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gerrit-public.fairphone.software / kernel / msm / edd98336b35d36d8d871d78e16da4fe33b0d4df6 / . / arch / arm / mach-msm / msm_bus / msm_bus_bimc.c
blob: 5747f79707234027fa62e732ce2f0514cba80861 [file] [log] [blame]
/* Copyright (c) 2012-2014, The Linux Foundation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 and
* only version 2 as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#define pr_fmt(fmt) "AXI: BIMC: %s(): " fmt, __func__
#include <linux/slab.h>
#include <linux/io.h>
#include <mach/msm_bus_board.h>
#include "msm_bus_core.h"
#include "msm_bus_bimc.h"
enum msm_bus_bimc_slave_block {
SLAVE_BLOCK_RESERVED = 0,
SLAVE_BLOCK_SLAVE_WAY,
SLAVE_BLOCK_XPU,
SLAVE_BLOCK_ARBITER,
SLAVE_BLOCK_SCMO,
};
enum bke_sw {
BKE_OFF = 0,
BKE_ON = 1,
};
/* Misc module */
#define MISC_REG_BASE(b) ((b) + 0x00000000)
#define MISC_HW_VERSION_ADDR(b) (MISC_REG_BASE(b) + 0x0000000)
enum bimc_misc_hw_version {
MISC_HW_VERSION_RMSK = 0xffffff,
MISC_HW_VERSION_MAJOR_BMSK = 0xff0000,
MISC_HW_VERSION_MAJOR_SHFT = 0x10,
MISC_HW_VERSION_MINOR_BMSK = 0xff00,
MISC_HW_VERSION_MINOR_SHFT = 0x8,
MISC_HW_VERSION_STEP_BMSK = 0xff,
MISC_HW_VERSION_STEP_SHFT = 0x0,
};
#define MISC_CORE_INFO_ADDR(b) (MISC_REG_BASE(b) + 0x00000004)
enum bimc_misc_core_info {
MISC_CORE_INFO_RMSK = 0xffffffff,
MISC_CORE_INFO_CORE_INFO_BMSK = 0xffffffff,
MISC_CORE_INFO_CORE_INFO_SHFT = 0x0,
};
#define MISC_HW_INFO_ADDR(b) (MISC_REG_BASE(b) + 0x00000008)
enum bimc_misc_hw_info {
MISC_HW_INFO_RMSK = 0xffffffff,
MISC_HW_INFO_HW_MAJOR_BMSK = 0xff000000,
MISC_HW_INFO_HW_MAJOR_SHFT = 0x18,
MISC_HW_INFO_HW_BRANCH_BMSK = 0xff0000,
MISC_HW_INFO_HW_BRANCH_SHFT = 0x10,
MISC_HW_INFO_HW_MINOR_BMSK = 0xff00,
MISC_HW_INFO_HW_MINOR_SHFT = 0x8,
MISC_HW_INFO_HW_ECO_BMSK = 0xff,
MISC_HW_INFO_HW_ECO_SHFT = 0x0,
};
#define MISC_CORE_CLK_SEL_ADDR(b) \
(MISC_REG_BASE(b) + 0x00000020)
enum bimc_misc_core_clk_sel {
MISC_CORE_CLK_SEL_RMSK = 0x3,
MISC_CORE_CLK_SEL_CLK_2X_MODE_BMSK = 0x2,
MISC_CORE_CLK_SEL_CLK_2X_MODE_SHFT = 0x1,
MISC_CORE_CLK_SEL_CLK_2X_MODE_CTRL_EN_BMSK = 0x1,
MISC_CORE_CLK_SEL_CLK_2X_MODE_CTRL_EN_SHFT = 0x0,
};
#define MISC_CLK_PERIOD_ADDR(b) \
(MISC_REG_BASE(b) + 0x00000024)
enum bimc_misc_bimc_clk_preiod {
MISC_CLK_PERIOD_RMSK = 0xff,
MISC_CLK_PERIOD_CORE_CLK_PERIOD_BMSK = 0xff,
MISC_CLK_PERIOD_CORE_CLK_PERIOD_SHFT = 0x0,
};
#define MISC_SCMOn_LOCAL_CGC_THRESH_ADDR(b, n) \
(MISC_REG_BASE(b) + 0x00000100 + 0x4 * (n))
enum bimc_misc_scm0n_local_cgc_thresh {
MISC_SCMOn_LOCAL_CGC_THRESH_RMSK = 0x800000ff,
MISC_SCMOn_LOCAL_CGC_THRESH_MAXn = 1,
MISC_SCMOn_LOCAL_CGC_THRESH_EN_BMSK = 0x80000000,
MISC_SCMOn_LOCAL_CGC_THRESH_EN_SHFT = 0x1f,
MISC_SCMOn_LOCAL_CGC_THRESH_THRESH_VAL_BMSK = 0xff,
MISC_SCMOn_LOCAL_CGC_THRESH_THRESH_VAL_SHFT = 0x0,
};
#define MISC_DPEn_LOCAL_CGC_THRESH_ADDR(b, n) \
(MISC_REG_BASE(b) + 0x00000140 + 0x4 * (n))
enum bimc_misc_dpen_local_cgc_thresh {
MISC_DPEn_LOCAL_CGC_THRESH_RMSK = 0x800000ff,
MISC_DPEn_LOCAL_CGC_THRESH_MAXn = 1,
MISC_DPEn_LOCAL_CGC_THRESH_EN_BMSK = 0x80000000,
MISC_DPEn_LOCAL_CGC_THRESH_EN_SHFT = 0x1f,
MISC_DPEn_LOCAL_CGC_THRESH_THRESH_VAL_BMSK = 0xff,
MISC_DPEn_LOCAL_CGC_THRESH_THRESH_VAL_SHFT = 0x0,
};
#define MISC_MPORT_LOCAL_CGC_THRESH_ADDR(b) \
(MISC_REG_BASE(b) + 0x00000180)
enum bimc_misc_mport_local_cgc_thresh {
MISC_MPORT_LOCAL_CGC_THRESH_RMSK = 0x800000ff,
MISC_MPORT_LOCAL_CGC_THRESH_EN_BMSK = 0x80000000,
MISC_MPORT_LOCAL_CGC_THRESH_EN_SHFT = 0x1f,
MISC_MPORT_LOCAL_CGC_THRESH_THRESH_VAL_BMSK = 0xff,
MISC_MPORT_LOCAL_CGC_THRESH_THRESH_VAL_SHFT = 0x0,
};
#define MISC_SWAY_LOCAL_CGC_THRESH_ADDR(b) \
(MISC_REG_BASE(b) + 0x000001c0)
enum bimc_misc_sway_local_cgc_thresh {
MISC_SWAY_LOCAL_CGC_THRESH_RMSK = 0x800000ff,
MISC_SWAY_LOCAL_CGC_THRESH_EN_BMSK = 0x80000000,
MISC_SWAY_LOCAL_CGC_THRESH_EN_SHFT = 0x1f,
MISC_SWAY_LOCAL_CGC_THRESH_THRESH_VAL_BMSK = 0xff,
MISC_SWAY_LOCAL_CGC_THRESH_THRESH_VAL_SHFT = 0x0,
};
#define MISC_SCMOn_CGC_THRESH_ADDR(b, n) \
(MISC_REG_BASE(b) + 0x00000200 + 0x4 * (n))
enum bimc_misc_scmon_cgc_thresh {
MISC_SCMOn_CGC_THRESH_RMSK = 0x800000ff,
MISC_SCMOn_CGC_THRESH_MAXn = 1,
MISC_SCMOn_CGC_THRESH_EN_BMSK = 0x80000000,
MISC_SCMOn_CGC_THRESH_EN_SHFT = 0x1f,
MISC_SCMOn_CGC_THRESH_THRESH_VAL_BMSK = 0xff,
MISC_SCMOn_CGC_THRESH_THRESH_VAL_SHFT = 0x0,
};
#define MISC_SCMOn_DYN_CLK_CTRL_ADDR(b, n) \
(MISC_REG_BASE(b) + 0x00000240 + 0x4 * (n))
enum bimc_misc_scmon_dyn_clk_ctrl {
MISC_SCMOn_DYN_CLK_CTRL_RMSK = 0x3,
MISC_SCMOn_DYN_CLK_CTRL_MAXn = 1,
MISC_SCMOn_DYN_CLK_CTRL_CGC_EN_BMSK = 0x2,
MISC_SCMOn_DYN_CLK_CTRL_CGC_EN_SHFT = 0x1,
MISC_SCMOn_DYN_CLK_CTRL_CLK_EN_BMSK = 0x1,
MISC_SCMOn_DYN_CLK_CTRL_CLK_EN_SHFT = 0x0,
};
#define MISC_DPEn_CGC_THRESH_ADDR(b, n) \
(MISC_REG_BASE(b) + 0x00000280 + 0x4 * (n))
enum bimc_misc_dpen_cgc_thresh {
MISC_DPEn_CGC_THRESH_RMSK = 0x800000ff,
MISC_DPEn_CGC_THRESH_MAXn = 1,
MISC_DPEn_CGC_THRESH_EN_BMSK = 0x80000000,
MISC_DPEn_CGC_THRESH_EN_SHFT = 0x1f,
MISC_DPEn_CGC_THRESH_THRESH_VAL_BMSK = 0xff,
MISC_DPEn_CGC_THRESH_THRESH_VAL_SHFT = 0x0,
};
#define MISC_DPEn_DYN_CLK_CTRL_ADDR(b, n) \
(MISC_REG_BASE(b) + 0x000002c0 + 0x4 * (n))
enum bimc_misc_dpen_dyn_clk_ctrl {
MISC_DPEn_DYN_CLK_CTRL_RMSK = 0x3,
MISC_DPEn_DYN_CLK_CTRL_MAXn = 1,
MISC_DPEn_DYN_CLK_CTRL_CGC_EN_BMSK = 0x2,
MISC_DPEn_DYN_CLK_CTRL_CGC_EN_SHFT = 0x1,
MISC_DPEn_DYN_CLK_CTRL_CLK_EN_BMSK = 0x1,
MISC_DPEn_DYN_CLK_CTRL_CLK_EN_SHFT = 0x0,
};
/* BIMC Global registers */
#define GLOBAL_1_REG_BASE(b) ((b) + 0x00001000)
#define GLOBAL_1_COMPONENT_INFO_ADDR(b) \
(GLOBAL1_REG_BASE(b) + 0x00000000)
enum bimc_global_1_component_info {
GLOBAL_1_COMPONENT_INFO_RMSK = 0xffff,
GLOBAL_1_COMPONENT_INFO_SUB_TYPE_BMSK = 0xff00,
GLOBAL_1_COMPONENT_INFO_SUB_TYPE_SHFT = 0x8,
GLOBAL_1_COMPONENT_INFO_TYPE_BMSK = 0xff,
GLOBAL_1_COMPONENT_INFO_TYPE_SHFT = 0x0,
};
#define VERSION_INFO_ADDR(b) \
(GLOBAL1_REG_BASE(b) + 0x00000010)
enum bimc_version_info {
VERSION_INFO_RMSK = 0xffff,
VERSION_INFO_MAJOR_BMSK = 0xf0000000,
VERSION_INFO_MAJOR_SHFT = 0x1c,
VERSION_INFO_BRANCH_BMSK = 0xfff0000,
VERSION_INFO_BRANCH_SHFT = 0x10,
VERSION_INFO_MINOR_BMSK = 0xff00,
VERSION_INFO_MINOR_SHFT = 0x8,
VERSION_INFO_ECO_BMSK = 0xff,
VERSION_INFO_ECO_SHFT = 0x0,
};
#define HW_VERSION_ADDR(b) \
(GLOBAL1_REG_BASE(b) + 0x00000014)
enum bimc_hw_version {
HW_VERSION_RMSK = 0xffffffff,
HW_VERSION_MAJOR_BMSK = 0xf0000000,
HW_VERSION_MAJOR_SHFT = 0x1c,
HW_VERSION_MINOR_BMSK = 0xfff0000,
HW_VERSION_MINOR_SHFT = 0x10,
HW_VERSION_STEP_BMSK = 0xffff,
HW_VERSION_STEP_SHFT = 0x0,
};
#define BRIC_CONFIG_INFO_0_ADDR(b) \
(GLOBAL1_REG_BASE(b) + 0x00000020)
enum bimc_bric_config_info_0 {
BRIC_CONFIG_INFO_0_RMSK = 0xffffffff,
BRIC_CONFIG_INFO_0_ADDR_WIDTH_BMSK = 0xff000000,
BRIC_CONFIG_INFO_0_ADDR_WIDTH_SHFT = 0x18,
BRIC_CONFIG_INFO_0_BUSID_BMSK = 0xff0000,
BRIC_CONFIG_INFO_0_BUSID_SHFT = 0x10,
BRIC_CONFIG_INFO_0_NUM_SWAYS_BMSK = 0xff00,
BRIC_CONFIG_INFO_0_NUM_SWAYS_SHFT = 0x8,
BRIC_CONFIG_INFO_0_NUM_MPORTS_BMSK = 0xff,
BRIC_CONFIG_INFO_0_NUM_MPORTS_SHFT = 0x0,
};
#define BRIC_CONFIG_INFO_1_ADDR(b) \
(GLOBAL1_REG_BASE(b) + 0x00000030)
enum bimc_bric_config_info_1 {
BRIC_CONFIG_INFO_1_RMSK = 0xffffffff,
BRIC_CONFIG_INFO_1_DATA_WIDTH_BMSK = 0xffff0000,
BRIC_CONFIG_INFO_1_DATA_WIDTH_SHFT = 0x10,
BRIC_CONFIG_INFO_1_TID_WIDTH_BMSK = 0xff00,
BRIC_CONFIG_INFO_1_TID_WIDTH_SHFT = 0x8,
BRIC_CONFIG_INFO_1_MID_WIDTH_BMSK = 0xff,
BRIC_CONFIG_INFO_1_MID_WIDTH_SHFT = 0x0,
};
#define MP_INT_STATUS_ADDR(b) \
(GLOBAL1_REG_BASE(b) + 0x00000100)
enum bimc_mp_int_status {
MP_INT_STATUS_RMSK = 0x7f,
MP_INT_STATUS_MASTERPORT_BMSK = 0x7f,
MP_INT_STATUS_MASTERPORT_SHFT = 0x0,
};
#define MP_INT_CLR_ADDR(b) \
(GLOBAL1_REG_BASE(b) + 0x00000108)
enum bimc_mp_int_clr {
MP_INT_CLR_RMSK = 0x7f,
MP_INT_CLR_MASTERPORT_BMSK = 0x7f,
MP_INT_CLR_MASTERPORT_SHFT = 0x0,
};
#define MP_INT_EN_ADDR(b) \
(GLOBAL1_REG_BASE(b) + 0x0000010c)
enum bimc_mp_int_en {
MP_INT_EN_RMSK = 0x7f,
MP_INT_EN_MASTERPORT_BMSK = 0x7f,
MP_INT_EN_MASTERPORT_SHFT = 0x0,
};
#define SW_INT_STATUS_ADDR(b) \
(GLOBAL1_REG_BASE(b) + 0x00000110)
enum bimc_sw_int_status {
SW_INT_STATUS_RMSK = 0x1f,
SW_INT_STATUS_MASTERPORT_BMSK = 0x1f,
SW_INT_STATUS_MASTERPORT_SHFT = 0x0,
};
