coreboot-kgpe-d16/util/cbmem/cbmem.c

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util/: Replace GPLv2 boiler plate with SPDX header Used commands: perl -i -p0e 's|\/\*[\s*]*.*is free software[:;][\s*]*you[\s*]*can[\s*]*redistribute[\s*]*it[\s*]*and\/or[\s*]*modify[\s*]*it[\s*]*under[\s*]*the[\s*]*terms[\s*]*of[\s*]*the[\s*]*GNU[\s*]*General[\s*]*Public[\s*]*License[\s*]*as[\s*]*published[\s*]*by[\s*]*the[\s*]*Free[\s*]*Software[\s*]*Foundation[;,][\s*]*version[\s*]*2[\s*]*of[\s*]*the[\s*]*License.[\s*]*This[\s*]*program[\s*]*is[\s*]*distributed[\s*]*in[\s*]*the[\s*]*hope[\s*]*that[\s*]*it[\s*]*will[\s*]*be[\s*]*useful,[\s*]*but[\s*]*WITHOUT[\s*]*ANY[\s*]*WARRANTY;[\s*]*without[\s*]*even[\s*]*the[\s*]*implied[\s*]*warranty[\s*]*of[\s*]*MERCHANTABILITY[\s*]*or[\s*]*FITNESS[\s*]*FOR[\s*]*A[\s*]*PARTICULAR[\s*]*PURPOSE.[\s*]*See[\s*]*the[\s*]*GNU[\s*]*General[\s*]*Public[\s*]*License[\s*]*for[\s*]*more[\s*]*details.[\s*]*\*\/|/* SPDX-License-Identifier: GPL-2.0-only */|' $(cat filelist) perl -i -p0e 's|This[\s*]*program[\s*]*is[\s*]*free[\s*]*software[:;][\s*]*you[\s*]*can[\s*]*redistribute[\s*]*it[\s*]*and/or[\s*]*modify[\s*]*it[\s*]*under[\s*]*the[\s*]*terms[\s*]*of[\s*]*the[\s*]*GNU[\s*]*General[\s*]*Public[\s*]*License[\s*]*as[\s*]*published[\s*]*by[\s*]*the[\s*]*Free[\s*]*Software[\s*]*Foundation[;,][\s*]*either[\s*]*version[\s*]*2[\s*]*of[\s*]*the[\s*]*License,[\s*]*or[\s*]*.at[\s*]*your[\s*]*option.*[\s*]*any[\s*]*later[\s*]*version.[\s*]*This[\s*]*program[\s*]*is[\s*]*distributed[\s*]*in[\s*]*the[\s*]*hope[\s*]*that[\s*]*it[\s*]*will[\s*]*be[\s*]*useful,[\s*]*but[\s*]*WITHOUT[\s*]*ANY[\s*]*WARRANTY;[\s*]*without[\s*]*even[\s*]*the[\s*]*implied[\s*]*warranty[\s*]*of[\s*]*MERCHANTABILITY[\s*]*or[\s*]*FITNESS[\s*]*FOR[\s*]*A[\s*]*PARTICULAR[\s*]*PURPOSE.[\s*]*See[\s*]*the[\s*]*GNU[\s*]*General[\s*]*Public[\s*]*License[\s*]*for[\s*]*more[\s*]*details.[\s*]*\*\/|/* SPDX-License-Identifier: GPL-2.0-or-later */|' $(cat filelist) perl -i -p0e 's|\/\*[\s*]*.*This[\s*#]*program[\s*#]*is[\s*#]*free[\s*#]*software[;:,][\s*#]*you[\s*#]*can[\s*#]*redistribute[\s*#]*it[\s*#]*and/or[\s*#]*modify[\s*#]*it[\s*#]*under[\s*#]*the[\s*#]*terms[\s*#]*of[\s*#]*the[\s*#]*GNU[\s*#]*General[\s*#]*Public[\s*#]*License[\s*#]*as[\s*#]*published[\s*#]*by[\s*#]*the[\s*#]*Free[\s*#]*Software[\s*#]*Foundation[;:,][\s*#]*either[\s*#]*version[\s*#]*3[\s*#]*of[\s*#]*the[\s*#]*License[;:,][\s*#]*or[\s*#]*.at[\s*#]*your[\s*#]*option.*[\s*#]*any[\s*#]*later[\s*#]*version.[\s*#]*This[\s*#]*program[\s*#]*is[\s*#]*distributed[\s*#]*in[\s*#]*the[\s*#]*hope[\s*#]*that[\s*#]*it[\s*#]*will[\s*#]*be[\s*#]*useful[;:,][\s*#]*but[\s*#]*WITHOUT[\s*#]*ANY[\s*#]*WARRANTY[;:,][\s*#]*without[\s*#]*even[\s*#]*the[\s*#]*implied[\s*#]*warranty[\s*#]*of[\s*#]*MERCHANTABILITY[\s*#]*or[\s*#]*FITNESS[\s*#]*FOR[\s*#]*A[\s*#]*PARTICULAR[\s*#]*PURPOSE.[\s*#]*See[\s*#]*the[\s*#]*GNU[\s*#]*General[\s*#]*Public[\s*#]*License[\s*#]*for[\s*#]*more[\s*#]*details.[\s*]*\*\/|/* SPDX-License-Identifier: GPL-3.0-or-later */|' $(cat filelist) perl -i -p0e 's|(\#\#*)[\w]*.*is free software[:;][\#\s]*you[\#\s]*can[\#\s]*redistribute[\#\s]*it[\#\s]*and\/or[\#\s]*modify[\#\s]*it[\s\#]*under[\s \#]*the[\s\#]*terms[\s\#]*of[\s\#]*the[\s\#]*GNU[\s\#]*General[\s\#]*Public[\s\#]*License[\s\#]*as[\s\#]*published[\s\#]*by[\s\#]*the[\s\#]*Free[\s\#]*Software[\s\#]*Foundation[;,][\s\#]*version[\s\#]*2[\s\#]*of[\s\#]*the[\s\#]*License.*[\s\#]*This[\s\#]*program[\s\#]*is[\s\#]*distributed[\s\#]*in[\s\#]*the[\s\#]*hope[\s\#]*that[\s\#]*it[\s\#]*will[\#\s]*be[\#\s]*useful,[\#\s]*but[\#\s]*WITHOUT[\#\s]*ANY[\#\s]*WARRANTY;[\#\s]*without[\#\s]*even[\#\s]*the[\#\s]*implied[\#\s]*warranty[\#\s]*of[\#\s]*MERCHANTABILITY[\#\s]*or[\#\s]*FITNESS[\#\s]*FOR[\#\s]*A[\#\s]*PARTICULAR[\#\s]*PURPOSE.[\#\s]*See[\#\s]*the[\#\s]*GNU[\#\s]*General[\#\s]*Public[\#\s]*License[\#\s]*for[\#\s]*more[\#\s]*details.\s(#* *\n)*|\1 SPDX-License-Identifier: GPL-2.0-only\n\n|' $(cat filelist) perl -i -p0e 's|(\#\#*)[\w*]*.*is free software[:;][\s*]*you[\s*]*can[\s*]*redistribute[\s*]*it[\s*]*and\/or[\s*]*modify[\s*]*it[\s*]*under[\s*]*the[\s*]*terms[\s*]*of[\s*]*the[\s*]*GNU[\s*]*General[\s*]*Public[\s*]*License[\s*]*as[\s*]*published[\s*]*by[\s*]*the[\s*]*Free[\s*]*Software[\s*]*Foundation[;,][\s*]*version[\s*]*2[\s*]*of[\s*]*the[\s*]*License.[\s*]*This[\s*]*program[\s*]*is[\s*]*distributed[\s*]*in[\s*]*the[\s*]*hope[\s*]*that[\s*]*it[\s*]*will[\s*]*be[\s*]*useful,[\s*]*but[\s*]*WITHOUT[\s*]*ANY[\s*]*WARRANTY;[\s*]*without[\s*]*even[\s*]*the[\s*]*implied[\s*]*warranty[\s*]*of[\s*]*MERCHANTABILITY[\s*]*or[\s*]*FITNESS[\s*]*FOR[\s*]*A[\s*]*PARTICULAR[\s*]*PURPOSE.[\s*]*See[\s*]*the[\s*]*GNU[\s*]*General[\s*]*Public[\s*]*License[\s*]*for[\s*]*more[\s*]*details.\s(#* *\n)*|\1 SPDX-License-Identifier: GPL-2.0-only\n\n|' $(cat filelist) Change-Id: I1008a63b804f355a916221ac994701d7584f60ff Signed-off-by: Patrick Georgi <pgeorgi@google.com> Signed-off-by: Elyes HAOUAS <ehaouas@noos.fr> Reviewed-on: https://review.coreboot.org/c/coreboot/+/41177 Tested-by: build bot (Jenkins) <no-reply@coreboot.org>
2020-05-08 20:48:04 +02:00
/* SPDX-License-Identifier: GPL-2.0-only */
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
#include <inttypes.h>
#include <stdbool.h>
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <getopt.h>
#include <dirent.h>
#include <errno.h>
#include <fcntl.h>
#include <ctype.h>
#include <arpa/inet.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/mman.h>
#include <libgen.h>
#include <assert.h>
#include <regex.h>
#include <commonlib/bsd/cbmem_id.h>
#include <commonlib/loglevel.h>
#include <commonlib/timestamp_serialized.h>
#include <commonlib/tcpa_log_serialized.h>
#include <commonlib/coreboot_tables.h>
#ifdef __OpenBSD__
#include <sys/param.h>
#include <sys/sysctl.h>
#endif
#define ARRAY_SIZE(a) (sizeof(a) / sizeof((a)[0]))
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
typedef uint8_t u8;
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
typedef uint16_t u16;
typedef uint32_t u32;
typedef uint64_t u64;
/* Return < 0 on error, 0 on success. */
static int parse_cbtable(u64 address, size_t table_size);
struct mapping {
void *virt;
size_t offset;
size_t virt_size;
unsigned long long phys;
size_t size;
};
#define CBMEM_VERSION "1.1"
/* verbose output? */
static int verbose = 0;
#define debug(x...) if(verbose) printf(x)
/* File handle used to access /dev/mem */
static int mem_fd;
static struct mapping lbtable_mapping;
static void die(const char *msg)
{
if (msg)
fputs(msg, stderr);
exit(1);
}
static unsigned long long system_page_size(void)
{
static unsigned long long page_size;
if (!page_size)
page_size = getpagesize();
return page_size;
}
static inline size_t size_to_mib(size_t sz)
{
return sz >> 20;
}
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
/* Return mapping of physical address requested. */
static const void *mapping_virt(const struct mapping *mapping)
{
const char *v = mapping->virt;
if (v == NULL)
return NULL;
return v + mapping->offset;
}
/* Returns virtual address on success, NULL on error. mapping is filled in. */
static const void *map_memory(struct mapping *mapping, unsigned long long phys,
size_t sz)
{
void *v;
unsigned long long page_size;
page_size = system_page_size();
mapping->virt = NULL;
mapping->offset = phys % page_size;
mapping->virt_size = sz + mapping->offset;
mapping->size = sz;
mapping->phys = phys;
if (size_to_mib(mapping->virt_size) == 0) {
debug("Mapping %zuB of physical memory at 0x%llx (requested 0x%llx).\n",
mapping->virt_size, phys - mapping->offset, phys);
} else {
debug("Mapping %zuMB of physical memory at 0x%llx (requested 0x%llx).\n",
size_to_mib(mapping->virt_size), phys - mapping->offset,
phys);
}
v = mmap(NULL, mapping->virt_size, PROT_READ, MAP_SHARED, mem_fd,
phys - mapping->offset);
if (v == MAP_FAILED) {
debug("Mapping failed %zuB of physical memory at 0x%llx.\n",
mapping->virt_size, phys - mapping->offset);
return NULL;
}
mapping->virt = v;
if (mapping->offset != 0)
debug(" ... padding virtual address with 0x%zx bytes.\n",
mapping->offset);
return mapping_virt(mapping);
}
/* Returns 0 on success, < 0 on error. mapping is cleared if successful. */
static int unmap_memory(struct mapping *mapping)
{
if (mapping->virt == NULL)
return -1;
munmap(mapping->virt, mapping->virt_size);
mapping->virt = NULL;
mapping->offset = 0;
mapping->virt_size = 0;
return 0;
}
/* Return size of physical address mapping requested. */
static size_t mapping_size(const struct mapping *mapping)
{
if (mapping->virt == NULL)
return 0;
return mapping->size;
}
/*
* Some architectures map /dev/mem memory in a way that doesn't support
* unaligned accesses. Most normal libc memcpy()s aren't safe to use in this
* case, so build our own which makes sure to never do unaligned accesses on
* *src (*dest is fine since we never map /dev/mem for writing).
