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39e0f648d3
This makes is easier to use this macro from non-DDR related files. Signed-off-by: Stefan Roese <sr@denx.de>
797 lines
28 KiB
C
797 lines
28 KiB
C
/* SPDX-License-Identifier: GPL-2.0 */
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/*
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* Copyright (C) 2020 Marvell International Ltd.
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*/
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#ifndef __OCTEON_DDR_H_
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#define __OCTEON_DDR_H_
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#include <env.h>
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#include <linux/compat.h>
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#include <linux/delay.h>
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#include <linux/io.h>
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#include <mach/octeon-model.h>
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#include <mach/cvmx-lmcx-defs.h>
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#include <mach/cvmx-regs.h>
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#include <mach/cvmx-l2c-defs.h>
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/* Some "external" (non-LMC) registers */
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#define CVMX_IPD_CLK_COUNT 0x00014F0000000338
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#define CVMX_FPA_CLK_COUNT 0x00012800000000F0
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#define CVMX_NODE_MEM_SHIFT 40
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#define DDR_INTERFACE_MAX 4
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/* Private data struct */
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struct ddr_priv {
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void __iomem *lmc_base;
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void __iomem *l2c_base;
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bool ddr_clock_initialized[DDR_INTERFACE_MAX];
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bool ddr_memory_preserved;
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u32 flags;
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struct ram_info info;
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};
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/* Short cut to convert a number to megabytes */
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#define MB(X) ((u64)(X) * (u64)(1024 * 1024))
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#define octeon_is_cpuid(x) (__OCTEON_IS_MODEL_COMPILE__(x, read_c0_prid()))
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#define strtoull simple_strtoull
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/* Access LMC registers */
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static inline u64 lmc_rd(struct ddr_priv *priv, u64 addr)
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{
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return ioread64(priv->lmc_base + addr);
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}
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static inline void lmc_wr(struct ddr_priv *priv, u64 addr, u64 val)
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{
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iowrite64(val, priv->lmc_base + addr);
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}
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/* Access L2C registers */
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static inline u64 l2c_rd(struct ddr_priv *priv, u64 addr)
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{
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return ioread64(priv->l2c_base + addr);
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}
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static inline void l2c_wr(struct ddr_priv *priv, u64 addr, u64 val)
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{
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iowrite64(val, priv->l2c_base + addr);
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}
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/* Failsafe mode */
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#define FLAG_FAILSAFE_MODE 0x01000
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/* Note that the DDR clock initialized flags must be contiguous */
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/* Clock for DDR 0 initialized */
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#define FLAG_DDR0_CLK_INITIALIZED 0x02000
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/* Clock for DDR 1 initialized */
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#define FLAG_DDR1_CLK_INITIALIZED 0x04000
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/* Clock for DDR 2 initialized */
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#define FLAG_DDR2_CLK_INITIALIZED 0x08000
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/* Clock for DDR 3 initialized */
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#define FLAG_DDR3_CLK_INITIALIZED 0x10000
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/* Loaded into RAM externally */
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#define FLAG_RAM_RESIDENT 0x20000
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/* Verbose DDR information */
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#define FLAG_DDR_VERBOSE 0x40000
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/* Check env. for DDR variables */
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#define FLAG_DDR_DEBUG 0x80000
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#define FLAG_DDR_TRACE_INIT 0x100000
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#define FLAG_MEMORY_PRESERVED 0x200000
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#define FLAG_DFM_VERBOSE 0x400000
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#define FLAG_DFM_TRACE_INIT 0x800000
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/* DFM memory clock initialized */
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#define FLAG_DFM_CLK_INITIALIZED 0x1000000
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/* EEPROM clock descr. missing */
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#define FLAG_CLOCK_DESC_MISSING 0x2000000
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/* EEPROM board descr. missing */
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#define FLAG_BOARD_DESC_MISSING 0x4000000
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#define FLAG_DDR_PROMPT 0x8000000
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#ifndef DDR_NO_DEBUG
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static inline int ddr_verbose(struct ddr_priv *priv)
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{
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return !!(priv->flags & FLAG_DDR_VERBOSE);
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}
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static inline char *ddr_getenv_debug(struct ddr_priv *priv, char *name)
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{
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if (priv->flags & FLAG_FAILSAFE_MODE)
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return NULL;
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if (priv->flags & FLAG_DDR_DEBUG)
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return env_get(name);
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return NULL;
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}
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#else
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static inline int ddr_verbose(void)
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{
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return 0;
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}
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#endif
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/* turn the variable name into a string */
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#define CVMX_TMP_STR(x) CVMX_TMP_STR2(x)
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#define CVMX_TMP_STR2(x) #x
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#define CVMX_CACHE(op, address, offset) \
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asm volatile ("cache " CVMX_TMP_STR(op) ", " \
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CVMX_TMP_STR(offset) "(%[rbase])" \
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: : [rbase] "d" (address))
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/* unlock the state */
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#define CVMX_CACHE_WBIL2(address, offset) \
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CVMX_CACHE(23, address, offset)
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/* complete prefetches, invalidate entire dcache */
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#define CVMX_DCACHE_INVALIDATE \
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{ CVMX_SYNC; asm volatile ("cache 9, 0($0)" : : ); }
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#define DEBUG_VALIDATE_BITMASK 0
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#if DEBUG_VALIDATE_BITMASK
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#define debug_bitmask_print printf
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#else
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#define debug_bitmask_print(...)