#define SW_INT_CLR_ADDR(b) \
(GLOBAL1_REG_BASE(b) + 0x00000118)
enum bimc_sw_int_clr {
SW_INT_CLR_RMSK = 0x1f,
SW_INT_CLR_MASTERPORT_BMSK = 0x1f,
SW_INT_CLR_MASTERPORT_SHFT = 0x0,
};
#define SW_INT_EN_ADDR(b) \
(GLOBAL1_REG_BASE(b) + 0x0000011c)
enum bimc_sw_int_en {
SW_INT_EN_RMSK = 0x1f,
SW_INT_EN_MASTERPORT_BMSK = 0x1f,
SW_INT_EN_MASTERPORT_SHFT = 0x0,
};
#define REF_TIMER_CONFIG_ADDR(b) \
(GLOBAL1_REG_BASE(b) + 0x00000200)
enum bimc_ref_timer_config {
REF_TIMER_CONFIG_RMSK = 0xffff,
REF_TIMER_CONFIG_MASTERPORT_BMSK = 0xffff,
REF_TIMER_CONFIG_MASTERPORT_SHFT = 0x0,
};
#define DEBUG_SEL_ADDR(b) \
(GLOBAL1_REG_BASE(b) + 0x00000210)
enum bimc_debug_sel {
DEBUG_SEL_RMSK = 0xffffffff,
DEBUG_SEL_COMPONENT_BMSK = 0xff000000,
DEBUG_SEL_COMPONENT_SHFT = 0x18,
DEBUG_SEL_INSTANCE_BMSK = 0xff0000,
DEBUG_SEL_INSTANCE_SHFT = 0x10,
DEBUG_SEL_SEL_BMSK = 0xffff,
DEBUG_SEL_SEL_SHFT = 0x0,
};
/* BIMC Global 2 */
#define GLOBAL2_REG_BASE(b) ((b) + 0x00002000)
#define GLOBAL2_COMPONENT_INFO_ADDR(b) \
(GLOBAL2_REG_BASE(b) + 0x00000000)
enum bimc_global2_component_info {
GLOBAL2_COMPONENT_INFO_RMSK = 0xffff,
GLOBAL2_COMPONENT_INFO_SUB_TYPE_BMSK = 0xff00,
GLOBAL2_COMPONENT_INFO_SUB_TYPE_SHFT = 0x8,
GLOBAL2_COMPONENT_INFO_TYPE_BMSK = 0xff,
GLOBAL2_COMPONENT_INFO_TYPE_SHFT = 0x0,
};
#define DEFAULT_SEGMENT_CONFIG_ADDR(b) \
(GLOBAL1_REG_BASE(b) + 0x000001f0)
enum bimc_default_segment_config {
DEFAULT_SEGMENT_CONFIG_RMSK = 0xf00f,
DEFAULT_SEGMENT_CONFIG_REDIRECT_BMSK = 0xf0000,
DEFAULT_SEGMENT_CONFIG_REDIRECT_SHFT = 0x10,
DEFAULT_SEGMENT_CONFIG_DEFAULT_BMSK = 0xf,
DEFAULT_SEGMENT_CONFIG_DEFAULT_SHFT = 0x0,
};
#define SEGMENTn_ADDR_BASEm_LOWER_ADDR(b, n, m) \
(GLOBAL2_REG_BASE(b) + 0x00000200 + 0x80 * (n) + 0x10 * (m))
enum bimc_segmentn_addr_basem_lower {
SEGMENTn_ADDR_BASEm_LOWER_RMSK = 0xfff0040f,
SEGMENTn_ADDR_BASEm_LOWER_MAXn = 4,
SEGMENTn_ADDR_BASEm_LOWER_BASE_31_20_BMSK = 0xfff00000,
SEGMENTn_ADDR_BASEm_LOWER_BASE_31_20_SHFT = 0x14,
SEGMENTn_ADDR_BASEm_LOWER_BASE_10_BMSK = 0x400,
SEGMENTn_ADDR_BASEm_LOWER_BASE_10_SHFT = 0xa,
SEGMENTn_ADDR_BASEm_LOWER_EN_BMSK = 0x1,
SEGMENTn_ADDR_BASEm_LOWER_EN_SHFT = 0x0,
};
#define SEGMENTn_ADDR_BASEm_UPPER_ADDR(b, n, m) \
(GLOBAL2_REG_BASE(b) + 0x00000204 + 0x80 * (n) + 0x10 * (m))
enum bimc_segmentn_addr_basem_upper {
SEGMENTn_ADDR_BASEm_UPPER_RMSK = 0xf,
SEGMENTn_ADDR_BASEm_UPPER_MAXn = 4,
};
#define SEGMENTn_ADDR_MASKm_LOWER_ADDR(b, n, m) \
(GLOBAL2_REG_BASE(b) + 0x00000208 + 0x80 * (n) + 0x10 * (m))
enum bimc_segmentn_addr_maskm_lower {
SEGMENTn_ADDR_MASKm_LOWER_RMSK = 0xfff00400,
SEGMENTn_ADDR_MASKm_LOWER_MAXn = 4,
SEGMENTn_ADDR_MASKm_LOWER_MASK_31_20_BMSK = 0xfff00000,
SEGMENTn_ADDR_MASKm_LOWER_MASK_31_20_SHFT = 0x14,
SEGMENTn_ADDR_MASKm_LOWER_MASK_10_BMSK = 0x400,
SEGMENTn_ADDR_MASKm_LOWER_MASK_10_SHFT = 0xa,
};
#define SEGMENTn_ADDR_MASKm_UPPER_ADDR(b, n, m) \
(GLOBAL2_REG_BASE(b) + 0x0000020c + 0x80 * (n) + 0x10 * (m))
enum bimc_segmentn_addr_maskm_upper {
SEGMENTn_ADDR_MASKm_UPPER_RMSK = 0xf,
SEGMENTn_ADDR_MASKm_UPPER_MAXn = 4,
};
/* M_Generic */
#define M_REG_BASE(b) ((b) + 0x00008000)
#define M_COMPONENT_INFO_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000000)
enum bimc_m_component_info {
M_COMPONENT_INFO_RMSK = 0xffffff,
M_COMPONENT_INFO_INSTANCE_BMSK = 0xff0000,
M_COMPONENT_INFO_INSTANCE_SHFT = 0x10,
M_COMPONENT_INFO_SUB_TYPE_BMSK = 0xff00,
M_COMPONENT_INFO_SUB_TYPE_SHFT = 0x8,
M_COMPONENT_INFO_TYPE_BMSK = 0xff,
M_COMPONENT_INFO_TYPE_SHFT = 0x0,
};
#define M_CONFIG_INFO_0_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000020)
enum bimc_m_config_info_0 {
M_CONFIG_INFO_0_RMSK = 0xff00ffff,
M_CONFIG_INFO_0_SYNC_MODE_BMSK = 0xff000000,
M_CONFIG_INFO_0_SYNC_MODE_SHFT = 0x18,
M_CONFIG_INFO_0_CONNECTION_TYPE_BMSK = 0xff00,
M_CONFIG_INFO_0_CONNECTION_TYPE_SHFT = 0x8,
M_CONFIG_INFO_0_FUNC_BMSK = 0xff,
M_CONFIG_INFO_0_FUNC_SHFT = 0x0,
};
#define M_CONFIG_INFO_1_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000030)
enum bimc_m_config_info_1 {
M_CONFIG_INFO_1_RMSK = 0xffffffff,
M_CONFIG_INFO_1_SWAY_CONNECTIVITY_BMSK = 0xffffffff,
M_CONFIG_INFO_1_SWAY_CONNECTIVITY_SHFT = 0x0,
};
#define M_CONFIG_INFO_2_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000040)
enum bimc_m_config_info_2 {
M_CONFIG_INFO_2_RMSK = 0xffffffff,
M_CONFIG_INFO_2_M_DATA_WIDTH_BMSK = 0xffff0000,
M_CONFIG_INFO_2_M_DATA_WIDTH_SHFT = 0x10,
M_CONFIG_INFO_2_M_TID_WIDTH_BMSK = 0xff00,
M_CONFIG_INFO_2_M_TID_WIDTH_SHFT = 0x8,
M_CONFIG_INFO_2_M_MID_WIDTH_BMSK = 0xff,
M_CONFIG_INFO_2_M_MID_WIDTH_SHFT = 0x0,
};
#define M_CONFIG_INFO_3_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000050)
enum bimc_m_config_info_3 {
M_CONFIG_INFO_3_RMSK = 0xffffffff,
M_CONFIG_INFO_3_RCH_DEPTH_BMSK = 0xff000000,
M_CONFIG_INFO_3_RCH_DEPTH_SHFT = 0x18,
M_CONFIG_INFO_3_BCH_DEPTH_BMSK = 0xff0000,
M_CONFIG_INFO_3_BCH_DEPTH_SHFT = 0x10,
M_CONFIG_INFO_3_WCH_DEPTH_BMSK = 0xff00,
M_CONFIG_INFO_3_WCH_DEPTH_SHFT = 0x8,
M_CONFIG_INFO_3_ACH_DEPTH_BMSK = 0xff,
M_CONFIG_INFO_3_ACH_DEPTH_SHFT = 0x0,
};
#define M_CONFIG_INFO_4_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000060)
enum bimc_m_config_info_4 {
M_CONFIG_INFO_4_RMSK = 0xffff,
M_CONFIG_INFO_4_REORDER_BUF_DEPTH_BMSK = 0xff00,
M_CONFIG_INFO_4_REORDER_BUF_DEPTH_SHFT = 0x8,
M_CONFIG_INFO_4_REORDER_TABLE_DEPTH_BMSK = 0xff,
M_CONFIG_INFO_4_REORDER_TABLE_DEPTH_SHFT = 0x0,
};
#define M_CONFIG_INFO_5_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000070)
enum bimc_m_config_info_5 {
M_CONFIG_INFO_5_RMSK = 0x111,
M_CONFIG_INFO_5_MP2ARB_PIPELINE_EN_BMSK = 0x100,
M_CONFIG_INFO_5_MP2ARB_PIPELINE_EN_SHFT = 0x8,
M_CONFIG_INFO_5_MPBUF_PIPELINE_EN_BMSK = 0x10,
M_CONFIG_INFO_5_MPBUF_PIPELINE_EN_SHFT = 0x4,
M_CONFIG_INFO_5_M2MP_PIPELINE_EN_BMSK = 0x1,
M_CONFIG_INFO_5_M2MP_PIPELINE_EN_SHFT = 0x0,
};
#define M_INT_STATUS_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000100)
enum bimc_m_int_status {
M_INT_STATUS_RMSK = 0x3,
};
#define M_INT_CLR_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000108)
enum bimc_m_int_clr {
M_INT_CLR_RMSK = 0x3,
};
#define M_INT_EN_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x0000010c)
enum bimc_m_int_en {
M_INT_EN_RMSK = 0x3,
};
#define M_CLK_CTRL_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000200)
enum bimc_m_clk_ctrl {
M_CLK_CTRL_RMSK = 0x3,
M_CLK_CTRL_MAS_CLK_GATING_EN_BMSK = 0x2,
M_CLK_CTRL_MAS_CLK_GATING_EN_SHFT = 0x1,
M_CLK_CTRL_CORE_CLK_GATING_EN_BMSK = 0x1,
M_CLK_CTRL_CORE_CLK_GATING_EN_SHFT = 0x0,
};
#define M_MODE_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000210)
enum bimc_m_mode {
M_MODE_RMSK = 0xf0000011,
M_MODE_WR_GATHER_BEATS_BMSK = 0xf0000000,
M_MODE_WR_GATHER_BEATS_SHFT = 0x1c,
M_MODE_NARROW_WR_BMSK = 0x10,
M_MODE_NARROW_WR_SHFT = 0x4,
M_MODE_ORDERING_MODEL_BMSK = 0x1,
M_MODE_ORDERING_MODEL_SHFT = 0x0,
};
#define M_PRIOLVL_OVERRIDE_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000230)
enum bimc_m_priolvl_override {
M_PRIOLVL_OVERRIDE_RMSK = 0x301,
M_PRIOLVL_OVERRIDE_BMSK = 0x300,
M_PRIOLVL_OVERRIDE_SHFT = 0x8,
M_PRIOLVL_OVERRIDE_OVERRIDE_PRIOLVL_BMSK = 0x1,
M_PRIOLVL_OVERRIDE_OVERRIDE_PRIOLVL_SHFT = 0x0,
};
#define M_RD_CMD_OVERRIDE_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000240)
enum bimc_m_read_command_override {
M_RD_CMD_OVERRIDE_RMSK = 0x3071f7f,
M_RD_CMD_OVERRIDE_AREQPRIO_BMSK = 0x3000000,
M_RD_CMD_OVERRIDE_AREQPRIO_SHFT = 0x18,
M_RD_CMD_OVERRIDE_AMEMTYPE_BMSK = 0x70000,
M_RD_CMD_OVERRIDE_AMEMTYPE_SHFT = 0x10,
M_RD_CMD_OVERRIDE_ATRANSIENT_BMSK = 0x1000,
M_RD_CMD_OVERRIDE_ATRANSIENT_SHFT = 0xc,
M_RD_CMD_OVERRIDE_ASHARED_BMSK = 0x800,
M_RD_CMD_OVERRIDE_ASHARED_SHFT = 0xb,
M_RD_CMD_OVERRIDE_AREDIRECT_BMSK = 0x400,
M_RD_CMD_OVERRIDE_AREDIRECT_SHFT = 0xa,
M_RD_CMD_OVERRIDE_AOOO_BMSK = 0x200,
M_RD_CMD_OVERRIDE_AOOO_SHFT = 0x9,
M_RD_CMD_OVERRIDE_AINNERSHARED_BMSK = 0x100,
M_RD_CMD_OVERRIDE_AINNERSHARED_SHFT = 0x8,
M_RD_CMD_OVERRIDE_OVERRIDE_AREQPRIO_BMSK = 0x40,
M_RD_CMD_OVERRIDE_OVERRIDE_AREQPRIO_SHFT = 0x6,
M_RD_CMD_OVERRIDE_OVERRIDE_ATRANSIENT_BMSK = 0x20,
M_RD_CMD_OVERRIDE_OVERRIDE_ATRANSIENT_SHFT = 0x5,
M_RD_CMD_OVERRIDE_OVERRIDE_AMEMTYPE_BMSK = 0x10,
M_RD_CMD_OVERRIDE_OVERRIDE_AMEMTYPE_SHFT = 0x4,
M_RD_CMD_OVERRIDE_OVERRIDE_ASHARED_BMSK = 0x8,