*/
static void *aligned_memcpy(void *dest, const void *src, size_t n)
{
u8 *d = dest;
const volatile u8 *s = src; /* volatile to prevent optimization */
while ((uintptr_t)s & (sizeof(size_t) - 1)) {
if (n-- == 0)
return dest;
*d++ = *s++;
}
while (n >= sizeof(size_t)) {
*(size_t *)d = *(const volatile size_t *)s;
d += sizeof(size_t);
s += sizeof(size_t);
n -= sizeof(size_t);
}
while (n-- > 0)
*d++ = *s++;
return dest;
}
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
/*
* calculate ip checksum (16 bit quantities) on a passed in buffer. In case
* the buffer length is odd last byte is excluded from the calculation
*/
static u16 ipchcksum(const void *addr, unsigned size)
{
const u16 *p = addr;
unsigned i, n = size / 2; /* don't expect odd sized blocks */
u32 sum = 0;
for (i = 0; i < n; i++)
sum += p[i];
sum = (sum >> 16) + (sum & 0xffff);
sum += (sum >> 16);
sum = ~sum & 0xffff;
return (u16) sum;
}
/* Find the first cbmem entry filling in the details. */
static int find_cbmem_entry(uint32_t id, uint64_t *addr, size_t *size)
{
const uint8_t *table;
size_t offset;
int ret = -1;
table = mapping_virt(&lbtable_mapping);
if (table == NULL)
return -1;
offset = 0;
while (offset < mapping_size(&lbtable_mapping)) {
const struct lb_record *lbr;
const struct lb_cbmem_entry *lbe;
lbr = (const void *)(table + offset);
offset += lbr->size;
if (lbr->tag != LB_TAG_CBMEM_ENTRY)
continue;
lbe = (const void *)lbr;
if (lbe->id != id)
continue;
*addr = lbe->address;
*size = lbe->entry_size;
ret = 0;
break;
}
return ret;
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
}
/*
* Try finding the timestamp table and coreboot cbmem console starting from the
* passed in memory offset. Could be called recursively in case a forwarding
* entry is found.
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
*
* Returns pointer to a memory buffer containing the timestamp table or zero if
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
* none found.
*/
static struct lb_cbmem_ref timestamps;
static struct lb_cbmem_ref console;
static struct lb_cbmem_ref tcpa_log;
static struct lb_memory_range cbmem;
/* This is a work-around for a nasty problem introduced by initially having
* pointer sized entries in the lb_cbmem_ref structures. This caused problems
* on 64bit x86 systems because coreboot is 32bit on those systems.
* When the problem was found, it was corrected, but there are a lot of
* systems out there with a firmware that does not produce the right
* lb_cbmem_ref structure. Hence we try to autocorrect this issue here.
*/
static struct lb_cbmem_ref parse_cbmem_ref(const struct lb_cbmem_ref *cbmem_ref)
{
struct lb_cbmem_ref ret;
aligned_memcpy(&ret, cbmem_ref, sizeof(ret));
if (cbmem_ref->size < sizeof(*cbmem_ref))
ret.cbmem_addr = (uint32_t)ret.cbmem_addr;
debug(" cbmem_addr = %" PRIx64 "\n", ret.cbmem_addr);
return ret;
}
static void parse_memory_tags(const struct lb_memory *mem)
{
int num_entries;
int i;
/* Peel off the header size and calculate the number of entries. */
num_entries = (mem->size - sizeof(*mem)) / sizeof(mem->map[0]);
for (i = 0; i < num_entries; i++) {
if (mem->map[i].type != LB_MEM_TABLE)
continue;
debug(" LB_MEM_TABLE found.\n");
/* The last one found is CBMEM */
aligned_memcpy(&cbmem, &mem->map[i], sizeof(cbmem));
}
}
/* Return < 0 on error, 0 on success, 1 if forwarding table entry found. */
static int parse_cbtable_entries(const struct mapping *table_mapping)
{
size_t i;
const struct lb_record *lbr_p;
size_t table_size = mapping_size(table_mapping);
const void *lbtable = mapping_virt(table_mapping);
int forwarding_table_found = 0;
for (i = 0; i < table_size; i += lbr_p->size) {
lbr_p = lbtable + i;
debug(" coreboot table entry 0x%02x\n", lbr_p->tag);
switch (lbr_p->tag) {
case LB_TAG_MEMORY:
debug(" Found memory map.\n");
parse_memory_tags(lbtable + i);
continue;
case LB_TAG_TIMESTAMPS: {
debug(" Found timestamp table.\n");
timestamps =
parse_cbmem_ref((struct lb_cbmem_ref *)lbr_p);
continue;
}
case LB_TAG_CBMEM_CONSOLE: {
debug(" Found cbmem console.\n");
console = parse_cbmem_ref((struct lb_cbmem_ref *)lbr_p);
continue;
}
case LB_TAG_TCPA_LOG: {
debug(" Found tcpa log table.\n");
tcpa_log =
parse_cbmem_ref((struct lb_cbmem_ref *)lbr_p);
continue;
}
case LB_TAG_FORWARD: {
int ret;
/*
* This is a forwarding entry - repeat the
* search at the new address.
*/
struct lb_forward lbf_p =
*(const struct lb_forward *)lbr_p;
debug(" Found forwarding entry.\n");
ret = parse_cbtable(lbf_p.forward, 0);
/* Assume the forwarding entry is valid. If this fails
* then there's a total failure. */
if (ret < 0)
return -1;
forwarding_table_found = 1;
}
default:
break;
}
}
return forwarding_table_found;
}
/* Return < 0 on error, 0 on success. */
static int parse_cbtable(u64 address, size_t table_size)
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
{
const void *buf;
struct mapping header_mapping;
size_t req_size;
size_t i;
req_size = table_size;
/* Default to 4 KiB search space. */
if (req_size == 0)
req_size = 4 * 1024;
debug("Looking for coreboot table at %" PRIx64 " %zd bytes.\n",
address, req_size);
buf = map_memory(&header_mapping, address, req_size);
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
if (!buf)
return -1;
/* look at every 16 bytes */
for (i = 0; i <= req_size - sizeof(struct lb_header); i += 16) {
int ret;
const struct lb_header *lbh;
struct mapping table_mapping;
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
lbh = buf + i;
if (memcmp(lbh->signature, "LBIO", sizeof(lbh->signature)) ||
!lbh->header_bytes ||
ipchcksum(lbh, sizeof(*lbh))) {
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
continue;
}
/* Map in the whole table to parse. */
if (!map_memory(&table_mapping, address + i + lbh->header_bytes,
lbh->table_bytes)) {
debug("Couldn't map in table\n");
continue;
}
if (ipchcksum(mapping_virt(&table_mapping), lbh->table_bytes) !=
lbh->table_checksum) {
debug("Signature found, but wrong checksum.\n");
unmap_memory(&table_mapping);
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
continue;
}
debug("Found!\n");
ret = parse_cbtable_entries(&table_mapping);
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
/* Table parsing failed. */
if (ret < 0) {
unmap_memory(&table_mapping);
continue;
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
}
/* Succeeded in parsing the table. Header not needed anymore. */
unmap_memory(&header_mapping);
/*
* Table parsing succeeded. If forwarding table not found update
* coreboot table mapping for future use.
*/
if (ret == 0)
lbtable_mapping = table_mapping;
else
unmap_memory(&table_mapping);
return 0;
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
}
unmap_memory(&header_mapping);
return -1;
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
}
#if defined(linux) && (defined(__i386__) || defined(__x86_64__))
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
/*
util/cbmem: Scale time stamp values correctly Commit c49014e (timestamp: add tick frequency to exported table) refactors the code, but forgets to correctly scale the frequency to megahertz, where the value is read from sysfs, so that printing time stamp information shows milliseconds instead of microseconds, as can be seen on the output `cbmem -t` for the ASRock E350M1 below. ``` 0:1st timestamp 515 10:start of ramstage 515 (0) 30:device enumeration 515 (0) 40:device configuration 610 (94) 50:device enable 614 (4) 60:device initialization 624 (9) 70:device setup done 639 (14) 75:cbmem post 844 (205) 80:write tables 844 (0) 90:load payload 849 (4) 15:starting LZMA decompress (ignore for x86) 849 (0) 16:finished LZMA decompress (ignore for x86) 869 (20) 99:selfboot jump 869 (0) Total Time: 350 ``` So scale the return value correctly to megahertz, by dividing it with 1000. ``` 0:1st timestamp 515,655 10:start of ramstage 515,655 (0) 30:device enumeration 515,663 (7) 40:device configuration 610,620 (94,957) 50:device enable 614,680 (4,059) 60:device initialization 624,618 (9,938) 70:device setup done 639,553 (14,934) 75:cbmem post 844,707 (205,154) 80:write tables 844,710 (2) 90:load payload 849,532 (4,821) 15:starting LZMA decompress (ignore for x86) 849,655 (123) 16:finished LZMA decompress (ignore for x86) 869,903 (20,247) 99:selfboot jump 869,922 (19) Total Time: 354,261 ``` Change-Id: Iea032c62487c7946b6194a90268755034c6350df Signed-off-by: Aaron Durbin <adurbin@chromium.org> Signed-off-by: Paul Menzel <paulepanter@users.sourceforge.net> Reviewed-on: https://review.coreboot.org/14086 Tested-by: build bot (Jenkins) Reviewed-by: Martin Roth <martinroth@google.com> Reviewed-by: Timothy Pearson <tpearson@raptorengineeringinc.com>
2016-03-12 08:41:34 +01:00
* read CPU frequency from a sysfs file, return an frequency in Megahertz as
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
* an int or exit on any error.
*/
static unsigned long arch_tick_frequency(void)
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
{
FILE *cpuf;
char freqs[100];
int size;
char *endp;
u64 rv;
const char* freq_file =
"/sys/devices/system/cpu/cpu0/cpufreq/cpuinfo_max_freq";
cpuf = fopen(freq_file, "r");
if (!cpuf) {
fprintf(stderr, "Could not open %s: %s\n",
freq_file, strerror(errno));
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
exit(1);
}
memset(freqs, 0, sizeof(freqs));
size = fread(freqs, 1, sizeof(freqs), cpuf);
if (!size || (size == sizeof(freqs))) {
fprintf(stderr, "Wrong number of bytes(%d) read from %s\n",
size, freq_file);
exit(1);
}
fclose(cpuf);
rv = strtoull(freqs, &endp, 10);
if (*endp == '\0' || *endp == '\n')
util/cbmem: Scale time stamp values correctly Commit c49014e (timestamp: add tick frequency to exported table) refactors the code, but forgets to correctly scale the frequency to megahertz, where the value is read from sysfs, so that printing time stamp information shows milliseconds instead of microseconds, as can be seen on the output `cbmem -t` for the ASRock E350M1 below. ``` 0:1st timestamp 515 10:start of ramstage 515 (0) 30:device enumeration 515 (0) 40:device configuration 610 (94) 50:device enable 614 (4) 60:device initialization 624 (9) 70:device setup done 639 (14) 75:cbmem post 844 (205) 80:write tables 844 (0) 90:load payload 849 (4) 15:starting LZMA decompress (ignore for x86) 849 (0) 16:finished LZMA decompress (ignore for x86) 869 (20) 99:selfboot jump 869 (0) Total Time: 350 ``` So scale the return value correctly to megahertz, by dividing it with 1000. ``` 0:1st timestamp 515,655 10:start of ramstage 515,655 (0) 30:device enumeration 515,663 (7) 40:device configuration 610,620 (94,957) 50:device enable 614,680 (4,059) 60:device initialization 624,618 (9,938) 70:device setup done 639,553 (14,934) 75:cbmem post 844,707 (205,154) 80:write tables 844,710 (2) 90:load payload 849,532 (4,821) 15:starting LZMA decompress (ignore for x86) 849,655 (123) 16:finished LZMA decompress (ignore for x86) 869,903 (20,247) 99:selfboot jump 869,922 (19) Total Time: 354,261 ``` Change-Id: Iea032c62487c7946b6194a90268755034c6350df Signed-off-by: Aaron Durbin <adurbin@chromium.org> Signed-off-by: Paul Menzel <paulepanter@users.sourceforge.net> Reviewed-on: https://review.coreboot.org/14086 Tested-by: build bot (Jenkins) Reviewed-by: Martin Roth <martinroth@google.com> Reviewed-by: Timothy Pearson <tpearson@raptorengineeringinc.com>
2016-03-12 08:41:34 +01:00
/* cpuinfo_max_freq is in kHz. Convert it to MHz. */
return rv / 1000;
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
fprintf(stderr, "Wrong formatted value ^%s^ read from %s\n",
freqs, freq_file);
exit(1);
}
#elif defined(__OpenBSD__) && (defined(__i386__) || defined(__x86_64__))
static unsigned long arch_tick_frequency(void)
{
int mib[2] = { CTL_HW, HW_CPUSPEED };
static int value = 0;
size_t value_len = sizeof(value);
/* Return 1 MHz when sysctl fails. */
if ((value == 0) && (sysctl(mib, 2, &value, &value_len, NULL, 0) == -1))
return 1;
return value;
}
#else
static unsigned long arch_tick_frequency(void)
{
/* 1 MHz = 1us. */
return 1;
}
#endif
static unsigned long tick_freq_mhz;
static void timestamp_set_tick_freq(unsigned long table_tick_freq_mhz)
{
tick_freq_mhz = table_tick_freq_mhz;
/* Honor table frequency if present. */
if (!tick_freq_mhz)
tick_freq_mhz = arch_tick_frequency();
if (!tick_freq_mhz) {
fprintf(stderr, "Cannot determine timestamp tick frequency.\n");
exit(1);
}
debug("Timestamp tick frequency: %ld MHz\n", tick_freq_mhz);
}
static u64 arch_convert_raw_ts_entry(u64 ts)
{
return ts / tick_freq_mhz;
}
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
/*
* Print an integer in 'normalized' form - with commas separating every three
* decimal orders.
