u-boot/cmd/x86/cbsysinfo.c

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// SPDX-License-Identifier: GPL-2.0+
/*
* Copyright 2021 Google LLC
* Written by Simon Glass <sjg@chromium.org>
*/
#include <common.h>
#include <asm/cb_sysinfo.h>
#include <command.h>
#include <console.h>
#include <asm/global_data.h>
DECLARE_GLOBAL_DATA_PTR;
static void cbprompt(const char *name)
{
for (; *name == '>'; name++)
puts(" ");
printf("%-12s: ", name);
}
static void print_dec(const char *name, int value)
{
cbprompt(name);
printf(value > 9 ? "0d%d\n" : "%d\n", value);
}
static void print_hex(const char *name, int value)
{
cbprompt(name);
printf("%x\n", value);
}
static void print_addr(const char *name, ulong value)
{
cbprompt(name);
printf("%08lx\n", value);
}
static void print_addr64(const char *name, u64 value)
{
cbprompt(name);
printf("%16llx\n", value);
}
static void print_ptr(const char *name, const void *value)
{
cbprompt(name);
printf("%p\n", value);
}
static void print_str(const char *name, const char *value)
{
if (value) {
cbprompt(name);
printf("%s\n", value);
}
}
static void print_idx(const char *name, uint idx, const u8 *strings)
{
const char *ptr;
cbprompt(name);
ptr = (char *)strings + idx;
printf("%d: %s\n", idx, ptr ? ptr : "(unknown)");
}
static const char *const cb_mem_name[] = {
NULL,
"ram",
"reserved",
"acpi",
"nvs",
"unusable",
"vendor",
};
static const char *get_mem_name(int tag)
{
if (tag >= CB_MEM_RAM && tag <= CB_MEM_VENDOR_RSVD)
return cb_mem_name[tag];
if (tag == CB_MEM_TABLE)
return "table";
return "(unknown)";
}
static const struct timestamp_id_to_name {
uint id;
const char *name;
} timestamp_ids[] = {
/* Marker to report base_time */
{ 0, "1st timestamp" },
{ TS_START_ROMSTAGE, "start of romstage" },
{ TS_BEFORE_INITRAM, "before ram initialization" },
{ TS_AFTER_INITRAM, "after ram initialization" },
{ TS_END_ROMSTAGE, "end of romstage" },
{ TS_START_VBOOT, "start of verified boot" },
{ TS_END_VBOOT, "end of verified boot" },
{ TS_START_COPYRAM, "starting to load ramstage" },
{ TS_END_COPYRAM, "finished loading ramstage" },
{ TS_START_RAMSTAGE, "start of ramstage" },
{ TS_START_BOOTBLOCK, "start of bootblock" },
{ TS_END_BOOTBLOCK, "end of bootblock" },
{ TS_START_COPYROM, "starting to load romstage" },
{ TS_END_COPYROM, "finished loading romstage" },
{ TS_START_ULZMA, "starting LZMA decompress (ignore for x86)" },
{ TS_END_ULZMA, "finished LZMA decompress (ignore for x86)" },
{ TS_START_ULZ4F, "starting LZ4 decompress (ignore for x86)" },
{ TS_END_ULZ4F, "finished LZ4 decompress (ignore for x86)" },
{ TS_DEVICE_ENUMERATE, "device enumeration" },
{ TS_DEVICE_CONFIGURE, "device configuration" },
{ TS_DEVICE_ENABLE, "device enable" },
{ TS_DEVICE_INITIALIZE, "device initialization" },
{ TS_DEVICE_DONE, "device setup done" },
{ TS_CBMEM_POST, "cbmem post" },
{ TS_WRITE_TABLES, "write tables" },
{ TS_FINALIZE_CHIPS, "finalize chips" },
{ TS_LOAD_PAYLOAD, "load payload" },
{ TS_ACPI_WAKE_JUMP, "ACPI wake jump" },
