mirror of
https://github.com/AsahiLinux/u-boot
synced 2024-12-04 10:30:32 +00:00
83d290c56f
When U-Boot started using SPDX tags we were among the early adopters and there weren't a lot of other examples to borrow from. So we picked the area of the file that usually had a full license text and replaced it with an appropriate SPDX-License-Identifier: entry. Since then, the Linux Kernel has adopted SPDX tags and they place it as the very first line in a file (except where shebangs are used, then it's second line) and with slightly different comment styles than us. In part due to community overlap, in part due to better tag visibility and in part for other minor reasons, switch over to that style. This commit changes all instances where we have a single declared license in the tag as both the before and after are identical in tag contents. There's also a few places where I found we did not have a tag and have introduced one. Signed-off-by: Tom Rini <trini@konsulko.com>
668 lines
17 KiB
C
668 lines
17 KiB
C
// SPDX-License-Identifier: GPL-2.0
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/*
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* Copyright (C) Marvell International Ltd. and its affiliates
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*/
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#include <common.h>
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#include <i2c.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_hw_training.h"
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#include "xor.h"
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#include "xor_regs.h"
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static void ddr3_flush_l1_line(u32 line);
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extern u32 pbs_pattern[2][LEN_16BIT_PBS_PATTERN];
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extern u32 pbs_pattern_32b[2][LEN_PBS_PATTERN];
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#if defined(MV88F78X60)
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extern u32 pbs_pattern_64b[2][LEN_PBS_PATTERN];
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#endif
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extern u32 pbs_dq_mapping[PUP_NUM_64BIT][DQ_NUM];
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#if defined(MV88F78X60) || defined(MV88F672X)
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/* PBS locked dq (per pup) */
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u32 pbs_locked_dq[MAX_PUP_NUM][DQ_NUM] = { { 0 } };
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u32 pbs_locked_dm[MAX_PUP_NUM] = { 0 };
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u32 pbs_locked_value[MAX_PUP_NUM][DQ_NUM] = { { 0 } };
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int per_bit_data[MAX_PUP_NUM][DQ_NUM];
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#endif
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static u32 sdram_data[LEN_KILLER_PATTERN] __aligned(32) = { 0 };
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static struct crc_dma_desc dma_desc __aligned(32) = { 0 };
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#define XOR_TIMEOUT 0x8000000
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struct xor_channel_t {
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struct crc_dma_desc *desc;
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unsigned long desc_phys_addr;
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};
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#define XOR_CAUSE_DONE_MASK(chan) ((0x1 | 0x2) << (chan * 16))
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void xor_waiton_eng(int chan)
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{
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int timeout;
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timeout = 0;
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while (!(reg_read(XOR_CAUSE_REG(XOR_UNIT(chan))) &
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XOR_CAUSE_DONE_MASK(XOR_CHAN(chan)))) {
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if (timeout > XOR_TIMEOUT)
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goto timeout;
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timeout++;
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}
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timeout = 0;
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while (mv_xor_state_get(chan) != MV_IDLE) {
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if (timeout > XOR_TIMEOUT)
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goto timeout;
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timeout++;
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}
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/* Clear int */
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reg_write(XOR_CAUSE_REG(XOR_UNIT(chan)),
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~(XOR_CAUSE_DONE_MASK(XOR_CHAN(chan))));
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timeout:
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return;
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}
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static int special_compare_pattern(u32 uj)
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{
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if ((uj == 30) || (uj == 31) || (uj == 61) || (uj == 62) ||
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(uj == 93) || (uj == 94) || (uj == 126) || (uj == 127))
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return 1;
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return 0;
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}
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/*
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* Compare code extracted as its used by multiple functions. This
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* reduces code-size and makes it easier to maintain it. Additionally
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* the code is not indented that much and therefore easier to read.
