mirror of
https://github.com/AsahiLinux/u-boot
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83d290c56f
When U-Boot started using SPDX tags we were among the early adopters and there weren't a lot of other examples to borrow from. So we picked the area of the file that usually had a full license text and replaced it with an appropriate SPDX-License-Identifier: entry. Since then, the Linux Kernel has adopted SPDX tags and they place it as the very first line in a file (except where shebangs are used, then it's second line) and with slightly different comment styles than us. In part due to community overlap, in part due to better tag visibility and in part for other minor reasons, switch over to that style. This commit changes all instances where we have a single declared license in the tag as both the before and after are identical in tag contents. There's also a few places where I found we did not have a tag and have introduced one. Signed-off-by: Tom Rini <trini@konsulko.com>
186 lines
6.8 KiB
C
186 lines
6.8 KiB
C
/* SPDX-License-Identifier: GPL-2.0+ */
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/*
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* Common internal memory map for some Freescale SoCs
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*
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* Copyright 2013-2014 Freescale Semiconductor, Inc.
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*/
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#ifndef __FSL_IMMAP_H
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#define __FSL_IMMAP_H
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/*
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* DDR memory controller registers
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* This structure works for mpc83xx (DDR2 and DDR3), mpc85xx, mpc86xx.
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*/
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struct ccsr_ddr {
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u32 cs0_bnds; /* Chip Select 0 Memory Bounds */
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u8 res_04[4];
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u32 cs1_bnds; /* Chip Select 1 Memory Bounds */
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u8 res_0c[4];
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u32 cs2_bnds; /* Chip Select 2 Memory Bounds */
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u8 res_14[4];
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u32 cs3_bnds; /* Chip Select 3 Memory Bounds */
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u8 res_1c[100];
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u32 cs0_config; /* Chip Select Configuration */
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u32 cs1_config; /* Chip Select Configuration */
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u32 cs2_config; /* Chip Select Configuration */
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u32 cs3_config; /* Chip Select Configuration */
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u8 res_90[48];
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u32 cs0_config_2; /* Chip Select Configuration 2 */
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u32 cs1_config_2; /* Chip Select Configuration 2 */
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u32 cs2_config_2; /* Chip Select Configuration 2 */
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u32 cs3_config_2; /* Chip Select Configuration 2 */
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u8 res_d0[48];
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u32 timing_cfg_3; /* SDRAM Timing Configuration 3 */
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u32 timing_cfg_0; /* SDRAM Timing Configuration 0 */
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u32 timing_cfg_1; /* SDRAM Timing Configuration 1 */
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u32 timing_cfg_2; /* SDRAM Timing Configuration 2 */
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u32 sdram_cfg; /* SDRAM Control Configuration */
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u32 sdram_cfg_2; /* SDRAM Control Configuration 2 */
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u32 sdram_mode; /* SDRAM Mode Configuration */
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u32 sdram_mode_2; /* SDRAM Mode Configuration 2 */
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u32 sdram_md_cntl; /* SDRAM Mode Control */
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u32 sdram_interval; /* SDRAM Interval Configuration */
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u32 sdram_data_init; /* SDRAM Data initialization */
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u8 res_12c[4];
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u32 sdram_clk_cntl; /* SDRAM Clock Control */
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u8 res_134[20];
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u32 init_addr; /* training init addr */
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u32 init_ext_addr; /* training init extended addr */
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u8 res_150[16];
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u32 timing_cfg_4; /* SDRAM Timing Configuration 4 */
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u32 timing_cfg_5; /* SDRAM Timing Configuration 5 */
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u32 timing_cfg_6; /* SDRAM Timing Configuration 6 */
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u32 timing_cfg_7; /* SDRAM Timing Configuration 7 */
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u32 ddr_zq_cntl; /* ZQ calibration control*/
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u32 ddr_wrlvl_cntl; /* write leveling control*/
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u8 reg_178[4];
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u32 ddr_sr_cntr; /* self refresh counter */
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u32 ddr_sdram_rcw_1; /* Control Words 1 */
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u32 ddr_sdram_rcw_2; /* Control Words 2 */
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u8 reg_188[8];
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u32 ddr_wrlvl_cntl_2; /* write leveling control 2 */
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u32 ddr_wrlvl_cntl_3; /* write leveling control 3 */
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u8 res_198[0x1a0-0x198];
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u32 ddr_sdram_rcw_3;
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u32 ddr_sdram_rcw_4;
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u32 ddr_sdram_rcw_5;
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u32 ddr_sdram_rcw_6;
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u8 res_1b0[0x200-0x1b0];
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u32 sdram_mode_3; /* SDRAM Mode Configuration 3 */
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u32 sdram_mode_4; /* SDRAM Mode Configuration 4 */
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u32 sdram_mode_5; /* SDRAM Mode Configuration 5 */
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u32 sdram_mode_6; /* SDRAM Mode Configuration 6 */
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u32 sdram_mode_7; /* SDRAM Mode Configuration 7 */
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u32 sdram_mode_8; /* SDRAM Mode Configuration 8 */
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u8 res_218[0x220-0x218];
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u32 sdram_mode_9; /* SDRAM Mode Configuration 9 */
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u32 sdram_mode_10; /* SDRAM Mode Configuration 10 */
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u32 sdram_mode_11; /* SDRAM Mode Configuration 11 */
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u32 sdram_mode_12; /* SDRAM Mode Configuration 12 */
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u32 sdram_mode_13; /* SDRAM Mode Configuration 13 */
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u32 sdram_mode_14; /* SDRAM Mode Configuration 14 */
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u32 sdram_mode_15; /* SDRAM Mode Configuration 15 */
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u32 sdram_mode_16; /* SDRAM Mode Configuration 16 */
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u8 res_240[0x250-0x240];
