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/* SPDX-License-Identifier: BSD-3-Clause */
#include <assert.h>
#include <emi_hw.h>
#include <emi.h>
#include "dramc_reg_base_addr.h"
#include <dramc_top.h>
#include <soc/emi.h>
#ifdef LAST_EMI
static LAST_EMI_INFO_T* last_emi_info_ptr;
#endif
static inline unsigned int mt_emi_sync_read(unsigned long long addr)
{
dsb();
return *((volatile unsigned int *)addr);
}
#define mt_emi_sync_write(addr, value) \
do { \
*((volatile unsigned int *)(addr)) = value; \
dsb(); \
} while (0)
#define mt_emi_sync_write_or(addr, or_value) \
do { \
mt_emi_sync_write(addr, \
mt_emi_sync_read(addr) | or_value); \
} while (0)
static void emi_cen_config(void)
{
#ifndef ONE_CH
#ifdef RANK_512MB // => 2channel , dual rank , total=2G
mt_emi_sync_write(EMI_APB_BASE+0x00000000,0xa053a154);
#else //RANK_1G => 2channel , dual rank , total=4G
mt_emi_sync_write(EMI_APB_BASE+0x00000000,0xf053f154);
#endif
#else
#ifdef RANK_512MB
mt_emi_sync_write(EMI_APB_BASE+0x00000000,0xa053a054);
#else
mt_emi_sync_write(EMI_APB_BASE+0x00000000,0xf053f054);
#endif
#endif
// overhead: 20190821 item1 - synced
mt_emi_sync_write(EMI_APB_BASE+0x00000004,0x182e2d33); //3733 (1:8) r4 - r1 overhead // TBD - change to 4266
mt_emi_sync_write(EMI_APB_BASE+0x00000008,0x0f251025); //3733 (1:8) r8 - r5 overhead // TBD - change to 4266
mt_emi_sync_write(EMI_APB_BASE+0x0000000c,0x122a1027); //3733 (1:8) r12 - r9 overhead // TBD - change to 4266
mt_emi_sync_write(EMI_APB_BASE+0x00000010,0x1a31162d); //3733 (1:8) r16 - r13 overhead // TBD - change to 4266
mt_emi_sync_write(EMI_APB_BASE+0x000008b0,0x182e2d33); //3200 (1:8) r4 - r1 overhead
mt_emi_sync_write(EMI_APB_BASE+0x000008b4,0x0f251025); //3200 (1:8) r8 - r5 overhead
mt_emi_sync_write(EMI_APB_BASE+0x0000001c,0x122a1027); //3200 (1:8) r12 - r9 overhead
mt_emi_sync_write(EMI_APB_BASE+0x00000024,0x1a31162d); //3200 (1:8) r16 - r13 overhead
mt_emi_sync_write(EMI_APB_BASE+0x00000034,0x1024202c); //2400 (1:8) r4 - r1 overhead
mt_emi_sync_write(EMI_APB_BASE+0x0000006c,0x0b210c21); //2400 (1:8) r8 - r5 overhead
mt_emi_sync_write(EMI_APB_BASE+0x0000013c,0x0f250d23); //2400 (1:8) r12 - r9 overhead
mt_emi_sync_write(EMI_APB_BASE+0x00000640,0x152b1228); //2400 (1:8) r16 - r13 overhead
mt_emi_sync_write(EMI_APB_BASE+0x00000044,0x0c201a28); //1866 (1:8) r4 - r1 overhead
mt_emi_sync_write(EMI_APB_BASE+0x00000074,0x0d230a20); //1866 (1:8) r8 - r5 overhead
mt_emi_sync_write(EMI_APB_BASE+0x000001e0,0x0e260d24); //1866 (1:8) r12 - r9 overhead
mt_emi_sync_write(EMI_APB_BASE+0x00000644,0x132d1229); //1866 (1:8) r16 - r13 overhead
mt_emi_sync_write(EMI_APB_BASE+0x0000004c,0x0c201a28); //1600 (1:8) r4 - r1 overhead
mt_emi_sync_write(EMI_APB_BASE+0x00000084,0x0d230a20); //1600 (1:8) r8 - r5 overhead
mt_emi_sync_write(EMI_APB_BASE+0x000001e4,0x0e260d24); //1600 (1:8) r12 - r9 overhead
mt_emi_sync_write(EMI_APB_BASE+0x00000648,0x132d1229); //1600 (1:8) r16 - r13 overhead
mt_emi_sync_write(EMI_APB_BASE+0x00000054,0x0c201a28); //1200 (1:8) r4 - r1 overhead
mt_emi_sync_write(EMI_APB_BASE+0x0000008c,0x0d230a20); //1200 (1:8) r8 - r5 overhead
mt_emi_sync_write(EMI_APB_BASE+0x000001e8,0x0e260d24); //1200 (1:8) r12 - r9 overhead
mt_emi_sync_write(EMI_APB_BASE+0x0000064c,0x132d1229); //1200 (1:8) r16 - r13 overhead
mt_emi_sync_write(EMI_APB_BASE+0x0000005c,0x0e290e28); //800 (1:4) r12 - r9 overhead
mt_emi_sync_write(EMI_APB_BASE+0x00000094,0x091e1322); //800 (1:4) r4 - r1 overhead
mt_emi_sync_write(EMI_APB_BASE+0x000001c8,0x0f29112a); //800 (1:4) r16 - r13 overhead
mt_emi_sync_write(EMI_APB_BASE+0x00000660,0x0c240a1f); //800 (1:4) r8 - r5 overhead
mt_emi_sync_write(EMI_APB_BASE+0x00000064,0x0e290e28); //800 (1:4) r12 - r9 overhead
mt_emi_sync_write(EMI_APB_BASE+0x0000009c,0x091e1322); //800 (1:4) r4 - r1 overhead
mt_emi_sync_write(EMI_APB_BASE+0x000001f4,0x0f29112a); //800 (1:4) r16 - r13 overhead
mt_emi_sync_write(EMI_APB_BASE+0x00000664,0x0c240a1f); //800 (1:4) r8 - r5 overhead
mt_emi_sync_write(EMI_APB_BASE+0x00000030,0x37373a57); //3733 (1:8) r8 - r2 non-align overhead // TBD - change to 4266
mt_emi_sync_write(EMI_APB_BASE+0x00000014,0x3f3f3c39); //3733 (1:8) r16 - r10 non-align overhead // TBD - change to 4266
mt_emi_sync_write(EMI_APB_BASE+0x000008b8,0x3836374e); //3200 (1:8) r8 - r2 non-align overhead
