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/*
* This file is part of the coreboot project.
*
* Copyright (C) 2003-2004 Eric Biederman
* Copyright (C) 2005-2010 coresystems GmbH
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; version 2 of
* the License.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston,
* MA 02110-1301 USA
*/
#include <console/console.h>
#include <ip_checksum.h>
#include <boot/coreboot_tables.h>
#include <string.h>
#include <version.h>
#include <device/device.h>
#include <stdlib.h>
#include <cbfs.h>
#include <cbmem.h>
#include <memrange.h>
#if CONFIG_USE_OPTION_TABLE
#include <option_table.h>
#endif
#if CONFIG_CHROMEOS
#if CONFIG_GENERATE_ACPI_TABLES
#include <arch/acpi.h>
#endif
#include <vendorcode/google/chromeos/chromeos.h>
#include <vendorcode/google/chromeos/gnvs.h>
#endif
#if CONFIG_ARCH_X86
#include <cpu/x86/mtrr.h>
#endif
static struct lb_header *lb_table_init(unsigned long addr)
{
struct lb_header *header;
/* 16 byte align the address */
addr += 15;
addr &= ~15;
header = (void *)addr;
header->signature[0] = 'L';
header->signature[1] = 'B';
header->signature[2] = 'I';
header->signature[3] = 'O';
header->header_bytes = sizeof(*header);
header->header_checksum = 0;
header->table_bytes = 0;
header->table_checksum = 0;
header->table_entries = 0;
return header;
}
static struct lb_record *lb_first_record(struct lb_header *header)
{
struct lb_record *rec;
rec = (void *)(((char *)header) + sizeof(*header));
return rec;
}
static struct lb_record *lb_last_record(struct lb_header *header)
{
struct lb_record *rec;
rec = (void *)(((char *)header) + sizeof(*header) + header->table_bytes);
return rec;
}
static struct lb_record *lb_new_record(struct lb_header *header)
{
struct lb_record *rec;
rec = lb_last_record(header);
if (header->table_entries) {
header->table_bytes += rec->size;
}
rec = lb_last_record(header);
header->table_entries++;
rec->tag = LB_TAG_UNUSED;
rec->size = sizeof(*rec);
return rec;
}
static struct lb_memory *lb_memory(struct lb_header *header)
{
struct lb_record *rec;
struct lb_memory *mem;
rec = lb_new_record(header);
mem = (struct lb_memory *)rec;
mem->tag = LB_TAG_MEMORY;
mem->size = sizeof(*mem);
return mem;
}
static struct lb_serial *lb_serial(struct lb_header *header)
{
#if CONFIG_CONSOLE_SERIAL8250
struct lb_record *rec;
struct lb_serial *serial;
rec = lb_new_record(header);
serial = (struct lb_serial *)rec;
serial->tag = LB_TAG_SERIAL;
serial->size = sizeof(*serial);
serial->type = LB_SERIAL_TYPE_IO_MAPPED;
serial->baseaddr = CONFIG_TTYS0_BASE;
serial->baud = CONFIG_TTYS0_BAUD;
return serial;
#elif CONFIG_CONSOLE_SERIAL8250MEM || CONFIG_CONSOLE_SERIAL_UART
if (uartmem_getbaseaddr()) {
struct lb_record *rec;
struct lb_serial *serial;
rec = lb_new_record(header);
serial = (struct lb_serial *)rec;
serial->tag = LB_TAG_SERIAL;
serial->size = sizeof(*serial);
serial->type = LB_SERIAL_TYPE_MEMORY_MAPPED;
serial->baseaddr = uartmem_getbaseaddr();
serial->baud = CONFIG_TTYS0_BAUD;
return serial;
} else {
return NULL;
}
#else
return NULL;
#endif
}
#if CONFIG_CONSOLE_SERIAL || CONFIG_CONSOLE_LOGBUF || CONFIG_USBDEBUG
