mirror of
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>
538 lines
17 KiB
C
538 lines
17 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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#include <common.h>
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#include <spl.h>
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#include <asm/io.h>
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#include <asm/arch/cpu.h>
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#include <asm/arch/soc.h>
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#include "ddr3_init.h"
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/* Design Guidelines parameters */
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u32 g_zpri_data = 123; /* controller data - P drive strength */
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u32 g_znri_data = 123; /* controller data - N drive strength */
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u32 g_zpri_ctrl = 74; /* controller C/A - P drive strength */
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u32 g_znri_ctrl = 74; /* controller C/A - N drive strength */
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u32 g_zpodt_data = 45; /* controller data - P ODT */
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u32 g_znodt_data = 45; /* controller data - N ODT */
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u32 g_zpodt_ctrl = 45; /* controller data - P ODT */
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u32 g_znodt_ctrl = 45; /* controller data - N ODT */
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u32 g_odt_config = 0x120012;
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u32 g_rtt_nom = 0x44;
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u32 g_dic = 0x2;
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#ifdef STATIC_ALGO_SUPPORT
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#define PARAM_NOT_CARE 0
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#define MAX_STATIC_SEQ 48
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u32 silicon_delay[HWS_MAX_DEVICE_NUM];
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struct hws_tip_static_config_info static_config[HWS_MAX_DEVICE_NUM];
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static reg_data *static_init_controller_config[HWS_MAX_DEVICE_NUM];
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/* debug delay in write leveling */
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int wl_debug_delay = 0;
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/* pup register #3 for functional board */
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int function_reg_value = 8;
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u32 silicon;
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u32 read_ready_delay_phase_offset[] = { 4, 4, 4, 4, 6, 6, 6, 6 };
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static struct cs_element chip_select_map[] = {
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/* CS Value (single only) Num_CS */
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{0, 0},
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{0, 1},
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{1, 1},
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{0, 2},
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{2, 1},
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{0, 2},
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{0, 2},
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{0, 3},
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{3, 1},
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{0, 2},
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{0, 2},
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{0, 3},
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{0, 2},
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{0, 3},
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{0, 3},
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{0, 4}
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};
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/*
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* Register static init controller DB
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*/
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int ddr3_tip_init_specific_reg_config(u32 dev_num, reg_data *reg_config_arr)
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{
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static_init_controller_config[dev_num] = reg_config_arr;
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return MV_OK;
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}
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/*
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* Register static info DB
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*/
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int ddr3_tip_init_static_config_db(
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u32 dev_num, struct hws_tip_static_config_info *static_config_info)
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{
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static_config[dev_num].board_trace_arr =
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static_config_info->board_trace_arr;
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static_config[dev_num].package_trace_arr =
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static_config_info->package_trace_arr;
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silicon_delay[dev_num] = static_config_info->silicon_delay;
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return MV_OK;
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}
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/*
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* Static round trip flow - Calculates the total round trip delay.
