| /* SPDX-License-Identifier: GPL-2.0-only */ |
| |
| #ifndef __SANDYBRIDGE_MCHBAR_REGS_H__ |
| #define __SANDYBRIDGE_MCHBAR_REGS_H__ |
| |
| /* |
| * ### IOSAV command queue notes ### |
| * |
| * Intel provides a command queue of depth four. |
| * Every command is configured by using multiple MCHBAR registers. |
| * On executing the command queue, you have to specify its depth (number of commands). |
| * |
| * The macros for these registers can take some integer parameters, within these bounds: |
| * channel: [0..1] |
| * index: [0..3] |
| * lane: [0..8] |
| * |
| * Note that these ranges are 'closed': both endpoints are included. |
| * |
| * |
| * |
| * ### Register description ### |
| * |
| * IOSAV_n_SP_CMD_ADDR_ch(channel, index) |
| * Sub-sequence command addresses. Controls the address, bank address and slotrank signals. |
| * |
| * Bitfields: |
| * [0..15] Row / Column Address. |
| * [16..18] The result of (10 + [16..18]) is the number of valid row bits. |
| * Note: Value 1 is not implemented. Not that it really matters, though. |
| * Value 7 is reserved, as the hardware does not support it. |
| * [20..22] Bank Address. |
| * [24..25] Rank select. Let's call it "ranksel", as it is mentioned later. |
| * |
| * IOSAV_n_ADDR_UPDATE_ch(channel, index) |
| * How the address shall be updated after executing the sub-sequence command. |
| * |
| * Bitfields: |
| * [0] Increment CAS/RAS by 1. |
| * [1] Increment CAS/RAS by 8. |
| * [2] Increment bank select by 1. |
| * [3..4] Increment rank select by 1, 2 or 3. |
| * [5..9] Known as "addr_wrap". Address bits will wrap around the [addr_wrap..0] range. |
| * [10..11] LFSR update: |
| * 00: Do not use the LFSR function. |
| * 01: Undefined, treat as Reserved. |
| * 10: Apply LFSR on the [addr_wrap..0] bit range. |
| * 11: Apply LFSR on the [addr_wrap..3] bit range. |
| * |
| * [12..15] Update rate. The number of command runs between address updates. For example: |
| * 0: Update every command run. |
| * 1: Update every second command run. That is, half of the command rate. |
| * N: Update after N command runs without updates. |
| * |
| * [16..17] LFSR behavior on the deselect cycles (when no sub-seq command is issued): |
| * 0: No change w.r.t. the last issued command. |
| * 1: LFSR XORs with address & command (excluding CS), but does not update. |
| * 2: LFSR XORs with address & command (excluding CS), and updates. |
| * |
| * IOSAV_n_SP_CMD_CTRL_ch(channel, index) |
| * Special command control register. Controls the DRAM command signals. |
| * |
| * Bitfields: |
| * [0] !RAS signal. |
| * [1] !CAS signal. |
| * [2] !WE signal. |
| * [4..7] CKE, per rank and channel. |
| * [8..11] ODT, per rank and channel. |
| * [12..15] Chip select, per rank and channel. It works as follows: |
| * |
| * entity CS_BLOCK is |
| * port ( |
| * MODE : in std_logic; -- Mode select at [16] |
| * RANKSEL : in std_logic_vector(0 to 3); -- Decoded "ranksel" value |
| * CS_CTL : in std_logic_vector(0 to 3); -- Chip select control at [12..15] |
| * CS_Q : out std_logic_vector(0 to 3) -- CS signals |
| * ); |
| * end entity CS_BLOCK; |
| * |
| * architecture RTL of CS_BLOCK is |
| * begin |
| * if MODE = '1' then |