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*/
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static void compare_pattern_v1(u32 uj, u32 *pup, u32 *pattern,
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u32 pup_groups, int debug_dqs)
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{
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u32 val;
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u32 uk;
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u32 var1;
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u32 var2;
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__maybe_unused u32 dq;
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if (((sdram_data[uj]) != (pattern[uj])) && (*pup != 0xFF)) {
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for (uk = 0; uk < PUP_NUM_32BIT; uk++) {
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val = CMP_BYTE_SHIFT * uk;
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var1 = ((sdram_data[uj] >> val) & CMP_BYTE_MASK);
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var2 = ((pattern[uj] >> val) & CMP_BYTE_MASK);
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if (var1 != var2) {
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*pup |= (1 << (uk + (PUP_NUM_32BIT *
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(uj % pup_groups))));
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#ifdef MV_DEBUG_DQS
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if (!debug_dqs)
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continue;
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for (dq = 0; dq < DQ_NUM; dq++) {
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val = uk + (PUP_NUM_32BIT *
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(uj % pup_groups));
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if (((var1 >> dq) & 0x1) !=
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((var2 >> dq) & 0x1))
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per_bit_data[val][dq] = 1;
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else
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per_bit_data[val][dq] = 0;
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}
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#endif
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}
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}
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}
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}
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static void compare_pattern_v2(u32 uj, u32 *pup, u32 *pattern)
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{
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u32 val;
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u32 uk;
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u32 var1;
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u32 var2;
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if (((sdram_data[uj]) != (pattern[uj])) && (*pup != 0x3)) {
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/* Found error */
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for (uk = 0; uk < PUP_NUM_32BIT; uk++) {
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val = CMP_BYTE_SHIFT * uk;
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var1 = (sdram_data[uj] >> val) & CMP_BYTE_MASK;
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var2 = (pattern[uj] >> val) & CMP_BYTE_MASK;
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if (var1 != var2)
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*pup |= (1 << (uk % PUP_NUM_16BIT));
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}
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}
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}
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/*
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* Name: ddr3_sdram_compare
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* Desc: Execute compare per PUP
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* Args: unlock_pup Bit array of the unlock pups
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* new_locked_pup Output bit array of the pups with failed compare
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* pattern Pattern to compare
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* pattern_len Length of pattern (in bytes)
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* sdram_offset offset address to the SDRAM
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* write write to the SDRAM before read
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* mask compare pattern with mask;
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* mask_pattern Mask to compare pattern
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*
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* Notes:
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* Returns: MV_OK if success, other error code if fail.
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*/
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int ddr3_sdram_compare(MV_DRAM_INFO *dram_info, u32 unlock_pup,
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u32 *new_locked_pup, u32 *pattern,
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u32 pattern_len, u32 sdram_offset, int write,
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int mask, u32 *mask_pattern,
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int special_compare)
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{
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u32 uj;
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__maybe_unused u32 pup_groups;
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__maybe_unused u32 dq;
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#if !defined(MV88F67XX)
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if (dram_info->num_of_std_pups == PUP_NUM_64BIT)
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pup_groups = 2;
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else
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pup_groups = 1;
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#endif
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ddr3_reset_phy_read_fifo();
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/* Check if need to write to sdram before read */
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if (write == 1)
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ddr3_dram_sram_burst((u32)pattern, sdram_offset, pattern_len);
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ddr3_dram_sram_burst(sdram_offset, (u32)sdram_data, pattern_len);
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/* Compare read result to write */
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for (uj = 0; uj < pattern_len; uj++) {
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if (special_compare && special_compare_pattern(uj))
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continue;
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#if defined(MV88F78X60) || defined(MV88F672X)
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compare_pattern_v1(uj, new_locked_pup, pattern, pup_groups, 1);
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#elif defined(MV88F67XX)
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compare_pattern_v2(uj, new_locked_pup, pattern);
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#endif
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}
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return MV_OK;
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}
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#if defined(MV88F78X60) || defined(MV88F672X)
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/*
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* Name: ddr3_sdram_dm_compare
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* Desc: Execute compare per PUP
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* Args: unlock_pup Bit array of the unlock pups
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* new_locked_pup Output bit array of the pups with failed compare
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* pattern Pattern to compare
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* pattern_len Length of pattern (in bytes)
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* sdram_offset offset address to the SDRAM
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* write write to the SDRAM before read
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* mask compare pattern with mask;
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* mask_pattern Mask to compare pattern
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*
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* Notes:
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* Returns: MV_OK if success, other error code if fail.