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*/
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int ddr3_tip_static_round_trip_arr_build(u32 dev_num,
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struct trip_delay_element *table_ptr,
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int is_wl, u32 *round_trip_delay_arr)
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{
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u32 bus_index, global_bus;
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u32 if_id;
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u32 bus_per_interface;
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int sign;
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u32 temp;
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u32 board_trace;
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struct trip_delay_element *pkg_delay_ptr;
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struct hws_topology_map *tm = ddr3_get_topology_map();
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/*
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* In WL we calc the diff between Clock to DQs in RL we sum the round
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* trip of Clock and DQs
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*/
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sign = (is_wl) ? -1 : 1;
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bus_per_interface = GET_TOPOLOGY_NUM_OF_BUSES();
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for (if_id = 0; if_id <= MAX_INTERFACE_NUM - 1; if_id++) {
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VALIDATE_ACTIVE(tm->if_act_mask, if_id);
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for (bus_index = 0; bus_index < bus_per_interface;
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bus_index++) {
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VALIDATE_ACTIVE(tm->bus_act_mask, bus_index);
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global_bus = (if_id * bus_per_interface) + bus_index;
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/* calculate total trip delay (package and board) */
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board_trace = (table_ptr[global_bus].dqs_delay * sign) +
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table_ptr[global_bus].ck_delay;
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temp = (board_trace * 163) / 1000;
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/* Convert the length to delay in psec units */
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pkg_delay_ptr =
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static_config[dev_num].package_trace_arr;
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round_trip_delay_arr[global_bus] = temp +
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(int)(pkg_delay_ptr[global_bus].dqs_delay *
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sign) +
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(int)pkg_delay_ptr[global_bus].ck_delay +
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(int)((is_wl == 1) ? wl_debug_delay :
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(int)silicon_delay[dev_num]);
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DEBUG_TRAINING_STATIC_IP(
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DEBUG_LEVEL_TRACE,
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("Round Trip Build round_trip_delay_arr[0x%x]: 0x%x temp 0x%x\n",
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global_bus, round_trip_delay_arr[global_bus],
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temp));
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}
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}
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return MV_OK;
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}
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/*
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* Write leveling for static flow - calculating the round trip delay of the
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* DQS signal.
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*/
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int ddr3_tip_write_leveling_static_config(u32 dev_num, u32 if_id,
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enum hws_ddr_freq frequency,
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u32 *round_trip_delay_arr)
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{
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u32 bus_index; /* index to the bus loop */
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u32 bus_start_index;
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u32 bus_per_interface;
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u32 phase = 0;
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u32 adll = 0, adll_cen, adll_inv, adll_final;
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u32 adll_period = MEGA / freq_val[frequency] / 64;
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DEBUG_TRAINING_STATIC_IP(DEBUG_LEVEL_TRACE,
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("ddr3_tip_write_leveling_static_config\n"));
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DEBUG_TRAINING_STATIC_IP(
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DEBUG_LEVEL_TRACE,
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("dev_num 0x%x IF 0x%x freq %d (adll_period 0x%x)\n",
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dev_num, if_id, frequency, adll_period));
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bus_per_interface = GET_TOPOLOGY_NUM_OF_BUSES();
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bus_start_index = if_id * bus_per_interface;
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for (bus_index = bus_start_index;
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bus_index < (bus_start_index + bus_per_interface); bus_index++) {