| * CS_Q <= not RANKSEL and CS_CTL; |
| * else |
| * CS_Q <= CS_CTL; |
| * end if; |
| * end architecture RTL; |
| * |
| * [16] Chip Select mode control. |
| * [17] Auto Precharge. Only valid when using 10 row bits! |
| * |
| * IOSAV_n_SUBSEQ_CTRL_ch(channel, index) |
| * Sub-sequence parameters. Controls repetititons, delays and data orientation. |
| * |
| * Bitfields: |
| * [0..8] Number of repetitions of the sub-sequence command. |
| * [10..14] Gap, number of clock-cycles to wait before sending the next command. |
| * [16..24] Number of clock-cycles to idle between sub-sequence commands. |
| * [26..27] The direction of the data. |
| * 00: None, does not handle data |
| * 01: Read |
| * 10: Write |
| * 11: Read & Write |
| * |
| * IOSAV_n_ADDRESS_LFSR_ch(channel, index) |
| * 23-bit LFSR state register. It is written into the LFSR when the sub-sequence is loaded, |
| * and then read back from the LFSR when the sub-sequence is done. |
| * |
| * Bitfields: |
| * [0..22] LFSR state. |
| * |
| * IOSAV_SEQ_CTL_ch(channel) |
| * Control the sequence level in IOSAV: number of sub-sequences, iterations, maintenance... |
| * |
| * Bitfields: |
| * [0..7] Number of full sequence executions. When this field becomes non-zero, then the |
| * sequence starts running immediately. This value is decremented after completing |
| * a full sequence iteration. When it is zero, the sequence is done. No decrement |
| * is done if this field is set to 0xff. This is the "infinite repeat" mode, and |
| * it is manually aborted by clearing this field. |
| * |
| * [8..16] Number of wait cycles after each sequence iteration. This wait's purpose is to |
| * allow performing maintenance in infinite loops. When non-zero, RCOMP, refresh |
| * and ZQXS operations can take place. |
| * |
| * [17] Stop-on-error mode: Whether to stop sequence execution when an error occurs. |
| * [18..19] Number of sub-sequences. The programmed value is the index of the last sub-seq. |
| * [20] If set, keep refresh disabled until the next sequence execution. |
| * DANGER: Refresh must be re-enabled within the (9 * tREFI) period! |
| * |
| * [22] If set, sequence execution will not prevent refresh. This cannot be set when |
| * bit [20] is also set, or was set on the previous sequence. This bit exists so |
| * that the sequence machine can be used as a timer without affecting the memory. |
| * |
| * [23] If set, a output pin is asserted on the first detected error. This output can |
| * be used as a trigger for an oscilloscope or a logic analyzer, which is handy. |
| * |
| * IOSAV_DATA_CTL_ch(channel) |
| * Data-related controls in IOSAV mode. |
| * |
| * Bitfields: |
| * [0..7] WDB (Write Data Buffer) pattern length: [0..7] = (length / 8) - 1; |
| * [8..15] WDB read pointer. Points at the data used for IOSAV write transactions. |
| * [16..23] Comparison pointer. Used to compare data from IOSAV read transactions. |
| * [24] If set, increment pointers only when micro-breakpoint is active. |
| * |
| * IOSAV_STATUS_ch(channel) |
| * State of the IOSAV sequence machine. Should be polled after sending an IOSAV sequence. |
| * |
| * Bitfields: |
| * [0] IDLE: IOSAV is sleeping. |