M_RD_CMD_OVERRIDE_OVERRIDE_ASHARED_SHFT = 0x3,
M_RD_CMD_OVERRIDE_OVERRIDE_AREDIRECT_BMSK = 0x4,
M_RD_CMD_OVERRIDE_OVERRIDE_AREDIRECT_SHFT = 0x2,
M_RD_CMD_OVERRIDE_OVERRIDE_AOOO_BMSK = 0x2,
M_RD_CMD_OVERRIDE_OVERRIDE_AOOO_SHFT = 0x1,
M_RD_CMD_OVERRIDE_OVERRIDE_AINNERSHARED_BMSK = 0x1,
M_RD_CMD_OVERRIDE_OVERRIDE_AINNERSHARED_SHFT = 0x0,
};
#define M_WR_CMD_OVERRIDE_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000250)
enum bimc_m_write_command_override {
M_WR_CMD_OVERRIDE_RMSK = 0x3071f7f,
M_WR_CMD_OVERRIDE_AREQPRIO_BMSK = 0x3000000,
M_WR_CMD_OVERRIDE_AREQPRIO_SHFT = 0x18,
M_WR_CMD_OVERRIDE_AMEMTYPE_BMSK = 0x70000,
M_WR_CMD_OVERRIDE_AMEMTYPE_SHFT = 0x10,
M_WR_CMD_OVERRIDE_ATRANSIENT_BMSK = 0x1000,
M_WR_CMD_OVERRIDE_ATRANSIENT_SHFT = 0xc,
M_WR_CMD_OVERRIDE_ASHARED_BMSK = 0x800,
M_WR_CMD_OVERRIDE_ASHARED_SHFT = 0xb,
M_WR_CMD_OVERRIDE_AREDIRECT_BMSK = 0x400,
M_WR_CMD_OVERRIDE_AREDIRECT_SHFT = 0xa,
M_WR_CMD_OVERRIDE_AOOO_BMSK = 0x200,
M_WR_CMD_OVERRIDE_AOOO_SHFT = 0x9,
M_WR_CMD_OVERRIDE_AINNERSHARED_BMSK = 0x100,
M_WR_CMD_OVERRIDE_AINNERSHARED_SHFT = 0x8,
M_WR_CMD_OVERRIDE_OVERRIDE_AREQPRIO_BMSK = 0x40,
M_WR_CMD_OVERRIDE_OVERRIDE_AREQPRIO_SHFT = 0x6,
M_WR_CMD_OVERRIDE_OVERRIDE_ATRANSIENT_BMSK = 0x20,
M_WR_CMD_OVERRIDE_OVERRIDE_ATRANSIENT_SHFT = 0x5,
M_WR_CMD_OVERRIDE_OVERRIDE_AMEMTYPE_BMSK = 0x10,
M_WR_CMD_OVERRIDE_OVERRIDE_AMEMTYPE_SHFT = 0x4,
M_WR_CMD_OVERRIDE_OVERRIDE_ASHARED_BMSK = 0x8,
M_WR_CMD_OVERRIDE_OVERRIDE_ASHARED_SHFT = 0x3,
M_WR_CMD_OVERRIDE_OVERRIDE_AREDIRECT_BMSK = 0x4,
M_WR_CMD_OVERRIDE_OVERRIDE_AREDIRECT_SHFT = 0x2,
M_WR_CMD_OVERRIDE_OVERRIDE_AOOO_BMSK = 0x2,
M_WR_CMD_OVERRIDE_OVERRIDE_AOOO_SHFT = 0x1,
M_WR_CMD_OVERRIDE_OVERRIDE_AINNERSHARED_BMSK = 0x1,
M_WR_CMD_OVERRIDE_OVERRIDE_AINNERSHARED_SHFT = 0x0,
};
#define M_BKE_EN_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000300)
enum bimc_m_bke_en {
M_BKE_EN_RMSK = 0x1,
M_BKE_EN_EN_BMSK = 0x1,
M_BKE_EN_EN_SHFT = 0x0,
};
/* Grant Period registers */
#define M_BKE_GP_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000304)
enum bimc_m_bke_grant_period {
M_BKE_GP_RMSK = 0x3ff,
M_BKE_GP_GP_BMSK = 0x3ff,
M_BKE_GP_GP_SHFT = 0x0,
};
/* Grant count registers */
#define M_BKE_GC_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000308)
enum bimc_m_bke_grant_count {
M_BKE_GC_RMSK = 0xffff,
M_BKE_GC_GC_BMSK = 0xffff,
M_BKE_GC_GC_SHFT = 0x0,
};
/* Threshold High Registers */
#define M_BKE_THH_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000320)
enum bimc_m_bke_thresh_high {
M_BKE_THH_RMSK = 0xffff,
M_BKE_THH_THRESH_BMSK = 0xffff,
M_BKE_THH_THRESH_SHFT = 0x0,
};
/* Threshold Medium Registers */
#define M_BKE_THM_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000324)
enum bimc_m_bke_thresh_medium {
M_BKE_THM_RMSK = 0xffff,
M_BKE_THM_THRESH_BMSK = 0xffff,
M_BKE_THM_THRESH_SHFT = 0x0,
};
/* Threshold Low Registers */
#define M_BKE_THL_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000328)
enum bimc_m_bke_thresh_low {
M_BKE_THL_RMSK = 0xffff,
M_BKE_THL_THRESH_BMSK = 0xffff,
M_BKE_THL_THRESH_SHFT = 0x0,
};
#define M_BKE_HEALTH_0_CONFIG_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000340)
enum bimc_m_bke_health_0 {
M_BKE_HEALTH_0_CONFIG_RMSK = 0x80000303,
M_BKE_HEALTH_0_CONFIG_LIMIT_CMDS_BMSK = 0x80000000,
M_BKE_HEALTH_0_CONFIG_LIMIT_CMDS_SHFT = 0x1f,
M_BKE_HEALTH_0_CONFIG_AREQPRIO_BMSK = 0x300,
M_BKE_HEALTH_0_CONFIG_AREQPRIO_SHFT = 0x8,
M_BKE_HEALTH_0_CONFIG_PRIOLVL_BMSK = 0x3,
M_BKE_HEALTH_0_CONFIG_PRIOLVL_SHFT = 0x0,
};
#define M_BKE_HEALTH_1_CONFIG_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000344)
enum bimc_m_bke_health_1 {
M_BKE_HEALTH_1_CONFIG_RMSK = 0x80000303,
M_BKE_HEALTH_1_CONFIG_LIMIT_CMDS_BMSK = 0x80000000,
M_BKE_HEALTH_1_CONFIG_LIMIT_CMDS_SHFT = 0x1f,
M_BKE_HEALTH_1_CONFIG_AREQPRIO_BMSK = 0x300,
M_BKE_HEALTH_1_CONFIG_AREQPRIO_SHFT = 0x8,
M_BKE_HEALTH_1_CONFIG_PRIOLVL_BMSK = 0x3,
M_BKE_HEALTH_1_CONFIG_PRIOLVL_SHFT = 0x0,
};
#define M_BKE_HEALTH_2_CONFIG_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000348)
enum bimc_m_bke_health_2 {
M_BKE_HEALTH_2_CONFIG_RMSK = 0x80000303,
M_BKE_HEALTH_2_CONFIG_LIMIT_CMDS_BMSK = 0x80000000,
M_BKE_HEALTH_2_CONFIG_LIMIT_CMDS_SHFT = 0x1f,
M_BKE_HEALTH_2_CONFIG_AREQPRIO_BMSK = 0x300,
M_BKE_HEALTH_2_CONFIG_AREQPRIO_SHFT = 0x8,
M_BKE_HEALTH_2_CONFIG_PRIOLVL_BMSK = 0x3,
M_BKE_HEALTH_2_CONFIG_PRIOLVL_SHFT = 0x0,
};
#define M_BKE_HEALTH_3_CONFIG_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x0000034c)
enum bimc_m_bke_health_3 {
M_BKE_HEALTH_3_CONFIG_RMSK = 0x303,
M_BKE_HEALTH_3_CONFIG_AREQPRIO_BMSK = 0x300,
M_BKE_HEALTH_3_CONFIG_AREQPRIO_SHFT = 0x8,
M_BKE_HEALTH_3_CONFIG_PRIOLVL_BMSK = 0x3,
M_BKE_HEALTH_3_CONFIG_PRIOLVL_SHFT = 0x0,
};
#define M_BUF_STATUS_ADDR(b, n) \
(M_REG_BASE(b) + (0x4000 * (n)) + 0x00000400)
enum bimc_m_buf_status {
M_BUF_STATUS_RMSK = 0xf03f030,
M_BUF_STATUS_RCH_DATA_WR_FULL_BMSK = 0x8000000,
M_BUF_STATUS_RCH_DATA_WR_FULL_SHFT = 0x1b,
M_BUF_STATUS_RCH_DATA_WR_EMPTY_BMSK = 0x4000000,
M_BUF_STATUS_RCH_DATA_WR_EMPTY_SHFT = 0x1a,
M_BUF_STATUS_RCH_CTRL_WR_FULL_BMSK = 0x2000000,
M_BUF_STATUS_RCH_CTRL_WR_FULL_SHFT = 0x19,
M_BUF_STATUS_RCH_CTRL_WR_EMPTY_BMSK = 0x1000000,
M_BUF_STATUS_RCH_CTRL_WR_EMPTY_SHFT = 0x18,
M_BUF_STATUS_BCH_WR_FULL_BMSK = 0x20000,
M_BUF_STATUS_BCH_WR_FULL_SHFT = 0x11,
M_BUF_STATUS_BCH_WR_EMPTY_BMSK = 0x10000,
M_BUF_STATUS_BCH_WR_EMPTY_SHFT = 0x10,
M_BUF_STATUS_WCH_DATA_RD_FULL_BMSK = 0x8000,
M_BUF_STATUS_WCH_DATA_RD_FULL_SHFT = 0xf,
M_BUF_STATUS_WCH_DATA_RD_EMPTY_BMSK = 0x4000,
M_BUF_STATUS_WCH_DATA_RD_EMPTY_SHFT = 0xe,
M_BUF_STATUS_WCH_CTRL_RD_FULL_BMSK = 0x2000,
M_BUF_STATUS_WCH_CTRL_RD_FULL_SHFT = 0xd,
M_BUF_STATUS_WCH_CTRL_RD_EMPTY_BMSK = 0x1000,
M_BUF_STATUS_WCH_CTRL_RD_EMPTY_SHFT = 0xc,
M_BUF_STATUS_ACH_RD_FULL_BMSK = 0x20,
M_BUF_STATUS_ACH_RD_FULL_SHFT = 0x5,
M_BUF_STATUS_ACH_RD_EMPTY_BMSK = 0x10,
M_BUF_STATUS_ACH_RD_EMPTY_SHFT = 0x4,
};
/*BIMC Generic */
#define S_REG_BASE(b) ((b) + 0x00048000)
#define S_COMPONENT_INFO_ADDR(b, n) \
(S_REG_BASE(b) + (0x8000 * (n)) + 0x00000000)
enum bimc_s_component_info {
S_COMPONENT_INFO_RMSK = 0xffffff,
S_COMPONENT_INFO_INSTANCE_BMSK = 0xff0000,
S_COMPONENT_INFO_INSTANCE_SHFT = 0x10,
S_COMPONENT_INFO_SUB_TYPE_BMSK = 0xff00,
S_COMPONENT_INFO_SUB_TYPE_SHFT = 0x8,
S_COMPONENT_INFO_TYPE_BMSK = 0xff,
S_COMPONENT_INFO_TYPE_SHFT = 0x0,
};
#define S_HW_INFO_ADDR(b, n) \
(S_REG_BASE(b) + (0x80000 * (n)) + 0x00000010)
enum bimc_s_hw_info {
S_HW_INFO_RMSK = 0xffffffff,
S_HW_INFO_MAJOR_BMSK = 0xff000000,
S_HW_INFO_MAJOR_SHFT = 0x18,
S_HW_INFO_BRANCH_BMSK = 0xff0000,
S_HW_INFO_BRANCH_SHFT = 0x10,
S_HW_INFO_MINOR_BMSK = 0xff00,
S_HW_INFO_MINOR_SHFT = 0x8,
S_HW_INFO_ECO_BMSK = 0xff,
S_HW_INFO_ECO_SHFT = 0x0,
};
/* S_SCMO_GENERIC */
#define S_SCMO_REG_BASE(b) ((b) + 0x00048000)
#define S_SCMO_CONFIG_INFO_0_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000020)
enum bimc_s_scmo_config_info_0 {
S_SCMO_CONFIG_INFO_0_RMSK = 0xffffffff,
S_SCMO_CONFIG_INFO_0_DATA_WIDTH_BMSK = 0xffff0000,
S_SCMO_CONFIG_INFO_0_DATA_WIDTH_SHFT = 0x10,
S_SCMO_CONFIG_INFO_0_TID_WIDTH_BMSK = 0xff00,
S_SCMO_CONFIG_INFO_0_TID_WIDTH_SHFT = 0x8,
S_SCMO_CONFIG_INFO_0_MID_WIDTH_BMSK = 0xff,
S_SCMO_CONFIG_INFO_0_MID_WIDTH_SHFT = 0x0,
};
#define S_SCMO_CONFIG_INFO_1_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000030)
enum bimc_s_scmo_config_info_1 {
S_SCMO_CONFIG_INFO_1_RMSK = 0xffffffff,
S_SCMO_CONFIG_INFO_1_MPORT_CONNECTIVITY_BMSK = 0xffffffff,
S_SCMO_CONFIG_INFO_1_MPORT_CONNECTIVITY_SHFT = 0x0,
};
#define S_SCMO_CONFIG_INFO_2_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000040)
enum bimc_s_scmo_config_info_2 {
S_SCMO_CONFIG_INFO_2_RMSK = 0xff00ff,
S_SCMO_CONFIG_INFO_2_NUM_GLOBAL_MONS_BMSK = 0xff0000,
S_SCMO_CONFIG_INFO_2_NUM_GLOBAL_MONS_SHFT = 0x10,
S_SCMO_CONFIG_INFO_2_VMID_WIDTH_BMSK = 0xff,
S_SCMO_CONFIG_INFO_2_VMID_WIDTH_SHFT = 0x0,
};
#define S_SCMO_CONFIG_INFO_3_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000050)
enum bimc_s_scmo_config_info_3 {
S_SCMO_CONFIG_INFO_3_RMSK = 0xffffffff,
S_SCMO_CONFIG_INFO_3_RCH0_CTRL_DEPTH_BMSK = 0xff000000,
S_SCMO_CONFIG_INFO_3_RCH0_CTRL_DEPTH_SHFT = 0x18,
S_SCMO_CONFIG_INFO_3_RCH0_DEPTH_BMSK = 0xff0000,
S_SCMO_CONFIG_INFO_3_RCH0_DEPTH_SHFT = 0x10,