mt_emi_sync_write(EMI_APB_BASE+0x0000002c,0x41413d3a); //3200 (1:8) r16 - r10 non-align overhead
mt_emi_sync_write(EMI_APB_BASE+0x000000c4,0x33313241); //2400 (1:8) r8 - r2 non-align overhead
mt_emi_sync_write(EMI_APB_BASE+0x00000668,0x3a3a3835); //2400 (1:8) r16 - r10 non-align overhead
mt_emi_sync_write(EMI_APB_BASE+0x000000c8,0x34343542); //1866 (1:8) r8 - r2 non-align overhead
mt_emi_sync_write(EMI_APB_BASE+0x0000066c,0x3b3b3835); //1866 (1:8) r16 - r10 non-align overhead
mt_emi_sync_write(EMI_APB_BASE+0x000000cc,0x34343542); //1600 (1:8) r8 - r2 non-align overhead
mt_emi_sync_write(EMI_APB_BASE+0x00000694,0x3b3b3835); //1600 (1:8) r16 - r10 non-align overhead
mt_emi_sync_write(EMI_APB_BASE+0x000000e4,0x34343542); //1200 (1:8) r8 - r2 non-align overhead
mt_emi_sync_write(EMI_APB_BASE+0x00000708,0x3b3b3835); //1200 (1:8) r16 - r10 non-align overhead
mt_emi_sync_write(EMI_APB_BASE+0x000000f4,0x37333034); //800 (1:4) r8 - r2 non-align overhead
mt_emi_sync_write(EMI_APB_BASE+0x0000070c,0x39393a39); //800 (1:4) r16 - r10 non-align overhead
mt_emi_sync_write(EMI_APB_BASE+0x0000012c,0x37333034); //800 (1:4) r8 - r2 non-align overhead
mt_emi_sync_write(EMI_APB_BASE+0x00000748,0x39393a39); //800 (1:4) r16 - r10 non-align overhead
//
mt_emi_sync_write(EMI_APB_BASE+0x00000018,0x3657587a);
mt_emi_sync_write(EMI_APB_BASE+0x00000020,0x0000c042);
mt_emi_sync_write(EMI_APB_BASE+0x00000028,0x08421000);
mt_emi_sync_write(EMI_APB_BASE+0x00000038,0x00000083);
mt_emi_sync_write(EMI_APB_BASE+0x0000003c,0x00073210);
mt_emi_sync_write(EMI_APB_BASE+0x00000040,0x00008802);
mt_emi_sync_write(EMI_APB_BASE+0x00000048,0x00000000);
mt_emi_sync_write(EMI_APB_BASE+0x00000060,0x007812ff); // reserved buffer to normal rea d/write :8/7
mt_emi_sync_write(EMI_APB_BASE+0x00000068,0x00000000);
mt_emi_sync_write(EMI_APB_BASE+0x00000078,0x11120c1f); //22:20=ultra_w=1
mt_emi_sync_write(EMI_APB_BASE+0x00000710,0x11120c1f); //22:20=ultra_w=1
mt_emi_sync_write(EMI_APB_BASE+0x0000007c,0x00001123);
mt_emi_sync_write(EMI_APB_BASE+0x00000718,0x00001123);
mt_emi_sync_write(EMI_APB_BASE+0x000000d0,0xa8a8a8a8);
mt_emi_sync_write(EMI_APB_BASE+0x000000d4,0x25252525);
mt_emi_sync_write(EMI_APB_BASE+0x000000d8,0xa8a8a8a8);
mt_emi_sync_write(EMI_APB_BASE+0x000000dc,0x25252525);
mt_emi_sync_write(EMI_APB_BASE+0x000000e8,0x00060037); // initial starvation counter di v2, [4]=1
mt_emi_sync_write(EMI_APB_BASE+0x000000f0,0x384a0014);
mt_emi_sync_write(EMI_APB_BASE+0x000000f8,0xa0000000);
mt_emi_sync_write(EMI_APB_BASE+0x00000100,0x20107244);
mt_emi_sync_write(EMI_APB_BASE+0x00000108,0x10107044);
mt_emi_sync_write(EMI_APB_BASE+0x00000110,0x343450df);
mt_emi_sync_write(EMI_APB_BASE+0x00000118,0x0000f0d0);
mt_emi_sync_write(EMI_APB_BASE+0x00000120,0x10106048);
mt_emi_sync_write(EMI_APB_BASE+0x00000128,0x343450df);
mt_emi_sync_write(EMI_APB_BASE+0x00000130,0x83837044);
mt_emi_sync_write(EMI_APB_BASE+0x00000138,0x83837044);
mt_emi_sync_write(EMI_APB_BASE+0x00000140,0x00007108);
mt_emi_sync_write(EMI_APB_BASE+0x00000144,0x00007108);
mt_emi_sync_write(EMI_APB_BASE+0x00000150,0x090a4000);
mt_emi_sync_write(EMI_APB_BASE+0x00000158,0xff0bff00);
mt_emi_sync_write(EMI_APB_BASE+0x00000400,0x00ff0001); //[27:20] enable monitor
mt_emi_sync_write(EMI_APB_BASE+0x0000071c,0x10000008);
mt_emi_sync_write(EMI_APB_BASE+0x00000800,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x00000820,0x24240101);
mt_emi_sync_write(EMI_APB_BASE+0x00000824,0x01012424);
mt_emi_sync_write(EMI_APB_BASE+0x00000828,0x50500101);
mt_emi_sync_write(EMI_APB_BASE+0x0000082c,0x01015050);
mt_emi_sync_write(EMI_APB_BASE+0x00000830,0x0fc39a30); // [6] MD_HRT_URGENT_MASK, if 1 -> mask MD_HRT_URGENT,
mt_emi_sync_write(EMI_APB_BASE+0x00000834,0x05050003);
mt_emi_sync_write(EMI_APB_BASE+0x00000838,0x254dffff);
mt_emi_sync_write(EMI_APB_BASE+0x0000083c,0x465a788c); //update
mt_emi_sync_write(EMI_APB_BASE+0x00000840,0x000003e8);
mt_emi_sync_write(EMI_APB_BASE+0x00000844,0x0000036b);
mt_emi_sync_write(EMI_APB_BASE+0x00000848,0x00000290);
mt_emi_sync_write(EMI_APB_BASE+0x0000084c,0x00000200);
mt_emi_sync_write(EMI_APB_BASE+0x00000850,0x00000000);
mt_emi_sync_write(EMI_APB_BASE+0x00000854,0x00000000);
mt_emi_sync_write(EMI_APB_BASE+0x00000858,0x02531cff); //ignore rff threshold