| * [1] BUSY: IOSAV is running a sequence. |
| * [2] DONE: IOSAV has completed a sequence. |
| * [3] ERROR: IOSAV detected an error and stopped on it, when using Stop-on-error. |
| * [4] PANIC: The refresh machine issued a Panic Refresh, and IOSAV was aborted. |
| * [5] RCOMP: RComp failure. Unused, consider Reserved. |
| * [6] Cleared with a new sequence, and set when done and refresh counter is drained. |
| * |
| */ |
| |
| /* Temporary IOSAV register macros to verifiably split bitfields */ |
| #define SUBSEQ_CTRL(reps, gap, post, dir) (((reps) << 0) | \ |
| ((gap) << 10) | \ |
| ((post) << 16) | \ |
| ((dir) << 26)) |
| |
| #define SSQ_NA 0 /* Non-data */ |
| #define SSQ_RD 1 /* Read */ |
| #define SSQ_WR 2 /* Write */ |
| #define SSQ_RW 3 /* Read and write */ |
| |
| #define SP_CMD_ADDR(addr, rowbits, bank, rank) (((addr) << 0) | \ |
| ((rowbits) << 16) | \ |
| ((bank) << 20) | \ |
| ((rank) << 24)) |
| |
| #define ADDR_UPDATE(addr_1, addr_8, bank, rank, wrap, lfsr, rate, xors) (((addr_1) << 0) | \ |
| ((addr_8) << 1) | \ |
| ((bank) << 2) | \ |
| ((rank) << 3) | \ |
| ((wrap) << 5) | \ |
| ((lfsr) << 10) | \ |
| ((rate) << 12) | \ |
| ((xors) << 16)) |
| |
| /* Marker macro for IOSAV_n_ADDR_UPDATE */ |
| #define ADDR_UPDATE_NONE 0 |
| |
| /* Only programming the wraparound without any triggers is suspicious */ |
| #define ADDR_UPDATE_WRAP(wrap) ((wrap) << 5) |
| |
| #define IOSAV_SUBSEQUENCE(ch, n, sp_cmd_ctrl, reps, gap, post, dir, addr, rowbits, bank, rank, addr_update) \ |
| do { \ |
| MCHBAR32(IOSAV_n_SP_CMD_CTRL_ch(ch, n)) = sp_cmd_ctrl; \ |
| MCHBAR32(IOSAV_n_SUBSEQ_CTRL_ch(ch, n)) = SUBSEQ_CTRL(reps, gap, post, dir); \ |
| MCHBAR32(IOSAV_n_SP_CMD_ADDR_ch(ch, n)) = SP_CMD_ADDR(addr, rowbits, bank, rank); \ |
| MCHBAR32(IOSAV_n_ADDR_UPDATE_ch(ch, n)) = addr_update; \ |
| } while (0) |
| |
| /* Indexed register helper macros */ |
| #define Gz(r, z) ((r) + ((z) << 8)) |
| #define Ly(r, y) ((r) + ((y) << 2)) |
| #define Cx(r, x) ((r) + ((x) << 10)) |
| #define CxLy(r, x, y) ((r) + ((x) << 10) + ((y) << 2)) |
| #define GzLy(r, z, y) ((r) + ((z) << 8) + ((y) << 2)) |
| |
| /* Byte lane training register base addresses */ |
| #define LANEBASE_B0 0x0000 |
| #define LANEBASE_B1 0x0200 |
| #define LANEBASE_B2 0x0400 |
| #define LANEBASE_B3 0x0600 |
| #define LANEBASE_ECC 0x0800 /* ECC lane is in the middle of the data lanes */ |
| #define LANEBASE_B4 0x1000 |
| #define LANEBASE_B5 0x1200 |
| #define LANEBASE_B6 0x1400 |
| #define LANEBASE_B7 0x1600 |
| |
| /* Byte lane register offsets */ |
| #define GDCRTRAININGRESULT(ch, y) GzLy(0x0004, ch, y) /* Test results for PI config */ |
| #define GDCRTRAININGRESULT1(ch) GDCRTRAININGRESULT(ch, 0) /* 0x0004 */ |
| #define GDCRTRAININGRESULT2(ch) GDCRTRAININGRESULT(ch, 1) /* 0x0008 */ |
| #define GDCRRX(ch, rank) GzLy(0x10, ch, rank) /* Time setting for lane Rx */ |
| #define GDCRTX(ch, rank) GzLy(0x20, ch, rank) /* Time setting for lane Tx */ |
| |
| /* Register definitions */ |
| #define GDCRCLKRANKSUSED_ch(ch) Gz(0x0c00, ch) /* Indicates which rank is populated */ |
| #define GDCRCLKCOMP_ch(ch) Gz(0x0c04, ch) /* RCOMP result register */ |