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VALIDATE_ACTIVE(tm->bus_act_mask, bus_index);
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phase = round_trip_delay_arr[bus_index] / (32 * adll_period);
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adll = (round_trip_delay_arr[bus_index] -
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(phase * 32 * adll_period)) / adll_period;
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adll = (adll > 31) ? 31 : adll;
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adll_cen = 16 + adll;
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adll_inv = adll_cen / 32;
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adll_final = adll_cen - (adll_inv * 32);
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adll_final = (adll_final > 31) ? 31 : adll_final;
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DEBUG_TRAINING_STATIC_IP(DEBUG_LEVEL_TRACE,
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("\t%d - phase 0x%x adll 0x%x\n",
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bus_index, phase, adll));
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/*
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* Writing to all 4 phy of Interface number,
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* bit 0 \96 4 \96 ADLL, bit 6-8 phase
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*/
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CHECK_STATUS(ddr3_tip_bus_read_modify_write
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(dev_num, ACCESS_TYPE_UNICAST, if_id,
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(bus_index % 4), DDR_PHY_DATA,
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PHY_WRITE_DELAY(cs),
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((phase << 6) + (adll & 0x1f)), 0x1df));
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CHECK_STATUS(ddr3_tip_bus_write
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(dev_num, ACCESS_TYPE_UNICAST, if_id,
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ACCESS_TYPE_UNICAST, (bus_index % 4),
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DDR_PHY_DATA, WRITE_CENTRALIZATION_PHY_REG,
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((adll_inv & 0x1) << 5) + adll_final));
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}
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return MV_OK;
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}
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/*
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* Read leveling for static flow
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*/
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int ddr3_tip_read_leveling_static_config(u32 dev_num,
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u32 if_id,
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enum hws_ddr_freq frequency,
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u32 *total_round_trip_delay_arr)
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{
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u32 cs, data0, data1, data3 = 0;
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u32 bus_index; /* index to the bus loop */
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u32 bus_start_index;
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u32 phase0, phase1, max_phase;
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u32 adll0, adll1;
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u32 cl_value;
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u32 min_delay;
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u32 sdr_period = MEGA / freq_val[frequency];
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u32 ddr_period = MEGA / freq_val[frequency] / 2;
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u32 adll_period = MEGA / freq_val[frequency] / 64;
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enum hws_speed_bin speed_bin_index;
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u32 rd_sample_dly[MAX_CS_NUM] = { 0 };
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u32 rd_ready_del[MAX_CS_NUM] = { 0 };
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u32 bus_per_interface = GET_TOPOLOGY_NUM_OF_BUSES();
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struct hws_topology_map *tm = ddr3_get_topology_map();
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DEBUG_TRAINING_STATIC_IP(DEBUG_LEVEL_TRACE,
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("ddr3_tip_read_leveling_static_config\n"));
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DEBUG_TRAINING_STATIC_IP(DEBUG_LEVEL_TRACE,
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("dev_num 0x%x ifc 0x%x freq %d\n", dev_num,
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if_id, frequency));
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DEBUG_TRAINING_STATIC_IP(
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DEBUG_LEVEL_TRACE,
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("Sdr_period 0x%x Ddr_period 0x%x adll_period 0x%x\n",
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sdr_period, ddr_period, adll_period));
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if (tm->interface_params[first_active_if].memory_freq ==
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frequency) {
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cl_value = tm->interface_params[first_active_if].cas_l;
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DEBUG_TRAINING_STATIC_IP(DEBUG_LEVEL_TRACE,
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("cl_value 0x%x\n", cl_value));
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} else {
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speed_bin_index = tm->interface_params[if_id].speed_bin_index;
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cl_value = cas_latency_table[speed_bin_index].cl_val[frequency];
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DEBUG_TRAINING_STATIC_IP(DEBUG_LEVEL_TRACE,