mt_emi_sync_write(EMI_APB_BASE+0x0000085c,0x00002785);
mt_emi_sync_write(EMI_APB_BASE+0x00000874,0x000001b5);
mt_emi_sync_write(EMI_APB_BASE+0x00000878,0x003c0000); //update
mt_emi_sync_write(EMI_APB_BASE+0x0000087c,0x0255250d);
mt_emi_sync_write(EMI_APB_BASE+0x00000890,0xffff3c59);
mt_emi_sync_write(EMI_APB_BASE+0x00000894,0xffff00ff);
mt_emi_sync_write(EMI_APB_BASE+0x000008a0,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x000008a4,0x0000ffff);
mt_emi_sync_write(EMI_APB_BASE+0x000008c0,0x0000014b);
mt_emi_sync_write(EMI_APB_BASE+0x000008c4,0x002d0000); //update
mt_emi_sync_write(EMI_APB_BASE+0x000008c8,0x00000185);
mt_emi_sync_write(EMI_APB_BASE+0x000008cc,0x003c0000); //update
mt_emi_sync_write(EMI_APB_BASE+0x000008d0,0x00000185);
mt_emi_sync_write(EMI_APB_BASE+0x000008d4,0x003c0000); //update
mt_emi_sync_write(EMI_APB_BASE+0x000008e0,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x000008e4,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x000008e8,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x00000920,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x00000924,0x0000ffff);
mt_emi_sync_write(EMI_APB_BASE+0x00000930,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x00000934,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x00000938,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x000009f0,0x41547082);
mt_emi_sync_write(EMI_APB_BASE+0x000009f4,0x38382a38);
mt_emi_sync_write(EMI_APB_BASE+0x000009f8,0x000001d4);
mt_emi_sync_write(EMI_APB_BASE+0x000009fc,0x00000190);
mt_emi_sync_write(EMI_APB_BASE+0x00000b00,0x0000012c);
mt_emi_sync_write(EMI_APB_BASE+0x00000b04,0x000000ed);
mt_emi_sync_write(EMI_APB_BASE+0x00000b08,0x000000c8);
mt_emi_sync_write(EMI_APB_BASE+0x00000b0c,0x00000096);
mt_emi_sync_write(EMI_APB_BASE+0x00000b10,0x000000c8);
mt_emi_sync_write(EMI_APB_BASE+0x00000b14,0x000000c8);
mt_emi_sync_write(EMI_APB_BASE+0x00000b28,0x26304048);
mt_emi_sync_write(EMI_APB_BASE+0x00000b2c,0x20201820);
mt_emi_sync_write(EMI_APB_BASE+0x00000b60,0x181e282f);
mt_emi_sync_write(EMI_APB_BASE+0x00000b64,0x14140f18);
mt_emi_sync_write(EMI_APB_BASE+0x00000b98,0x7496c8ea);
mt_emi_sync_write(EMI_APB_BASE+0x00000b9c,0x64644b64);
mt_emi_sync_write(EMI_APB_BASE+0x00000bd0,0x01010101);
mt_emi_sync_write(EMI_APB_BASE+0x00000bd4,0x01010101);
mt_emi_sync_write(EMI_APB_BASE+0x00000c08,0x7496c8ea); // 20190821 item3 - synced // TB D- 4266 may need changes
mt_emi_sync_write(EMI_APB_BASE+0x00000c0c,0x64644b64); // 20190821 item3 - synced // TB D- 4266 may need changes
mt_emi_sync_write(EMI_APB_BASE+0x00000c40,0x01010101);
mt_emi_sync_write(EMI_APB_BASE+0x00000c44,0x01010101);
mt_emi_sync_write(EMI_APB_BASE+0x00000c4c,0x300ff025); //ignore wff threshold
mt_emi_sync_write(EMI_APB_BASE+0x00000c80,0x000003e8);
mt_emi_sync_write(EMI_APB_BASE+0x00000c84,0x0000036b);
mt_emi_sync_write(EMI_APB_BASE+0x00000c88,0x00000290);
mt_emi_sync_write(EMI_APB_BASE+0x00000c8c,0x00000200);
mt_emi_sync_write(EMI_APB_BASE+0x00000c90,0x000001b5);
mt_emi_sync_write(EMI_APB_BASE+0x00000c94,0x0000014b);
mt_emi_sync_write(EMI_APB_BASE+0x00000c98,0x00000185);
mt_emi_sync_write(EMI_APB_BASE+0x00000c9c,0x00000185);
mt_emi_sync_write(EMI_APB_BASE+0x00000cb0,0x52698ca0);
mt_emi_sync_write(EMI_APB_BASE+0x00000cb4,0x46463546);
mt_emi_sync_write(EMI_APB_BASE+0x00000cf8,0x01010101);
mt_emi_sync_write(EMI_APB_BASE+0x00000cfc,0x01010101);
mt_emi_sync_write(EMI_APB_BASE+0x00000d04,0x00000009); //MDR shf0 event selet
mt_emi_sync_write(EMI_APB_BASE+0x00000d0c,0x00000000); //MDR shf1 event selet
mt_emi_sync_write(EMI_APB_BASE+0x00000d14,0x00730000); //MDR shf0
mt_emi_sync_write(EMI_APB_BASE+0x00000d18,0x00000808); //MDR shf1
mt_emi_sync_write(EMI_APB_BASE+0x00000d1c,0x00000028); //MDW shf0 event selet
mt_emi_sync_write(EMI_APB_BASE+0x00000d24,0x00000000); //MDW shf1 event selet
mt_emi_sync_write(EMI_APB_BASE+0x00000d2c,0x00730000); //MDW shf0
mt_emi_sync_write(EMI_APB_BASE+0x00000d30,0x00000808); //MDW shf1
mt_emi_sync_write(EMI_APB_BASE+0x00000d34,0x00000080); //APR shf0 event selet
mt_emi_sync_write(EMI_APB_BASE+0x00000d3c,0x00000000); //APR shf1 event selet
mt_emi_sync_write(EMI_APB_BASE+0x00000d44,0x30201008); //APR shf0/shf1
mt_emi_sync_write(EMI_APB_BASE+0x00000d48,0x00000800); //APW shf0 event selet