| #define GDCRCKPICODE_ch(ch) Gz(0x0c14, ch) /* PI coding for DDR CLK pins */ |
| #define GDCRCKLOGICDELAY_ch(ch) Gz(0x0c18, ch) /* Logic delay of 1 QCLK in CLK slice */ |
| #define GDDLLFUSE_ch(ch) Gz(0x0c20, ch) /* Used for fuse download to the DLLs */ |
| #define GDCRCLKDEBUGMUXCFG_ch(ch) Gz(0x0c3c, ch) /* Debug MUX control */ |
| |
| #define GDCRCMDDEBUGMUXCFG_Cz_S(ch) Gz(0x0e3c, ch) /* Debug MUX control */ |
| |
| #define CRCOMPOFST1_ch(ch) Gz(0x1810, ch) /* DQ, CTL and CLK Offset values */ |
| |
| #define GDCRTRAININGMOD_ch(ch) Gz(0x3000, ch) /* Data training mode control */ |
| #define GDCRTRAININGRESULT1_ch(ch) Gz(0x3004, ch) /* Training results according to PI */ |
| #define GDCRTRAININGRESULT2_ch(ch) Gz(0x3008, ch) |
| |
| #define GDCRCTLRANKSUSED_ch(ch) Gz(0x3200, ch) /* Indicates which rank is populated */ |
| #define GDCRCMDCOMP_ch(ch) Gz(0x3204, ch) /* COMP values register */ |
| #define GDCRCMDCTLCOMP_ch(ch) Gz(0x3208, ch) /* COMP values register */ |
| #define GDCRCMDPICODING_ch(ch) Gz(0x320c, ch) /* Command and control PI coding */ |
| |
| #define GDCRTRAININGMOD 0x3400 /* Data training mode control register */ |
| #define GDCRDATACOMP 0x340c /* COMP values register */ |
| |
| #define CRCOMPOFST2 0x3714 /* CMD DRV, SComp and Static Leg controls */ |
| |
| /* |
| * The register bank that would correspond to Channel 3 are actually "broadcast" registers. |
| * They can be used to write values to all channels. Use this macro instead of a literal '3'. |
| */ |
| #define BROADCAST_CH 3 |
| |
| /* MC per-channel registers */ |
| #define TC_DBP_ch(ch) Cx(0x4000, ch) /* Timings: BIN */ |
| #define TC_RAP_ch(ch) Cx(0x4004, ch) /* Timings: Regular access */ |
| #define TC_RWP_ch(ch) Cx(0x4008, ch) /* Timings: Read / Write */ |
| #define TC_OTHP_ch(ch) Cx(0x400c, ch) /* Timings: Other parameters */ |
| |
| /** WARNING: Only applies to Ivy Bridge! */ |
| #define TC_DTP_ch(ch) Cx(0x4014, ch) /** Timings: Debug parameters */ |
| |
| #define SCHED_SECOND_CBIT_ch(ch) Cx(0x401c, ch) /* More chicken bits */ |
| #define SCHED_CBIT_ch(ch) Cx(0x4020, ch) /* Chicken bits in scheduler */ |
| #define SC_ROUNDT_LAT_ch(ch) Cx(0x4024, ch) /* Round-trip latency per rank */ |
| #define SC_IO_LATENCY_ch(ch) Cx(0x4028, ch) /* IO Latency Configuration */ |
| #define SCRAMBLING_SEED_1_ch(ch) Cx(0x4034, ch) /* Scrambling seed 1 */ |
| #define SCRAMBLING_SEED_2_LO_ch(ch) Cx(0x4038, ch) /* Scrambling seed 2 low */ |
| #define SCRAMBLING_SEED_2_HI_ch(ch) Cx(0x403c, ch) /* Scrambling seed 2 high */ |
| |
| /* IOSAV Bytelane Bit-wise error */ |
| #define IOSAV_By_BW_SERROR_ch(ch, y) CxLy(0x4040, ch, y) |
| |
| /* IOSAV Bytelane Bit-wise compare mask */ |
| #define IOSAV_By_BW_MASK_ch(ch, y) CxLy(0x4080, ch, y) |
| |
| /* |
| * Defines the number of transactions (non-VC1 RD CAS commands) between two priority ticks. |
| * Different counters for transactions that are issued on the ring agents (core or GT) and |
| * transactions issued in the SA. |
| */ |
| #define SC_PR_CNT_CONFIG_ch(ch) Cx(0x40a8, ch) |
| #define SC_PCIT_ch(ch) Cx(0x40ac, ch) /* Page-close idle timer setup - 8 bits */ |
| #define PM_PDWN_CONFIG_ch(ch) Cx(0x40b0, ch) /* Power-down (CKE-off) operation config */ |
