1*0a391b1cSBin Meng /* 2*0a391b1cSBin Meng * Copyright (C) 2013, Intel Corporation 3*0a391b1cSBin Meng * Copyright (C) 2015, Bin Meng <bmeng.cn@gmail.com> 4*0a391b1cSBin Meng * 5*0a391b1cSBin Meng * Ported from Intel released Quark UEFI BIOS 6*0a391b1cSBin Meng * QuarkSocPkg/QuarkNorthCluster/MemoryInit/Pei 7*0a391b1cSBin Meng * 8*0a391b1cSBin Meng * SPDX-License-Identifier: Intel 9*0a391b1cSBin Meng */ 10*0a391b1cSBin Meng 11*0a391b1cSBin Meng #ifndef _MRC_H_ 12*0a391b1cSBin Meng #define _MRC_H_ 13*0a391b1cSBin Meng 14*0a391b1cSBin Meng #define MRC_VERSION 0x0111 15*0a391b1cSBin Meng 16*0a391b1cSBin Meng /* architectural definitions */ 17*0a391b1cSBin Meng #define NUM_CHANNELS 1 /* number of channels */ 18*0a391b1cSBin Meng #define NUM_RANKS 2 /* number of ranks per channel */ 19*0a391b1cSBin Meng #define NUM_BYTE_LANES 4 /* number of byte lanes per channel */ 20*0a391b1cSBin Meng 21*0a391b1cSBin Meng /* software limitations */ 22*0a391b1cSBin Meng #define MAX_CHANNELS 1 23*0a391b1cSBin Meng #define MAX_RANKS 2 24*0a391b1cSBin Meng #define MAX_BYTE_LANES 4 25*0a391b1cSBin Meng 26*0a391b1cSBin Meng #define MAX_SOCKETS 1 27*0a391b1cSBin Meng #define MAX_SIDES 1 28*0a391b1cSBin Meng #define MAX_ROWS (MAX_SIDES * MAX_SOCKETS) 29*0a391b1cSBin Meng 30*0a391b1cSBin Meng /* Specify DRAM and channel width */ 31*0a391b1cSBin Meng enum { 32*0a391b1cSBin Meng X8, /* DRAM width */ 33*0a391b1cSBin Meng X16, /* DRAM width & Channel Width */ 34*0a391b1cSBin Meng X32 /* Channel Width */ 35*0a391b1cSBin Meng }; 36*0a391b1cSBin Meng 37*0a391b1cSBin Meng /* Specify DRAM speed */ 38*0a391b1cSBin Meng enum { 39*0a391b1cSBin Meng DDRFREQ_800, 40*0a391b1cSBin Meng DDRFREQ_1066 41*0a391b1cSBin Meng }; 42*0a391b1cSBin Meng 43*0a391b1cSBin Meng /* Specify DRAM type */ 44*0a391b1cSBin Meng enum { 45*0a391b1cSBin Meng DDR3, 46*0a391b1cSBin Meng DDR3L 47*0a391b1cSBin Meng }; 48*0a391b1cSBin Meng 49*0a391b1cSBin Meng /* 50*0a391b1cSBin Meng * density: 0=512Mb, 1=Gb, 2=2Gb, 3=4Gb 51*0a391b1cSBin Meng * cl: DRAM CAS Latency in clocks 52*0a391b1cSBin Meng * ras: ACT to PRE command period 53*0a391b1cSBin Meng * wtr: Delay from start of internal write transaction to internal read command 54*0a391b1cSBin Meng * rrd: ACT to ACT command period (JESD79 specific to page size 1K/2K) 55*0a391b1cSBin Meng * faw: Four activate window (JESD79 specific to page size 1K/2K) 56*0a391b1cSBin Meng * 57*0a391b1cSBin Meng * ras/wtr/rrd/faw timings are in picoseconds 58*0a391b1cSBin Meng * 59*0a391b1cSBin Meng * Refer to JEDEC spec (or DRAM datasheet) when changing these values. 60*0a391b1cSBin Meng */ 61*0a391b1cSBin Meng struct dram_params { 62*0a391b1cSBin Meng uint8_t density; 63*0a391b1cSBin Meng uint8_t cl; 64*0a391b1cSBin Meng uint32_t ras; 65*0a391b1cSBin Meng uint32_t wtr; 66*0a391b1cSBin Meng uint32_t rrd; 67*0a391b1cSBin Meng uint32_t faw; 68*0a391b1cSBin Meng }; 69*0a391b1cSBin Meng 70*0a391b1cSBin Meng /* 71*0a391b1cSBin Meng * Delay configuration for individual signals 72*0a391b1cSBin Meng * Vref setting 73*0a391b1cSBin Meng * Scrambler seed 74*0a391b1cSBin Meng */ 75*0a391b1cSBin Meng struct mrc_timings { 76*0a391b1cSBin Meng uint32_t rcvn[NUM_CHANNELS][NUM_RANKS][NUM_BYTE_LANES]; 77*0a391b1cSBin Meng uint32_t rdqs[NUM_CHANNELS][NUM_RANKS][NUM_BYTE_LANES]; 78*0a391b1cSBin Meng uint32_t wdqs[NUM_CHANNELS][NUM_RANKS][NUM_BYTE_LANES]; 79*0a391b1cSBin Meng uint32_t wdq[NUM_CHANNELS][NUM_RANKS][NUM_BYTE_LANES]; 80*0a391b1cSBin Meng uint32_t vref[NUM_CHANNELS][NUM_BYTE_LANES]; 81*0a391b1cSBin Meng uint32_t wctl[NUM_CHANNELS][NUM_RANKS]; 82*0a391b1cSBin Meng uint32_t wcmd[NUM_CHANNELS]; 83*0a391b1cSBin Meng uint32_t scrambler_seed; 84*0a391b1cSBin Meng /* need to save for the case of frequency change */ 85*0a391b1cSBin Meng uint8_t ddr_speed; 86*0a391b1cSBin Meng }; 87*0a391b1cSBin Meng 88*0a391b1cSBin Meng /* Boot mode defined as bit mask (1<<n) */ 89*0a391b1cSBin Meng enum { 90*0a391b1cSBin Meng BM_UNKNOWN, 91*0a391b1cSBin Meng BM_COLD = 1, /* full training */ 92*0a391b1cSBin Meng BM_FAST = 2, /* restore timing parameters */ 93*0a391b1cSBin Meng BM_S3 = 4, /* resume from S3 */ 94*0a391b1cSBin Meng BM_WARM = 8 95*0a391b1cSBin Meng }; 96*0a391b1cSBin Meng 97*0a391b1cSBin Meng /* MRC execution status */ 98*0a391b1cSBin Meng #define MRC_SUCCESS 0 /* initialization ok */ 99*0a391b1cSBin Meng #define MRC_E_MEMTEST 1 /* memtest failed */ 100*0a391b1cSBin Meng 101*0a391b1cSBin Meng /* 102*0a391b1cSBin Meng * Memory Reference Code parameters 103*0a391b1cSBin Meng * 104*0a391b1cSBin Meng * It includes 3 parts: 105*0a391b1cSBin Meng * - input parameters like boot mode and DRAM parameters 106*0a391b1cSBin Meng * - context parameters for MRC internal state 107*0a391b1cSBin Meng * - output parameters like initialization result and memory size 108*0a391b1cSBin Meng */ 109*0a391b1cSBin Meng struct mrc_params { 110*0a391b1cSBin Meng /* Input parameters */ 111*0a391b1cSBin Meng uint32_t boot_mode; /* BM_COLD, BM_FAST, BM_WARM, BM_S3 */ 112*0a391b1cSBin Meng /* DRAM parameters */ 113*0a391b1cSBin Meng uint8_t dram_width; /* x8, x16 */ 114*0a391b1cSBin Meng uint8_t ddr_speed; /* DDRFREQ_800, DDRFREQ_1066 */ 115*0a391b1cSBin Meng uint8_t ddr_type; /* DDR3, DDR3L */ 116*0a391b1cSBin Meng uint8_t ecc_enables; /* 0, 1 (memory size reduced to 7/8) */ 117*0a391b1cSBin Meng uint8_t scrambling_enables; /* 0, 1 */ 118*0a391b1cSBin Meng /* 1, 3 (1'st rank has to be populated if 2'nd rank present) */ 119*0a391b1cSBin Meng uint32_t rank_enables; 120*0a391b1cSBin Meng uint32_t channel_enables; /* 1 only */ 121*0a391b1cSBin Meng uint32_t channel_width; /* x16 only */ 122*0a391b1cSBin Meng /* 0, 1, 2 (mode 2 forced if ecc enabled) */ 123*0a391b1cSBin Meng uint32_t address_mode; 124*0a391b1cSBin Meng /* REFRESH_RATE: 1=1.95us, 2=3.9us, 3=7.8us, others=RESERVED */ 125*0a391b1cSBin Meng uint8_t refresh_rate; 126*0a391b1cSBin Meng /* SR_TEMP_RANGE: 0=normal, 1=extended, others=RESERVED */ 127*0a391b1cSBin Meng uint8_t sr_temp_range; 128*0a391b1cSBin Meng /* 129*0a391b1cSBin Meng * RON_VALUE: 0=34ohm, 1=40ohm, others=RESERVED 130*0a391b1cSBin Meng * (select