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*/
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int ddr3_sdram_dm_compare(MV_DRAM_INFO *dram_info, u32 unlock_pup,
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u32 *new_locked_pup, u32 *pattern,
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u32 sdram_offset)
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{
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u32 uj, uk, var1, var2, pup_groups;
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u32 val;
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u32 pup = 0;
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if (dram_info->num_of_std_pups == PUP_NUM_64BIT)
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pup_groups = 2;
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else
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pup_groups = 1;
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ddr3_dram_sram_burst((u32)pattern, SDRAM_PBS_TX_OFFS,
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LEN_PBS_PATTERN);
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ddr3_dram_sram_burst(SDRAM_PBS_TX_OFFS, (u32)sdram_data,
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LEN_PBS_PATTERN);
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/* Validate the correctness of the results */
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for (uj = 0; uj < LEN_PBS_PATTERN; uj++)
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compare_pattern_v1(uj, &pup, pattern, pup_groups, 0);
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/* Test the DM Signals */
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*(u32 *)(SDRAM_PBS_TX_OFFS + 0x10) = 0x12345678;
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*(u32 *)(SDRAM_PBS_TX_OFFS + 0x14) = 0x12345678;
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sdram_data[0] = *(u32 *)(SDRAM_PBS_TX_OFFS + 0x10);
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sdram_data[1] = *(u32 *)(SDRAM_PBS_TX_OFFS + 0x14);
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for (uj = 0; uj < 2; uj++) {
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if (((sdram_data[uj]) != (pattern[uj])) &&
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(*new_locked_pup != 0xFF)) {
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for (uk = 0; uk < PUP_NUM_32BIT; uk++) {
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val = CMP_BYTE_SHIFT * uk;
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var1 = ((sdram_data[uj] >> val) & CMP_BYTE_MASK);
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var2 = ((pattern[uj] >> val) & CMP_BYTE_MASK);
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if (var1 != var2) {
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*new_locked_pup |= (1 << (uk +
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(PUP_NUM_32BIT * (uj % pup_groups))));
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*new_locked_pup |= pup;
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}
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}
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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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* Name: ddr3_sdram_pbs_compare
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* Desc: Execute SRAM compare per PUP and DQ.
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* Args: pup_locked bit array of locked pups
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* is_tx Indicate whether Rx or Tx
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* pbs_pattern_idx Index of PBS pattern
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* pbs_curr_val The PBS value
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* pbs_lock_val The value to set to locked PBS
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* skew_array Global array to update with the compare results
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* ai_unlock_pup_dq_array bit array of the locked / unlocked pups per dq.
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* Notes:
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* Returns: MV_OK if success, other error code if fail.
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*/
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int ddr3_sdram_pbs_compare(MV_DRAM_INFO *dram_info, u32 pup_locked,
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int is_tx, u32 pbs_pattern_idx,
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u32 pbs_curr_val, u32 pbs_lock_val,
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u32 *skew_array, u8 *unlock_pup_dq_array,
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u32 ecc)
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{
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/* bit array failed dq per pup for current compare */
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u32 pbs_write_pup[DQ_NUM] = { 0 };
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u32 update_pup; /* pup as HW convention */
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u32 max_pup; /* maximal pup index */
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u32 pup_addr;
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u32 ui, dq, pup;
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int var1, var2;
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u32 sdram_offset, pup_groups, tmp_pup;
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u32 *pattern_ptr;
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u32 val;
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/* Choose pattern */
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switch (dram_info->ddr_width) {
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#if defined(MV88F672X)
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case 16:
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pattern_ptr = (u32 *)&pbs_pattern[pbs_pattern_idx];
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break;
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#endif
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case 32:
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pattern_ptr = (u32 *)&pbs_pattern_32b[pbs_pattern_idx];
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break;
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#if defined(MV88F78X60)
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case 64:
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pattern_ptr = (u32 *)&pbs_pattern_64b[pbs_pattern_idx];
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break;
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#endif
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default:
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return MV_FAIL;
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}
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max_pup = dram_info->num_of_std_pups;
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sdram_offset = SDRAM_PBS_I_OFFS + pbs_pattern_idx * SDRAM_PBS_NEXT_OFFS;
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if (dram_info->num_of_std_pups == PUP_NUM_64BIT)
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pup_groups = 2;
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else
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pup_groups = 1;
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ddr3_reset_phy_read_fifo();
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/* Check if need to write to sdram before read */