S_SCMO_CONFIG_INFO_3_BCH_DEPTH_BMSK = 0xff00,
S_SCMO_CONFIG_INFO_3_BCH_DEPTH_SHFT = 0x8,
S_SCMO_CONFIG_INFO_3_WCH_DEPTH_BMSK = 0xff,
S_SCMO_CONFIG_INFO_3_WCH_DEPTH_SHFT = 0x0,
};
#define S_SCMO_CONFIG_INFO_4_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000060)
enum bimc_s_scmo_config_info_4 {
S_SCMO_CONFIG_INFO_4_RMSK = 0xffff,
S_SCMO_CONFIG_INFO_4_RCH1_CTRL_DEPTH_BMSK = 0xff00,
S_SCMO_CONFIG_INFO_4_RCH1_CTRL_DEPTH_SHFT = 0x8,
S_SCMO_CONFIG_INFO_4_RCH1_DEPTH_BMSK = 0xff,
S_SCMO_CONFIG_INFO_4_RCH1_DEPTH_SHFT = 0x0,
};
#define S_SCMO_CONFIG_INFO_5_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000070)
enum bimc_s_scmo_config_info_5 {
S_SCMO_CONFIG_INFO_5_RMSK = 0xffff,
S_SCMO_CONFIG_INFO_5_DPE_CQ_DEPTH_BMSK = 0xff00,
S_SCMO_CONFIG_INFO_5_DPE_CQ_DEPTH_SHFT = 0x8,
S_SCMO_CONFIG_INFO_5_DDR_BUS_WIDTH_BMSK = 0xff,
S_SCMO_CONFIG_INFO_5_DDR_BUS_WIDTH_SHFT = 0x0,
};
#define S_SCMO_CONFIG_INFO_6_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000080)
enum bimc_s_scmo_config_info_6 {
S_SCMO_CONFIG_INFO_6_RMSK = 0x1111,
S_SCMO_CONFIG_INFO_6_WBUFC_PIPE_BMSK = 0x1000,
S_SCMO_CONFIG_INFO_6_WBUFC_PIPE_SHFT = 0xc,
S_SCMO_CONFIG_INFO_6_RDOPT_PIPE_BMSK = 0x100,
S_SCMO_CONFIG_INFO_6_RDOPT_PIPE_SHFT = 0x8,
S_SCMO_CONFIG_INFO_6_ACHAN_INTF_PIPE_BMSK = 0x10,
S_SCMO_CONFIG_INFO_6_ACHAN_INTF_PIPE_SHFT = 0x4,
S_SCMO_CONFIG_INFO_6_ADDR_DECODE_HT_BMSK = 0x1,
S_SCMO_CONFIG_INFO_6_ADDR_DECODE_HT_SHFT = 0x0,
};
#define S_SCMO_INT_STATUS_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000100)
enum bimc_s_scmo_int_status {
S_SCMO_INT_STATUS_RMSK = 0x1,
S_SCMO_INT_STATUS_ERR_OCCURED_BMSK = 0x1,
S_SCMO_INT_STATUS_ERR_OCCURED_SHFT = 0x0,
};
#define S_SCMO_INT_CLR_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000108)
enum bimc_s_scmo_int_clr {
S_SCMO_INT_CLR_RMSK = 0x1,
S_SCMO_INT_CLR_IRQ_CLR_BMSK = 0x1,
S_SCMO_INT_CLR_IRQ_CLR_SHFT = 0x0,
};
#define S_SCMO_INT_EN_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x0000010c)
enum bimc_s_scmo_int_en {
S_SCMO_INT_EN_RMSK = 0x1,
S_SCMO_INT_EN_IRQ_EN_BMSK = 0x1,
S_SCMO_INT_EN_IRQ_EN_SHFT = 0x0,
};
#define S_SCMO_ESYN_ADDR_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000120)
enum bimc_s_scmo_esyn_addr {
S_SCMO_ESYN_ADDR_RMSK = 0xffffffff,
S_SCMO_ESYN_ADDR_ESYN_ADDR_ERR_ADDR_BMSK = 0xffffffff,
S_SCMO_ESYN_ADDR_ESYN_ADDR_ERR_ADDR_SHFT = 0x0,
};
#define S_SCMO_ESYN_APACKET_0_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000128)
enum bimc_s_scmo_esyn_apacket_0 {
S_SCMO_ESYN_APACKET_0_RMSK = 0xff1fffff,
S_SCMO_ESYN_APACKET_0_ERR_ATID_BMSK = 0xff000000,
S_SCMO_ESYN_APACKET_0_ERR_ATID_SHFT = 0x18,
S_SCMO_ESYN_APACKET_0_ERR_AVMID_BMSK = 0x1f0000,
S_SCMO_ESYN_APACKET_0_ERR_AVMID_SHFT = 0x10,
S_SCMO_ESYN_APACKET_0_ERR_AMID_BMSK = 0xffff,
S_SCMO_ESYN_APACKET_0_ERR_AMID_SHFT = 0x0,
};
#define S_SCMO_ESYN_APACKET_1_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x0000012c)
enum bimc_s_scmo_esyn_apacket_1 {
S_SCMO_ESYN_APACKET_1_RMSK = 0x10ff117,
S_SCMO_ESYN_APACKET_1_ERR_CODE_BMSK = 0x1000000,
S_SCMO_ESYN_APACKET_1_ERR_CODE_SHFT = 0x18,
S_SCMO_ESYN_APACKET_1_ERR_ALEN_BMSK = 0xf0000,
S_SCMO_ESYN_APACKET_1_ERR_ALEN_SHFT = 0x10,
S_SCMO_ESYN_APACKET_1_ERR_ASIZE_BMSK = 0xe000,
S_SCMO_ESYN_APACKET_1_ERR_ASIZE_SHFT = 0xd,
S_SCMO_ESYN_APACKET_1_ERR_ABURST_BMSK = 0x1000,
S_SCMO_ESYN_APACKET_1_ERR_ABURST_SHFT = 0xc,
S_SCMO_ESYN_APACKET_1_ERR_AEXCLUSIVE_BMSK = 0x100,
S_SCMO_ESYN_APACKET_1_ERR_AEXCLUSIVE_SHFT = 0x8,
S_SCMO_ESYN_APACKET_1_ERR_APRONTS_BMSK = 0x10,
S_SCMO_ESYN_APACKET_1_ERR_APRONTS_SHFT = 0x4,
S_SCMO_ESYN_APACKET_1_ERR_AOOORD_BMSK = 0x4,
S_SCMO_ESYN_APACKET_1_ERR_AOOORD_SHFT = 0x2,
S_SCMO_ESYN_APACKET_1_ERR_AOOOWR_BMSK = 0x2,
S_SCMO_ESYN_APACKET_1_ERR_AOOOWR_SHFT = 0x1,
S_SCMO_ESYN_APACKET_1_ERR_AWRITE_BMSK = 0x1,
S_SCMO_ESYN_APACKET_1_ERR_AWRITE_SHFT = 0x0,
};
#define S_SCMO_CLK_CTRL_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000200)
enum bimc_s_scmo_clk_ctrl {
S_SCMO_CLK_CTRL_RMSK = 0xffff1111,
S_SCMO_CLK_CTRL_PEN_CMD_CG_EN_BMSK = 0x10000,
S_SCMO_CLK_CTRL_PEN_CMD_CG_EN_SHFT = 0x10,
S_SCMO_CLK_CTRL_RCH_CG_EN_BMSK = 0x1000,
S_SCMO_CLK_CTRL_RCH_CG_EN_SHFT = 0xc,
S_SCMO_CLK_CTRL_FLUSH_CG_EN_BMSK = 0x100,
S_SCMO_CLK_CTRL_FLUSH_CG_EN_SHFT = 0x8,
S_SCMO_CLK_CTRL_WCH_CG_EN_BMSK = 0x10,
S_SCMO_CLK_CTRL_WCH_CG_EN_SHFT = 0x4,
S_SCMO_CLK_CTRL_ACH_CG_EN_BMSK = 0x1,
S_SCMO_CLK_CTRL_ACH_CG_EN_SHFT = 0x0,
};
#define S_SCMO_SLV_INTERLEAVE_CFG_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000400)
enum bimc_s_scmo_slv_interleave_cfg {
S_SCMO_SLV_INTERLEAVE_CFG_RMSK = 0xff,
S_SCMO_SLV_INTERLEAVE_CFG_INTERLEAVE_CS1_BMSK = 0x10,
S_SCMO_SLV_INTERLEAVE_CFG_INTERLEAVE_CS1_SHFT = 0x4,
S_SCMO_SLV_INTERLEAVE_CFG_INTERLEAVE_CS0_BMSK = 0x1,
S_SCMO_SLV_INTERLEAVE_CFG_INTERLEAVE_CS0_SHFT = 0x0,
};
#define S_SCMO_ADDR_BASE_CSn_ADDR(b, n, o) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000410 + 0x4 * (o))
enum bimc_s_scmo_addr_base_csn {
S_SCMO_ADDR_BASE_CSn_RMSK = 0xffff,
S_SCMO_ADDR_BASE_CSn_MAXn = 1,
S_SCMO_ADDR_BASE_CSn_ADDR_BASE_BMSK = 0xfc,
S_SCMO_ADDR_BASE_CSn_ADDR_BASE_SHFT = 0x2,
};
#define S_SCMO_ADDR_MAP_CSn_ADDR(b, n, o) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000420 + 0x4 * (o))
enum bimc_s_scmo_addr_map_csn {
S_SCMO_ADDR_MAP_CSn_RMSK = 0xffff,
S_SCMO_ADDR_MAP_CSn_MAXn = 1,
S_SCMO_ADDR_MAP_CSn_RANK_EN_BMSK = 0x8000,
S_SCMO_ADDR_MAP_CSn_RANK_EN_SHFT = 0xf,
S_SCMO_ADDR_MAP_CSn_ADDR_MODE_BMSK = 0x1000,
S_SCMO_ADDR_MAP_CSn_ADDR_MODE_SHFT = 0xc,
S_SCMO_ADDR_MAP_CSn_BANK_SIZE_BMSK = 0x100,
S_SCMO_ADDR_MAP_CSn_BANK_SIZE_SHFT = 0x8,
S_SCMO_ADDR_MAP_CSn_ROW_SIZE_BMSK = 0x30,
S_SCMO_ADDR_MAP_CSn_ROW_SIZE_SHFT = 0x4,
S_SCMO_ADDR_MAP_CSn_COL_SIZE_BMSK = 0x3,
S_SCMO_ADDR_MAP_CSn_COL_SIZE_SHFT = 0x0,
};
#define S_SCMO_ADDR_MASK_CSn_ADDR(b, n, o) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000430 + 0x4 * (0))
enum bimc_s_scmo_addr_mask_csn {
S_SCMO_ADDR_MASK_CSn_RMSK = 0xffff,
S_SCMO_ADDR_MASK_CSn_MAXn = 1,
S_SCMO_ADDR_MASK_CSn_ADDR_MASK_BMSK = 0xfc,
S_SCMO_ADDR_MASK_CSn_ADDR_MASK_SHFT = 0x2,
};
#define S_SCMO_SLV_STATUS_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000450)
enum bimc_s_scmo_slv_status {
S_SCMO_SLV_STATUS_RMSK = 0xff3,
S_SCMO_SLV_STATUS_GLOBAL_MONS_IN_USE_BMSK = 0xff0,
S_SCMO_SLV_STATUS_GLOBAL_MONS_IN_USE_SHFT = 0x4,
S_SCMO_SLV_STATUS_SLAVE_IDLE_BMSK = 0x3,
S_SCMO_SLV_STATUS_SLAVE_IDLE_SHFT = 0x0,
};
#define S_SCMO_CMD_BUF_CFG_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000500)
enum bimc_s_scmo_cmd_buf_cfg {
S_SCMO_CMD_BUF_CFG_RMSK = 0xf1f,
S_SCMO_CMD_BUF_CFG_CMD_ORDERING_BMSK = 0x300,
S_SCMO_CMD_BUF_CFG_CMD_ORDERING_SHFT = 0x8,
S_SCMO_CMD_BUF_CFG_HP_CMD_AREQPRIO_MAP_BMSK = 0x10,
S_SCMO_CMD_BUF_CFG_HP_CMD_AREQPRIO_MAP_SHFT = 0x4,
S_SCMO_CMD_BUF_CFG_HP_CMD_Q_DEPTH_BMSK = 0x7,
S_SCMO_CMD_BUF_CFG_HP_CMD_Q_DEPTH_SHFT = 0x0,
};
#define S_SCM_CMD_BUF_STATUS_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000520)
enum bimc_s_scm_cmd_buf_status {
S_SCMO_CMD_BUF_STATUS_RMSK = 0x77,
S_SCMO_CMD_BUF_STATUS_HP_CMD_BUF_ENTRIES_IN_USE_BMSK = 0x70,
S_SCMO_CMD_BUF_STATUS_HP_CMD_BUF_ENTRIES_IN_USE_SHFT = 0x4,
S_SCMO_CMD_BUF_STATUS_LP_CMD_BUF_ENTRIES_IN_USE_BMSK = 0x7,
S_SCMO_CMD_BUF_STATUS_LP_CMD_BUF_ENTRIES_IN_USE_SHFT = 0x0,
};
#define S_SCMO_RCH_SEL_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000540)
enum bimc_s_scmo_rch_sel {
S_SCMO_RCH_SEL_RMSK = 0xffffffff,
S_SCMO_CMD_BUF_STATUS_RCH_PORTS_BMSK = 0xffffffff,
S_SCMO_CMD_BUF_STATUS_RCH_PORTS_SHFT = 0x0,
};
#define S_SCMO_RCH_BKPR_CFG_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000544)
enum bimc_s_scmo_rch_bkpr_cfg {
S_SCMO_RCH_BKPR_CFG_RMSK = 0xffffffff,
S_SCMO_RCH_BKPR_CFG_RCH1_FIFO_BKPR_HI_TH_BMSK = 0x3f000000,
S_SCMO_RCH_BKPR_CFG_RCH1_FIFO_BKPR_HI_TH_SHFT = 0x18,
S_SCMO_RCH_BKPR_CFG_RCH1_FIFO_BKPR_LO_TH_BMSK = 0x3f0000,
S_SCMO_RCH_BKPR_CFG_RCH1_FIFO_BKPR_LO_TH_SHFT = 0x10,
S_SCMO_RCH_BKPR_CFG_RCH0_FIFO_BKPR_HI_TH_BMSK = 0x3f00,
S_SCMO_RCH_BKPR_CFG_RCH0_FIFO_BKPR_HI_TH_SHFT = 0x8,
S_SCMO_RCH_BKPR_CFG_RCH0_FIFO_BKPR_LO_TH_BMSK = 0x3f,
S_SCMO_RCH_BKPR_CFG_RCH0_FIFO_BKPR_LO_TH_SHFT = 0x0,
};
#define S_SCMO_RCH_STATUS_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000560)
enum bimc_s_scmo_rch_status {
S_SCMO_RCH_STATUS_RMSK = 0x33333,