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#endif
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#define RLEVEL_BITMASK_TRAILING_BITS_ERROR 5
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// FIXME? now less than TOOLONG
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#define RLEVEL_BITMASK_BUBBLE_BITS_ERROR 11
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#define RLEVEL_BITMASK_NARROW_ERROR 6
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#define RLEVEL_BITMASK_BLANK_ERROR 100
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#define RLEVEL_BITMASK_TOOLONG_ERROR 12
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#define RLEVEL_NONSEQUENTIAL_DELAY_ERROR 50
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#define RLEVEL_ADJACENT_DELAY_ERROR 30
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/*
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* Apply a filter to the BITMASK results returned from Octeon
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* read-leveling to determine the most likely delay result. This
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* computed delay may be used to qualify the delay result returned by
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* Octeon. Accumulate an error penalty for invalid characteristics of
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* the bitmask so that they can be used to select the most reliable
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* results.
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*
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* The algorithm searches for the largest contiguous MASK within a
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* maximum RANGE of bits beginning with the MSB.
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*
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* 1. a MASK with a WIDTH less than 4 will be penalized
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* 2. Bubbles in the bitmask that occur before or after the MASK
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* will be penalized
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* 3. If there are no trailing bubbles then extra bits that occur
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* beyond the maximum RANGE will be penalized.
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*
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* +++++++++++++++++++++++++++++++++++++++++++++++++++
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* + +
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* + e.g. bitmask = 27B00 +
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* + +
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* + 63 +--- mstart 0 +
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* + | | | +
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* + | +---------+ +--- fb | +
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* + | | range | | | +
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* + V V V V V +
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* + +
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* + 0 0 ... 1 0 0 1 1 1 1 0 1 1 0 0 0 0 0 0 0 0 +
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* + +
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* + ^ ^ ^ +
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* + | | mask| +
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* + lb ---+ +-----+ +
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* + width +
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* + +
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* +++++++++++++++++++++++++++++++++++++++++++++++++++
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*/
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struct rlevel_bitmask {
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u64 bm;
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u8 mstart;
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u8 width;
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int errs;
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};
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#define MASKRANGE_BITS 6
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#define MASKRANGE ((1 << MASKRANGE_BITS) - 1)
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/* data field addresses in the DDR2 SPD eeprom */
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enum ddr2_spd_addrs {
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DDR2_SPD_BYTES_PROGRAMMED = 0,
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DDR2_SPD_TOTAL_BYTES = 1,
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DDR2_SPD_MEM_TYPE = 2,
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DDR2_SPD_NUM_ROW_BITS = 3,
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DDR2_SPD_NUM_COL_BITS = 4,
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DDR2_SPD_NUM_RANKS = 5,
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DDR2_SPD_CYCLE_CLX = 9,
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DDR2_SPD_CONFIG_TYPE = 11,
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DDR2_SPD_REFRESH = 12,
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DDR2_SPD_SDRAM_WIDTH = 13,
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DDR2_SPD_BURST_LENGTH = 16,
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DDR2_SPD_NUM_BANKS = 17,
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DDR2_SPD_CAS_LATENCY = 18,
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DDR2_SPD_DIMM_TYPE = 20,
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DDR2_SPD_CYCLE_CLX1 = 23,
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DDR2_SPD_CYCLE_CLX2 = 25,
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DDR2_SPD_TRP = 27,
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DDR2_SPD_TRRD = 28,
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DDR2_SPD_TRCD = 29,
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DDR2_SPD_TRAS = 30,
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DDR2_SPD_TWR = 36,
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DDR2_SPD_TWTR = 37,
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DDR2_SPD_TRFC_EXT = 40,
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DDR2_SPD_TRFC = 42,
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DDR2_SPD_CHECKSUM = 63,
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DDR2_SPD_MFR_ID = 64
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};
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/* data field addresses in the DDR2 SPD eeprom */
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enum ddr3_spd_addrs {
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DDR3_SPD_BYTES_PROGRAMMED = 0,
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DDR3_SPD_REVISION = 1,
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DDR3_SPD_KEY_BYTE_DEVICE_TYPE = 2,
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DDR3_SPD_KEY_BYTE_MODULE_TYPE = 3,
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DDR3_SPD_DENSITY_BANKS = 4,
