_func_cntl &= ~(MPLL_DQ_FUNC_CNTL__YCLK_SEL_MASK | MPLL_AD_FUNC_CNTL__YCLK_POST_DIV_MASK); mpll_dq_func_cntl |= (mpll_param.yclk_sel << MPLL_DQ_FUNC_CNTL__YCLK_SEL__SHIFT) | (mpll_param.post_div << MPLL_AD_FUNC_CNTL__YCLK_POST_DIV__SHIFT); } if (pi->caps_mclk_ss_support) { struct amdgpu_atom_ss ss; u32 freq_nom; u32 tmp; u32 reference_clock = adev->clock.mpll.reference_freq; if (mpll_param.qdr == 1) freq_nom = memory_clock * 4 * (1 << mpll_param.post_div); else freq_nom = memory_clock * 2 * (1 << mpll_param.post_div); tmp = (freq_nom / reference_clock); tmp = tmp * tmp; if (amdgpu_atombios_get_asic_ss_info(adev, &ss, ASIC_INTERNAL_MEMORY_SS, freq_nom)) { u32 clks = reference_clock * 5 / ss.rate; u32 clkv = (u32)((((131 * ss.percentage * ss.rate) / 100) * tmp) / freq_nom); mpll_ss1 &= ~MPLL_SS1__CLKV_MASK; mpll_ss1 |= (clkv << MPLL_SS1__CLKV__SHIFT); mpll_ss2 &= ~MPLL_SS2__CLKS_MASK; mpll_ss2 |= (clks << MPLL_SS2__CLKS__SHIFT); } } mclk_pwrmgt_cntl &= ~MCLK_PWRMGT_CNTL__DLL_SPEED_MASK; mclk_pwrmgt_cntl |= (mpll_param.dll_speed << MCLK_PWRMGT_CNTL__DLL_SPEED__SHIFT); if (dll_state_on) mclk_pwrmgt_cntl |= MCLK_PWRMGT_CNTL__MRDCK0_PDNB_MASK | MCLK_PWRMGT_CNTL__MRDCK1_PDNB_MASK; else mclk_pwrmgt_cntl &= ~(MCLK_PWRMGT_CNTL__MRDCK0_PDNB_MASK | MCLK_PWRMGT_CNTL__MRDCK1_PDNB_MASK); mclk->MclkFrequency = memory_clock; mclk->MpllFuncCntl = mpll_func_cntl; mclk->MpllFuncCntl_1 = mpll_func_cntl_1; mclk->MpllFuncCntl_2 = mpll_func_cntl_2; mclk->MpllAdFuncCntl = mpll_ad_func_cntl; mclk->MpllDqFuncCntl = mpll_dq_func_cntl; mclk->MclkPwrmgtCntl = mclk_pwrmgt_cntl; mclk->DllCntl = dll_cntl; mclk->MpllSs1 = mpll_ss1; mclk->MpllSs2 = mpll_ss2; return 0; }

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static int ci_populate_single_memory_level(struct amdgpu_device *adev, u32 memory_clock, SMU7_Discrete_MemoryLevel *memory_level) { struct ci_power_info *pi = ci_get_pi(adev); int ret; bool dll_state_on; if (adev->pm.dpm.dyn_state.vddc_dependency_on_mclk.entries) { ret = ci_get_dependency_volt_by_clk(adev, &adev->pm.dpm.dyn_state.vddc_dependency_on_mclk, memory_clock, &memory_level->MinVddc); if (ret) return ret; } if (adev->pm.dpm.dyn_state.vddci_dependency_on_mclk.entries) { ret = ci_get_dependency_volt_by_clk(adev, &adev->pm.dpm.dyn_state.vddci_dependency_on_mclk, memory_clock, &memory_level->MinVddci); if (ret) return ret; } if (adev->pm.dpm.dyn_state.mvdd_dependency_on_mclk.entries) { ret = ci_get_dependency_volt_by_clk(adev, &adev->pm.dpm.dyn_state.mvdd_dependency_on_mclk, memory_clock, &memory_level->MinMvdd); if (ret) return ret; } memory_level->MinVddcPhases = 1; if (pi->vddc_phase_shed_control) ci_populate_phase_value_based_on_mclk(adev, &adev->pm.dpm.dyn_state.phase_shedding_limits_table, memory_clock, &memory_level->MinVddcPhases); memory_level->EnabledForThrottle = 1; memory_level->UpH = 0; memory_level->DownH = 100; memory_level->VoltageDownH = 0; memory_level->ActivityLevel = (u16)pi->mclk_activity_target; memory_level->StutterEnable = false; memory_level->StrobeEnable = false; memory_level->EdcReadEnable = false; memory_level->EdcWriteEnable = false; memory_level->RttEnable = false; memory_level->DisplayWatermark = PPSMC_DISPLAY_WATERMARK_LOW; if (pi->mclk_stutter_mode_threshold && (memory_clock <= pi->mclk_stutter_mode_threshold) && (!pi->uvd_enabled) && (RREG32(mmDPG_PIPE_STUTTER_CONTROL) & DPG_PIPE_STUTTER_CONTROL__STUTTER_ENABLE_MASK) && (adev->pm.dpm.new_active_crtc_count <= 2)) memory_level->StutterEnable = true; if (pi->mclk_strobe_mode_threshold && (memory_clock <= pi->mclk_strobe_mode_threshold)) memory_level->StrobeEnable = 1; if (adev->mc.vram_type == AMDGPU_VRAM_TYPE_GDDR5) { memory_level->StrobeRatio = ci_get_mclk_frequency_ratio(memory_clock, memory_level->StrobeEnable); if (pi->mclk_edc_enable_threshold && (memory_clock > pi->mclk_edc_enable_threshold)) memory_level->EdcReadEnable = true; if (pi->mclk_edc_wr_enable_threshold && (memory_clock > pi->mclk_edc_wr_enable_threshold)) memory_level->EdcWriteEnable = true; if (memory_level->StrobeEnable) { if (ci_get_mclk_frequency_ratio(memory_clock, true) >= ((RREG32(mmMC_SEQ_MISC7) >> 16) & 0xf)) dll_state_on = ((RREG32(mmMC_SEQ_MISC5) >> 1) & 0x1) ? true : false; else dll_state_on = ((RREG32(mmMC_SEQ_MISC6) >> 1) & 0x1) ? true : false; } else { dll_state_on = pi->dll_default_on; } } else { memory_level->StrobeRatio = ci_get_ddr3_mclk_frequency_ratio(memory_clock); dll_state_on = ((RREG32(mmMC_SEQ_MISC5) >> 1) & 0x1) ? true : false; } ret = ci_calculate_mclk_params(adev, memory_clock, memory_level, memory_level->StrobeEnable, dll_state_on); if (ret) return ret; memory_level->MinVddc = cpu_to_be32(memory_level->MinVddc * VOLTAGE_SCALE); memory_level->MinVddcPhases = cpu_to_be32(memory_level->MinVddcPhases); memory_level->MinVddci = cpu_to_be32(memory_level->MinVddci * VOLTAGE_SCALE); memory_level->MinMvdd = cpu_to_be32(memory_level->MinMvdd * VOLTAGE_SCALE); memory_level->MclkFrequency = cpu_to_be32(memory_level->MclkFrequency); memory_level->ActivityLevel = cpu_to_be16(memory_level->ActivityLevel); memory_level->MpllFuncCntl = cpu_to_be32(memory_level->MpllFuncCntl); memory_level->MpllFuncCntl_1 = cpu_to_be32(memory_level->MpllFuncCntl_1); memory_level->MpllFuncCntl_2 = cpu_to_be32(memory_level->MpllFuncCntl_2); memory_level->MpllAdFuncCntl = cpu_to_be32(memory_level->MpllAdFuncCntl); memory_level->MpllDqFuncCntl = cpu_to_be32(memory_level->MpllDqFuncCntl); memory_level->MclkPwrmgtCntl = cpu_to_be32(memory_level->MclkPwrmgtCntl); memory_level->DllCntl = cpu_to_be32(memory_level->DllCntl); memory_level->MpllSs1 = cpu_to_be32(memory_level->MpllSs1); memory_level->MpllSs2 = cpu_to_be32(memory_level->MpllSs2); return 0; }

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static int ci_populate_smc_acpi_level(struct amdgpu_device *adev, SMU7_Discrete_DpmTable *table) { struct ci_power_info *pi = ci_get_pi(adev); struct atom_clock_dividers dividers; SMU7_Discrete_VoltageLevel voltage_level; u32 spll_func_cntl = pi->clock_registers.cg_spll_func_cntl; u32 spll_func_cntl_2 = pi->clock_registers.cg_spll_func_cntl_2; u32 dll_cntl = pi->clock_registers.dll_cntl; u32 mclk_pwrmgt_cntl = pi->clock_registers.mclk_pwrmgt_cntl; int ret; table->ACPILevel.Flags &= ~PPSMC_SWSTATE_FLAG_DC; if (pi->acpi_vddc) table->ACPILevel.MinVddc = cpu_to_be32(pi->acpi_vddc * VOLTAGE_SCALE); else table->ACPILevel.MinVddc = cpu_to_be32(pi->min_vddc_in_pp_table * VOLTAGE_SCALE); table->ACPILevel.MinVddcPhases = pi->vddc_phase_shed_control ? 0 : 1; table->ACPILevel.SclkFrequency = adev->clock.spll.reference_freq; ret = amdgpu_atombios_get_clock_dividers(adev, COMPUTE_GPUCLK_INPUT_FLAG_SCLK, table->ACPILevel.SclkFrequency, false, &dividers); if (ret) return ret; table->ACPILevel.SclkDid = (u8)dividers.post_divider; table->ACPILevel.DisplayWatermark = PPSMC_DISPLAY_WATERMARK_LOW; table->ACPILevel.DeepSleepDivId = 0; spll_func_cntl &= ~CG_SPLL_FUNC_CNTL__SPLL_PWRON_MASK; spll_func_cntl |= CG_SPLL_FUNC_CNTL__SPLL_RESET_MASK; spll_func_cntl_2 &= ~CG_SPLL_FUNC_CNTL_2__SCLK_MUX_SEL_MASK; spll_func_cntl_2 |= (4 << CG_SPLL_FUNC_CNTL_2__SCLK_MUX_SEL__SHIFT); table->ACPILevel.CgSpllFuncCntl = spll_func_cntl; table->ACPILevel.CgSpllFuncCntl2 = spll_func_cntl_2; table->ACPILevel.CgSpllFuncCntl3 = pi->clock_registers.cg_spll_func_cntl_3; table->ACPILevel.CgSpllFuncCntl4 = pi->clock_registers.cg_spll_func_cntl_4; table->ACPILevel.SpllSpreadSpectrum = pi->clock_registers.cg_spll_spread_spectrum; table->ACPILevel.SpllSpreadSpectrum2 = pi->clock_registers.cg_spll_spread_spectrum_2; table->ACPILevel.CcPwrDynRm = 0; table->ACPILevel.CcPwrDynRm1 = 0; table->ACPILevel.Flags = cpu_to_be32(table->ACPILevel.Flags); table->ACPILevel.MinVddcPhases = cpu_to_be32(table->ACPILevel.MinVddcPhases); table->ACPILevel.SclkFrequency = cpu_to_be32(table->ACPILevel.SclkFrequency); table->ACPILevel.CgSpllFuncCntl = cpu_to_be32(table->ACPILevel.CgSpllFuncCntl); table->ACPILevel.CgSpllFuncCntl2 = cpu_to_be32(table->ACPILevel.CgSpllFuncCntl2); table->ACPILevel.CgSpllFuncCntl3 = cpu_to_be32(table->ACPILevel.CgSpllFuncCntl3); table->ACPILevel.CgSpllFuncCntl4 = cpu_to_be32(table->ACPILevel.CgSpllFuncCntl4); table->ACPILevel.SpllSpreadSpectrum = cpu_to_be32(table->ACPILevel.SpllSpreadSpectrum); table->ACPILevel.SpllSpreadSpectrum2 = cpu_to_be32(table->ACPILevel.SpllSpreadSpectrum2); table->ACPILevel.CcPwrDynRm = cpu_to_be32(table->ACPILevel.CcPwrDynRm); table->ACPILevel.CcPwrDynRm1 = cpu_to_be32(table->ACPILevel.CcPwrDynRm1); table->MemoryACPILevel.MinVddc = table->ACPILevel.MinVddc; table->MemoryACPILevel.MinVddcPhases = table->ACPILevel.MinVddcPhases; if (pi->vddci_control != CISLANDS_VOLTAGE_CONTROL_NONE) { if (pi->acpi_vddci) table->MemoryACPILevel.MinVddci = cpu_to_be32(pi->acpi_vddci * VOLTAGE_SCALE); else table->MemoryACPILevel.MinVddci = cpu_to_be32(pi->min_vddci_in_pp_table * VOLTAGE_SCALE); } if (ci_populate_mvdd_value(adev, 0, &voltage_level)) table->MemoryACPILevel.MinMvdd = 0; else table->MemoryACPILevel.MinMvdd = cpu_to_be32(voltage_level.Voltage * VOLTAGE_SCALE); mclk_pwrmgt_cntl |= MCLK_PWRMGT_CNTL__MRDCK0_RESET_MASK | MCLK_PWRMGT_CNTL__MRDCK1_RESET_MASK; mclk_pwrmgt_cntl &= ~(MCLK_PWRMGT_CNTL__MRDCK0_PDNB_MASK | MCLK_PWRMGT_CNTL__MRDCK1_PDNB_MASK); dll_cntl &= ~(DLL_CNTL__MRDCK0_BYPASS_MASK | DLL_CNTL__MRDCK1_BYPASS_MASK); table->MemoryACPILevel.DllCntl = cpu_to_be32(dll_cntl); table->MemoryACPILevel.MclkPwrmgtCntl = cpu_to_be32(mclk_pwrmgt_cntl); table->MemoryACPILevel.MpllAdFuncCntl = cpu_to_be32(pi->clock_registers.mpll_ad_func_cntl); table->MemoryACPILevel.MpllDqFuncCntl = cpu_to_be32(pi->clock_registers.mpll_dq_func_cntl); table->MemoryACPILevel.MpllFuncCntl = cpu_to_be32(pi->clock_registers.mpll_func_cntl); table->MemoryACPILevel.MpllFuncCntl_1 = cpu_to_be32(pi->clock_registers.mpll_func_cntl_1); table->MemoryACPILevel.MpllFuncCntl_2 = cpu_to_be32(pi->clock_registers.mpll_func_cntl_2); table->MemoryACPILevel.MpllSs1 = cpu_to_be32(pi->clock_registers.mpll_ss1); table->MemoryACPILevel.MpllSs2 = cpu_to_be32(pi->clock_registers.mpll_ss2); table->MemoryACPILevel.EnabledForThrottle = 0; table->MemoryACPILevel.EnabledForActivity = 0; table->MemoryACPILevel.UpH = 0; table->MemoryACPILevel.DownH = 100; table->MemoryACPILevel.VoltageDownH = 0; table->MemoryACPILevel.ActivityLevel = cpu_to_be16((u16)pi->mclk_activity_target); table->MemoryACPILevel.StutterEnable = false; table->MemoryACPILevel.StrobeEnable = false; table->MemoryACPILevel.EdcReadEnable = false; table->MemoryACPILevel.EdcWriteEnable = false; table->MemoryACPILevel.RttEnable = false; return 0; }

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static int ci_enable_ulv(struct amdgpu_device *adev, bool enable) { struct ci_power_info *pi = ci_get_pi(adev); struct ci_ulv_parm *ulv = &pi->ulv; if (ulv->supported) { if (enable) return (amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_EnableULV) == PPSMC_Result_OK) ? 0 : -EINVAL; else return (amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_DisableULV) == PPSMC_Result_OK) ? 0 : -EINVAL; } return 0; }

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static int ci_populate_ulv_level(struct amdgpu_device *adev, SMU7_Discrete_Ulv *state) { struct ci_power_info *pi = ci_get_pi(adev); u16 ulv_voltage = adev->pm.dpm.backbias_response_time; state->CcPwrDynRm = 0; state->CcPwrDynRm1 = 0; if (ulv_voltage == 0) { pi->ulv.supported = false; return 0; } if (pi->voltage_control != CISLANDS_VOLTAGE_CONTROL_BY_SVID2) { if (ulv_voltage > adev->pm.dpm.dyn_state.vddc_dependency_on_sclk.entries[0].v) state->VddcOffset = 0; else state->VddcOffset = adev->pm.dpm.dyn_state.vddc_dependency_on_sclk.entries[0].v - ulv_voltage; } else { if (ulv_voltage > adev->pm.dpm.dyn_state.vddc_dependency_on_sclk.entries[0].v) state->VddcOffsetVid = 0; else state->VddcOffsetVid = (u8) ((adev->pm.dpm.dyn_state.vddc_dependency_on_sclk.entries[0].v - ulv_voltage) * VOLTAGE_VID_OFFSET_SCALE2 / VOLTAGE_VID_OFFSET_SCALE1); } state->VddcPhase = pi->vddc_phase_shed_control ? 0 : 1; state->CcPwrDynRm = cpu_to_be32(state->CcPwrDynRm); state->CcPwrDynRm1 = cpu_to_be32(state->CcPwrDynRm1); state->VddcOffset = cpu_to_be16(state->VddcOffset); return 0; }

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static int ci_calculate_sclk_params(struct amdgpu_device *adev, u32 engine_clock, SMU7_Discrete_GraphicsLevel *sclk) { struct ci_power_info *pi = ci_get_pi(adev); struct atom_clock_dividers dividers; u32 spll_func_cntl_3 = pi->clock_registers.cg_spll_func_cntl_3; u32 spll_func_cntl_4 = pi->clock_registers.cg_spll_func_cntl_4; u32 cg_spll_spread_spectrum = pi->clock_registers.cg_spll_spread_spectrum; u32 cg_spll_spread_spectrum_2 = pi->clock_registers.cg_spll_spread_spectrum_2; u32 reference_clock = adev->clock.spll.reference_freq; u32 reference_divider; u32 fbdiv; int ret; ret = amdgpu_atombios_get_clock_dividers(adev, COMPUTE_GPUCLK_INPUT_FLAG_SCLK, engine_clock, false, &dividers); if (ret) return ret; reference_divider = 1 + dividers.ref_div; fbdiv = dividers.fb_div & 0x3FFFFFF; spll_func_cntl_3 &= ~CG_SPLL_FUNC_CNTL_3__SPLL_FB_DIV_MASK; spll_func_cntl_3 |= (fbdiv << CG_SPLL_FUNC_CNTL_3__SPLL_FB_DIV__SHIFT); spll_func_cntl_3 |= CG_SPLL_FUNC_CNTL_3__SPLL_DITHEN_MASK; if (pi->caps_sclk_ss_support) { struct amdgpu_atom_ss ss; u32 vco_freq = engine_clock * dividers.post_div; if (amdgpu_atombios_get_asic_ss_info(adev, &ss, ASIC_INTERNAL_ENGINE_SS, vco_freq)) { u32 clk_s = reference_clock * 5 / (reference_divider * ss.rate); u32 clk_v = 4 * ss.percentage * fbdiv / (clk_s * 10000); cg_spll_spread_spectrum &= ~(CG_SPLL_SPREAD_SPECTRUM__CLKS_MASK | CG_SPLL_SPREAD_SPECTRUM__SSEN_MASK); cg_spll_spread_spectrum |= (clk_s << CG_SPLL_SPREAD_SPECTRUM__CLKS__SHIFT); cg_spll_spread_spectrum |= (1 << CG_SPLL_SPREAD_SPECTRUM__SSEN__SHIFT); cg_spll_spread_spectrum_2 &= ~CG_SPLL_SPREAD_SPECTRUM_2__CLKV_MASK; cg_spll_spread_spectrum_2 |= (clk_v << CG_SPLL_SPREAD_SPECTRUM_2__CLKV__SHIFT); } } sclk->SclkFrequency = engine_clock; sclk->CgSpllFuncCntl3 = spll_func_cntl_3; sclk->CgSpllFuncCntl4 = spll_func_cntl_4; sclk->SpllSpreadSpectrum = cg_spll_spread_spectrum; sclk->SpllSpreadSpectrum2 = cg_spll_spread_spectrum_2; sclk->SclkDid = (u8)dividers.post_divider; return 0; }