S_SCMO_RCH_STATUS_PRQ_FIFO_FULL_BMSK = 0x20000,
S_SCMO_RCH_STATUS_PRQ_FIFO_FULL_SHFT = 0x11,
S_SCMO_RCH_STATUS_PRQ_FIFO_EMPTY_BMSK = 0x10000,
S_SCMO_RCH_STATUS_PRQ_FIFO_EMPTY_SHFT = 0x10,
S_SCMO_RCH_STATUS_RCH1_QUAL_FIFO_FULL_BMSK = 0x2000,
S_SCMO_RCH_STATUS_RCH1_QUAL_FIFO_FULL_SHFT = 0xd,
S_SCMO_RCH_STATUS_RCH1_QUAL_FIFO_EMPTY_BMSK = 0x1000,
S_SCMO_RCH_STATUS_RCH1_QUAL_FIFO_EMPTY_SHFT = 0xc,
S_SCMO_RCH_STATUS_RCH1_DATA_FIFO_FULL_BMSK = 0x200,
S_SCMO_RCH_STATUS_RCH1_DATA_FIFO_FULL_SHFT = 0x9,
S_SCMO_RCH_STATUS_RCH1_DATA_FIFO_EMPTY_BMSK = 0x100,
S_SCMO_RCH_STATUS_RCH1_DATA_FIFO_EMPTY_SHFT = 0x8,
S_SCMO_RCH_STATUS_RCH0_QUAL_FIFO_FULL_BMSK = 0x20,
S_SCMO_RCH_STATUS_RCH0_QUAL_FIFO_FULL_SHFT = 0x5,
S_SCMO_RCH_STATUS_RCH0_QUAL_FIFO_EMPTY_BMSK = 0x10,
S_SCMO_RCH_STATUS_RCH0_QUAL_FIFO_EMPTY_SHFT = 0x4,
S_SCMO_RCH_STATUS_RCH0_DATA_FIFO_FULL_BMSK = 0x2,
S_SCMO_RCH_STATUS_RCH0_DATA_FIFO_FULL_SHFT = 0x1,
S_SCMO_RCH_STATUS_RCH0_DATA_FIFO_EMPTY_BMSK = 0x1,
S_SCMO_RCH_STATUS_RCH0_DATA_FIFO_EMPTY_SHFT = 0x0,
};
#define S_SCMO_WCH_BUF_CFG_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000580)
enum bimc_s_scmo_wch_buf_cfg {
S_SCMO_WCH_BUF_CFG_RMSK = 0xff,
S_SCMO_WCH_BUF_CFG_WRITE_BLOCK_READ_BMSK = 0x10,
S_SCMO_WCH_BUF_CFG_WRITE_BLOCK_READ_SHFT = 0x4,
S_SCMO_WCH_BUF_CFG_COALESCE_EN_BMSK = 0x1,
S_SCMO_WCH_BUF_CFG_COALESCE_EN_SHFT = 0x0,
};
#define S_SCMO_WCH_STATUS_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x000005a0)
enum bimc_s_scmo_wch_status {
S_SCMO_WCH_STATUS_RMSK = 0x333,
S_SCMO_WCH_STATUS_BRESP_FIFO_FULL_BMSK = 0x200,
S_SCMO_WCH_STATUS_BRESP_FIFO_FULL_SHFT = 0x9,
S_SCMO_WCH_STATUS_BRESP_FIFO_EMPTY_BMSK = 0x100,
S_SCMO_WCH_STATUS_BRESP_FIFO_EMPTY_SHFT = 0x8,
S_SCMO_WCH_STATUS_WDATA_FIFO_FULL_BMSK = 0x20,
S_SCMO_WCH_STATUS_WDATA_FIFO_FULL_SHFT = 0x5,
S_SCMO_WCH_STATUS_WDATA_FIFO_EMPTY_BMSK = 0x10,
S_SCMO_WCH_STATUS_WDATA_FIFO_EMPTY_SHFT = 0x4,
S_SCMO_WCH_STATUS_WBUF_FULL_BMSK = 0x2,
S_SCMO_WCH_STATUS_WBUF_FULL_SHFT = 0x1,
S_SCMO_WCH_STATUS_WBUF_EMPTY_BMSK = 0x1,
S_SCMO_WCH_STATUS_WBUF_EMPTY_SHFT = 0x0,
};
#define S_SCMO_FLUSH_CFG_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x000005c0)
enum bimc_s_scmo_flush_cfg {
S_SCMO_FLUSH_CFG_RMSK = 0xffffffff,
S_SCMO_FLUSH_CFG_FLUSH_IN_ORDER_BMSK = 0x10000000,
S_SCMO_FLUSH_CFG_FLUSH_IN_ORDER_SHFT = 0x1c,
S_SCMO_FLUSH_CFG_FLUSH_IDLE_DELAY_BMSK = 0x3ff0000,
S_SCMO_FLUSH_CFG_FLUSH_IDLE_DELAY_SHFT = 0x10,
S_SCMO_FLUSH_CFG_FLUSH_UPPER_LIMIT_BMSK = 0xf00,
S_SCMO_FLUSH_CFG_FLUSH_UPPER_LIMIT_SHFT = 0x8,
S_SCMO_FLUSH_CFG_FLUSH_LOWER_LIMIT_BMSK = 0xf,
S_SCMO_FLUSH_CFG_FLUSH_LOWER_LIMIT_SHFT = 0x0,
};
#define S_SCMO_FLUSH_CMD_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x000005c4)
enum bimc_s_scmo_flush_cmd {
S_SCMO_FLUSH_CMD_RMSK = 0xf,
S_SCMO_FLUSH_CMD_FLUSH_ALL_BUF_BMSK = 0x3,
S_SCMO_FLUSH_CMD_FLUSH_ALL_BUF_SHFT = 0x0,
};
#define S_SCMO_CMD_OPT_CFG0_ADDR(b, n) \
(S_SCM0_REG_BASE(b) + (0x8000 * (n)) + 0x00000700)
enum bimc_s_scmo_cmd_opt_cfg0 {
S_SCMO_CMD_OPT_CFG0_RMSK = 0xffffff,
S_SCMO_CMD_OPT_CFG0_IGNORE_BANK_UNAVL_BMSK = 0x100000,
S_SCMO_CMD_OPT_CFG0_IGNORE_BANK_UNAVL_SHFT = 0x14,
S_SCMO_CMD_OPT_CFG0_MASK_CMDOUT_PRI_BMSK = 0x10000,
S_SCMO_CMD_OPT_CFG0_MASK_CMDOUT_PRI_SHFT = 0x10,
S_SCMO_CMD_OPT_CFG0_DPE_CMD_REORDERING_BMSK = 0x1000,
S_SCMO_CMD_OPT_CFG0_DPE_CMD_REORDERING_SHFT = 0xc,
S_SCMO_CMD_OPT_CFG0_WR_OPT_EN_BMSK = 0x100,
S_SCMO_CMD_OPT_CFG0_WR_OPT_EN_SHFT = 0x8,
S_SCMO_CMD_OPT_CFG0_RD_OPT_EN_BMSK = 0x10,
S_SCMO_CMD_OPT_CFG0_RD_OPT_EN_SHFT = 0x4,
S_SCMO_CMD_OPT_CFG0_PAGE_MGMT_POLICY_BMSK = 0x1,
S_SCMO_CMD_OPT_CFG0_PAGE_MGMT_POLICY_SHFT = 0x0,
};
#define S_SCMO_CMD_OPT_CFG1_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000704)
enum bimc_s_scmo_cmd_opt_cfg1 {
S_SCMO_CMD_OPT_CFG1_RMSK = 0xffffffff,
S_SCMO_CMD_OPT_CFG1_HSTP_CMD_TIMEOUT_BMSK = 0x1f000000,
S_SCMO_CMD_OPT_CFG1_HSTP_CMD_TIMEOUT_SHFT = 0x18,
S_SCMO_CMD_OPT_CFG1_HP_CMD_TIMEOUT_BMSK = 0x1f0000,
S_SCMO_CMD_OPT_CFG1_HP_CMD_TIMEOUT_SHFT = 0x10,
S_SCMO_CMD_OPT_CFG1_MP_CMD_TIMEOUT_BMSK = 0x1f00,
S_SCMO_CMD_OPT_CFG1_MP_CMD_TIMEOUT_SHFT = 0x8,
S_SCMO_CMD_OPT_CFG1_LP_CMD_TIMEOUT_BMSK = 0x1f,
S_SCMO_CMD_OPT_CFG1_LP_CMD_TIMEOUT_SHFT = 0x0,
};
#define S_SCMO_CMD_OPT_CFG2_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x00000708)
enum bimc_s_scmo_cmd_opt_cfg2 {
S_SCMO_CMD_OPT_CFG2_RMSK = 0xff,
S_SCMO_CMD_OPT_CFG2_RWOPT_CMD_TIMEOUT_BMSK = 0xf,
S_SCMO_CMD_OPT_CFG2_RWOPT_CMD_TIMEOUT_SHFT = 0x0,
};
#define S_SCMO_CMD_OPT_CFG3_ADDR(b, n) \
(S_SCMO_REG_BASE(b) + (0x8000 * (n)) + 0x0000070c)
enum bimc_s_scmo_cmd_opt_cfg3 {
S_SCMO_CMD_OPT_CFG3_RMSK = 0xff,
S_SCMO_CMD_OPT_CFG3_FLUSH_CMD_TIMEOUT_BMSK = 0xf,
S_SCMO_CMD_OPT_CFG3_FLUSH_CMD_TIMEOUT_SHFT = 0x0,
};
/* S_SWAY_GENERIC */
#define S_SWAY_REG_BASE(b) ((b) + 0x00048000)
#define S_SWAY_CONFIG_INFO_0_ADDR(b, n) \
(S_SWAY_REG_BASE(b) + (0x8000 * (n)) + 0x00000020)
enum bimc_s_sway_config_info_0 {
S_SWAY_CONFIG_INFO_0_RMSK = 0xff0000ff,
S_SWAY_CONFIG_INFO_0_SYNC_MODE_BMSK = 0xff000000,
S_SWAY_CONFIG_INFO_0_SYNC_MODE_SHFT = 0x18,
S_SWAY_CONFIG_INFO_0_FUNC_BMSK = 0xff,
S_SWAY_CONFIG_INFO_0_FUNC_SHFT = 0x0,
};
#define S_SWAY_CONFIG_INFO_1_ADDR(b, n) \
(S_SWAY_REG_BASE(b) + (0x8000 * (n)) + 0x00000030)
enum bimc_s_sway_config_info_1 {
S_SWAY_CONFIG_INFO_1_RMSK = 0xffffffff,
S_SWAY_CONFIG_INFO_1_MPORT_CONNECTIVITY_BMSK = 0xffffffff,
S_SWAY_CONFIG_INFO_1_MPORT_CONNECTIVITY_SHFT = 0x0,
};
#define S_SWAY_CONFIG_INFO_2_ADDR(b, n) \
(S_SWAY_REG_BASE(b) + (0x8000 * (n)) + 0x00000040)
enum bimc_s_sway_config_info_2 {
S_SWAY_CONFIG_INFO_2_RMSK = 0xffff0000,
S_SWAY_CONFIG_INFO_2_MPORT_CONNECTIVITY_BMSK = 0xffff0000,
S_SWAY_CONFIG_INFO_2_MPORT_CONNECTIVITY_SHFT = 0x10,
};
#define S_SWAY_CONFIG_INFO_3_ADDR(b, n) \
(S_SWAY_REG_BASE(b) + (0x8000 * (n)) + 0x00000050)
enum bimc_s_sway_config_info_3 {
S_SWAY_CONFIG_INFO_3_RMSK = 0xffffffff,
S_SWAY_CONFIG_INFO_3_RCH0_DEPTH_BMSK = 0xff000000,
S_SWAY_CONFIG_INFO_3_RCH0_DEPTH_SHFT = 0x18,
S_SWAY_CONFIG_INFO_3_BCH_DEPTH_BMSK = 0xff0000,
S_SWAY_CONFIG_INFO_3_BCH_DEPTH_SHFT = 0x10,
S_SWAY_CONFIG_INFO_3_WCH_DEPTH_BMSK = 0xff,
S_SWAY_CONFIG_INFO_3_WCH_DEPTH_SHFT = 0x0,
};
#define S_SWAY_CONFIG_INFO_4_ADDR(b, n) \
(S_SWAY_REG_BASE(b) + (0x8000 * (n)) + 0x00000060)
enum bimc_s_sway_config_info_4 {
S_SWAY_CONFIG_INFO_4_RMSK = 0x800000ff,
S_SWAY_CONFIG_INFO_4_DUAL_RCH_EN_BMSK = 0x80000000,
S_SWAY_CONFIG_INFO_4_DUAL_RCH_EN_SHFT = 0x1f,
S_SWAY_CONFIG_INFO_4_RCH1_DEPTH_BMSK = 0xff,
S_SWAY_CONFIG_INFO_4_RCH1_DEPTH_SHFT = 0x0,
};
#define S_SWAY_CONFIG_INFO_5_ADDR(b, n) \
(S_SWAY_REG_BASE(b) + (0x8000 * (n)) + 0x00000070)
enum bimc_s_sway_config_info_5 {
S_SWAY_CONFIG_INFO_5_RMSK = 0x800000ff,
S_SWAY_CONFIG_INFO_5_QCH_EN_BMSK = 0x80000000,
S_SWAY_CONFIG_INFO_5_QCH_EN_SHFT = 0x1f,
S_SWAY_CONFIG_INFO_5_QCH_DEPTH_BMSK = 0xff,
S_SWAY_CONFIG_INFO_5_QCH_DEPTH_SHFT = 0x0,
};
#define S_SWAY_CONFIG_INFO_6_ADDR(b, n) \
(S_SWAY_REG_BASE(b) + (0x8000 * (n)) + 0x00000080)
enum bimc_s_sway_config_info_6 {
S_SWAY_CONFIG_INFO_6_RMSK = 0x1,
S_SWAY_CONFIG_INFO_6_S2SW_PIPELINE_EN_BMSK = 0x1,
S_SWAY_CONFIG_INFO_6_S2SW_PIPELINE_EN_SHFT = 0x0,
};
#define S_SWAY_INT_STATUS_ADDR(b, n) \
(S_SWAY_REG_BASE(b) + (0x8000 * (n)) + 0x00000100)
enum bimc_s_sway_int_status {
S_SWAY_INT_STATUS_RMSK = 0x3,
S_SWAY_INT_STATUS_RFU_BMSK = 0x3,
S_SWAY_INT_STATUS_RFU_SHFT = 0x0,
};
#define S_SWAY_INT_CLR_ADDR(b, n) \
(S_SWAY_REG_BASE(b) + (0x8000 * (n)) + 0x00000108)
enum bimc_s_sway_int_clr {
S_SWAY_INT_CLR_RMSK = 0x3,
S_SWAY_INT_CLR_RFU_BMSK = 0x3,
S_SWAY_INT_CLR_RFU_SHFT = 0x0,
};
#define S_SWAY_INT_EN_ADDR(b, n) \
(S_SWAY_REG_BASE(b) + (0x8000 * (n)) + 0x0000010c)
enum bimc_s_sway_int_en {
S_SWAY_INT_EN_RMSK = 0x3,
S_SWAY_INT_EN_RFU_BMSK = 0x3,
S_SWAY_INT_EN_RFU_SHFT = 0x0,
};
#define S_SWAY_CLK_CTRL_ADDR(b, n) \
(S_SWAY_REG_BASE(b) + (0x8000 * (n)) + 0x00000200)
enum bimc_s_sway_clk_ctrl {
S_SWAY_CLK_CTRL_RMSK = 0x3,
S_SWAY_CLK_CTRL_SLAVE_CLK_GATING_EN_BMSK = 0x2,
S_SWAY_CLK_CTRL_SLAVE_CLK_GATING_EN_SHFT = 0x1,
S_SWAY_CLK_CTRL_CORE_CLK_GATING_EN_BMSK = 0x1,
S_SWAY_CLK_CTRL_CORE_CLK_GATING_EN_SHFT = 0x0,
};
#define S_SWAY_RCH_SEL_ADDR(b, n) \
(S_SWAY_REG_BASE(b) + (0x8000 * (n)) + 0x00000210)
enum bimc_s_sway_rch_sel {
S_SWAY_RCH_SEL_RMSK = 0x7f,
