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RAS/AMD/ATL: Use system settings for MI300 DRAM to normalized address translation
The currently used normalized address format is not applicable to all
MI300 systems. This leads to incorrect results during address
translation.
Drop the fixed layout and construct the normalized address from system
settings.
Fixes: 87a6123753
("RAS/AMD/ATL: Add MI300 DRAM to normalized address translation support")
Signed-off-by: Yazen Ghannam <yazen.ghannam@amd.com>
Signed-off-by: Borislav Petkov (AMD) <bp@alien8.de>
Cc: <stable@kernel.org>
Link: https://lore.kernel.org/r/20240607-mi300-dram-xl-fix-v1-2-2f11547a178c@amd.com
This commit is contained in:
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fe8a08973a
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@ -224,7 +224,7 @@ int df_indirect_read_broadcast(u16 node, u8 func, u16 reg, u32 *lo);
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int get_df_system_info(void);
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int determine_node_id(struct addr_ctx *ctx, u8 socket_num, u8 die_num);
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int get_addr_hash_mi300(void);
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int get_umc_info_mi300(void);
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int get_address_map(struct addr_ctx *ctx);
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@ -127,7 +127,7 @@ static int df4_determine_df_rev(u32 reg)
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if (reg == DF_FUNC0_ID_MI300) {
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df_cfg.flags.heterogeneous = 1;
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if (get_addr_hash_mi300())
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if (get_umc_info_mi300())
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return -EINVAL;
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}
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@ -68,6 +68,8 @@ struct xor_bits {
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};
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#define NUM_BANK_BITS 4
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#define NUM_COL_BITS 5
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#define NUM_SID_BITS 2
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static struct {
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/* UMC::CH::AddrHashBank */
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@ -80,7 +82,22 @@ static struct {
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u8 bank_xor;
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} addr_hash;
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static struct {
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u8 bank[NUM_BANK_BITS];
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u8 col[NUM_COL_BITS];
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u8 sid[NUM_SID_BITS];
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u8 num_row_lo;
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u8 num_row_hi;
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u8 row_lo;
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u8 row_hi;
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u8 pc;
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} bit_shifts;
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#define MI300_UMC_CH_BASE 0x90000
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#define MI300_ADDR_CFG (MI300_UMC_CH_BASE + 0x30)
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#define MI300_ADDR_SEL (MI300_UMC_CH_BASE + 0x40)
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#define MI300_COL_SEL_LO (MI300_UMC_CH_BASE + 0x50)
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#define MI300_ADDR_SEL_2 (MI300_UMC_CH_BASE + 0xA4)
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#define MI300_ADDR_HASH_BANK0 (MI300_UMC_CH_BASE + 0xC8)
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#define MI300_ADDR_HASH_PC (MI300_UMC_CH_BASE + 0xE0)
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#define MI300_ADDR_HASH_PC2 (MI300_UMC_CH_BASE + 0xE4)
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@ -90,17 +107,42 @@ static struct {
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#define ADDR_HASH_ROW_XOR GENMASK(31, 14)
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#define ADDR_HASH_BANK_XOR GENMASK(5, 0)
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#define ADDR_CFG_NUM_ROW_LO GENMASK(11, 8)
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#define ADDR_CFG_NUM_ROW_HI GENMASK(15, 12)
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#define ADDR_SEL_BANK0 GENMASK(3, 0)
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#define ADDR_SEL_BANK1 GENMASK(7, 4)
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#define ADDR_SEL_BANK2 GENMASK(11, 8)
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#define ADDR_SEL_BANK3 GENMASK(15, 12)
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#define ADDR_SEL_BANK4 GENMASK(20, 16)
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#define ADDR_SEL_ROW_LO GENMASK(27, 24)
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#define ADDR_SEL_ROW_HI GENMASK(31, 28)
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#define COL_SEL_LO_COL0 GENMASK(3, 0)
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#define COL_SEL_LO_COL1 GENMASK(7, 4)
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#define COL_SEL_LO_COL2 GENMASK(11, 8)
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#define COL_SEL_LO_COL3 GENMASK(15, 12)
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#define COL_SEL_LO_COL4 GENMASK(19, 16)
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#define ADDR_SEL_2_BANK5 GENMASK(4, 0)
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#define ADDR_SEL_2_CHAN GENMASK(15, 12)
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/*
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* Read UMC::CH::AddrHash{Bank,PC,PC2} registers to get XOR bits used
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* for hashing. Do this during module init, since the values will not
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* change during run time.