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
*/
static void print_norm(u64 v)
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
{
if (v >= 1000) {
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
/* print the higher order sections first */
print_norm(v / 1000);
printf(",%3.3u", (u32)(v % 1000));
} else {
printf("%u", (u32)(v % 1000));
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
}
}
static const char *timestamp_name(uint32_t id)
{
for (size_t i = 0; i < ARRAY_SIZE(timestamp_ids); i++) {
if (timestamp_ids[i].id == id)
return timestamp_ids[i].name;
}
return "<unknown>";
}
static uint64_t timestamp_print_parseable_entry(uint32_t id, uint64_t stamp,
uint64_t prev_stamp)
{
const char *name;
uint64_t step_time;
name = timestamp_name(id);
step_time = arch_convert_raw_ts_entry(stamp - prev_stamp);
/* ID<tab>absolute time<tab>relative time<tab>description */
printf("%d\t", id);
printf("%llu\t", (long long)arch_convert_raw_ts_entry(stamp));
printf("%llu\t", (long long)step_time);
printf("%s\n", name);
return step_time;
}
static uint64_t timestamp_print_entry(uint32_t id, uint64_t stamp, uint64_t prev_stamp)
{
const char *name;
uint64_t step_time;
name = timestamp_name(id);
printf("%4d:", id);
printf("%-50s", name);
print_norm(arch_convert_raw_ts_entry(stamp));
step_time = arch_convert_raw_ts_entry(stamp - prev_stamp);
if (prev_stamp) {
printf(" (");
print_norm(step_time);
printf(")");
}
printf("\n");
return step_time;
}
static int compare_timestamp_entries(const void *a, const void *b)
{
const struct timestamp_entry *tse_a = (struct timestamp_entry *)a;
const struct timestamp_entry *tse_b = (struct timestamp_entry *)b;
if (tse_a->entry_stamp > tse_b->entry_stamp)
return 1;
else if (tse_a->entry_stamp < tse_b->entry_stamp)
return -1;
return 0;
}
static int find_matching_end(struct timestamp_table *sorted_tst_p, uint32_t start, uint32_t end)
{
uint32_t id = sorted_tst_p->entries[start].entry_id;
uint32_t possible_match = 0;
for (uint32_t i = 0; i < ARRAY_SIZE(timestamp_ids); ++i) {
if (timestamp_ids[i].id == id) {
possible_match = timestamp_ids[i].id_end;
break;
}
}
/* No match found or timestamp not defined in IDs table */
if (!possible_match)
return -1;
for (uint32_t i = start + 1; i < end; i++)
if (sorted_tst_p->entries[i].entry_id == possible_match)
return i;
return -1;
}
static const char *get_timestamp_name(const uint32_t id)
{
for (uint32_t i = 0; i < ARRAY_SIZE(timestamp_ids); i++)
if (timestamp_ids[i].id == id)
return timestamp_ids[i].enum_name;
return "UNKNOWN";
}
struct ts_range_stack {
const char *name;
const char *end_name;
uint32_t end;
};
static void print_with_path(struct ts_range_stack *range_stack, const int stacklvl,
const uint64_t stamp, const char *last_part)
{
for (int i = 1; i <= stacklvl; ++i) {
printf("%s -> %s", range_stack[i].name, range_stack[i].end_name);
if (i < stacklvl || last_part)
putchar(';');
}
if (last_part)
printf("%s", last_part);
printf(" %llu\n", (long long)arch_convert_raw_ts_entry(stamp));
}
enum timestamps_print_type {
TIMESTAMPS_PRINT_NONE,
TIMESTAMPS_PRINT_NORMAL,
TIMESTAMPS_PRINT_MACHINE_READABLE,
TIMESTAMPS_PRINT_STACKED,
};
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
/* dump the timestamp table */
static void dump_timestamps(enum timestamps_print_type output_type)
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
{
const struct timestamp_table *tst_p;
struct timestamp_table *sorted_tst_p;
size_t size;
uint64_t prev_stamp = 0;
uint64_t total_time = 0;
struct mapping timestamp_mapping;
if (timestamps.tag != LB_TAG_TIMESTAMPS) {
fprintf(stderr, "No timestamps found in coreboot table.\n");
return;
}
size = sizeof(*tst_p);
tst_p = map_memory(&timestamp_mapping, timestamps.cbmem_addr, size);
if (!tst_p)
die("Unable to map timestamp header\n");
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
timestamp_set_tick_freq(tst_p->tick_freq_mhz);
if (output_type == TIMESTAMPS_PRINT_NORMAL)
printf("%d entries total:\n\n", tst_p->num_entries);
size += tst_p->num_entries * sizeof(tst_p->entries[0]);
unmap_memory(&timestamp_mapping);
tst_p = map_memory(&timestamp_mapping, timestamps.cbmem_addr, size);
if (!tst_p)
die("Unable to map full timestamp table\n");
sorted_tst_p = malloc(size + sizeof(struct timestamp_entry));
if (!sorted_tst_p)
die("Failed to allocate memory");
aligned_memcpy(sorted_tst_p, tst_p, size);
/*
* Insert a timestamp to represent the base time (start of coreboot),
* in case we have to rebase for negative timestamps below.
*/
sorted_tst_p->entries[tst_p->num_entries].entry_id = 0;
sorted_tst_p->entries[tst_p->num_entries].entry_stamp = 0;
sorted_tst_p->num_entries += 1;
qsort(&sorted_tst_p->entries[0], sorted_tst_p->num_entries,
sizeof(struct timestamp_entry), compare_timestamp_entries);
/*
* If there are negative timestamp entries, rebase all of the
* timestamps to the lowest one in the list.
*/
if (sorted_tst_p->entries[0].entry_stamp < 0) {
sorted_tst_p->base_time = -sorted_tst_p->entries[0].entry_stamp;
prev_stamp = 0;
} else {
prev_stamp = tst_p->base_time;
}
struct ts_range_stack range_stack[20];
range_stack[0].end = sorted_tst_p->num_entries;
int stacklvl = 0;
for (uint32_t i = 0; i < sorted_tst_p->num_entries; i++) {
uint64_t stamp;
const struct timestamp_entry *tse = &sorted_tst_p->entries[i];
/* Make all timestamps absolute. */
stamp = tse->entry_stamp + sorted_tst_p->base_time;
if (output_type == TIMESTAMPS_PRINT_MACHINE_READABLE) {
timestamp_print_parseable_entry(tse->entry_id, stamp, prev_stamp);
} else if (output_type == TIMESTAMPS_PRINT_NORMAL) {
total_time += timestamp_print_entry(tse->entry_id, stamp, prev_stamp);
} else if (output_type == TIMESTAMPS_PRINT_STACKED) {
bool end_of_range = false;
/* Iterate over stacked entries to pop all ranges, which are closed by
current element. For example, assuming two ranges: (TS_A, TS_C),
(TS_B, TS_C) it will pop all of them instead of just last one. */
while (stacklvl > 0 && range_stack[stacklvl].end == i) {
end_of_range = true;
stacklvl--;
}
int match =
find_matching_end(sorted_tst_p, i, range_stack[stacklvl].end);
if (match != -1) {
const uint64_t match_stamp =
sorted_tst_p->entries[match].entry_stamp
+ sorted_tst_p->base_time;
stacklvl++;
assert(stacklvl < (int)ARRAY_SIZE(range_stack));
range_stack[stacklvl].name = get_timestamp_name(tse->entry_id);
range_stack[stacklvl].end_name = get_timestamp_name(
sorted_tst_p->entries[match].entry_id);
range_stack[stacklvl].end = match;
print_with_path(range_stack, stacklvl, match_stamp - stamp,
NULL);
} else if (!end_of_range) {
print_with_path(range_stack, stacklvl, stamp - prev_stamp,
get_timestamp_name(tse->entry_id));
}
/* else: No match && end_of_range == true */
}
prev_stamp = stamp;
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
}
if (output_type == TIMESTAMPS_PRINT_NORMAL) {
printf("\nTotal Time: ");
print_norm(total_time);
printf("\n");
}
unmap_memory(&timestamp_mapping);
free(sorted_tst_p);
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
}
/* dump the tcpa log table */
static void dump_tcpa_log(void)
{
const struct tcpa_table *tclt_p;
size_t size;
struct mapping tcpa_mapping;
if (tcpa_log.tag != LB_TAG_TCPA_LOG) {
fprintf(stderr, "No tcpa log found in coreboot table.\n");
return;
}
size = sizeof(*tclt_p);
tclt_p = map_memory(&tcpa_mapping, tcpa_log.cbmem_addr, size);
if (!tclt_p)
die("Unable to map tcpa log header\n");
size += tclt_p->num_entries * sizeof(tclt_p->entries[0]);
unmap_memory(&tcpa_mapping);
tclt_p = map_memory(&tcpa_mapping, tcpa_log.cbmem_addr, size);
if (!tclt_p)
die("Unable to map full tcpa log table\n");
printf("coreboot TCPA log:\n\n");
for (uint16_t i = 0; i < tclt_p->num_entries; i++) {
const struct tcpa_entry *tce = &tclt_p->entries[i];
printf(" PCR-%u ", tce->pcr);
for (uint32_t j = 0; j < tce->digest_length; j++)
printf("%02x", tce->digest[j]);
printf(" %s [%s]\n", tce->digest_type, tce->name);
}
unmap_memory(&tcpa_mapping);
}
struct cbmem_console {
u32 size;
u32 cursor;
u8 body[0];
} __attribute__ ((__packed__));
#define CBMC_CURSOR_MASK ((1 << 28) - 1)
#define CBMC_OVERFLOW (1 << 31)
enum console_print_type {
CONSOLE_PRINT_FULL = 0,
CONSOLE_PRINT_LAST,
CONSOLE_PRINT_PREVIOUS,
};
static int parse_loglevel(char *arg, int *print_unknown_logs)
{
if (arg[0] == '+') {
*print_unknown_logs = 1;
arg++;
} else {
*print_unknown_logs = 0;
}
char *endptr;
int loglevel = strtol(arg, &endptr, 0);
if (*endptr == '\0' && loglevel >= BIOS_EMERG && loglevel <= BIOS_LOG_PREFIX_MAX_LEVEL)
return loglevel;
/* Only match first 3 characters so `NOTE` and `NOTICE` both match. */
for (int i = BIOS_EMERG; i <= BIOS_LOG_PREFIX_MAX_LEVEL; i++)
if (!strncasecmp(arg, bios_log_prefix[i], 3))
return i;
*print_unknown_logs = 1;
return BIOS_NEVER;
}
/* dump the cbmem console */
static void dump_console(enum console_print_type type, int max_loglevel, int print_unknown_logs)
{
const struct cbmem_console *console_p;
char *console_c;
size_t size, cursor, previous;
struct mapping console_mapping;
if (console.tag != LB_TAG_CBMEM_CONSOLE) {
fprintf(stderr, "No console found in coreboot table.\n");
return;
}
size = sizeof(*console_p);
console_p = map_memory(&console_mapping, console.cbmem_addr, size);
if (!console_p)
die("Unable to map console object.\n");
cursor = console_p->cursor & CBMC_CURSOR_MASK;
if (!(console_p->cursor & CBMC_OVERFLOW) && cursor < console_p->size)
size = cursor;
else
size = console_p->size;
unmap_memory(&console_mapping);
console_c = malloc(size + 1);
if (!console_c) {
fprintf(stderr, "Not enough memory for console.\n");
exit(1);
}
console_c[size] = '\0';
console_p = map_memory(&console_mapping, console.cbmem_addr,
size + sizeof(*console_p));
if (!console_p)
die("Unable to map full console object.\n");
if (console_p->cursor & CBMC_OVERFLOW) {
if (cursor >= size) {
printf("cbmem: ERROR: CBMEM console struct is illegal, "
"output may be corrupt or out of order!\n\n");
cursor = 0;
}
aligned_memcpy(console_c, console_p->body + cursor,
size - cursor);
aligned_memcpy(console_c + size - cursor,
console_p->body, cursor);
} else {
aligned_memcpy(console_c, console_p->body, size);
}
/* Slight memory corruption may occur between reboots and give us a few
unprintable characters like '\0'. Replace them with '?' on output. */
for (cursor = 0; cursor < size; cursor++)
if (!isprint(console_c[cursor]) && !isspace(console_c[cursor])
&& !BIOS_LOG_IS_MARKER(console_c[cursor]))
console_c[cursor] = '?';
/* We detect the reboot cutoff by looking for a bootblock, romstage or
ramstage banner, in that order (to account for platforms without
CONFIG_BOOTBLOCK_CONSOLE and/or CONFIG_EARLY_CONSOLE). Once we find
a banner, store the last two matches for that stage and stop. */
cursor = previous = 0;
if (type != CONSOLE_PRINT_FULL) {
#define BANNER_REGEX(stage) \
"\n\n.?coreboot-[^\n]* " stage " starting.*\\.\\.\\.\n"
#define OVERFLOW_REGEX(stage) "\n.?\\*\\*\\* Pre-CBMEM " stage " console overflow"
const char *regex[] = { BANNER_REGEX("verstage-before-bootblock"),
BANNER_REGEX("bootblock"),
BANNER_REGEX("verstage"),
OVERFLOW_REGEX("romstage"),
BANNER_REGEX("romstage"),
OVERFLOW_REGEX("ramstage"),
BANNER_REGEX("ramstage") };
for (size_t i = 0; !cursor && i < ARRAY_SIZE(regex); i++) {