S_SWAY_RCH_SEL_UNUSED_BMSK = 0x7f,
S_SWAY_RCH_SEL_UNUSED_SHFT = 0x0,
};
#define S_SWAY_MAX_OUTSTANDING_REQS_ADDR(b, n) \
(S_SWAY_REG_BASE(b) + (0x8000 * (n)) + 0x00000220)
enum bimc_s_sway_max_outstanding_reqs {
S_SWAY_MAX_OUTSTANDING_REQS_RMSK = 0xffff,
S_SWAY_MAX_OUTSTANDING_REQS_WRITE_BMSK = 0xff00,
S_SWAY_MAX_OUTSTANDING_REQS_WRITE_SHFT = 0x8,
S_SWAY_MAX_OUTSTANDING_REQS_READ_BMSK = 0xff,
S_SWAY_MAX_OUTSTANDING_REQS_READ_SHFT = 0x0,
};
#define S_SWAY_BUF_STATUS_0_ADDR(b, n) \
(S_SWAY_REG_BASE(b) + (0x8000 * (n)) + 0x00000400)
enum bimc_s_sway_buf_status_0 {
S_SWAY_BUF_STATUS_0_RMSK = 0xf0300f03,
S_SWAY_BUF_STATUS_0_RCH0_DATA_RD_FULL_BMSK = 0x80000000,
S_SWAY_BUF_STATUS_0_RCH0_DATA_RD_FULL_SHFT = 0x1f,
S_SWAY_BUF_STATUS_0_RCH0_DATA_RD_EMPTY_BMSK = 0x40000000,
S_SWAY_BUF_STATUS_0_RCH0_DATA_RD_EMPTY_SHFT = 0x1e,
S_SWAY_BUF_STATUS_0_RCH0_CTRL_RD_FULL_BMSK = 0x20000000,
S_SWAY_BUF_STATUS_0_RCH0_CTRL_RD_FULL_SHFT = 0x1d,
S_SWAY_BUF_STATUS_0_RCH0_CTRL_RD_EMPTY_BMSK = 0x10000000,
S_SWAY_BUF_STATUS_0_RCH0_CTRL_RD_EMPTY_SHFT = 0x1c,
S_SWAY_BUF_STATUS_0_BCH_RD_FULL_BMSK = 0x200000,
S_SWAY_BUF_STATUS_0_BCH_RD_FULL_SHFT = 0x15,
S_SWAY_BUF_STATUS_0_BCH_RD_EMPTY_BMSK = 0x100000,
S_SWAY_BUF_STATUS_0_BCH_RD_EMPTY_SHFT = 0x14,
S_SWAY_BUF_STATUS_0_WCH_DATA_WR_FULL_BMSK = 0x800,
S_SWAY_BUF_STATUS_0_WCH_DATA_WR_FULL_SHFT = 0xb,
S_SWAY_BUF_STATUS_0_WCH_DATA_WR_EMPTY_BMSK = 0x400,
S_SWAY_BUF_STATUS_0_WCH_DATA_WR_EMPTY_SHFT = 0xa,
S_SWAY_BUF_STATUS_0_WCH_CTRL_WR_FULL_BMSK = 0x200,
S_SWAY_BUF_STATUS_0_WCH_CTRL_WR_FULL_SHFT = 0x9,
S_SWAY_BUF_STATUS_0_WCH_CTRL_WR_EMPTY_BMSK = 0x100,
S_SWAY_BUF_STATUS_0_WCH_CTRL_WR_EMPTY_SHFT = 0x8,
S_SWAY_BUF_STATUS_0_ACH_WR_FULL_BMSK = 0x2,
S_SWAY_BUF_STATUS_0_ACH_WR_FULL_SHFT = 0x1,
S_SWAY_BUF_STATUS_0_ACH_WR_EMPTY_BMSK = 0x1,
S_SWAY_BUF_STATUS_0_ACH_WR_EMPTY_SHFT = 0x0,
};
#define S_SWAY_BUF_STATUS_1_ADDR(b, n) \
(S_SWAY_REG_BASE(b) + (0x8000 * (n)) + 0x00000410)
enum bimc_s_sway_buf_status_1 {
S_SWAY_BUF_STATUS_1_RMSK = 0xf0,
S_SWAY_BUF_STATUS_1_RCH1_DATA_RD_FULL_BMSK = 0x80,
S_SWAY_BUF_STATUS_1_RCH1_DATA_RD_FULL_SHFT = 0x7,
S_SWAY_BUF_STATUS_1_RCH1_DATA_RD_EMPTY_BMSK = 0x40,
S_SWAY_BUF_STATUS_1_RCH1_DATA_RD_EMPTY_SHFT = 0x6,
S_SWAY_BUF_STATUS_1_RCH1_CTRL_RD_FULL_BMSK = 0x20,
S_SWAY_BUF_STATUS_1_RCH1_CTRL_RD_FULL_SHFT = 0x5,
S_SWAY_BUF_STATUS_1_RCH1_CTRL_RD_EMPTY_BMSK = 0x10,
S_SWAY_BUF_STATUS_1_RCH1_CTRL_RD_EMPTY_SHFT = 0x4,
};
#define S_SWAY_BUF_STATUS_2_ADDR(b, n) \
(S_SWAY_REG_BASE(b) + (0x8000 * (n)) + 0x00000420)
enum bimc_s_sway_buf_status_2 {
S_SWAY_BUF_STATUS_2_RMSK = 0x30,
S_SWAY_BUF_STATUS_2_QCH_RD_FULL_BMSK = 0x20,
S_SWAY_BUF_STATUS_2_QCH_RD_FULL_SHFT = 0x5,
S_SWAY_BUF_STATUS_2_QCH_RD_EMPTY_BMSK = 0x10,
S_SWAY_BUF_STATUS_2_QCH_RD_EMPTY_SHFT = 0x4,
};
/* S_ARB_GENERIC */
#define S_ARB_REG_BASE(b) ((b) + 0x00049000)
#define S_ARB_COMPONENT_INFO_ADDR(b, n) \
(S_SWAY_REG_BASE(b) + (0x8000 * (n)) + 0x00000000)
enum bimc_s_arb_component_info {
S_ARB_COMPONENT_INFO_RMSK = 0xffffff,
S_ARB_COMPONENT_INFO_INSTANCE_BMSK = 0xff0000,
S_ARB_COMPONENT_INFO_INSTANCE_SHFT = 0x10,
S_ARB_COMPONENT_INFO_SUB_TYPE_BMSK = 0xff00,
S_ARB_COMPONENT_INFO_SUB_TYPE_SHFT = 0x8,
S_ARB_COMPONENT_INFO_TYPE_BMSK = 0xff,
S_ARB_COMPONENT_INFO_TYPE_SHFT = 0x0,
};
#define S_ARB_CONFIG_INFO_0_ADDR(b, n) \
(S_ARB_REG_BASE(b) + (0x8000 * (n)) + 0x00000020)
enum bimc_s_arb_config_info_0 {
S_ARB_CONFIG_INFO_0_RMSK = 0x800000ff,
S_ARB_CONFIG_INFO_0_ARB2SW_PIPELINE_EN_BMSK = 0x80000000,
S_ARB_CONFIG_INFO_0_ARB2SW_PIPELINE_EN_SHFT = 0x1f,
S_ARB_CONFIG_INFO_0_FUNC_BMSK = 0xff,
S_ARB_CONFIG_INFO_0_FUNC_SHFT = 0x0,
};
#define S_ARB_CONFIG_INFO_1_ADDR(b, n) \
(S_ARB_REG_BASE(b) + (0x8000 * (n)) + 0x00000030)
enum bimc_s_arb_config_info_1 {
S_ARB_CONFIG_INFO_1_RMSK = 0xffffffff,
S_ARB_CONFIG_INFO_1_MPORT_CONNECTIVITY_BMSK = 0xffffffff,
S_ARB_CONFIG_INFO_1_MPORT_CONNECTIVITY_SHFT = 0x0,
};
#define S_ARB_CLK_CTRL_ADDR(b) \
(S_ARB_REG_BASE(b) + (0x8000 * (n)) + 0x00000200)
enum bimc_s_arb_clk_ctrl {
S_ARB_CLK_CTRL_RMSK = 0x1,
S_ARB_CLK_CTRL_SLAVE_CLK_GATING_EN_BMSK = 0x2,
S_ARB_CLK_CTRL_SLAVE_CLK_GATING_EN_SHFT = 0x1,
S_ARB_CLK_CTRL_CORE_CLK_GATING_EN_BMSK = 0x1,
S_ARB_CLK_CTRL_CORE_CLK_GATING_EN_SHFT = 0x0,
S_ARB_CLK_CTRL_CLK_GATING_EN_BMSK = 0x1,
S_ARB_CLK_CTRL_CLK_GATING_EN_SHFT = 0x0,
};
#define S_ARB_MODE_ADDR(b, n) \
(S_ARB_REG_BASE(b) + (0x8000 * (n)) + 0x00000210)
enum bimc_s_arb_mode {
S_ARB_MODE_RMSK = 0xf0000001,
S_ARB_MODE_WR_GRANTS_AHEAD_BMSK = 0xf0000000,
S_ARB_MODE_WR_GRANTS_AHEAD_SHFT = 0x1c,
S_ARB_MODE_PRIO_RR_EN_BMSK = 0x1,
S_ARB_MODE_PRIO_RR_EN_SHFT = 0x0,
};
#define BKE_HEALTH_MASK \
(M_BKE_HEALTH_0_CONFIG_LIMIT_CMDS_BMSK |\
M_BKE_HEALTH_0_CONFIG_AREQPRIO_BMSK |\
M_BKE_HEALTH_0_CONFIG_PRIOLVL_BMSK)
#define BKE_HEALTH_VAL(limit, areq, plvl) \
((((limit) << M_BKE_HEALTH_0_CONFIG_LIMIT_CMDS_SHFT) & \
M_BKE_HEALTH_0_CONFIG_LIMIT_CMDS_BMSK) | \
(((areq) << M_BKE_HEALTH_0_CONFIG_AREQPRIO_SHFT) & \
M_BKE_HEALTH_0_CONFIG_AREQPRIO_BMSK) | \
(((plvl) << M_BKE_HEALTH_0_CONFIG_PRIOLVL_SHFT) & \
M_BKE_HEALTH_0_CONFIG_PRIOLVL_BMSK))
#define MAX_GRANT_PERIOD \
(M_BKE_GP_GP_BMSK >> \
M_BKE_GP_GP_SHFT)
#define MAX_GC \
(M_BKE_GC_GC_BMSK >> \
M_BKE_GC_GC_SHFT)
static int bimc_div(int64_t *a, uint32_t b)
{
if ((*a > 0) && (*a < b))
return 1;
else
return do_div(*a, b);
}
#define ENABLE(val) ((val) == 1 ? 1 : 0)
void msm_bus_bimc_set_mas_clk_gate(struct msm_bus_bimc_info *binfo,
uint32_t mas_index, struct msm_bus_bimc_clk_gate *bgate)
{
uint32_t val, mask, reg_val;
void __iomem *addr;
reg_val = readl_relaxed(M_CLK_CTRL_ADDR(binfo->base,
mas_index)) & M_CLK_CTRL_RMSK;
addr = M_CLK_CTRL_ADDR(binfo->base, mas_index);
mask = (M_CLK_CTRL_MAS_CLK_GATING_EN_BMSK |
M_CLK_CTRL_CORE_CLK_GATING_EN_BMSK);
val = (bgate->core_clk_gate_en <<
M_CLK_CTRL_MAS_CLK_GATING_EN_SHFT) |
bgate->port_clk_gate_en;
writel_relaxed(((reg_val & (~mask)) | (val & mask)), addr);
/* Ensure clock gating enable mask is set before exiting */
wmb();
}
void msm_bus_bimc_arb_en(struct msm_bus_bimc_info *binfo,
uint32_t slv_index, bool en)
{
uint32_t reg_val, reg_mask_val, enable, val;
reg_mask_val = (readl_relaxed(S_ARB_CONFIG_INFO_0_ADDR(binfo->
base, slv_index)) & S_ARB_CONFIG_INFO_0_FUNC_BMSK)
>> S_ARB_CONFIG_INFO_0_FUNC_SHFT;
enable = ENABLE(en);
val = enable << S_ARB_MODE_PRIO_RR_EN_SHFT;
if (reg_mask_val == BIMC_ARB_MODE_PRIORITY_RR) {
reg_val = readl_relaxed(S_ARB_CONFIG_INFO_0_ADDR(binfo->
base, slv_index)) & S_ARB_MODE_RMSK;
writel_relaxed(((reg_val & (~(S_ARB_MODE_PRIO_RR_EN_BMSK))) |
(val & S_ARB_MODE_PRIO_RR_EN_BMSK)),
S_ARB_MODE_ADDR(binfo->base, slv_index));
/* Ensure arbitration mode is set before returning */
wmb();
}
}
static void set_qos_mode(void __iomem *baddr, uint32_t index, uint32_t val0,
uint32_t val1, uint32_t val2)
{
uint32_t reg_val, val;
reg_val = readl_relaxed(M_PRIOLVL_OVERRIDE_ADDR(baddr,
index)) & M_PRIOLVL_OVERRIDE_RMSK;
val = val0 << M_PRIOLVL_OVERRIDE_OVERRIDE_PRIOLVL_SHFT;
writel_relaxed(((reg_val & ~(M_PRIOLVL_OVERRIDE_OVERRIDE_PRIOLVL_BMSK))
| (val & M_PRIOLVL_OVERRIDE_OVERRIDE_PRIOLVL_BMSK)),
M_PRIOLVL_OVERRIDE_ADDR(baddr, index));
reg_val = readl_relaxed(M_RD_CMD_OVERRIDE_ADDR(baddr, index)) &
M_RD_CMD_OVERRIDE_RMSK;
val = val1 << M_RD_CMD_OVERRIDE_OVERRIDE_AREQPRIO_SHFT;
writel_relaxed(((reg_val & ~(M_RD_CMD_OVERRIDE_OVERRIDE_AREQPRIO_BMSK
)) | (val & M_RD_CMD_OVERRIDE_OVERRIDE_AREQPRIO_BMSK)),
M_RD_CMD_OVERRIDE_ADDR(baddr, index));
reg_val = readl_relaxed(M_WR_CMD_OVERRIDE_ADDR(baddr, index)) &
M_WR_CMD_OVERRIDE_RMSK;
val = val2 << M_WR_CMD_OVERRIDE_OVERRIDE_AREQPRIO_SHFT;
writel_relaxed(((reg_val & ~(M_WR_CMD_OVERRIDE_OVERRIDE_AREQPRIO_BMSK
)) | (val & M_WR_CMD_OVERRIDE_OVERRIDE_AREQPRIO_BMSK)),
M_WR_CMD_OVERRIDE_ADDR(baddr, index));
/* Ensure the priority register writes go through */
wmb();
}
static void msm_bus_bimc_set_qos_mode(struct msm_bus_bimc_info *binfo,
uint32_t mas_index, uint8_t qmode_sel)
{
uint32_t reg_val, val;
switch (qmode_sel) {
case BIMC_QOS_MODE_FIXED:
reg_val = readl_relaxed(M_BKE_EN_ADDR(binfo->base,
mas_index)) & M_BKE_EN_RMSK;
writel_relaxed((reg_val & (~M_BKE_EN_EN_BMSK)),
M_BKE_EN_ADDR(binfo->base, mas_index));
/* Ensure that the book-keeping register writes
* go through before setting QoS mode.