| #define ECC_INJECT_COUNT_ch(ch) Cx(0x40b4, ch) /* ECC error injection count */ |
| #define ECC_DFT_ch(ch) Cx(0x40b8, ch) /* ECC DFT features (ECC4ANA, error inject) */ |
| #define SC_WR_ADD_DELAY_ch(ch) Cx(0x40d0, ch) /* Extra WR delay to overcome WR-flyby issue */ |
| |
| #define IOSAV_By_BW_SERROR_C_ch(ch, y) CxLy(0x4140, ch, y) /* IOSAV Bytelane Bit-wise error */ |
| |
| /* IOSAV sub-sequence control registers */ |
| #define IOSAV_n_SP_CMD_ADDR_ch(ch, y) CxLy(0x4200, ch, y) /* Special command address. */ |
| #define IOSAV_n_ADDR_UPDATE_ch(ch, y) CxLy(0x4210, ch, y) /* Address update control */ |
| #define IOSAV_n_SP_CMD_CTRL_ch(ch, y) CxLy(0x4220, ch, y) /* Control of command signals */ |
| #define IOSAV_n_SUBSEQ_CTRL_ch(ch, y) CxLy(0x4230, ch, y) /* Sub-sequence controls */ |
| #define IOSAV_n_ADDRESS_LFSR_ch(ch, y) CxLy(0x4240, ch, y) /* 23-bit LFSR state value */ |
| |
| #define PM_THML_STAT_ch(ch) Cx(0x4280, ch) /* Thermal status of each rank */ |
| #define IOSAV_SEQ_CTL_ch(ch) Cx(0x4284, ch) /* IOSAV sequence level control */ |
| #define IOSAV_DATA_CTL_ch(ch) Cx(0x4288, ch) /* Data control in IOSAV mode */ |
| #define IOSAV_STATUS_ch(ch) Cx(0x428c, ch) /* State of the IOSAV sequence machine */ |
| #define TC_ZQCAL_ch(ch) Cx(0x4290, ch) /* ZQCAL control register */ |
| #define TC_RFP_ch(ch) Cx(0x4294, ch) /* Refresh Parameters */ |
| #define TC_RFTP_ch(ch) Cx(0x4298, ch) /* Refresh Timing Parameters */ |
| #define TC_MR2_SHADOW_ch(ch) Cx(0x429c, ch) /* MR2 shadow - copy of DDR configuration */ |
| #define MC_INIT_STATE_ch(ch) Cx(0x42a0, ch) /* IOSAV mode control */ |
| #define TC_SRFTP_ch(ch) Cx(0x42a4, ch) /* Self-refresh timing parameters */ |
| #define IOSAV_ERROR_ch(ch) Cx(0x42ac, ch) /* Data vector count of the first error */ |
| #define IOSAV_DC_MASK_ch(ch) Cx(0x42b0, ch) /* IOSAV data check masking */ |
| |
| #define IOSAV_By_ERROR_COUNT_ch(ch, y) CxLy(0x4340, ch, y) /* Per-byte 16-bit error count */ |
| #define IOSAV_G_ERROR_COUNT_ch(ch) Cx(0x4364, ch) /* Global 16-bit error count */ |
| |
| /** WARNING: Only applies to Ivy Bridge! */ |
| #define IOSAV_BYTE_SERROR_ch(ch) Cx(0x4368, ch) /** Byte-Wise Sticky Error */ |
| #define IOSAV_BYTE_SERROR_C_ch(ch) Cx(0x436c, ch) /** Byte-Wise Sticky Error Clear */ |
| |
| #define PM_TRML_M_CONFIG_ch(ch) Cx(0x4380, ch) /* Thermal mode configuration */ |
| #define PM_CMD_PWR_ch(ch) Cx(0x4384, ch) /* Power contribution of commands */ |
| #define PM_BW_LIMIT_CONFIG_ch(ch) Cx(0x4388, ch) /* Bandwidth throttling on overtemp */ |
| #define SC_WDBWM_ch(ch) Cx(0x438c, ch) /* Watermarks and starvation counter */ |
| |
| /* MC Channel Broadcast registers */ |
| #define TC_DBP 0x4c00 /* Timings: BIN */ |
| #define TC_RAP 0x4c04 /* Timings: Regular access */ |
| #define TC_RWP 0x4c08 /* Timings: Read / Write */ |
| #define TC_OTHP 0x4c0c /* Timings: Other parameters */ |
| |
| /** WARNING: Only applies to Ivy Bridge! */ |
| #define TC_DTP 0x4c14 /** Timings: Debug parameters */ |
| |
| #define SCHED_SECOND_CBIT 0x4c1c /* More chicken bits */ |
| #define SCHED_CBIT 0x4c20 /* Chicken bits in scheduler */ |
| #define SC_ROUNDT_LAT 0x4c24 /* Round-trip latency per rank */ |