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DDR3_SPD_ADDRESSING_ROW_COL_BITS = 5,
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DDR3_SPD_NOMINAL_VOLTAGE = 6,
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DDR3_SPD_MODULE_ORGANIZATION = 7,
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DDR3_SPD_MEMORY_BUS_WIDTH = 8,
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DDR3_SPD_FINE_TIMEBASE_DIVIDEND_DIVISOR = 9,
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DDR3_SPD_MEDIUM_TIMEBASE_DIVIDEND = 10,
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DDR3_SPD_MEDIUM_TIMEBASE_DIVISOR = 11,
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DDR3_SPD_MINIMUM_CYCLE_TIME_TCKMIN = 12,
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DDR3_SPD_CAS_LATENCIES_LSB = 14,
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DDR3_SPD_CAS_LATENCIES_MSB = 15,
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DDR3_SPD_MIN_CAS_LATENCY_TAAMIN = 16,
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DDR3_SPD_MIN_WRITE_RECOVERY_TWRMIN = 17,
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DDR3_SPD_MIN_RAS_CAS_DELAY_TRCDMIN = 18,
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DDR3_SPD_MIN_ROW_ACTIVE_DELAY_TRRDMIN = 19,
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DDR3_SPD_MIN_ROW_PRECHARGE_DELAY_TRPMIN = 20,
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DDR3_SPD_UPPER_NIBBLES_TRAS_TRC = 21,
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DDR3_SPD_MIN_ACTIVE_PRECHARGE_LSB_TRASMIN = 22,
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DDR3_SPD_MIN_ACTIVE_REFRESH_LSB_TRCMIN = 23,
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DDR3_SPD_MIN_REFRESH_RECOVERY_LSB_TRFCMIN = 24,
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DDR3_SPD_MIN_REFRESH_RECOVERY_MSB_TRFCMIN = 25,
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DDR3_SPD_MIN_INTERNAL_WRITE_READ_CMD_TWTRMIN = 26,
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DDR3_SPD_MIN_INTERNAL_READ_PRECHARGE_CMD_TRTPMIN = 27,
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DDR3_SPD_UPPER_NIBBLE_TFAW = 28,
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DDR3_SPD_MIN_FOUR_ACTIVE_WINDOW_TFAWMIN = 29,
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DDR3_SPD_SDRAM_OPTIONAL_FEATURES = 30,
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DDR3_SPD_SDRAM_THERMAL_REFRESH_OPTIONS = 31,
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DDR3_SPD_MODULE_THERMAL_SENSOR = 32,
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DDR3_SPD_SDRAM_DEVICE_TYPE = 33,
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DDR3_SPD_MINIMUM_CYCLE_TIME_FINE_TCKMIN = 34,
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DDR3_SPD_MIN_CAS_LATENCY_FINE_TAAMIN = 35,
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DDR3_SPD_MIN_RAS_CAS_DELAY_FINE_TRCDMIN = 36,
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DDR3_SPD_MIN_ROW_PRECHARGE_DELAY_FINE_TRPMIN = 37,
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DDR3_SPD_MIN_ACTIVE_REFRESH_LSB_FINE_TRCMIN = 38,
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DDR3_SPD_REFERENCE_RAW_CARD = 62,
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DDR3_SPD_ADDRESS_MAPPING = 63,
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DDR3_SPD_REGISTER_MANUFACTURER_ID_LSB = 65,
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DDR3_SPD_REGISTER_MANUFACTURER_ID_MSB = 66,
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DDR3_SPD_REGISTER_REVISION_NUMBER = 67,
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DDR3_SPD_MODULE_SERIAL_NUMBER = 122,
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DDR3_SPD_CYCLICAL_REDUNDANCY_CODE_LOWER_NIBBLE = 126,
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DDR3_SPD_CYCLICAL_REDUNDANCY_CODE_UPPER_NIBBLE = 127,
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DDR3_SPD_MODULE_PART_NUMBER = 128
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};
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/* data field addresses in the DDR4 SPD eeprom */
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enum ddr4_spd_addrs {
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DDR4_SPD_BYTES_PROGRAMMED = 0,
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DDR4_SPD_REVISION = 1,
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DDR4_SPD_KEY_BYTE_DEVICE_TYPE = 2,
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DDR4_SPD_KEY_BYTE_MODULE_TYPE = 3,
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DDR4_SPD_DENSITY_BANKS = 4,
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DDR4_SPD_ADDRESSING_ROW_COL_BITS = 5,
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DDR4_SPD_PACKAGE_TYPE = 6,
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DDR4_SPD_OPTIONAL_FEATURES = 7,
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DDR4_SPD_THERMAL_REFRESH_OPTIONS = 8,
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DDR4_SPD_OTHER_OPTIONAL_FEATURES = 9,
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DDR4_SPD_SECONDARY_PACKAGE_TYPE = 10,
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DDR4_SPD_MODULE_NOMINAL_VOLTAGE = 11,
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DDR4_SPD_MODULE_ORGANIZATION = 12,
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DDR4_SPD_MODULE_MEMORY_BUS_WIDTH = 13,
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DDR4_SPD_MODULE_THERMAL_SENSOR = 14,
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DDR4_SPD_RESERVED_BYTE15 = 15,
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DDR4_SPD_RESERVED_BYTE16 = 16,
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DDR4_SPD_TIMEBASES = 17,
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DDR4_SPD_MINIMUM_CYCLE_TIME_TCKAVGMIN = 18,
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DDR4_SPD_MAXIMUM_CYCLE_TIME_TCKAVGMAX = 19,
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DDR4_SPD_CAS_LATENCIES_BYTE0 = 20,
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DDR4_SPD_CAS_LATENCIES_BYTE1 = 21,
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DDR4_SPD_CAS_LATENCIES_BYTE2 = 22,
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DDR4_SPD_CAS_LATENCIES_BYTE3 = 23,
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DDR4_SPD_MIN_CAS_LATENCY_TAAMIN = 24,
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DDR4_SPD_MIN_RAS_CAS_DELAY_TRCDMIN = 25,
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DDR4_SPD_MIN_ROW_PRECHARGE_DELAY_TRPMIN = 26,
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DDR4_SPD_UPPER_NIBBLES_TRAS_TRC = 27,
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DDR4_SPD_MIN_ACTIVE_PRECHARGE_LSB_TRASMIN = 28,
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DDR4_SPD_MIN_ACTIVE_REFRESH_LSB_TRCMIN = 29,
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DDR4_SPD_MIN_REFRESH_RECOVERY_LSB_TRFC1MIN = 30,
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DDR4_SPD_MIN_REFRESH_RECOVERY_MSB_TRFC1MIN = 31,
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DDR4_SPD_MIN_REFRESH_RECOVERY_LSB_TRFC2MIN = 32,
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DDR4_SPD_MIN_REFRESH_RECOVERY_MSB_TRFC2MIN = 33,