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if (is_tx == 1) {
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ddr3_dram_sram_burst((u32)pattern_ptr, sdram_offset,
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LEN_PBS_PATTERN);
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}
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ddr3_dram_sram_read(sdram_offset, (u32)sdram_data, LEN_PBS_PATTERN);
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/* Compare read result to write */
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for (ui = 0; ui < LEN_PBS_PATTERN; ui++) {
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if ((sdram_data[ui]) != (pattern_ptr[ui])) {
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/* found error */
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/* error in low pup group */
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for (pup = 0; pup < PUP_NUM_32BIT; pup++) {
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val = CMP_BYTE_SHIFT * pup;
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var1 = ((sdram_data[ui] >> val) &
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CMP_BYTE_MASK);
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var2 = ((pattern_ptr[ui] >> val) &
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CMP_BYTE_MASK);
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if (var1 != var2) {
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if (dram_info->ddr_width > 16) {
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tmp_pup = (pup + PUP_NUM_32BIT *
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(ui % pup_groups));
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} else {
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tmp_pup = (pup % PUP_NUM_16BIT);
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}
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update_pup = (1 << tmp_pup);
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if (ecc && (update_pup != 0x1))
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continue;
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/*
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* Pup is failed - Go over all DQs and
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* look for failures
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*/
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for (dq = 0; dq < DQ_NUM; dq++) {
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val = tmp_pup * (1 - ecc) +
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ecc * ECC_PUP;
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if (((var1 >> dq) & 0x1) !=
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((var2 >> dq) & 0x1)) {
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if (pbs_locked_dq[val][dq] == 1 &&
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pbs_locked_value[val][dq] != pbs_curr_val)
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continue;
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/*
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* Activate write to
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* update PBS to
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* pbs_lock_val
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*/
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pbs_write_pup[dq] |=
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update_pup;
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/*
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* Update the
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* unlock_pup_dq_array
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*/
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unlock_pup_dq_array[dq] &=
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~update_pup;
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/*
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* Lock PBS value for
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* failed bits in
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* compare operation
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*/
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skew_array[tmp_pup * DQ_NUM + dq] =
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pbs_curr_val;
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}
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}
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}
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}
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}
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}
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pup_addr = (is_tx == 1) ? PUP_PBS_TX : PUP_PBS_RX;
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/* Set last failed bits PBS to min / max pbs value */
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for (dq = 0; dq < DQ_NUM; dq++) {
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for (pup = 0; pup < max_pup; pup++) {
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if (pbs_write_pup[dq] & (1 << pup)) {
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val = pup * (1 - ecc) + ecc * ECC_PUP;
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if (pbs_locked_dq[val][dq] == 1 &&
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pbs_locked_value[val][dq] != pbs_curr_val)
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continue;
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/* Mark the dq as locked */
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pbs_locked_dq[val][dq] = 1;
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pbs_locked_value[val][dq] = pbs_curr_val;
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ddr3_write_pup_reg(pup_addr +
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pbs_dq_mapping[val][dq],
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CS0, val, 0, pbs_lock_val);
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}
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}
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}
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return MV_OK;
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}
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#endif
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/*
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* Name: ddr3_sdram_direct_compare
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* Desc: Execute compare per PUP without DMA (no burst mode)
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* Args: unlock_pup Bit array of the unlock pups
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* new_locked_pup Output bit array of the pups with failed compare
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* pattern Pattern to compare
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* pattern_len Length of pattern (in bytes)
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* sdram_offset offset address to the SDRAM
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* write write to the SDRAM before read
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* mask compare pattern with mask;
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* auiMaskPatter Mask to compare pattern
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*
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* Notes:
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* Returns: MV_OK if success, other error code if fail.