{ TS_SELFBOOT_JUMP, "selfboot jump" },
{ TS_START_COPYVER, "starting to load verstage" },
{ TS_END_COPYVER, "finished loading verstage" },
{ TS_START_TPMINIT, "starting to initialize TPM" },
{ TS_END_TPMINIT, "finished TPM initialization" },
{ TS_START_VERIFY_SLOT, "starting to verify keyblock/preamble (RSA)" },
{ TS_END_VERIFY_SLOT, "finished verifying keyblock/preamble (RSA)" },
{ TS_START_HASH_BODY, "starting to verify body (load+SHA2+RSA) " },
{ TS_DONE_LOADING, "finished loading body (ignore for x86)" },
{ TS_DONE_HASHING, "finished calculating body hash (SHA2)" },
{ TS_END_HASH_BODY, "finished verifying body signature (RSA)" },
{ TS_START_COPYVPD, "starting to load Chrome OS VPD" },
{ TS_END_COPYVPD_RO, "finished loading Chrome OS VPD (RO)" },
{ TS_END_COPYVPD_RW, "finished loading Chrome OS VPD (RW)" },
{ TS_U_BOOT_INITTED, "U-Boot start" },
{ TS_RO_PARAMS_INIT, "RO parameter init" },
{ TS_RO_VB_INIT, "RO vboot init" },
{ TS_RO_VB_SELECT_FIRMWARE, "RO vboot select firmware" },
{ TS_RO_VB_SELECT_AND_LOAD_KERNEL, "RO vboot select&load kernel" },
{ TS_RW_VB_SELECT_AND_LOAD_KERNEL, "RW vboot select&load kernel" },
{ TS_VB_SELECT_AND_LOAD_KERNEL, "vboot select&load kernel" },
{ TS_VB_EC_VBOOT_DONE, "finished EC verification" },
{ TS_VB_STORAGE_INIT_DONE, "finished storage device initialization" },
{ TS_VB_READ_KERNEL_DONE, "finished reading kernel from disk" },
{ TS_VB_VBOOT_DONE, "finished vboot kernel verification" },
{ TS_KERNEL_DECOMPRESSION, "starting kernel decompression/relocation" },
{ TS_START_KERNEL, "jumping to kernel" },
{ TS_U_BOOT_START_KERNEL, "just before jump to kernel" },
/* Intel ME-related timestamps */
{ TS_ME_INFORM_DRAM_WAIT, "waiting for ME acknowledgment of raminit"},
{ TS_ME_INFORM_DRAM_DONE, "finished waiting for ME response"},
/* FSP-related timestamps */
{ TS_FSP_MEMORY_INIT_START, "calling FspMemoryInit" },
{ TS_FSP_MEMORY_INIT_END, "returning from FspMemoryInit" },
{ TS_FSP_TEMP_RAM_EXIT_START, "calling FspTempRamExit" },
{ TS_FSP_TEMP_RAM_EXIT_END, "returning from FspTempRamExit" },
{ TS_FSP_SILICON_INIT_START, "calling FspSiliconInit" },
{ TS_FSP_SILICON_INIT_END, "returning from FspSiliconInit" },
{ TS_FSP_BEFORE_ENUMERATE, "calling FspNotify(AfterPciEnumeration)" },
{ TS_FSP_AFTER_ENUMERATE,
"returning from FspNotify(AfterPciEnumeration)" },
{ TS_FSP_BEFORE_FINALIZE, "calling FspNotify(ReadyToBoot)" },
{ TS_FSP_AFTER_FINALIZE, "returning from FspNotify(ReadyToBoot)" },
{ TS_FSP_BEFORE_END_OF_FIRMWARE, "calling FspNotify(EndOfFirmware)" },
{ TS_FSP_AFTER_END_OF_FIRMWARE,
"returning from FspNotify(EndOfFirmware)" },
};
static const char *timestamp_name(uint32_t id)
{
int i;
for (i = 0; i < ARRAY_SIZE(timestamp_ids); i++) {
if (timestamp_ids[i].id == id)
return timestamp_ids[i].name;
}
return "<unknown>";
}
static void show_table(struct sysinfo_t *info, bool verbose)
{
struct cb_serial *ser = info->serial;
int i;
printf("Coreboot table at %lx, size %x, records %x (dec %d), decoded to %p",
