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coreboot-kgpe-d16/src/lib/cbmem_console.c
Julius Werner 7e0dea6317 symbols.h: Add macro to define memlayout region symbols 
When <symbols.h> was first introduced, it only declared a handful of
regions and we didn't expect that too many architectures and platforms
would need to add their own later. However, our amount of platforms has
greatly expanded since, and with them the need for more special memory
regions. The amount of code duplication is starting to get unsightly,
and platforms keep defining their own <soc/symbols.h> files that need
this as well.

This patch adds another macro to cut down the definition boilerplate.
Unfortunately, macros cannot define other macros when they're called, so
referring to region sizes as _name_size doesn't work anymore. This patch
replaces the scheme with REGION_SIZE(name).

Not touching the regions in the x86-specific <arch/symbols.h> yet since
they don't follow the standard _region/_eregion naming scheme. They can
be converted later if desired.

Change-Id: I44727d77d1de75882c72a94f29bd7e2c27741dd8
Signed-off-by: Julius Werner <jwerner@chromium.org>
Reviewed-on: https://review.coreboot.org/c/31539
Tested-by: build bot (Jenkins) <no-reply@coreboot.org>
Reviewed-by: Aaron Durbin <adurbin@chromium.org>
2019-02-22 06:44:02 +00:00

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/*
* This file is part of the coreboot project.
*
* Copyright (C) 2011 The ChromiumOS Authors. All rights reserved.
*
* 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.
*/
#include <console/console.h>
#include <console/cbmem_console.h>
#include <console/uart.h>
#include <cbmem.h>
#include <arch/early_variables.h>
#include <symbols.h>
#include <string.h>
/*
* Structure describing console buffer. It is overlaid on a flat memory area,
* with body covering the extent of the memory. Once the buffer is full,
* output will wrap back around to the start of the buffer. The high bit of the
* cursor field gets set to indicate that this happened. If the underlying
* storage allows this, the buffer will persist across multiple boots and append
* to the previous log.
*
* NOTE: These are known implementations accessing this console that need to be
* updated in case of structure/API changes:
*
* cbmem: [coreboot]/src/util/cbmem/cbmem.c
* libpayload: [coreboot]/payloads/libpayload/drivers/cbmem_console.c
* coreinfo: [coreboot]/payloads/coreinfo/bootlog_module.c
* Linux: drivers/firmware/google/memconsole-coreboot.c
* SeaBIOS: src/firmware/coreboot.c
* GRUB: grub-core/term/i386/coreboot/cbmemc.c
*/
struct cbmem_console {
u32 size;
u32 cursor;
u8 body[0];
} __packed;
#define MAX_SIZE (1 << 28) /* can't be changed without breaking readers! */
#define CURSOR_MASK (MAX_SIZE - 1) /* bits 31-28 are reserved for flags */
#define OVERFLOW (1UL << 31) /* set if in ring-buffer mode */
_Static_assert(CONFIG_CONSOLE_CBMEM_BUFFER_SIZE <= MAX_SIZE,
"cbmem_console format cannot support buffers larger than 256MB!");
static struct cbmem_console *cbmem_console_p CAR_GLOBAL;
#ifdef __PRE_RAM__
/*
* While running from ROM, before DRAM is initialized, some area in cache as
* RAM space is used for the console buffer storage. The size and location of
* the area are defined by the linker script with _(e)preram_cbmem_console.
*/
#else
/*
* When running from RAM, some console output is generated before CBMEM is
* reinitialized. This static buffer is used to store that output temporarily,
* to be concatenated with the CBMEM console buffer contents accumulated
* during the ROM stage, once CBMEM becomes available at RAM stage.
*/
#define STATIC_CONSOLE_SIZE 1024