static void add_console(struct lb_header *header, u16 consoletype)
{
struct lb_console *console;
console = (struct lb_console *)lb_new_record(header);
console->tag = LB_TAG_CONSOLE;
console->size = sizeof(*console);
console->type = consoletype;
}
#endif
static void lb_console(struct lb_header *header)
{
#if CONFIG_CONSOLE_SERIAL8250
add_console(header, LB_TAG_CONSOLE_SERIAL8250);
#endif
#if CONFIG_CONSOLE_SERIAL8250MEM || CONFIG_CONSOLE_SERIAL_UART
add_console(header, LB_TAG_CONSOLE_SERIAL8250MEM);
#endif
#if CONFIG_CONSOLE_LOGBUF
add_console(header, LB_TAG_CONSOLE_LOGBUF);
#endif
#if CONFIG_USBDEBUG
add_console(header, LB_TAG_CONSOLE_EHCI);
#endif
}
static void lb_framebuffer(struct lb_header *header)
{
#if CONFIG_FRAMEBUFFER_KEEP_VESA_MODE || CONFIG_MAINBOARD_DO_NATIVE_VGA_INIT
void fill_lb_framebuffer(struct lb_framebuffer *framebuffer);
int vbe_mode_info_valid(void);
// If there isn't any mode info to put in the table, don't ask for it
// to be filled with junk.
if (!vbe_mode_info_valid())
return;
struct lb_framebuffer *framebuffer;
framebuffer = (struct lb_framebuffer *)lb_new_record(header);
framebuffer->tag = LB_TAG_FRAMEBUFFER;
framebuffer->size = sizeof(*framebuffer);
fill_lb_framebuffer(framebuffer);
#endif
}
#if CONFIG_CHROMEOS
static void lb_gpios(struct lb_header *header)
{
struct lb_gpios *gpios;
gpios = (struct lb_gpios *)lb_new_record(header);
gpios->tag = LB_TAG_GPIO;
gpios->size = sizeof(*gpios);
gpios->count = 0;
fill_lb_gpios(gpios);
}
static void lb_vdat(struct lb_header *header)
{
#if CONFIG_GENERATE_ACPI_TABLES
struct lb_vdat* vdat;
vdat = (struct lb_vdat *)lb_new_record(header);
vdat->tag = LB_TAG_VDAT;
vdat->size = sizeof(*vdat);
acpi_get_vdat_info(&vdat->vdat_addr, &vdat->vdat_size);
#endif
}
static void lb_vbnv(struct lb_header *header)
{
#if CONFIG_PC80_SYSTEM
struct lb_vbnv* vbnv;
vbnv = (struct lb_vbnv *)lb_new_record(header);
vbnv->tag = LB_TAG_VBNV;
vbnv->size = sizeof(*vbnv);
vbnv->vbnv_start = CONFIG_VBNV_OFFSET + 14;
vbnv->vbnv_size = CONFIG_VBNV_SIZE;
#endif
}
#if CONFIG_VBOOT_VERIFY_FIRMWARE
static void lb_vboot_handoff(struct lb_header *header)
{
void *addr;
uint32_t size;
struct lb_vboot_handoff* vbho;
if (vboot_get_handoff_info(&addr, &size))
return;
vbho = (struct lb_vboot_handoff *)lb_new_record(header);
vbho->tag = LB_TAB_VBOOT_HANDOFF;
vbho->size = sizeof(*vbho);
vbho->vboot_handoff_addr = addr;
vbho->vboot_handoff_size = size;
}
#else
static inline void lb_vboot_handoff(struct lb_header *header) {}
#endif /* CONFIG_VBOOT_VERIFY_FIRMWARE */
#endif /* CONFIG_CHROMEOS */
static void lb_x86_rom_cache(struct lb_header *header)
{
#if CONFIG_ARCH_X86
long mtrr_index;
struct lb_x86_rom_mtrr *lb_x86_rom_mtrr;
mtrr_index = x86_mtrr_rom_cache_var_index();
if (mtrr_index < 0)
return;
lb_x86_rom_mtrr = (struct lb_x86_rom_mtrr *)lb_new_record(header);
lb_x86_rom_mtrr->tag = LB_TAG_X86_ROM_MTRR;
lb_x86_rom_mtrr->size = sizeof(struct lb_x86_rom_mtrr);
lb_x86_rom_mtrr->index = mtrr_index;
#endif
}
static void add_cbmem_pointers(struct lb_header *header)
{
/*
* These CBMEM sections' addresses are included in the coreboot table
* with the appropriate tags.
