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/* SPDX-License-Identifier: GPL-2.0-only */
#ifndef RAMINIT_COMMON_H
#define RAMINIT_COMMON_H
#include <stdint.h>
#define BASEFREQ 133
#define tDLLK 512
#define NUM_CHANNELS 2
#define NUM_SLOTRANKS 4
#define NUM_SLOTS 2
#define NUM_LANES 9
/* IOSAV_n_SP_CMD_CTRL DRAM commands */
#define IOSAV_MRS (0xf000)
#define IOSAV_PRE (0xf002)
#define IOSAV_ZQCS (0xf003)
#define IOSAV_ACT (0xf006)
#define IOSAV_RD (0xf105)
#define IOSAV_NOP_ALT (0xf107)
#define IOSAV_WR (0xf201)
#define IOSAV_NOP (0xf207)
/* IOSAV_n_SUBSEQ_CTRL data direction */
#define SSQ_NA 0 /* Non-data */
#define SSQ_RD 1 /* Read */
#define SSQ_WR 2 /* Write */
#define SSQ_RW 3 /* Read and write */
struct iosav_ssq {
/* IOSAV_n_SP_CMD_CTRL */
union {
struct {
u32 command : 16; /* [15.. 0] */
u32 ranksel_ap : 2; /* [17..16] */
u32 : 14;
};
u32 raw;
} sp_cmd_ctrl;
/* IOSAV_n_SUBSEQ_CTRL */
union {
struct {
u32 cmd_executions : 9; /* [ 8.. 0] */
u32 : 1;
u32 cmd_delay_gap : 5; /* [14..10] */
u32 : 1;
u32 post_ssq_wait : 9; /* [24..16] */
u32 : 1;
u32 data_direction : 2; /* [27..26] */
u32 : 4;
};
u32 raw;
} subseq_ctrl;
/* IOSAV_n_SP_CMD_ADDR */
union {
struct {
u32 address : 16; /* [15.. 0] */
u32 rowbits : 3; /* [18..16] */
u32 : 1;
u32 bank : 3; /* [22..20] */
u32 : 1;
u32 rank : 2; /* [25..24] */
u32 : 6;
};
u32 raw;
} sp_cmd_addr;
/* IOSAV_n_ADDR_UPDATE */
union {
struct {
u32 inc_addr_1 : 1; /* [ 0.. 0] */
u32 inc_addr_8 : 1; /* [ 1.. 1] */
u32 inc_bank : 1; /* [ 2.. 2] */
u32 inc_rank : 2; /* [ 4.. 3] */
u32 addr_wrap : 5; /* [ 9.. 5] */
u32 lfsr_upd : 2; /* [11..10] */
u32 upd_rate : 4; /* [15..12] */
u32 lfsr_xors : 2; /* [17..16] */
u32 : 14;
};
u32 raw;
} addr_update;
};
union gdcr_rx_reg {
struct {
u32 rcven_pi_code : 6; /* [ 5.. 0] */
u32 : 2;
u32 rx_dqs_p_pi_code : 7; /* [14.. 8] */
u32 : 1;
u32 rcven_logic_delay : 3; /* [18..16] */
u32 : 1;
u32 rx_dqs_n_pi_code : 7; /* [26..20] */
u32 : 5;
};
u32 raw;
};
union gdcr_tx_reg {
struct {
u32 tx_dq_pi_code : 6; /* [ 5.. 0] */
u32 : 2;
u32 tx_dqs_pi_code : 6; /* [13.. 8] */
u32 : 1;
u32 tx_dqs_logic_delay : 3; /* [17..15] */
u32 : 1;
u32 tx_dq_logic_delay : 1; /* [19..19] */
u32 : 12;
};
u32 raw;
};
union gdcr_cmd_pi_coding_reg {
struct {
u32 cmd_pi_code : 6; /* [ 5.. 0] */
u32 ctl_pi_code_d0 : 6; /* [11.. 6] */
u32 cmd_logic_delay : 1; /* [12..12] */
u32 cmd_phase_delay : 1; /* [13..13] */
u32 cmd_xover_enable : 1; /* [14..14] */
u32 ctl_logic_delay_d0 : 1; /* [15..15] */
u32 ctl_phase_delay_d0 : 1; /* [16..16] */
u32 ctl_xover_enable_d0 : 1; /* [17..17] */
u32 ctl_pi_code_d1 : 6; /* [23..18] */
u32 ctl_logic_delay_d1 : 1; /* [24..24] */
u32 ctl_phase_delay_d1 : 1; /* [25..25] */
u32 ctl_xover_enable_d1 : 1; /* [26..26] */
u32 : 5;
};
u32 raw;
};
union gdcr_training_mod_reg {
struct {
u32 receive_enable_mode : 1; /* [ 0.. 0] */
u32 write_leveling_mode : 1; /* [ 1.. 1] */
u32 training_rank_sel : 2; /* [ 3.. 2] */