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("cl_value 0x%x speed_bin_index %d\n",
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cl_value, speed_bin_index));
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}
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bus_start_index = if_id * bus_per_interface;
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for (bus_index = bus_start_index;
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bus_index < (bus_start_index + bus_per_interface);
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bus_index += 2) {
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VALIDATE_ACTIVE(tm->bus_act_mask, bus_index);
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cs = chip_select_map[
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tm->interface_params[if_id].as_bus_params[
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(bus_index % 4)].cs_bitmask].cs_num;
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/* read sample delay calculation */
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min_delay = (total_round_trip_delay_arr[bus_index] <
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total_round_trip_delay_arr[bus_index + 1]) ?
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total_round_trip_delay_arr[bus_index] :
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total_round_trip_delay_arr[bus_index + 1];
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/* round down */
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rd_sample_dly[cs] = 2 * (min_delay / (sdr_period * 2));
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DEBUG_TRAINING_STATIC_IP(
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DEBUG_LEVEL_TRACE,
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("\t%d - min_delay 0x%x cs 0x%x rd_sample_dly[cs] 0x%x\n",
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bus_index, min_delay, cs, rd_sample_dly[cs]));
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/* phase calculation */
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phase0 = (total_round_trip_delay_arr[bus_index] -
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(sdr_period * rd_sample_dly[cs])) / (ddr_period);
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phase1 = (total_round_trip_delay_arr[bus_index + 1] -
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(sdr_period * rd_sample_dly[cs])) / (ddr_period);
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max_phase = (phase0 > phase1) ? phase0 : phase1;
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DEBUG_TRAINING_STATIC_IP(
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DEBUG_LEVEL_TRACE,
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("\tphase0 0x%x phase1 0x%x max_phase 0x%x\n",
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phase0, phase1, max_phase));
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/* ADLL calculation */
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adll0 = (u32)((total_round_trip_delay_arr[bus_index] -
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(sdr_period * rd_sample_dly[cs]) -
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(ddr_period * phase0)) / adll_period);
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adll0 = (adll0 > 31) ? 31 : adll0;
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adll1 = (u32)((total_round_trip_delay_arr[bus_index + 1] -
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(sdr_period * rd_sample_dly[cs]) -
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(ddr_period * phase1)) / adll_period);
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adll1 = (adll1 > 31) ? 31 : adll1;
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/* The Read delay close the Read FIFO */
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rd_ready_del[cs] = rd_sample_dly[cs] +
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read_ready_delay_phase_offset[max_phase];
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DEBUG_TRAINING_STATIC_IP(
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DEBUG_LEVEL_TRACE,
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("\tadll0 0x%x adll1 0x%x rd_ready_del[cs] 0x%x\n",
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adll0, adll1, rd_ready_del[cs]));
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/*
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* Write to the phy of Interface (bit 0 \96 4 \96 ADLL,
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* bit 6-8 phase)
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*/
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data0 = ((phase0 << 6) + (adll0 & 0x1f));
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data1 = ((phase1 << 6) + (adll1 & 0x1f));
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CHECK_STATUS(ddr3_tip_bus_read_modify_write
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(dev_num, ACCESS_TYPE_UNICAST, if_id,
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(bus_index % 4), DDR_PHY_DATA, PHY_READ_DELAY(cs),
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data0, 0x1df));
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CHECK_STATUS(ddr3_tip_bus_read_modify_write
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(dev_num, ACCESS_TYPE_UNICAST, if_id,
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((bus_index + 1) % 4), DDR_PHY_DATA,
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PHY_READ_DELAY(cs), data1, 0x1df));
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}
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for (bus_index = 0; bus_index < bus_per_interface; bus_index++) {
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VALIDATE_ACTIVE(tm->bus_act_mask, bus_index);
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CHECK_STATUS(ddr3_tip_bus_read_modify_write
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(dev_num, ACCESS_TYPE_UNICAST, if_id,