* QoS mode registers might write beyond 1K
* boundary in future
*/
wmb();
set_qos_mode(binfo->base, mas_index, 1, 1, 1);
break;
case BIMC_QOS_MODE_BYPASS:
reg_val = readl_relaxed(M_BKE_EN_ADDR(binfo->base,
mas_index)) & M_BKE_EN_RMSK;
writel_relaxed((reg_val & (~M_BKE_EN_EN_BMSK)),
M_BKE_EN_ADDR(binfo->base, mas_index));
/* Ensure that the book-keeping register writes
* go through before setting QoS mode.
* QoS mode registers might write beyond 1K
* boundary in future
*/
wmb();
set_qos_mode(binfo->base, mas_index, 0, 0, 0);
break;
case BIMC_QOS_MODE_REGULATOR:
case BIMC_QOS_MODE_LIMITER:
set_qos_mode(binfo->base, mas_index, 0, 0, 0);
reg_val = readl_relaxed(M_BKE_EN_ADDR(binfo->base,
mas_index)) & M_BKE_EN_RMSK;
val = 1 << M_BKE_EN_EN_SHFT;
/* Ensure that the book-keeping register writes
* go through before setting QoS mode.
* QoS mode registers might write beyond 1K
* boundary in future
*/
wmb();
writel_relaxed(((reg_val & (~M_BKE_EN_EN_BMSK)) | (val &
M_BKE_EN_EN_BMSK)), M_BKE_EN_ADDR(binfo->base,
mas_index));
break;
default:
break;
}
}
static void set_qos_prio_rl(void __iomem *addr, uint32_t rmsk,
uint8_t index, struct msm_bus_bimc_qos_mode *qmode)
{
uint32_t reg_val, val0, val;
/* Note, addr is already passed with right mas_index */
reg_val = readl_relaxed(addr) & rmsk;
val0 = BKE_HEALTH_VAL(qmode->rl.qhealth[index].limit_commands,
qmode->rl.qhealth[index].areq_prio,
qmode->rl.qhealth[index].prio_level);
val = ((reg_val & (~(BKE_HEALTH_MASK))) | (val0 & BKE_HEALTH_MASK));
writel_relaxed(val, addr);
/* Ensure that priority for regulator/limiter modes are
* set before returning
*/
wmb();
}
static void msm_bus_bimc_set_qos_prio(struct msm_bus_bimc_info *binfo,
uint32_t mas_index, uint8_t qmode_sel,
struct msm_bus_bimc_qos_mode *qmode)
{
uint32_t reg_val, val;
switch (qmode_sel) {
case BIMC_QOS_MODE_FIXED:
reg_val = readl_relaxed(M_PRIOLVL_OVERRIDE_ADDR(binfo->
base, mas_index)) & M_PRIOLVL_OVERRIDE_RMSK;
val = qmode->fixed.prio_level <<
M_PRIOLVL_OVERRIDE_SHFT;
writel_relaxed(((reg_val &
~(M_PRIOLVL_OVERRIDE_BMSK)) | (val
& M_PRIOLVL_OVERRIDE_BMSK)),
M_PRIOLVL_OVERRIDE_ADDR(binfo->base, mas_index));
reg_val = readl_relaxed(M_RD_CMD_OVERRIDE_ADDR(binfo->
base, mas_index)) & M_RD_CMD_OVERRIDE_RMSK;
val = qmode->fixed.areq_prio_rd <<
M_RD_CMD_OVERRIDE_AREQPRIO_SHFT;
writel_relaxed(((reg_val & ~(M_RD_CMD_OVERRIDE_AREQPRIO_BMSK))
| (val & M_RD_CMD_OVERRIDE_AREQPRIO_BMSK)),
M_RD_CMD_OVERRIDE_ADDR(binfo->base, mas_index));
reg_val = readl_relaxed(M_WR_CMD_OVERRIDE_ADDR(binfo->
base, mas_index)) & M_WR_CMD_OVERRIDE_RMSK;
val = qmode->fixed.areq_prio_wr <<
M_WR_CMD_OVERRIDE_AREQPRIO_SHFT;
writel_relaxed(((reg_val & ~(M_WR_CMD_OVERRIDE_AREQPRIO_BMSK))
| (val & M_WR_CMD_OVERRIDE_AREQPRIO_BMSK)),
M_WR_CMD_OVERRIDE_ADDR(binfo->base, mas_index));
/* Ensure that fixed mode register writes go through
* before returning
*/
wmb();
break;
case BIMC_QOS_MODE_REGULATOR:
case BIMC_QOS_MODE_LIMITER:
set_qos_prio_rl(M_BKE_HEALTH_3_CONFIG_ADDR(binfo->base,
mas_index), M_BKE_HEALTH_3_CONFIG_RMSK, 3, qmode);
set_qos_prio_rl(M_BKE_HEALTH_2_CONFIG_ADDR(binfo->base,
mas_index), M_BKE_HEALTH_2_CONFIG_RMSK, 2, qmode);
set_qos_prio_rl(M_BKE_HEALTH_1_CONFIG_ADDR(binfo->base,
mas_index), M_BKE_HEALTH_1_CONFIG_RMSK, 1, qmode);
set_qos_prio_rl(M_BKE_HEALTH_0_CONFIG_ADDR(binfo->base,
mas_index), M_BKE_HEALTH_0_CONFIG_RMSK, 0 , qmode);
break;
case BIMC_QOS_MODE_BYPASS:
default:
break;
}
}
static void set_qos_bw_regs(void __iomem *baddr, uint32_t mas_index,
int32_t th, int32_t tm, int32_t tl, uint32_t gp,
uint32_t gc)
{
int32_t reg_val, val;
int32_t bke_reg_val;
int16_t val2;
/* Disable BKE before writing to registers as per spec */
bke_reg_val = readl_relaxed(M_BKE_EN_ADDR(baddr, mas_index)) &
M_BKE_EN_RMSK;
writel_relaxed((bke_reg_val & ~(M_BKE_EN_EN_BMSK)),
M_BKE_EN_ADDR(baddr, mas_index));
/* Write values of registers calculated */
reg_val = readl_relaxed(M_BKE_GP_ADDR(baddr, mas_index))
& M_BKE_GP_RMSK;
val = gp << M_BKE_GP_GP_SHFT;
writel_relaxed(((reg_val & ~(M_BKE_GP_GP_BMSK)) | (val &
M_BKE_GP_GP_BMSK)), M_BKE_GP_ADDR(baddr, mas_index));
reg_val = readl_relaxed(M_BKE_GC_ADDR(baddr, mas_index)) &
M_BKE_GC_RMSK;
val = gc << M_BKE_GC_GC_SHFT;
writel_relaxed(((reg_val & ~(M_BKE_GC_GC_BMSK)) | (val &
M_BKE_GC_GC_BMSK)), M_BKE_GC_ADDR(baddr, mas_index));
reg_val = readl_relaxed(M_BKE_THH_ADDR(baddr, mas_index)) &
M_BKE_THH_RMSK;
val = th << M_BKE_THH_THRESH_SHFT;
writel_relaxed(((reg_val & ~(M_BKE_THH_THRESH_BMSK)) | (val &
M_BKE_THH_THRESH_BMSK)), M_BKE_THH_ADDR(baddr, mas_index));
reg_val = readl_relaxed(M_BKE_THM_ADDR(baddr, mas_index)) &
M_BKE_THM_RMSK;
val2 = tm << M_BKE_THM_THRESH_SHFT;
writel_relaxed(((reg_val & ~(M_BKE_THM_THRESH_BMSK)) | (val2 &
M_BKE_THM_THRESH_BMSK)), M_BKE_THM_ADDR(baddr, mas_index));
reg_val = readl_relaxed(M_BKE_THL_ADDR(baddr, mas_index)) &
M_BKE_THL_RMSK;
val2 = tl << M_BKE_THL_THRESH_SHFT;
writel_relaxed(((reg_val & ~(M_BKE_THL_THRESH_BMSK)) |
(val2 & M_BKE_THL_THRESH_BMSK)), M_BKE_THL_ADDR(baddr,
mas_index));
/* Set BKE enable to the value it was */
reg_val = readl_relaxed(M_BKE_EN_ADDR(baddr, mas_index)) &
M_BKE_EN_RMSK;
writel_relaxed(((reg_val & ~(M_BKE_EN_EN_BMSK)) | (bke_reg_val &
M_BKE_EN_EN_BMSK)), M_BKE_EN_ADDR(baddr, mas_index));
/* Ensure that all bandwidth register writes have completed
* before returning
*/
wmb();
}
static void msm_bus_bimc_set_qos_bw(struct msm_bus_bimc_info *binfo,
uint32_t mas_index, struct msm_bus_bimc_qos_bw *qbw)
{
uint32_t bke_en;
/* Validate QOS Frequency */
if (binfo->qos_freq == 0) {
MSM_BUS_DBG("Zero frequency\n");
return;
}
/* Get enable bit for BKE before programming the period */
bke_en = (readl_relaxed(M_BKE_EN_ADDR(binfo->base, mas_index)) &
M_BKE_EN_EN_BMSK) >> M_BKE_EN_EN_SHFT;
/* Only calculate if there's a requested bandwidth and window */
if (qbw->bw && qbw->ws) {
int64_t th, tm, tl;
uint32_t gp, gc;
int64_t gp_nominal, gp_required, gp_calc, data, temp;
int64_t win = qbw->ws * binfo->qos_freq;
temp = win;
/*
* Calculate nominal grant period defined by requested
* window size.
* Ceil this value to max grant period.
*/
bimc_div(&temp, 1000000);
gp_nominal = min_t(uint64_t, MAX_GRANT_PERIOD, temp);
/*
* Calculate max window size, defined by bw request.