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DDR4_SPD_MIN_REFRESH_RECOVERY_LSB_TRFC4MIN = 34,
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DDR4_SPD_MIN_REFRESH_RECOVERY_MSB_TRFC4MIN = 35,
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DDR4_SPD_MIN_FOUR_ACTIVE_WINDOW_MSN_TFAWMIN = 36,
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DDR4_SPD_MIN_FOUR_ACTIVE_WINDOW_LSB_TFAWMIN = 37,
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DDR4_SPD_MIN_ROW_ACTIVE_DELAY_SAME_TRRD_SMIN = 38,
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DDR4_SPD_MIN_ROW_ACTIVE_DELAY_DIFF_TRRD_LMIN = 39,
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DDR4_SPD_MIN_CAS_TO_CAS_DELAY_TCCD_LMIN = 40,
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DDR4_SPD_MIN_CAS_TO_CAS_DELAY_FINE_TCCD_LMIN = 117,
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DDR4_SPD_MIN_ACT_TO_ACT_DELAY_SAME_FINE_TRRD_LMIN = 118,
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DDR4_SPD_MIN_ACT_TO_ACT_DELAY_DIFF_FINE_TRRD_SMIN = 119,
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DDR4_SPD_MIN_ACT_TO_ACT_REFRESH_DELAY_FINE_TRCMIN = 120,
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DDR4_SPD_MIN_ROW_PRECHARGE_DELAY_FINE_TRPMIN = 121,
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DDR4_SPD_MIN_RAS_TO_CAS_DELAY_FINE_TRCDMIN = 122,
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DDR4_SPD_MIN_CAS_LATENCY_FINE_TAAMIN = 123,
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DDR4_SPD_MAX_CYCLE_TIME_FINE_TCKAVGMAX = 124,
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DDR4_SPD_MIN_CYCLE_TIME_FINE_TCKAVGMIN = 125,
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DDR4_SPD_CYCLICAL_REDUNDANCY_CODE_LOWER_NIBBLE = 126,
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DDR4_SPD_CYCLICAL_REDUNDANCY_CODE_UPPER_NIBBLE = 127,
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DDR4_SPD_REFERENCE_RAW_CARD = 130,
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DDR4_SPD_UDIMM_ADDR_MAPPING_FROM_EDGE = 131,
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DDR4_SPD_REGISTER_MANUFACTURER_ID_LSB = 133,
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DDR4_SPD_REGISTER_MANUFACTURER_ID_MSB = 134,
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DDR4_SPD_REGISTER_REVISION_NUMBER = 135,
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DDR4_SPD_RDIMM_ADDR_MAPPING_FROM_REGISTER_TO_DRAM = 136,
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DDR4_SPD_RDIMM_REGISTER_DRIVE_STRENGTH_CTL = 137,
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DDR4_SPD_RDIMM_REGISTER_DRIVE_STRENGTH_CK = 138,
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};
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#define SPD_EEPROM_SIZE (DDR4_SPD_RDIMM_REGISTER_DRIVE_STRENGTH_CK + 1)
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struct impedence_values {
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unsigned char *rodt_ohms;
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unsigned char *rtt_nom_ohms;
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unsigned char *rtt_nom_table;
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unsigned char *rtt_wr_ohms;
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unsigned char *dic_ohms;
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short *drive_strength;
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short *dqx_strength;
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};
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#define RODT_OHMS_COUNT 8
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#define RTT_NOM_OHMS_COUNT 8
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#define RTT_NOM_TABLE_COUNT 8
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#define RTT_WR_OHMS_COUNT 8
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#define DIC_OHMS_COUNT 3
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#define DRIVE_STRENGTH_COUNT 15
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/*
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* Structure that provides DIMM information, either in the form of an SPD
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* TWSI address, or a pointer to an array that contains SPD data. One of
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* the two fields must be valid.
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*/
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struct dimm_config {
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u16 spd_addrs[2]; /* TWSI address of SPD, 0 if not used */
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u8 *spd_ptrs[2]; /* pointer to SPD data array, NULL if not used */
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int spd_cached[2];
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u8 spd_data[2][SPD_EEPROM_SIZE];
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};
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struct dimm_odt_config {
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u8 odt_ena; /* FIX: dqx_ctl for Octeon 3 DDR4 */
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u64 odt_mask; /* FIX: wodt_mask for Octeon 3 */
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union cvmx_lmcx_modereg_params1 modereg_params1;
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union cvmx_lmcx_modereg_params2 modereg_params2;
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u8 qs_dic; /* FIX: rodt_ctl for Octeon 3 */
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u64 rodt_ctl; /* FIX: rodt_mask for Octeon 3 */
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u8 dic;
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};
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struct ddr_delay_config {
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u32 ddr_board_delay;
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u8 lmc_delay_clk;
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u8 lmc_delay_cmd;
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u8 lmc_delay_dq;
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};
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/*
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* The parameters below make up the custom_lmc_config data structure.
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* This structure is used to customize the way that the LMC DRAM
|
|
* Controller is configured for a particular board design.
|
|
*
|
|
* The HRM describes LMC Read Leveling which supports automatic
|
|
* selection of per byte-lane delays. When measuring the read delays
|
|
* the LMC configuration software sweeps through a range of settings
|
|
* for LMC0_COMP_CTL2[RODT_CTL], the Octeon II on-die-termination
|
|
* resistance and LMC0_MODEREG_PARAMS1[RTT_NOM_XX], the DRAM
|
|
* on-die-termination resistance. The minimum and maximum parameters
|
|
* for rtt_nom_idx and rodt_ctl listed below determine the ranges of
|
|
* ODT settings used for the measurements. Note that for rtt_nom an
|
|
* index is used into a sorted table rather than the direct csr setting
|
|
* in order to optimize the sweep.