u32 enable_dqs_wl : 4; /* [ 7.. 4] */
u32 dqs_logic_delay_wl : 1; /* [ 8.. 8] */
u32 dq_dqs_training_res : 1; /* [ 9.. 9] */
u32 : 4;
u32 delay_dq : 1; /* [14..14] */
u32 odt_always_on : 1; /* [15..15] */
u32 : 4;
u32 force_drive_enable : 1; /* [20..20] */
u32 dft_tx_pi_clk_view : 1; /* [21..21] */
u32 dft_tx_pi_clk_swap : 1; /* [22..22] */
u32 early_odt_en : 1; /* [23..23] */
u32 vref_gen_ctl : 6; /* [29..24] */
u32 ext_vref_sel : 1; /* [30..30] */
u32 tx_fifo_always_on : 1; /* [31..31] */
};
u32 raw;
};
union comp_ofst_1_reg {
struct {
u32 dq_odt_down : 3; /* [ 2.. 0] */
u32 dq_odt_up : 3; /* [ 5.. 3] */
u32 clk_odt_down : 3; /* [ 8.. 6] */
u32 clk_odt_up : 3; /* [11.. 9] */
u32 dq_drv_down : 3; /* [14..12] */
u32 dq_drv_up : 3; /* [17..15] */
u32 clk_drv_down : 3; /* [20..18] */
u32 clk_drv_up : 3; /* [23..21] */
u32 ctl_drv_down : 3; /* [26..24] */
u32 ctl_drv_up : 3; /* [29..27] */
u32 : 2;
};
u32 raw;
};
union tc_dbp_reg {
struct {
u32 tRCD : 4; /* [ 3.. 0] */
u32 tRP : 4; /* [ 7.. 4] */
u32 tAA : 4; /* [11.. 8] */
u32 tCWL : 4; /* [15..12] */
u32 tRAS : 8; /* [23..16] */
u32 : 8;
};
u32 raw;
};
union tc_rap_reg {
struct {
u32 tRRD : 4; /* [ 3.. 0] */
u32 tRTP : 4; /* [ 7.. 4] */
u32 tCKE : 4; /* [11.. 8] */
u32 tWTR : 4; /* [15..12] */
u32 tFAW : 8; /* [23..16] */
u32 tWR : 5; /* [28..24] */
u32 dis_3st : 1; /* [29..29] */
u32 tCMD : 2; /* [31..30] */
};
u32 raw;
};
union tc_rwp_reg {
struct {
u32 tRRDR : 3; /* [ 2.. 0] */
u32 : 1;
u32 tRRDD : 3; /* [ 6.. 4] */
u32 : 1;
u32 tWWDR : 3; /* [10.. 8] */
u32 : 1;
u32 tWWDD : 3; /* [14..12] */
u32 : 1;
u32 tRWDRDD : 3; /* [18..16] */
u32 : 1;
u32 tWRDRDD : 3; /* [22..20] */
u32 : 1;
u32 tRWSR : 3; /* [26..24] */
u32 dec_wrd : 1; /* [27..27] */
u32 : 4;
};
u32 raw;
};
union tc_othp_reg {
struct {
u32 tXPDLL : 5; /* [ 4.. 0] */
u32 tXP : 3; /* [ 7.. 5] */
u32 tAONPD : 4; /* [11.. 8] */
u32 tCPDED : 2; /* [13..12] */
u32 tPRPDEN : 2; /* [15..14] */
u32 odt_delay_d0 : 2; /* [17..16] */
u32 odt_delay_d1 : 2; /* [19..18] */
u32 : 12;
};
u32 raw;
};
union tc_dtp_reg {
struct {
u32 : 12;
u32 overclock_tXP : 1; /* [12..12] */
u32 overclock_tXPDLL : 1; /* [13..13] */
u32 : 18;
};
u32 raw;
};
union tc_rfp_reg {
struct {
u32 oref_ri : 8; /* [ 7.. 0] */
u32 refresh_high_wm : 4; /* [11.. 8] */
u32 refresh_panic_wm : 4; /* [15..12] */
u32 refresh_2x_control : 2; /* [17..16] */
u32 : 14;
};
u32 raw;
};
union tc_rftp_reg {
struct {
u32 tREFI : 16; /* [15.. 0] */
u32 tRFC : 9; /* [24..16] */
u32 tREFIx9 : 7; /* [31..25] */
};
u32 raw;
};
union tc_srftp_reg {
struct {
u32 tXSDLL : 12; /* [11.. 0] */
u32 tXS_offset : 4; /* [15..12] */
u32 tZQOPER : 10; /* [25..16] */
u32 : 2;
u32 tMOD : 4; /* [31..28] */
};
u32 raw;
};
typedef struct ramctr_timing_st ramctr_timing;
void iosav_write_sequence(const int ch, const struct iosav_ssq *seq, const unsigned int length);
void iosav_run_queue(const int ch, const u8 loops, const u8 as_timer);