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static int ci_populate_single_graphic_level(struct amdgpu_device *adev, u32 engine_clock, u16 sclk_activity_level_t, SMU7_Discrete_GraphicsLevel *graphic_level) { struct ci_power_info *pi = ci_get_pi(adev); int ret; ret = ci_calculate_sclk_params(adev, engine_clock, graphic_level); if (ret) return ret; ret = ci_get_dependency_volt_by_clk(adev, &adev->pm.dpm.dyn_state.vddc_dependency_on_sclk, engine_clock, &graphic_level->MinVddc); if (ret) return ret; graphic_level->SclkFrequency = engine_clock; graphic_level->Flags = 0; graphic_level->MinVddcPhases = 1; if (pi->vddc_phase_shed_control) ci_populate_phase_value_based_on_sclk(adev, &adev->pm.dpm.dyn_state.phase_shedding_limits_table, engine_clock, &graphic_level->MinVddcPhases); graphic_level->ActivityLevel = sclk_activity_level_t; graphic_level->CcPwrDynRm = 0; graphic_level->CcPwrDynRm1 = 0; graphic_level->EnabledForThrottle = 1; graphic_level->UpH = 0; graphic_level->DownH = 0; graphic_level->VoltageDownH = 0; graphic_level->PowerThrottle = 0; if (pi->caps_sclk_ds) graphic_level->DeepSleepDivId = ci_get_sleep_divider_id_from_clock(engine_clock, CISLAND_MINIMUM_ENGINE_CLOCK); graphic_level->DisplayWatermark = PPSMC_DISPLAY_WATERMARK_LOW; graphic_level->Flags = cpu_to_be32(graphic_level->Flags); graphic_level->MinVddc = cpu_to_be32(graphic_level->MinVddc * VOLTAGE_SCALE); graphic_level->MinVddcPhases = cpu_to_be32(graphic_level->MinVddcPhases); graphic_level->SclkFrequency = cpu_to_be32(graphic_level->SclkFrequency); graphic_level->ActivityLevel = cpu_to_be16(graphic_level->ActivityLevel); graphic_level->CgSpllFuncCntl3 = cpu_to_be32(graphic_level->CgSpllFuncCntl3); graphic_level->CgSpllFuncCntl4 = cpu_to_be32(graphic_level->CgSpllFuncCntl4); graphic_level->SpllSpreadSpectrum = cpu_to_be32(graphic_level->SpllSpreadSpectrum); graphic_level->SpllSpreadSpectrum2 = cpu_to_be32(graphic_level->SpllSpreadSpectrum2); graphic_level->CcPwrDynRm = cpu_to_be32(graphic_level->CcPwrDynRm); graphic_level->CcPwrDynRm1 = cpu_to_be32(graphic_level->CcPwrDynRm1); return 0; }

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Alex Deucher328100.00%1100.00%
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static int ci_populate_all_graphic_levels(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); struct ci_dpm_table *dpm_table = &pi->dpm_table; u32 level_array_address = pi->dpm_table_start + offsetof(SMU7_Discrete_DpmTable, GraphicsLevel); u32 level_array_size = sizeof(SMU7_Discrete_GraphicsLevel) * SMU7_MAX_LEVELS_GRAPHICS; SMU7_Discrete_GraphicsLevel *levels = pi->smc_state_table.GraphicsLevel; u32 i, ret; memset(levels, 0, level_array_size); for (i = 0; i < dpm_table->sclk_table.count; i++) { ret = ci_populate_single_graphic_level(adev, dpm_table->sclk_table.dpm_levels[i].value, (u16)pi->activity_target[i], &pi->smc_state_table.GraphicsLevel[i]); if (ret) return ret; if (i > 1) pi->smc_state_table.GraphicsLevel[i].DeepSleepDivId = 0; if (i == (dpm_table->sclk_table.count - 1)) pi->smc_state_table.GraphicsLevel[i].DisplayWatermark = PPSMC_DISPLAY_WATERMARK_HIGH; } pi->smc_state_table.GraphicsLevel[0].EnabledForActivity = 1; pi->smc_state_table.GraphicsDpmLevelCount = (u8)dpm_table->sclk_table.count; pi->dpm_level_enable_mask.sclk_dpm_enable_mask = ci_get_dpm_level_enable_mask_value(&dpm_table->sclk_table); ret = amdgpu_ci_copy_bytes_to_smc(adev, level_array_address, (u8 *)levels, level_array_size, pi->sram_end); if (ret) return ret; return 0; }

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static int ci_populate_ulv_state(struct amdgpu_device *adev, SMU7_Discrete_Ulv *ulv_level) { return ci_populate_ulv_level(adev, ulv_level); }

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static int ci_populate_all_memory_levels(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); struct ci_dpm_table *dpm_table = &pi->dpm_table; u32 level_array_address = pi->dpm_table_start + offsetof(SMU7_Discrete_DpmTable, MemoryLevel); u32 level_array_size = sizeof(SMU7_Discrete_MemoryLevel) * SMU7_MAX_LEVELS_MEMORY; SMU7_Discrete_MemoryLevel *levels = pi->smc_state_table.MemoryLevel; u32 i, ret; memset(levels, 0, level_array_size); for (i = 0; i < dpm_table->mclk_table.count; i++) { if (dpm_table->mclk_table.dpm_levels[i].value == 0) return -EINVAL; ret = ci_populate_single_memory_level(adev, dpm_table->mclk_table.dpm_levels[i].value, &pi->smc_state_table.MemoryLevel[i]); if (ret) return ret; } pi->smc_state_table.MemoryLevel[0].EnabledForActivity = 1; if ((dpm_table->mclk_table.count >= 2) && ((adev->pdev->device == 0x67B0) || (adev->pdev->device == 0x67B1))) { pi->smc_state_table.MemoryLevel[1].MinVddc = pi->smc_state_table.MemoryLevel[0].MinVddc; pi->smc_state_table.MemoryLevel[1].MinVddcPhases = pi->smc_state_table.MemoryLevel[0].MinVddcPhases; } pi->smc_state_table.MemoryLevel[0].ActivityLevel = cpu_to_be16(0x1F); pi->smc_state_table.MemoryDpmLevelCount = (u8)dpm_table->mclk_table.count; pi->dpm_level_enable_mask.mclk_dpm_enable_mask = ci_get_dpm_level_enable_mask_value(&dpm_table->mclk_table); pi->smc_state_table.MemoryLevel[dpm_table->mclk_table.count - 1].DisplayWatermark = PPSMC_DISPLAY_WATERMARK_HIGH; ret = amdgpu_ci_copy_bytes_to_smc(adev, level_array_address, (u8 *)levels, level_array_size, pi->sram_end); if (ret) return ret; return 0; }

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static void ci_reset_single_dpm_table(struct amdgpu_device *adev, struct ci_single_dpm_table* dpm_table, u32 count) { u32 i; dpm_table->count = count; for (i = 0; i < MAX_REGULAR_DPM_NUMBER; i++) dpm_table->dpm_levels[i].enabled = false; }

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static void ci_setup_pcie_table_entry(struct ci_single_dpm_table* dpm_table, u32 index, u32 pcie_gen, u32 pcie_lanes) { dpm_table->dpm_levels[index].value = pcie_gen; dpm_table->dpm_levels[index].param1 = pcie_lanes; dpm_table->dpm_levels[index].enabled = true; }

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static int ci_setup_default_pcie_tables(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); if (!pi->use_pcie_performance_levels && !pi->use_pcie_powersaving_levels) return -EINVAL; if (pi->use_pcie_performance_levels && !pi->use_pcie_powersaving_levels) { pi->pcie_gen_powersaving = pi->pcie_gen_performance; pi->pcie_lane_powersaving = pi->pcie_lane_performance; } else if (!pi->use_pcie_performance_levels && pi->use_pcie_powersaving_levels) { pi->pcie_gen_performance = pi->pcie_gen_powersaving; pi->pcie_lane_performance = pi->pcie_lane_powersaving; } ci_reset_single_dpm_table(adev, &pi->dpm_table.pcie_speed_table, SMU7_MAX_LEVELS_LINK); if (adev->asic_type == CHIP_BONAIRE) ci_setup_pcie_table_entry(&pi->dpm_table.pcie_speed_table, 0, pi->pcie_gen_powersaving.min, pi->pcie_lane_powersaving.max); else ci_setup_pcie_table_entry(&pi->dpm_table.pcie_speed_table, 0, pi->pcie_gen_powersaving.min, pi->pcie_lane_powersaving.min); ci_setup_pcie_table_entry(&pi->dpm_table.pcie_speed_table, 1, pi->pcie_gen_performance.min, pi->pcie_lane_performance.min); ci_setup_pcie_table_entry(&pi->dpm_table.pcie_speed_table, 2, pi->pcie_gen_powersaving.min, pi->pcie_lane_powersaving.max); ci_setup_pcie_table_entry(&pi->dpm_table.pcie_speed_table, 3, pi->pcie_gen_performance.min, pi->pcie_lane_performance.max); ci_setup_pcie_table_entry(&pi->dpm_table.pcie_speed_table, 4, pi->pcie_gen_powersaving.max, pi->pcie_lane_powersaving.max); ci_setup_pcie_table_entry(&pi->dpm_table.pcie_speed_table, 5, pi->pcie_gen_performance.max, pi->pcie_lane_performance.max); pi->dpm_table.pcie_speed_table.count = 6; return 0; }

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static int ci_setup_default_dpm_tables(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); struct amdgpu_clock_voltage_dependency_table *allowed_sclk_vddc_table = &adev->pm.dpm.dyn_state.vddc_dependency_on_sclk; struct amdgpu_clock_voltage_dependency_table *allowed_mclk_table = &adev->pm.dpm.dyn_state.vddc_dependency_on_mclk; struct amdgpu_cac_leakage_table *std_voltage_table = &adev->pm.dpm.dyn_state.cac_leakage_table; u32 i; if (allowed_sclk_vddc_table == NULL) return -EINVAL; if (allowed_sclk_vddc_table->count < 1) return -EINVAL; if (allowed_mclk_table == NULL) return -EINVAL; if (allowed_mclk_table->count < 1) return -EINVAL; memset(&pi->dpm_table, 0, sizeof(struct ci_dpm_table)); ci_reset_single_dpm_table(adev, &pi->dpm_table.sclk_table, SMU7_MAX_LEVELS_GRAPHICS); ci_reset_single_dpm_table(adev, &pi->dpm_table.mclk_table, SMU7_MAX_LEVELS_MEMORY); ci_reset_single_dpm_table(adev, &pi->dpm_table.vddc_table, SMU7_MAX_LEVELS_VDDC); ci_reset_single_dpm_table(adev, &pi->dpm_table.vddci_table, SMU7_MAX_LEVELS_VDDCI); ci_reset_single_dpm_table(adev, &pi->dpm_table.mvdd_table, SMU7_MAX_LEVELS_MVDD); pi->dpm_table.sclk_table.count = 0; for (i = 0; i < allowed_sclk_vddc_table->count; i++) { if ((i == 0) || (pi->dpm_table.sclk_table.dpm_levels[pi->dpm_table.sclk_table.count-1].value != allowed_sclk_vddc_table->entries[i].clk)) { pi->dpm_table.sclk_table.dpm_levels[pi->dpm_table.sclk_table.count].value = allowed_sclk_vddc_table->entries[i].clk; pi->dpm_table.sclk_table.dpm_levels[pi->dpm_table.sclk_table.count].enabled = (i == 0) ? true : false; pi->dpm_table.sclk_table.count++; } } pi->dpm_table.mclk_table.count = 0; for (i = 0; i < allowed_mclk_table->count; i++) { if ((i == 0) || (pi->dpm_table.mclk_table.dpm_levels[pi->dpm_table.mclk_table.count-1].value != allowed_mclk_table->entries[i].clk)) { pi->dpm_table.mclk_table.dpm_levels[pi->dpm_table.mclk_table.count].value = allowed_mclk_table->entries[i].clk; pi->dpm_table.mclk_table.dpm_levels[pi->dpm_table.mclk_table.count].enabled = (i == 0) ? true : false; pi->dpm_table.mclk_table.count++; } } for (i = 0; i < allowed_sclk_vddc_table->count; i++) { pi->dpm_table.vddc_table.dpm_levels[i].value = allowed_sclk_vddc_table->entries[i].v; pi->dpm_table.vddc_table.dpm_levels[i].param1 = std_voltage_table->entries[i].leakage; pi->dpm_table.vddc_table.dpm_levels[i].enabled = true; } pi->dpm_table.vddc_table.count = allowed_sclk_vddc_table->count; allowed_mclk_table = &adev->pm.dpm.dyn_state.vddci_dependency_on_mclk; if (allowed_mclk_table) { for (i = 0; i < allowed_mclk_table->count; i++) { pi->dpm_table.vddci_table.dpm_levels[i].value = allowed_mclk_table->entries[i].v; pi->dpm_table.vddci_table.dpm_levels[i].enabled = true; } pi->dpm_table.vddci_table.count = allowed_mclk_table->count; } allowed_mclk_table = &adev->pm.dpm.dyn_state.mvdd_dependency_on_mclk; if (allowed_mclk_table) { for (i = 0; i < allowed_mclk_table->count; i++) { pi->dpm_table.mvdd_table.dpm_levels[i].value = allowed_mclk_table->entries[i].v; pi->dpm_table.mvdd_table.dpm_levels[i].enabled = true; } pi->dpm_table.mvdd_table.count = allowed_mclk_table->count; } ci_setup_default_pcie_tables(adev); /* save a copy of the default DPM table */ memcpy(&(pi->golden_dpm_table), &(pi->dpm_table), sizeof(struct ci_dpm_table)); return 0; }

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static int ci_find_boot_level(struct ci_single_dpm_table *table, u32 value, u32 *boot_level) { u32 i; int ret = -EINVAL; for(i = 0; i < table->count; i++) { if (value == table->dpm_levels[i].value) { *boot_level = i; ret = 0; } } return ret; }

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static int ci_init_smc_table(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); struct ci_ulv_parm *ulv = &pi->ulv; struct amdgpu_ps *amdgpu_boot_state = adev->pm.dpm.boot_ps; SMU7_Discrete_DpmTable *table = &pi->smc_state_table; int ret; ret = ci_setup_default_dpm_tables(adev); if (ret) return ret; if (pi->voltage_control != CISLANDS_VOLTAGE_CONTROL_NONE) ci_populate_smc_voltage_tables(adev, table); ci_init_fps_limits(adev); if (adev->pm.dpm.platform_caps & ATOM_PP_PLATFORM_CAP_HARDWAREDC) table->SystemFlags |= PPSMC_SYSTEMFLAG_GPIO_DC; if (adev->pm.dpm.platform_caps & ATOM_PP_PLATFORM_CAP_STEPVDDC) table->SystemFlags |= PPSMC_SYSTEMFLAG_STEPVDDC; if (adev->mc.vram_type == AMDGPU_VRAM_TYPE_GDDR5) table->SystemFlags |= PPSMC_SYSTEMFLAG_GDDR5; if (ulv->supported) { ret = ci_populate_ulv_state(adev, &pi->smc_state_table.Ulv); if (ret) return ret; WREG32_SMC(ixCG_ULV_PARAMETER, ulv->cg_ulv_parameter); } ret = ci_populate_all_graphic_levels(adev); if (ret) return ret; ret = ci_populate_all_memory_levels(adev); if (ret) return ret; ci_populate_smc_link_level(adev, table); ret = ci_populate_smc_acpi_level(adev, table); if (ret) return ret; ret = ci_populate_smc_vce_level(adev, table); if (ret) return ret; ret = ci_populate_smc_acp_level(adev, table); if (ret) return ret; ret = ci_populate_smc_samu_level(adev, table); if (ret) return ret; ret = ci_do_program_memory_timing_parameters(adev); if (ret) return ret; ret = ci_populate_smc_uvd_level(adev, table); if (ret) return ret; table->UvdBootLevel = 0; table->VceBootLevel = 0; table->AcpBootLevel = 0; table->SamuBootLevel = 0; table->GraphicsBootLevel = 0; table->MemoryBootLevel = 0; ret = ci_find_boot_level(&pi->dpm_table.sclk_table, pi->vbios_boot_state.sclk_bootup_value, (u32 *)&pi->smc_state_table.GraphicsBootLevel); ret = ci_find_boot_level(&pi->dpm_table.mclk_table, pi->vbios_boot_state.mclk_bootup_value, (u32 *)&pi->smc_state_table.MemoryBootLevel); table->BootVddc = pi->vbios_boot_state.vddc_bootup_value; table->BootVddci = pi->vbios_boot_state.vddci_bootup_value; table->BootMVdd = pi->vbios_boot_state.mvdd_bootup_value; ci_populate_smc_initial_state(adev, amdgpu_boot_state); ret = ci_populate_bapm_parameters_in_dpm_table(adev); if (ret) return ret; table->UVDInterval = 1; table->VCEInterval = 1; table->ACPInterval = 1; table->SAMUInterval = 1; table->GraphicsVoltageChangeEnable = 1; table->GraphicsThermThrottleEnable = 1; table->GraphicsInterval = 1; table->VoltageInterval = 1; table->ThermalInterval = 1; table->TemperatureLimitHigh = (u16)((pi->thermal_temp_setting.temperature_high * CISLANDS_Q88_FORMAT_CONVERSION_UNIT) / 1000); table->TemperatureLimitLow = (u16)((pi->thermal_temp_setting.temperature_low * CISLANDS_Q88_FORMAT_CONVERSION_UNIT) / 1000); table->MemoryVoltageChangeEnable = 1; table->MemoryInterval = 1; table->VoltageResponseTime = 0; table->VddcVddciDelta = 4000; table->PhaseResponseTime = 0; table->MemoryThermThrottleEnable = 1; table->PCIeBootLinkLevel = pi->dpm_table.pcie_speed_table.count - 1; table->PCIeGenInterval = 1; if (pi->voltage_control == CISLANDS_VOLTAGE_CONTROL_BY_SVID2) table->SVI2Enable = 1; else table->SVI2Enable = 0; table->ThermGpio = 17; table->SclkStepSize = 0x4000; table->SystemFlags = cpu_to_be32(table->SystemFlags); table->SmioMaskVddcVid = cpu_to_be32(table->SmioMaskVddcVid); table->SmioMaskVddcPhase = cpu_to_be32(table->SmioMaskVddcPhase); table->SmioMaskVddciVid = cpu_to_be32(table->SmioMaskVddciVid); table->SmioMaskMvddVid = cpu_to_be32(table->SmioMaskMvddVid); table->SclkStepSize = cpu_to_be32(table->SclkStepSize); table->TemperatureLimitHigh = cpu_to_be16(table->TemperatureLimitHigh); table->TemperatureLimitLow = cpu_to_be16(table->TemperatureLimitLow); table->VddcVddciDelta = cpu_to_be16(table->VddcVddciDelta); table->VoltageResponseTime = cpu_to_be16(table->VoltageResponseTime); table->PhaseResponseTime = cpu_to_be16(table->PhaseResponseTime); table->BootVddc = cpu_to_be16(table->BootVddc * VOLTAGE_SCALE); table->BootVddci = cpu_to_be16(table->BootVddci * VOLTAGE_SCALE); table->BootMVdd = cpu_to_be16(table->BootMVdd * VOLTAGE_SCALE); ret = amdgpu_ci_copy_bytes_to_smc(adev, pi->dpm_table_start + offsetof(SMU7_Discrete_DpmTable, SystemFlags), (u8 *)&table->SystemFlags, sizeof(SMU7_Discrete_DpmTable) - 3 * sizeof(SMU7_PIDController), pi->sram_end); if (ret) return ret; return 0; }

