coreboot-kgpe-d16/src/include/console/console.h

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/*
* This file is part of the coreboot project.
*
* Copyright (C) 2003 Eric Biederman
*
* 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
*/
#ifndef CONSOLE_CONSOLE_H_
#define CONSOLE_CONSOLE_H_
#include <stdint.h>
#include <console/loglevel.h>
#include <console/post_codes.h>
#if CONFIG_CONSOLE_SERIAL8250 || CONFIG_CONSOLE_SERIAL8250MEM
#include <uart8250.h>
#endif
#if CONFIG_USBDEBUG
#include <usbdebug.h>
#endif
#if CONFIG_CONSOLE_NE2K
#include <console/ne2k.h>
#endif
CBMEM CONSOLE: Add CBMEM console driver implementation. The CBMEM console driver saves console output in a CBMEM area, which then is made available to Linux applications for perusing. There are some system limitations which need to be worked around to achieve this goal: - some console traffic is generated before DRAM is initialized, leave alone CBMEM initialized. - after the RAM based stage starts, a lot of traffic is generated before CBMEM is initialized. As a result, the console log lives in three different places - the bottom of the cache as RAM space, the CBMEM buffer (where it is expected to be) and a static buffer used early in the RAM stage. When execution starts (in the cache as RAM mode), the console buffer is allocated at the bottom of the cache as RAM memory address range. Once DRAM is initialized, the CBMEM structure is initialized, and then the console buffer contents are copied from the bottom of the cache as RAM space into the CBMEM area right before the cache as RAM mode is disabled. The src/lib/cbmem_console.c:cbmemc_reinit() takes care of the copying. At this point the cache as RAM memory is about to be disabled, but the ROM stage is still going generating console output. To make sure this output is not lost, cbmemc_reinit() saves the new buffer address at a fixed location (0x600 was chosen for this), and the actual "printing" function checks to see if the RAM is already initialized (the stack is in RAM), and if so, gets the console buffer pointer from this location instead of using the cache as RAM address. When the RAM stage starts, a static buffer is used to store the console output, as the CBMEM buffer location is not known. Then, when CBMEM is reinitialized, cbmemc_reinit() again takes care of the copying. In case the allocated buffers are not large enough, the excessive data is dropped, and the copying routine adds some text to the output buffer to indicate that there has been data lost and how many characters were dropped. Change-Id: I8c126e31db6cb2141f7f4f97c5047f39a8db44fc Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/719 Tested-by: build bot (Jenkins) Reviewed-by: Ronald G. Minnich <rminnich@gmail.com>
2011-09-30 02:27:15 +02:00
#if CONFIG_CONSOLE_CBMEM
#include <console/cbmem_console.h>
#endif
#ifndef __PRE_RAM__
void console_tx_byte(unsigned char byte);
void console_tx_flush(void);
unsigned char console_rx_byte(void);
int console_tst_byte(void);
struct console_driver {
void (*init)(void);
void (*tx_byte)(unsigned char byte);
void (*tx_flush)(void);
unsigned char (*rx_byte)(void);
int (*tst_byte)(void);
};
#define __console __attribute__((used, __section__ (".rodata.console_drivers")))
/* Defined by the linker... */
extern struct console_driver console_drivers[];
extern struct console_driver econsole_drivers[];
extern int console_loglevel;
#else
/* __PRE_RAM__ */
/* Using a global varible can cause problems when we reset the stack
* from cache as ram to ram. If we make this a define USE_SHARED_STACK
* we could use the same code on all architectures.
*/
#define console_loglevel CONFIG_DEFAULT_CONSOLE_LOGLEVEL
#endif
#ifndef __ROMCC__
void console_init(void);
void post_code(u8 value);
/* this function is weak and can be overridden by a mainboard function. */
void mainboard_post(u8 value);
void __attribute__ ((noreturn)) die(const char *msg);
int do_printk(int msg_level, const char *fmt, ...) __attribute__((format(printf, 2, 3)));
#undef WE_CLEANED_UP_ALL_SIDE_EFFECTS
/* We saw some strange effects in the past like coreboot crashing while
* disabling cache as ram for a maximum console log level of 6 and above while
* it worked fine without. In order to catch such issues reliably we are
* always doing a function call to do_printk with the full number of arguments.