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bus_index, DDR_PHY_DATA, 0x3, data3, 0x1f));
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}
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CHECK_STATUS(ddr3_tip_if_write
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(dev_num, ACCESS_TYPE_UNICAST, if_id,
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READ_DATA_SAMPLE_DELAY,
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(rd_sample_dly[0] + cl_value) + (rd_sample_dly[1] << 8),
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MASK_ALL_BITS));
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/* Read_ready_del0 bit 0-4 , CS bits 8-12 */
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CHECK_STATUS(ddr3_tip_if_write
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(dev_num, ACCESS_TYPE_UNICAST, if_id,
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READ_DATA_READY_DELAY,
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rd_ready_del[0] + (rd_ready_del[1] << 8) + cl_value,
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MASK_ALL_BITS));
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return MV_OK;
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}
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/*
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* DDR3 Static flow
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*/
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int ddr3_tip_run_static_alg(u32 dev_num, enum hws_ddr_freq freq)
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{
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u32 if_id = 0;
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struct trip_delay_element *table_ptr;
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u32 wl_total_round_trip_delay_arr[MAX_TOTAL_BUS_NUM];
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u32 rl_total_round_trip_delay_arr[MAX_TOTAL_BUS_NUM];
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struct init_cntr_param init_cntr_prm;
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int ret;
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struct hws_topology_map *tm = ddr3_get_topology_map();
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DEBUG_TRAINING_STATIC_IP(DEBUG_LEVEL_TRACE,
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("ddr3_tip_run_static_alg"));
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init_cntr_prm.do_mrs_phy = 1;
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init_cntr_prm.is_ctrl64_bit = 0;
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init_cntr_prm.init_phy = 1;
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ret = hws_ddr3_tip_init_controller(dev_num, &init_cntr_prm);
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if (ret != MV_OK) {
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DEBUG_TRAINING_STATIC_IP(
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DEBUG_LEVEL_ERROR,
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("hws_ddr3_tip_init_controller failure\n"));
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}
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/* calculate the round trip delay for Write Leveling */
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table_ptr = static_config[dev_num].board_trace_arr;
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CHECK_STATUS(ddr3_tip_static_round_trip_arr_build
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(dev_num, table_ptr, 1,
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wl_total_round_trip_delay_arr));
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/* calculate the round trip delay for Read Leveling */
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CHECK_STATUS(ddr3_tip_static_round_trip_arr_build
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(dev_num, table_ptr, 0,
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rl_total_round_trip_delay_arr));
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for (if_id = 0; if_id <= MAX_INTERFACE_NUM - 1; if_id++) {
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/* check if the interface is enabled */
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VALIDATE_ACTIVE(tm->if_act_mask, if_id);
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/*
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* Static frequency is defined according to init-frequency
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* (not target)
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*/
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DEBUG_TRAINING_STATIC_IP(DEBUG_LEVEL_TRACE,
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("Static IF %d freq %d\n",
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if_id, freq));
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CHECK_STATUS(ddr3_tip_write_leveling_static_config
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(dev_num, if_id, freq,
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wl_total_round_trip_delay_arr));
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CHECK_STATUS(ddr3_tip_read_leveling_static_config
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(dev_num, if_id, freq,
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rl_total_round_trip_delay_arr));
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}
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return MV_OK;
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}
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/*
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* Init controller for static flow
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*/
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int ddr3_tip_static_init_controller(u32 dev_num)
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{
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u32 index_cnt = 0;
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DEBUG_TRAINING_STATIC_IP(DEBUG_LEVEL_TRACE,