regex_t re;
regmatch_t match;
int res = regcomp(&re, regex[i], REG_EXTENDED);
assert(res == 0);
/* Keep looking for matches so we find the last one. */
while (!regexec(&re, console_c + cursor, 1, &match, 0)) {
previous = cursor;
cursor += match.rm_so + 1;
}
regfree(&re);
}
}
if (type == CONSOLE_PRINT_PREVIOUS) {
console_c[cursor] = '\0';
cursor = previous;
}
char c;
int suppressed = 0;
int tty = isatty(fileno(stdout));
while ((c = console_c[cursor++])) {
if (BIOS_LOG_IS_MARKER(c)) {
int lvl = BIOS_LOG_MARKER_TO_LEVEL(c);
if (lvl > max_loglevel) {
suppressed = 1;
continue;
}
suppressed = 0;
if (tty)
printf(BIOS_LOG_ESCAPE_PATTERN, bios_log_escape[lvl]);
printf(BIOS_LOG_PREFIX_PATTERN, bios_log_prefix[lvl]);
} else {
if (!suppressed)
putchar(c);
if (c == '\n') {
if (tty && !suppressed)
printf(BIOS_LOG_ESCAPE_RESET);
suppressed = !print_unknown_logs;
}
}
}
if (tty)
printf(BIOS_LOG_ESCAPE_RESET);
free(console_c);
unmap_memory(&console_mapping);
}
static void hexdump(unsigned long memory, int length)
{
int i;
const uint8_t *m;
int all_zero = 0;
struct mapping hexdump_mapping;
m = map_memory(&hexdump_mapping, memory, length);
if (!m)
die("Unable to map hexdump memory.\n");
for (i = 0; i < length; i += 16) {
int j;
all_zero++;
for (j = 0; j < 16; j++) {
if(m[i+j] != 0) {
all_zero = 0;
break;
}
}
if (all_zero < 2) {
printf("%08lx:", memory + i);
for (j = 0; j < 16; j++)
printf(" %02x", m[i+j]);
printf(" ");
for (j = 0; j < 16; j++)
printf("%c", isprint(m[i+j]) ? m[i+j] : '.');
printf("\n");
} else if (all_zero == 2) {
printf("...\n");
}
}
unmap_memory(&hexdump_mapping);
}
static void dump_cbmem_hex(void)
{
if (cbmem.type != LB_MEM_TABLE) {
fprintf(stderr, "No coreboot CBMEM area found!\n");
return;
}
hexdump(unpack_lb64(cbmem.start), unpack_lb64(cbmem.size));
}
static void rawdump(uint64_t base, uint64_t size)
util/cbmem: Add --rawdump <cbtable ID> and extend -l output Changed following things, (1) cbmem -l would give both ID and Name for coreboot table along with START and LENGTH of each entry e.g. localhost ~ # cbmem -l CBMEM table of contents: NAME ID START LENGTH <.....> 3. TIME STAMP 54494d45 77ddd000 000002e0 4. MRC DATA 4d524344 77ddb000 00001880 5. ROMSTG STCK 90357ac4 77dd6000 00005000 6. VBOOT WORK 78007343 77dd2000 00004000 7. VBOOT 780074f0 77dd1000 00000c3c 8. RAMSTAGE 9a357a9e 77d13000 000be000 9. REFCODE 04efc0de 77c01000 00112000 10. ACPI GNVS 474e5653 77c00000 00001000 11. SMM BACKUP 07e9acee 77bf0000 00010000 <..etc..> (2) With this patch, new command line arg "rawdump" or "-r" will be added to cbmem user can grab the ID with "cbmem -l" and execute "cbmem -r <ID>" to get raw dump of cbtable for the <ID> in interest. This change is needed to get MMA results data from cbtable. Coreboot stores the MMA results in cbmem. Separate post processing scripts uses cbmem utility to get the these data. This feature in the cbmem tool can also help debugging some issues where some specific ID of cbtable needs examination. BRANCH=none BUG=chrome-os-partner:43731 TEST=Build and Boot kunimitsu (FAB3). Cbmem -r and -l works as described. Not tested on Glados CQ-DEPEND=CL:299476,CL:299475,CL:299473,CL:299509,CL:299508,CL:299507,CL:*230478,CL:*230479 Change-Id: I70ba148113b4e918646b99997a9074300a9c7876 Signed-off-by: Patrick Georgi <pgeorgi@chromium.org> Original-Commit-Id: f60c79d845d4d4afca480b6884c564a0d5e5caf8 Original-Change-Id: I1dde50856f0aa8d4cdd3ecf013bd58d37d76eb72 Original-Signed-off-by: Pratik Prajapati <pratikkumar.v.prajapati@intel.com> Original-Signed-off-by: Icarus Sparry <icarus.w.sparry@intel.com> Original-Reviewed-on: https://chromium-review.googlesource.com/299474 Original-Commit-Ready: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Tested-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Reviewed-by: Aaron Durbin <adurbin@chromium.org> Original-Reviewed-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Reviewed-on: http://review.coreboot.org/12482 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2015-09-03 21:58:44 +02:00
{
const uint8_t *m;
struct mapping dump_mapping;
util/cbmem: Add --rawdump <cbtable ID> and extend -l output Changed following things, (1) cbmem -l would give both ID and Name for coreboot table along with START and LENGTH of each entry e.g. localhost ~ # cbmem -l CBMEM table of contents: NAME ID START LENGTH <.....> 3. TIME STAMP 54494d45 77ddd000 000002e0 4. MRC DATA 4d524344 77ddb000 00001880 5. ROMSTG STCK 90357ac4 77dd6000 00005000 6. VBOOT WORK 78007343 77dd2000 00004000 7. VBOOT 780074f0 77dd1000 00000c3c 8. RAMSTAGE 9a357a9e 77d13000 000be000 9. REFCODE 04efc0de 77c01000 00112000 10. ACPI GNVS 474e5653 77c00000 00001000 11. SMM BACKUP 07e9acee 77bf0000 00010000 <..etc..> (2) With this patch, new command line arg "rawdump" or "-r" will be added to cbmem user can grab the ID with "cbmem -l" and execute "cbmem -r <ID>" to get raw dump of cbtable for the <ID> in interest. This change is needed to get MMA results data from cbtable. Coreboot stores the MMA results in cbmem. Separate post processing scripts uses cbmem utility to get the these data. This feature in the cbmem tool can also help debugging some issues where some specific ID of cbtable needs examination. BRANCH=none BUG=chrome-os-partner:43731 TEST=Build and Boot kunimitsu (FAB3). Cbmem -r and -l works as described. Not tested on Glados CQ-DEPEND=CL:299476,CL:299475,CL:299473,CL:299509,CL:299508,CL:299507,CL:*230478,CL:*230479 Change-Id: I70ba148113b4e918646b99997a9074300a9c7876 Signed-off-by: Patrick Georgi <pgeorgi@chromium.org> Original-Commit-Id: f60c79d845d4d4afca480b6884c564a0d5e5caf8 Original-Change-Id: I1dde50856f0aa8d4cdd3ecf013bd58d37d76eb72 Original-Signed-off-by: Pratik Prajapati <pratikkumar.v.prajapati@intel.com> Original-Signed-off-by: Icarus Sparry <icarus.w.sparry@intel.com> Original-Reviewed-on: https://chromium-review.googlesource.com/299474 Original-Commit-Ready: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Tested-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Reviewed-by: Aaron Durbin <adurbin@chromium.org> Original-Reviewed-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Reviewed-on: http://review.coreboot.org/12482 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2015-09-03 21:58:44 +02:00
m = map_memory(&dump_mapping, base, size);
if (!m)
die("Unable to map rawdump memory\n");
util/cbmem: Add --rawdump <cbtable ID> and extend -l output Changed following things, (1) cbmem -l would give both ID and Name for coreboot table along with START and LENGTH of each entry e.g. localhost ~ # cbmem -l CBMEM table of contents: NAME ID START LENGTH <.....> 3. TIME STAMP 54494d45 77ddd000 000002e0 4. MRC DATA 4d524344 77ddb000 00001880 5. ROMSTG STCK 90357ac4 77dd6000 00005000 6. VBOOT WORK 78007343 77dd2000 00004000 7. VBOOT 780074f0 77dd1000 00000c3c 8. RAMSTAGE 9a357a9e 77d13000 000be000 9. REFCODE 04efc0de 77c01000 00112000 10. ACPI GNVS 474e5653 77c00000 00001000 11. SMM BACKUP 07e9acee 77bf0000 00010000 <..etc..> (2) With this patch, new command line arg "rawdump" or "-r" will be added to cbmem user can grab the ID with "cbmem -l" and execute "cbmem -r <ID>" to get raw dump of cbtable for the <ID> in interest. This change is needed to get MMA results data from cbtable. Coreboot stores the MMA results in cbmem. Separate post processing scripts uses cbmem utility to get the these data. This feature in the cbmem tool can also help debugging some issues where some specific ID of cbtable needs examination. BRANCH=none BUG=chrome-os-partner:43731 TEST=Build and Boot kunimitsu (FAB3). Cbmem -r and -l works as described. Not tested on Glados CQ-DEPEND=CL:299476,CL:299475,CL:299473,CL:299509,CL:299508,CL:299507,CL:*230478,CL:*230479 Change-Id: I70ba148113b4e918646b99997a9074300a9c7876 Signed-off-by: Patrick Georgi <pgeorgi@chromium.org> Original-Commit-Id: f60c79d845d4d4afca480b6884c564a0d5e5caf8 Original-Change-Id: I1dde50856f0aa8d4cdd3ecf013bd58d37d76eb72 Original-Signed-off-by: Pratik Prajapati <pratikkumar.v.prajapati@intel.com> Original-Signed-off-by: Icarus Sparry <icarus.w.sparry@intel.com> Original-Reviewed-on: https://chromium-review.googlesource.com/299474 Original-Commit-Ready: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Tested-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Reviewed-by: Aaron Durbin <adurbin@chromium.org> Original-Reviewed-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Reviewed-on: http://review.coreboot.org/12482 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2015-09-03 21:58:44 +02:00
for (uint64_t i = 0 ; i < size; i++)
util/cbmem: Add --rawdump <cbtable ID> and extend -l output Changed following things, (1) cbmem -l would give both ID and Name for coreboot table along with START and LENGTH of each entry e.g. localhost ~ # cbmem -l CBMEM table of contents: NAME ID START LENGTH <.....> 3. TIME STAMP 54494d45 77ddd000 000002e0 4. MRC DATA 4d524344 77ddb000 00001880 5. ROMSTG STCK 90357ac4 77dd6000 00005000 6. VBOOT WORK 78007343 77dd2000 00004000 7. VBOOT 780074f0 77dd1000 00000c3c 8. RAMSTAGE 9a357a9e 77d13000 000be000 9. REFCODE 04efc0de 77c01000 00112000 10. ACPI GNVS 474e5653 77c00000 00001000 11. SMM BACKUP 07e9acee 77bf0000 00010000 <..etc..> (2) With this patch, new command line arg "rawdump" or "-r" will be added to cbmem user can grab the ID with "cbmem -l" and execute "cbmem -r <ID>" to get raw dump of cbtable for the <ID> in interest. This change is needed to get MMA results data from cbtable. Coreboot stores the MMA results in cbmem. Separate post processing scripts uses cbmem utility to get the these data. This feature in the cbmem tool can also help debugging some issues where some specific ID of cbtable needs examination. BRANCH=none BUG=chrome-os-partner:43731 TEST=Build and Boot kunimitsu (FAB3). Cbmem -r and -l works as described. Not tested on Glados CQ-DEPEND=CL:299476,CL:299475,CL:299473,CL:299509,CL:299508,CL:299507,CL:*230478,CL:*230479 Change-Id: I70ba148113b4e918646b99997a9074300a9c7876 Signed-off-by: Patrick Georgi <pgeorgi@chromium.org> Original-Commit-Id: f60c79d845d4d4afca480b6884c564a0d5e5caf8 Original-Change-Id: I1dde50856f0aa8d4cdd3ecf013bd58d37d76eb72 Original-Signed-off-by: Pratik Prajapati <pratikkumar.v.prajapati@intel.com> Original-Signed-off-by: Icarus Sparry <icarus.w.sparry@intel.com> Original-Reviewed-on: https://chromium-review.googlesource.com/299474 Original-Commit-Ready: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Tested-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Reviewed-by: Aaron Durbin <adurbin@chromium.org> Original-Reviewed-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Reviewed-on: http://review.coreboot.org/12482 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2015-09-03 21:58:44 +02:00
printf("%c", m[i]);
unmap_memory(&dump_mapping);
