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|
/*
* Copyright 2014-2015 Freescale Semiconductor, Inc.
*
* SPDX-License-Identifier: GPL-2.0+
*/
#include <common.h>
#include <asm/io.h>
#include <linux/errno.h>
#include <asm/system.h>
#include <asm/armv8/mmu.h>
#include <asm/io.h>
#include <asm/arch/fsl_serdes.h>
#include <asm/arch/soc.h>
#include <asm/arch/cpu.h>
#include <asm/arch/speed.h>
#ifdef CONFIG_MP
#include <asm/arch/mp.h>
#endif
#include <efi_loader.h>
#include <fm_eth.h>
#include <fsl-mc/fsl_mc.h>
#ifdef CONFIG_FSL_ESDHC
#include <fsl_esdhc.h>
#endif
#ifdef CONFIG_ARMV8_SEC_FIRMWARE_SUPPORT
#include <asm/armv8/sec_firmware.h>
#endif
#ifdef CONFIG_SYS_FSL_DDR
#include <fsl_ddr.h>
#endif
DECLARE_GLOBAL_DATA_PTR;
struct mm_region *mem_map = early_map;
void cpu_name(char *name)
{
struct ccsr_gur __iomem *gur = (void *)(CONFIG_SYS_FSL_GUTS_ADDR);
unsigned int i, svr, ver;
svr = gur_in32(&gur->svr);
ver = SVR_SOC_VER(svr);
for (i = 0; i < ARRAY_SIZE(cpu_type_list); i++)
if ((cpu_type_list[i].soc_ver & SVR_WO_E) == ver) {
strcpy(name, cpu_type_list[i].name);
if (IS_E_PROCESSOR(svr))
strcat(name, "E");
sprintf(name + strlen(name), " Rev%d.%d",
SVR_MAJ(svr), SVR_MIN(svr));
break;
}
if (i == ARRAY_SIZE(cpu_type_list))
strcpy(name, "unknown");
}
#ifndef CONFIG_SYS_DCACHE_OFF
/*
* To start MMU before DDR is available, we create MMU table in SRAM.
* The base address of SRAM is CONFIG_SYS_FSL_OCRAM_BASE. We use three
* levels of translation tables here to cover 40-bit address space.
* We use 4KB granule size, with 40 bits physical address, T0SZ=24
* Address above EARLY_PGTABLE_SIZE (0x5000) is free for other purpose.
* Note, the debug print in cache_v8.c is not usable for debugging
* these early MMU tables because UART is not yet available.
*/
static inline void early_mmu_setup(void)
{
unsigned int el = current_el();
/* global data is already setup, no allocation yet */
gd->arch.tlb_addr = CONFIG_SYS_FSL_OCRAM_BASE;
gd->arch.tlb_fillptr = gd->arch.tlb_addr;
gd->arch.tlb_size = EARLY_PGTABLE_SIZE;
/* Create early page tables */
setup_pgtables();
/* point TTBR to the new table */
set_ttbr_tcr_mair(el, gd->arch.tlb_addr,
get_tcr(el, NULL, NULL) &
~(TCR_ORGN_MASK | TCR_IRGN_MASK),
MEMORY_ATTRIBUTES);
set_sctlr(get_sctlr() | CR_M);
}
/*
* The final tables look similar to early tables, but different in detail.
* These tables are in DRAM. Sub tables are added to enable cache for
* QBMan and OCRAM.
*
* Put the MMU table in secure memory if gd->arch.secure_ram is valid.
* OCRAM will be not used for this purpose so gd->arch.secure_ram can't be 0.
*/
static inline void final_mmu_setup(void)
{
u64 tlb_addr_save = gd->arch.tlb_addr;
unsigned int el = current_el();
int index;
mem_map = final_map;
/* Update mapping for DDR to actual size */
for (index = 0; index < ARRAY_SIZE(final_map) - 2; index++) {
/*
* Find the entry for DDR mapping and update the address and
* size. Zero-sized mapping will be skipped when creating MMU
* table.