*/
const struct section_id {
int cbmem_id;
int table_tag;
} section_ids[] = {
{CBMEM_ID_TIMESTAMP, LB_TAG_TIMESTAMPS},
{CBMEM_ID_CONSOLE, LB_TAG_CBMEM_CONSOLE}
};
int i;
for (i = 0; i < ARRAY_SIZE(section_ids); i++) {
const struct section_id *sid = section_ids + i;
struct lb_cbmem_ref *cbmem_ref;
void *cbmem_addr = cbmem_find(sid->cbmem_id);
if (!cbmem_addr)
continue; /* This section is not present */
cbmem_ref = (struct lb_cbmem_ref *)lb_new_record(header);
if (!cbmem_ref) {
printk(BIOS_ERR, "No more room in coreboot table!\n");
break;
}
cbmem_ref->tag = sid->table_tag;
cbmem_ref->size = sizeof(*cbmem_ref);
cbmem_ref->cbmem_addr = (unsigned long)cbmem_addr;
}
}
static struct lb_mainboard *lb_mainboard(struct lb_header *header)
{
struct lb_record *rec;
struct lb_mainboard *mainboard;
rec = lb_new_record(header);
mainboard = (struct lb_mainboard *)rec;
mainboard->tag = LB_TAG_MAINBOARD;
mainboard->size = (sizeof(*mainboard) +
strlen(mainboard_vendor) + 1 +
strlen(mainboard_part_number) + 1 +
3) & ~3;
mainboard->vendor_idx = 0;
mainboard->part_number_idx = strlen(mainboard_vendor) + 1;
memcpy(mainboard->strings + mainboard->vendor_idx,
mainboard_vendor, strlen(mainboard_vendor) + 1);
memcpy(mainboard->strings + mainboard->part_number_idx,
mainboard_part_number, strlen(mainboard_part_number) + 1);
return mainboard;
}
#if CONFIG_USE_OPTION_TABLE
static struct cmos_checksum *lb_cmos_checksum(struct lb_header *header)
{
struct lb_record *rec;
struct cmos_checksum *cmos_checksum;
rec = lb_new_record(header);
cmos_checksum = (struct cmos_checksum *)rec;
cmos_checksum->tag = LB_TAG_OPTION_CHECKSUM;
cmos_checksum->size = (sizeof(*cmos_checksum));
cmos_checksum->range_start = LB_CKS_RANGE_START * 8;
cmos_checksum->range_end = ( LB_CKS_RANGE_END * 8 ) + 7;
cmos_checksum->location = LB_CKS_LOC * 8;
cmos_checksum->type = CHECKSUM_PCBIOS;
return cmos_checksum;
}
#endif
static void lb_strings(struct lb_header *header)
{
static const struct {
uint32_t tag;
const char *string;
} strings[] = {
{ LB_TAG_VERSION, coreboot_version, },
{ LB_TAG_EXTRA_VERSION, coreboot_extra_version, },
{ LB_TAG_BUILD, coreboot_build, },
{ LB_TAG_COMPILE_TIME, coreboot_compile_time, },
{ LB_TAG_COMPILE_BY, coreboot_compile_by, },
{ LB_TAG_COMPILE_HOST, coreboot_compile_host, },
{ LB_TAG_COMPILE_DOMAIN, coreboot_compile_domain, },
{ LB_TAG_COMPILER, coreboot_compiler, },
{ LB_TAG_LINKER, coreboot_linker, },
{ LB_TAG_ASSEMBLER, coreboot_assembler, },
};
unsigned int i;
for(i = 0; i < ARRAY_SIZE(strings); i++) {
struct lb_string *rec;
size_t len;
rec = (struct lb_string *)lb_new_record(header);
len = strlen(strings[i].string);
rec->tag = strings[i].tag;
rec->size = (sizeof(*rec) + len + 1 + 3) & ~3;
memcpy(rec->string, strings[i].string, len+1);
}
}
static struct lb_forward *lb_forward(struct lb_header *header, struct lb_header *next_header)
{
struct lb_record *rec;
struct lb_forward *forward;
rec = lb_new_record(header);
forward = (struct lb_forward *)rec;
forward->tag = LB_TAG_FORWARD;