util/cbmem: Add --rawdump <cbtable ID> and extend -l output Changed following things, (1) cbmem -l would give both ID and Name for coreboot table along with START and LENGTH of each entry e.g. localhost ~ # cbmem -l CBMEM table of contents: NAME ID START LENGTH <.....> 3. TIME STAMP 54494d45 77ddd000 000002e0 4. MRC DATA 4d524344 77ddb000 00001880 5. ROMSTG STCK 90357ac4 77dd6000 00005000 6. VBOOT WORK 78007343 77dd2000 00004000 7. VBOOT 780074f0 77dd1000 00000c3c 8. RAMSTAGE 9a357a9e 77d13000 000be000 9. REFCODE 04efc0de 77c01000 00112000 10. ACPI GNVS 474e5653 77c00000 00001000 11. SMM BACKUP 07e9acee 77bf0000 00010000 <..etc..> (2) With this patch, new command line arg "rawdump" or "-r" will be added to cbmem user can grab the ID with "cbmem -l" and execute "cbmem -r <ID>" to get raw dump of cbtable for the <ID> in interest. This change is needed to get MMA results data from cbtable. Coreboot stores the MMA results in cbmem. Separate post processing scripts uses cbmem utility to get the these data. This feature in the cbmem tool can also help debugging some issues where some specific ID of cbtable needs examination. BRANCH=none BUG=chrome-os-partner:43731 TEST=Build and Boot kunimitsu (FAB3). Cbmem -r and -l works as described. Not tested on Glados CQ-DEPEND=CL:299476,CL:299475,CL:299473,CL:299509,CL:299508,CL:299507,CL:*230478,CL:*230479 Change-Id: I70ba148113b4e918646b99997a9074300a9c7876 Signed-off-by: Patrick Georgi <pgeorgi@chromium.org> Original-Commit-Id: f60c79d845d4d4afca480b6884c564a0d5e5caf8 Original-Change-Id: I1dde50856f0aa8d4cdd3ecf013bd58d37d76eb72 Original-Signed-off-by: Pratik Prajapati <pratikkumar.v.prajapati@intel.com> Original-Signed-off-by: Icarus Sparry <icarus.w.sparry@intel.com> Original-Reviewed-on: https://chromium-review.googlesource.com/299474 Original-Commit-Ready: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Tested-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Reviewed-by: Aaron Durbin <adurbin@chromium.org> Original-Reviewed-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Reviewed-on: http://review.coreboot.org/12482 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2015-09-03 21:58:44 +02:00
}
static void dump_cbmem_raw(unsigned int id)
{
const uint8_t *table;
util/cbmem: Add --rawdump <cbtable ID> and extend -l output Changed following things, (1) cbmem -l would give both ID and Name for coreboot table along with START and LENGTH of each entry e.g. localhost ~ # cbmem -l CBMEM table of contents: NAME ID START LENGTH <.....> 3. TIME STAMP 54494d45 77ddd000 000002e0 4. MRC DATA 4d524344 77ddb000 00001880 5. ROMSTG STCK 90357ac4 77dd6000 00005000 6. VBOOT WORK 78007343 77dd2000 00004000 7. VBOOT 780074f0 77dd1000 00000c3c 8. RAMSTAGE 9a357a9e 77d13000 000be000 9. REFCODE 04efc0de 77c01000 00112000 10. ACPI GNVS 474e5653 77c00000 00001000 11. SMM BACKUP 07e9acee 77bf0000 00010000 <..etc..> (2) With this patch, new command line arg "rawdump" or "-r" will be added to cbmem user can grab the ID with "cbmem -l" and execute "cbmem -r <ID>" to get raw dump of cbtable for the <ID> in interest. This change is needed to get MMA results data from cbtable. Coreboot stores the MMA results in cbmem. Separate post processing scripts uses cbmem utility to get the these data. This feature in the cbmem tool can also help debugging some issues where some specific ID of cbtable needs examination. BRANCH=none BUG=chrome-os-partner:43731 TEST=Build and Boot kunimitsu (FAB3). Cbmem -r and -l works as described. Not tested on Glados CQ-DEPEND=CL:299476,CL:299475,CL:299473,CL:299509,CL:299508,CL:299507,CL:*230478,CL:*230479 Change-Id: I70ba148113b4e918646b99997a9074300a9c7876 Signed-off-by: Patrick Georgi <pgeorgi@chromium.org> Original-Commit-Id: f60c79d845d4d4afca480b6884c564a0d5e5caf8 Original-Change-Id: I1dde50856f0aa8d4cdd3ecf013bd58d37d76eb72 Original-Signed-off-by: Pratik Prajapati <pratikkumar.v.prajapati@intel.com> Original-Signed-off-by: Icarus Sparry <icarus.w.sparry@intel.com> Original-Reviewed-on: https://chromium-review.googlesource.com/299474 Original-Commit-Ready: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Tested-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Reviewed-by: Aaron Durbin <adurbin@chromium.org> Original-Reviewed-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Reviewed-on: http://review.coreboot.org/12482 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2015-09-03 21:58:44 +02:00
size_t offset;
uint64_t base = 0;
uint64_t size = 0;
table = mapping_virt(&lbtable_mapping);
util/cbmem: Add --rawdump <cbtable ID> and extend -l output Changed following things, (1) cbmem -l would give both ID and Name for coreboot table along with START and LENGTH of each entry e.g. localhost ~ # cbmem -l CBMEM table of contents: NAME ID START LENGTH <.....> 3. TIME STAMP 54494d45 77ddd000 000002e0 4. MRC DATA 4d524344 77ddb000 00001880 5. ROMSTG STCK 90357ac4 77dd6000 00005000 6. VBOOT WORK 78007343 77dd2000 00004000 7. VBOOT 780074f0 77dd1000 00000c3c 8. RAMSTAGE 9a357a9e 77d13000 000be000 9. REFCODE 04efc0de 77c01000 00112000 10. ACPI GNVS 474e5653 77c00000 00001000 11. SMM BACKUP 07e9acee 77bf0000 00010000 <..etc..> (2) With this patch, new command line arg "rawdump" or "-r" will be added to cbmem user can grab the ID with "cbmem -l" and execute "cbmem -r <ID>" to get raw dump of cbtable for the <ID> in interest. This change is needed to get MMA results data from cbtable. Coreboot stores the MMA results in cbmem. Separate post processing scripts uses cbmem utility to get the these data. This feature in the cbmem tool can also help debugging some issues where some specific ID of cbtable needs examination. BRANCH=none BUG=chrome-os-partner:43731 TEST=Build and Boot kunimitsu (FAB3). Cbmem -r and -l works as described. Not tested on Glados CQ-DEPEND=CL:299476,CL:299475,CL:299473,CL:299509,CL:299508,CL:299507,CL:*230478,CL:*230479 Change-Id: I70ba148113b4e918646b99997a9074300a9c7876 Signed-off-by: Patrick Georgi <pgeorgi@chromium.org> Original-Commit-Id: f60c79d845d4d4afca480b6884c564a0d5e5caf8 Original-Change-Id: I1dde50856f0aa8d4cdd3ecf013bd58d37d76eb72 Original-Signed-off-by: Pratik Prajapati <pratikkumar.v.prajapati@intel.com> Original-Signed-off-by: Icarus Sparry <icarus.w.sparry@intel.com> Original-Reviewed-on: https://chromium-review.googlesource.com/299474 Original-Commit-Ready: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Tested-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Reviewed-by: Aaron Durbin <adurbin@chromium.org> Original-Reviewed-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Reviewed-on: http://review.coreboot.org/12482 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2015-09-03 21:58:44 +02:00
if (table == NULL)
return;
offset = 0;
while (offset < mapping_size(&lbtable_mapping)) {
const struct lb_record *lbr;
const struct lb_cbmem_entry *lbe;
util/cbmem: Add --rawdump <cbtable ID> and extend -l output Changed following things, (1) cbmem -l would give both ID and Name for coreboot table along with START and LENGTH of each entry e.g. localhost ~ # cbmem -l CBMEM table of contents: NAME ID START LENGTH <.....> 3. TIME STAMP 54494d45 77ddd000 000002e0 4. MRC DATA 4d524344 77ddb000 00001880 5. ROMSTG STCK 90357ac4 77dd6000 00005000 6. VBOOT WORK 78007343 77dd2000 00004000 7. VBOOT 780074f0 77dd1000 00000c3c 8. RAMSTAGE 9a357a9e 77d13000 000be000 9. REFCODE 04efc0de 77c01000 00112000 10. ACPI GNVS 474e5653 77c00000 00001000 11. SMM BACKUP 07e9acee 77bf0000 00010000 <..etc..> (2) With this patch, new command line arg "rawdump" or "-r" will be added to cbmem user can grab the ID with "cbmem -l" and execute "cbmem -r <ID>" to get raw dump of cbtable for the <ID> in interest. This change is needed to get MMA results data from cbtable. Coreboot stores the MMA results in cbmem. Separate post processing scripts uses cbmem utility to get the these data. This feature in the cbmem tool can also help debugging some issues where some specific ID of cbtable needs examination. BRANCH=none BUG=chrome-os-partner:43731 TEST=Build and Boot kunimitsu (FAB3). Cbmem -r and -l works as described. Not tested on Glados CQ-DEPEND=CL:299476,CL:299475,CL:299473,CL:299509,CL:299508,CL:299507,CL:*230478,CL:*230479 Change-Id: I70ba148113b4e918646b99997a9074300a9c7876 Signed-off-by: Patrick Georgi <pgeorgi@chromium.org> Original-Commit-Id: f60c79d845d4d4afca480b6884c564a0d5e5caf8 Original-Change-Id: I1dde50856f0aa8d4cdd3ecf013bd58d37d76eb72 Original-Signed-off-by: Pratik Prajapati <pratikkumar.v.prajapati@intel.com> Original-Signed-off-by: Icarus Sparry <icarus.w.sparry@intel.com> Original-Reviewed-on: https://chromium-review.googlesource.com/299474 Original-Commit-Ready: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Tested-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Reviewed-by: Aaron Durbin <adurbin@chromium.org> Original-Reviewed-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Reviewed-on: http://review.coreboot.org/12482 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2015-09-03 21:58:44 +02:00
lbr = (const void *)(table + offset);
util/cbmem: Add --rawdump <cbtable ID> and extend -l output Changed following things, (1) cbmem -l would give both ID and Name for coreboot table along with START and LENGTH of each entry e.g. localhost ~ # cbmem -l CBMEM table of contents: NAME ID START LENGTH <.....> 3. TIME STAMP 54494d45 77ddd000 000002e0 4. MRC DATA 4d524344 77ddb000 00001880 5. ROMSTG STCK 90357ac4 77dd6000 00005000 6. VBOOT WORK 78007343 77dd2000 00004000 7. VBOOT 780074f0 77dd1000 00000c3c 8. RAMSTAGE 9a357a9e 77d13000 000be000 9. REFCODE 04efc0de 77c01000 00112000 10. ACPI GNVS 474e5653 77c00000 00001000 11. SMM BACKUP 07e9acee 77bf0000 00010000 <..etc..> (2) With this patch, new command line arg "rawdump" or "-r" will be added to cbmem user can grab the ID with "cbmem -l" and execute "cbmem -r <ID>" to get raw dump of cbtable for the <ID> in interest. This change is needed to get MMA results data from cbtable. Coreboot stores the MMA results in cbmem. Separate post processing scripts uses cbmem utility to get the these data. This feature in the cbmem tool can also help debugging some issues where some specific ID of cbtable needs examination. BRANCH=none BUG=chrome-os-partner:43731 TEST=Build and Boot kunimitsu (FAB3). Cbmem -r and -l works as described. Not tested on Glados CQ-DEPEND=CL:299476,CL:299475,CL:299473,CL:299509,CL:299508,CL:299507,CL:*230478,CL:*230479 Change-Id: I70ba148113b4e918646b99997a9074300a9c7876 Signed-off-by: Patrick Georgi <pgeorgi@chromium.org> Original-Commit-Id: f60c79d845d4d4afca480b6884c564a0d5e5caf8 Original-Change-Id: I1dde50856f0aa8d4cdd3ecf013bd58d37d76eb72 Original-Signed-off-by: Pratik Prajapati <pratikkumar.v.prajapati@intel.com> Original-Signed-off-by: Icarus Sparry <icarus.w.sparry@intel.com> Original-Reviewed-on: https://chromium-review.googlesource.com/299474 Original-Commit-Ready: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Tested-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Reviewed-by: Aaron Durbin <adurbin@chromium.org> Original-Reviewed-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Reviewed-on: http://review.coreboot.org/12482 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2015-09-03 21:58:44 +02:00
offset += lbr->size;
if (lbr->tag != LB_TAG_CBMEM_ENTRY)
continue;
lbe = (const void *)lbr;