*/
switch (final_map[index].virt) {
case CONFIG_SYS_FSL_DRAM_BASE1:
final_map[index].virt = gd->bd->bi_dram[0].start;
final_map[index].phys = gd->bd->bi_dram[0].start;
final_map[index].size = gd->bd->bi_dram[0].size;
break;
#ifdef CONFIG_SYS_FSL_DRAM_BASE2
case CONFIG_SYS_FSL_DRAM_BASE2:
#if (CONFIG_NR_DRAM_BANKS >= 2)
final_map[index].virt = gd->bd->bi_dram[1].start;
final_map[index].phys = gd->bd->bi_dram[1].start;
final_map[index].size = gd->bd->bi_dram[1].size;
#else
final_map[index].size = 0;
#endif
break;
#endif
#ifdef CONFIG_SYS_FSL_DRAM_BASE3
case CONFIG_SYS_FSL_DRAM_BASE3:
#if (CONFIG_NR_DRAM_BANKS >= 3)
final_map[index].virt = gd->bd->bi_dram[2].start;
final_map[index].phys = gd->bd->bi_dram[2].start;
final_map[index].size = gd->bd->bi_dram[2].size;
#else
final_map[index].size = 0;
#endif
break;
#endif
default:
break;
}
}
#ifdef CONFIG_SYS_MEM_RESERVE_SECURE
if (gd->arch.secure_ram & MEM_RESERVE_SECURE_MAINTAINED) {
if (el == 3) {
/*
* Only use gd->arch.secure_ram if the address is
* recalculated. Align to 4KB for MMU table.
*/
/* put page tables in secure ram */
index = ARRAY_SIZE(final_map) - 2;
gd->arch.tlb_addr = gd->arch.secure_ram & ~0xfff;
final_map[index].virt = gd->arch.secure_ram & ~0x3;
final_map[index].phys = final_map[index].virt;
final_map[index].size = CONFIG_SYS_MEM_RESERVE_SECURE;
final_map[index].attrs = PTE_BLOCK_OUTER_SHARE;
gd->arch.secure_ram |= MEM_RESERVE_SECURE_SECURED;
tlb_addr_save = gd->arch.tlb_addr;
} else {
/* Use allocated (board_f.c) memory for TLB */
tlb_addr_save = gd->arch.tlb_allocated;
gd->arch.tlb_addr = tlb_addr_save;
}
}
#endif
/* Reset the fill ptr */
gd->arch.tlb_fillptr = tlb_addr_save;
/* Create normal system page tables */
setup_pgtables();
/* Create emergency page tables */
gd->arch.tlb_addr = gd->arch.tlb_fillptr;
gd->arch.tlb_emerg = gd->arch.tlb_addr;
setup_pgtables();
gd->arch.tlb_addr = tlb_addr_save;
/* Disable cache and MMU */
dcache_disable(); /* TLBs are invalidated */
invalidate_icache_all();
/* point TTBR to the new table */
set_ttbr_tcr_mair(el, gd->arch.tlb_addr, get_tcr(el, NULL, NULL),
MEMORY_ATTRIBUTES);
set_sctlr(get_sctlr() | CR_M);
}
u64 get_page_table_size(void)
{
return 0x10000;
}
int arch_cpu_init(void)
{
icache_enable();
__asm_invalidate_dcache_all();
__asm_invalidate_tlb_all();
early_mmu_setup();
set_sctlr(get_sctlr() | CR_C);
return 0;
}
void mmu_setup(void)
{
final_mmu_setup();
}
/*
* This function is called from common/board_r.c.
* It recreates MMU table in main memory.