|
|
*
|
|
* .min_rtt_nom_idx: 1=120ohms, 2=60ohms, 3=40ohms, 4=30ohms, 5=20ohms
|
|
* .max_rtt_nom_idx: 1=120ohms, 2=60ohms, 3=40ohms, 4=30ohms, 5=20ohms
|
|
* .min_rodt_ctl: 1=20ohms, 2=30ohms, 3=40ohms, 4=60ohms, 5=120ohms
|
|
* .max_rodt_ctl: 1=20ohms, 2=30ohms, 3=40ohms, 4=60ohms, 5=120ohms
|
|
*
|
|
* The settings below control the Octeon II drive strength for the CK,
|
|
* ADD/CMD, and DQ/DQS signals. 1=24ohms, 2=26.67ohms, 3=30ohms,
|
|
* 4=34.3ohms, 5=40ohms, 6=48ohms, 6=60ohms.
|
|
*
|
|
* .dqx_ctl: Drive strength control for DDR_DQX/DDR_DQS_X_P/N drivers.
|
|
* .ck_ctl: Drive strength control for
|
|
* DDR_CK_X_P/DDR_DIMMX_CSX_L/DDR_DIMMX_ODT_X drivers.
|
|
* .cmd_ctl: Drive strength control for CMD/A/RESET_L/CKEX drivers.
|
|
*
|
|
* The LMC controller software selects the most optimal CAS Latency
|
|
* that complies with the appropriate SPD values and the frequency
|
|
* that the DRAMS are being operated. When operating the DRAMs at
|
|
* frequencies substantially lower than their rated frequencies it
|
|
* might be necessary to limit the minimum CAS Latency the LMC
|
|
* controller software is allowed to select in order to make the DRAM
|
|
* work reliably.
|
|
*
|
|
* .min_cas_latency: Minimum allowed CAS Latency
|
|
*
|
|
* The value used for LMC0_RLEVEL_CTL[OFFSET_EN] determine how the
|
|
* read-leveling information that the Octeon II gathers is interpreted
|
|
* to determine the per-byte read delays.
|
|
*
|
|
* .offset_en: Value used for LMC0_RLEVEL_CTL[OFFSET_EN].
|
|
* .offset_udimm: Value used for LMC0_RLEVEL_CTL[OFFSET] for UDIMMS.
|
|
* .offset_rdimm: Value used for LMC0_RLEVEL_CTL[OFFSET] for RDIMMS.
|
|
*
|
|
* The LMC configuration software sweeps through a range of ODT
|
|
* settings while measuring the per-byte read delays. During those
|
|
* measurements the software makes an assessment of the quality of the
|
|
* measurements in order to determine which measurements provide the
|
|
* most accurate delays. The automatic settings provide the option to
|
|
* allow that same assessment to determine the most optimal RODT_CTL
|
|
* and/or RTT_NOM settings.
|
|
*
|
|
* The automatic approach might provide the best means to determine
|
|
* the settings used for initial poweron of a new design. However,
|
|
* the final settings should be determined by board analysis, testing,
|
|
* and experience.
|
|
*
|
|
* .ddr_rtt_nom_auto: 1 means automatically set RTT_NOM value.
|
|
* .ddr_rodt_ctl_auto: 1 means automatically set RODT_CTL value.
|
|
*
|
|
* .rlevel_compute: Enables software interpretation of per-byte read
|
|
* delays using the measurements collected by the
|
|
* Octeon II rather than completely relying on the
|
|
* Octeon II to determine the delays. 1=software
|
|
* computation is recomended since a more complete
|
|
* analysis is implemented in software.
|
|
*
|
|
* .rlevel_comp_offset: Set to 2 unless instructed differently by Cavium.
|
|
*
|
|
* .rlevel_average_loops: Determines the number of times the read-leveling
|
|
* sequence is run for each rank. The results is
|
|
* then averaged across the number of loops. The
|
|
* default setting is 1.
|
|
*
|
|
* .ddr2t_udimm:
|
|
* .ddr2t_rdimm: Turn on the DDR 2T mode. 2-cycle window for CMD and
|
|
* address. This mode helps relieve setup time pressure
|
|
* on the address and command bus. Please refer to
|
|
* Micron's tech note tn_47_01 titled DDR2-533 Memory
|
|
* Design Guide for Two Dimm Unbuffered Systems for
|
|
* physical details.
|
|
*
|
|
* .disable_sequential_delay_check: As result of the flyby topology
|
|
* prescribed in the JEDEC specifications the byte delays should
|
|
* maintain a consistent increasing or decreasing trend across
|
|
* the bytes on standard dimms. This setting can be used disable
|
|
* that check for unusual circumstances where the check is not
|
|
* useful.
|
|
*
|
|
* .maximum_adjacent_rlevel_delay_increment: An additional sequential
|
|
* delay check for the delays that result from the flyby
|
|
* topology. This value specifies the maximum difference between
|
|
* the delays of adjacent bytes. A value of 0 disables this
|
|
* check.
|
|
*
|
|
* .fprch2 Front Porch Enable: When set, the turn-off
|
|
* time for the default DDR_DQ/DQS drivers is FPRCH2 CKs earlier.
|
|
* 00 = 0 CKs
|
|
* 01 = 1 CKs
|
|
* 10 = 2 CKs
|
|
*
|
|
* .parity: The parity input signal PAR_IN on each dimm must be
|
|
* strapped high or low on the board. This bit is programmed
|
|
* into LMC0_DIMM_CTL[PARITY] and it must be set to match the
|
|
* board strapping. This signal is typically strapped low.
|
|
*
|
|
* .mode32b: Enable 32-bit datapath mode. Set to 1 if only 32 DQ pins
|
|
* are used. (cn61xx, cn71xx)
|
|
*
|
|
* .measured_vref: Set to 1 to measure VREF; set to 0 to compute VREF.