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*/
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int ddr3_sdram_direct_compare(MV_DRAM_INFO *dram_info, u32 unlock_pup,
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u32 *new_locked_pup, u32 *pattern,
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u32 pattern_len, u32 sdram_offset,
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int write, int mask, u32 *mask_pattern)
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{
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u32 uj, uk, pup_groups;
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u32 *sdram_addr; /* used to read from SDRAM */
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sdram_addr = (u32 *)sdram_offset;
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if (dram_info->num_of_std_pups == PUP_NUM_64BIT)
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pup_groups = 2;
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else
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pup_groups = 1;
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/* Check if need to write before read */
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if (write == 1) {
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for (uk = 0; uk < pattern_len; uk++) {
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*sdram_addr = pattern[uk];
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sdram_addr++;
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}
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}
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sdram_addr = (u32 *)sdram_offset;
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for (uk = 0; uk < pattern_len; uk++) {
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sdram_data[uk] = *sdram_addr;
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sdram_addr++;
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}
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/* Compare read result to write */
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for (uj = 0; uj < pattern_len; uj++) {
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if (dram_info->ddr_width > 16) {
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compare_pattern_v1(uj, new_locked_pup, pattern,
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pup_groups, 0);
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} else {
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compare_pattern_v2(uj, new_locked_pup, pattern);
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}
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}
|
|
|
|
return MV_OK;
|
|
}
|
|
|
|
/*
|
|
* Name: ddr3_dram_sram_burst
|
|
* Desc: Read from the SDRAM in burst of 64 bytes
|
|
* Args: src
|
|
* dst
|
|
* Notes: Using the XOR mechanism
|
|
* Returns: MV_OK if success, other error code if fail.
|
|
*/
|
|
int ddr3_dram_sram_burst(u32 src, u32 dst, u32 len)
|
|
{
|
|
u32 chan, byte_count, cs_num, byte;
|
|
struct xor_channel_t channel;
|
|
|
|
chan = 0;
|
|
byte_count = len * 4;
|
|
|
|
/* Wait for previous transfer completion */
|
|
while (mv_xor_state_get(chan) != MV_IDLE)
|
|
;
|
|
|
|
/* Build the channel descriptor */
|
|
channel.desc = &dma_desc;
|
|
|
|
/* Enable Address Override and set correct src and dst */
|
|
if (src < SRAM_BASE) {
|
|
/* src is DRAM CS, dst is SRAM */
|
|
cs_num = (src / (1 + SDRAM_CS_SIZE));
|
|
reg_write(XOR_ADDR_OVRD_REG(0, 0),
|
|
((cs_num << 1) | (1 << 0)));
|
|
channel.desc->src_addr0 = (src % (1 + SDRAM_CS_SIZE));
|
|
channel.desc->dst_addr = dst;
|
|
} else {
|
|
/* src is SRAM, dst is DRAM CS */
|
|
cs_num = (dst / (1 + SDRAM_CS_SIZE));
|
|
reg_write(XOR_ADDR_OVRD_REG(0, 0),
|
|
((cs_num << 25) | (1 << 24)));
|
|
channel.desc->src_addr0 = (src);
|
|
channel.desc->dst_addr = (dst % (1 + SDRAM_CS_SIZE));
|
|
channel.desc->src_addr0 = src;
|
|
channel.desc->dst_addr = (dst % (1 + SDRAM_CS_SIZE));
|
|
}
|
|
|
|
channel.desc->src_addr1 = 0;
|
|
channel.desc->byte_cnt = byte_count;
|
|
channel.desc->next_desc_ptr = 0;
|
|
channel.desc->status = 1 << 31;
|
|
channel.desc->desc_cmd = 0x0;
|
|
channel.desc_phys_addr = (unsigned long)&dma_desc;
|
|
|
|
ddr3_flush_l1_line((u32)&dma_desc);
|
|
|
|
/* Issue the transfer */
|
|
if (mv_xor_transfer(chan, MV_DMA, channel.desc_phys_addr) != MV_OK)
|
|
return MV_FAIL;
|
|
|
|
/* Wait for completion */
|
|
xor_waiton_eng(chan);
|
|
|
|
if (dst > SRAM_BASE) {
|
|
for (byte = 0; byte < byte_count; byte += 0x20)
|
|
cache_inv(dst + byte);
|
|
}
|
|
|
|
return MV_OK;
|
|
}
|
|
|
|
/*
|
|
* Name: ddr3_flush_l1_line
|
|
* Desc:
|
|
* Args:
|
|
* Notes:
|
|
* Returns: MV_OK if success, other error code if fail.