*/
void enable_caches(void)
{
mmu_setup();
__asm_invalidate_tlb_all();
icache_enable();
dcache_enable();
}
#endif
u32 initiator_type(u32 cluster, int init_id)
{
struct ccsr_gur *gur = (void *)(CONFIG_SYS_FSL_GUTS_ADDR);
u32 idx = (cluster >> (init_id * 8)) & TP_CLUSTER_INIT_MASK;
u32 type = 0;
type = gur_in32(&gur->tp_ityp[idx]);
if (type & TP_ITYP_AV)
return type;
return 0;
}
u32 cpu_pos_mask(void)
{
struct ccsr_gur __iomem *gur = (void *)(CONFIG_SYS_FSL_GUTS_ADDR);
int i = 0;
u32 cluster, type, mask = 0;
do {
int j;
cluster = gur_in32(&gur->tp_cluster[i].lower);
for (j = 0; j < TP_INIT_PER_CLUSTER; j++) {
type = initiator_type(cluster, j);
if (type && (TP_ITYP_TYPE(type) == TP_ITYP_TYPE_ARM))
mask |= 1 << (i * TP_INIT_PER_CLUSTER + j);
}
i++;
} while ((cluster & TP_CLUSTER_EOC) == 0x0);
return mask;
}
u32 cpu_mask(void)
{
struct ccsr_gur __iomem *gur = (void *)(CONFIG_SYS_FSL_GUTS_ADDR);
int i = 0, count = 0;
u32 cluster, type, mask = 0;
do {
int j;
cluster = gur_in32(&gur->tp_cluster[i].lower);
for (j = 0; j < TP_INIT_PER_CLUSTER; j++) {
type = initiator_type(cluster, j);
if (type) {
if (TP_ITYP_TYPE(type) == TP_ITYP_TYPE_ARM)
mask |= 1 << count;
count++;
}
}
i++;
} while ((cluster & TP_CLUSTER_EOC) == 0x0);
return mask;
}
/*
* Return the number of cores on this SOC.
*/
int cpu_numcores(void)
{
return hweight32(cpu_mask());
}
int fsl_qoriq_core_to_cluster(unsigned int core)
{
struct ccsr_gur __iomem *gur =
(void __iomem *)(CONFIG_SYS_FSL_GUTS_ADDR);
int i = 0, count = 0;
u32 cluster;
do {
int j;
cluster = gur_in32(&gur->tp_cluster[i].lower);
for (j = 0; j < TP_INIT_PER_CLUSTER; j++) {
if (initiator_type(cluster, j)) {
if (count == core)
return i;
count++;
}
}
i++;
} while ((cluster & TP_CLUSTER_EOC) == 0x0);
return -1; /* cannot identify the cluster */
}
u32 fsl_qoriq_core_to_type(unsigned int core)
{
struct ccsr_gur __iomem *gur =
(void __iomem *)(CONFIG_SYS_FSL_GUTS_ADDR);
int i = 0, count = 0;
u32 cluster, type;
do {
int j;
cluster = gur_in32(&gur->tp_cluster[i].lower);
for (j = 0; j < TP_INIT_PER_CLUSTER; j++) {
type = initiator_type(cluster, j);
if (type) {
if (count == core)
return type;
count++;
}
}
i++;
} while ((cluster & TP_CLUSTER_EOC) == 0x0);
return -1; /* cannot identify the cluster */
}
#ifndef CONFIG_FSL_LSCH3
uint get_svr(void)
{
struct ccsr_gur __iomem *gur = (void *)(CONFIG_SYS_FSL_GUTS_ADDR);
return gur_in32(&gur->svr);
}
#endif
#ifdef CONFIG_DISPLAY_CPUINFO
int print_cpuinfo(void)
{
struct ccsr_gur __iomem *gur = (void *)(CONFIG_SYS_FSL_GUTS_ADDR);
struct sys_info sysinfo;
char buf[32];
unsigned int i, core;
u32 type, rcw, svr = gur_in32(&gur->svr);
puts("SoC: ");
cpu_name(buf);
printf(" %s (0x%x)\n", buf, svr);
memset((u8 *)buf, 0x00, ARRAY_SIZE(buf));