|
|
*
|
|
* .dram_connection: Set to 1 if discrete DRAMs; set to 0 if using DIMMs.
|
|
* This changes the algorithms used to compute VREF.
|
|
*
|
|
* .dll_write_offset: FIXME: Add description
|
|
* .dll_read_offset: FIXME: Add description
|
|
*/
|
|
|
|
struct rlevel_table {
|
|
const char part[20];
|
|
int speed;
|
|
u64 rl_rank[4][4];
|
|
};
|
|
|
|
struct ddr3_custom_config {
|
|
u8 min_rtt_nom_idx;
|
|
u8 max_rtt_nom_idx;
|
|
u8 min_rodt_ctl;
|
|
u8 max_rodt_ctl;
|
|
u8 dqx_ctl;
|
|
u8 ck_ctl;
|
|
u8 cmd_ctl;
|
|
u8 ctl_ctl;
|
|
u8 min_cas_latency;
|
|
u8 offset_en;
|
|
u8 offset_udimm;
|
|
u8 offset_rdimm;
|
|
u8 rlevel_compute;
|
|
u8 ddr_rtt_nom_auto;
|
|
u8 ddr_rodt_ctl_auto;
|
|
u8 rlevel_comp_offset_udimm;
|
|
u8 rlevel_comp_offset_rdimm;
|
|
int8_t ptune_offset;
|
|
int8_t ntune_offset;
|
|
u8 rlevel_average_loops;
|
|
u8 ddr2t_udimm;
|
|
u8 ddr2t_rdimm;
|
|
u8 disable_sequential_delay_check;
|
|
u8 maximum_adjacent_rlevel_delay_increment;
|
|
u8 parity;
|
|
u8 fprch2;
|
|
u8 mode32b;
|
|
u8 measured_vref;
|
|
u8 dram_connection;
|
|
const int8_t *dll_write_offset;
|
|
const int8_t *dll_read_offset;
|
|
struct rlevel_table *rl_tbl;
|
|
};
|
|
|
|
#define DDR_CFG_T_MAX_DIMMS 5
|
|
|
|
struct ddr_conf {
|
|
struct dimm_config dimm_config_table[DDR_CFG_T_MAX_DIMMS];
|
|
struct dimm_odt_config odt_1rank_config[4];
|
|
struct dimm_odt_config odt_2rank_config[4];
|
|
struct dimm_odt_config odt_4rank_config[4];
|
|
struct ddr_delay_config unbuffered;
|
|
struct ddr_delay_config registered;
|
|
struct ddr3_custom_config custom_lmc_config;
|
|
};
|
|
|
|
/* Divide and round results to the nearest integer. */
|
|
static inline u64 divide_nint(u64 dividend, u64 divisor)
|
|
{
|
|
u64 quotent, remainder;
|
|
|
|
quotent = dividend / divisor;
|
|
remainder = dividend % divisor;
|
|
return (quotent + ((remainder * 2) >= divisor));
|
|
}
|
|
|
|
/* Divide and round results up to the next higher integer. */
|
|
static inline u64 divide_roundup(u64 dividend, u64 divisor)
|
|
{
|
|
return ((dividend + divisor - 1) / divisor);
|
|
}
|
|
|
|
enum ddr_type {
|
|
DDR3_DRAM = 3,
|
|
DDR4_DRAM = 4,
|
|
};
|
|
|
|
#define rttnom_none 0 /* Rtt_Nom disabled */
|
|
#define rttnom_60ohm 1 /* RZQ/4 = 240/4 = 60 ohms */
|
|
#define rttnom_120ohm 2 /* RZQ/2 = 240/2 = 120 ohms */
|
|
#define rttnom_40ohm 3 /* RZQ/6 = 240/6 = 40 ohms */
|
|
#define rttnom_20ohm 4 /* RZQ/12 = 240/12 = 20 ohms */
|
|
#define rttnom_30ohm 5 /* RZQ/8 = 240/8 = 30 ohms */
|
|
#define rttnom_rsrv1 6 /* Reserved */
|
|
#define rttnom_rsrv2 7 /* Reserved */
|
|
|
|
#define rttwr_none 0 /* Dynamic ODT off */
|
|
#define rttwr_60ohm 1 /* RZQ/4 = 240/4 = 60 ohms */
|
|
#define rttwr_120ohm 2 /* RZQ/2 = 240/2 = 120 ohms */
|
|
#define rttwr_rsrv1 3 /* Reserved */
|
|
|
|
#define dic_40ohm 0 /* RZQ/6 = 240/6 = 40 ohms */
|
|
#define dic_34ohm 1 /* RZQ/7 = 240/7 = 34 ohms */
|
|
|
|
#define driver_24_ohm 1
|
|
#define driver_27_ohm 2
|
|
#define driver_30_ohm 3
|
|
#define driver_34_ohm 4
|
|
#define driver_40_ohm 5
|
|
#define driver_48_ohm 6
|
|
#define driver_60_ohm 7
|
|
|
|
#define rodt_ctl_none 0
|
|
#define rodt_ctl_20_ohm 1
|
|
#define rodt_ctl_30_ohm 2
|
|
#define rodt_ctl_40_ohm 3
|
|
#define rodt_ctl_60_ohm 4
|
|
#define rodt_ctl_120_ohm 5