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* for hashing.
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*
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* Also, read UMC::CH::Addr{Cfg,Sel,Sel2} and UMC::CH:ColSelLo registers to
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* get the values needed to reconstruct the normalized address. Apply additional
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* offsets to the raw register values, as needed.
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*
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* Do this during module init, since the values will not change during run time.
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*
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* These registers are instantiated for each UMC across each AMD Node.
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* However, they should be identically programmed due to the fixed hardware
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* design of MI300 systems. So read the values from Node 0 UMC 0 and keep a
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* single global structure for simplicity.
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*/
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int get_addr_hash_mi300(void)
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int get_umc_info_mi300(void)
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{
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u32 temp;
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int ret;
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@ -130,6 +172,44 @@ int get_addr_hash_mi300(void)
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addr_hash.bank_xor = FIELD_GET(ADDR_HASH_BANK_XOR, temp);
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ret = amd_smn_read(0, MI300_ADDR_CFG, &temp);
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if (ret)
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return ret;
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bit_shifts.num_row_hi = FIELD_GET(ADDR_CFG_NUM_ROW_HI, temp);
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bit_shifts.num_row_lo = 10 + FIELD_GET(ADDR_CFG_NUM_ROW_LO, temp);
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ret = amd_smn_read(0, MI300_ADDR_SEL, &temp);
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if (ret)
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return ret;
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bit_shifts.bank[0] = 5 + FIELD_GET(ADDR_SEL_BANK0, temp);
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bit_shifts.bank[1] = 5 + FIELD_GET(ADDR_SEL_BANK1, temp);
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bit_shifts.bank[2] = 5 + FIELD_GET(ADDR_SEL_BANK2, temp);
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bit_shifts.bank[3] = 5 + FIELD_GET(ADDR_SEL_BANK3, temp);
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/* Use BankBit4 for the SID0 position. */
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bit_shifts.sid[0] = 5 + FIELD_GET(ADDR_SEL_BANK4, temp);
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bit_shifts.row_lo = 12 + FIELD_GET(ADDR_SEL_ROW_LO, temp);
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bit_shifts.row_hi = 24 + FIELD_GET(ADDR_SEL_ROW_HI, temp);
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ret = amd_smn_read(0, MI300_COL_SEL_LO, &temp);
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if (ret)
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return ret;
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bit_shifts.col[0] = 2 + FIELD_GET(COL_SEL_LO_COL0, temp);
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bit_shifts.col[1] = 2 + FIELD_GET(COL_SEL_LO_COL1, temp);
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bit_shifts.col[2] = 2 + FIELD_GET(COL_SEL_LO_COL2, temp);
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bit_shifts.col[3] = 2 + FIELD_GET(COL_SEL_LO_COL3, temp);
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bit_shifts.col[4] = 2 + FIELD_GET(COL_SEL_LO_COL4, temp);
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ret = amd_smn_read(0, MI300_ADDR_SEL_2, &temp);
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if (ret)
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return ret;
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/* Use BankBit5 for the SID1 position. */
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bit_shifts.sid[1] = 5 + FIELD_GET(ADDR_SEL_2_BANK5, temp);
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bit_shifts.pc = 5 + FIELD_GET(ADDR_SEL_2_CHAN, temp);
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return 0;
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}
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@ -146,9 +226,6 @@ int get_addr_hash_mi300(void)
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* The MCA address format is as follows:
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* MCA_ADDR[27:0] = {S[1:0], P[0], R[14:0], B[3:0], C[4:0], Z[0]}
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*
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* The normalized address format is fixed in hardware and is as follows:
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* NA[30:0] = {S[1:0], R[13:0], C4, B[1:0], B[3:2], C[3:2], P, C[1:0], Z[4:0]}
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*
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* Additionally, the PC and Bank bits may be hashed. This must be accounted for before
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* reconstructing the normalized address.