mt_emi_sync_write(EMI_APB_BASE+0x00000d50,0x00000000); //APW shf1 event selet
mt_emi_sync_write(EMI_APB_BASE+0x00000d58,0x00008000); //MMR shf0 event selet
mt_emi_sync_write(EMI_APB_BASE+0x00000d60,0x00020000); //MMR shf1 event selet
mt_emi_sync_write(EMI_APB_BASE+0x00000d64,0x00001000); //MMR shf1 event selet
mt_emi_sync_write(EMI_APB_BASE+0x00000d68,0x00010000); //MMR shf2 event selet
mt_emi_sync_write(EMI_APB_BASE+0x00000d6c,0x00000800); //MMR shf2 event selet
mt_emi_sync_write(EMI_APB_BASE+0x00000d70,0x08080000); //MMR shf0
mt_emi_sync_write(EMI_APB_BASE+0x00000d74,0x00073030); //MMR shf1
mt_emi_sync_write(EMI_APB_BASE+0x00000d78,0x00040000); //MMW shf0 event selet
mt_emi_sync_write(EMI_APB_BASE+0x00000d80,0x00100000); //MMW shf1 event selet
mt_emi_sync_write(EMI_APB_BASE+0x00000d84,0x00004000); //MMW shf1 event selet
mt_emi_sync_write(EMI_APB_BASE+0x00000d88,0x00080000); //MMW shf2 event selet
mt_emi_sync_write(EMI_APB_BASE+0x00000d8c,0x00002000); //MMW shf2 event selet
mt_emi_sync_write(EMI_APB_BASE+0x00000d90,0x08080000); //MMW shf0
mt_emi_sync_write(EMI_APB_BASE+0x00000d94,0x00074040); //MMW shf1
mt_emi_sync_write(EMI_APB_BASE+0x00000d98,0x00400000); //MDHWR sh0 event select
mt_emi_sync_write(EMI_APB_BASE+0x00000da0,0x00200000); //MDHWR sh1 event select
mt_emi_sync_write(EMI_APB_BASE+0x00000da8,0x10100404); //MDHWWR sh
mt_emi_sync_write(EMI_APB_BASE+0x00000dac,0x01000000); //MDHWW sh0 event select
mt_emi_sync_write(EMI_APB_BASE+0x00000db4,0x00800000); //MDHWW sh1 event select
mt_emi_sync_write(EMI_APB_BASE+0x00000dbc,0x04000000); //GPUR sh0 event select
mt_emi_sync_write(EMI_APB_BASE+0x00000dc4,0x02000000); //GPUR sh1 event select
mt_emi_sync_write(EMI_APB_BASE+0x00000dcc,0x60602010); //GPUR
mt_emi_sync_write(EMI_APB_BASE+0x00000dd0,0x10000000); //GPUW sh0 event select
mt_emi_sync_write(EMI_APB_BASE+0x00000dd8,0x08000000); //GPUW sh1 event select
mt_emi_sync_write(EMI_APB_BASE+0x00000de0,0x00000009); //ARBR sh0 event select
mt_emi_sync_write(EMI_APB_BASE+0x00000de8,0x04400080); //ARBR sh1 event select
mt_emi_sync_write(EMI_APB_BASE+0x00000df0,0x0f170f11); //ARB
mt_emi_sync_write(EMI_APB_BASE+0x00000df4,0x0303f7f7); //QOS control
mt_emi_sync_write(EMI_APB_BASE+0x00000e04,0x00000166);
mt_emi_sync_write(EMI_APB_BASE+0x00000e08,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x00000e0c,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x00000e14,0x00400166);
mt_emi_sync_write(EMI_APB_BASE+0x00000e18,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x00000e1c,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x00000e24,0x00000266);
mt_emi_sync_write(EMI_APB_BASE+0x00000e28,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x00000e2c,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x00000e34,0x00400266);
mt_emi_sync_write(EMI_APB_BASE+0x00000e38,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x00000e3c,0xffffffff);
// Added by Wei-Lun - START
// prtcl chker - golden setting
mt_emi_sync_write(EMI_APB_BASE+0x00000304,0xffffffff); // cyc
mt_emi_sync_write(EMI_APB_BASE+0x0000030c,0x001ffc85); // ctl
mt_emi_sync_write(EMI_APB_BASE+0x00000314,0xffffffff); // msk
mt_emi_sync_write(EMI_APB_BASE+0x0000034c,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x00000354,0x001ffc85);
mt_emi_sync_write(EMI_APB_BASE+0x0000035c,0xffffffff); // msk
mt_emi_sync_write(EMI_APB_BASE+0x00000394,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x0000039c,0x001ffc85);
mt_emi_sync_write(EMI_APB_BASE+0x000003a4,0xffffffff); // msk
mt_emi_sync_write(EMI_APB_BASE+0x000003d8,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x000003dc,0x001ffc85);
mt_emi_sync_write(EMI_APB_BASE+0x000003e0,0xffffffff); // msk
mt_emi_sync_write(EMI_APB_BASE+0x000003fc,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x0000040c,0x001ffc85);
mt_emi_sync_write(EMI_APB_BASE+0x00000414,0xffffffff); // msk
mt_emi_sync_write(EMI_APB_BASE+0x0000044c,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x00000454,0x001ffc85);
mt_emi_sync_write(EMI_APB_BASE+0x0000045c,0xffffffff); // msk
mt_emi_sync_write(EMI_APB_BASE+0x0000049c,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x000004a4,0x001ffc85);
mt_emi_sync_write(EMI_APB_BASE+0x000004ac,0xffffffff); // msk
mt_emi_sync_write(EMI_APB_BASE+0x0000050c,0xffffffff);