* Our favorite reason to do it this way was:
* disable_car();
* printk(BIOS_DEBUG, "CAR disabled\n"); // oops, garbage stack pointer
* move_stack();
* This slightly increases the code size and some unprinted strings will end
* up in the final coreboot binary (most of them compressed). If you want to
* avoid this, do a
* #define WE_CLEANED_UP_ALL_SIDE_EFFECTS
*/
#ifdef WE_CLEANED_UP_ALL_SIDE_EFFECTS
#define printk(LEVEL, fmt, args...) \
do { \
if (CONFIG_MAXIMUM_CONSOLE_LOGLEVEL >= LEVEL) { \
do_printk(LEVEL, fmt, ##args); \
} \
} while(0)
#else
#define printk(LEVEL, fmt, args...) \
do { \
if (CONFIG_MAXIMUM_CONSOLE_LOGLEVEL >= LEVEL) { \
do_printk(LEVEL, fmt, ##args); \
} else { \
do_printk(BIOS_NEVER, fmt, ##args); \
} \
} while(0)
#endif
#define print_emerg(STR) printk(BIOS_EMERG, "%s", (STR))
#define print_alert(STR) printk(BIOS_ALERT, "%s", (STR))
#define print_crit(STR) printk(BIOS_CRIT, "%s", (STR))
#define print_err(STR) printk(BIOS_ERR, "%s", (STR))
#define print_warning(STR) printk(BIOS_WARNING,"%s", (STR))
#define print_notice(STR) printk(BIOS_NOTICE, "%s", (STR))
#define print_info(STR) printk(BIOS_INFO, "%s", (STR))
#define print_debug(STR) printk(BIOS_DEBUG, "%s", (STR))
#define print_spew(STR) printk(BIOS_SPEW, "%s", (STR))
#define print_emerg_char(CH) printk(BIOS_EMERG, "%c", (CH))
#define print_alert_char(CH) printk(BIOS_ALERT, "%c", (CH))
#define print_crit_char(CH) printk(BIOS_CRIT, "%c", (CH))
#define print_err_char(CH) printk(BIOS_ERR, "%c", (CH))
#define print_warning_char(CH) printk(BIOS_WARNING,"%c", (CH))
#define print_notice_char(CH) printk(BIOS_NOTICE, "%c", (CH))
#define print_info_char(CH) printk(BIOS_INFO, "%c", (CH))
#define print_debug_char(CH) printk(BIOS_DEBUG, "%c", (CH))
#define print_spew_char(CH) printk(BIOS_SPEW, "%c", (CH))
#define print_emerg_hex8(HEX) printk(BIOS_EMERG, "%02x", (HEX))
#define print_alert_hex8(HEX) printk(BIOS_ALERT, "%02x", (HEX))
#define print_crit_hex8(HEX) printk(BIOS_CRIT, "%02x", (HEX))
#define print_err_hex8(HEX) printk(BIOS_ERR, "%02x", (HEX))
#define print_warning_hex8(HEX) printk(BIOS_WARNING,"%02x", (HEX))
#define print_notice_hex8(HEX) printk(BIOS_NOTICE, "%02x", (HEX))
#define print_info_hex8(HEX) printk(BIOS_INFO, "%02x", (HEX))
#define print_debug_hex8(HEX) printk(BIOS_DEBUG, "%02x", (HEX))
#define print_spew_hex8(HEX) printk(BIOS_SPEW, "%02x", (HEX))
#define print_emerg_hex16(HEX) printk(BIOS_EMERG, "%04x", (HEX))
#define print_alert_hex16(HEX) printk(BIOS_ALERT, "%04x", (HEX))
#define print_crit_hex16(HEX) printk(BIOS_CRIT, "%04x", (HEX))
#define print_err_hex16(HEX) printk(BIOS_ERR, "%04x", (HEX))
#define print_warning_hex16(HEX) printk(BIOS_WARNING,"%04x", (HEX))
#define print_notice_hex16(HEX) printk(BIOS_NOTICE, "%04x", (HEX))
#define print_info_hex16(HEX) printk(BIOS_INFO, "%04x", (HEX))
#define print_debug_hex16(HEX) printk(BIOS_DEBUG, "%04x", (HEX))
#define print_spew_hex16(HEX) printk(BIOS_SPEW, "%04x", (HEX))
#define print_emerg_hex32(HEX) printk(BIOS_EMERG, "%08x", (HEX))
#define print_alert_hex32(HEX) printk(BIOS_ALERT, "%08x", (HEX))
#define print_crit_hex32(HEX) printk(BIOS_CRIT, "%08x", (HEX))
#define print_err_hex32(HEX) printk(BIOS_ERR, "%08x", (HEX))
#define print_warning_hex32(HEX) printk(BIOS_WARNING,"%08x", (HEX))