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*/
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@ -158,18 +235,10 @@ int get_addr_hash_mi300(void)
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#define MI300_UMC_MCA_PC BIT(25)
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#define MI300_UMC_MCA_SID GENMASK(27, 26)
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#define MI300_NA_COL_1_0 GENMASK(6, 5)
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#define MI300_NA_PC BIT(7)
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#define MI300_NA_COL_3_2 GENMASK(9, 8)
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#define MI300_NA_BANK_3_2 GENMASK(11, 10)
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#define MI300_NA_BANK_1_0 GENMASK(13, 12)
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#define MI300_NA_COL_4 BIT(14)
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#define MI300_NA_ROW GENMASK(28, 15)
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#define MI300_NA_SID GENMASK(30, 29)
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static unsigned long convert_dram_to_norm_addr_mi300(unsigned long addr)
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{
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u16 i, col, row, bank, pc, sid, temp;
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u16 i, col, row, bank, pc, sid;
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u32 temp;
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col = FIELD_GET(MI300_UMC_MCA_COL, addr);
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bank = FIELD_GET(MI300_UMC_MCA_BANK, addr);
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@ -199,34 +268,38 @@ static unsigned long convert_dram_to_norm_addr_mi300(unsigned long addr)
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/* Reconstruct the normalized address starting with NA[4:0] = 0 */
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addr = 0;
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/* NA[6:5] = Column[1:0] */
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temp = col & 0x3;
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addr |= FIELD_PREP(MI300_NA_COL_1_0, temp);
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/* Column bits */
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for (i = 0; i < NUM_COL_BITS; i++) {
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temp = (col >> i) & 0x1;
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addr |= temp << bit_shifts.col[i];
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}
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/* NA[7] = PC */
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addr |= FIELD_PREP(MI300_NA_PC, pc);
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/* Bank bits */
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for (i = 0; i < NUM_BANK_BITS; i++) {
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temp = (bank >> i) & 0x1;
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addr |= temp << bit_shifts.bank[i];
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}
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/* NA[9:8] = Column[3:2] */
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temp = (col >> 2) & 0x3;
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addr |= FIELD_PREP(MI300_NA_COL_3_2, temp);
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/* Row lo bits */
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for (i = 0; i < bit_shifts.num_row_lo; i++) {
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temp = (row >> i) & 0x1;
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addr |= temp << (i + bit_shifts.row_lo);
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}
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/* NA[11:10] = Bank[3:2] */
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temp = (bank >> 2) & 0x3;
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addr |= FIELD_PREP(MI300_NA_BANK_3_2, temp);
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/* Row hi bits */
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for (i = 0; i < bit_shifts.num_row_hi; i++) {
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temp = (row >> (i + bit_shifts.num_row_lo)) & 0x1;
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addr |= temp << (i + bit_shifts.row_hi);
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}
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/* NA[13:12] = Bank[1:0] */
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temp = bank & 0x3;
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addr |= FIELD_PREP(MI300_NA_BANK_1_0, temp);
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/* PC bit */
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addr |= pc << bit_shifts.pc;
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/* NA[14] = Column[4] */
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temp = (col >> 4) & 0x1;
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addr |= FIELD_PREP(MI300_NA_COL_4, temp);
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/* NA[28:15] = Row[13:0] */
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addr |= FIELD_PREP(MI300_NA_ROW, row);
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/* NA[30:29] = SID[1:0] */
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addr |= FIELD_PREP(MI300_NA_SID, sid);
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/* SID bits */
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for (i = 0; i < NUM_SID_BITS; i++) {
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temp = (sid >> i) & 0x1;
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addr |= temp << bit_shifts.sid[i];
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}
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pr_debug("Addr=0x%016lx", addr);
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pr_debug("Bank=%u Row=%u Column=%u PC=%u SID=%u", bank, row, col, pc, sid);
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