get_sys_info(&sysinfo);
puts("Clock Configuration:");
for_each_cpu(i, core, cpu_numcores(), cpu_mask()) {
if (!(i % 3))
puts("\n ");
type = TP_ITYP_VER(fsl_qoriq_core_to_type(core));
printf("CPU%d(%s):%-4s MHz ", core,
type == TY_ITYP_VER_A7 ? "A7 " :
(type == TY_ITYP_VER_A53 ? "A53" :
(type == TY_ITYP_VER_A57 ? "A57" :
(type == TY_ITYP_VER_A72 ? "A72" : " "))),
strmhz(buf, sysinfo.freq_processor[core]));
}
/* Display platform clock as Bus frequency. */
printf("\n Bus: %-4s MHz ",
strmhz(buf, sysinfo.freq_systembus / CONFIG_SYS_FSL_PCLK_DIV));
printf("DDR: %-4s MT/s", strmhz(buf, sysinfo.freq_ddrbus));
#ifdef CONFIG_SYS_DPAA_FMAN
printf(" FMAN: %-4s MHz", strmhz(buf, sysinfo.freq_fman[0]));
#endif
#ifdef CONFIG_SYS_FSL_HAS_DP_DDR
if (soc_has_dp_ddr()) {
printf(" DP-DDR: %-4s MT/s",
strmhz(buf, sysinfo.freq_ddrbus2));
}
#endif
puts("\n");
/*
* Display the RCW, so that no one gets confused as to what RCW
* we're actually using for this boot.
*/
puts("Reset Configuration Word (RCW):");
for (i = 0; i < ARRAY_SIZE(gur->rcwsr); i++) {
rcw = gur_in32(&gur->rcwsr[i]);
if ((i % 4) == 0)
printf("\n %08x:", i * 4);
printf(" %08x", rcw);
}
puts("\n");
return 0;
}
#endif
#ifdef CONFIG_FSL_ESDHC
int cpu_mmc_init(bd_t *bis)
{
return fsl_esdhc_mmc_init(bis);
}
#endif
int cpu_eth_init(bd_t *bis)
{
int error = 0;
#ifdef CONFIG_FSL_MC_ENET
error = fsl_mc_ldpaa_init(bis);
#endif
#ifdef CONFIG_FMAN_ENET
fm_standard_init(bis);
#endif
return error;
}
int arch_early_init_r(void)
{
#ifdef CONFIG_MP
int rv = 1;
u32 psci_ver = 0xffffffff;
#endif
#ifdef CONFIG_SYS_FSL_ERRATUM_A009635
erratum_a009635();
#endif
#if defined(CONFIG_SYS_FSL_ERRATUM_A009942) && defined(CONFIG_SYS_FSL_DDR)
erratum_a009942_check_cpo();
#endif
#ifdef CONFIG_MP
#if defined(CONFIG_ARMV8_SEC_FIRMWARE_SUPPORT) && \
defined(CONFIG_SEC_FIRMWARE_ARMV8_PSCI)
/* Check the psci version to determine if the psci is supported */
psci_ver = sec_firmware_support_psci_version();
#endif
if (psci_ver == 0xffffffff) {
rv = fsl_layerscape_wake_seconday_cores();
if (rv)
printf("Did not wake secondary cores\n");
}
#endif
#ifdef CONFIG_SYS_HAS_SERDES
fsl_serdes_init();
#endif
#ifdef CONFIG_FMAN_ENET
fman_enet_init();
#endif
return 0;
}
int timer_init(void)
{
u32 __iomem *cntcr = (u32 *)CONFIG_SYS_FSL_TIMER_ADDR;
#ifdef CONFIG_FSL_LSCH3
u32 __iomem *cltbenr = (u32 *)CONFIG_SYS_FSL_PMU_CLTBENR;
#endif
#ifdef CONFIG_LS2080A
u32 __iomem *pctbenr = (u32 *)FSL_PMU_PCTBENR_OFFSET;
u32 svr_dev_id;
#endif
#ifdef COUNTER_FREQUENCY_REAL
unsigned long cntfrq = COUNTER_FREQUENCY_REAL;
/* Update with accurate clock frequency */
asm volatile("msr cntfrq_el0, %0" : : "r" (cntfrq) : "memory");
#endif
#ifdef CONFIG_FSL_LSCH3
/* Enable timebase for all clusters.