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static void ci_trim_single_dpm_states(struct amdgpu_device *adev, struct ci_single_dpm_table *dpm_table, u32 low_limit, u32 high_limit) { u32 i; for (i = 0; i < dpm_table->count; i++) { if ((dpm_table->dpm_levels[i].value < low_limit) || (dpm_table->dpm_levels[i].value > high_limit)) dpm_table->dpm_levels[i].enabled = false; else dpm_table->dpm_levels[i].enabled = true; } }

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static void ci_trim_pcie_dpm_states(struct amdgpu_device *adev, u32 speed_low, u32 lanes_low, u32 speed_high, u32 lanes_high) { struct ci_power_info *pi = ci_get_pi(adev); struct ci_single_dpm_table *pcie_table = &pi->dpm_table.pcie_speed_table; u32 i, j; for (i = 0; i < pcie_table->count; i++) { if ((pcie_table->dpm_levels[i].value < speed_low) || (pcie_table->dpm_levels[i].param1 < lanes_low) || (pcie_table->dpm_levels[i].value > speed_high) || (pcie_table->dpm_levels[i].param1 > lanes_high)) pcie_table->dpm_levels[i].enabled = false; else pcie_table->dpm_levels[i].enabled = true; } for (i = 0; i < pcie_table->count; i++) { if (pcie_table->dpm_levels[i].enabled) { for (j = i + 1; j < pcie_table->count; j++) { if (pcie_table->dpm_levels[j].enabled) { if ((pcie_table->dpm_levels[i].value == pcie_table->dpm_levels[j].value) && (pcie_table->dpm_levels[i].param1 == pcie_table->dpm_levels[j].param1)) pcie_table->dpm_levels[j].enabled = false; } } } } }

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static int ci_trim_dpm_states(struct amdgpu_device *adev, struct amdgpu_ps *amdgpu_state) { struct ci_ps *state = ci_get_ps(amdgpu_state); struct ci_power_info *pi = ci_get_pi(adev); u32 high_limit_count; if (state->performance_level_count < 1) return -EINVAL; if (state->performance_level_count == 1) high_limit_count = 0; else high_limit_count = 1; ci_trim_single_dpm_states(adev, &pi->dpm_table.sclk_table, state->performance_levels[0].sclk, state->performance_levels[high_limit_count].sclk); ci_trim_single_dpm_states(adev, &pi->dpm_table.mclk_table, state->performance_levels[0].mclk, state->performance_levels[high_limit_count].mclk); ci_trim_pcie_dpm_states(adev, state->performance_levels[0].pcie_gen, state->performance_levels[0].pcie_lane, state->performance_levels[high_limit_count].pcie_gen, state->performance_levels[high_limit_count].pcie_lane); return 0; }

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static int ci_apply_disp_minimum_voltage_request(struct amdgpu_device *adev) { struct amdgpu_clock_voltage_dependency_table *disp_voltage_table = &adev->pm.dpm.dyn_state.vddc_dependency_on_dispclk; struct amdgpu_clock_voltage_dependency_table *vddc_table = &adev->pm.dpm.dyn_state.vddc_dependency_on_sclk; u32 requested_voltage = 0; u32 i; if (disp_voltage_table == NULL) return -EINVAL; if (!disp_voltage_table->count) return -EINVAL; for (i = 0; i < disp_voltage_table->count; i++) { if (adev->clock.current_dispclk == disp_voltage_table->entries[i].clk) requested_voltage = disp_voltage_table->entries[i].v; } for (i = 0; i < vddc_table->count; i++) { if (requested_voltage <= vddc_table->entries[i].v) { requested_voltage = vddc_table->entries[i].v; return (amdgpu_ci_send_msg_to_smc_with_parameter(adev, PPSMC_MSG_VddC_Request, requested_voltage * VOLTAGE_SCALE) == PPSMC_Result_OK) ? 0 : -EINVAL; } } return -EINVAL; }

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static int ci_upload_dpm_level_enable_mask(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); PPSMC_Result result; ci_apply_disp_minimum_voltage_request(adev); if (!pi->sclk_dpm_key_disabled) { if (pi->dpm_level_enable_mask.sclk_dpm_enable_mask) { result = amdgpu_ci_send_msg_to_smc_with_parameter(adev, PPSMC_MSG_SCLKDPM_SetEnabledMask, pi->dpm_level_enable_mask.sclk_dpm_enable_mask); if (result != PPSMC_Result_OK) return -EINVAL; } } if (!pi->mclk_dpm_key_disabled) { if (pi->dpm_level_enable_mask.mclk_dpm_enable_mask) { result = amdgpu_ci_send_msg_to_smc_with_parameter(adev, PPSMC_MSG_MCLKDPM_SetEnabledMask, pi->dpm_level_enable_mask.mclk_dpm_enable_mask); if (result != PPSMC_Result_OK) return -EINVAL; } } #if 0 if (!pi->pcie_dpm_key_disabled) { if (pi->dpm_level_enable_mask.pcie_dpm_enable_mask) { result = amdgpu_ci_send_msg_to_smc_with_parameter(adev, PPSMC_MSG_PCIeDPM_SetEnabledMask, pi->dpm_level_enable_mask.pcie_dpm_enable_mask); if (result != PPSMC_Result_OK) return -EINVAL; } } #endif return 0; }

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static void ci_find_dpm_states_clocks_in_dpm_table(struct amdgpu_device *adev, struct amdgpu_ps *amdgpu_state) { struct ci_power_info *pi = ci_get_pi(adev); struct ci_ps *state = ci_get_ps(amdgpu_state); struct ci_single_dpm_table *sclk_table = &pi->dpm_table.sclk_table; u32 sclk = state->performance_levels[state->performance_level_count-1].sclk; struct ci_single_dpm_table *mclk_table = &pi->dpm_table.mclk_table; u32 mclk = state->performance_levels[state->performance_level_count-1].mclk; u32 i; pi->need_update_smu7_dpm_table = 0; for (i = 0; i < sclk_table->count; i++) { if (sclk == sclk_table->dpm_levels[i].value) break; } if (i >= sclk_table->count) { pi->need_update_smu7_dpm_table |= DPMTABLE_OD_UPDATE_SCLK; } else { /* XXX check display min clock requirements */ if (CISLAND_MINIMUM_ENGINE_CLOCK != CISLAND_MINIMUM_ENGINE_CLOCK) pi->need_update_smu7_dpm_table |= DPMTABLE_UPDATE_SCLK; } for (i = 0; i < mclk_table->count; i++) { if (mclk == mclk_table->dpm_levels[i].value) break; } if (i >= mclk_table->count) pi->need_update_smu7_dpm_table |= DPMTABLE_OD_UPDATE_MCLK; if (adev->pm.dpm.current_active_crtc_count != adev->pm.dpm.new_active_crtc_count) pi->need_update_smu7_dpm_table |= DPMTABLE_UPDATE_MCLK; }

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static int ci_populate_and_upload_sclk_mclk_dpm_levels(struct amdgpu_device *adev, struct amdgpu_ps *amdgpu_state) { struct ci_power_info *pi = ci_get_pi(adev); struct ci_ps *state = ci_get_ps(amdgpu_state); u32 sclk = state->performance_levels[state->performance_level_count-1].sclk; u32 mclk = state->performance_levels[state->performance_level_count-1].mclk; struct ci_dpm_table *dpm_table = &pi->dpm_table; int ret; if (!pi->need_update_smu7_dpm_table) return 0; if (pi->need_update_smu7_dpm_table & DPMTABLE_OD_UPDATE_SCLK) dpm_table->sclk_table.dpm_levels[dpm_table->sclk_table.count-1].value = sclk; if (pi->need_update_smu7_dpm_table & DPMTABLE_OD_UPDATE_MCLK) dpm_table->mclk_table.dpm_levels[dpm_table->mclk_table.count-1].value = mclk; if (pi->need_update_smu7_dpm_table & (DPMTABLE_OD_UPDATE_SCLK | DPMTABLE_UPDATE_SCLK)) { ret = ci_populate_all_graphic_levels(adev); if (ret) return ret; } if (pi->need_update_smu7_dpm_table & (DPMTABLE_OD_UPDATE_MCLK | DPMTABLE_UPDATE_MCLK)) { ret = ci_populate_all_memory_levels(adev); if (ret) return ret; } return 0; }

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static int ci_enable_uvd_dpm(struct amdgpu_device *adev, bool enable) { struct ci_power_info *pi = ci_get_pi(adev); const struct amdgpu_clock_and_voltage_limits *max_limits; int i; if (adev->pm.dpm.ac_power) max_limits = &adev->pm.dpm.dyn_state.max_clock_voltage_on_ac; else max_limits = &adev->pm.dpm.dyn_state.max_clock_voltage_on_dc; if (enable) { pi->dpm_level_enable_mask.uvd_dpm_enable_mask = 0; for (i = adev->pm.dpm.dyn_state.uvd_clock_voltage_dependency_table.count - 1; i >= 0; i--) { if (adev->pm.dpm.dyn_state.uvd_clock_voltage_dependency_table.entries[i].v <= max_limits->vddc) { pi->dpm_level_enable_mask.uvd_dpm_enable_mask |= 1 << i; if (!pi->caps_uvd_dpm) break; } } amdgpu_ci_send_msg_to_smc_with_parameter(adev, PPSMC_MSG_UVDDPM_SetEnabledMask, pi->dpm_level_enable_mask.uvd_dpm_enable_mask); if (pi->last_mclk_dpm_enable_mask & 0x1) { pi->uvd_enabled = true; pi->dpm_level_enable_mask.mclk_dpm_enable_mask &= 0xFFFFFFFE; amdgpu_ci_send_msg_to_smc_with_parameter(adev, PPSMC_MSG_MCLKDPM_SetEnabledMask, pi->dpm_level_enable_mask.mclk_dpm_enable_mask); } } else { if (pi->uvd_enabled) { pi->uvd_enabled = false; pi->dpm_level_enable_mask.mclk_dpm_enable_mask |= 1; amdgpu_ci_send_msg_to_smc_with_parameter(adev, PPSMC_MSG_MCLKDPM_SetEnabledMask, pi->dpm_level_enable_mask.mclk_dpm_enable_mask); } } return (amdgpu_ci_send_msg_to_smc(adev, enable ? PPSMC_MSG_UVDDPM_Enable : PPSMC_MSG_UVDDPM_Disable) == PPSMC_Result_OK) ? 0 : -EINVAL; }

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static int ci_enable_vce_dpm(struct amdgpu_device *adev, bool enable) { struct ci_power_info *pi = ci_get_pi(adev); const struct amdgpu_clock_and_voltage_limits *max_limits; int i; if (adev->pm.dpm.ac_power) max_limits = &adev->pm.dpm.dyn_state.max_clock_voltage_on_ac; else max_limits = &adev->pm.dpm.dyn_state.max_clock_voltage_on_dc; if (enable) { pi->dpm_level_enable_mask.vce_dpm_enable_mask = 0; for (i = adev->pm.dpm.dyn_state.vce_clock_voltage_dependency_table.count - 1; i >= 0; i--) { if (adev->pm.dpm.dyn_state.vce_clock_voltage_dependency_table.entries[i].v <= max_limits->vddc) { pi->dpm_level_enable_mask.vce_dpm_enable_mask |= 1 << i; if (!pi->caps_vce_dpm) break; } } amdgpu_ci_send_msg_to_smc_with_parameter(adev, PPSMC_MSG_VCEDPM_SetEnabledMask, pi->dpm_level_enable_mask.vce_dpm_enable_mask); } return (amdgpu_ci_send_msg_to_smc(adev, enable ? PPSMC_MSG_VCEDPM_Enable : PPSMC_MSG_VCEDPM_Disable) == PPSMC_Result_OK) ? 0 : -EINVAL; }

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#if 0 static int ci_enable_samu_dpm(struct amdgpu_device *adev, bool enable) { struct ci_power_info *pi = ci_get_pi(adev); const struct amdgpu_clock_and_voltage_limits *max_limits; int i; if (adev->pm.dpm.ac_power) max_limits = &adev->pm.dpm.dyn_state.max_clock_voltage_on_ac; else max_limits = &adev->pm.dpm.dyn_state.max_clock_voltage_on_dc; if (enable) { pi->dpm_level_enable_mask.samu_dpm_enable_mask = 0; for (i = adev->pm.dpm.dyn_state.samu_clock_voltage_dependency_table.count - 1; i >= 0; i--) { if (adev->pm.dpm.dyn_state.samu_clock_voltage_dependency_table.entries[i].v <= max_limits->vddc) { pi->dpm_level_enable_mask.samu_dpm_enable_mask |= 1 << i; if (!pi->caps_samu_dpm) break; } } amdgpu_ci_send_msg_to_smc_with_parameter(adev, PPSMC_MSG_SAMUDPM_SetEnabledMask, pi->dpm_level_enable_mask.samu_dpm_enable_mask); } return (amdgpu_ci_send_msg_to_smc(adev, enable ? PPSMC_MSG_SAMUDPM_Enable : PPSMC_MSG_SAMUDPM_Disable) == PPSMC_Result_OK) ? 0 : -EINVAL; } static int ci_enable_acp_dpm(struct amdgpu_device *adev, bool enable) { struct ci_power_info *pi = ci_get_pi(adev); const struct amdgpu_clock_and_voltage_limits *max_limits; int i; if (adev->pm.dpm.ac_power) max_limits = &adev->pm.dpm.dyn_state.max_clock_voltage_on_ac; else max_limits = &adev->pm.dpm.dyn_state.max_clock_voltage_on_dc; if (enable) { pi->dpm_level_enable_mask.acp_dpm_enable_mask = 0; for (i = adev->pm.dpm.dyn_state.acp_clock_voltage_dependency_table.count - 1; i >= 0; i--) { if (adev->pm.dpm.dyn_state.acp_clock_voltage_dependency_table.entries[i].v <= max_limits->vddc) { pi->dpm_level_enable_mask.acp_dpm_enable_mask |= 1 << i; if (!pi->caps_acp_dpm) break; } } amdgpu_ci_send_msg_to_smc_with_parameter(adev, PPSMC_MSG_ACPDPM_SetEnabledMask, pi->dpm_level_enable_mask.acp_dpm_enable_mask); } return (amdgpu_ci_send_msg_to_smc(adev, enable ? PPSMC_MSG_ACPDPM_Enable : PPSMC_MSG_ACPDPM_Disable) == PPSMC_Result_OK) ? 0 : -EINVAL; } #endif
static int ci_update_uvd_dpm(struct amdgpu_device *adev, bool gate) { struct ci_power_info *pi = ci_get_pi(adev); u32 tmp; int ret = 0; if (!gate) { /* turn the clocks on when decoding */ if (pi->caps_uvd_dpm || (adev->pm.dpm.dyn_state.uvd_clock_voltage_dependency_table.count <= 0)) pi->smc_state_table.UvdBootLevel = 0; else pi->smc_state_table.UvdBootLevel = adev->pm.dpm.dyn_state.uvd_clock_voltage_dependency_table.count - 1; tmp = RREG32_SMC(ixDPM_TABLE_475); tmp &= ~DPM_TABLE_475__UvdBootLevel_MASK; tmp |= (pi->smc_state_table.UvdBootLevel << DPM_TABLE_475__UvdBootLevel__SHIFT); WREG32_SMC(ixDPM_TABLE_475, tmp); ret = ci_enable_uvd_dpm(adev, true); } else { ret = ci_enable_uvd_dpm(adev, false); if (ret) return ret; } return ret; }

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static u8 ci_get_vce_boot_level(struct amdgpu_device *adev) { u8 i; u32 min_evclk = 30000; /* ??? */ struct amdgpu_vce_clock_voltage_dependency_table *table = &adev->pm.dpm.dyn_state.vce_clock_voltage_dependency_table; for (i = 0; i < table->count; i++) { if (table->entries[i].evclk >= min_evclk) return i; } return table->count - 1; }

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static int ci_update_vce_dpm(struct amdgpu_device *adev, struct amdgpu_ps *amdgpu_new_state, struct amdgpu_ps *amdgpu_current_state) { struct ci_power_info *pi = ci_get_pi(adev); int ret = 0; u32 tmp; if (amdgpu_current_state->evclk != amdgpu_new_state->evclk) { if (amdgpu_new_state->evclk) { pi->smc_state_table.VceBootLevel = ci_get_vce_boot_level(adev); tmp = RREG32_SMC(ixDPM_TABLE_475); tmp &= ~DPM_TABLE_475__VceBootLevel_MASK; tmp |= (pi->smc_state_table.VceBootLevel << DPM_TABLE_475__VceBootLevel__SHIFT); WREG32_SMC(ixDPM_TABLE_475, tmp); ret = ci_enable_vce_dpm(adev, true); } else { ret = ci_enable_vce_dpm(adev, false); if (ret) return ret; } } return ret; }