mt_emi_sync_write(EMI_APB_BASE+0x00000514,0x001ffc85);
mt_emi_sync_write(EMI_APB_BASE+0x0000051c,0xffffffff); // msk
// maxbw monitor - golden setting
// enable dbw0 cnter for max bw correlation (m3/4 no filters are enabled)
// Added by Wei-Lun - END
//weilun for new feature
mt_emi_sync_write(EMI_APB_BASE+0x00000714,0x00000000); // dvfs level setting for chn_em i rw switching shf
// cen_emi timeout value
mt_emi_sync_write(EMI_APB_BASE+0x00000628,0x60606060);
mt_emi_sync_write(EMI_APB_BASE+0x0000062c,0x60606060);
// fine-grained qos
mt_emi_sync_write(EMI_APB_BASE+0x00000050,0x00000000);
// ostd->bw
mt_emi_sync_write(EMI_APB_BASE+0x0000061c,0x08ffbbff);
mt_emi_sync_write(EMI_APB_BASE+0x00000624,0xffff5b3c);
mt_emi_sync_write(EMI_APB_BASE+0x00000774,0xffff00ff);
mt_emi_sync_write(EMI_APB_BASE+0x0000077c,0x00ffffff);
mt_emi_sync_write(EMI_APB_BASE+0x00000784,0xffff00ff);
mt_emi_sync_write(EMI_APB_BASE+0x0000078c,0x00ffffff);
mt_emi_sync_write(EMI_APB_BASE+0x00000958,0x00000000);
// hash rule
mt_emi_sync_write(EMI_APB_BASE+0x000007a4,0xC0000000);
}
static void emi_chn_config(void)
{
#ifdef RANK_512MB // => 2channel , dual rank , total=2G
mt_emi_sync_write(CHN0_EMI_BASE+0x00000000,0x0400a051);
#else //RANK_1G => 2channel , dual rank , total=4G
mt_emi_sync_write(CHN0_EMI_BASE+0x00000000,0x0400f051);
#endif
mt_emi_sync_write(CHN0_EMI_BASE+0x00000008,0x00ff6048);
mt_emi_sync_write(CHN0_EMI_BASE+0x00000010,0x00000004);
mt_emi_sync_write(CHN0_EMI_BASE+0x00000018,0x99f08c03);
mt_emi_sync_write(CHN0_EMI_BASE+0x00000710,0x9a508c17); // [24:20] = 0x2 : bank throttling (default=0x01f00000)
mt_emi_sync_write(CHN0_EMI_BASE+0x00000048,0x00038137); //RD_INORDER_THR[20:16]= 2
mt_emi_sync_write(CHN0_EMI_BASE+0x00000050,0x38460002); // [1] : MD_RD_AFT_WR_EN
mt_emi_sync_write(CHN0_EMI_BASE+0x00000058,0x00000000);
mt_emi_sync_write(CHN0_EMI_BASE+0x00000090,0x000002ff);
mt_emi_sync_write(CHN0_EMI_BASE+0x00000098,0x00003111); //mw2
mt_emi_sync_write(CHN0_EMI_BASE+0x00000140,0x22607188);
mt_emi_sync_write(CHN0_EMI_BASE+0x00000144,0x22607188);
mt_emi_sync_write(CHN0_EMI_BASE+0x00000148,0x3719595e); // chuan
mt_emi_sync_write(CHN0_EMI_BASE+0x0000014c,0x2719595e); // chuan
mt_emi_sync_write(CHN0_EMI_BASE+0x00000150,0x64f3ff79);
mt_emi_sync_write(CHN0_EMI_BASE+0x00000154,0x64f3ff79); // update timeout settin g: bit 12~15
mt_emi_sync_write(CHN0_EMI_BASE+0x00000158,0x011b0868);
// #ifdef SCN_ICFP
// mt_emi_sync_write(CHN0_EMI_BASE+0x0000015c,0x88410222); // Stop urgent read f irst when write command buffer remain < 8
// #else //SCN_UI
// mt_emi_sync_write(CHN0_EMI_BASE+0x0000015c,0x82410222); // Stop urgent read f irst when write command buffer remain < 2
// #endif
mt_emi_sync_write(CHN0_EMI_BASE+0x0000015c,0xa7414222); // Stop urgent read firs t when write command buffer remain < 7, [31] ultra_read_first, [30:28] wr_rsv_thr_l, [27: 24] wr_rsv_thr_h,
mt_emi_sync_write(CHN0_EMI_BASE+0x0000016c,0x0000f801);
mt_emi_sync_write(CHN0_EMI_BASE+0x00000170,0x40000000);
mt_emi_sync_write(CHN0_EMI_BASE+0x000001b0,0x000c802f); // Rank-Aware arbitration
mt_emi_sync_write(CHN0_EMI_BASE+0x000001b4,0xbd3f3f7e); // Rank-Aware arbitration
mt_emi_sync_write(CHN0_EMI_BASE+0x000001b8,0x7e003d7e); // Rank-Aware arbitration
mt_emi_sync_write(CHN0_EMI_BASE+0x000003fc,0x00000000); // Write M17_toggle_mask = 0
mt_emi_sync_write(CHN0_EMI_BASE+0x00000080,0xaa0148ff);
mt_emi_sync_write(CHN0_EMI_BASE+0x00000088,0xaa6168ff);
mt_emi_sync_write(CHN0_EMI_BASE+0x00000404,0xaa516cff);
mt_emi_sync_write(CHN0_EMI_BASE+0x00000408,0xaa0140ff);
mt_emi_sync_write(CHN0_EMI_BASE+0x0000040c,0x9f658633);
}
static void emi_sw_setting(void)
{
int emi_dcm;
/* Enable MPU violation interrupt to MD for D1 and D7 */
*((volatile unsigned int *)EMI_MPU_CTRL_D(1)) |= 0x10;
*((volatile unsigned int *)EMI_MPU_CTRL_D(7)) |= 0x10;
/* for DVFS BW monitor */
*((volatile unsigned int *) EMI_BWCT0) = 0x05008305;
*((volatile unsigned int *) EMI_BWCT0_6TH) = 0x08FF8705;
*((volatile unsigned int *) EMI_BWCT0_3RD) = 0x0DFF8A05;
*((volatile unsigned int *) EMI_THRO_CTRL1) |= 0x300;
#ifdef LAST_EMI
last_emi_info_ptr = (LAST_EMI_INFO_T *) get_dbg_info_base(KEY_LAST_EMI);
if (last_emi_info_ptr->isu_magic != LAST_EMI_MAGIC_PATTERN) {
last_emi_info_ptr->isu_magic = LAST_EMI_MAGIC_PATTERN;
