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https://github.com/AsahiLinux/u-boot
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f1df936445
This patch adds the DDR3 setup and training code taken from the Marvell U-Boot repository. This code used to be included as a binary (bin_hdr) into the Armada A38x boot image. Not linked with the main U-Boot. With this code addition and the serdes/PHY setup code, the Armada A38x support in mainline U-Boot is finally self-contained. So the complete image for booting can be built from mainline U-Boot. Without any additional external inclusion. Note: This code has undergone many hours (days!) of coding-style cleanup and refactoring. It still is not checkpatch clean though, I'm afraid. As the factoring of the code has so many levels of indentation that many lines are longer than 80 chars. Signed-off-by: Stefan Roese <sr@denx.de>
180 lines
4.5 KiB
C
180 lines
4.5 KiB
C
/*
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* Copyright (C) Marvell International Ltd. and its affiliates
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*
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* SPDX-License-Identifier: GPL-2.0
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*/
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#ifndef _DDR3_TRAINING_IP_H_
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#define _DDR3_TRAINING_IP_H_
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#include "ddr3_training_ip_def.h"
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#include "ddr_topology_def.h"
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#include "ddr_training_ip_db.h"
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#define DDR3_TIP_VERSION_STRING "DDR3 Training Sequence - Ver TIP-1.29."
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#define MAX_CS_NUM 4
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#define MAX_TOTAL_BUS_NUM (MAX_INTERFACE_NUM * MAX_BUS_NUM)
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#define MAX_DQ_NUM 40
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#define GET_MIN(arg1, arg2) ((arg1) < (arg2)) ? (arg1) : (arg2)
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#define GET_MAX(arg1, arg2) ((arg1) < (arg2)) ? (arg2) : (arg1)
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#define INIT_CONTROLLER_MASK_BIT 0x00000001
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#define STATIC_LEVELING_MASK_BIT 0x00000002
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#define SET_LOW_FREQ_MASK_BIT 0x00000004
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#define LOAD_PATTERN_MASK_BIT 0x00000008
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#define SET_MEDIUM_FREQ_MASK_BIT 0x00000010
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#define WRITE_LEVELING_MASK_BIT 0x00000020
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#define LOAD_PATTERN_2_MASK_BIT 0x00000040
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#define READ_LEVELING_MASK_BIT 0x00000080
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#define SW_READ_LEVELING_MASK_BIT 0x00000100
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#define WRITE_LEVELING_SUPP_MASK_BIT 0x00000200
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#define PBS_RX_MASK_BIT 0x00000400
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#define PBS_TX_MASK_BIT 0x00000800
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#define SET_TARGET_FREQ_MASK_BIT 0x00001000
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#define ADJUST_DQS_MASK_BIT 0x00002000
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#define WRITE_LEVELING_TF_MASK_BIT 0x00004000
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#define LOAD_PATTERN_HIGH_MASK_BIT 0x00008000
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#define READ_LEVELING_TF_MASK_BIT 0x00010000
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#define WRITE_LEVELING_SUPP_TF_MASK_BIT 0x00020000
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#define DM_PBS_TX_MASK_BIT 0x00040000
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#define CENTRALIZATION_RX_MASK_BIT 0x00100000
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#define CENTRALIZATION_TX_MASK_BIT 0x00200000
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#define TX_EMPHASIS_MASK_BIT 0x00400000
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#define PER_BIT_READ_LEVELING_TF_MASK_BIT 0x00800000
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#define VREF_CALIBRATION_MASK_BIT 0x01000000
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enum hws_result {
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TEST_FAILED = 0,
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TEST_SUCCESS = 1,
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NO_TEST_DONE = 2
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};
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enum hws_training_result {
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RESULT_PER_BIT,
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RESULT_PER_BYTE
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};
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enum auto_tune_stage {
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INIT_CONTROLLER,
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STATIC_LEVELING,
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SET_LOW_FREQ,
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LOAD_PATTERN,
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SET_MEDIUM_FREQ,
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WRITE_LEVELING,
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LOAD_PATTERN_2,
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READ_LEVELING,
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WRITE_LEVELING_SUPP,
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PBS_RX,
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PBS_TX,
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SET_TARGET_FREQ,
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ADJUST_DQS,
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WRITE_LEVELING_TF,
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READ_LEVELING_TF,
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WRITE_LEVELING_SUPP_TF,
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DM_PBS_TX,
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VREF_CALIBRATION,
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CENTRALIZATION_RX,
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CENTRALIZATION_TX,
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TX_EMPHASIS,
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LOAD_PATTERN_HIGH,
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PER_BIT_READ_LEVELING_TF,