* It is safe to do so even some clusters are not enabled.
*/
out_le32(cltbenr, 0xf);
#endif
#ifdef CONFIG_LS2080A
/*
* In certain Layerscape SoCs, the clock for each core's
* has an enable bit in the PMU Physical Core Time Base Enable
* Register (PCTBENR), which allows the watchdog to operate.
*/
setbits_le32(pctbenr, 0xff);
/*
* For LS2080A SoC and its personalities, timer controller
* offset is different
*/
svr_dev_id = get_svr() >> 16;
if (svr_dev_id == SVR_DEV_LS2080A)
cntcr = (u32 *)SYS_FSL_LS2080A_LS2085A_TIMER_ADDR;
#endif
/* Enable clock for timer
* This is a global setting.
*/
out_le32(cntcr, 0x1);
return 0;
}
__efi_runtime_data u32 __iomem *rstcr = (u32 *)CONFIG_SYS_FSL_RST_ADDR;
void __efi_runtime reset_cpu(ulong addr)
{
u32 val;
/* Raise RESET_REQ_B */
val = scfg_in32(rstcr);
val |= 0x02;
scfg_out32(rstcr, val);
}
#ifdef CONFIG_EFI_LOADER
void __efi_runtime EFIAPI efi_reset_system(
enum efi_reset_type reset_type,
efi_status_t reset_status,
unsigned long data_size, void *reset_data)
{
switch (reset_type) {
case EFI_RESET_COLD:
case EFI_RESET_WARM:
reset_cpu(0);
break;
case EFI_RESET_SHUTDOWN:
/* Nothing we can do */
break;
}
while (1) { }
}
void efi_reset_system_init(void)
{
efi_add_runtime_mmio(&rstcr, sizeof(*rstcr));
}
#endif
phys_size_t board_reserve_ram_top(phys_size_t ram_size)
{
phys_size_t ram_top = ram_size;
#ifdef CONFIG_FSL_MC_ENET
/* The start address of MC reserved memory needs to be aligned. */
ram_top -= mc_get_dram_block_size();
ram_top &= ~(CONFIG_SYS_MC_RSV_MEM_ALIGN - 1);
#endif
return ram_size - ram_top;
}
phys_size_t get_effective_memsize(void)
{
phys_size_t ea_size, rem = 0;
/*
* For ARMv8 SoCs, DDR memory is split into two or three regions. The
* first region is 2GB space at 0x8000_0000. If the memory extends to
* the second region (or the third region if applicable), the secure
* memory and Management Complex (MC) memory should be put into the
* highest region, i.e. the end of DDR memory. CONFIG_MAX_MEM_MAPPED
* is set to the size of first region so U-Boot doesn't relocate itself
* into higher address. Should DDR be configured to skip the first
* region, this function needs to be adjusted.