void wait_for_iosav(int channel);
void iosav_run_once_and_wait(const int ch);
void iosav_write_zqcs_sequence(int channel, int slotrank, u32 gap, u32 post, u32 wrap);
void iosav_write_prea_sequence(int channel, int slotrank, u32 post, u32 wrap);
void iosav_write_read_mpr_sequence(
int channel, int slotrank, u32 tMOD, u32 loops, u32 gap, u32 loops2, u32 post2);
void iosav_write_prea_act_read_sequence(ramctr_timing *ctrl, int channel, int slotrank);
void iosav_write_jedec_write_leveling_sequence(
ramctr_timing *ctrl, int channel, int slotrank, int bank, u32 mr1reg);
void iosav_write_misc_write_sequence(ramctr_timing *ctrl, int channel, int slotrank,
u32 gap0, u32 loops0, u32 gap1, u32 loops2, u32 wrap2);
void iosav_write_command_training_sequence(
ramctr_timing *ctrl, int channel, int slotrank, unsigned int address);
void iosav_write_data_write_sequence(ramctr_timing *ctrl, int channel, int slotrank);
void iosav_write_aggressive_write_read_sequence(ramctr_timing *ctrl, int channel, int slotrank);
void iosav_write_memory_test_sequence(ramctr_timing *ctrl, int channel, int slotrank);
/* FIXME: Vendor BIOS uses 64 but our algorithms are less
performant and even 1 seems to be enough in practice. */
#define NUM_PATTERNS 4
/*
* WARNING: Do not forget to increase MRC_CACHE_VERSION when the saved data is changed!
*/
#define MRC_CACHE_VERSION 5
enum pdwm_mode {
PDM_NONE = 0,
PDM_APD = 1,
PDM_PPD = 2,
PDM_APD_PPD = 3,
PDM_DLL_OFF = 6,
PDM_APD_DLL_OFF = 7,
};
typedef struct odtmap_st {
u16 rttwr;
u16 rttnom;
} odtmap;
/* WARNING: Do not forget to increase MRC_CACHE_VERSION when this struct is changed! */
typedef struct dimm_info_st {
dimm_attr dimm[NUM_CHANNELS][NUM_SLOTS];
} dimm_info;
/* WARNING: Do not forget to increase MRC_CACHE_VERSION when this struct is changed! */
struct ram_rank_timings {
/* ROUNDT_LAT register: One byte per slotrank */
u8 roundtrip_latency;
/* IO_LATENCY register: One nibble per slotrank */
u8 io_latency;
/* Phase interpolator coding for command and control */
int pi_coding;
struct ram_lane_timings {
/* GDCR RX timings */
u16 rcven;
u8 rx_dqs_p;
u8 rx_dqs_n;
/* GDCR TX timings */
int tx_dq;
u16 tx_dqs;
} lanes[NUM_LANES];
};
/* WARNING: Do not forget to increase MRC_CACHE_VERSION when this struct is changed! */
typedef struct ramctr_timing_st {
u16 spd_crc[NUM_CHANNELS][NUM_SLOTS];
/* CPUID value */
u32 cpu;
/* DDR base_freq = 100 Mhz / 133 Mhz */
u8 base_freq;
/* Frequency index */
u32 FRQ;
u16 cas_supported;
/* Latencies are in units of ns, scaled by x256 */
u32 tCK;
u32 tAA;
u32 tWR;
u32 tRCD;
u32 tRRD;
u32 tRP;
u32 tRAS;
u32 tRFC;
u32 tWTR;
u32 tRTP;
u32 tFAW;
u32 tCWL;
u32 tCMD;
/* Latencies in terms of clock cycles
They are saved separately as they are needed for DRAM MRS commands */
u8 CAS; /* CAS read latency */
u8 CWL; /* CAS write latency */
u32 tREFI;
u32 tMOD;
u32 tXSOffset;
u32 tWLO;
u32 tCKE;
u32 tXPDLL;
u32 tXP;
u32 tAONPD;