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#if 0 static int ci_update_samu_dpm(struct amdgpu_device *adev, bool gate) { return ci_enable_samu_dpm(adev, gate); } static int ci_update_acp_dpm(struct amdgpu_device *adev, bool gate) { struct ci_power_info *pi = ci_get_pi(adev); u32 tmp; if (!gate) { pi->smc_state_table.AcpBootLevel = 0; tmp = RREG32_SMC(ixDPM_TABLE_475); tmp &= ~AcpBootLevel_MASK; tmp |= AcpBootLevel(pi->smc_state_table.AcpBootLevel); WREG32_SMC(ixDPM_TABLE_475, tmp); } return ci_enable_acp_dpm(adev, !gate); } #endif
static int ci_generate_dpm_level_enable_mask(struct amdgpu_device *adev, struct amdgpu_ps *amdgpu_state) { struct ci_power_info *pi = ci_get_pi(adev); int ret; ret = ci_trim_dpm_states(adev, amdgpu_state); if (ret) return ret; pi->dpm_level_enable_mask.sclk_dpm_enable_mask = ci_get_dpm_level_enable_mask_value(&pi->dpm_table.sclk_table); pi->dpm_level_enable_mask.mclk_dpm_enable_mask = ci_get_dpm_level_enable_mask_value(&pi->dpm_table.mclk_table); pi->last_mclk_dpm_enable_mask = pi->dpm_level_enable_mask.mclk_dpm_enable_mask; if (pi->uvd_enabled) { if (pi->dpm_level_enable_mask.mclk_dpm_enable_mask & 1) pi->dpm_level_enable_mask.mclk_dpm_enable_mask &= 0xFFFFFFFE; } pi->dpm_level_enable_mask.pcie_dpm_enable_mask = ci_get_dpm_level_enable_mask_value(&pi->dpm_table.pcie_speed_table); return 0; }

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static u32 ci_get_lowest_enabled_level(struct amdgpu_device *adev, u32 level_mask) { u32 level = 0; while ((level_mask & (1 << level)) == 0) level++; return level; }

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static int ci_dpm_force_performance_level(struct amdgpu_device *adev, enum amd_dpm_forced_level level) { struct ci_power_info *pi = ci_get_pi(adev); u32 tmp, levels, i; int ret; if (level == AMD_DPM_FORCED_LEVEL_HIGH) { if ((!pi->pcie_dpm_key_disabled) && pi->dpm_level_enable_mask.pcie_dpm_enable_mask) { levels = 0; tmp = pi->dpm_level_enable_mask.pcie_dpm_enable_mask; while (tmp >>= 1) levels++; if (levels) { ret = ci_dpm_force_state_pcie(adev, level); if (ret) return ret; for (i = 0; i < adev->usec_timeout; i++) { tmp = (RREG32_SMC(ixTARGET_AND_CURRENT_PROFILE_INDEX_1) & TARGET_AND_CURRENT_PROFILE_INDEX_1__CURR_PCIE_INDEX_MASK) >> TARGET_AND_CURRENT_PROFILE_INDEX_1__CURR_PCIE_INDEX__SHIFT; if (tmp == levels) break; udelay(1); } } } if ((!pi->sclk_dpm_key_disabled) && pi->dpm_level_enable_mask.sclk_dpm_enable_mask) { levels = 0; tmp = pi->dpm_level_enable_mask.sclk_dpm_enable_mask; while (tmp >>= 1) levels++; if (levels) { ret = ci_dpm_force_state_sclk(adev, levels); if (ret) return ret; for (i = 0; i < adev->usec_timeout; i++) { tmp = (RREG32_SMC(ixTARGET_AND_CURRENT_PROFILE_INDEX) & TARGET_AND_CURRENT_PROFILE_INDEX__CURR_SCLK_INDEX_MASK) >> TARGET_AND_CURRENT_PROFILE_INDEX__CURR_SCLK_INDEX__SHIFT; if (tmp == levels) break; udelay(1); } } } if ((!pi->mclk_dpm_key_disabled) && pi->dpm_level_enable_mask.mclk_dpm_enable_mask) { levels = 0; tmp = pi->dpm_level_enable_mask.mclk_dpm_enable_mask; while (tmp >>= 1) levels++; if (levels) { ret = ci_dpm_force_state_mclk(adev, levels); if (ret) return ret; for (i = 0; i < adev->usec_timeout; i++) { tmp = (RREG32_SMC(ixTARGET_AND_CURRENT_PROFILE_INDEX) & TARGET_AND_CURRENT_PROFILE_INDEX__CURR_MCLK_INDEX_MASK) >> TARGET_AND_CURRENT_PROFILE_INDEX__CURR_MCLK_INDEX__SHIFT; if (tmp == levels) break; udelay(1); } } } } else if (level == AMD_DPM_FORCED_LEVEL_LOW) { if ((!pi->sclk_dpm_key_disabled) && pi->dpm_level_enable_mask.sclk_dpm_enable_mask) { levels = ci_get_lowest_enabled_level(adev, pi->dpm_level_enable_mask.sclk_dpm_enable_mask); ret = ci_dpm_force_state_sclk(adev, levels); if (ret) return ret; for (i = 0; i < adev->usec_timeout; i++) { tmp = (RREG32_SMC(ixTARGET_AND_CURRENT_PROFILE_INDEX) & TARGET_AND_CURRENT_PROFILE_INDEX__CURR_SCLK_INDEX_MASK) >> TARGET_AND_CURRENT_PROFILE_INDEX__CURR_SCLK_INDEX__SHIFT; if (tmp == levels) break; udelay(1); } } if ((!pi->mclk_dpm_key_disabled) && pi->dpm_level_enable_mask.mclk_dpm_enable_mask) { levels = ci_get_lowest_enabled_level(adev, pi->dpm_level_enable_mask.mclk_dpm_enable_mask); ret = ci_dpm_force_state_mclk(adev, levels); if (ret) return ret; for (i = 0; i < adev->usec_timeout; i++) { tmp = (RREG32_SMC(ixTARGET_AND_CURRENT_PROFILE_INDEX) & TARGET_AND_CURRENT_PROFILE_INDEX__CURR_MCLK_INDEX_MASK) >> TARGET_AND_CURRENT_PROFILE_INDEX__CURR_MCLK_INDEX__SHIFT; if (tmp == levels) break; udelay(1); } } if ((!pi->pcie_dpm_key_disabled) && pi->dpm_level_enable_mask.pcie_dpm_enable_mask) { levels = ci_get_lowest_enabled_level(adev, pi->dpm_level_enable_mask.pcie_dpm_enable_mask); ret = ci_dpm_force_state_pcie(adev, levels); if (ret) return ret; for (i = 0; i < adev->usec_timeout; i++) { tmp = (RREG32_SMC(ixTARGET_AND_CURRENT_PROFILE_INDEX_1) & TARGET_AND_CURRENT_PROFILE_INDEX_1__CURR_PCIE_INDEX_MASK) >> TARGET_AND_CURRENT_PROFILE_INDEX_1__CURR_PCIE_INDEX__SHIFT; if (tmp == levels) break; udelay(1); } } } else if (level == AMD_DPM_FORCED_LEVEL_AUTO) { if (!pi->pcie_dpm_key_disabled) { PPSMC_Result smc_result; smc_result = amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_PCIeDPM_UnForceLevel); if (smc_result != PPSMC_Result_OK) return -EINVAL; } ret = ci_upload_dpm_level_enable_mask(adev); if (ret) return ret; } adev->pm.dpm.forced_level = level; return 0; }

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static int ci_set_mc_special_registers(struct amdgpu_device *adev, struct ci_mc_reg_table *table) { u8 i, j, k; u32 temp_reg; for (i = 0, j = table->last; i < table->last; i++) { if (j >= SMU7_DISCRETE_MC_REGISTER_ARRAY_SIZE) return -EINVAL; switch(table->mc_reg_address[i].s1) { case mmMC_SEQ_MISC1: temp_reg = RREG32(mmMC_PMG_CMD_EMRS); table->mc_reg_address[j].s1 = mmMC_PMG_CMD_EMRS; table->mc_reg_address[j].s0 = mmMC_SEQ_PMG_CMD_EMRS_LP; for (k = 0; k < table->num_entries; k++) { table->mc_reg_table_entry[k].mc_data[j] = ((temp_reg & 0xffff0000)) | ((table->mc_reg_table_entry[k].mc_data[i] & 0xffff0000) >> 16); } j++; if (j >= SMU7_DISCRETE_MC_REGISTER_ARRAY_SIZE) return -EINVAL; temp_reg = RREG32(mmMC_PMG_CMD_MRS); table->mc_reg_address[j].s1 = mmMC_PMG_CMD_MRS; table->mc_reg_address[j].s0 = mmMC_SEQ_PMG_CMD_MRS_LP; for (k = 0; k < table->num_entries; k++) { table->mc_reg_table_entry[k].mc_data[j] = (temp_reg & 0xffff0000) | (table->mc_reg_table_entry[k].mc_data[i] & 0x0000ffff); if (adev->mc.vram_type != AMDGPU_VRAM_TYPE_GDDR5) table->mc_reg_table_entry[k].mc_data[j] |= 0x100; } j++; if (j > SMU7_DISCRETE_MC_REGISTER_ARRAY_SIZE) return -EINVAL; if (adev->mc.vram_type != AMDGPU_VRAM_TYPE_GDDR5) { table->mc_reg_address[j].s1 = mmMC_PMG_AUTO_CMD; table->mc_reg_address[j].s0 = mmMC_PMG_AUTO_CMD; for (k = 0; k < table->num_entries; k++) { table->mc_reg_table_entry[k].mc_data[j] = (table->mc_reg_table_entry[k].mc_data[i] & 0xffff0000) >> 16; } j++; if (j > SMU7_DISCRETE_MC_REGISTER_ARRAY_SIZE) return -EINVAL; } break; case mmMC_SEQ_RESERVE_M: temp_reg = RREG32(mmMC_PMG_CMD_MRS1); table->mc_reg_address[j].s1 = mmMC_PMG_CMD_MRS1; table->mc_reg_address[j].s0 = mmMC_SEQ_PMG_CMD_MRS1_LP; for (k = 0; k < table->num_entries; k++) { table->mc_reg_table_entry[k].mc_data[j] = (temp_reg & 0xffff0000) | (table->mc_reg_table_entry[k].mc_data[i] & 0x0000ffff); } j++; if (j > SMU7_DISCRETE_MC_REGISTER_ARRAY_SIZE) return -EINVAL; break; default: break; } } table->last = j; return 0; }

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static bool ci_check_s0_mc_reg_index(u16 in_reg, u16 *out_reg) { bool result = true; switch(in_reg) { case mmMC_SEQ_RAS_TIMING: *out_reg = mmMC_SEQ_RAS_TIMING_LP; break; case mmMC_SEQ_DLL_STBY: *out_reg = mmMC_SEQ_DLL_STBY_LP; break; case mmMC_SEQ_G5PDX_CMD0: *out_reg = mmMC_SEQ_G5PDX_CMD0_LP; break; case mmMC_SEQ_G5PDX_CMD1: *out_reg = mmMC_SEQ_G5PDX_CMD1_LP; break; case mmMC_SEQ_G5PDX_CTRL: *out_reg = mmMC_SEQ_G5PDX_CTRL_LP; break; case mmMC_SEQ_CAS_TIMING: *out_reg = mmMC_SEQ_CAS_TIMING_LP; break; case mmMC_SEQ_MISC_TIMING: *out_reg = mmMC_SEQ_MISC_TIMING_LP; break; case mmMC_SEQ_MISC_TIMING2: *out_reg = mmMC_SEQ_MISC_TIMING2_LP; break; case mmMC_SEQ_PMG_DVS_CMD: *out_reg = mmMC_SEQ_PMG_DVS_CMD_LP; break; case mmMC_SEQ_PMG_DVS_CTL: *out_reg = mmMC_SEQ_PMG_DVS_CTL_LP; break; case mmMC_SEQ_RD_CTL_D0: *out_reg = mmMC_SEQ_RD_CTL_D0_LP; break; case mmMC_SEQ_RD_CTL_D1: *out_reg = mmMC_SEQ_RD_CTL_D1_LP; break; case mmMC_SEQ_WR_CTL_D0: *out_reg = mmMC_SEQ_WR_CTL_D0_LP; break; case mmMC_SEQ_WR_CTL_D1: *out_reg = mmMC_SEQ_WR_CTL_D1_LP; break; case mmMC_PMG_CMD_EMRS: *out_reg = mmMC_SEQ_PMG_CMD_EMRS_LP; break; case mmMC_PMG_CMD_MRS: *out_reg = mmMC_SEQ_PMG_CMD_MRS_LP; break; case mmMC_PMG_CMD_MRS1: *out_reg = mmMC_SEQ_PMG_CMD_MRS1_LP; break; case mmMC_SEQ_PMG_TIMING: *out_reg = mmMC_SEQ_PMG_TIMING_LP; break; case mmMC_PMG_CMD_MRS2: *out_reg = mmMC_SEQ_PMG_CMD_MRS2_LP; break; case mmMC_SEQ_WR_CTL_2: *out_reg = mmMC_SEQ_WR_CTL_2_LP; break; default: result = false; break; } return result; }

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static void ci_set_valid_flag(struct ci_mc_reg_table *table) { u8 i, j; for (i = 0; i < table->last; i++) { for (j = 1; j < table->num_entries; j++) { if (table->mc_reg_table_entry[j-1].mc_data[i] != table->mc_reg_table_entry[j].mc_data[i]) { table->valid_flag |= 1 << i; break; } } } }

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static void ci_set_s0_mc_reg_index(struct ci_mc_reg_table *table) { u32 i; u16 address; for (i = 0; i < table->last; i++) { table->mc_reg_address[i].s0 = ci_check_s0_mc_reg_index(table->mc_reg_address[i].s1, &address) ? address : table->mc_reg_address[i].s1; } }

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static int ci_copy_vbios_mc_reg_table(const struct atom_mc_reg_table *table, struct ci_mc_reg_table *ci_table) { u8 i, j; if (table->last > SMU7_DISCRETE_MC_REGISTER_ARRAY_SIZE) return -EINVAL; if (table->num_entries > MAX_AC_TIMING_ENTRIES) return -EINVAL; for (i = 0; i < table->last; i++) ci_table->mc_reg_address[i].s1 = table->mc_reg_address[i].s1; ci_table->last = table->last; for (i = 0; i < table->num_entries; i++) { ci_table->mc_reg_table_entry[i].mclk_max = table->mc_reg_table_entry[i].mclk_max; for (j = 0; j < table->last; j++) ci_table->mc_reg_table_entry[i].mc_data[j] = table->mc_reg_table_entry[i].mc_data[j]; } ci_table->num_entries = table->num_entries; return 0; }

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Alex Deucher172100.00%1100.00%
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static int ci_register_patching_mc_seq(struct amdgpu_device *adev, struct ci_mc_reg_table *table) { u8 i, k; u32 tmp; bool patch; tmp = RREG32(mmMC_SEQ_MISC0); patch = ((tmp & 0x0000f00) == 0x300) ? true : false; if (patch && ((adev->pdev->device == 0x67B0) || (adev->pdev->device == 0x67B1))) { for (i = 0; i < table->last; i++) { if (table->last >= SMU7_DISCRETE_MC_REGISTER_ARRAY_SIZE) return -EINVAL; switch (table->mc_reg_address[i].s1) { case mmMC_SEQ_MISC1: for (k = 0; k < table->num_entries; k++) { if ((table->mc_reg_table_entry[k].mclk_max == 125000) || (table->mc_reg_table_entry[k].mclk_max == 137500)) table->mc_reg_table_entry[k].mc_data[i] = (table->mc_reg_table_entry[k].mc_data[i] & 0xFFFFFFF8) | 0x00000007; } break; case mmMC_SEQ_WR_CTL_D0: for (k = 0; k < table->num_entries; k++) { if ((table->mc_reg_table_entry[k].mclk_max == 125000) || (table->mc_reg_table_entry[k].mclk_max == 137500)) table->mc_reg_table_entry[k].mc_data[i] = (table->mc_reg_table_entry[k].mc_data[i] & 0xFFFF0F00) | 0x0000D0DD; } break; case mmMC_SEQ_WR_CTL_D1: for (k = 0; k < table->num_entries; k++) { if ((table->mc_reg_table_entry[k].mclk_max == 125000) || (table->mc_reg_table_entry[k].mclk_max == 137500)) table->mc_reg_table_entry[k].mc_data[i] = (table->mc_reg_table_entry[k].mc_data[i] & 0xFFFF0F00) | 0x0000D0DD; } break; case mmMC_SEQ_WR_CTL_2: for (k = 0; k < table->num_entries; k++) { if ((table->mc_reg_table_entry[k].mclk_max == 125000) || (table->mc_reg_table_entry[k].mclk_max == 137500)) table->mc_reg_table_entry[k].mc_data[i] = 0; } break; case mmMC_SEQ_CAS_TIMING: for (k = 0; k < table->num_entries; k++) { if (table->mc_reg_table_entry[k].mclk_max == 125000) table->mc_reg_table_entry[k].mc_data[i] = (table->mc_reg_table_entry[k].mc_data[i] & 0xFFE0FE0F) | 0x000C0140; else if (table->mc_reg_table_entry[k].mclk_max == 137500) table->mc_reg_table_entry[k].mc_data[i] = (table->mc_reg_table_entry[k].mc_data[i] & 0xFFE0FE0F) | 0x000C0150; } break; case mmMC_SEQ_MISC_TIMING: for (k = 0; k < table->num_entries; k++) { if (table->mc_reg_table_entry[k].mclk_max == 125000) table->mc_reg_table_entry[k].mc_data[i] = (table->mc_reg_table_entry[k].mc_data[i] & 0xFFFFFFE0) | 0x00000030; else if (table->mc_reg_table_entry[k].mclk_max == 137500) table->mc_reg_table_entry[k].mc_data[i] = (table->mc_reg_table_entry[k].mc_data[i] & 0xFFFFFFE0) | 0x00000035; } break; default: break; } } WREG32(mmMC_SEQ_IO_DEBUG_INDEX, 3); tmp = RREG32(mmMC_SEQ_IO_DEBUG_DATA); tmp = (tmp & 0xFFF8FFFF) | (1 << 16); WREG32(mmMC_SEQ_IO_DEBUG_INDEX, 3); WREG32(mmMC_SEQ_IO_DEBUG_DATA, tmp); } return 0; }