|
|
|
|
#define ddr4_rttnom_none 0 /* Rtt_Nom disabled */
|
|
#define ddr4_rttnom_60ohm 1 /* RZQ/4 = 240/4 = 60 ohms */
|
|
#define ddr4_rttnom_120ohm 2 /* RZQ/2 = 240/2 = 120 ohms */
|
|
#define ddr4_rttnom_40ohm 3 /* RZQ/6 = 240/6 = 40 ohms */
|
|
#define ddr4_rttnom_240ohm 4 /* RZQ/1 = 240/1 = 240 ohms */
|
|
#define ddr4_rttnom_48ohm 5 /* RZQ/5 = 240/5 = 48 ohms */
|
|
#define ddr4_rttnom_80ohm 6 /* RZQ/3 = 240/3 = 80 ohms */
|
|
#define ddr4_rttnom_34ohm 7 /* RZQ/7 = 240/7 = 34 ohms */
|
|
|
|
#define ddr4_rttwr_none 0 /* Dynamic ODT off */
|
|
#define ddr4_rttwr_120ohm 1 /* RZQ/2 = 240/2 = 120 ohms */
|
|
#define ddr4_rttwr_240ohm 2 /* RZQ/1 = 240/1 = 240 ohms */
|
|
#define ddr4_rttwr_hiz 3 /* HiZ */
|
|
/* This setting is available for cn78xx pass 2, and cn73xx & cnf75xx pass 1 */
|
|
#define ddr4_rttwr_80ohm 4 /* RZQ/3 = 240/3 = 80 ohms */
|
|
|
|
#define ddr4_dic_34ohm 0 /* RZQ/7 = 240/7 = 34 ohms */
|
|
#define ddr4_dic_48ohm 1 /* RZQ/5 = 240/5 = 48 ohms */
|
|
|
|
#define ddr4_rttpark_none 0 /* Rtt_Park disabled */
|
|
#define ddr4_rttpark_60ohm 1 /* RZQ/4 = 240/4 = 60 ohms */
|
|
#define ddr4_rttpark_120ohm 2 /* RZQ/2 = 240/2 = 120 ohms */
|
|
#define ddr4_rttpark_40ohm 3 /* RZQ/6 = 240/6 = 40 ohms */
|
|
#define ddr4_rttpark_240ohm 4 /* RZQ/1 = 240/1 = 240 ohms */
|
|
#define ddr4_rttpark_48ohm 5 /* RZQ/5 = 240/5 = 48 ohms */
|
|
#define ddr4_rttpark_80ohm 6 /* RZQ/3 = 240/3 = 80 ohms */
|
|
#define ddr4_rttpark_34ohm 7 /* RZQ/7 = 240/7 = 34 ohms */
|
|
|
|
#define ddr4_driver_26_ohm 2
|
|
#define ddr4_driver_30_ohm 3
|
|
#define ddr4_driver_34_ohm 4
|
|
#define ddr4_driver_40_ohm 5
|
|
#define ddr4_driver_48_ohm 6
|
|
|
|
#define ddr4_dqx_driver_24_ohm 1
|
|
#define ddr4_dqx_driver_27_ohm 2
|
|
#define ddr4_dqx_driver_30_ohm 3
|
|
#define ddr4_dqx_driver_34_ohm 4
|
|
#define ddr4_dqx_driver_40_ohm 5
|
|
#define ddr4_dqx_driver_48_ohm 6
|
|
#define ddr4_dqx_driver_60_ohm 7
|
|
|
|
#define ddr4_rodt_ctl_none 0
|
|
#define ddr4_rodt_ctl_40_ohm 1
|
|
#define ddr4_rodt_ctl_60_ohm 2
|
|
#define ddr4_rodt_ctl_80_ohm 3
|
|
#define ddr4_rodt_ctl_120_ohm 4
|
|
#define ddr4_rodt_ctl_240_ohm 5
|
|
#define ddr4_rodt_ctl_34_ohm 6
|
|
#define ddr4_rodt_ctl_48_ohm 7
|
|
|
|
#define DIMM_CONFIG_TERMINATOR { {0, 0}, {NULL, NULL} }
|
|
|
|
#define SET_DDR_DLL_CTL3(field, expr) \
|
|
do { \
|
|
if (octeon_is_cpuid(OCTEON_CN66XX) || \
|
|
octeon_is_cpuid(OCTEON_CN63XX)) \
|
|
ddr_dll_ctl3.cn63xx.field = (expr); \
|
|
else if (octeon_is_cpuid(OCTEON_CN68XX) || \
|
|
octeon_is_cpuid(OCTEON_CN61XX) || \
|
|
octeon_is_cpuid(OCTEON_CNF71XX)) \
|
|
ddr_dll_ctl3.cn61xx.field = (expr); \
|
|
else if (octeon_is_cpuid(OCTEON_CN70XX) || \
|
|
octeon_is_cpuid(OCTEON_CN78XX)) \
|
|
ddr_dll_ctl3.cn70xx.field = (expr); \
|
|
else if (octeon_is_cpuid(OCTEON_CN73XX) || \
|
|
octeon_is_cpuid(OCTEON_CNF75XX)) \
|
|
ddr_dll_ctl3.cn73xx.field = (expr); \
|
|
else \
|
|
debug("%s(): " #field \
|
|
"not set for unknown chip\n", \
|
|
__func__); \
|
|
} while (0)
|
|
|
|
#define ENCODE_DLL90_BYTE_SEL(byte_sel) \
|
|
(octeon_is_cpuid(OCTEON_CN70XX) ? ((9 + 7 - (byte_sel)) % 9) : \
|
|
((byte_sel) + 1))
|
|
|
|
/**
|
|
* If debugging is disabled the ddr_print macro is not compatible
|
|
* with this macro.