last_emi_info_ptr->isu_version = 0xFFFFFFFF;
last_emi_info_ptr->isu_dram_type = 0;
last_emi_info_ptr->isu_diff_us = 0;
last_emi_info_ptr->os_flag_sspm = 0;
last_emi_info_ptr->os_flag_ap = 0;
}
emi_isu = atoi(dconfig_getenv("emi_isu"));
emi_log("[EMI DOE] emi_isu %d\n", emi_isu);
if (emi_isu == 1)
last_emi_info_ptr->isu_ctrl = 0xDECDDECD;
else if (emi_isu == 2)
last_emi_info_ptr->isu_ctrl = 0xDEC0DEC0;
else {
#if CFG_LAST_EMI_BW_DUMP
last_emi_info_ptr->isu_ctrl = 0xDECDDECD;
#else
last_emi_info_ptr->isu_ctrl = 0xDEC0DEC0;
#endif
}
#endif
*((volatile unsigned int *)0x10219858) |= 0x1 << 11;
emi_dcm = 0;//atoi(dconfig_getenv("emi_dcm"));
emi_log("[EMI DOE] emi_dcm %d\n", emi_dcm);
if (emi_dcm == 1) {
*((volatile unsigned int *)EMI_CONM) &= ~0xFF000000;
*((volatile unsigned int *)EMI_CONN) &= ~0xFF000000;
} else if (emi_dcm == 2) {
*((volatile unsigned int *)EMI_CONM) |= 0xFF000000;
*((volatile unsigned int *)EMI_CONN) |= 0xFF000000;
}
dsb();
}
void emi_init(void)
{
/* emi_config_lpddr4_2ch_golden_20191202_1000.c */
//Broadcast on
mt_emi_sync_write(INFRA_DRAMC_REG_CONFIG,0x0000007f);
emi_cen_config();
emi_chn_config();
//Broadcast off
mt_emi_sync_write(INFRA_DRAMC_REG_CONFIG,0x00000000);
}
void emi_init2(void)
{
unsigned int emi_temp_data;
//Broadcast on
mt_emi_sync_write(INFRA_DRAMC_REG_CONFIG, 0x0000007f);
mt_emi_sync_write_or(CHN0_EMI_BASE+0x00000010, 0x00000001); // [0] EMI enable
mt_emi_sync_write_or(EMI_BASE+0x00000060, 0x00000400); //[10] EMI enable
#ifdef MARGAUX_REAL_CHIP_EMI_GOLDEN_SETTING
mt_emi_sync_write_or(EMI_MPU_BASE+0x00000000,0x00000010); // [4] Disable emi_mpu_reg in terrupt
// Clear rank_arb_en
emi_temp_data = mt_emi_sync_read(CHN0_EMI_BASE+0x000001b0); // read ch0
emi_temp_data = emi_temp_data & ~(0x1);
mt_emi_sync_write(CHN0_EMI_BASE+0x000001b0, emi_temp_data); // broadcast to all channel
// auto-config rank_arb_en according to dual_rank_en setting
// assume all channel with same configuration
emi_temp_data = mt_emi_sync_read(CHN0_EMI_BASE+0x00000000); // read ch0
emi_temp_data = emi_temp_data & 0x1;
mt_emi_sync_write_or(CHN0_EMI_BASE+0x000001b0, emi_temp_data); // broadcast to a ll channel
// ----- from dcm_setting.c -----
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x100, 0xFFFFFFFF);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x104, 0xFFFFFFFF);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x108, 0xFFFFFFFF);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x10C, 0xFFFFFFFF);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x110, 0x01F00000);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x114, 0xC0040180);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x118, 0x00000000);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x11C, 0x00000003);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x120, 0x0C000000);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x124, 0x00C00000);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x128, 0x01F08000);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x12C, 0x00000000);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x130, 0x20003040);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x134, 0x00000000);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x138, 0x00001000);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x13C, 0x00000000);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x140, 0x10020F20);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x144, 0x00019000);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x148, 0x040A0818);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x14C, 0x00000370);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x150, 0xC001C080);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x154, 0x33000E01);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x158, 0x180067E1);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x15C, 0x000C008C);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x160, 0x020C0008);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x164, 0x0C00007E);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x168, 0x80050006);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x16C, 0x00030000);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x028, 0x0000000F);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x02C, 0x00000000);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x030, 0x001F0044);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x038, 0x200000FF);