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Alex Deucher683100.00%1100.00%
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static int ci_initialize_mc_reg_table(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); struct atom_mc_reg_table *table; struct ci_mc_reg_table *ci_table = &pi->mc_reg_table; u8 module_index = ci_get_memory_module_index(adev); int ret; table = kzalloc(sizeof(struct atom_mc_reg_table), GFP_KERNEL); if (!table) return -ENOMEM; WREG32(mmMC_SEQ_RAS_TIMING_LP, RREG32(mmMC_SEQ_RAS_TIMING)); WREG32(mmMC_SEQ_CAS_TIMING_LP, RREG32(mmMC_SEQ_CAS_TIMING)); WREG32(mmMC_SEQ_DLL_STBY_LP, RREG32(mmMC_SEQ_DLL_STBY)); WREG32(mmMC_SEQ_G5PDX_CMD0_LP, RREG32(mmMC_SEQ_G5PDX_CMD0)); WREG32(mmMC_SEQ_G5PDX_CMD1_LP, RREG32(mmMC_SEQ_G5PDX_CMD1)); WREG32(mmMC_SEQ_G5PDX_CTRL_LP, RREG32(mmMC_SEQ_G5PDX_CTRL)); WREG32(mmMC_SEQ_PMG_DVS_CMD_LP, RREG32(mmMC_SEQ_PMG_DVS_CMD)); WREG32(mmMC_SEQ_PMG_DVS_CTL_LP, RREG32(mmMC_SEQ_PMG_DVS_CTL)); WREG32(mmMC_SEQ_MISC_TIMING_LP, RREG32(mmMC_SEQ_MISC_TIMING)); WREG32(mmMC_SEQ_MISC_TIMING2_LP, RREG32(mmMC_SEQ_MISC_TIMING2)); WREG32(mmMC_SEQ_PMG_CMD_EMRS_LP, RREG32(mmMC_PMG_CMD_EMRS)); WREG32(mmMC_SEQ_PMG_CMD_MRS_LP, RREG32(mmMC_PMG_CMD_MRS)); WREG32(mmMC_SEQ_PMG_CMD_MRS1_LP, RREG32(mmMC_PMG_CMD_MRS1)); WREG32(mmMC_SEQ_WR_CTL_D0_LP, RREG32(mmMC_SEQ_WR_CTL_D0)); WREG32(mmMC_SEQ_WR_CTL_D1_LP, RREG32(mmMC_SEQ_WR_CTL_D1)); WREG32(mmMC_SEQ_RD_CTL_D0_LP, RREG32(mmMC_SEQ_RD_CTL_D0)); WREG32(mmMC_SEQ_RD_CTL_D1_LP, RREG32(mmMC_SEQ_RD_CTL_D1)); WREG32(mmMC_SEQ_PMG_TIMING_LP, RREG32(mmMC_SEQ_PMG_TIMING)); WREG32(mmMC_SEQ_PMG_CMD_MRS2_LP, RREG32(mmMC_PMG_CMD_MRS2)); WREG32(mmMC_SEQ_WR_CTL_2_LP, RREG32(mmMC_SEQ_WR_CTL_2)); ret = amdgpu_atombios_init_mc_reg_table(adev, module_index, table); if (ret) goto init_mc_done; ret = ci_copy_vbios_mc_reg_table(table, ci_table); if (ret) goto init_mc_done; ci_set_s0_mc_reg_index(ci_table); ret = ci_register_patching_mc_seq(adev, ci_table); if (ret) goto init_mc_done; ret = ci_set_mc_special_registers(adev, ci_table); if (ret) goto init_mc_done; ci_set_valid_flag(ci_table); init_mc_done: kfree(table); return ret; }

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Alex Deucher355100.00%1100.00%
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static int ci_populate_mc_reg_addresses(struct amdgpu_device *adev, SMU7_Discrete_MCRegisters *mc_reg_table) { struct ci_power_info *pi = ci_get_pi(adev); u32 i, j; for (i = 0, j = 0; j < pi->mc_reg_table.last; j++) { if (pi->mc_reg_table.valid_flag & (1 << j)) { if (i >= SMU7_DISCRETE_MC_REGISTER_ARRAY_SIZE) return -EINVAL; mc_reg_table->address[i].s0 = cpu_to_be16(pi->mc_reg_table.mc_reg_address[j].s0); mc_reg_table->address[i].s1 = cpu_to_be16(pi->mc_reg_table.mc_reg_address[j].s1); i++; } } mc_reg_table->last = (u8)i; return 0; }

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Alex Deucher140100.00%1100.00%
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static void ci_convert_mc_registers(const struct ci_mc_reg_entry *entry, SMU7_Discrete_MCRegisterSet *data, u32 num_entries, u32 valid_flag) { u32 i, j; for (i = 0, j = 0; j < num_entries; j++) { if (valid_flag & (1 << j)) { data->value[i] = cpu_to_be32(entry->mc_data[j]); i++; } } }

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Alex Deucher78100.00%1100.00%
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static void ci_convert_mc_reg_table_entry_to_smc(struct amdgpu_device *adev, const u32 memory_clock, SMU7_Discrete_MCRegisterSet *mc_reg_table_data) { struct ci_power_info *pi = ci_get_pi(adev); u32 i = 0; for(i = 0; i < pi->mc_reg_table.num_entries; i++) { if (memory_clock <= pi->mc_reg_table.mc_reg_table_entry[i].mclk_max) break; } if ((i == pi->mc_reg_table.num_entries) && (i > 0)) --i; ci_convert_mc_registers(&pi->mc_reg_table.mc_reg_table_entry[i], mc_reg_table_data, pi->mc_reg_table.last, pi->mc_reg_table.valid_flag); }

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Alex Deucher117100.00%1100.00%
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static void ci_convert_mc_reg_table_to_smc(struct amdgpu_device *adev, SMU7_Discrete_MCRegisters *mc_reg_table) { struct ci_power_info *pi = ci_get_pi(adev); u32 i; for (i = 0; i < pi->dpm_table.mclk_table.count; i++) ci_convert_mc_reg_table_entry_to_smc(adev, pi->dpm_table.mclk_table.dpm_levels[i].value, &mc_reg_table->data[i]); }

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Alex Deucher73100.00%1100.00%
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static int ci_populate_initial_mc_reg_table(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); int ret; memset(&pi->smc_mc_reg_table, 0, sizeof(SMU7_Discrete_MCRegisters)); ret = ci_populate_mc_reg_addresses(adev, &pi->smc_mc_reg_table); if (ret) return ret; ci_convert_mc_reg_table_to_smc(adev, &pi->smc_mc_reg_table); return amdgpu_ci_copy_bytes_to_smc(adev, pi->mc_reg_table_start, (u8 *)&pi->smc_mc_reg_table, sizeof(SMU7_Discrete_MCRegisters), pi->sram_end); }

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Alex Deucher96100.00%1100.00%
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static int ci_update_and_upload_mc_reg_table(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); if (!(pi->need_update_smu7_dpm_table & DPMTABLE_OD_UPDATE_MCLK)) return 0; memset(&pi->smc_mc_reg_table, 0, sizeof(SMU7_Discrete_MCRegisters)); ci_convert_mc_reg_table_to_smc(adev, &pi->smc_mc_reg_table); return amdgpu_ci_copy_bytes_to_smc(adev, pi->mc_reg_table_start + offsetof(SMU7_Discrete_MCRegisters, data[0]), (u8 *)&pi->smc_mc_reg_table.data[0], sizeof(SMU7_Discrete_MCRegisterSet) * pi->dpm_table.mclk_table.count, pi->sram_end); }

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static void ci_enable_voltage_control(struct amdgpu_device *adev) { u32 tmp = RREG32_SMC(ixGENERAL_PWRMGT); tmp |= GENERAL_PWRMGT__VOLT_PWRMGT_EN_MASK; WREG32_SMC(ixGENERAL_PWRMGT, tmp); }

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Alex Deucher30100.00%1100.00%
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static enum amdgpu_pcie_gen ci_get_maximum_link_speed(struct amdgpu_device *adev, struct amdgpu_ps *amdgpu_state) { struct ci_ps *state = ci_get_ps(amdgpu_state); int i; u16 pcie_speed, max_speed = 0; for (i = 0; i < state->performance_level_count; i++) { pcie_speed = state->performance_levels[i].pcie_gen; if (max_speed < pcie_speed) max_speed = pcie_speed; } return max_speed; }

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static u16 ci_get_current_pcie_speed(struct amdgpu_device *adev) { u32 speed_cntl = 0; speed_cntl = RREG32_PCIE(ixPCIE_LC_SPEED_CNTL) & PCIE_LC_SPEED_CNTL__LC_CURRENT_DATA_RATE_MASK; speed_cntl >>= PCIE_LC_SPEED_CNTL__LC_CURRENT_DATA_RATE__SHIFT; return (u16)speed_cntl; }

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Alex Deucher35100.00%1100.00%
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static int ci_get_current_pcie_lane_number(struct amdgpu_device *adev) { u32 link_width = 0; link_width = RREG32_PCIE(ixPCIE_LC_LINK_WIDTH_CNTL) & PCIE_LC_LINK_WIDTH_CNTL__LC_LINK_WIDTH_RD_MASK; link_width >>= PCIE_LC_LINK_WIDTH_CNTL__LC_LINK_WIDTH_RD__SHIFT; switch (link_width) { case 1: return 1; case 2: return 2; case 3: return 4; case 4: return 8; case 0: case 6: default: return 16; } }

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Alex Deucher69100.00%1100.00%
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static void ci_request_link_speed_change_before_state_change(struct amdgpu_device *adev, struct amdgpu_ps *amdgpu_new_state, struct amdgpu_ps *amdgpu_current_state) { struct ci_power_info *pi = ci_get_pi(adev); enum amdgpu_pcie_gen target_link_speed = ci_get_maximum_link_speed(adev, amdgpu_new_state); enum amdgpu_pcie_gen current_link_speed; if (pi->force_pcie_gen == AMDGPU_PCIE_GEN_INVALID) current_link_speed = ci_get_maximum_link_speed(adev, amdgpu_current_state); else current_link_speed = pi->force_pcie_gen; pi->force_pcie_gen = AMDGPU_PCIE_GEN_INVALID; pi->pspp_notify_required = false; if (target_link_speed > current_link_speed) { switch (target_link_speed) { #ifdef CONFIG_ACPI case AMDGPU_PCIE_GEN3: if (amdgpu_acpi_pcie_performance_request(adev, PCIE_PERF_REQ_PECI_GEN3, false) == 0) break; pi->force_pcie_gen = AMDGPU_PCIE_GEN2; if (current_link_speed == AMDGPU_PCIE_GEN2) break; case AMDGPU_PCIE_GEN2: if (amdgpu_acpi_pcie_performance_request(adev, PCIE_PERF_REQ_PECI_GEN2, false) == 0) break; #endif default: pi->force_pcie_gen = ci_get_current_pcie_speed(adev); break; } } else { if (target_link_speed < current_link_speed) pi->pspp_notify_required = true; } }

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Alex Deucher174100.00%1100.00%
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static void ci_notify_link_speed_change_after_state_change(struct amdgpu_device *adev, struct amdgpu_ps *amdgpu_new_state, struct amdgpu_ps *amdgpu_current_state) { struct ci_power_info *pi = ci_get_pi(adev); enum amdgpu_pcie_gen target_link_speed = ci_get_maximum_link_speed(adev, amdgpu_new_state); u8 request; if (pi->pspp_notify_required) { if (target_link_speed == AMDGPU_PCIE_GEN3) request = PCIE_PERF_REQ_PECI_GEN3; else if (target_link_speed == AMDGPU_PCIE_GEN2) request = PCIE_PERF_REQ_PECI_GEN2; else request = PCIE_PERF_REQ_PECI_GEN1; if ((request == PCIE_PERF_REQ_PECI_GEN1) && (ci_get_current_pcie_speed(adev) > 0)) return; #ifdef CONFIG_ACPI amdgpu_acpi_pcie_performance_request(adev, request, false); #endif } }

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Alex Deucher111100.00%1100.00%
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static int ci_set_private_data_variables_based_on_pptable(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); struct amdgpu_clock_voltage_dependency_table *allowed_sclk_vddc_table = &adev->pm.dpm.dyn_state.vddc_dependency_on_sclk; struct amdgpu_clock_voltage_dependency_table *allowed_mclk_vddc_table = &adev->pm.dpm.dyn_state.vddc_dependency_on_mclk; struct amdgpu_clock_voltage_dependency_table *allowed_mclk_vddci_table = &adev->pm.dpm.dyn_state.vddci_dependency_on_mclk; if (allowed_sclk_vddc_table == NULL) return -EINVAL; if (allowed_sclk_vddc_table->count < 1) return -EINVAL; if (allowed_mclk_vddc_table == NULL) return -EINVAL; if (allowed_mclk_vddc_table->count < 1) return -EINVAL; if (allowed_mclk_vddci_table == NULL) return -EINVAL; if (allowed_mclk_vddci_table->count < 1) return -EINVAL; pi->min_vddc_in_pp_table = allowed_sclk_vddc_table->entries[0].v; pi->max_vddc_in_pp_table = allowed_sclk_vddc_table->entries[allowed_sclk_vddc_table->count - 1].v; pi->min_vddci_in_pp_table = allowed_mclk_vddci_table->entries[0].v; pi->max_vddci_in_pp_table = allowed_mclk_vddci_table->entries[allowed_mclk_vddci_table->count - 1].v; adev->pm.dpm.dyn_state.max_clock_voltage_on_ac.sclk = allowed_sclk_vddc_table->entries[allowed_sclk_vddc_table->count - 1].clk; adev->pm.dpm.dyn_state.max_clock_voltage_on_ac.mclk = allowed_mclk_vddc_table->entries[allowed_sclk_vddc_table->count - 1].clk; adev->pm.dpm.dyn_state.max_clock_voltage_on_ac.vddc = allowed_sclk_vddc_table->entries[allowed_sclk_vddc_table->count - 1].v; adev->pm.dpm.dyn_state.max_clock_voltage_on_ac.vddci = allowed_mclk_vddci_table->entries[allowed_mclk_vddci_table->count - 1].v; return 0; }

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static void ci_patch_with_vddc_leakage(struct amdgpu_device *adev, u16 *vddc) { struct ci_power_info *pi = ci_get_pi(adev); struct ci_leakage_voltage *leakage_table = &pi->vddc_leakage; u32 leakage_index; for (leakage_index = 0; leakage_index < leakage_table->count; leakage_index++) { if (leakage_table->leakage_id[leakage_index] == *vddc) { *vddc = leakage_table->actual_voltage[leakage_index]; break; } } }

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Alex Deucher80100.00%1100.00%
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static void ci_patch_with_vddci_leakage(struct amdgpu_device *adev, u16 *vddci) { struct ci_power_info *pi = ci_get_pi(adev); struct ci_leakage_voltage *leakage_table = &pi->vddci_leakage; u32 leakage_index; for (leakage_index = 0; leakage_index < leakage_table->count; leakage_index++) { if (leakage_table->leakage_id[leakage_index] == *vddci) { *vddci = leakage_table->actual_voltage[leakage_index]; break; } } }

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Alex Deucher80100.00%1100.00%
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static void ci_patch_clock_voltage_dependency_table_with_vddc_leakage(struct amdgpu_device *adev, struct amdgpu_clock_voltage_dependency_table *table) { u32 i; if (table) { for (i = 0; i < table->count; i++) ci_patch_with_vddc_leakage(adev, &table->entries[i].v); } }

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Alex Deucher55100.00%1100.00%
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static void ci_patch_clock_voltage_dependency_table_with_vddci_leakage(struct amdgpu_device *adev, struct amdgpu_clock_voltage_dependency_table *table) { u32 i; if (table) { for (i = 0; i < table->count; i++) ci_patch_with_vddci_leakage(adev, &table->entries[i].v); } }

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Alex Deucher55100.00%1100.00%
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static void ci_patch_vce_clock_voltage_dependency_table_with_vddc_leakage(struct amdgpu_device *adev, struct amdgpu_vce_clock_voltage_dependency_table *table) { u32 i; if (table) { for (i = 0; i < table->count; i++) ci_patch_with_vddc_leakage(adev, &table->entries[i].v); } }

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Alex Deucher55100.00%1100.00%
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static void ci_patch_uvd_clock_voltage_dependency_table_with_vddc_leakage(struct amdgpu_device *adev, struct amdgpu_uvd_clock_voltage_dependency_table *table) { u32 i; if (table) { for (i = 0; i < table->count; i++) ci_patch_with_vddc_leakage(adev, &table->entries[i].v); } }

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Alex Deucher55100.00%1100.00%
Total55100.00%1100.00%


static void ci_patch_vddc_phase_shed_limit_table_with_vddc_leakage(struct amdgpu_device *adev, struct amdgpu_phase_shedding_limits_table *table) { u32 i; if (table) { for (i = 0; i < table->count; i++) ci_patch_with_vddc_leakage(adev, &table->entries[i].voltage); } }

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Alex Deucher55100.00%1100.00%
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static void ci_patch_clock_voltage_limits_with_vddc_leakage(struct amdgpu_device *adev, struct amdgpu_clock_and_voltage_limits *table) { if (table) { ci_patch_with_vddc_leakage(adev, (u16 *)&table->vddc); ci_patch_with_vddci_leakage(adev, (u16 *)&table->vddci); } }

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Alex Deucher50100.00%1100.00%
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static void ci_patch_cac_leakage_table_with_vddc_leakage(struct amdgpu_device *adev, struct amdgpu_cac_leakage_table *table) { u32 i; if (table) { for (i = 0; i < table->count; i++) ci_patch_with_vddc_leakage(adev, &table->entries[i].vddc); } }

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Alex Deucher55100.00%1100.00%
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static void ci_patch_dependency_tables_with_leakage(struct amdgpu_device *adev) { ci_patch_clock_voltage_dependency_table_with_vddc_leakage(adev, &adev->pm.dpm.dyn_state.vddc_dependency_on_sclk); ci_patch_clock_voltage_dependency_table_with_vddc_leakage(adev, &adev->pm.dpm.dyn_state.vddc_dependency_on_mclk); ci_patch_clock_voltage_dependency_table_with_vddc_leakage(adev, &adev->pm.dpm.dyn_state.vddc_dependency_on_dispclk); ci_patch_clock_voltage_dependency_table_with_vddci_leakage(adev, &adev->pm.dpm.dyn_state.vddci_dependency_on_mclk); ci_patch_vce_clock_voltage_dependency_table_with_vddc_leakage(adev, &adev->pm.dpm.dyn_state.vce_clock_voltage_dependency_table); ci_patch_uvd_clock_voltage_dependency_table_with_vddc_leakage(adev, &adev->pm.dpm.dyn_state.uvd_clock_voltage_dependency_table); ci_patch_clock_voltage_dependency_table_with_vddc_leakage(adev, &adev->pm.dpm.dyn_state.samu_clock_voltage_dependency_table); ci_patch_clock_voltage_dependency_table_with_vddc_leakage(adev, &adev->pm.dpm.dyn_state.acp_clock_voltage_dependency_table); ci_patch_vddc_phase_shed_limit_table_with_vddc_leakage(adev, &adev->pm.dpm.dyn_state.phase_shedding_limits_table); ci_patch_clock_voltage_limits_with_vddc_leakage(adev, &adev->pm.dpm.dyn_state.max_clock_voltage_on_ac); ci_patch_clock_voltage_limits_with_vddc_leakage(adev, &adev->pm.dpm.dyn_state.max_clock_voltage_on_dc); ci_patch_cac_leakage_table_with_vddc_leakage(adev, &adev->pm.dpm.dyn_state.cac_leakage_table); }