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MAX_STAGE_LIMIT
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};
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enum hws_access_type {
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ACCESS_TYPE_UNICAST = 0,
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ACCESS_TYPE_MULTICAST = 1
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};
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enum hws_algo_type {
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ALGO_TYPE_DYNAMIC,
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ALGO_TYPE_STATIC
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};
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struct init_cntr_param {
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int is_ctrl64_bit;
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int do_mrs_phy;
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int init_phy;
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int msys_init;
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};
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struct pattern_info {
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u8 num_of_phases_tx;
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u8 tx_burst_size;
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u8 delay_between_bursts;
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u8 num_of_phases_rx;
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u32 start_addr;
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u8 pattern_len;
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};
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/* CL value for each frequency */
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struct cl_val_per_freq {
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u8 cl_val[DDR_FREQ_LIMIT];
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};
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struct cs_element {
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u8 cs_num;
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u8 num_of_cs;
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};
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struct mode_info {
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/* 32 bits representing MRS bits */
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u32 reg_mr0[MAX_INTERFACE_NUM];
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u32 reg_mr1[MAX_INTERFACE_NUM];
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u32 reg_mr2[MAX_INTERFACE_NUM];
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u32 reg_m_r3[MAX_INTERFACE_NUM];
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/*
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* Each element in array represent read_data_sample register delay for
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* a specific interface.
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* Each register, 4 bits[0+CS*8 to 4+CS*8] represent Number of DDR
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* cycles from read command until data is ready to be fetched from
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* the PHY, when accessing CS.
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*/
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u32 read_data_sample[MAX_INTERFACE_NUM];
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/*
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* Each element in array represent read_data_sample register delay for
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* a specific interface.
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* Each register, 4 bits[0+CS*8 to 4+CS*8] represent the total delay
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* from read command until opening the read mask, when accessing CS.
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* This field defines the delay in DDR cycles granularity.
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*/
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u32 read_data_ready[MAX_INTERFACE_NUM];
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};
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struct hws_tip_freq_config_info {
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u8 is_supported;
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u8 bw_per_freq;
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u8 rate_per_freq;
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};
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struct hws_cs_config_info {
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u32 cs_reg_value;
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u32 cs_cbe_value;
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};
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struct dfx_access {
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u8 pipe;
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u8 client;
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};
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struct hws_xsb_info {
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struct dfx_access *dfx_table;
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};
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int ddr3_tip_register_dq_table(u32 dev_num, u32 *table);
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int hws_ddr3_tip_select_ddr_controller(u32 dev_num, int enable);
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int hws_ddr3_tip_init_controller(u32 dev_num,
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struct init_cntr_param *init_cntr_prm);
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int hws_ddr3_tip_load_topology_map(u32 dev_num,
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struct hws_topology_map *topology);
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int hws_ddr3_tip_run_alg(u32 dev_num, enum hws_algo_type algo_type);
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int hws_ddr3_tip_mode_read(u32 dev_num, struct mode_info *mode_info);
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int hws_ddr3_tip_read_training_result(u32 dev_num,
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enum hws_result result[MAX_STAGE_LIMIT][MAX_INTERFACE_NUM]);
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int ddr3_tip_is_pup_lock(u32 *pup_buf, enum hws_training_result read_mode);
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u8 ddr3_tip_get_buf_min(u8 *buf_ptr);
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u8 ddr3_tip_get_buf_max(u8 *buf_ptr);
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#endif /* _DDR3_TRAINING_IP_H_ */
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