#define print_notice_hex32(HEX) printk(BIOS_NOTICE, "%08x", (HEX))
#define print_info_hex32(HEX) printk(BIOS_INFO, "%08x", (HEX))
#define print_debug_hex32(HEX) printk(BIOS_DEBUG, "%08x", (HEX))
#define print_spew_hex32(HEX) printk(BIOS_SPEW, "%08x", (HEX))
#else
/* __ROMCC__ */
#define print_emerg(STR) __console_tx_string(BIOS_EMERG, STR)
#define print_alert(STR) __console_tx_string(BIOS_ALERT, STR)
#define print_crit(STR) __console_tx_string(BIOS_CRIT, STR)
#define print_err(STR) __console_tx_string(BIOS_ERR, STR)
#define print_warning(STR) __console_tx_string(BIOS_WARNING, STR)
#define print_notice(STR) __console_tx_string(BIOS_NOTICE, STR)
#define print_info(STR) __console_tx_string(BIOS_INFO, STR)
#define print_debug(STR) __console_tx_string(BIOS_DEBUG, STR)
#define print_spew(STR) __console_tx_string(BIOS_SPEW, STR)
#define print_emerg_char(CH) __console_tx_char(BIOS_EMERG, CH)
#define print_alert_char(CH) __console_tx_char(BIOS_ALERT, CH)
#define print_crit_char(CH) __console_tx_char(BIOS_CRIT, CH)
#define print_err_char(CH) __console_tx_char(BIOS_ERR, CH)
#define print_warning_char(CH) __console_tx_char(BIOS_WARNING, CH)
#define print_notice_char(CH) __console_tx_char(BIOS_NOTICE, CH)
#define print_info_char(CH) __console_tx_char(BIOS_INFO, CH)
#define print_debug_char(CH) __console_tx_char(BIOS_DEBUG, CH)
#define print_spew_char(CH) __console_tx_char(BIOS_SPEW, CH)
#define print_emerg_hex8(HEX) __console_tx_hex8(BIOS_EMERG, HEX)
#define print_alert_hex8(HEX) __console_tx_hex8(BIOS_ALERT, HEX)
#define print_crit_hex8(HEX) __console_tx_hex8(BIOS_CRIT, HEX)
#define print_err_hex8(HEX) __console_tx_hex8(BIOS_ERR, HEX)
#define print_warning_hex8(HEX) __console_tx_hex8(BIOS_WARNING, HEX)
#define print_notice_hex8(HEX) __console_tx_hex8(BIOS_NOTICE, HEX)
#define print_info_hex8(HEX) __console_tx_hex8(BIOS_INFO, HEX)
#define print_debug_hex8(HEX) __console_tx_hex8(BIOS_DEBUG, HEX)
#define print_spew_hex8(HEX) __console_tx_hex8(BIOS_SPEW, HEX)
#define print_emerg_hex16(HEX) __console_tx_hex16(BIOS_EMERG, HEX)
#define print_alert_hex16(HEX) __console_tx_hex16(BIOS_ALERT, HEX)
#define print_crit_hex16(HEX) __console_tx_hex16(BIOS_CRIT, HEX)
#define print_err_hex16(HEX) __console_tx_hex16(BIOS_ERR, HEX)
#define print_warning_hex16(HEX) __console_tx_hex16(BIOS_WARNING, HEX)
#define print_notice_hex16(HEX) __console_tx_hex16(BIOS_NOTICE, HEX)
#define print_info_hex16(HEX) __console_tx_hex16(BIOS_INFO, HEX)
#define print_debug_hex16(HEX) __console_tx_hex16(BIOS_DEBUG, HEX)
#define print_spew_hex16(HEX) __console_tx_hex16(BIOS_SPEW, HEX)
#define print_emerg_hex32(HEX) __console_tx_hex32(BIOS_EMERG, HEX)
#define print_alert_hex32(HEX) __console_tx_hex32(BIOS_ALERT, HEX)
#define print_crit_hex32(HEX) __console_tx_hex32(BIOS_CRIT, HEX)
#define print_err_hex32(HEX) __console_tx_hex32(BIOS_ERR, HEX)
#define print_warning_hex32(HEX) __console_tx_hex32(BIOS_WARNING, HEX)
#define print_notice_hex32(HEX) __console_tx_hex32(BIOS_NOTICE, HEX)
#define print_info_hex32(HEX) __console_tx_hex32(BIOS_INFO, HEX)
#define print_debug_hex32(HEX) __console_tx_hex32(BIOS_DEBUG, HEX)
#define print_spew_hex32(HEX) __console_tx_hex32(BIOS_SPEW, HEX)
#include "arch/x86/lib/romcc_console.c"
#endif /* __ROMCC__ */
#endif /* CONSOLE_CONSOLE_H_ */