| #define SC_IO_LATENCY 0x4c28 /* IO Latency Configuration */ |
| #define SCRAMBLING_SEED_1 0x4c34 /* Scrambling seed 1 */ |
| #define SCRAMBLING_SEED_2_LO 0x4c38 /* Scrambling seed 2 low */ |
| #define SCRAMBLING_SEED_2_HI 0x4c3c /* Scrambling seed 2 high */ |
| |
| #define IOSAV_By_BW_SERROR(y) Ly(0x4c40, y) /* IOSAV Bytelane Bit-wise error */ |
| #define IOSAV_By_BW_MASK(y) Ly(0x4c80, y) /* IOSAV Bytelane Bit-wise compare mask */ |
| |
| /* |
| * Defines the number of transactions (non-VC1 RD CAS commands) between two priority ticks. |
| * Different counters for transactions that are issued on the ring agents (core or GT) and |
| * transactions issued in the SA. |
| */ |
| #define SC_PR_CNT_CONFIG 0x4ca8 |
| #define SC_PCIT 0x4cac /* Page-close idle timer setup - 8 bits */ |
| #define PM_PDWN_CONFIG 0x4cb0 /* Power-down (CKE-off) operation config */ |
| #define ECC_INJECT_COUNT 0x4cb4 /* ECC error injection count */ |
| #define ECC_DFT 0x4cb8 /* ECC DFT features (ECC4ANA, error inject) */ |
| #define SC_WR_ADD_DELAY 0x4cd0 /* Extra WR delay to overcome WR-flyby issue */ |
| |
| /** Opportunistic reads configuration during write-major-mode (WMM) */ |
| #define WMM_READ_CONFIG 0x4cd4 /** WARNING: Only exists on IVB! */ |
| |
| #define IOSAV_By_BW_SERROR_C(y) Ly(0x4d40, y) /* IOSAV Bytelane Bit-wise error */ |
| |
| #define PM_THML_STAT 0x4e80 /* Thermal status of each rank */ |
| #define IOSAV_SEQ_CTL 0x4e84 /* IOSAV sequence level control */ |
| #define IOSAV_DATA_CTL 0x4e88 /* Data control in IOSAV mode */ |
| #define IOSAV_STATUS 0x4e8c /* State of the IOSAV sequence machine */ |
| #define TC_ZQCAL 0x4e90 /* ZQCAL control register */ |
| #define TC_RFP 0x4e94 /* Refresh Parameters */ |
| #define TC_RFTP 0x4e98 /* Refresh Timing Parameters */ |
| #define TC_MR2_SHADOW 0x4e9c /* MR2 shadow - copy of DDR configuration */ |
| #define MC_INIT_STATE 0x4ea0 /* IOSAV mode control */ |
| #define TC_SRFTP 0x4ea4 /* Self-refresh timing parameters */ |
| |
| /** |
| * Auxiliary register in mcmnts synthesis FUB (Functional Unit Block). Additionally, this |
| * register is also used to enable IOSAV_n_SP_CMD_ADDR optimization on Ivy Bridge. |
| */ |
| #define MCMNTS_SPARE 0x4ea8 /** WARNING: Reserved, use only on IVB! */ |
| |
| #define IOSAV_ERROR 0x4eac /* Data vector count of the first error */ |
| #define IOSAV_DC_MASK 0x4eb0 /* IOSAV data check masking */ |
| |
| #define IOSAV_By_ERROR_COUNT(y) Ly(0x4f40, y) /* Per-byte 16-bit error counter */ |
| #define IOSAV_G_ERROR_COUNT 0x4f64 /* Global 16-bit error counter */ |
| |
| /** WARNING: Only applies to Ivy Bridge! */ |
| #define IOSAV_BYTE_SERROR 0x4f68 /** Byte-Wise Sticky Error */ |
| #define IOSAV_BYTE_SERROR_C 0x4f6c /** Byte-Wise Sticky Error Clear */ |
| |
| #define PM_TRML_M_CONFIG 0x4f80 /* Thermal mode configuration */ |
| #define PM_CMD_PWR 0x4f84 /* Power contribution of commands */ |
| #define PM_BW_LIMIT_CONFIG 0x4f88 /* Bandwidth throttling on overtemperature */ |
| #define SC_WDBWM 0x4f8c /* Watermarks and starvation counter config */ |
| |
| /* No, there's no need to get mad about the Memory Address Decoder */ |
| #define MAD_CHNL 0x5000 /* Address Decoder Channel Configuration */ |