*/
if (gd->ram_size > CONFIG_MAX_MEM_MAPPED) {
ea_size = CONFIG_MAX_MEM_MAPPED;
rem = gd->ram_size - ea_size;
} else {
ea_size = gd->ram_size;
}
#ifdef CONFIG_SYS_MEM_RESERVE_SECURE
/* Check if we have enough space for secure memory */
if (rem > CONFIG_SYS_MEM_RESERVE_SECURE) {
rem -= CONFIG_SYS_MEM_RESERVE_SECURE;
} else {
if (ea_size > CONFIG_SYS_MEM_RESERVE_SECURE) {
ea_size -= CONFIG_SYS_MEM_RESERVE_SECURE;
rem = 0; /* Presume MC requires more memory */
} else {
printf("Error: No enough space for secure memory.\n");
}
}
#endif
/* Check if we have enough memory for MC */
if (rem < board_reserve_ram_top(rem)) {
/* Not enough memory in high region to reserve */
if (ea_size > board_reserve_ram_top(rem))
ea_size -= board_reserve_ram_top(rem);
else
printf("Error: No enough space for reserved memory.\n");
}
return ea_size;
}
void dram_init_banksize(void)
{
#ifdef CONFIG_SYS_DP_DDR_BASE_PHY
phys_size_t dp_ddr_size;
#endif
/*
* gd->ram_size has the total size of DDR memory, less reserved secure
* memory. The DDR extends from low region to high region(s) presuming
* no hole is created with DDR configuration. gd->arch.secure_ram tracks
* the location of secure memory. gd->arch.resv_ram tracks the location
* of reserved memory for Management Complex (MC).
*/
gd->bd->bi_dram[0].start = CONFIG_SYS_SDRAM_BASE;
if (gd->ram_size > CONFIG_SYS_DDR_BLOCK1_SIZE) {
gd->bd->bi_dram[0].size = CONFIG_SYS_DDR_BLOCK1_SIZE;
gd->bd->bi_dram[1].start = CONFIG_SYS_DDR_BLOCK2_BASE;
gd->bd->bi_dram[1].size = gd->ram_size -
CONFIG_SYS_DDR_BLOCK1_SIZE;
#ifdef CONFIG_SYS_DDR_BLOCK3_BASE
if (gd->bi_dram[1].size > CONFIG_SYS_DDR_BLOCK2_SIZE) {
gd->bd->bi_dram[2].start = CONFIG_SYS_DDR_BLOCK3_BASE;
gd->bd->bi_dram[2].size = gd->bd->bi_dram[1].size -
CONFIG_SYS_DDR_BLOCK2_SIZE;
gd->bd->bi_dram[1].size = CONFIG_SYS_DDR_BLOCK2_SIZE;
}
#endif
} else {
gd->bd->bi_dram[0].size = gd->ram_size;
}
#ifdef CONFIG_SYS_MEM_RESERVE_SECURE
#ifdef CONFIG_SYS_DDR_BLOCK3_BASE
if (gd->bd->bi_dram[2].size >= CONFIG_SYS_MEM_RESERVE_SECURE) {
gd->bd->bi_dram[2].size -= CONFIG_SYS_MEM_RESERVE_SECURE;
gd->arch.secure_ram = gd->bd->bi_dram[2].start +
gd->bd->bi_dram[2].size;
gd->arch.secure_ram |= MEM_RESERVE_SECURE_MAINTAINED;
gd->ram_size -= CONFIG_SYS_MEM_RESERVE_SECURE;
} else
#endif
{
if (gd->bd->bi_dram[1].size >= CONFIG_SYS_MEM_RESERVE_SECURE) {
gd->bd->bi_dram[1].size -=
CONFIG_SYS_MEM_RESERVE_SECURE;
gd->arch.secure_ram = gd->bd->bi_dram[1].start +
gd->bd->bi_dram[1].size;
gd->arch.secure_ram |= MEM_RESERVE_SECURE_MAINTAINED;
gd->ram_size -= CONFIG_SYS_MEM_RESERVE_SECURE;