/* Bits [0..11] of PM_DLL_CONFIG: Master DLL wakeup delay timer */
u16 mdll_wake_delay;
u8 rankmap[NUM_CHANNELS];
int ref_card_offset[NUM_CHANNELS];
u32 mad_dimm[NUM_CHANNELS];
int channel_size_mb[NUM_CHANNELS];
u32 cmd_stretch[NUM_CHANNELS];
int pi_code_offset;
int pi_coding_threshold;
bool ecc_supported;
bool ecc_forced;
bool ecc_enabled;
int lanes; /* active lanes: 8 or 9 */
int edge_offset[3];
int tx_dq_offset[3];
int extended_temperature_range;
int auto_self_refresh;
int rank_mirror[NUM_CHANNELS][NUM_SLOTRANKS];
struct ram_rank_timings timings[NUM_CHANNELS][NUM_SLOTRANKS];
dimm_info info;
} ramctr_timing;
#define SOUTHBRIDGE PCI_DEV(0, 0x1f, 0)
#define FOR_ALL_LANES for (lane = 0; lane < ctrl->lanes; lane++)
#define FOR_ALL_CHANNELS for (channel = 0; channel < NUM_CHANNELS; channel++)
#define FOR_ALL_POPULATED_RANKS for (slotrank = 0; slotrank < NUM_SLOTRANKS; slotrank++) if (ctrl->rankmap[channel] & (1 << slotrank))
#define FOR_ALL_POPULATED_CHANNELS for (channel = 0; channel < NUM_CHANNELS; channel++) if (ctrl->rankmap[channel])
#define MAX_EDGE_TIMING 71
#define MAX_TX_DQ 127
#define MAX_TX_DQS 511
#define MAX_RCVEN 127
#define MAX_CAS 18
#define MIN_CAS 4
/*
* 1 QCLK (quadrature clock) is one half of a full clock cycle (tCK).
* In addition, 64 PI (phase interpolator) ticks are equal to 1 QCLK.
* Logic delay values in I/O register bitfields are expressed in QCLKs.
*/
#define QCLK_PI 64
#define MAKE_ERR ((channel << 16) | (slotrank << 8) | 1)
#define GET_ERR_CHANNEL(x) (x >> 16)
void dram_mrscommands(ramctr_timing *ctrl);
void program_timings(ramctr_timing *ctrl, int channel);
void dram_find_common_params(ramctr_timing *ctrl);
void dram_xover(ramctr_timing *ctrl);
void dram_timing_regs(ramctr_timing *ctrl);
void dram_dimm_mapping(ramctr_timing *ctrl);
void dram_dimm_set_mapping(ramctr_timing *ctrl, int training);
void dram_zones(ramctr_timing *ctrl, int training);
void dram_memorymap(ramctr_timing *ctrl, int me_uma_size);
void dram_jedecreset(ramctr_timing *ctrl);
int receive_enable_calibration(ramctr_timing *ctrl);
int write_training(ramctr_timing *ctrl);
int command_training(ramctr_timing *ctrl);
int read_mpr_training(ramctr_timing *ctrl);
int aggressive_read_training(ramctr_timing *ctrl);
int aggressive_write_training(ramctr_timing *ctrl);
void normalize_training(ramctr_timing *ctrl);
int channel_test(ramctr_timing *ctrl);
void set_scrambling_seed(ramctr_timing *ctrl);
void set_wmm_behavior(const u32 cpu);
void prepare_training(ramctr_timing *ctrl);
void set_read_write_timings(ramctr_timing *ctrl);
void set_normal_operation(ramctr_timing *ctrl);
void final_registers(ramctr_timing *ctrl);
void restore_timings(ramctr_timing *ctrl);
int try_init_dram_ddr3(ramctr_timing *ctrl, int fast_boot, int s3resume, int me_uma_size);
void channel_scrub(ramctr_timing *ctrl);
bool get_host_ecc_cap(void);
bool get_host_ecc_forced(void);
#endif
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