util/cbmem: Add --rawdump <cbtable ID> and extend -l output Changed following things, (1) cbmem -l would give both ID and Name for coreboot table along with START and LENGTH of each entry e.g. localhost ~ # cbmem -l CBMEM table of contents: NAME ID START LENGTH <.....> 3. TIME STAMP 54494d45 77ddd000 000002e0 4. MRC DATA 4d524344 77ddb000 00001880 5. ROMSTG STCK 90357ac4 77dd6000 00005000 6. VBOOT WORK 78007343 77dd2000 00004000 7. VBOOT 780074f0 77dd1000 00000c3c 8. RAMSTAGE 9a357a9e 77d13000 000be000 9. REFCODE 04efc0de 77c01000 00112000 10. ACPI GNVS 474e5653 77c00000 00001000 11. SMM BACKUP 07e9acee 77bf0000 00010000 <..etc..> (2) With this patch, new command line arg "rawdump" or "-r" will be added to cbmem user can grab the ID with "cbmem -l" and execute "cbmem -r <ID>" to get raw dump of cbtable for the <ID> in interest. This change is needed to get MMA results data from cbtable. Coreboot stores the MMA results in cbmem. Separate post processing scripts uses cbmem utility to get the these data. This feature in the cbmem tool can also help debugging some issues where some specific ID of cbtable needs examination. BRANCH=none BUG=chrome-os-partner:43731 TEST=Build and Boot kunimitsu (FAB3). Cbmem -r and -l works as described. Not tested on Glados CQ-DEPEND=CL:299476,CL:299475,CL:299473,CL:299509,CL:299508,CL:299507,CL:*230478,CL:*230479 Change-Id: I70ba148113b4e918646b99997a9074300a9c7876 Signed-off-by: Patrick Georgi <pgeorgi@chromium.org> Original-Commit-Id: f60c79d845d4d4afca480b6884c564a0d5e5caf8 Original-Change-Id: I1dde50856f0aa8d4cdd3ecf013bd58d37d76eb72 Original-Signed-off-by: Pratik Prajapati <pratikkumar.v.prajapati@intel.com> Original-Signed-off-by: Icarus Sparry <icarus.w.sparry@intel.com> Original-Reviewed-on: https://chromium-review.googlesource.com/299474 Original-Commit-Ready: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Tested-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Reviewed-by: Aaron Durbin <adurbin@chromium.org> Original-Reviewed-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Reviewed-on: http://review.coreboot.org/12482 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2015-09-03 21:58:44 +02:00
if (lbe->id == id) {
debug("found id for raw dump %0x", lbe->id);
base = lbe->address;
size = lbe->entry_size;
break;
}
}
if (!base)
fprintf(stderr, "id %0x not found in cbtable\n", id);
else
rawdump(base, size);
}
struct cbmem_id_to_name {
uint32_t id;
const char *name;
};
static const struct cbmem_id_to_name cbmem_ids[] = { CBMEM_ID_TO_NAME_TABLE };
#define MAX_STAGEx 10
static void cbmem_print_entry(int n, uint32_t id, uint64_t base, uint64_t size)
{
const char *name;
char stage_x[20];
name = NULL;
for (size_t i = 0; i < ARRAY_SIZE(cbmem_ids); i++) {
if (cbmem_ids[i].id == id) {
name = cbmem_ids[i].name;
break;
}
if (id >= CBMEM_ID_STAGEx_META &&
id < CBMEM_ID_STAGEx_META + MAX_STAGEx) {
snprintf(stage_x, sizeof(stage_x), "STAGE%d META",
(id - CBMEM_ID_STAGEx_META));
name = stage_x;
}
if (id >= CBMEM_ID_STAGEx_CACHE &&
id < CBMEM_ID_STAGEx_CACHE + MAX_STAGEx) {
snprintf(stage_x, sizeof(stage_x), "STAGE%d $ ",
(id - CBMEM_ID_STAGEx_CACHE));
name = stage_x;
}
}
printf("%2d. ", n);
if (name == NULL)
printf("\t\t%08x", id);
else
util/cbmem: Add --rawdump <cbtable ID> and extend -l output Changed following things, (1) cbmem -l would give both ID and Name for coreboot table along with START and LENGTH of each entry e.g. localhost ~ # cbmem -l CBMEM table of contents: NAME ID START LENGTH <.....> 3. TIME STAMP 54494d45 77ddd000 000002e0 4. MRC DATA 4d524344 77ddb000 00001880 5. ROMSTG STCK 90357ac4 77dd6000 00005000 6. VBOOT WORK 78007343 77dd2000 00004000 7. VBOOT 780074f0 77dd1000 00000c3c 8. RAMSTAGE 9a357a9e 77d13000 000be000 9. REFCODE 04efc0de 77c01000 00112000 10. ACPI GNVS 474e5653 77c00000 00001000 11. SMM BACKUP 07e9acee 77bf0000 00010000 <..etc..> (2) With this patch, new command line arg "rawdump" or "-r" will be added to cbmem user can grab the ID with "cbmem -l" and execute "cbmem -r <ID>" to get raw dump of cbtable for the <ID> in interest. This change is needed to get MMA results data from cbtable. Coreboot stores the MMA results in cbmem. Separate post processing scripts uses cbmem utility to get the these data. This feature in the cbmem tool can also help debugging some issues where some specific ID of cbtable needs examination. BRANCH=none BUG=chrome-os-partner:43731 TEST=Build and Boot kunimitsu (FAB3). Cbmem -r and -l works as described. Not tested on Glados CQ-DEPEND=CL:299476,CL:299475,CL:299473,CL:299509,CL:299508,CL:299507,CL:*230478,CL:*230479 Change-Id: I70ba148113b4e918646b99997a9074300a9c7876 Signed-off-by: Patrick Georgi <pgeorgi@chromium.org> Original-Commit-Id: f60c79d845d4d4afca480b6884c564a0d5e5caf8 Original-Change-Id: I1dde50856f0aa8d4cdd3ecf013bd58d37d76eb72 Original-Signed-off-by: Pratik Prajapati <pratikkumar.v.prajapati@intel.com> Original-Signed-off-by: Icarus Sparry <icarus.w.sparry@intel.com> Original-Reviewed-on: https://chromium-review.googlesource.com/299474 Original-Commit-Ready: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Tested-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Reviewed-by: Aaron Durbin <adurbin@chromium.org> Original-Reviewed-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Reviewed-on: http://review.coreboot.org/12482 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2015-09-03 21:58:44 +02:00
printf("%s\t%08x", name, id);
printf(" %08" PRIx64 " ", base);
printf(" %08" PRIx64 "\n", size);
}
static void dump_cbmem_toc(void)
{
int i;
const uint8_t *table;
size_t offset;
table = mapping_virt(&lbtable_mapping);
if (table == NULL)
return;
printf("CBMEM table of contents:\n");
util/cbmem: Add --rawdump <cbtable ID> and extend -l output Changed following things, (1) cbmem -l would give both ID and Name for coreboot table along with START and LENGTH of each entry e.g. localhost ~ # cbmem -l CBMEM table of contents: NAME ID START LENGTH <.....> 3. TIME STAMP 54494d45 77ddd000 000002e0 4. MRC DATA 4d524344 77ddb000 00001880 5. ROMSTG STCK 90357ac4 77dd6000 00005000 6. VBOOT WORK 78007343 77dd2000 00004000 7. VBOOT 780074f0 77dd1000 00000c3c 8. RAMSTAGE 9a357a9e 77d13000 000be000 9. REFCODE 04efc0de 77c01000 00112000 10. ACPI GNVS 474e5653 77c00000 00001000 11. SMM BACKUP 07e9acee 77bf0000 00010000 <..etc..> (2) With this patch, new command line arg "rawdump" or "-r" will be added to cbmem user can grab the ID with "cbmem -l" and execute "cbmem -r <ID>" to get raw dump of cbtable for the <ID> in interest. This change is needed to get MMA results data from cbtable. Coreboot stores the MMA results in cbmem. Separate post processing scripts uses cbmem utility to get the these data. This feature in the cbmem tool can also help debugging some issues where some specific ID of cbtable needs examination. BRANCH=none BUG=chrome-os-partner:43731 TEST=Build and Boot kunimitsu (FAB3). Cbmem -r and -l works as described. Not tested on Glados CQ-DEPEND=CL:299476,CL:299475,CL:299473,CL:299509,CL:299508,CL:299507,CL:*230478,CL:*230479 Change-Id: I70ba148113b4e918646b99997a9074300a9c7876 Signed-off-by: Patrick Georgi <pgeorgi@chromium.org> Original-Commit-Id: f60c79d845d4d4afca480b6884c564a0d5e5caf8 Original-Change-Id: I1dde50856f0aa8d4cdd3ecf013bd58d37d76eb72 Original-Signed-off-by: Pratik Prajapati <pratikkumar.v.prajapati@intel.com> Original-Signed-off-by: Icarus Sparry <icarus.w.sparry@intel.com> Original-Reviewed-on: https://chromium-review.googlesource.com/299474 Original-Commit-Ready: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Tested-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Reviewed-by: Aaron Durbin <adurbin@chromium.org> Original-Reviewed-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Reviewed-on: http://review.coreboot.org/12482 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2015-09-03 21:58:44 +02:00
printf(" NAME ID START LENGTH\n");
i = 0;
offset = 0;
while (offset < mapping_size(&lbtable_mapping)) {
const struct lb_record *lbr;
const struct lb_cbmem_entry *lbe;
lbr = (const void *)(table + offset);
offset += lbr->size;
if (lbr->tag != LB_TAG_CBMEM_ENTRY)
continue;
lbe = (const void *)lbr;
cbmem_print_entry(i, lbe->id, lbe->address, lbe->entry_size);
i++;
}
}
#define COVERAGE_MAGIC 0x584d4153
struct file {
uint32_t magic;
uint32_t next;
uint32_t filename;
uint32_t data;
int offset;
int len;
};
static int mkpath(char *path, mode_t mode)
{
assert (path && *path);
char *p;
for (p = strchr(path+1, '/'); p; p = strchr(p + 1, '/')) {
*p = '\0';
if (mkdir(path, mode) == -1) {
if (errno != EEXIST) {
*p = '/';
return -1;
}
}
*p = '/';
}
return 0;
}
static void dump_coverage(void)
{
uint64_t start;
size_t size;
const void *coverage;
struct mapping coverage_mapping;
unsigned long phys_offset;
#define phys_to_virt(x) ((void *)(unsigned long)(x) + phys_offset)
if (find_cbmem_entry(CBMEM_ID_COVERAGE, &start, &size)) {
fprintf(stderr, "No coverage information found\n");
return;
}
/* Map coverage area */
coverage = map_memory(&coverage_mapping, start, size);
if (!coverage)
die("Unable to map coverage area.\n");
phys_offset = (unsigned long)coverage - (unsigned long)start;
printf("Dumping coverage data...\n");
struct file *file = (struct file *)coverage;
while (file && file->magic == COVERAGE_MAGIC) {
FILE *f;
char *filename;
debug(" -> %s\n", (char *)phys_to_virt(file->filename));
filename = strdup((char *)phys_to_virt(file->filename));
if (mkpath(filename, 0755) == -1) {
perror("Directory for coverage data could "
"not be created");
exit(1);
}
f = fopen(filename, "wb");
if (!f) {
printf("Could not open %s: %s\n",
filename, strerror(errno));
exit(1);
}
if (fwrite((void *)phys_to_virt(file->data),
file->len, 1, f) != 1) {
printf("Could not write to %s: %s\n",
filename, strerror(errno));
exit(1);
}
fclose(f);
free(filename);
if (file->next)
file = (struct file *)phys_to_virt(file->next);
else
file = NULL;
}
unmap_memory(&coverage_mapping);
}
static void print_version(void)
{
printf("cbmem v%s -- ", CBMEM_VERSION);
printf("Copyright (C) 2012 The ChromiumOS Authors. All rights reserved.\n\n");
printf(
"This program is free software: you can redistribute it and/or modify\n"
"it under the terms of the GNU General Public License as published by\n"
"the Free Software Foundation, version 2 of the License.\n\n"
"This program is distributed in the hope that it will be useful,\n"
"but WITHOUT ANY WARRANTY; without even the implied warranty of\n"
"MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the\n"
"GNU General Public License for more details.\n\n");
}
static void print_usage(const char *name, int exit_code)
{
printf("usage: %s [-cCltTLxVvh?]\n", name);
printf("\n"
" -c | --console: print cbmem console\n"
" -1 | --oneboot: print cbmem console for last boot only\n"
" -2 | --2ndtolast: print cbmem console for the boot that came before the last one only\n"
" -B | --loglevel: maximum loglevel to print; prefix `+` (e.g. -B +INFO) to also print lines that have no level\n"
" -C | --coverage: dump coverage information\n"
" -l | --list: print cbmem table of contents\n"
" -x | --hexdump: print hexdump of cbmem area\n"