static u8 static_console[STATIC_CONSOLE_SIZE];
#endif
static struct cbmem_console *current_console(void)
{
return car_sync_var(cbmem_console_p);
}
static void current_console_set(struct cbmem_console *new_console_p)
{
car_set_var(cbmem_console_p, new_console_p);
}
static int buffer_valid(struct cbmem_console *cbm_cons_p, u32 total_space)
{
return (cbm_cons_p->cursor & CURSOR_MASK) < cbm_cons_p->size &&
cbm_cons_p->size <= MAX_SIZE &&
cbm_cons_p->size == total_space - sizeof(struct cbmem_console);
}
static void init_console_ptr(void *storage, u32 total_space)
{
struct cbmem_console *cbm_cons_p = storage;
if (!cbm_cons_p || total_space <= sizeof(struct cbmem_console)) {
current_console_set(NULL);
return;
}
if (!buffer_valid(cbm_cons_p, total_space)) {
cbm_cons_p->size = total_space - sizeof(struct cbmem_console);
cbm_cons_p->cursor = 0;
}
current_console_set(cbm_cons_p);
}
void cbmemc_init(void)
{
#ifdef __PRE_RAM__
/* Pre-RAM environments use special buffer placed by linker script. */
init_console_ptr(_preram_cbmem_console,
REGION_SIZE(preram_cbmem_console));
#else
/* Post-RAM uses static (BSS) buffer before CBMEM is reinitialized. */
init_console_ptr(static_console, sizeof(static_console));
#endif
}
void cbmemc_tx_byte(unsigned char data)
{
struct cbmem_console *cbm_cons_p = current_console();
if (!cbm_cons_p || !cbm_cons_p->size)
return;
u32 flags = cbm_cons_p->cursor & ~CURSOR_MASK;
u32 cursor = cbm_cons_p->cursor & CURSOR_MASK;
cbm_cons_p->body[cursor++] = data;
if (cursor >= cbm_cons_p->size) {
cursor = 0;
flags |= OVERFLOW;
}
cbm_cons_p->cursor = flags | cursor;
}
/*
* Copy the current console buffer (either from the cache as RAM area or from
* the static buffer, pointed at by src_cons_p) into the newly initialized CBMEM
* console. The use of cbmemc_tx_byte() ensures that all special cases for the
* target console (e.g. overflow) will be handled. If there had been an
* overflow in the source console, log a message to that effect.
*/
static void copy_console_buffer(struct cbmem_console *src_cons_p)
{
u32 c;
if (!src_cons_p)
return;
if (src_cons_p->cursor & OVERFLOW) {
const char overflow_warning[] = "\n*** Pre-CBMEM " ENV_STRING
" console overflowed, log truncated! ***\n";
for (c = 0; c < sizeof(overflow_warning) - 1; c++)
cbmemc_tx_byte(overflow_warning[c]);
for (c = src_cons_p->cursor & CURSOR_MASK;
c < src_cons_p->size; c++)
cbmemc_tx_byte(src_cons_p->body[c]);
}
for (c = 0; c < (src_cons_p->cursor & CURSOR_MASK); c++)
cbmemc_tx_byte(src_cons_p->body[c]);
/* Invalidate the source console, so it will be reinitialized on the
next reboot. Otherwise, we might copy the same bytes again. */
src_cons_p->size = 0;
}
static void cbmemc_reinit(int is_recovery)
{
const size_t size = CONFIG_CONSOLE_CBMEM_BUFFER_SIZE;
/* If CBMEM entry already existed, old contents are not altered. */
struct cbmem_console *cbmem_cons_p = cbmem_add(CBMEM_ID_CONSOLE, size);
struct cbmem_console *previous_cons_p = current_console();
init_console_ptr(cbmem_cons_p, size);
copy_console_buffer(previous_cons_p);
}
ROMSTAGE_CBMEM_INIT_HOOK(cbmemc_reinit)
RAMSTAGE_CBMEM_INIT_HOOK(cbmemc_reinit)
POSTCAR_CBMEM_INIT_HOOK(cbmemc_reinit)
#if IS_ENABLED(CONFIG_CONSOLE_CBMEM_DUMP_TO_UART)
void cbmem_dump_console(void)
{
struct cbmem_console *cbm_cons_p;
u32 cursor;
cbm_cons_p = current_console();
if (!cbm_cons_p)
return;
uart_init(0);
if (cbm_cons_p->cursor & OVERFLOW)
for (cursor = cbm_cons_p->cursor & CURSOR_MASK;
cursor < cbm_cons_p->size; cursor++)
uart_tx_byte(0, cbm_cons_p->body[cursor]);
for (cursor = 0; cursor < (cbm_cons_p->cursor & CURSOR_MASK); cursor++)
uart_tx_byte(0, cbm_cons_p->body[cursor]);
}
#endif
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