* Units: (KHz, MB/s)
*/
gp_calc = MAX_GC * binfo->qos_freq * 1000;
gp_required = gp_calc;
bimc_div(&gp_required, qbw->bw);
/* User min of two grant periods */
gp = min_t(int64_t, gp_nominal, gp_required);
/* Calculate bandwith in grants and ceil. */
temp = qbw->bw * gp;
data = binfo->qos_freq * 1000;
bimc_div(&temp, data);
gc = min_t(int64_t, MAX_GC, temp);
/* Calculate thresholds */
th = qbw->bw - qbw->thh;
tm = qbw->bw - qbw->thm;
tl = qbw->bw - qbw->thl;
th = th * gp;
bimc_div(&th, data);
tm = tm * gp;
bimc_div(&tm, data);
tl = tl * gp;
bimc_div(&tl, data);
MSM_BUS_DBG("BIMC: BW: mas_index: %d, th: %llu tm: %llu\n",
mas_index, th, tm);
MSM_BUS_DBG("BIMC: tl: %llu gp:%u gc: %u bke_en: %u\n",
tl, gp, gc, bke_en);
set_qos_bw_regs(binfo->base, mas_index, th, tm, tl, gp, gc);
} else
/* Clear bandwidth registers */
set_qos_bw_regs(binfo->base, mas_index, 0, 0, 0, 0, 0);
}
static int msm_bus_bimc_allocate_commit_data(struct msm_bus_fabric_registration
*fab_pdata, void **cdata, int ctx)
{
struct msm_bus_bimc_commit **cd = (struct msm_bus_bimc_commit **)cdata;
struct msm_bus_bimc_info *binfo =
(struct msm_bus_bimc_info *)fab_pdata->hw_data;
MSM_BUS_DBG("Allocating BIMC commit data\n");
*cd = kzalloc(sizeof(struct msm_bus_bimc_commit), GFP_KERNEL);
if (!*cd) {
MSM_BUS_DBG("Couldn't alloc mem for cdata\n");
return -ENOMEM;
}
(*cd)->mas = binfo->cdata[ctx].mas;
(*cd)->slv = binfo->cdata[ctx].slv;
return 0;
}
static void *msm_bus_bimc_allocate_bimc_data(struct platform_device *pdev,
struct msm_bus_fabric_registration *fab_pdata)
{
struct resource *bimc_mem;
struct resource *bimc_io;
struct msm_bus_bimc_info *binfo;
int i;
MSM_BUS_DBG("Allocating BIMC data\n");
binfo = kzalloc(sizeof(struct msm_bus_bimc_info), GFP_KERNEL);
if (!binfo) {
WARN(!binfo, "Couldn't alloc mem for bimc_info\n");
return NULL;
}
binfo->qos_freq = fab_pdata->qos_freq;
binfo->params.nmasters = fab_pdata->nmasters;
binfo->params.nslaves = fab_pdata->nslaves;
binfo->params.bus_id = fab_pdata->id;
for (i = 0; i < NUM_CTX; i++) {
binfo->cdata[i].mas = kzalloc(sizeof(struct
msm_bus_node_hw_info) * fab_pdata->nmasters * 2,
GFP_KERNEL);
if (!binfo->cdata[i].mas) {
MSM_BUS_ERR("Couldn't alloc mem for bimc master hw\n");
kfree(binfo);
return NULL;
}
binfo->cdata[i].slv = kzalloc(sizeof(struct
msm_bus_node_hw_info) * fab_pdata->nslaves * 2,
GFP_KERNEL);
if (!binfo->cdata[i].slv) {
MSM_BUS_DBG("Couldn't alloc mem for bimc slave hw\n");
kfree(binfo->cdata[i].mas);
kfree(binfo);
return NULL;
}
}
if (fab_pdata->virt) {
MSM_BUS_DBG("Don't get memory regions for virtual fabric\n");
goto skip_mem;
}
bimc_mem = platform_get_resource(pdev, IORESOURCE_MEM, 0);
if (!bimc_mem) {
MSM_BUS_ERR("Cannot get BIMC Base address\n");
kfree(binfo);
return NULL;
}
bimc_io = request_mem_region(bimc_mem->start,
resource_size(bimc_mem), pdev->name);
if (!bimc_io) {
MSM_BUS_ERR("BIMC memory unavailable\n");
kfree(binfo);
return NULL;
}
binfo->base = ioremap(bimc_mem->start, resource_size(bimc_mem));
if (!binfo->base) {
MSM_BUS_ERR("IOremap failed for BIMC!\n");
release_mem_region(bimc_mem->start, resource_size(bimc_mem));
kfree(binfo);
return NULL;
}
skip_mem:
fab_pdata->hw_data = (void *)binfo;
return (void *)binfo;
}
static void free_commit_data(void *cdata)
{
struct msm_bus_bimc_commit *cd = (struct msm_bus_bimc_commit *)cdata;
kfree(cd->mas);
kfree(cd->slv);
kfree(cd);
}
static void bke_switch(
void __iomem *baddr, uint32_t mas_index, bool req, int mode)
{
uint32_t reg_val, val;
val = req << M_BKE_EN_EN_SHFT;
reg_val = readl_relaxed(M_BKE_EN_ADDR(baddr, mas_index)) &
M_BKE_EN_RMSK;
if (val == reg_val)
return;
if (!req && mode == BIMC_QOS_MODE_FIXED)
set_qos_mode(baddr, mas_index, 1, 1, 1);
writel_relaxed(((reg_val & ~(M_BKE_EN_EN_BMSK)) | (val &
M_BKE_EN_EN_BMSK)), M_BKE_EN_ADDR(baddr, mas_index));
/* Make sure BKE on/off goes through before changing priorities */
wmb();
if (req)
set_qos_mode(baddr, mas_index, 0, 0, 0);
}
static void msm_bus_bimc_config_master(
struct msm_bus_fabric_registration *fab_pdata,
struct msm_bus_inode_info *info,
uint64_t req_clk, uint64_t req_bw)
{
int mode, i, ports;
struct msm_bus_bimc_info *binfo;
binfo = (struct msm_bus_bimc_info *)fab_pdata->hw_data;
ports = info->node_info->num_mports;
/**
* Here check the details of dual configuration.
* Take actions based on different modes.
* Check for threshold if limiter mode, etc.
*/
if (req_clk > info->node_info->th)
mode = info->node_info->mode_thresh;
else
mode = info->node_info->mode;
switch (mode) {
case BIMC_QOS_MODE_BYPASS:
case BIMC_QOS_MODE_FIXED:
for (i = 0; i < ports; i++)
bke_switch(binfo->base, info->node_info->qport[i],
BKE_OFF, mode);
break;
case BIMC_QOS_MODE_REGULATOR:
case BIMC_QOS_MODE_LIMITER:
for (i = 0; i < ports; i++)
bke_switch(binfo->base, info->node_info->qport[i],
BKE_ON, mode);
break;
default:
break;
}
}
static void msm_bus_bimc_update_bw(struct msm_bus_inode_info *hop,
struct msm_bus_inode_info *info,
struct msm_bus_fabric_registration *fab_pdata,
void *sel_cdata, int *master_tiers,
int64_t add_bw)
{
struct msm_bus_bimc_info *binfo;
struct msm_bus_bimc_qos_bw qbw;
int i;
int64_t bw;
int ports = info->node_info->num_mports;
struct msm_bus_bimc_commit *sel_cd =
(struct msm_bus_bimc_commit *)sel_cdata;
MSM_BUS_DBG("BIMC: Update bw for ID %d, with IID: %d: %lld\n",
info->node_info->id, info->node_info->priv_id, add_bw);
binfo = (struct msm_bus_bimc_info *)fab_pdata->hw_data;
if (info->node_info->num_mports == 0) {
MSM_BUS_DBG("BIMC: Skip Master BW\n");
goto skip_mas_bw;
}
ports = info->node_info->num_mports;
bw = INTERLEAVED_BW(fab_pdata, add_bw, ports);
for (i = 0; i < ports; i++) {
sel_cd->mas[info->node_info->masterp[i]].bw += bw;
sel_cd->mas[info->node_info->masterp[i]].hw_id =
info->node_info->mas_hw_id;
MSM_BUS_DBG("BIMC: Update mas_bw for ID: %d -> %llu\n",
info->node_info->priv_id,
sel_cd->mas[info->node_info->masterp[i]].bw);
if (info->node_info->hw_sel == MSM_BUS_RPM)
sel_cd->mas[info->node_info->masterp[i]].dirty = 1;
else {
if (!info->node_info->qport) {
MSM_BUS_DBG("No qos ports to update!\n");
break;
}
MSM_BUS_DBG("qport: %d\n", info->node_info->qport[i]);
qbw.bw = sel_cd->mas[info->node_info->masterp[i]].bw;
qbw.ws = info->node_info->ws;
/* Threshold low = 90% of bw */
qbw.thl = div_s64((90 * bw), 100);
/* Threshold medium = bw */
qbw.thm = bw;
/* Threshold high = 10% more than bw */
qbw.thh = div_s64((110 * bw), 100);
/* Check if info is a shared master.
* If it is, mark it dirty
* If it isn't, then set QOS Bandwidth.
* Also if dual-conf is set, don't program bw regs.
**/
if (!info->node_info->dual_conf)
msm_bus_bimc_set_qos_bw(binfo,
info->node_info->qport[i], &qbw);
}
}
skip_mas_bw:
ports = hop->node_info->num_sports;
MSM_BUS_DBG("BIMC: ID: %d, Sports: %d\n", hop->node_info->priv_id,
ports);
for (i = 0; i < ports; i++) {
sel_cd->slv[hop->node_info->slavep[i]].bw += add_bw;
sel_cd->slv[hop->node_info->slavep[i]].hw_id =
hop->node_info->slv_hw_id;
MSM_BUS_DBG("BIMC: Update slave_bw: ID: %d -> %llu\n",
hop->node_info->priv_id,
sel_cd->slv[hop->node_info->slavep[i]].bw);
MSM_BUS_DBG("BIMC: Update slave_bw: index: %d\n",
hop->node_info->slavep[i]);
/* Check if hop is a shared slave.
* If it is, mark it dirty
* If it isn't, then nothing to be done as the
* slaves are in bypass mode.
**/
if (hop->node_info->hw_sel == MSM_BUS_RPM) {
MSM_BUS_DBG("Slave dirty: %d, slavep: %d\n",
hop->node_info->priv_id,
hop->node_info->slavep[i]);
sel_cd->slv[hop->node_info->slavep[i]].dirty = 1;
}
}
}
static int msm_bus_bimc_commit(struct msm_bus_fabric_registration
*fab_pdata, void *hw_data, void **cdata)
{
MSM_BUS_DBG("\nReached BIMC Commit\n");
msm_bus_remote_hw_commit(fab_pdata, hw_data, cdata);
return 0;
}
static void bimc_set_static_qos_bw(struct msm_bus_bimc_info *binfo,
int mport, struct msm_bus_bimc_qos_bw *qbw)
{
int32_t bw_mbps, thh = 0, thm, thl, gc;
int32_t gp;
u64 temp;
if (binfo->qos_freq == 0) {
MSM_BUS_DBG("Zero QoS Frequency\n");
return;
}
if (!(qbw->bw && qbw->ws)) {
MSM_BUS_DBG("No QoS Bandwidth or Window size\n");
return;
}
/* Convert bandwidth to MBPS */
temp = qbw->bw;
bimc_div(&temp, 1000000);
bw_mbps = temp;
/* Grant period in clock cycles
* Grant period from bandwidth structure
* is in nano seconds, QoS freq is in KHz.
* Divide by 1000 to get clock cycles */
gp = (binfo->qos_freq * qbw->gp) / (1000 * NSEC_PER_USEC);
/* Grant count = BW in MBps * Grant period
* in micro seconds */
gc = bw_mbps * (qbw->gp / NSEC_PER_USEC);
/* Medium threshold = -((Medium Threshold percentage *
* Grant count) / 100) */
thm = -((qbw->thmp * gc) / 100);
qbw->thm = thm;
/* Low threshold = -(Grant count) */
thl = -gc;
qbw->thl = thl;
MSM_BUS_DBG("%s: BKE parameters: gp %d, gc %d, thm %d thl %d thh %d",
__func__, gp, gc, thm, thl, thh);
set_qos_bw_regs(binfo->base, mport, thh, thm, thl, gp, gc);
}
static void bimc_init_mas_reg(struct msm_bus_bimc_info *binfo,
struct msm_bus_inode_info *info,
struct msm_bus_bimc_qos_mode *qmode, int mode)
{
int i;
switch (mode) {
case BIMC_QOS_MODE_FIXED:
qmode->fixed.prio_level = info->node_info->prio_lvl;
qmode->fixed.areq_prio_rd = info->node_info->prio_rd;
qmode->fixed.areq_prio_wr = info->node_info->prio_wr;
break;
case BIMC_QOS_MODE_LIMITER:
qmode->rl.qhealth[0].limit_commands = 1;
qmode->rl.qhealth[1].limit_commands = 0;
qmode->rl.qhealth[2].limit_commands = 0;
qmode->rl.qhealth[3].limit_commands = 0;
break;
default:
break;
}
if (!info->node_info->qport) {
MSM_BUS_DBG("No QoS Ports to init\n");
return;
}
for (i = 0; i < info->node_info->num_mports; i++) {
/* If not in bypass mode, update priority */
if (mode != BIMC_QOS_MODE_BYPASS) {
msm_bus_bimc_set_qos_prio(binfo, info->node_info->
qport[i], mode, qmode);
/* If not in fixed mode, update bandwidth */
if (mode != BIMC_QOS_MODE_FIXED) {
struct msm_bus_bimc_qos_bw qbw;
qbw.ws = info->node_info->ws;
qbw.bw = info->node_info->bimc_bw;
qbw.gp = info->node_info->bimc_gp;
qbw.thmp = info->node_info->bimc_thmp;
bimc_set_static_qos_bw(binfo,
info->node_info->qport[i], &qbw);
}
}
/* set mode */
msm_bus_bimc_set_qos_mode(binfo, info->node_info->qport[i],
mode);
}
}
static int msm_bus_bimc_mas_init(struct msm_bus_bimc_info *binfo,
struct msm_bus_inode_info *info)
{
struct msm_bus_bimc_qos_mode *qmode;
qmode = kzalloc(sizeof(struct msm_bus_bimc_qos_mode),
GFP_KERNEL);
if (!qmode) {
MSM_BUS_WARN("Couldn't alloc prio data for node: %d\n",
info->node_info->id);
return -ENOMEM;
}
info->hw_data = (void *)qmode;
/**
* If the master supports dual configuration,
* configure registers for both modes
*/
if (info->node_info->dual_conf)
bimc_init_mas_reg(binfo, info, qmode,
info->node_info->mode_thresh);
bimc_init_mas_reg(binfo, info, qmode, info->node_info->mode);
return 0;
}
static void msm_bus_bimc_node_init(void *hw_data,
struct msm_bus_inode_info *info)
{
struct msm_bus_bimc_info *binfo =
(struct msm_bus_bimc_info *)hw_data;
if (!IS_SLAVE(info->node_info->priv_id) &&
(info->node_info->hw_sel != MSM_BUS_RPM))
msm_bus_bimc_mas_init(binfo, info);
}
static int msm_bus_bimc_port_halt(uint32_t haltid, uint8_t mport)
{
return 0;
}
static int msm_bus_bimc_port_unhalt(uint32_t haltid, uint8_t mport)
{
return 0;
}
int msm_bus_bimc_hw_init(struct msm_bus_fabric_registration *pdata,
struct msm_bus_hw_algorithm *hw_algo)
{
/* Set interleaving to true by default */
MSM_BUS_DBG("\nInitializing BIMC...\n");
pdata->il_flag = true;
hw_algo->allocate_commit_data = msm_bus_bimc_allocate_commit_data;
hw_algo->allocate_hw_data = msm_bus_bimc_allocate_bimc_data;
hw_algo->node_init = msm_bus_bimc_node_init;
hw_algo->free_commit_data = free_commit_data;
hw_algo->update_bw = msm_bus_bimc_update_bw;
hw_algo->commit = msm_bus_bimc_commit;
hw_algo->port_halt = msm_bus_bimc_port_halt;
hw_algo->port_unhalt = msm_bus_bimc_port_unhalt;
hw_algo->config_master = msm_bus_bimc_config_master;
/* BIMC slaves are shared. Slave registers are set through RPM */
if (!pdata->ahb)
pdata->rpm_enabled = 1;
return 0;
}