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u32 timing_cfg_8; /* SDRAM Timing Configuration 8 */
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u32 timing_cfg_9; /* SDRAM Timing Configuration 9 */
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u8 res_258[0x260-0x258];
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u32 sdram_cfg_3;
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u8 res_264[0x400-0x264];
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u32 dq_map_0;
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u32 dq_map_1;
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u32 dq_map_2;
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u32 dq_map_3;
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u8 res_410[0xb20-0x410];
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u32 ddr_dsr1; /* Debug Status 1 */
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u32 ddr_dsr2; /* Debug Status 2 */
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u32 ddr_cdr1; /* Control Driver 1 */
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u32 ddr_cdr2; /* Control Driver 2 */
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u8 res_b30[200];
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u32 ip_rev1; /* IP Block Revision 1 */
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u32 ip_rev2; /* IP Block Revision 2 */
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u32 eor; /* Enhanced Optimization Register */
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u8 res_c04[252];
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u32 mtcr; /* Memory Test Control Register */
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u8 res_d04[28];
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u32 mtp1; /* Memory Test Pattern 1 */
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u32 mtp2; /* Memory Test Pattern 2 */
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u32 mtp3; /* Memory Test Pattern 3 */
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u32 mtp4; /* Memory Test Pattern 4 */
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u32 mtp5; /* Memory Test Pattern 5 */
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u32 mtp6; /* Memory Test Pattern 6 */
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u32 mtp7; /* Memory Test Pattern 7 */
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u32 mtp8; /* Memory Test Pattern 8 */
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u32 mtp9; /* Memory Test Pattern 9 */
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u32 mtp10; /* Memory Test Pattern 10 */
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u8 res_d48[184];
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u32 data_err_inject_hi; /* Data Path Err Injection Mask High */
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u32 data_err_inject_lo; /* Data Path Err Injection Mask Low */
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u32 ecc_err_inject; /* Data Path Err Injection Mask ECC */
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u8 res_e0c[20];
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u32 capture_data_hi; /* Data Path Read Capture High */
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u32 capture_data_lo; /* Data Path Read Capture Low */
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u32 capture_ecc; /* Data Path Read Capture ECC */
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u8 res_e2c[20];
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u32 err_detect; /* Error Detect */
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u32 err_disable; /* Error Disable */
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u32 err_int_en;
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u32 capture_attributes; /* Error Attrs Capture */
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u32 capture_address; /* Error Addr Capture */
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u32 capture_ext_address; /* Error Extended Addr Capture */
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u32 err_sbe; /* Single-Bit ECC Error Management */
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u8 res_e5c[164];
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u32 debug[64]; /* debug_1 to debug_64 */
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};
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#ifdef CONFIG_SYS_FSL_HAS_CCI400
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#define CCI400_CTRLORD_TERM_BARRIER 0x00000008
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#define CCI400_CTRLORD_EN_BARRIER 0
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#define CCI400_SHAORD_NON_SHAREABLE 0x00000002
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#define CCI400_DVM_MESSAGE_REQ_EN 0x00000002
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#define CCI400_SNOOP_REQ_EN 0x00000001
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/* CCI-400 registers */
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struct ccsr_cci400 {
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u32 ctrl_ord; /* Control Override */
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u32 spec_ctrl; /* Speculation Control */
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u32 secure_access; /* Secure Access */
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u32 status; /* Status */
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u32 impr_err; /* Imprecise Error */
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u8 res_14[0x100 - 0x14];
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u32 pmcr; /* Performance Monitor Control */
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u8 res_104[0xfd0 - 0x104];
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u32 pid[8]; /* Peripheral ID */
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u32 cid[4]; /* Component ID */
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struct {
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u32 snoop_ctrl; /* Snoop Control */
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u32 sha_ord; /* Shareable Override */
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u8 res_1008[0x1100 - 0x1008];
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u32 rc_qos_ord; /* read channel QoS Value Override */
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u32 wc_qos_ord; /* read channel QoS Value Override */
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u8 res_1108[0x110c - 0x1108];
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u32 qos_ctrl; /* QoS Control */
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u32 max_ot; /* Max OT */
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u8 res_1114[0x1130 - 0x1114];
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u32 target_lat; /* Target Latency */
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u32 latency_regu; /* Latency Regulation */
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u32 qos_range; /* QoS Range */
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u8 res_113c[0x2000 - 0x113c];
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} slave[5]; /* Slave Interface */
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u8 res_6000[0x9004 - 0x6000];
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u32 cycle_counter; /* Cycle counter */
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u32 count_ctrl; /* Count Control */
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u32 overflow_status; /* Overflow Flag Status */
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u8 res_9010[0xa000 - 0x9010];
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struct {
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u32 event_select; /* Event Select */
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u32 event_count; /* Event Count */
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u32 counter_ctrl; /* Counter Control */
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u32 overflow_status; /* Overflow Flag Status */
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u8 res_a010[0xb000 - 0xa010];
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} pcounter[4]; /* Performance Counter */
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u8 res_e004[0x10000 - 0xe004];
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};
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#endif
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#endif /* __FSL_IMMAP_H */
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