| #define MAD_DIMM(ch) Ly(0x5004, ch) /* Channel characteristics */ |
| #define MAD_DIMM_CH0 MAD_DIMM(0) /* Channel 0 is at 0x5004 */ |
| #define MAD_DIMM_CH1 MAD_DIMM(1) /* Channel 1 is at 0x5008 */ |
| #define MAD_DIMM_CH2 MAD_DIMM(2) /* Channel 2 is at 0x500c (unused on SNB) */ |
| |
| #define MAD_ZR 0x5014 /* Address Decode Zones */ |
| #define MCDECS_SPARE 0x5018 /* Spare register in mcdecs synthesis FUB */ |
| #define MCDECS_CBIT 0x501c /* Chicken bits in mcdecs synthesis FUB */ |
| |
| #define CHANNEL_HASH 0x5024 /** WARNING: Only exists on IVB! */ |
| |
| #define MC_INIT_STATE_G 0x5030 /* High-level behavior in IOSAV mode */ |
| #define MRC_REVISION 0x5034 /* MRC Revision */ |
| #define PM_DLL_CONFIG 0x5064 /* Memory Controller I/O DLL config */ |
| #define RCOMP_TIMER 0x5084 /* RCOMP evaluation timer register */ |
| |
| #define MC_LOCK 0x50fc /* Memory Controlller Lock register */ |
| |
| #define GFXVTBAR 0x5400 /* Base address for IGD */ |
| #define VTVC0BAR 0x5410 /* Base address for PEG, USB, SATA, etc. */ |
| |
| /* On Ivy Bridge, this is used to enable Power Aware Interrupt Routing */ |
| #define INTRDIRCTL 0x5418 /* Interrupt Redirection Control */ |
| |
| /* PAVP message register. Bit 0 locks PAVP settings, and bits [31..20] are an offset. */ |
| #define PAVP_MSG 0x5500 |
| |
| #define MEM_TRML_ESTIMATION_CONFIG 0x5880 |
| #define MEM_TRML_THRESHOLDS_CONFIG 0x5888 |
| #define MEM_TRML_INTERRUPT 0x58a8 |
| |
| /* Some power MSRs are also represented in MCHBAR */ |
| #define MCH_PKG_POWER_LIMIT_LO 0x59a0 /* Turbo Power Limit 1 parameters */ |
| #define MCH_PKG_POWER_LIMIT_HI 0x59a4 /* Turbo Power Limit 2 parameters */ |
| |
| #define SSKPD 0x5d10 /* 64-bit scratchpad register */ |
| #define SSKPD_HI 0x5d14 |
| #define BIOS_RESET_CPL 0x5da8 /* 8-bit */ |
| |
| /* PCODE will sample SAPM-related registers at the end of Phase 4. */ |
| #define MC_BIOS_REQ 0x5e00 /* Memory frequency request register */ |
| #define MC_BIOS_DATA 0x5e04 /* Miscellaneous information for BIOS */ |
| #define SAPMCTL 0x5f00 /* Bit 3 enables DDR EPG (C7i) on IVB */ |
| #define M_COMP 0x5f08 /* Memory COMP control */ |
| #define SAPMTIMERS 0x5f10 /* SAPM timers in 10ns (100 MHz) units */ |
| |
| /* WARNING: Only applies to Sandy Bridge! */ |
| #define BANDTIMERS_SNB 0x5f18 /* MPLL and PPLL time to do self-banding */ |
| |
| /** WARNING: Only applies to Ivy Bridge! */ |
| #define SAPMTIMERS2_IVB 0x5f18 /** Extra latency for DDRIO EPG exit (C7i) */ |
| #define BANDTIMERS_IVB 0x5f20 /** MPLL and PPLL time to do self-banding */ |
| |
| /* Finalize registers. The names come from Haswell, as the finalize sequence is the same. */ |
| #define HDAUDRID 0x6008 |
| #define UMAGFXCTL 0x6020 |
| #define VDMBDFBARKVM 0x6030 |
| #define VDMBDFBARPAVP 0x6034 |
| #define VTDTRKLCK 0x63fc |
| #define REQLIM 0x6800 |
| #define DMIVCLIM 0x7000 |
| #define PEGCTL 0x7010 /* Bit 0 is PCIPWRGAT (clock gate all PEG controllers) */ |
| #define CRDTCTL3 0x740c /* Minimum completion credits for PCIe/DMI */ |
| #define CRDTCTL4 0x7410 /* Read Return Tracker credits */ |
| #define CRDTLCK 0x77fc |
| |
| #endif /* __SANDYBRIDGE_MCHBAR_REGS_H__ */ |