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Alex Deucher203100.00%1100.00%
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static void ci_update_current_ps(struct amdgpu_device *adev, struct amdgpu_ps *rps) { struct ci_ps *new_ps = ci_get_ps(rps); struct ci_power_info *pi = ci_get_pi(adev); pi->current_rps = *rps; pi->current_ps = *new_ps; pi->current_rps.ps_priv = &pi->current_ps; adev->pm.dpm.current_ps = &pi->current_rps; }

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Alex Deucher6182.43%150.00%
Rex Zhu1317.57%150.00%
Total74100.00%2100.00%


static void ci_update_requested_ps(struct amdgpu_device *adev, struct amdgpu_ps *rps) { struct ci_ps *new_ps = ci_get_ps(rps); struct ci_power_info *pi = ci_get_pi(adev); pi->requested_rps = *rps; pi->requested_ps = *new_ps; pi->requested_rps.ps_priv = &pi->requested_ps; adev->pm.dpm.requested_ps = &pi->requested_rps; }

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Alex Deucher6182.43%150.00%
Rex Zhu1317.57%150.00%
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static int ci_dpm_pre_set_power_state(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); struct amdgpu_ps requested_ps = *adev->pm.dpm.requested_ps; struct amdgpu_ps *new_ps = &requested_ps; ci_update_requested_ps(adev, new_ps); ci_apply_state_adjust_rules(adev, &pi->requested_rps); return 0; }

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static void ci_dpm_post_set_power_state(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); struct amdgpu_ps *new_ps = &pi->requested_rps; ci_update_current_ps(adev, new_ps); }

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Alex Deucher38100.00%1100.00%
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static void ci_dpm_setup_asic(struct amdgpu_device *adev) { ci_read_clock_registers(adev); ci_enable_acpi_power_management(adev); ci_init_sclk_t(adev); }

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Alex Deucher26100.00%1100.00%
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static int ci_dpm_enable(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); struct amdgpu_ps *boot_ps = adev->pm.dpm.boot_ps; int ret; if (pi->voltage_control != CISLANDS_VOLTAGE_CONTROL_NONE) { ci_enable_voltage_control(adev); ret = ci_construct_voltage_tables(adev); if (ret) { DRM_ERROR("ci_construct_voltage_tables failed\n"); return ret; } } if (pi->caps_dynamic_ac_timing) { ret = ci_initialize_mc_reg_table(adev); if (ret) pi->caps_dynamic_ac_timing = false; } if (pi->dynamic_ss) ci_enable_spread_spectrum(adev, true); if (pi->thermal_protection) ci_enable_thermal_protection(adev, true); ci_program_sstp(adev); ci_enable_display_gap(adev); ci_program_vc(adev); ret = ci_upload_firmware(adev); if (ret) { DRM_ERROR("ci_upload_firmware failed\n"); return ret; } ret = ci_process_firmware_header(adev); if (ret) { DRM_ERROR("ci_process_firmware_header failed\n"); return ret; } ret = ci_initial_switch_from_arb_f0_to_f1(adev); if (ret) { DRM_ERROR("ci_initial_switch_from_arb_f0_to_f1 failed\n"); return ret; } ret = ci_init_smc_table(adev); if (ret) { DRM_ERROR("ci_init_smc_table failed\n"); return ret; } ret = ci_init_arb_table_index(adev); if (ret) { DRM_ERROR("ci_init_arb_table_index failed\n"); return ret; } if (pi->caps_dynamic_ac_timing) { ret = ci_populate_initial_mc_reg_table(adev); if (ret) { DRM_ERROR("ci_populate_initial_mc_reg_table failed\n"); return ret; } } ret = ci_populate_pm_base(adev); if (ret) { DRM_ERROR("ci_populate_pm_base failed\n"); return ret; } ci_dpm_start_smc(adev); ci_enable_vr_hot_gpio_interrupt(adev); ret = ci_notify_smc_display_change(adev, false); if (ret) { DRM_ERROR("ci_notify_smc_display_change failed\n"); return ret; } ci_enable_sclk_control(adev, true); ret = ci_enable_ulv(adev, true); if (ret) { DRM_ERROR("ci_enable_ulv failed\n"); return ret; } ret = ci_enable_ds_master_switch(adev, true); if (ret) { DRM_ERROR("ci_enable_ds_master_switch failed\n"); return ret; } ret = ci_start_dpm(adev); if (ret) { DRM_ERROR("ci_start_dpm failed\n"); return ret; } ret = ci_enable_didt(adev, true); if (ret) { DRM_ERROR("ci_enable_didt failed\n"); return ret; } ret = ci_enable_smc_cac(adev, true); if (ret) { DRM_ERROR("ci_enable_smc_cac failed\n"); return ret; } ret = ci_enable_power_containment(adev, true); if (ret) { DRM_ERROR("ci_enable_power_containment failed\n"); return ret; } ret = ci_power_control_set_level(adev); if (ret) { DRM_ERROR("ci_power_control_set_level failed\n"); return ret; } ci_enable_auto_throttle_source(adev, AMDGPU_DPM_AUTO_THROTTLE_SRC_THERMAL, true); ret = ci_enable_thermal_based_sclk_dpm(adev, true); if (ret) { DRM_ERROR("ci_enable_thermal_based_sclk_dpm failed\n"); return ret; } ci_thermal_start_thermal_controller(adev); ci_update_current_ps(adev, boot_ps); return 0; }

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Alex Deucher538100.00%1100.00%
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static void ci_dpm_disable(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); struct amdgpu_ps *boot_ps = adev->pm.dpm.boot_ps; amdgpu_irq_put(adev, &adev->pm.dpm.thermal.irq, AMDGPU_THERMAL_IRQ_LOW_TO_HIGH); amdgpu_irq_put(adev, &adev->pm.dpm.thermal.irq, AMDGPU_THERMAL_IRQ_HIGH_TO_LOW); ci_dpm_powergate_uvd(adev, true); if (!amdgpu_ci_is_smc_running(adev)) return; ci_thermal_stop_thermal_controller(adev); if (pi->thermal_protection) ci_enable_thermal_protection(adev, false); ci_enable_power_containment(adev, false); ci_enable_smc_cac(adev, false); ci_enable_didt(adev, false); ci_enable_spread_spectrum(adev, false); ci_enable_auto_throttle_source(adev, AMDGPU_DPM_AUTO_THROTTLE_SRC_THERMAL, false); ci_stop_dpm(adev); ci_enable_ds_master_switch(adev, false); ci_enable_ulv(adev, false); ci_clear_vc(adev); ci_reset_to_default(adev); ci_dpm_stop_smc(adev); ci_force_switch_to_arb_f0(adev); ci_enable_thermal_based_sclk_dpm(adev, false); ci_update_current_ps(adev, boot_ps); }

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Alex Deucher19399.48%150.00%
Rex Zhu10.52%150.00%
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static int ci_dpm_set_power_state(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); struct amdgpu_ps *new_ps = &pi->requested_rps; struct amdgpu_ps *old_ps = &pi->current_rps; int ret; ci_find_dpm_states_clocks_in_dpm_table(adev, new_ps); if (pi->pcie_performance_request) ci_request_link_speed_change_before_state_change(adev, new_ps, old_ps); ret = ci_freeze_sclk_mclk_dpm(adev); if (ret) { DRM_ERROR("ci_freeze_sclk_mclk_dpm failed\n"); return ret; } ret = ci_populate_and_upload_sclk_mclk_dpm_levels(adev, new_ps); if (ret) { DRM_ERROR("ci_populate_and_upload_sclk_mclk_dpm_levels failed\n"); return ret; } ret = ci_generate_dpm_level_enable_mask(adev, new_ps); if (ret) { DRM_ERROR("ci_generate_dpm_level_enable_mask failed\n"); return ret; } ret = ci_update_vce_dpm(adev, new_ps, old_ps); if (ret) { DRM_ERROR("ci_update_vce_dpm failed\n"); return ret; } ret = ci_update_sclk_t(adev); if (ret) { DRM_ERROR("ci_update_sclk_t failed\n"); return ret; } if (pi->caps_dynamic_ac_timing) { ret = ci_update_and_upload_mc_reg_table(adev); if (ret) { DRM_ERROR("ci_update_and_upload_mc_reg_table failed\n"); return ret; } } ret = ci_program_memory_timing_parameters(adev); if (ret) { DRM_ERROR("ci_program_memory_timing_parameters failed\n"); return ret; } ret = ci_unfreeze_sclk_mclk_dpm(adev); if (ret) { DRM_ERROR("ci_unfreeze_sclk_mclk_dpm failed\n"); return ret; } ret = ci_upload_dpm_level_enable_mask(adev); if (ret) { DRM_ERROR("ci_upload_dpm_level_enable_mask failed\n"); return ret; } if (pi->pcie_performance_request) ci_notify_link_speed_change_after_state_change(adev, new_ps, old_ps); return 0; }

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Alex Deucher289100.00%1100.00%
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#if 0 static void ci_dpm_reset_asic(struct amdgpu_device *adev) { ci_set_boot_state(adev); } #endif
static void ci_dpm_display_configuration_changed(struct amdgpu_device *adev) { ci_program_display_gap(adev); }

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Alex Deucher16100.00%1100.00%
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union power_info { struct _ATOM_POWERPLAY_INFO info; struct _ATOM_POWERPLAY_INFO_V2 info_2; struct _ATOM_POWERPLAY_INFO_V3 info_3; struct _ATOM_PPLIB_POWERPLAYTABLE pplib; struct _ATOM_PPLIB_POWERPLAYTABLE2 pplib2; struct _ATOM_PPLIB_POWERPLAYTABLE3 pplib3; }; union pplib_clock_info { struct _ATOM_PPLIB_R600_CLOCK_INFO r600; struct _ATOM_PPLIB_RS780_CLOCK_INFO rs780; struct _ATOM_PPLIB_EVERGREEN_CLOCK_INFO evergreen; struct _ATOM_PPLIB_SUMO_CLOCK_INFO sumo; struct _ATOM_PPLIB_SI_CLOCK_INFO si; struct _ATOM_PPLIB_CI_CLOCK_INFO ci; }; union pplib_power_state { struct _ATOM_PPLIB_STATE v1; struct _ATOM_PPLIB_STATE_V2 v2; };
static void ci_parse_pplib_non_clock_info(struct amdgpu_device *adev, struct amdgpu_ps *rps, struct _ATOM_PPLIB_NONCLOCK_INFO *non_clock_info, u8 table_rev) { rps->caps = le32_to_cpu(non_clock_info->ulCapsAndSettings); rps->class = le16_to_cpu(non_clock_info->usClassification); rps->class2 = le16_to_cpu(non_clock_info->usClassification2); if (ATOM_PPLIB_NONCLOCKINFO_VER1 < table_rev) { rps->vclk = le32_to_cpu(non_clock_info->ulVCLK); rps->dclk = le32_to_cpu(non_clock_info->ulDCLK); } else { rps->vclk = 0; rps->dclk = 0; } if (rps->class & ATOM_PPLIB_CLASSIFICATION_BOOT) adev->pm.dpm.boot_ps = rps; if (rps->class & ATOM_PPLIB_CLASSIFICATION_UVDSTATE) adev->pm.dpm.uvd_ps = rps; }

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Alex Deucher138100.00%1100.00%
Total138100.00%1100.00%


static void ci_parse_pplib_clock_info(struct amdgpu_device *adev, struct amdgpu_ps *rps, int index, union pplib_clock_info *clock_info) { struct ci_power_info *pi = ci_get_pi(adev); struct ci_ps *ps = ci_get_ps(rps); struct ci_pl *pl = &ps->performance_levels[index]; ps->performance_level_count = index + 1; pl->sclk = le16_to_cpu(clock_info->ci.usEngineClockLow); pl->sclk |= clock_info->ci.ucEngineClockHigh << 16; pl->mclk = le16_to_cpu(clock_info->ci.usMemoryClockLow); pl->mclk |= clock_info->ci.ucMemoryClockHigh << 16; pl->pcie_gen = amdgpu_get_pcie_gen_support(adev, pi->sys_pcie_mask, pi->vbios_boot_state.pcie_gen_bootup_value, clock_info->ci.ucPCIEGen); pl->pcie_lane = amdgpu_get_pcie_lane_support(adev, pi->vbios_boot_state.pcie_lane_bootup_value, le16_to_cpu(clock_info->ci.usPCIELane)); if (rps->class & ATOM_PPLIB_CLASSIFICATION_ACPI) { pi->acpi_pcie_gen = pl->pcie_gen; } if (rps->class2 & ATOM_PPLIB_CLASSIFICATION2_ULV) { pi->ulv.supported = true; pi->ulv.pl = *pl; pi->ulv.cg_ulv_parameter = CISLANDS_CGULVPARAMETER_DFLT; } /* patch up boot state */ if (rps->class & ATOM_PPLIB_CLASSIFICATION_BOOT) { pl->mclk = pi->vbios_boot_state.mclk_bootup_value; pl->sclk = pi->vbios_boot_state.sclk_bootup_value; pl->pcie_gen = pi->vbios_boot_state.pcie_gen_bootup_value; pl->pcie_lane = pi->vbios_boot_state.pcie_lane_bootup_value; } switch (rps->class & ATOM_PPLIB_CLASSIFICATION_UI_MASK) { case ATOM_PPLIB_CLASSIFICATION_UI_BATTERY: pi->use_pcie_powersaving_levels = true; if (pi->pcie_gen_powersaving.max < pl->pcie_gen) pi->pcie_gen_powersaving.max = pl->pcie_gen; if (pi->pcie_gen_powersaving.min > pl->pcie_gen) pi->pcie_gen_powersaving.min = pl->pcie_gen; if (pi->pcie_lane_powersaving.max < pl->pcie_lane) pi->pcie_lane_powersaving.max = pl->pcie_lane; if (pi->pcie_lane_powersaving.min > pl->pcie_lane) pi->pcie_lane_powersaving.min = pl->pcie_lane; break; case ATOM_PPLIB_CLASSIFICATION_UI_PERFORMANCE: pi->use_pcie_performance_levels = true; if (pi->pcie_gen_performance.max < pl->pcie_gen) pi->pcie_gen_performance.max = pl->pcie_gen; if (pi->pcie_gen_performance.min > pl->pcie_gen) pi->pcie_gen_performance.min = pl->pcie_gen; if (pi->pcie_lane_performance.max < pl->pcie_lane) pi->pcie_lane_performance.max = pl->pcie_lane; if (pi->pcie_lane_performance.min > pl->pcie_lane) pi->pcie_lane_performance.min = pl->pcie_lane; break; default: break; } }

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static int ci_parse_power_table(struct amdgpu_device *adev) { struct amdgpu_mode_info *mode_info = &adev->mode_info; struct _ATOM_PPLIB_NONCLOCK_INFO *non_clock_info; union pplib_power_state *power_state; int i, j, k, non_clock_array_index, clock_array_index; union pplib_clock_info *clock_info; struct _StateArray *state_array; struct _ClockInfoArray *clock_info_array; struct _NonClockInfoArray *non_clock_info_array; union power_info *power_info; int index = GetIndexIntoMasterTable(DATA, PowerPlayInfo); u16 data_offset; u8 frev, crev; u8 *power_state_offset; struct ci_ps *ps; if (!amdgpu_atom_parse_data_header(mode_info->atom_context, index, NULL, &frev, &crev, &data_offset)) return -EINVAL; power_info = (union power_info *)(mode_info->atom_context->bios + data_offset); amdgpu_add_thermal_controller(adev); state_array = (struct _StateArray *) (mode_info->atom_context->bios + data_offset + le16_to_cpu(power_info->pplib.usStateArrayOffset)); clock_info_array = (struct _ClockInfoArray *) (mode_info->atom_context->bios + data_offset + le16_to_cpu(power_info->pplib.usClockInfoArrayOffset)); non_clock_info_array = (struct _NonClockInfoArray *) (mode_info->atom_context->bios + data_offset + le16_to_cpu(power_info->pplib.usNonClockInfoArrayOffset)); adev->pm.dpm.ps = kzalloc(sizeof(struct amdgpu_ps) * state_array->ucNumEntries, GFP_KERNEL); if (!adev->pm.dpm.ps) return -ENOMEM; power_state_offset = (u8 *)state_array->states; for (i = 0; i < state_array->ucNumEntries; i++) { u8 *idx; power_state = (union pplib_power_state *)power_state_offset; non_clock_array_index = power_state->v2.nonClockInfoIndex; non_clock_info = (struct _ATOM_PPLIB_NONCLOCK_INFO *) &non_clock_info_array->nonClockInfo[non_clock_array_index]; ps = kzalloc(sizeof(struct ci_ps), GFP_KERNEL); if (ps == NULL) { kfree(adev->pm.dpm.ps); return -ENOMEM; } adev->pm.dpm.ps[i].ps_priv = ps; ci_parse_pplib_non_clock_info(adev, &adev->pm.dpm.ps[i], non_clock_info, non_clock_info_array->ucEntrySize); k = 0; idx = (u8 *)&power_state->v2.clockInfoIndex[0]; for (j = 0; j < power_state->v2.ucNumDPMLevels; j++) { clock_array_index = idx[j]; if (clock_array_index >= clock_info_array->ucNumEntries) continue; if (k >= CISLANDS_MAX_HARDWARE_POWERLEVELS) break; clock_info = (union pplib_clock_info *) ((u8 *)&clock_info_array->clockInfo[0] + (clock_array_index * clock_info_array->ucEntrySize)); ci_parse_pplib_clock_info(adev, &adev->pm.dpm.ps[i], k, clock_info); k++; } power_state_offset += 2 + power_state->v2.ucNumDPMLevels; } adev->pm.dpm.num_ps = state_array->ucNumEntries; /* fill in the vce power states */ for (i = 0; i < adev->pm.dpm.num_of_vce_states; i++) { u32 sclk, mclk; clock_array_index = adev->pm.dpm.vce_states[i].clk_idx; clock_info = (union pplib_clock_info *) &clock_info_array->clockInfo[clock_array_index * clock_info_array->ucEntrySize]; sclk = le16_to_cpu(clock_info->ci.usEngineClockLow); sclk |= clock_info->ci.ucEngineClockHigh << 16; mclk = le16_to_cpu(clock_info->ci.usMemoryClockLow); mclk |= clock_info->ci.ucMemoryClockHigh << 16; adev->pm.dpm.vce_states[i].sclk = sclk; adev->pm.dpm.vce_states[i].mclk = mclk; } return 0; }