|
|
*/
|
|
# define GET_DDR_DLL_CTL3(field) \
|
|
((octeon_is_cpuid(OCTEON_CN66XX) || \
|
|
octeon_is_cpuid(OCTEON_CN63XX)) ? \
|
|
ddr_dll_ctl3.cn63xx.field : \
|
|
(octeon_is_cpuid(OCTEON_CN68XX) || \
|
|
octeon_is_cpuid(OCTEON_CN61XX) || \
|
|
octeon_is_cpuid(OCTEON_CNF71XX)) ? \
|
|
ddr_dll_ctl3.cn61xx.field : \
|
|
(octeon_is_cpuid(OCTEON_CN70XX) || \
|
|
octeon_is_cpuid(OCTEON_CN78XX)) ? \
|
|
ddr_dll_ctl3.cn70xx.field : \
|
|
(octeon_is_cpuid(OCTEON_CN73XX) || \
|
|
octeon_is_cpuid(OCTEON_CNF75XX)) ? \
|
|
ddr_dll_ctl3.cn73xx.field : 0)
|
|
|
|
extern const char *ddr3_dimm_types[];
|
|
extern const char *ddr4_dimm_types[];
|
|
|
|
extern const struct dimm_odt_config disable_odt_config[];
|
|
|
|
#define RLEVEL_BYTE_BITS 6
|
|
#define RLEVEL_BYTE_MSK ((1ULL << 6) - 1)
|
|
|
|
/* Prototypes */
|
|
int get_ddr_type(struct dimm_config *dimm_config, int upper_dimm);
|
|
int get_dimm_module_type(struct dimm_config *dimm_config, int upper_dimm,
|
|
int ddr_type);
|
|
int read_spd(struct dimm_config *dimm_config, int dimm_index, int spd_field);
|
|
int read_spd_init(struct dimm_config *dimm_config, int dimm_index);
|
|
void report_dimm(struct dimm_config *dimm_config, int upper_dimm,
|
|
int dimm, int if_num);
|
|
int validate_dimm(struct ddr_priv *priv, struct dimm_config *dimm_config,
|
|
int dimm_index);
|
|
char *printable_rank_spec(char *buffer, int num_ranks, int dram_width,
|
|
int spd_package);
|
|
|
|
bool ddr_memory_preserved(struct ddr_priv *priv);
|
|
|
|
int get_wl_rank(union cvmx_lmcx_wlevel_rankx *lmc_wlevel_rank, int byte);
|
|
int get_rl_rank(union cvmx_lmcx_rlevel_rankx *lmc_rlevel_rank, int byte);
|
|
void upd_wl_rank(union cvmx_lmcx_wlevel_rankx *lmc_wlevel_rank, int byte,
|
|
int delay);
|
|
void upd_rl_rank(union cvmx_lmcx_rlevel_rankx *lmc_rlevel_rank, int byte,
|
|
int delay);
|
|
|
|
int compute_ddr3_rlevel_delay(u8 mstart, u8 width,
|
|
union cvmx_lmcx_rlevel_ctl rlevel_ctl);
|
|
|
|
int encode_row_lsb_ddr3(int row_lsb);
|
|
int encode_pbank_lsb_ddr3(int pbank_lsb);
|
|
|
|
int initialize_ddr_clock(struct ddr_priv *priv, struct ddr_conf *ddr_conf,
|
|
u32 cpu_hertz, u32 ddr_hertz, u32 ddr_ref_hertz,
|
|
int if_num, u32 if_mask);
|
|
|
|
void process_custom_dll_offsets(struct ddr_priv *priv, int if_num,
|
|
const char *enable_str,
|
|
const int8_t *offsets, const char *byte_str,
|
|
int mode);
|
|
int nonseq_del(struct rlevel_byte_data *rlevel_byte, int start, int end,
|
|
int max_adj_delay_inc);
|
|
int roundup_ddr3_wlevel_bitmask(int bitmask);
|
|
|
|
void oct3_ddr3_seq(struct ddr_priv *priv, int rank_mask, int if_num,
|
|
int sequence);
|
|
void ddr_init_seq(struct ddr_priv *priv, int rank_mask, int if_num);
|
|
|
|
void rlevel_to_wlevel(union cvmx_lmcx_rlevel_rankx *lmc_rlevel_rank,
|
|
union cvmx_lmcx_wlevel_rankx *lmc_wlevel_rank, int byte);
|
|
|
|
int validate_ddr3_rlevel_bitmask(struct rlevel_bitmask *rlevel_bitmask_p,
|
|
int ddr_type);
|
|
|
|
void change_dll_offset_enable(struct ddr_priv *priv, int if_num, int change);
|
|
unsigned short load_dll_offset(struct ddr_priv *priv, int if_num,
|
|
int dll_offset_mode,
|
|
int byte_offset, int byte);
|
|
|
|
u64 lmc_ddr3_rl_dbg_read(struct ddr_priv *priv, int if_num, int idx);
|
|
u64 lmc_ddr3_wl_dbg_read(struct ddr_priv *priv, int if_num, int idx);
|
|
|
|
void cvmx_maybe_tune_node(struct ddr_priv *priv, u32 ddr_speed);
|
|
void cvmx_dbi_switchover(struct ddr_priv *priv);
|
|
|
|
int init_octeon3_ddr3_interface(struct ddr_priv *priv,
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struct ddr_conf *ddr_conf,
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u32 ddr_hertz, u32 cpu_hertz, u32 ddr_ref_hertz,
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int if_num, u32 if_mask);
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char *lookup_env(struct ddr_priv *priv, const char *format, ...);
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char *lookup_env_ull(struct ddr_priv *priv, const char *format, ...);
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/* Each board provides a board-specific config table via this function */
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struct ddr_conf *octeon_ddr_conf_table_get(int *count, int *def_ddr_freq);
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#endif /* __OCTEON_DDR_H_ */
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