util/cbmem: Add --rawdump <cbtable ID> and extend -l output Changed following things, (1) cbmem -l would give both ID and Name for coreboot table along with START and LENGTH of each entry e.g. localhost ~ # cbmem -l CBMEM table of contents: NAME ID START LENGTH <.....> 3. TIME STAMP 54494d45 77ddd000 000002e0 4. MRC DATA 4d524344 77ddb000 00001880 5. ROMSTG STCK 90357ac4 77dd6000 00005000 6. VBOOT WORK 78007343 77dd2000 00004000 7. VBOOT 780074f0 77dd1000 00000c3c 8. RAMSTAGE 9a357a9e 77d13000 000be000 9. REFCODE 04efc0de 77c01000 00112000 10. ACPI GNVS 474e5653 77c00000 00001000 11. SMM BACKUP 07e9acee 77bf0000 00010000 <..etc..> (2) With this patch, new command line arg "rawdump" or "-r" will be added to cbmem user can grab the ID with "cbmem -l" and execute "cbmem -r <ID>" to get raw dump of cbtable for the <ID> in interest. This change is needed to get MMA results data from cbtable. Coreboot stores the MMA results in cbmem. Separate post processing scripts uses cbmem utility to get the these data. This feature in the cbmem tool can also help debugging some issues where some specific ID of cbtable needs examination. BRANCH=none BUG=chrome-os-partner:43731 TEST=Build and Boot kunimitsu (FAB3). Cbmem -r and -l works as described. Not tested on Glados CQ-DEPEND=CL:299476,CL:299475,CL:299473,CL:299509,CL:299508,CL:299507,CL:*230478,CL:*230479 Change-Id: I70ba148113b4e918646b99997a9074300a9c7876 Signed-off-by: Patrick Georgi <pgeorgi@chromium.org> Original-Commit-Id: f60c79d845d4d4afca480b6884c564a0d5e5caf8 Original-Change-Id: I1dde50856f0aa8d4cdd3ecf013bd58d37d76eb72 Original-Signed-off-by: Pratik Prajapati <pratikkumar.v.prajapati@intel.com> Original-Signed-off-by: Icarus Sparry <icarus.w.sparry@intel.com> Original-Reviewed-on: https://chromium-review.googlesource.com/299474 Original-Commit-Ready: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Tested-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Reviewed-by: Aaron Durbin <adurbin@chromium.org> Original-Reviewed-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Reviewed-on: http://review.coreboot.org/12482 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2015-09-03 21:58:44 +02:00
" -r | --rawdump ID: print rawdump of specific ID (in hex) of cbtable\n"
" -t | --timestamps: print timestamp information\n"
" -T | --parseable-timestamps: print parseable timestamps\n"
" -S | --stacked-timestamps: print stacked timestamps (e.g. for flame graph tools)\n"
" -L | --tcpa-log print TCPA log\n"
" -V | --verbose: verbose (debugging) output\n"
" -v | --version: print the version\n"
" -h | --help: print this help\n"
"\n");
exit(exit_code);
}
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
#if defined(__arm__) || defined(__aarch64__)
static void dt_update_cells(const char *name, int *addr_cells_ptr,
int *size_cells_ptr)
{
if (*addr_cells_ptr >= 0 && *size_cells_ptr >= 0)
return;
int buffer;
size_t nlen = strlen(name);
char *prop = alloca(nlen + sizeof("/#address-cells"));
strcpy(prop, name);
if (*addr_cells_ptr < 0) {
strcpy(prop + nlen, "/#address-cells");
int fd = open(prop, O_RDONLY);
if (fd < 0 && errno != ENOENT) {
perror(prop);
} else if (fd >= 0) {
if (read(fd, &buffer, sizeof(int)) < 0)
perror(prop);
else
*addr_cells_ptr = ntohl(buffer);
close(fd);
}
}
if (*size_cells_ptr < 0) {
strcpy(prop + nlen, "/#size-cells");
int fd = open(prop, O_RDONLY);
if (fd < 0 && errno != ENOENT) {
perror(prop);
} else if (fd >= 0) {
if (read(fd, &buffer, sizeof(int)) < 0)
perror(prop);
else
*size_cells_ptr = ntohl(buffer);
close(fd);
}
}
}
static char *dt_find_compat(const char *parent, const char *compat,
int *addr_cells_ptr, int *size_cells_ptr)
{
char *ret = NULL;
struct dirent *entry;
DIR *dir;
if (!(dir = opendir(parent))) {
perror(parent);
return NULL;
}
/* Loop through all files in the directory (DT node). */
while ((entry = readdir(dir))) {
/* We only care about compatible props or subnodes. */
if (entry->d_name[0] == '.' || !((entry->d_type & DT_DIR) ||
!strcmp(entry->d_name, "compatible")))
continue;
/* Assemble the file name (on the stack, for speed). */
size_t plen = strlen(parent);
char *name = alloca(plen + strlen(entry->d_name) + 2);
strcpy(name, parent);
name[plen] = '/';
strcpy(name + plen + 1, entry->d_name);
/* If it's a subnode, recurse. */
if (entry->d_type & DT_DIR) {
ret = dt_find_compat(name, compat, addr_cells_ptr,
size_cells_ptr);
/* There is only one matching node to find, abort. */
if (ret) {
/* Gather cells values on the way up. */
dt_update_cells(parent, addr_cells_ptr,
size_cells_ptr);
break;
}
continue;
}
/* If it's a compatible string, see if it's the right one. */
int fd = open(name, O_RDONLY);
int clen = strlen(compat);
char *buffer = alloca(clen + 1);
if (fd < 0) {
perror(name);
continue;
}
if (read(fd, buffer, clen + 1) < 0) {
perror(name);
close(fd);
continue;
}
close(fd);
if (!strcmp(compat, buffer)) {
/* Initialize these to "unset" for the way up. */
*addr_cells_ptr = *size_cells_ptr = -1;
/* Can't leave string on the stack or we'll lose it! */
ret = strdup(parent);
break;
}
}
closedir(dir);
return ret;
}
#endif /* defined(__arm__) || defined(__aarch64__) */
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
int main(int argc, char** argv)
{
int print_defaults = 1;
int print_console = 0;
int print_coverage = 0;
int print_list = 0;
int print_hexdump = 0;
util/cbmem: Add --rawdump <cbtable ID> and extend -l output Changed following things, (1) cbmem -l would give both ID and Name for coreboot table along with START and LENGTH of each entry e.g. localhost ~ # cbmem -l CBMEM table of contents: NAME ID START LENGTH <.....> 3. TIME STAMP 54494d45 77ddd000 000002e0 4. MRC DATA 4d524344 77ddb000 00001880 5. ROMSTG STCK 90357ac4 77dd6000 00005000 6. VBOOT WORK 78007343 77dd2000 00004000 7. VBOOT 780074f0 77dd1000 00000c3c 8. RAMSTAGE 9a357a9e 77d13000 000be000 9. REFCODE 04efc0de 77c01000 00112000 10. ACPI GNVS 474e5653 77c00000 00001000 11. SMM BACKUP 07e9acee 77bf0000 00010000 <..etc..> (2) With this patch, new command line arg "rawdump" or "-r" will be added to cbmem user can grab the ID with "cbmem -l" and execute "cbmem -r <ID>" to get raw dump of cbtable for the <ID> in interest. This change is needed to get MMA results data from cbtable. Coreboot stores the MMA results in cbmem. Separate post processing scripts uses cbmem utility to get the these data. This feature in the cbmem tool can also help debugging some issues where some specific ID of cbtable needs examination. BRANCH=none BUG=chrome-os-partner:43731 TEST=Build and Boot kunimitsu (FAB3). Cbmem -r and -l works as described. Not tested on Glados CQ-DEPEND=CL:299476,CL:299475,CL:299473,CL:299509,CL:299508,CL:299507,CL:*230478,CL:*230479 Change-Id: I70ba148113b4e918646b99997a9074300a9c7876 Signed-off-by: Patrick Georgi <pgeorgi@chromium.org> Original-Commit-Id: f60c79d845d4d4afca480b6884c564a0d5e5caf8 Original-Change-Id: I1dde50856f0aa8d4cdd3ecf013bd58d37d76eb72 Original-Signed-off-by: Pratik Prajapati <pratikkumar.v.prajapati@intel.com> Original-Signed-off-by: Icarus Sparry <icarus.w.sparry@intel.com> Original-Reviewed-on: https://chromium-review.googlesource.com/299474 Original-Commit-Ready: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Tested-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Reviewed-by: Aaron Durbin <adurbin@chromium.org> Original-Reviewed-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Reviewed-on: http://review.coreboot.org/12482 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2015-09-03 21:58:44 +02:00
int print_rawdump = 0;
int print_tcpa_log = 0;
enum timestamps_print_type timestamp_type = TIMESTAMPS_PRINT_NONE;
enum console_print_type console_type = CONSOLE_PRINT_FULL;
util/cbmem: Add --rawdump <cbtable ID> and extend -l output Changed following things, (1) cbmem -l would give both ID and Name for coreboot table along with START and LENGTH of each entry e.g. localhost ~ # cbmem -l CBMEM table of contents: NAME ID START LENGTH <.....> 3. TIME STAMP 54494d45 77ddd000 000002e0 4. MRC DATA 4d524344 77ddb000 00001880 5. ROMSTG STCK 90357ac4 77dd6000 00005000 6. VBOOT WORK 78007343 77dd2000 00004000 7. VBOOT 780074f0 77dd1000 00000c3c 8. RAMSTAGE 9a357a9e 77d13000 000be000 9. REFCODE 04efc0de 77c01000 00112000 10. ACPI GNVS 474e5653 77c00000 00001000 11. SMM BACKUP 07e9acee 77bf0000 00010000 <..etc..> (2) With this patch, new command line arg "rawdump" or "-r" will be added to cbmem user can grab the ID with "cbmem -l" and execute "cbmem -r <ID>" to get raw dump of cbtable for the <ID> in interest. This change is needed to get MMA results data from cbtable. Coreboot stores the MMA results in cbmem. Separate post processing scripts uses cbmem utility to get the these data. This feature in the cbmem tool can also help debugging some issues where some specific ID of cbtable needs examination. BRANCH=none BUG=chrome-os-partner:43731 TEST=Build and Boot kunimitsu (FAB3). Cbmem -r and -l works as described. Not tested on Glados CQ-DEPEND=CL:299476,CL:299475,CL:299473,CL:299509,CL:299508,CL:299507,CL:*230478,CL:*230479 Change-Id: I70ba148113b4e918646b99997a9074300a9c7876 Signed-off-by: Patrick Georgi <pgeorgi@chromium.org> Original-Commit-Id: f60c79d845d4d4afca480b6884c564a0d5e5caf8 Original-Change-Id: I1dde50856f0aa8d4cdd3ecf013bd58d37d76eb72 Original-Signed-off-by: Pratik Prajapati <pratikkumar.v.prajapati@intel.com> Original-Signed-off-by: Icarus Sparry <icarus.w.sparry@intel.com> Original-Reviewed-on: https://chromium-review.googlesource.com/299474 Original-Commit-Ready: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Tested-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Reviewed-by: Aaron Durbin <adurbin@chromium.org> Original-Reviewed-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Reviewed-on: http://review.coreboot.org/12482 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2015-09-03 21:58:44 +02:00
unsigned int rawdump_id = 0;
int max_loglevel = BIOS_NEVER;
int print_unknown_logs = 1;
int opt, option_index = 0;
static struct option long_options[] = {
{"console", 0, 0, 'c'},
{"oneboot", 0, 0, '1'},
{"2ndtolast", 0, 0, '2'},
{"loglevel", required_argument, 0, 'B'},
{"coverage", 0, 0, 'C'},
{"list", 0, 0, 'l'},
{"tcpa-log", 0, 0, 'L'},
{"timestamps", 0, 0, 't'},
{"parseable-timestamps", 0, 0, 'T'},
{"stacked-timestamps", 0, 0, 'S'},
{"hexdump", 0, 0, 'x'},