|
|
*/
|
|
static void ddr3_flush_l1_line(u32 line)
|
|
{
|
|
u32 reg;
|
|
|
|
#if defined(MV88F672X)
|
|
reg = 1;
|
|
#else
|
|
reg = reg_read(REG_SAMPLE_RESET_LOW_ADDR) &
|
|
(1 << REG_SAMPLE_RESET_CPU_ARCH_OFFS);
|
|
#ifdef MV88F67XX
|
|
reg = ~reg & (1 << REG_SAMPLE_RESET_CPU_ARCH_OFFS);
|
|
#endif
|
|
#endif
|
|
|
|
if (reg) {
|
|
/* V7 Arch mode */
|
|
flush_l1_v7(line);
|
|
flush_l1_v7(line + CACHE_LINE_SIZE);
|
|
} else {
|
|
/* V6 Arch mode */
|
|
flush_l1_v6(line);
|
|
flush_l1_v6(line + CACHE_LINE_SIZE);
|
|
}
|
|
}
|
|
|
|
int ddr3_dram_sram_read(u32 src, u32 dst, u32 len)
|
|
{
|
|
u32 ui;
|
|
u32 *dst_ptr, *src_ptr;
|
|
|
|
dst_ptr = (u32 *)dst;
|
|
src_ptr = (u32 *)src;
|
|
|
|
for (ui = 0; ui < len; ui++) {
|
|
*dst_ptr = *src_ptr;
|
|
dst_ptr++;
|
|
src_ptr++;
|
|
}
|
|
|
|
return MV_OK;
|
|
}
|
|
|
|
int ddr3_sdram_dqs_compare(MV_DRAM_INFO *dram_info, u32 unlock_pup,
|
|
u32 *new_locked_pup, u32 *pattern,
|
|
u32 pattern_len, u32 sdram_offset, int write,
|
|
int mask, u32 *mask_pattern,
|
|
int special_compare)
|
|
{
|
|
u32 uj, pup_groups;
|
|
|
|
if (dram_info->num_of_std_pups == PUP_NUM_64BIT)
|
|
pup_groups = 2;
|
|
else
|
|
pup_groups = 1;
|
|
|
|
ddr3_reset_phy_read_fifo();
|
|
|
|
/* Check if need to write to sdram before read */
|
|
if (write == 1)
|
|
ddr3_dram_sram_burst((u32)pattern, sdram_offset, pattern_len);
|
|
|
|
ddr3_dram_sram_burst(sdram_offset, (u32)sdram_data, pattern_len);
|
|
|
|
/* Compare read result to write */
|
|
for (uj = 0; uj < pattern_len; uj++) {
|
|
if (special_compare && special_compare_pattern(uj))
|
|
continue;
|
|
|
|
if (dram_info->ddr_width > 16) {
|
|
compare_pattern_v1(uj, new_locked_pup, pattern,
|
|
pup_groups, 1);
|
|
} else {
|
|
compare_pattern_v2(uj, new_locked_pup, pattern);
|
|
}
|
|
}
|
|
|
|
return MV_OK;
|
|
}
|
|
|
|
void ddr3_reset_phy_read_fifo(void)
|
|
{
|
|
u32 reg;
|
|
|
|
/* reset read FIFO */
|
|
reg = reg_read(REG_DRAM_TRAINING_ADDR);
|
|
/* Start Auto Read Leveling procedure */
|
|
reg |= (1 << REG_DRAM_TRAINING_RL_OFFS);
|
|
|
|
/* 0x15B0 - Training Register */
|
|
reg_write(REG_DRAM_TRAINING_ADDR, reg);
|
|
|
|
reg = reg_read(REG_DRAM_TRAINING_2_ADDR);
|
|
reg |= ((1 << REG_DRAM_TRAINING_2_FIFO_RST_OFFS) +
|
|
(1 << REG_DRAM_TRAINING_2_SW_OVRD_OFFS));
|
|
|
|
/* [0] = 1 - Enable SW override, [4] = 1 - FIFO reset */
|
|
/* 0x15B8 - Training SW 2 Register */
|
|
reg_write(REG_DRAM_TRAINING_2_ADDR, reg);
|
|
|
|
do {
|
|
reg = reg_read(REG_DRAM_TRAINING_2_ADDR) &
|
|
(1 << REG_DRAM_TRAINING_2_FIFO_RST_OFFS);
|
|
} while (reg); /* Wait for '0' */
|
|
|
|
reg = reg_read(REG_DRAM_TRAINING_ADDR);
|
|
|
|
/* Clear Auto Read Leveling procedure */
|
|
reg &= ~(1 << REG_DRAM_TRAINING_RL_OFFS);
|
|
|
|
/* 0x15B0 - Training Register */
|
|
reg_write(REG_DRAM_TRAINING_ADDR, reg);
|
|
}
|