mt_emi_sync_write_or(INFRACFG_AO_BASE+0x00000078, 0x08000000); // enable infra_local_cg
#ifdef MARGAUX_EMI_MP_SETTING
// Enable rdata_prty_gen & wdata_prty_chk
// emi bus parity workaround
emi_temp_data = mt_emi_sync_read(0x40000000);
mt_emi_sync_write(0x40000000, emi_temp_data);
emi_temp_data = mt_emi_sync_read(0x40000100);
mt_emi_sync_write(0x40000100, emi_temp_data);
emi_temp_data = mt_emi_sync_read(0x40000200);
mt_emi_sync_write(0x40000200, emi_temp_data);
emi_temp_data = mt_emi_sync_read(0x40000300);
mt_emi_sync_write(0x40000300, emi_temp_data);
mt_emi_sync_write_or(EMI_APB_BASE+0x00000068,0x00400000); // enable cen_emi parity (w)
mt_emi_sync_write_or(CHN0_EMI_BASE+0x00000050,0x00000004); // enable chn_emi par ity
/*TINFO="Enable APMCU Early CKE"*/
//mt_emi_sync_write_or(EMI_APB_BASE+0x000007f4, 0x00006000);
//emi_temp_data = mt_emi_sync_read(EMI_APB_BASE+0x000007f4);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x00000050, 0x00000007); // set disph_chn_en = 0x7
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x00000050, 0x80000007); // set disph_chg_en = 0x1
/*TINFO="read emi_reg_pd then write apmcu config reg"*/
emi_temp_data = mt_emi_sync_read(INFRACFG_AO_MEM_BASE+0x050);
emi_temp_data = emi_temp_data & 0xf;
mt_emi_sync_write_or(EMI_BASE+0x07A4, emi_temp_data);
/*TINFO="Enable EMI wdata bus encode function"*/
mt_emi_sync_write_or(EMI_APB_BASE+0x00000068,0x00200000); // enable cen_emi wdata bus e ncode // *EMI_CONN |= (0x1 << 21);
mt_emi_sync_write_or(CHN0_EMI_BASE+0x00000050,0x00000010); // enable chn_emi wda ta bus encode // *CHN0_EMI_CHN_EMI_DFTC |= (0x1 <<4);
#else
// MP_dsim_v02 test (from v01) - all fr
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x028, 0x003F0000);
mt_emi_sync_write(INFRACFG_AO_MEM_BASE+0x02C, 0xA0000000);
#endif
#endif
mt_emi_sync_write(CHN0_EMI_BASE+0x0020, 0x00000040); // disable EBG
//Broadcast off
mt_emi_sync_write(INFRA_DRAMC_REG_CONFIG, 0x00000000);
emi_sw_setting();
}
int get_row_width_by_emi(unsigned int rank)
{
unsigned int emi_cona;
unsigned int shift_row, shift_ext;
int row_width;
if (rank == 0) {
shift_row = 12;
shift_ext = 22;
} else if (rank == 1) {
shift_row = 14;
shift_ext = 23;
} else
return -1;
emi_cona = mt_emi_sync_read(EMI_CONA);
row_width =
((emi_cona >> shift_row) & 0x3) |
((emi_cona >> shift_ext) & 0x4);
return (row_width + 13);
}
int get_channel_nr_by_emi(void)
{
int channel_nr;
channel_nr = 0x1 << ((mt_emi_sync_read(EMI_CONA) >> 8) & 0x3);
return channel_nr;
}
int get_rank_nr_by_emi(void)
{
unsigned int cen_emi_cona = mt_emi_sync_read(EMI_CONA);
if (cen_emi_cona & (0x3 << 16))
return 2;
else
return 1;
}
_Static_assert(DRAMC_MAX_RK > 1, "rank number is violated");
void get_rank_size_by_emi(unsigned long long dram_rank_size[DRAMC_MAX_RK])
{
unsigned int quad_ch_ratio;
unsigned long long ch0_rank0_size, ch0_rank1_size;
unsigned long long ch1_rank0_size, ch1_rank1_size;
unsigned int cen_emi_conh = mt_emi_sync_read(EMI_CONH);
dram_rank_size[0] = 0;
dram_rank_size[1] = 0;
ch0_rank0_size = (cen_emi_conh >> 16) & 0xF;
ch0_rank1_size = (cen_emi_conh >> 20) & 0xF;
ch1_rank0_size = (cen_emi_conh >> 24) & 0xF;
ch1_rank1_size = (cen_emi_conh >> 28) & 0xF;
quad_ch_ratio = (get_rank_nr_by_emi() == 4)? 2 : 1;
ch0_rank0_size = (ch0_rank0_size * quad_ch_ratio) << 28;
ch0_rank1_size = (ch0_rank1_size * quad_ch_ratio) << 28;
ch1_rank0_size = (ch1_rank0_size * quad_ch_ratio) << 28;
ch1_rank1_size = (ch1_rank1_size * quad_ch_ratio) << 28;
if(ch0_rank0_size == 0) {
die("[EMI] undefined CONH for CH0 RANK0\n");
}
dram_rank_size[0] += ch0_rank0_size;
if (get_rank_nr_by_emi() > 1) {
if(ch0_rank1_size == 0) {
die("[EMI] undefined CONH for CH0 RANK1\n");
}
dram_rank_size[1] += ch0_rank1_size;
}
if(get_channel_nr_by_emi() > 1) {
if(ch1_rank0_size == 0) {
die("[EMI] undefined CONH for CH1 RANK0\n");
}
dram_rank_size[0] += ch1_rank0_size;
if (get_rank_nr_by_emi() > 1) {
if(ch1_rank1_size == 0) {
die("[EMI] undefined CONH for CH1 RANK1\n");
}
dram_rank_size[1] += ch1_rank1_size;
}
}
emi_log("DRAM rank0 size:0x%llx,\nDRAM rank1 size=0x%llx\n",
dram_rank_size[0], dram_rank_size[1]);