util/cbmem: Add --rawdump <cbtable ID> and extend -l output Changed following things, (1) cbmem -l would give both ID and Name for coreboot table along with START and LENGTH of each entry e.g. localhost ~ # cbmem -l CBMEM table of contents: NAME ID START LENGTH <.....> 3. TIME STAMP 54494d45 77ddd000 000002e0 4. MRC DATA 4d524344 77ddb000 00001880 5. ROMSTG STCK 90357ac4 77dd6000 00005000 6. VBOOT WORK 78007343 77dd2000 00004000 7. VBOOT 780074f0 77dd1000 00000c3c 8. RAMSTAGE 9a357a9e 77d13000 000be000 9. REFCODE 04efc0de 77c01000 00112000 10. ACPI GNVS 474e5653 77c00000 00001000 11. SMM BACKUP 07e9acee 77bf0000 00010000 <..etc..> (2) With this patch, new command line arg "rawdump" or "-r" will be added to cbmem user can grab the ID with "cbmem -l" and execute "cbmem -r <ID>" to get raw dump of cbtable for the <ID> in interest. This change is needed to get MMA results data from cbtable. Coreboot stores the MMA results in cbmem. Separate post processing scripts uses cbmem utility to get the these data. This feature in the cbmem tool can also help debugging some issues where some specific ID of cbtable needs examination. BRANCH=none BUG=chrome-os-partner:43731 TEST=Build and Boot kunimitsu (FAB3). Cbmem -r and -l works as described. Not tested on Glados CQ-DEPEND=CL:299476,CL:299475,CL:299473,CL:299509,CL:299508,CL:299507,CL:*230478,CL:*230479 Change-Id: I70ba148113b4e918646b99997a9074300a9c7876 Signed-off-by: Patrick Georgi <pgeorgi@chromium.org> Original-Commit-Id: f60c79d845d4d4afca480b6884c564a0d5e5caf8 Original-Change-Id: I1dde50856f0aa8d4cdd3ecf013bd58d37d76eb72 Original-Signed-off-by: Pratik Prajapati <pratikkumar.v.prajapati@intel.com> Original-Signed-off-by: Icarus Sparry <icarus.w.sparry@intel.com> Original-Reviewed-on: https://chromium-review.googlesource.com/299474 Original-Commit-Ready: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Tested-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Reviewed-by: Aaron Durbin <adurbin@chromium.org> Original-Reviewed-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Reviewed-on: http://review.coreboot.org/12482 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2015-09-03 21:58:44 +02:00
{"rawdump", required_argument, 0, 'r'},
{"verbose", 0, 0, 'V'},
{"version", 0, 0, 'v'},
{"help", 0, 0, 'h'},
{0, 0, 0, 0}
};
while ((opt = getopt_long(argc, argv, "c12B:CltTSLxVvh?r:",
long_options, &option_index)) != EOF) {
switch (opt) {
case 'c':
print_console = 1;
print_defaults = 0;
break;
case '1':
print_console = 1;
console_type = CONSOLE_PRINT_LAST;
print_defaults = 0;
break;
case '2':
print_console = 1;
console_type = CONSOLE_PRINT_PREVIOUS;
print_defaults = 0;
break;
case 'B':
max_loglevel = parse_loglevel(optarg, &print_unknown_logs);
break;
case 'C':
print_coverage = 1;
print_defaults = 0;
break;
case 'l':
print_list = 1;
print_defaults = 0;
break;
case 'L':
print_tcpa_log = 1;
print_defaults = 0;
break;
case 'x':
print_hexdump = 1;
print_defaults = 0;
break;
util/cbmem: Add --rawdump <cbtable ID> and extend -l output Changed following things, (1) cbmem -l would give both ID and Name for coreboot table along with START and LENGTH of each entry e.g. localhost ~ # cbmem -l CBMEM table of contents: NAME ID START LENGTH <.....> 3. TIME STAMP 54494d45 77ddd000 000002e0 4. MRC DATA 4d524344 77ddb000 00001880 5. ROMSTG STCK 90357ac4 77dd6000 00005000 6. VBOOT WORK 78007343 77dd2000 00004000 7. VBOOT 780074f0 77dd1000 00000c3c 8. RAMSTAGE 9a357a9e 77d13000 000be000 9. REFCODE 04efc0de 77c01000 00112000 10. ACPI GNVS 474e5653 77c00000 00001000 11. SMM BACKUP 07e9acee 77bf0000 00010000 <..etc..> (2) With this patch, new command line arg "rawdump" or "-r" will be added to cbmem user can grab the ID with "cbmem -l" and execute "cbmem -r <ID>" to get raw dump of cbtable for the <ID> in interest. This change is needed to get MMA results data from cbtable. Coreboot stores the MMA results in cbmem. Separate post processing scripts uses cbmem utility to get the these data. This feature in the cbmem tool can also help debugging some issues where some specific ID of cbtable needs examination. BRANCH=none BUG=chrome-os-partner:43731 TEST=Build and Boot kunimitsu (FAB3). Cbmem -r and -l works as described. Not tested on Glados CQ-DEPEND=CL:299476,CL:299475,CL:299473,CL:299509,CL:299508,CL:299507,CL:*230478,CL:*230479 Change-Id: I70ba148113b4e918646b99997a9074300a9c7876 Signed-off-by: Patrick Georgi <pgeorgi@chromium.org> Original-Commit-Id: f60c79d845d4d4afca480b6884c564a0d5e5caf8 Original-Change-Id: I1dde50856f0aa8d4cdd3ecf013bd58d37d76eb72 Original-Signed-off-by: Pratik Prajapati <pratikkumar.v.prajapati@intel.com> Original-Signed-off-by: Icarus Sparry <icarus.w.sparry@intel.com> Original-Reviewed-on: https://chromium-review.googlesource.com/299474 Original-Commit-Ready: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Tested-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Reviewed-by: Aaron Durbin <adurbin@chromium.org> Original-Reviewed-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Reviewed-on: http://review.coreboot.org/12482 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2015-09-03 21:58:44 +02:00
case 'r':
print_rawdump = 1;
print_defaults = 0;
rawdump_id = strtoul(optarg, NULL, 16);
break;
case 't':
timestamp_type = TIMESTAMPS_PRINT_NORMAL;
print_defaults = 0;
break;
case 'T':
timestamp_type = TIMESTAMPS_PRINT_MACHINE_READABLE;
print_defaults = 0;
break;
case 'S':
timestamp_type = TIMESTAMPS_PRINT_STACKED;
print_defaults = 0;
break;
case 'V':
verbose = 1;
break;
case 'v':
print_version();
exit(0);
break;
case 'h':
print_usage(argv[0], 0);
break;
case '?':
default:
print_usage(argv[0], 1);
break;
}
}
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
if (optind < argc) {
fprintf(stderr, "Error: Extra parameter found.\n");
print_usage(argv[0], 1);
}
mem_fd = open("/dev/mem", O_RDONLY, 0);
if (mem_fd < 0) {
fprintf(stderr, "Failed to gain memory access: %s\n",
strerror(errno));
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
return 1;
}
#if defined(__arm__) || defined(__aarch64__)
int addr_cells, size_cells;
char *coreboot_node = dt_find_compat("/proc/device-tree", "coreboot",
&addr_cells, &size_cells);
if (!coreboot_node) {
fprintf(stderr, "Could not find 'coreboot' compatible node!\n");
return 1;
}
if (addr_cells < 0) {
fprintf(stderr, "Warning: no #address-cells node in tree!\n");
addr_cells = 1;
}
int nlen = strlen(coreboot_node);
char *reg = alloca(nlen + sizeof("/reg"));
strcpy(reg, coreboot_node);
strcpy(reg + nlen, "/reg");
free(coreboot_node);
int fd = open(reg, O_RDONLY);
if (fd < 0) {
perror(reg);
return 1;
}
int i;
size_t size_to_read = addr_cells * 4 + size_cells * 4;
u8 *dtbuffer = alloca(size_to_read);
if (read(fd, dtbuffer, size_to_read) < 0) {
perror(reg);
return 1;
}
close(fd);
/* No variable-length byte swap function anywhere in C... how sad. */
u64 baseaddr = 0;
for (i = 0; i < addr_cells * 4; i++) {
baseaddr <<= 8;
baseaddr |= *dtbuffer;
dtbuffer++;
}
u64 cb_table_size = 0;
for (i = 0; i < size_cells * 4; i++) {
cb_table_size <<= 8;
cb_table_size |= *dtbuffer;
dtbuffer++;
}
parse_cbtable(baseaddr, cb_table_size);
#else
unsigned long long possible_base_addresses[] = { 0, 0xf0000 };
/* Find and parse coreboot table */
for (size_t j = 0; j < ARRAY_SIZE(possible_base_addresses); j++) {
if (!parse_cbtable(possible_base_addresses[j], 0))
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
break;
}
#endif
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
if (mapping_virt(&lbtable_mapping) == NULL)
die("Table not found.\n");
if (print_console)
dump_console(console_type, max_loglevel, print_unknown_logs);
if (print_coverage)
dump_coverage();
if (print_list)
dump_cbmem_toc();
if (print_hexdump)
dump_cbmem_hex();
util/cbmem: Add --rawdump <cbtable ID> and extend -l output Changed following things, (1) cbmem -l would give both ID and Name for coreboot table along with START and LENGTH of each entry e.g. localhost ~ # cbmem -l CBMEM table of contents: NAME ID START LENGTH <.....> 3. TIME STAMP 54494d45 77ddd000 000002e0 4. MRC DATA 4d524344 77ddb000 00001880 5. ROMSTG STCK 90357ac4 77dd6000 00005000 6. VBOOT WORK 78007343 77dd2000 00004000 7. VBOOT 780074f0 77dd1000 00000c3c 8. RAMSTAGE 9a357a9e 77d13000 000be000 9. REFCODE 04efc0de 77c01000 00112000 10. ACPI GNVS 474e5653 77c00000 00001000 11. SMM BACKUP 07e9acee 77bf0000 00010000 <..etc..> (2) With this patch, new command line arg "rawdump" or "-r" will be added to cbmem user can grab the ID with "cbmem -l" and execute "cbmem -r <ID>" to get raw dump of cbtable for the <ID> in interest. This change is needed to get MMA results data from cbtable. Coreboot stores the MMA results in cbmem. Separate post processing scripts uses cbmem utility to get the these data. This feature in the cbmem tool can also help debugging some issues where some specific ID of cbtable needs examination. BRANCH=none BUG=chrome-os-partner:43731 TEST=Build and Boot kunimitsu (FAB3). Cbmem -r and -l works as described. Not tested on Glados CQ-DEPEND=CL:299476,CL:299475,CL:299473,CL:299509,CL:299508,CL:299507,CL:*230478,CL:*230479 Change-Id: I70ba148113b4e918646b99997a9074300a9c7876 Signed-off-by: Patrick Georgi <pgeorgi@chromium.org> Original-Commit-Id: f60c79d845d4d4afca480b6884c564a0d5e5caf8 Original-Change-Id: I1dde50856f0aa8d4cdd3ecf013bd58d37d76eb72 Original-Signed-off-by: Pratik Prajapati <pratikkumar.v.prajapati@intel.com> Original-Signed-off-by: Icarus Sparry <icarus.w.sparry@intel.com> Original-Reviewed-on: https://chromium-review.googlesource.com/299474 Original-Commit-Ready: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Tested-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Original-Reviewed-by: Aaron Durbin <adurbin@chromium.org> Original-Reviewed-by: Pratikkumar V Prajapati <pratikkumar.v.prajapati@intel.com> Reviewed-on: http://review.coreboot.org/12482 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2015-09-03 21:58:44 +02:00
if (print_rawdump)
dump_cbmem_raw(rawdump_id);
if (print_defaults)
timestamp_type = TIMESTAMPS_PRINT_NORMAL;
if (timestamp_type != TIMESTAMPS_PRINT_NONE)
dump_timestamps(timestamp_type);
if (print_tcpa_log)
dump_tcpa_log();
unmap_memory(&lbtable_mapping);
close(mem_fd);
Utility to dump boot timing table Coreboot and u-boot create a table of timestamps which allows to see the boot process performance. The util/cbmem/cbmem.py script allows to access the table after ChromeOS boots up and display its contents on the console. The problem is that shipping images do not include Python interpreter, so there is no way to access the table on a production machine. This change introduces a utility which is a Linux app displaying the timestamp table. Conceivably the output of this utility might be included in one of the ChromeOS :/system sections, so it was attempted to write this procedure 'fail safe', namely reporting errors and not continuing processing if something goes wrong. Including of coreboot/src .h files will allow to keep the firmware timestamp implementation and this utility in sync in the future. Test: . build the utility (run 'make' while in chroot in util/cbmem) . copy `cbmem' and 'cbmem.py' to the target . run both utilities (limiting cbmem.py output to 25 lines or so) . observe that the generated tables are identical (modulo rounding up of int division, resulting in 1 ns discrepancies in some cases) localhost var # ./cbmem 18 entries total: 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) localhost var # ./cbmem.py | head -25 time base 4249800, total entries 18 1:62,080 2:64,569 (2,489) 3:82,520 (17,951) 4:82,695 (174) 8:84,384 (1,688) 9:131,731 (47,347) 10:131,821 (89) 30:131,849 (27) 40:132,618 (769) 50:134,594 (1,975) 60:134,729 (134) 70:363,440 (228,710) 75:363,453 (13) 80:368,165 (4,711) 90:370,018 (1,852) 99:488,217 (118,199) 1000:491,324 (3,107) 1100:760,475 (269,150) Change-Id: I013e594d4afe323106d88e7938dd40b17760621c Signed-off-by: Vadim Bendebury <vbendeb@chromium.org> Reviewed-on: http://review.coreboot.org/1759 Tested-by: build bot (Jenkins) Reviewed-by: Stefan Reinauer <stefan.reinauer@coreboot.org>
2012-09-28 04:24:07 +02:00
return 0;
}