forward->size = sizeof(*forward);
forward->forward = (uint64_t)(unsigned long)next_header;
return forward;
}
static unsigned long lb_table_fini(struct lb_header *head)
{
struct lb_record *rec, *first_rec;
rec = lb_last_record(head);
if (head->table_entries) {
head->table_bytes += rec->size;
}
first_rec = lb_first_record(head);
head->table_checksum = compute_ip_checksum(first_rec, head->table_bytes);
head->header_checksum = 0;
head->header_checksum = compute_ip_checksum(head, sizeof(*head));
printk(BIOS_DEBUG,
"Wrote coreboot table at: %p, 0x%x bytes, checksum %x\n",
head, head->table_bytes, head->table_checksum);
return (unsigned long)rec + rec->size;
}
/* Routines to extract part so the coreboot table or
* information from the coreboot table after we have written it.
* Currently get_lb_mem relies on a global we can change the
* implementaiton.
*/
static struct lb_memory *mem_ranges = NULL;
struct lb_memory *get_lb_mem(void)
{
return mem_ranges;
}
/* This structure keeps track of the coreboot table memory ranges. */
static struct memranges lb_ranges;
static struct lb_memory *build_lb_mem(struct lb_header *head)
{
struct lb_memory *mem;
/* Record where the lb memory ranges will live */
mem = lb_memory(head);
mem_ranges = mem;
/* Fill the memory map out. The order of operations is important in
* that each overlapping range will take over the next. Therefore,
* add cacheable resources as RAM then add the reserved resources. */
memranges_init(&lb_ranges, IORESOURCE_CACHEABLE,
IORESOURCE_CACHEABLE, LB_MEM_RAM);
memranges_add_resources(&lb_ranges, IORESOURCE_RESERVE,
IORESOURCE_RESERVE, LB_MEM_RESERVED);
return mem;
}
static void commit_lb_memory(struct lb_memory *mem)
{
struct range_entry *r;
struct lb_memory_range *lb_r;
int i;
lb_r = &mem->map[0];
i = 0;
memranges_each_entry(r, &lb_ranges) {
const char *entry_type;
switch (range_entry_tag(r)) {
case LB_MEM_RAM: entry_type="RAM"; break;
case LB_MEM_RESERVED: entry_type="RESERVED"; break;
case LB_MEM_ACPI: entry_type="ACPI"; break;
case LB_MEM_NVS: entry_type="NVS"; break;
case LB_MEM_UNUSABLE: entry_type="UNUSABLE"; break;
case LB_MEM_VENDOR_RSVD: entry_type="VENDOR RESERVED"; break;
case LB_MEM_TABLE: entry_type="CONFIGURATION TABLES"; break;
default: entry_type="UNKNOWN!"; break;
}
printk(BIOS_DEBUG, "%2d. %016llx-%016llx: %s\n",
i, range_entry_base(r), range_entry_end(r)-1,
entry_type);
lb_r->start = pack_lb64(range_entry_base(r));
lb_r->size = pack_lb64(range_entry_size(r));
lb_r->type = range_entry_tag(r);
i++;
lb_r++;
mem->size += sizeof(struct lb_memory_range);
}
}
void lb_add_memory_range(struct lb_memory *mem,
uint32_t type, uint64_t start, uint64_t size)
{
memranges_insert(&lb_ranges, start, size, type);
}
unsigned long write_coreboot_table(
unsigned long low_table_start, unsigned long low_table_end,
unsigned long rom_table_start, unsigned long rom_table_end)
{
struct lb_header *head;
struct lb_memory *mem;
if (low_table_start || low_table_end) {
printk(BIOS_DEBUG, "Writing table forward entry at 0x%08lx\n",
