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/*
* Copyright (C) 2018 Marvell International Ltd.
*
* SPDX-License-Identifier: BSD-3-Clause
* https://spdx.org/licenses
*/
#include <platform_def.h>
#include <common/debug.h>
#include <lib/mmio.h>
#include <ddr_info.h>
#define DRAM_CH0_MMAP_LOW_REG(iface, cs, base) \
(base + DRAM_CH0_MMAP_LOW_OFFSET + (iface) * 0x10000 + (cs) * 0x8)
#define DRAM_CH0_MMAP_HIGH_REG(iface, cs, base) \
(DRAM_CH0_MMAP_LOW_REG(iface, cs, base) + 4)
#define DRAM_CS_VALID_ENABLED_MASK 0x1
#define DRAM_AREA_LENGTH_OFFS 16
#define DRAM_AREA_LENGTH_MASK (0x1f << DRAM_AREA_LENGTH_OFFS)
#define DRAM_START_ADDRESS_L_OFFS 23
#define DRAM_START_ADDRESS_L_MASK \
(0x1ff << DRAM_START_ADDRESS_L_OFFS)
#define DRAM_START_ADDR_HTOL_OFFS 32
#define DRAM_MAX_CS_NUM 2
#define DRAM_CS_ENABLED(iface, cs, base) \
(mmio_read_32(DRAM_CH0_MMAP_LOW_REG(iface, cs, base)) & \
DRAM_CS_VALID_ENABLED_MASK)
#define GET_DRAM_REGION_SIZE_CODE(iface, cs, base) \
(mmio_read_32(DRAM_CH0_MMAP_LOW_REG(iface, cs, base)) & \
DRAM_AREA_LENGTH_MASK) >> DRAM_AREA_LENGTH_OFFS
/* Mapping between DDR area length and real DDR size is specific and looks like
* bellow:
* 0 => 384 MB
* 1 => 768 MB
* 2 => 1536 MB
* 3 => 3 GB
* 4 => 6 GB
*
* 7 => 8 MB
* 8 => 16 MB
* 9 => 32 MB
* 10 => 64 MB
* 11 => 128 MB
* 12 => 256 MB
* 13 => 512 MB
* 14 => 1 GB
* 15 => 2 GB
* 16 => 4 GB
* 17 => 8 GB
* 18 => 16 GB
* 19 => 32 GB
* 20 => 64 GB
* 21 => 128 GB
* 22 => 256 GB
* 23 => 512 GB
* 24 => 1 TB
* 25 => 2 TB
* 26 => 4 TB
*
* to calculate real size we need to use two different formulas:
* -- GET_DRAM_REGION_SIZE_ODD for values 0-4 (DRAM_REGION_SIZE_ODD)
* -- GET_DRAM_REGION_SIZE_EVEN for values 7-26 (DRAM_REGION_SIZE_EVEN)
* using mentioned formulas we cover whole mapping between "Area length" value
* and real size (see above mapping).
*/
#define DRAM_REGION_SIZE_EVEN(C) (((C) >= 7) && ((C) <= 26))
#define GET_DRAM_REGION_SIZE_EVEN(C) ((uint64_t)1 << ((C) + 16))
#define DRAM_REGION_SIZE_ODD(C) ((C) <= 4)
#define GET_DRAM_REGION_SIZE_ODD(C) ((uint64_t)0x18000000 << (C))
uint64_t mvebu_get_dram_size(uint64_t ap_base_addr)
{
uint64_t mem_size = 0;
uint8_t region_code;
uint8_t cs, iface;
for (iface = 0; iface < DRAM_MAX_IFACE; iface++) {
for (cs = 0; cs < DRAM_MAX_CS_NUM; cs++) {
/* Exit loop on first disabled DRAM CS */
if (!DRAM_CS_ENABLED(iface, cs, ap_base_addr))
break;
/* Decode area length for current CS
* from register value
*/
region_code =
GET_DRAM_REGION_SIZE_CODE(iface, cs,
ap_base_addr);
if (DRAM_REGION_SIZE_EVEN(region_code)) {
mem_size +=
GET_DRAM_REGION_SIZE_EVEN(region_code);
} else if (DRAM_REGION_SIZE_ODD(region_code)) {
mem_size +=
GET_DRAM_REGION_SIZE_ODD(region_code);
} else {
WARN("%s: Invalid mem region (0x%x) CS#%d\n",
__func__, region_code, cs);
return 0;
}
}
}
return mem_size;
}
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