MRS1.DIC driver impedance control) 131*0a391b1cSBin Meng */ 132*0a391b1cSBin Meng uint8_t ron_value; 133*0a391b1cSBin Meng /* RTT_NOM_VALUE: 0=40ohm, 1=60ohm, 2=120ohm, others=RESERVED */ 134*0a391b1cSBin Meng uint8_t rtt_nom_value; 135*0a391b1cSBin Meng /* RD_ODT_VALUE: 0=off, 1=60ohm, 2=120ohm, 3=180ohm, others=RESERVED */ 136*0a391b1cSBin Meng uint8_t rd_odt_value; 137*0a391b1cSBin Meng struct dram_params params; 138*0a391b1cSBin Meng /* Internally used context parameters */ 139*0a391b1cSBin Meng uint32_t board_id; /* board layout (use x8 or x16 memory) */ 140*0a391b1cSBin Meng uint32_t hte_setup; /* when set hte reconfiguration requested */ 141*0a391b1cSBin Meng uint32_t menu_after_mrc; 142*0a391b1cSBin Meng uint32_t power_down_disable; 143*0a391b1cSBin Meng uint32_t tune_rcvn; 144*0a391b1cSBin Meng uint32_t channel_size[NUM_CHANNELS]; 145*0a391b1cSBin Meng uint32_t column_bits[NUM_CHANNELS]; 146*0a391b1cSBin Meng uint32_t row_bits[NUM_CHANNELS]; 147*0a391b1cSBin Meng uint32_t mrs1; /* register content saved during training */ 148*0a391b1cSBin Meng uint8_t first_run; 149*0a391b1cSBin Meng /* Output parameters */ 150*0a391b1cSBin Meng /* initialization result (non zero specifies error code) */ 151*0a391b1cSBin Meng uint32_t status; 152*0a391b1cSBin Meng /* total memory size in bytes (excludes ECC banks) */ 153*0a391b1cSBin Meng uint32_t mem_size; 154*0a391b1cSBin Meng /* training results (also used on input) */ 155*0a391b1cSBin Meng struct mrc_timings timings; 156*0a391b1cSBin Meng }; 157*0a391b1cSBin Meng 158*0a391b1cSBin Meng /* 159*0a391b1cSBin Meng * MRC memory initialization structure 160*0a391b1cSBin Meng * 161*0a391b1cSBin Meng * post_code: a 16-bit post code of a specific initialization routine 162*0a391b1cSBin Meng * boot_path: bitwise or of BM_COLD, BM_FAST, BM_WARM and BM_S3 163*0a391b1cSBin Meng * init_fn: real memory initialization routine 164*0a391b1cSBin Meng */ 165*0a391b1cSBin Meng struct mem_init { 166*0a391b1cSBin Meng uint16_t post_code; 167*0a391b1cSBin Meng uint16_t boot_path; 168*0a391b1cSBin Meng void (*init_fn)(struct mrc_params *mrc_params); 169*0a391b1cSBin Meng }; 170*0a391b1cSBin Meng 171*0a391b1cSBin Meng /* MRC platform data flags */ 172*0a391b1cSBin Meng #define MRC_FLAG_ECC_EN 0x00000001 173*0a391b1cSBin Meng #define MRC_FLAG_SCRAMBLE_EN 0x00000002 174*0a391b1cSBin Meng #define MRC_FLAG_MEMTEST_EN 0x00000004 175*0a391b1cSBin Meng /* 0b DDR "fly-by" topology else 1b DDR "tree" topology */ 176*0a391b1cSBin Meng #define MRC_FLAG_TOP_TREE_EN 0x00000008 177*0a391b1cSBin Meng /* If set ODR signal is asserted to DRAM devices on writes */ 178*0a391b1cSBin Meng #define MRC_FLAG_WR_ODT_EN 0x00000010 179*0a391b1cSBin Meng 180*0a391b1cSBin Meng /** 181*0a391b1cSBin Meng * mrc_init - Memory Reference Code initialization entry routine 182*0a391b1cSBin Meng * 183*0a391b1cSBin Meng * @mrc_params: parameters for MRC 184*0a391b1cSBin Meng */ 185*0a391b1cSBin Meng void mrc_init(struct mrc_params *mrc_params); 186*0a391b1cSBin Meng 187*0a391b1cSBin Meng #endif /* _MRC_H_ */ 188