mirror of
https://github.com/AsahiLinux/u-boot
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049704f808
Commit37dc958947
("global_data.h: Change ram_top type to phys_addr_t") changed type of ram_top member from ulong to phys_addr_t but did not changed types in board_get_usable_ram_top() function which returns value for ram_top. So change ulong to phys_addr_t type also in board_get_usable_ram_top() signature and implementations. Fixes:37dc958947
("global_data.h: Change ram_top type to phys_addr_t") Signed-off-by: Pali Rohár <pali@kernel.org> Reviewed-by: Simon Glass <sjg@chromium.org>
252 lines
5.3 KiB
C
252 lines
5.3 KiB
C
// SPDX-License-Identifier: GPL-2.0+
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/*
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* Copyright (c) 2017 Intel Corporation
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*/
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#include <common.h>
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#include <init.h>
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#include <log.h>
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#include <asm/e820.h>
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#include <asm/global_data.h>
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#include <asm/sfi.h>
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DECLARE_GLOBAL_DATA_PTR;
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/*
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* SFI tables are part of the first stage bootloader.
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*
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* U-Boot finds the System Table by searching 16-byte boundaries between
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* physical address 0x000E0000 and 0x000FFFFF. U-Boot shall search this region
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* starting at the low address and shall stop searching when the 1st valid SFI
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* System Table is found.
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*/
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#define SFI_BASE_ADDR 0x000E0000
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#define SFI_LENGTH 0x00020000
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#define SFI_TABLE_LENGTH 16
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static int sfi_table_check(struct sfi_table_header *sbh)
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{
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char chksum = 0;
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char *pos = (char *)sbh;
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u32 i;
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if (sbh->len < SFI_TABLE_LENGTH)
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return -ENXIO;
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if (sbh->len > SFI_LENGTH)
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return -ENXIO;
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for (i = 0; i < sbh->len; i++)
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chksum += *pos++;
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if (chksum)
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pr_err("sfi: Invalid checksum\n");
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/* Checksum is OK if zero */
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return chksum ? -EILSEQ : 0;
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}
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static int sfi_table_is_type(struct sfi_table_header *sbh, const char *signature)
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{
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return !strncmp(sbh->sig, signature, SFI_SIGNATURE_SIZE) &&
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!sfi_table_check(sbh);
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}
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static struct sfi_table_simple *sfi_get_table_by_sig(unsigned long addr,
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const char *signature)
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{
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struct sfi_table_simple *sb;
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u32 i;
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for (i = 0; i < SFI_LENGTH; i += SFI_TABLE_LENGTH) {
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sb = (struct sfi_table_simple *)(addr + i);
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if (sfi_table_is_type(&sb->header, signature))
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return sb;
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}
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return NULL;
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}
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static struct sfi_table_simple *sfi_search_mmap(void)
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{
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struct sfi_table_header *sbh;
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struct sfi_table_simple *sb;
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u32 sys_entry_cnt;
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u32 i;
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/* Find SYST table */
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sb = sfi_get_table_by_sig(SFI_BASE_ADDR, SFI_SIG_SYST);
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if (!sb) {
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pr_err("sfi: failed to locate SYST table\n");
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return NULL;
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}
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sys_entry_cnt = (sb->header.len - sizeof(*sbh)) / 8;
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/* Search through each SYST entry for MMAP table */
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for (i = 0; i < sys_entry_cnt; i++) {
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sbh = (struct sfi_table_header *)(unsigned long)sb->pentry[i];
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if (sfi_table_is_type(sbh, SFI_SIG_MMAP))
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return (struct sfi_table_simple *)sbh;
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}
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pr_err("sfi: failed to locate SFI MMAP table\n");
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return NULL;
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}
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#define sfi_for_each_mentry(i, sb, mentry) \
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for (i = 0, mentry = (struct sfi_mem_entry *)sb->pentry; \
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i < SFI_GET_NUM_ENTRIES(sb, struct sfi_mem_entry); \
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i++, mentry++) \
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static unsigned int sfi_setup_e820(unsigned int max_entries,
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struct e820_entry *entries)
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{
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struct sfi_table_simple *sb;
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struct sfi_mem_entry *mentry;
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unsigned long long start, end, size;
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int type, total = 0;
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u32 i;
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sb = sfi_search_mmap();
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if (!sb)
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return 0;
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sfi_for_each_mentry(i, sb, mentry) {
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start = mentry->phys_start;
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size = mentry->pages << 12;
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end = start + size;
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if (start > end)
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continue;
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/* translate SFI mmap type to E820 map type */
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switch (mentry->type) {
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case SFI_MEM_CONV:
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type = E820_RAM;
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break;
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case SFI_MEM_UNUSABLE:
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case SFI_RUNTIME_SERVICE_DATA:
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continue;
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default:
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type = E820_RESERVED;
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}
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if (total == E820MAX)
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break;
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entries[total].addr = start;
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entries[total].size = size;
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entries[total].type = type;
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total++;
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}
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return total;
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}
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static int sfi_get_bank_size(void)
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{
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struct sfi_table_simple *sb;
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struct sfi_mem_entry *mentry;
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int bank = 0;
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u32 i;
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sb = sfi_search_mmap();
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if (!sb)
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return 0;
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sfi_for_each_mentry(i, sb, mentry) {
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if (mentry->type != SFI_MEM_CONV)
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continue;
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gd->bd->bi_dram[bank].start = mentry->phys_start;
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gd->bd->bi_dram[bank].size = mentry->pages << 12;
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bank++;
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}
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return bank;
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}
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static phys_size_t sfi_get_ram_size(void)
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{
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struct sfi_table_simple *sb;
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struct sfi_mem_entry *mentry;
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phys_size_t ram = 0;
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u32 i;
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sb = sfi_search_mmap();
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if (!sb)
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return 0;
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sfi_for_each_mentry(i, sb, mentry) {
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if (mentry->type != SFI_MEM_CONV)
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continue;
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ram += mentry->pages << 12;
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}
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debug("sfi: RAM size %llu\n", ram);
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return ram;
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}
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unsigned int install_e820_map(unsigned int max_entries,
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struct e820_entry *entries)
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{
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return sfi_setup_e820(max_entries, entries);
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}
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/*
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* This function looks for the highest region of memory lower than 2GB which
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* has enough space for U-Boot where U-Boot is aligned on a page boundary. It
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* overrides the default implementation found elsewhere which simply picks the
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* end of RAM, wherever that may be. The location of the stack, the relocation
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* address, and how far U-Boot is moved by relocation are set in the global
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* data structure.
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*/
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phys_size_t board_get_usable_ram_top(phys_size_t total_size)
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{
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struct sfi_table_simple *sb;
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struct sfi_mem_entry *mentry;
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ulong dest_addr = 0;
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u32 i;
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sb = sfi_search_mmap();
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if (!sb)
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panic("No available memory found for relocation");
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sfi_for_each_mentry(i, sb, mentry) {
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unsigned long long start, end;
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if (mentry->type != SFI_MEM_CONV)
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continue;
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start = mentry->phys_start;
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end = start + (mentry->pages << 12);
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/* Filter memory over 2GB. */
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if (end > 0x7fffffffULL)
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end = 0x80000000ULL;
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/* Skip this region if it's too small. */
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if (end - start < total_size)
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continue;
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/* Use this address if it's the largest so far. */
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if (end > dest_addr)
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dest_addr = end;
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}
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return dest_addr;
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}
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int dram_init_banksize(void)
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{
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sfi_get_bank_size();
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return 0;
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}
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int dram_init(void)
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{
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gd->ram_size = sfi_get_ram_size();
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return 0;
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}
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