} else if (gd->bd->bi_dram[0].size >
CONFIG_SYS_MEM_RESERVE_SECURE) {
gd->bd->bi_dram[0].size -=
CONFIG_SYS_MEM_RESERVE_SECURE;
gd->arch.secure_ram = gd->bd->bi_dram[0].start +
gd->bd->bi_dram[0].size;
gd->arch.secure_ram |= MEM_RESERVE_SECURE_MAINTAINED;
gd->ram_size -= CONFIG_SYS_MEM_RESERVE_SECURE;
}
}
#endif /* CONFIG_SYS_MEM_RESERVE_SECURE */
#ifdef CONFIG_FSL_MC_ENET
/* Assign memory for MC */
#ifdef CONFIG_SYS_DDR_BLOCK3_BASE
if (gd->bd->bi_dram[2].size >=
board_reserve_ram_top(gd->bd->bi_dram[2].size)) {
gd->arch.resv_ram = gd->bd->bi_dram[2].start +
gd->bd->bi_dram[2].size -
board_reserve_ram_top(gd->bd->bi_dram[2].size);
} else
#endif
{
if (gd->bd->bi_dram[1].size >=
board_reserve_ram_top(gd->bd->bi_dram[1].size)) {
gd->arch.resv_ram = gd->bd->bi_dram[1].start +
gd->bd->bi_dram[1].size -
board_reserve_ram_top(gd->bd->bi_dram[1].size);
} else if (gd->bd->bi_dram[0].size >
board_reserve_ram_top(gd->bd->bi_dram[0].size)) {
gd->arch.resv_ram = gd->bd->bi_dram[0].start +
gd->bd->bi_dram[0].size -
board_reserve_ram_top(gd->bd->bi_dram[0].size);
}
}
#endif /* CONFIG_FSL_MC_ENET */
#ifdef CONFIG_SYS_DP_DDR_BASE_PHY
#ifdef CONFIG_SYS_DDR_BLOCK3_BASE
#error "This SoC shouldn't have DP DDR"
#endif
if (soc_has_dp_ddr()) {
/* initialize DP-DDR here */
puts("DP-DDR: ");
/*
* DDR controller use 0 as the base address for binding.
* It is mapped to CONFIG_SYS_DP_DDR_BASE for core to access.
*/
dp_ddr_size = fsl_other_ddr_sdram(CONFIG_SYS_DP_DDR_BASE_PHY,
CONFIG_DP_DDR_CTRL,
CONFIG_DP_DDR_NUM_CTRLS,
CONFIG_DP_DDR_DIMM_SLOTS_PER_CTLR,
NULL, NULL, NULL);
if (dp_ddr_size) {
gd->bd->bi_dram[2].start = CONFIG_SYS_DP_DDR_BASE;
gd->bd->bi_dram[2].size = dp_ddr_size;
} else {
puts("Not detected");
}
}
#endif
}
#if defined(CONFIG_EFI_LOADER) && !defined(CONFIG_SPL_BUILD)
void efi_add_known_memory(void)
{
int i;
phys_addr_t ram_start, start;
phys_size_t ram_size;
u64 pages;
/* Add RAM */
for (i = 0; i < CONFIG_NR_DRAM_BANKS; i++) {
#ifdef CONFIG_SYS_DP_DDR_BASE_PHY
#ifdef CONFIG_SYS_DDR_BLOCK3_BASE
#error "This SoC shouldn't have DP DDR"
#endif
if (i == 2)
continue; /* skip DP-DDR */
#endif
ram_start = gd->bd->bi_dram[i].start;
ram_size = gd->bd->bi_dram[i].size;
#ifdef CONFIG_RESV_RAM
if (gd->arch.resv_ram >= ram_start &&
gd->arch.resv_ram < ram_start + ram_size)
ram_size = gd->arch.resv_ram - ram_start;
#endif
start = (ram_start + EFI_PAGE_MASK) & ~EFI_PAGE_MASK;
pages = (ram_size + EFI_PAGE_MASK) >> EFI_PAGE_SHIFT;
efi_add_memory_map(start, pages, EFI_CONVENTIONAL_MEMORY,
false);
}
}
#endif
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