}
void set_cen_emi_cona(unsigned int cona_val)
{
mt_emi_sync_write(EMI_CONA, cona_val);
}
void set_cen_emi_conf(unsigned int conf_val)
{
mt_emi_sync_write(EMI_CONF, conf_val);
}
void set_cen_emi_conh(unsigned int conh_val)
{
mt_emi_sync_write(EMI_CONH, conh_val);
}
void set_chn_emi_cona(unsigned int cona_val)
{
mt_emi_sync_write(CHN_EMI_CONA(CHN0_EMI_BASE), cona_val);
mt_emi_sync_write(CHN_EMI_CONA(CHN1_EMI_BASE), cona_val);
}
void set_chn_emi_conc(unsigned int conc_val)
{
mt_emi_sync_write(CHN_EMI_CONC(CHN0_EMI_BASE), conc_val);
mt_emi_sync_write(CHN_EMI_CONC(CHN1_EMI_BASE), conc_val);
}
unsigned int get_cen_emi_cona(void)
{
return mt_emi_sync_read(EMI_CONA);
}
/* assume all chn emi setting are the same */
unsigned int get_chn_emi_cona(void)
{
unsigned int ch0_emi_cona;
ch0_emi_cona = mt_emi_sync_read(CHN0_EMI_BASE);
return ch0_emi_cona;
}
void phy_addr_to_dram_addr(dram_addr_t *dram_addr, unsigned long long phy_addr)
{
unsigned int cen_emi_cona, cen_emi_conf;
unsigned long long rank_size[DRAMC_MAX_RK];
unsigned int channel_num, rank_num;
unsigned int bit_scramble, bit_xor, bit_shift, channel_pos, channel_width;
unsigned int temp;
unsigned int index;
cen_emi_cona = mt_emi_sync_read(EMI_CONA);
cen_emi_conf = mt_emi_sync_read(EMI_CONF) >> 8;
get_rank_size_by_emi(rank_size);
rank_num = (unsigned int) get_rank_nr_by_emi();
channel_num = (unsigned int) get_channel_nr_by_emi();
phy_addr -= 0x40000000;
for (index = 0; index < rank_num; index++) {
if (phy_addr >= rank_size[index])
phy_addr -= rank_size[index];
else
break;
}
for (bit_scramble = 11; bit_scramble < 17; bit_scramble++) {
bit_xor = (cen_emi_conf >> (4 * (bit_scramble - 11))) & 0xf;
bit_xor &= phy_addr >> 16;
for (bit_shift = 0; bit_shift < 4; bit_shift++)
phy_addr ^= ((bit_xor>>bit_shift)&0x1) << bit_scramble;
}
if (channel_num > 1) {
channel_pos = ((cen_emi_cona >> 2) & 0x3) + 7;
for (channel_width = bit_shift = 0; bit_shift < 4; bit_shift++) {
if ((unsigned int)(1 << bit_shift) >= channel_num)
break;
channel_width++;
}
switch (channel_width) {
case 2:
dram_addr->addr = ((phy_addr & ~(((0x1 << 2) << channel_pos) - 1)) >> 2);
break;
default:
dram_addr->addr = ((phy_addr & ~(((0x1 << 1) << channel_pos) - 1)) >> 1);
break;
}
dram_addr->addr |= (phy_addr & ((0x1 << channel_pos) - 1));
}
temp = dram_addr->addr >> 1;
switch ((cen_emi_cona >> 4) & 0x3) {
case 0:
dram_addr->col = temp & 0x1FF;
temp = temp >> 9;
break;
case 1:
dram_addr->col = temp & 0x3FF;
temp = temp >> 10;
break;
case 2:
default:
dram_addr->col = temp & 0x7FF;
temp = temp >> 11;
break;
}
dram_addr->bk = temp & 0x7;
temp = temp >> 3;
dram_addr->row = temp;
emi_log("[EMI] ch%d, rk%d, dram addr: %x\n", dram_addr->ch, dram_addr->rk, dram_addr->addr);
emi_log("[EMI] bk%x, row%x, col%x\n", dram_addr->bk, dram_addr->row, dram_addr->col);
}
static unsigned int cen_emi_conh_backup = 0;
static unsigned int chn_emi_cona_backup = 0;
/* return the start address of rank1 */
unsigned int set_emi_before_rank1_mem_test(void)
{
cen_emi_conh_backup = mt_emi_sync_read(EMI_CONH);
chn_emi_cona_backup = get_chn_emi_cona();
if (get_rank_nr_by_emi() == 2) {
/* set the rank size to 1GB for 2 channels */
mt_emi_sync_write(EMI_CONH,
(cen_emi_conh_backup & 0x0000ffff) | 0x22220000);
set_chn_emi_cona(
(chn_emi_cona_backup & 0xff00ffff) | 0x00220000);
} else {
/* set the rank size to 1GB for 1 channel */
mt_emi_sync_write(EMI_CONH,
(cen_emi_conh_backup & 0x0000ffff) | 0x44440000);
set_chn_emi_cona(
(chn_emi_cona_backup & 0xff00ffff) | 0x00440000);
}
return 0x40000000;
}
void restore_emi_after_rank1_mem_test(void)
{
mt_emi_sync_write(EMI_CONH, cen_emi_conh_backup);
set_chn_emi_cona(chn_emi_cona_backup);
}
unsigned long long platform_memory_size(void)
{
static unsigned long long mem_size = 0;
int nr_rank;
int i;
unsigned long long rank_size[DRAMC_MAX_RK];
if (!mem_size) {
nr_rank = get_dram_rank_nr();
get_dram_rank_size(rank_size);
for (i = 0; i < nr_rank; i++)
mem_size += rank_size[i];
}
return mem_size;
}
size_t sdram_size(void)
{
int rank_num;
size_t dram_size = 0;
u64 rank_size[RANK_MAX];
get_rank_size_by_emi(rank_size);
rank_num = get_rank_nr_by_emi();
for (int i = 0; i < rank_num; i++)
dram_size += rank_size[i];
return dram_size;
}
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