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Alex Deucher66298.95%150.00%
Rex Zhu71.05%150.00%
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static int ci_get_vbios_boot_values(struct amdgpu_device *adev, struct ci_vbios_boot_state *boot_state) { struct amdgpu_mode_info *mode_info = &adev->mode_info; int index = GetIndexIntoMasterTable(DATA, FirmwareInfo); ATOM_FIRMWARE_INFO_V2_2 *firmware_info; u8 frev, crev; u16 data_offset; if (amdgpu_atom_parse_data_header(mode_info->atom_context, index, NULL, &frev, &crev, &data_offset)) { firmware_info = (ATOM_FIRMWARE_INFO_V2_2 *)(mode_info->atom_context->bios + data_offset); boot_state->mvdd_bootup_value = le16_to_cpu(firmware_info->usBootUpMVDDCVoltage); boot_state->vddc_bootup_value = le16_to_cpu(firmware_info->usBootUpVDDCVoltage); boot_state->vddci_bootup_value = le16_to_cpu(firmware_info->usBootUpVDDCIVoltage); boot_state->pcie_gen_bootup_value = ci_get_current_pcie_speed(adev); boot_state->pcie_lane_bootup_value = ci_get_current_pcie_lane_number(adev); boot_state->sclk_bootup_value = le32_to_cpu(firmware_info->ulDefaultEngineClock); boot_state->mclk_bootup_value = le32_to_cpu(firmware_info->ulDefaultMemoryClock); return 0; } return -EINVAL; }

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static void ci_dpm_fini(struct amdgpu_device *adev) { int i; for (i = 0; i < adev->pm.dpm.num_ps; i++) { kfree(adev->pm.dpm.ps[i].ps_priv); } kfree(adev->pm.dpm.ps); kfree(adev->pm.dpm.priv); kfree(adev->pm.dpm.dyn_state.vddc_dependency_on_dispclk.entries); amdgpu_free_extended_power_table(adev); }

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Alex Deucher93100.00%1100.00%
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/** * ci_dpm_init_microcode - load ucode images from disk * * @adev: amdgpu_device pointer * * Use the firmware interface to load the ucode images into * the driver (not loaded into hw). * Returns 0 on success, error on failure. */
static int ci_dpm_init_microcode(struct amdgpu_device *adev) { const char *chip_name; char fw_name[30]; int err; DRM_DEBUG("\n"); switch (adev->asic_type) { case CHIP_BONAIRE: if ((adev->pdev->revision == 0x80) || (adev->pdev->revision == 0x81) || (adev->pdev->device == 0x665f)) chip_name = "bonaire_k"; else chip_name = "bonaire"; break; case CHIP_HAWAII: if (adev->pdev->revision == 0x80) chip_name = "hawaii_k"; else chip_name = "hawaii"; break; case CHIP_KAVERI: case CHIP_KABINI: case CHIP_MULLINS: default: BUG(); } snprintf(fw_name, sizeof(fw_name), "radeon/%s_smc.bin", chip_name); err = request_firmware(&adev->pm.fw, fw_name, adev->dev); if (err) goto out; err = amdgpu_ucode_validate(adev->pm.fw); out: if (err) { printk(KERN_ERR "cik_smc: Failed to load firmware \"%s\"\n", fw_name); release_firmware(adev->pm.fw); adev->pm.fw = NULL; } return err; }

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Alex Deucher205100.00%3100.00%
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static int ci_dpm_init(struct amdgpu_device *adev) { int index = GetIndexIntoMasterTable(DATA, ASIC_InternalSS_Info); SMU7_Discrete_DpmTable *dpm_table; struct amdgpu_gpio_rec gpio; u16 data_offset, size; u8 frev, crev; struct ci_power_info *pi; int ret; pi = kzalloc(sizeof(struct ci_power_info), GFP_KERNEL); if (pi == NULL) return -ENOMEM; adev->pm.dpm.priv = pi; pi->sys_pcie_mask = (adev->pm.pcie_gen_mask & CAIL_PCIE_LINK_SPEED_SUPPORT_MASK) >> CAIL_PCIE_LINK_SPEED_SUPPORT_SHIFT; pi->force_pcie_gen = AMDGPU_PCIE_GEN_INVALID; pi->pcie_gen_performance.max = AMDGPU_PCIE_GEN1; pi->pcie_gen_performance.min = AMDGPU_PCIE_GEN3; pi->pcie_gen_powersaving.max = AMDGPU_PCIE_GEN1; pi->pcie_gen_powersaving.min = AMDGPU_PCIE_GEN3; pi->pcie_lane_performance.max = 0; pi->pcie_lane_performance.min = 16; pi->pcie_lane_powersaving.max = 0; pi->pcie_lane_powersaving.min = 16; ret = ci_get_vbios_boot_values(adev, &pi->vbios_boot_state); if (ret) { ci_dpm_fini(adev); return ret; } ret = amdgpu_get_platform_caps(adev); if (ret) { ci_dpm_fini(adev); return ret; } ret = amdgpu_parse_extended_power_table(adev); if (ret) { ci_dpm_fini(adev); return ret; } ret = ci_parse_power_table(adev); if (ret) { ci_dpm_fini(adev); return ret; } pi->dll_default_on = false; pi->sram_end = SMC_RAM_END; pi->activity_target[0] = CISLAND_TARGETACTIVITY_DFLT; pi->activity_target[1] = CISLAND_TARGETACTIVITY_DFLT; pi->activity_target[2] = CISLAND_TARGETACTIVITY_DFLT; pi->activity_target[3] = CISLAND_TARGETACTIVITY_DFLT; pi->activity_target[4] = CISLAND_TARGETACTIVITY_DFLT; pi->activity_target[5] = CISLAND_TARGETACTIVITY_DFLT; pi->activity_target[6] = CISLAND_TARGETACTIVITY_DFLT; pi->activity_target[7] = CISLAND_TARGETACTIVITY_DFLT; pi->mclk_activity_target = CISLAND_MCLK_TARGETACTIVITY_DFLT; pi->sclk_dpm_key_disabled = 0; pi->mclk_dpm_key_disabled = 0; pi->pcie_dpm_key_disabled = 0; pi->thermal_sclk_dpm_enabled = 0; if (amdgpu_pp_feature_mask & SCLK_DEEP_SLEEP_MASK) pi->caps_sclk_ds = true; else pi->caps_sclk_ds = false; pi->mclk_strobe_mode_threshold = 40000; pi->mclk_stutter_mode_threshold = 40000; pi->mclk_edc_enable_threshold = 40000; pi->mclk_edc_wr_enable_threshold = 40000; ci_initialize_powertune_defaults(adev); pi->caps_fps = false; pi->caps_sclk_throttle_low_notification = false; pi->caps_uvd_dpm = true; pi->caps_vce_dpm = true; ci_get_leakage_voltages(adev); ci_patch_dependency_tables_with_leakage(adev); ci_set_private_data_variables_based_on_pptable(adev); adev->pm.dpm.dyn_state.vddc_dependency_on_dispclk.entries = kzalloc(4 * sizeof(struct amdgpu_clock_voltage_dependency_entry), GFP_KERNEL); if (!adev->pm.dpm.dyn_state.vddc_dependency_on_dispclk.entries) { ci_dpm_fini(adev); return -ENOMEM; } adev->pm.dpm.dyn_state.vddc_dependency_on_dispclk.count = 4; adev->pm.dpm.dyn_state.vddc_dependency_on_dispclk.entries[0].clk = 0; adev->pm.dpm.dyn_state.vddc_dependency_on_dispclk.entries[0].v = 0; adev->pm.dpm.dyn_state.vddc_dependency_on_dispclk.entries[1].clk = 36000; adev->pm.dpm.dyn_state.vddc_dependency_on_dispclk.entries[1].v = 720; adev->pm.dpm.dyn_state.vddc_dependency_on_dispclk.entries[2].clk = 54000; adev->pm.dpm.dyn_state.vddc_dependency_on_dispclk.entries[2].v = 810; adev->pm.dpm.dyn_state.vddc_dependency_on_dispclk.entries[3].clk = 72000; adev->pm.dpm.dyn_state.vddc_dependency_on_dispclk.entries[3].v = 900; adev->pm.dpm.dyn_state.mclk_sclk_ratio = 4; adev->pm.dpm.dyn_state.sclk_mclk_delta = 15000; adev->pm.dpm.dyn_state.vddc_vddci_delta = 200; adev->pm.dpm.dyn_state.valid_sclk_values.count = 0; adev->pm.dpm.dyn_state.valid_sclk_values.values = NULL; adev->pm.dpm.dyn_state.valid_mclk_values.count = 0; adev->pm.dpm.dyn_state.valid_mclk_values.values = NULL; if (adev->asic_type == CHIP_HAWAII) { pi->thermal_temp_setting.temperature_low = 94500; pi->thermal_temp_setting.temperature_high = 95000; pi->thermal_temp_setting.temperature_shutdown = 104000; } else { pi->thermal_temp_setting.temperature_low = 99500; pi->thermal_temp_setting.temperature_high = 100000; pi->thermal_temp_setting.temperature_shutdown = 104000; } pi->uvd_enabled = false; dpm_table = &pi->smc_state_table; gpio = amdgpu_atombios_lookup_gpio(adev, VDDC_VRHOT_GPIO_PINID); if (gpio.valid) { dpm_table->VRHotGpio = gpio.shift; adev->pm.dpm.platform_caps |= ATOM_PP_PLATFORM_CAP_REGULATOR_HOT; } else { dpm_table->VRHotGpio = CISLANDS_UNUSED_GPIO_PIN; adev->pm.dpm.platform_caps &= ~ATOM_PP_PLATFORM_CAP_REGULATOR_HOT; } gpio = amdgpu_atombios_lookup_gpio(adev, PP_AC_DC_SWITCH_GPIO_PINID); if (gpio.valid) { dpm_table->AcDcGpio = gpio.shift; adev->pm.dpm.platform_caps |= ATOM_PP_PLATFORM_CAP_HARDWAREDC; } else { dpm_table->AcDcGpio = CISLANDS_UNUSED_GPIO_PIN; adev->pm.dpm.platform_caps &= ~ATOM_PP_PLATFORM_CAP_HARDWAREDC; } gpio = amdgpu_atombios_lookup_gpio(adev, VDDC_PCC_GPIO_PINID); if (gpio.valid) { u32 tmp = RREG32_SMC(ixCNB_PWRMGT_CNTL); switch (gpio.shift) { case 0: tmp &= ~CNB_PWRMGT_CNTL__GNB_SLOW_MODE_MASK; tmp |= 1 << CNB_PWRMGT_CNTL__GNB_SLOW_MODE__SHIFT; break; case 1: tmp &= ~CNB_PWRMGT_CNTL__GNB_SLOW_MODE_MASK; tmp |= 2 << CNB_PWRMGT_CNTL__GNB_SLOW_MODE__SHIFT; break; case 2: tmp |= CNB_PWRMGT_CNTL__GNB_SLOW_MASK; break; case 3: tmp |= CNB_PWRMGT_CNTL__FORCE_NB_PS1_MASK; break; case 4: tmp |= CNB_PWRMGT_CNTL__DPM_ENABLED_MASK; break; default: DRM_INFO("Invalid PCC GPIO: %u!\n", gpio.shift); break; } WREG32_SMC(ixCNB_PWRMGT_CNTL, tmp); } pi->voltage_control = CISLANDS_VOLTAGE_CONTROL_NONE; pi->vddci_control = CISLANDS_VOLTAGE_CONTROL_NONE; pi->mvdd_control = CISLANDS_VOLTAGE_CONTROL_NONE; if (amdgpu_atombios_is_voltage_gpio(adev, VOLTAGE_TYPE_VDDC, VOLTAGE_OBJ_GPIO_LUT)) pi->voltage_control = CISLANDS_VOLTAGE_CONTROL_BY_GPIO; else if (amdgpu_atombios_is_voltage_gpio(adev, VOLTAGE_TYPE_VDDC, VOLTAGE_OBJ_SVID2)) pi->voltage_control = CISLANDS_VOLTAGE_CONTROL_BY_SVID2; if (adev->pm.dpm.platform_caps & ATOM_PP_PLATFORM_CAP_VDDCI_CONTROL) { if (amdgpu_atombios_is_voltage_gpio(adev, VOLTAGE_TYPE_VDDCI, VOLTAGE_OBJ_GPIO_LUT)) pi->vddci_control = CISLANDS_VOLTAGE_CONTROL_BY_GPIO; else if (amdgpu_atombios_is_voltage_gpio(adev, VOLTAGE_TYPE_VDDCI, VOLTAGE_OBJ_SVID2)) pi->vddci_control = CISLANDS_VOLTAGE_CONTROL_BY_SVID2; else adev->pm.dpm.platform_caps &= ~ATOM_PP_PLATFORM_CAP_VDDCI_CONTROL; } if (adev->pm.dpm.platform_caps & ATOM_PP_PLATFORM_CAP_MVDDCONTROL) { if (amdgpu_atombios_is_voltage_gpio(adev, VOLTAGE_TYPE_MVDDC, VOLTAGE_OBJ_GPIO_LUT)) pi->mvdd_control = CISLANDS_VOLTAGE_CONTROL_BY_GPIO; else if (amdgpu_atombios_is_voltage_gpio(adev, VOLTAGE_TYPE_MVDDC, VOLTAGE_OBJ_SVID2)) pi->mvdd_control = CISLANDS_VOLTAGE_CONTROL_BY_SVID2; else adev->pm.dpm.platform_caps &= ~ATOM_PP_PLATFORM_CAP_MVDDCONTROL; } pi->vddc_phase_shed_control = true; #if defined(CONFIG_ACPI) pi->pcie_performance_request = amdgpu_acpi_is_pcie_performance_request_supported(adev); #else pi->pcie_performance_request = false; #endif if (amdgpu_atom_parse_data_header(adev->mode_info.atom_context, index, &size, &frev, &crev, &data_offset)) { pi->caps_sclk_ss_support = true; pi->caps_mclk_ss_support = true; pi->dynamic_ss = true; } else { pi->caps_sclk_ss_support = false; pi->caps_mclk_ss_support = false; pi->dynamic_ss = true; } if (adev->pm.int_thermal_type != THERMAL_TYPE_NONE) pi->thermal_protection = true; else pi->thermal_protection = false; pi->caps_dynamic_ac_timing = true; pi->uvd_power_gated = true; /* make sure dc limits are valid */ if ((adev->pm.dpm.dyn_state.max_clock_voltage_on_dc.sclk == 0) || (adev->pm.dpm.dyn_state.max_clock_voltage_on_dc.mclk == 0)) adev->pm.dpm.dyn_state.max_clock_voltage_on_dc = adev->pm.dpm.dyn_state.max_clock_voltage_on_ac; pi->fan_ctrl_is_in_default_mode = true; return 0; }

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Alex Deucher141098.95%233.33%
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static void ci_dpm_debugfs_print_current_performance_level(struct amdgpu_device *adev, struct seq_file *m) { struct ci_power_info *pi = ci_get_pi(adev); struct amdgpu_ps *rps = &pi->current_rps; u32 sclk = ci_get_average_sclk_freq(adev); u32 mclk = ci_get_average_mclk_freq(adev); u32 activity_percent = 50; int ret; ret = ci_read_smc_soft_register(adev, offsetof(SMU7_SoftRegisters, AverageGraphicsA), &activity_percent); if (ret == 0) { activity_percent += 0x80; activity_percent >>= 8; activity_percent = activity_percent > 100 ? 100 : activity_percent; } seq_printf(m, "uvd %sabled\n", pi->uvd_power_gated ? "dis" : "en"); seq_printf(m, "vce %sabled\n", rps->vce_active ? "en" : "dis"); seq_printf(m, "power level avg sclk: %u mclk: %u\n", sclk, mclk); seq_printf(m, "GPU load: %u %%\n", activity_percent); }

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static void ci_dpm_print_power_state(struct amdgpu_device *adev, struct amdgpu_ps *rps) { struct ci_ps *ps = ci_get_ps(rps); struct ci_pl *pl; int i; amdgpu_dpm_print_class_info(rps->class, rps->class2); amdgpu_dpm_print_cap_info(rps->caps); printk("\tuvd vclk: %d dclk: %d\n", rps->vclk, rps->dclk); for (i = 0; i < ps->performance_level_count; i++) { pl = &ps->performance_levels[i]; printk("\t\tpower level %d sclk: %u mclk: %u pcie gen: %u pcie lanes: %u\n", i, pl->sclk, pl->mclk, pl->pcie_gen + 1, pl->pcie_lane); } amdgpu_dpm_print_ps_status(adev, rps); }

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static inline bool ci_are_power_levels_equal(const struct ci_pl *ci_cpl1, const struct ci_pl *ci_cpl2) { return ((ci_cpl1->mclk == ci_cpl2->mclk) && (ci_cpl1->sclk == ci_cpl2->sclk) && (ci_cpl1->pcie_gen == ci_cpl2->pcie_gen) && (ci_cpl1->pcie_lane == ci_cpl2->pcie_lane)); }

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static int ci_check_state_equal(struct amdgpu_device *adev, struct amdgpu_ps *cps, struct amdgpu_ps *rps, bool *equal) { struct ci_ps *ci_cps; struct ci_ps *ci_rps; int i; if (adev == NULL || cps == NULL || rps == NULL || equal == NULL) return -EINVAL; ci_cps = ci_get_ps(cps); ci_rps = ci_get_ps(rps); if (ci_cps == NULL) { *equal = false; return 0; } if (ci_cps->performance_level_count != ci_rps->performance_level_count) { *equal = false; return 0; } for (i = 0; i < ci_cps->performance_level_count; i++) { if (!ci_are_power_levels_equal(&(ci_cps->performance_levels[i]), &(ci_rps->performance_levels[i]))) { *equal = false; return 0; } } /* If all performance levels are the same try to use the UVD clocks to break the tie.*/ *equal = ((cps->vclk == rps->vclk) && (cps->dclk == rps->dclk)); *equal &= ((cps->evclk == rps->evclk) && (cps->ecclk == rps->ecclk)); return 0; }

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static u32 ci_dpm_get_sclk(struct amdgpu_device *adev, bool low) { struct ci_power_info *pi = ci_get_pi(adev); struct ci_ps *requested_state = ci_get_ps(&pi->requested_rps); if (low) return requested_state->performance_levels[0].sclk; else return requested_state->performance_levels[requested_state->performance_level_count - 1].sclk; }

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static u32 ci_dpm_get_mclk(struct amdgpu_device *adev, bool low) { struct ci_power_info *pi = ci_get_pi(adev); struct ci_ps *requested_state = ci_get_ps(&pi->requested_rps); if (low) return requested_state->performance_levels[0].mclk; else return requested_state->performance_levels[requested_state->performance_level_count - 1].mclk; }

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/* get temperature in millidegrees */
static int ci_dpm_get_temp(struct amdgpu_device *adev) { u32 temp; int actual_temp = 0; temp = (RREG32_SMC(ixCG_MULT_THERMAL_STATUS) & CG_MULT_THERMAL_STATUS__CTF_TEMP_MASK) >> CG_MULT_THERMAL_STATUS__CTF_TEMP__SHIFT; if (temp & 0x200) actual_temp = 255; else actual_temp = temp & 0x1ff; actual_temp = actual_temp * 1000; return actual_temp; }