gd->arch.coreboot_table, info->table_size, info->rec_count,
info->rec_count, info);
if (info->header)
printf(", forwarded to %p\n", info->header);
printf("\n");
print_dec("CPU KHz", info->cpu_khz);
print_addr("Serial I/O port", info->ser_ioport);
print_addr(">base", info->ser_base);
print_ptr(">pointer", ser);
if (ser) {
print_hex(">type", ser->type);
print_addr(">base", ser->baseaddr);
print_dec(">baud", ser->baud);
print_hex(">regwidth", ser->regwidth);
print_dec(">input_hz", ser->input_hertz);
print_addr(">PCI addr", ser->uart_pci_addr);
}
print_dec("Mem ranges", info->n_memranges);
printf("%12s: %-11s || base || size\n", "id", "type");
for (i = 0; i < info->n_memranges; i++) {
const struct memrange *mr = &info->memrange[i];
printf("%12d: %02x:%-8s %016llx %016llx\n", i, mr->type,
get_mem_name(mr->type), mr->base, mr->size);
}
print_ptr("option_table", info->option_table);
print_hex("CMOS start", info->cmos_range_start);
if (info->cmos_range_start) {
print_hex(">CMOS end", info->cmos_range_end);
print_hex(">CMOS csum loc", info->cmos_checksum_location);
}
print_hex("VBNV start", info->vbnv_start);
print_hex("VBNV size", info->vbnv_size);
print_str("CB version", info->cb_version);
print_str(">Extra", info->extra_version);
print_str(">Build", info->build);
print_str(">Time", info->compile_time);
print_str(">By", info->compile_by);
print_str(">Host", info->compile_host);
print_str(">Domain", info->compile_domain);
print_str(">Compiler", info->compiler);
print_str(">Linker", info->linker);
print_str(">Assembler", info->assembler);
print_ptr("Framebuffer", info->framebuffer);
if (info->framebuffer) {
struct cb_framebuffer *fb = info->framebuffer;
print_addr64(">Phys addr", fb->physical_address);
print_dec(">X res", fb->x_resolution);
print_dec(">X res", fb->y_resolution);
print_hex(">Bytes / line", fb->bytes_per_line);
print_dec(">Bpp", fb->bits_per_pixel);
printf(" %-12s red %d/%d, green %d/%d, blue %d/%d, reserved %d/%d\n",
"pos/size", fb->red_mask_pos, fb->red_mask_size,
fb->green_mask_pos, fb->green_mask_size,
fb->blue_mask_pos, fb->blue_mask_size,
fb->reserved_mask_pos, fb->reserved_mask_size);
}
print_dec("GPIOs", info->num_gpios);
printf("%12s: %4s %12s %3s %s\n", "id", "port", "polarity", "val",
"name");
for (i = 0; i < info->num_gpios; i++) {
const struct cb_gpio *gpio = &info->gpios[i];
char portstr[4];
if (gpio->port == 0xffffffff)
strcpy(portstr, "-");
else
sprintf(portstr, "%x", gpio->port);
printf("%12d: %4s %12s %3d %s\n", i, portstr,
gpio->polarity == CB_GPIO_ACTIVE_LOW ? "active-low" :
"active-high", gpio->value, gpio->name);
}
print_dec("MACs", info->num_macs);
for (i = 0; i < info->num_macs; i++) {
const struct mac_address *mac = &info->macs[i];
int j;
printf("%12d: ", i);
for (j = 0; j < sizeof(mac->mac_addr); j++)
printf("%s%02x", j ? ":" : "", mac->mac_addr[j]);
printf("\n");
}
print_str(">Serial #", info->serialno);
print_ptr("Multiboot tab", info->mbtable);
