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/* SPDX-License-Identifier: GPL-2.0-or-later */
/* This file is part of the coreboot project. */
#include <cbfs.h>
#include <commonlib/bsd/compression.h>
#include <console/console.h>
#include <bootmem.h>
#include <program_loading.h>
#include <lib.h>
#include <fit.h>
#include <endian.h>
/* Implements a Berkley Boot Loader (BBL) compatible payload loading */
#define MAX_KERNEL_SIZE (64*MiB)
#if CONFIG(ARCH_RISCV_RV32)
#define SECTION_ALIGN (4 * MiB)
#endif
#if CONFIG(ARCH_RISCV_RV64)
#define SECTION_ALIGN (2 * MiB)
#endif
static size_t get_kernel_size(const struct fit_image_node *node)
{
/*
* Since we don't have a way to determine the uncompressed size of the
* kernel, we have to keep as much memory as possible free for use by
* the kernel immediately after the end of the kernel image. The amount
* of space required will vary depending on selected features, and is
* effectively unbound.
*/
printk(BIOS_INFO,
"FIT: Leaving additional %u MiB of free space after kernel.\n",
MAX_KERNEL_SIZE >> 20);
return node->size + MAX_KERNEL_SIZE;
}
/**
* Place the region in free memory range.
*
* The caller has to set region->offset to the minimum allowed address.
*/
static bool fit_place_mem(const struct range_entry *r, void *arg)
{
struct region *region = arg;
resource_t start;
if (range_entry_tag(r) != BM_MEM_RAM)
return true;
/* Section must be aligned at page boundary */
start = ALIGN_UP(MAX(region->offset, range_entry_base(r)), SECTION_ALIGN);
if (start + region->size < range_entry_end(r)) {
region->offset = (size_t)start;
return false;
}
return true;
}
bool fit_payload_arch(struct prog *payload, struct fit_config_node *config,
struct region *kernel,
struct region *fdt,
struct region *initrd)
{
void *arg = NULL;
if (!config->fdt || !fdt) {
printk(BIOS_CRIT, "CRIT: Providing a valid FDT is mandatory to "
"boot a RISC-V kernel!\n");
return false;
/* TODO: Fall back to the ROM FDT? */
}
/* Update kernel size from image header, if possible */
kernel->size = get_kernel_size(config->kernel);
printk(BIOS_DEBUG, "FIT: Using kernel size of 0x%zx bytes\n",
kernel->size);
/*
* The code assumes that bootmem_walk provides a sorted list of memory
* regions, starting from the lowest address.
* The order of the calls here doesn't matter, as the placement is
* enforced in the called functions.
* For details check code on top.
*/
kernel->offset = 0;
if (!bootmem_walk(fit_place_mem, kernel))
return false;
/* Mark as reserved for future allocations. */
bootmem_add_range(kernel->offset, kernel->size, BM_MEM_PAYLOAD);
/* Place FDT and INITRD after kernel. */
/* Place INITRD */
if (config->ramdisk) {
initrd->offset = kernel->offset + kernel->size;
if (!bootmem_walk(fit_place_mem, initrd))
return false;
/* Mark as reserved for future allocations. */
bootmem_add_range(initrd->offset, initrd->size, BM_MEM_PAYLOAD);
}
/* Place FDT */
fdt->offset = kernel->offset + kernel->size;
if (!bootmem_walk(fit_place_mem, fdt))
return false;
/* Mark as reserved for future allocations. */
bootmem_add_range(fdt->offset, fdt->size, BM_MEM_PAYLOAD);
/* Kernel expects FDT as argument */
arg = (void *)fdt->offset;
prog_set_entry(payload, (void *)kernel->offset, arg);
bootmem_dump_ranges();
return true;
}
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