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static int ci_set_temperature_range(struct amdgpu_device *adev) { int ret; ret = ci_thermal_enable_alert(adev, false); if (ret) return ret; ret = ci_thermal_set_temperature_range(adev, CISLANDS_TEMP_RANGE_MIN, CISLANDS_TEMP_RANGE_MAX); if (ret) return ret; ret = ci_thermal_enable_alert(adev, true); if (ret) return ret; return ret; }

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static int ci_dpm_early_init(void *handle) { struct amdgpu_device *adev = (struct amdgpu_device *)handle; ci_dpm_set_dpm_funcs(adev); ci_dpm_set_irq_funcs(adev); return 0; }

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static int ci_dpm_late_init(void *handle) { int ret; struct amdgpu_device *adev = (struct amdgpu_device *)handle; if (!amdgpu_dpm) return 0; /* init the sysfs and debugfs files late */ ret = amdgpu_pm_sysfs_init(adev); if (ret) return ret; ret = ci_set_temperature_range(adev); if (ret) return ret; return 0; }

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static int ci_dpm_sw_init(void *handle) { int ret; struct amdgpu_device *adev = (struct amdgpu_device *)handle; ret = amdgpu_irq_add_id(adev, 230, &adev->pm.dpm.thermal.irq); if (ret) return ret; ret = amdgpu_irq_add_id(adev, 231, &adev->pm.dpm.thermal.irq); if (ret) return ret; /* default to balanced state */ adev->pm.dpm.state = POWER_STATE_TYPE_BALANCED; adev->pm.dpm.user_state = POWER_STATE_TYPE_BALANCED; adev->pm.dpm.forced_level = AMD_DPM_FORCED_LEVEL_AUTO; adev->pm.default_sclk = adev->clock.default_sclk; adev->pm.default_mclk = adev->clock.default_mclk; adev->pm.current_sclk = adev->clock.default_sclk; adev->pm.current_mclk = adev->clock.default_mclk; adev->pm.int_thermal_type = THERMAL_TYPE_NONE; ret = ci_dpm_init_microcode(adev); if (ret) return ret; if (amdgpu_dpm == 0) return 0; INIT_WORK(&adev->pm.dpm.thermal.work, amdgpu_dpm_thermal_work_handler); mutex_lock(&adev->pm.mutex); ret = ci_dpm_init(adev); if (ret) goto dpm_failed; adev->pm.dpm.current_ps = adev->pm.dpm.requested_ps = adev->pm.dpm.boot_ps; if (amdgpu_dpm == 1) amdgpu_pm_print_power_states(adev); mutex_unlock(&adev->pm.mutex); DRM_INFO("amdgpu: dpm initialized\n"); return 0; dpm_failed: ci_dpm_fini(adev); mutex_unlock(&adev->pm.mutex); DRM_ERROR("amdgpu: dpm initialization failed\n"); return ret; }

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Rex Zhu103.26%240.00%
Total307100.00%5100.00%


static int ci_dpm_sw_fini(void *handle) { struct amdgpu_device *adev = (struct amdgpu_device *)handle; flush_work(&adev->pm.dpm.thermal.work); mutex_lock(&adev->pm.mutex); amdgpu_pm_sysfs_fini(adev); ci_dpm_fini(adev); mutex_unlock(&adev->pm.mutex); release_firmware(adev->pm.fw); adev->pm.fw = NULL; return 0; }

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Alex Deucher7384.88%375.00%
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static int ci_dpm_hw_init(void *handle) { int ret; struct amdgpu_device *adev = (struct amdgpu_device *)handle; if (!amdgpu_dpm) { ret = ci_upload_firmware(adev); if (ret) { DRM_ERROR("ci_upload_firmware failed\n"); return ret; } ci_dpm_start_smc(adev); return 0; } mutex_lock(&adev->pm.mutex); ci_dpm_setup_asic(adev); ret = ci_dpm_enable(adev); if (ret) adev->pm.dpm_enabled = false; else adev->pm.dpm_enabled = true; mutex_unlock(&adev->pm.mutex); return ret; }

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Total117100.00%3100.00%


static int ci_dpm_hw_fini(void *handle) { struct amdgpu_device *adev = (struct amdgpu_device *)handle; if (adev->pm.dpm_enabled) { mutex_lock(&adev->pm.mutex); ci_dpm_disable(adev); mutex_unlock(&adev->pm.mutex); } else { ci_dpm_stop_smc(adev); } return 0; }

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static int ci_dpm_suspend(void *handle) { struct amdgpu_device *adev = (struct amdgpu_device *)handle; if (adev->pm.dpm_enabled) { mutex_lock(&adev->pm.mutex); amdgpu_irq_put(adev, &adev->pm.dpm.thermal.irq, AMDGPU_THERMAL_IRQ_LOW_TO_HIGH); amdgpu_irq_put(adev, &adev->pm.dpm.thermal.irq, AMDGPU_THERMAL_IRQ_HIGH_TO_LOW); adev->pm.dpm.last_user_state = adev->pm.dpm.user_state; adev->pm.dpm.last_state = adev->pm.dpm.state; adev->pm.dpm.user_state = POWER_STATE_TYPE_INTERNAL_BOOT; adev->pm.dpm.state = POWER_STATE_TYPE_INTERNAL_BOOT; mutex_unlock(&adev->pm.mutex); amdgpu_pm_compute_clocks(adev); } return 0; }

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Total148100.00%3100.00%


static int ci_dpm_resume(void *handle) { int ret; struct amdgpu_device *adev = (struct amdgpu_device *)handle; if (adev->pm.dpm_enabled) { /* asic init will reset to the boot state */ mutex_lock(&adev->pm.mutex); ci_dpm_setup_asic(adev); ret = ci_dpm_enable(adev); if (ret) adev->pm.dpm_enabled = false; else adev->pm.dpm_enabled = true; adev->pm.dpm.user_state = adev->pm.dpm.last_user_state; adev->pm.dpm.state = adev->pm.dpm.last_state; mutex_unlock(&adev->pm.mutex); if (adev->pm.dpm_enabled) amdgpu_pm_compute_clocks(adev); } return 0; }

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Alex Deucher9166.42%133.33%
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static bool ci_dpm_is_idle(void *handle) { /* XXX */ return true; }

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Alex Deucher1285.71%150.00%
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static int ci_dpm_wait_for_idle(void *handle) { /* XXX */ return 0; }

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static int ci_dpm_soft_reset(void *handle) { return 0; }

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static int ci_dpm_set_interrupt_state(struct amdgpu_device *adev, struct amdgpu_irq_src *source, unsigned type, enum amdgpu_interrupt_state state) { u32 cg_thermal_int; switch (type) { case AMDGPU_THERMAL_IRQ_LOW_TO_HIGH: switch (state) { case AMDGPU_IRQ_STATE_DISABLE: cg_thermal_int = RREG32_SMC(ixCG_THERMAL_INT); cg_thermal_int |= CG_THERMAL_INT_CTRL__THERM_INTH_MASK_MASK; WREG32_SMC(ixCG_THERMAL_INT, cg_thermal_int); break; case AMDGPU_IRQ_STATE_ENABLE: cg_thermal_int = RREG32_SMC(ixCG_THERMAL_INT); cg_thermal_int &= ~CG_THERMAL_INT_CTRL__THERM_INTH_MASK_MASK; WREG32_SMC(ixCG_THERMAL_INT, cg_thermal_int); break; default: break; } break; case AMDGPU_THERMAL_IRQ_HIGH_TO_LOW: switch (state) { case AMDGPU_IRQ_STATE_DISABLE: cg_thermal_int = RREG32_SMC(ixCG_THERMAL_INT); cg_thermal_int |= CG_THERMAL_INT_CTRL__THERM_INTL_MASK_MASK; WREG32_SMC(ixCG_THERMAL_INT, cg_thermal_int); break; case AMDGPU_IRQ_STATE_ENABLE: cg_thermal_int = RREG32_SMC(ixCG_THERMAL_INT); cg_thermal_int &= ~CG_THERMAL_INT_CTRL__THERM_INTL_MASK_MASK; WREG32_SMC(ixCG_THERMAL_INT, cg_thermal_int); break; default: break; } break; default: break; } return 0; }

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Alex Deucher14596.03%150.00%
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static int ci_dpm_process_interrupt(struct amdgpu_device *adev, struct amdgpu_irq_src *source, struct amdgpu_iv_entry *entry) { bool queue_thermal = false; if (entry == NULL) return -EINVAL; switch (entry->src_id) { case 230: /* thermal low to high */ DRM_DEBUG("IH: thermal low to high\n"); adev->pm.dpm.thermal.high_to_low = false; queue_thermal = true; break; case 231: /* thermal high to low */ DRM_DEBUG("IH: thermal high to low\n"); adev->pm.dpm.thermal.high_to_low = true; queue_thermal = true; break; default: break; } if (queue_thermal) schedule_work(&adev->pm.dpm.thermal.work); return 0; }

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static int ci_dpm_set_clockgating_state(void *handle, enum amd_clockgating_state state) { return 0; }

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static int ci_dpm_set_powergating_state(void *handle, enum amd_powergating_state state) { return 0; }

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Alex Deucher1482.35%150.00%
yanyang1317.65%150.00%
Total17100.00%2100.00%


static int ci_dpm_print_clock_levels(struct amdgpu_device *adev, enum pp_clock_type type, char *buf) { struct ci_power_info *pi = ci_get_pi(adev); struct ci_single_dpm_table *sclk_table = &pi->dpm_table.sclk_table; struct ci_single_dpm_table *mclk_table = &pi->dpm_table.mclk_table; struct ci_single_dpm_table *pcie_table = &pi->dpm_table.pcie_speed_table; int i, now, size = 0; uint32_t clock, pcie_speed; switch (type) { case PP_SCLK: amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_API_GetSclkFrequency); clock = RREG32(mmSMC_MSG_ARG_0); for (i = 0; i < sclk_table->count; i++) { if (clock > sclk_table->dpm_levels[i].value) continue; break; } now = i; for (i = 0; i < sclk_table->count; i++) size += sprintf(buf + size, "%d: %uMhz %s\n", i, sclk_table->dpm_levels[i].value / 100, (i == now) ? "*" : ""); break; case PP_MCLK: amdgpu_ci_send_msg_to_smc(adev, PPSMC_MSG_API_GetMclkFrequency); clock = RREG32(mmSMC_MSG_ARG_0); for (i = 0; i < mclk_table->count; i++) { if (clock > mclk_table->dpm_levels[i].value) continue; break; } now = i; for (i = 0; i < mclk_table->count; i++) size += sprintf(buf + size, "%d: %uMhz %s\n", i, mclk_table->dpm_levels[i].value / 100, (i == now) ? "*" : ""); break; case PP_PCIE: pcie_speed = ci_get_current_pcie_speed(adev); for (i = 0; i < pcie_table->count; i++) { if (pcie_speed != pcie_table->dpm_levels[i].value) continue; break; } now = i; for (i = 0; i < pcie_table->count; i++) size += sprintf(buf + size, "%d: %s %s\n", i, (pcie_table->dpm_levels[i].value == 0) ? "2.5GB, x1" : (pcie_table->dpm_levels[i].value == 1) ? "5.0GB, x16" : (pcie_table->dpm_levels[i].value == 2) ? "8.0GB, x16" : "", (i == now) ? "*" : ""); break; default: break; } return size; }

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Eric Huang428100.00%1100.00%
Total428100.00%1100.00%


static int ci_dpm_force_clock_level(struct amdgpu_device *adev, enum pp_clock_type type, uint32_t mask) { struct ci_power_info *pi = ci_get_pi(adev); if (adev->pm.dpm.forced_level & (AMD_DPM_FORCED_LEVEL_AUTO | AMD_DPM_FORCED_LEVEL_LOW | AMD_DPM_FORCED_LEVEL_HIGH)) return -EINVAL; switch (type) { case PP_SCLK: if (!pi->sclk_dpm_key_disabled) amdgpu_ci_send_msg_to_smc_with_parameter(adev, PPSMC_MSG_SCLKDPM_SetEnabledMask, pi->dpm_level_enable_mask.sclk_dpm_enable_mask & mask); break; case PP_MCLK: if (!pi->mclk_dpm_key_disabled) amdgpu_ci_send_msg_to_smc_with_parameter(adev, PPSMC_MSG_MCLKDPM_SetEnabledMask, pi->dpm_level_enable_mask.mclk_dpm_enable_mask & mask); break; case PP_PCIE: { uint32_t tmp = mask & pi->dpm_level_enable_mask.pcie_dpm_enable_mask; uint32_t level = 0; while (tmp >>= 1) level++; if (!pi->pcie_dpm_key_disabled) amdgpu_ci_send_msg_to_smc_with_parameter(adev, PPSMC_MSG_PCIeDPM_ForceLevel, level); break; } default: break; } return 0; }

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Eric Huang15295.00%133.33%
Rex Zhu85.00%266.67%
Total160100.00%3100.00%


static int ci_dpm_get_sclk_od(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); struct ci_single_dpm_table *sclk_table = &(pi->dpm_table.sclk_table); struct ci_single_dpm_table *golden_sclk_table = &(pi->golden_dpm_table.sclk_table); int value; value = (sclk_table->dpm_levels[sclk_table->count - 1].value - golden_sclk_table->dpm_levels[golden_sclk_table->count - 1].value) * 100 / golden_sclk_table->dpm_levels[golden_sclk_table->count - 1].value; return value; }

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Eric Huang100100.00%1100.00%
Total100100.00%1100.00%


static int ci_dpm_set_sclk_od(struct amdgpu_device *adev, uint32_t value) { struct ci_power_info *pi = ci_get_pi(adev); struct ci_ps *ps = ci_get_ps(adev->pm.dpm.requested_ps); struct ci_single_dpm_table *golden_sclk_table = &(pi->golden_dpm_table.sclk_table); if (value > 20) value = 20; ps->performance_levels[ps->performance_level_count - 1].sclk = golden_sclk_table->dpm_levels[golden_sclk_table->count - 1].value * value / 100 + golden_sclk_table->dpm_levels[golden_sclk_table->count - 1].value; return 0; }

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Eric Huang110100.00%1100.00%
Total110100.00%1100.00%


static int ci_dpm_get_mclk_od(struct amdgpu_device *adev) { struct ci_power_info *pi = ci_get_pi(adev); struct ci_single_dpm_table *mclk_table = &(pi->dpm_table.mclk_table); struct ci_single_dpm_table *golden_mclk_table = &(pi->golden_dpm_table.mclk_table); int value; value = (mclk_table->dpm_levels[mclk_table->count - 1].value - golden_mclk_table->dpm_levels[golden_mclk_table->count - 1].value) * 100 / golden_mclk_table->dpm_levels[golden_mclk_table->count - 1].value; return value; }

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Eric Huang100100.00%1100.00%
Total100100.00%1100.00%


static int ci_dpm_set_mclk_od(struct amdgpu_device *adev, uint32_t value) { struct ci_power_info *pi = ci_get_pi(adev); struct ci_ps *ps = ci_get_ps(adev->pm.dpm.requested_ps); struct ci_single_dpm_table *golden_mclk_table = &(pi->golden_dpm_table.mclk_table); if (value > 20) value = 20; ps->performance_levels[ps->performance_level_count - 1].mclk = golden_mclk_table->dpm_levels[golden_mclk_table->count - 1].value * value / 100 + golden_mclk_table->dpm_levels[golden_mclk_table->count - 1].value; return 0; }

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Eric Huang110100.00%1100.00%
Total110100.00%1100.00%

const struct amd_ip_funcs ci_dpm_ip_funcs = { .name = "ci_dpm", .early_init = ci_dpm_early_init, .late_init = ci_dpm_late_init, .sw_init = ci_dpm_sw_init, .sw_fini = ci_dpm_sw_fini, .hw_init = ci_dpm_hw_init, .hw_fini = ci_dpm_hw_fini, .suspend = ci_dpm_suspend, .resume = ci_dpm_resume, .is_idle = ci_dpm_is_idle, .wait_for_idle = ci_dpm_wait_for_idle, .soft_reset = ci_dpm_soft_reset, .set_clockgating_state = ci_dpm_set_clockgating_state, .set_powergating_state = ci_dpm_set_powergating_state, }; static const struct amdgpu_dpm_funcs ci_dpm_funcs = { .get_temperature = &ci_dpm_get_temp, .pre_set_power_state = &ci_dpm_pre_set_power_state, .set_power_state = &ci_dpm_set_power_state, .post_set_power_state = &ci_dpm_post_set_power_state, .display_configuration_changed = &ci_dpm_display_configuration_changed, .get_sclk = &ci_dpm_get_sclk, .get_mclk = &ci_dpm_get_mclk, .print_power_state = &ci_dpm_print_power_state, .debugfs_print_current_performance_level = &ci_dpm_debugfs_print_current_performance_level, .force_performance_level = &ci_dpm_force_performance_level, .vblank_too_short = &ci_dpm_vblank_too_short, .powergate_uvd = &ci_dpm_powergate_uvd, .set_fan_control_mode = &ci_dpm_set_fan_control_mode, .get_fan_control_mode = &ci_dpm_get_fan_control_mode, .set_fan_speed_percent = &ci_dpm_set_fan_speed_percent, .get_fan_speed_percent = &ci_dpm_get_fan_speed_percent, .print_clock_levels = ci_dpm_print_clock_levels, .force_clock_level = ci_dpm_force_clock_level, .get_sclk_od = ci_dpm_get_sclk_od, .set_sclk_od = ci_dpm_set_sclk_od, .get_mclk_od = ci_dpm_get_mclk_od, .set_mclk_od = ci_dpm_set_mclk_od, .check_state_equal = ci_check_state_equal, .get_vce_clock_state = amdgpu_get_vce_clock_state, };
static void ci_dpm_set_dpm_funcs(struct amdgpu_device *adev) { if (adev->pm.funcs == NULL) adev->pm.funcs = &ci_dpm_funcs; }

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Alex Deucher30100.00%1100.00%
Total30100.00%1100.00%

static const struct amdgpu_irq_src_funcs ci_dpm_irq_funcs = { .set = ci_dpm_set_interrupt_state, .process = ci_dpm_process_interrupt, };
static void ci_dpm_set_irq_funcs(struct amdgpu_device *adev) { adev->pm.dpm.thermal.irq.num_types = AMDGPU_THERMAL_IRQ_LAST; adev->pm.dpm.thermal.irq.funcs = &ci_dpm_irq_funcs; }

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Alex Deucher40100.00%1100.00%
Total40100.00%1100.00%


Overall Contributors

PersonTokensPropCommitsCommitProp
Alex Deucher3373094.49%1023.26%
Eric Huang10542.95%36.98%
Rex Zhu7382.07%2148.84%
yanyang11210.34%12.33%
Ken Wang180.05%12.33%
Christian König140.04%12.33%
Slava Grigorev100.03%24.65%
Nils Wallménius70.02%24.65%
Tom St Denis50.01%12.33%
Edward O'Callaghan10.00%12.33%
Total35698100.00%43100.00%
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