print_ptr("CB header", info->header);
print_ptr("CB mainboard", info->mainboard);
if (info->mainboard) {
struct cb_mainboard *mb = info->mainboard;
print_idx(">vendor", mb->vendor_idx, mb->strings);
print_idx(">part_number", mb->part_number_idx, mb->strings);
}
print_ptr("vboot handoff", info->vboot_handoff);
print_hex(">size", info->vboot_handoff_size);
print_ptr(">vdat addr", info->vdat_addr);
print_hex(">size", info->vdat_size);
print_addr64("SMBIOS", info->smbios_start);
print_hex(">size", info->smbios_size);
print_hex("ROM MTRR", info->x86_rom_var_mtrr_index);
print_ptr("Tstamp table", info->tstamp_table);
if (verbose && info->tstamp_table) {
struct timestamp_table *ts = info->tstamp_table;
printf("%-12s", "Base_time");
print_grouped_ull(ts->base_time, 12);
printf("\n");
print_dec("Tick MHz", ts->tick_freq_mhz);
for (i = 0; i < ts->num_entries; i++) {
const struct timestamp_entry *tse;
tse = &ts->entries[i];
printf(" ");
print_grouped_ull(tse->entry_stamp, 12);
printf(" %s\n", timestamp_name(tse->entry_id));
}
}
print_ptr("CBmem cons", info->cbmem_cons);
if (info->cbmem_cons) {
struct cbmem_console *cons = info->cbmem_cons;
int i;
print_hex("Size", cons->size);
print_hex("Cursor", cons->cursor);
if (verbose) {
for (i = 0; i < cons->cursor; i++) {
int ch = cons->body[i];
putc(ch);
if (ch == '\n') {
/* check for ctrl-c to abort... */
if (ctrlc()) {
puts("Abort\n");
return;
}
printf(" ");
}
}
printf("\n");
}
}
print_ptr("MRC cache", info->mrc_cache);
print_ptr("ACPI GNVS", info->acpi_gnvs);
print_hex("Board ID", info->board_id);
print_hex("RAM code", info->ram_code);
print_ptr("WiFi calib", info->wifi_calibration);
print_addr64("Ramoops buff", info->ramoops_buffer);
print_hex(">size", info->ramoops_buffer_size);
print_hex("SF size", info->spi_flash.size);
print_hex("SF sector", info->spi_flash.sector_size);
print_hex("SF erase cmd", info->spi_flash.erase_cmd);
print_addr64("FMAP offset", info->fmap_offset);
print_addr64("CBFS offset", info->cbfs_offset);
print_addr64("CBFS size", info->cbfs_size);
print_addr64("Boot media size", info->boot_media_size);
print_addr64("MTC start", info->mtc_start);
print_hex("MTC size", info->mtc_size);
print_ptr("Chrome OS VPD", info->chromeos_vpd);
print_ptr("RSDP", info->rsdp);
printf("%-12s: ", "Unimpl.");
if (info->unimpl_count) {
for (i = 0; i < info->unimpl_count; i++)
printf("%02x ", info->unimpl[i]);
printf("\n");
} else {
printf("(none)\n");
}
}
static int do_cbsysinfo(struct cmd_tbl *cmdtp, int flag, int argc,
char *const argv[])
{
bool verbose = false;
if (argc > 1) {
if (!strcmp("-v", argv[1]))
verbose = true;
else
return CMD_RET_USAGE;
}
if (!gd->arch.coreboot_table) {
printf("No coreboot sysinfo table found\n");
return CMD_RET_FAILURE;
}
show_table(&lib_sysinfo, verbose);
return 0;
}
U_BOOT_CMD(
cbsysinfo, 2, 1, do_cbsysinfo,
"Show coreboot sysinfo table",
"[-v] Dumps out the contents of the sysinfo table. This only\n"
"works if U-Boot is booted from coreboot"
);