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("ddr3_tip_static_init_controller\n"));
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while (static_init_controller_config[dev_num][index_cnt].reg_addr !=
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0) {
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CHECK_STATUS(ddr3_tip_if_write
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(dev_num, ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE,
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static_init_controller_config[dev_num][index_cnt].
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reg_addr,
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static_init_controller_config[dev_num][index_cnt].
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reg_data,
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static_init_controller_config[dev_num][index_cnt].
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reg_mask));
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DEBUG_TRAINING_STATIC_IP(DEBUG_LEVEL_TRACE,
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("Init_controller index_cnt %d\n",
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index_cnt));
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index_cnt++;
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}
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return MV_OK;
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}
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int ddr3_tip_static_phy_init_controller(u32 dev_num)
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{
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|
DEBUG_TRAINING_STATIC_IP(DEBUG_LEVEL_TRACE,
|
|
("Phy Init Controller 2\n"));
|
|
CHECK_STATUS(ddr3_tip_bus_write
|
|
(dev_num, ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE,
|
|
ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE, DDR_PHY_DATA, 0xa4,
|
|
0x3dfe));
|
|
|
|
DEBUG_TRAINING_STATIC_IP(DEBUG_LEVEL_TRACE,
|
|
("Phy Init Controller 3\n"));
|
|
CHECK_STATUS(ddr3_tip_bus_write
|
|
(dev_num, ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE,
|
|
ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE, DDR_PHY_DATA, 0xa6,
|
|
0xcb2));
|
|
|
|
DEBUG_TRAINING_STATIC_IP(DEBUG_LEVEL_TRACE,
|
|
("Phy Init Controller 4\n"));
|
|
CHECK_STATUS(ddr3_tip_bus_write
|
|
(dev_num, ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE,
|
|
ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE, DDR_PHY_DATA, 0xa9,
|
|
0));
|
|
|
|
DEBUG_TRAINING_STATIC_IP(DEBUG_LEVEL_TRACE,
|
|
("Static Receiver Calibration\n"));
|
|
CHECK_STATUS(ddr3_tip_bus_write
|
|
(dev_num, ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE,
|
|
ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE, DDR_PHY_DATA, 0xd0,
|
|
0x1f));
|
|
|
|
DEBUG_TRAINING_STATIC_IP(DEBUG_LEVEL_TRACE,
|
|
("Static V-REF Calibration\n"));
|
|
CHECK_STATUS(ddr3_tip_bus_write
|
|
(dev_num, ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE,
|
|
ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE, DDR_PHY_DATA, 0xa8,
|
|
0x434));
|
|
|
|
return MV_OK;
|
|
}
|
|
#endif
|
|
|
|
/*
|
|
* Configure phy (called by static init controller) for static flow
|
|
*/
|
|
int ddr3_tip_configure_phy(u32 dev_num)
|
|
{
|
|
u32 if_id, phy_id;
|
|
struct hws_topology_map *tm = ddr3_get_topology_map();
|
|
|
|
CHECK_STATUS(ddr3_tip_bus_write
|
|
(dev_num, ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE,
|
|
ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE, DDR_PHY_DATA,
|
|
PAD_ZRI_CALIB_PHY_REG,
|
|
((0x7f & g_zpri_data) << 7 | (0x7f & g_znri_data))));
|
|
CHECK_STATUS(ddr3_tip_bus_write
|
|
(dev_num, ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE,
|
|
ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE, DDR_PHY_CONTROL,
|
|
PAD_ZRI_CALIB_PHY_REG,
|
|
((0x7f & g_zpri_ctrl) << 7 | (0x7f & g_znri_ctrl))));
|
|
CHECK_STATUS(ddr3_tip_bus_write
|
|
(dev_num, ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE,
|
|
ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE, DDR_PHY_DATA,
|
|
PAD_ODT_CALIB_PHY_REG,
|
|
((0x3f & g_zpodt_data) << 6 | (0x3f & g_znodt_data))));
|
|
CHECK_STATUS(ddr3_tip_bus_write
|
|
(dev_num, ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE,
|
|
ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE, DDR_PHY_CONTROL,
|
|
PAD_ODT_CALIB_PHY_REG,
|
|
((0x3f & g_zpodt_ctrl) << 6 | (0x3f & g_znodt_ctrl))));
|
|
|
|
CHECK_STATUS(ddr3_tip_bus_write
|
|
(dev_num, ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE,
|
|
ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE, DDR_PHY_DATA,
|
|
PAD_PRE_DISABLE_PHY_REG, 0));
|
|
CHECK_STATUS(ddr3_tip_bus_write
|
|
(dev_num, ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE,
|
|
ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE, DDR_PHY_DATA,
|
|
CMOS_CONFIG_PHY_REG, 0));
|
|
CHECK_STATUS(ddr3_tip_bus_write
|
|
(dev_num, ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE,
|
|
ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE, DDR_PHY_CONTROL,
|
|
CMOS_CONFIG_PHY_REG, 0));
|
|
|
|
for (if_id = 0; if_id <= MAX_INTERFACE_NUM - 1; if_id++) {
|
|
/* check if the interface is enabled */
|
|
VALIDATE_ACTIVE(tm->if_act_mask, if_id);
|
|
|
|
for (phy_id = 0;
|
|
phy_id < tm->num_of_bus_per_interface;
|
|
phy_id++) {
|
|
VALIDATE_ACTIVE(tm->bus_act_mask, phy_id);
|
|
/* Vref & clamp */
|
|
CHECK_STATUS(ddr3_tip_bus_read_modify_write
|
|
(dev_num, ACCESS_TYPE_UNICAST,
|
|
if_id, phy_id, DDR_PHY_DATA,
|
|
PAD_CONFIG_PHY_REG,
|
|
((clamp_tbl[if_id] << 4) | vref),
|
|
((0x7 << 4) | 0x7)));
|
|
/* clamp not relevant for control */
|
|
CHECK_STATUS(ddr3_tip_bus_read_modify_write
|
|
(dev_num, ACCESS_TYPE_UNICAST,
|
|
if_id, phy_id, DDR_PHY_CONTROL,
|
|
PAD_CONFIG_PHY_REG, 0x4, 0x7));
|
|
}
|
|
}
|
|
|
|
CHECK_STATUS(ddr3_tip_bus_write
|
|
(dev_num, ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE,
|
|
ACCESS_TYPE_MULTICAST, PARAM_NOT_CARE, DDR_PHY_DATA, 0x90,
|
|
0x6002));
|
|
|
|
return MV_OK;
|
|
}
|