low_table_end);
head = lb_table_init(low_table_end);
lb_forward(head, (struct lb_header*)rom_table_end);
low_table_end = (unsigned long) lb_table_fini(head);
printk(BIOS_DEBUG, "Table forward entry ends at 0x%08lx.\n",
low_table_end);
low_table_end = ALIGN(low_table_end, 4096);
printk(BIOS_DEBUG, "... aligned to 0x%08lx\n", low_table_end);
}
printk(BIOS_DEBUG, "Writing coreboot table at 0x%08lx\n",
rom_table_end);
head = lb_table_init(rom_table_end);
rom_table_end = (unsigned long)head;
printk(BIOS_DEBUG, "rom_table_end = 0x%08lx\n", rom_table_end);
rom_table_end = ALIGN(rom_table_end, (64 * 1024));
printk(BIOS_DEBUG, "... aligned to 0x%08lx\n", rom_table_end);
#if CONFIG_USE_OPTION_TABLE
{
struct cmos_option_table *option_table = cbfs_get_file_content(
CBFS_DEFAULT_MEDIA, "cmos_layout.bin",
CBFS_COMPONENT_CMOS_LAYOUT);
if (option_table) {
struct lb_record *rec_dest = lb_new_record(head);
/* Copy the option config table, it's already a lb_record... */
memcpy(rec_dest, option_table, option_table->size);
/* Create cmos checksum entry in coreboot table */
lb_cmos_checksum(head);
} else {
printk(BIOS_ERR, "cmos_layout.bin could not be found!\n");
}
}
#endif
/* The Linux kernel assumes this region is reserved */
/* Record where RAM is located */
mem = build_lb_mem(head);
if (low_table_start || low_table_end) {
/* Record the mptable and the the lb_table.
* (This will be adjusted later) */
lb_add_memory_range(mem, LB_MEM_TABLE,
low_table_start, low_table_end - low_table_start);
}
/* Record the pirq table, acpi tables, and maybe the mptable. However,
* these only need to be added when the rom_table is sitting below
* 1MiB. If it isn't that means high tables are being written.
* The code below handles high tables correctly. */
if (rom_table_end <= (1 << 20))
lb_add_memory_range(mem, LB_MEM_TABLE,
rom_table_start, rom_table_end - rom_table_start);
#if CONFIG_DYNAMIC_CBMEM
cbmem_add_lb_mem(mem);
#else /* CONFIG_DYNAMIC_CBMEM */
lb_add_memory_range(mem, LB_MEM_TABLE,
high_tables_base, high_tables_size);
#endif /* CONFIG_DYNAMIC_CBMEM */
/* No other memory areas can be added after the memory table has been
* committed as the entries won't show up in the serialize mem table. */
commit_lb_memory(mem);
/* Record our motherboard */
lb_mainboard(head);
/* Record the serial port, if present */
lb_serial(head);
/* Record our console setup */
lb_console(head);
/* Record our various random string information */
lb_strings(head);
/* Record our framebuffer */
lb_framebuffer(head);
/* Communicate x86 variable MTRR ROM cache information. */
lb_x86_rom_cache(head);
#if CONFIG_CHROMEOS
/* Record our GPIO settings (ChromeOS specific) */
lb_gpios(head);
/* pass along the VDAT buffer adress */
lb_vdat(head);
/* pass along VBNV offsets in CMOS */
lb_vbnv(head);
/* pass along the vboot_handoff address. */
lb_vboot_handoff(head);
#endif
add_cbmem_pointers(head);
/* Remember where my valid memory ranges are */
return lb_table_fini(head);
}
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