kernel-fxtec-pro1x/tools/perf/util/trace-event-parse.c
Tom Zanussi d1b93772be perf trace: Add interface to access perf data from Perl handlers
The Perl scripting support for perf trace allows most of a trace
event's data to be accessed directly as handler arguments, but
not all of it e.g. the less common fields aren't passed in.  To
give scripts access to the other fields and/or any other data or
metadata in the main perf executable that might be useful, a way
to access the C data in perf from Perl is needed; this patch
uses the Perl XS facility to do it for the common_xxx event
fields not passed to handler functions.

Context.pm exports three functions to Perl scripts that access
fields for the current event by calling back into perf:
common_pc(), common_flags() and common_lock_depth().  Support
for common_flags() field values was added to Core.pm and a
script used to sanity check these and other basic scripting
features, check-perf-trace.pl, was also added.

Signed-off-by: Tom Zanussi <tzanussi@gmail.com>
Cc: fweisbec@gmail.com
Cc: rostedt@goodmis.org
Cc: anton@samba.org
Cc: hch@infradead.org
LKML-Reference: <1259133352-23685-6-git-send-email-tzanussi@gmail.com>
Signed-off-by: Ingo Molnar <mingo@elte.hu>
2009-11-28 10:04:27 +01:00

3279 lines
65 KiB
C

/*
* Copyright (C) 2009, Steven Rostedt <srostedt@redhat.com>
*
* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; version 2 of the License (not later!)
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
*
* The parts for function graph printing was taken and modified from the
* Linux Kernel that were written by Frederic Weisbecker.
*/
#define _GNU_SOURCE
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include <errno.h>
#undef _GNU_SOURCE
#include "../perf.h"
#include "util.h"
#include "trace-event.h"
int header_page_ts_offset;
int header_page_ts_size;
int header_page_size_offset;
int header_page_size_size;
int header_page_data_offset;
int header_page_data_size;
int latency_format;
static char *input_buf;
static unsigned long long input_buf_ptr;
static unsigned long long input_buf_siz;
static int cpus;
static int long_size;
static int is_flag_field;
static int is_symbolic_field;
static struct format_field *
find_any_field(struct event *event, const char *name);
static void init_input_buf(char *buf, unsigned long long size)
{
input_buf = buf;
input_buf_siz = size;
input_buf_ptr = 0;
}
struct cmdline {
char *comm;
int pid;
};
static struct cmdline *cmdlines;
static int cmdline_count;
static int cmdline_cmp(const void *a, const void *b)
{
const struct cmdline *ca = a;
const struct cmdline *cb = b;
if (ca->pid < cb->pid)
return -1;
if (ca->pid > cb->pid)
return 1;
return 0;
}
void parse_cmdlines(char *file, int size __unused)
{
struct cmdline_list {
struct cmdline_list *next;
char *comm;
int pid;
} *list = NULL, *item;
char *line;
char *next = NULL;
int i;
line = strtok_r(file, "\n", &next);
while (line) {
item = malloc_or_die(sizeof(*item));
sscanf(line, "%d %as", &item->pid,
(float *)(void *)&item->comm); /* workaround gcc warning */
item->next = list;
list = item;
line = strtok_r(NULL, "\n", &next);
cmdline_count++;
}
cmdlines = malloc_or_die(sizeof(*cmdlines) * cmdline_count);
i = 0;
while (list) {
cmdlines[i].pid = list->pid;
cmdlines[i].comm = list->comm;
i++;
item = list;
list = list->next;
free(item);
}
qsort(cmdlines, cmdline_count, sizeof(*cmdlines), cmdline_cmp);
}
static struct func_map {
unsigned long long addr;
char *func;
char *mod;
} *func_list;
static unsigned int func_count;
static int func_cmp(const void *a, const void *b)
{
const struct func_map *fa = a;
const struct func_map *fb = b;
if (fa->addr < fb->addr)
return -1;
if (fa->addr > fb->addr)
return 1;
return 0;
}
void parse_proc_kallsyms(char *file, unsigned int size __unused)
{
struct func_list {
struct func_list *next;
unsigned long long addr;
char *func;
char *mod;
} *list = NULL, *item;
char *line;
char *next = NULL;
char *addr_str;
char ch;
int ret;
int i;
line = strtok_r(file, "\n", &next);
while (line) {
item = malloc_or_die(sizeof(*item));
item->mod = NULL;
ret = sscanf(line, "%as %c %as\t[%as",
(float *)(void *)&addr_str, /* workaround gcc warning */
&ch,
(float *)(void *)&item->func,
(float *)(void *)&item->mod);
item->addr = strtoull(addr_str, NULL, 16);
free(addr_str);
/* truncate the extra ']' */
if (item->mod)
item->mod[strlen(item->mod) - 1] = 0;
item->next = list;
list = item;
line = strtok_r(NULL, "\n", &next);
func_count++;
}
func_list = malloc_or_die(sizeof(*func_list) * func_count + 1);
i = 0;
while (list) {
func_list[i].func = list->func;
func_list[i].addr = list->addr;
func_list[i].mod = list->mod;
i++;
item = list;
list = list->next;
free(item);
}
qsort(func_list, func_count, sizeof(*func_list), func_cmp);
/*
* Add a special record at the end.
*/
func_list[func_count].func = NULL;
func_list[func_count].addr = 0;
func_list[func_count].mod = NULL;
}
/*
* We are searching for a record in between, not an exact
* match.
*/
static int func_bcmp(const void *a, const void *b)
{
const struct func_map *fa = a;
const struct func_map *fb = b;
if ((fa->addr == fb->addr) ||
(fa->addr > fb->addr &&
fa->addr < (fb+1)->addr))
return 0;
if (fa->addr < fb->addr)
return -1;
return 1;
}
static struct func_map *find_func(unsigned long long addr)
{
struct func_map *func;
struct func_map key;
key.addr = addr;
func = bsearch(&key, func_list, func_count, sizeof(*func_list),
func_bcmp);
return func;
}
void print_funcs(void)
{
int i;
for (i = 0; i < (int)func_count; i++) {
printf("%016llx %s",
func_list[i].addr,
func_list[i].func);
if (func_list[i].mod)
printf(" [%s]\n", func_list[i].mod);
else
printf("\n");
}
}
static struct printk_map {
unsigned long long addr;
char *printk;
} *printk_list;
static unsigned int printk_count;
static int printk_cmp(const void *a, const void *b)
{
const struct func_map *fa = a;
const struct func_map *fb = b;
if (fa->addr < fb->addr)
return -1;
if (fa->addr > fb->addr)
return 1;
return 0;
}
static struct printk_map *find_printk(unsigned long long addr)
{
struct printk_map *printk;
struct printk_map key;
key.addr = addr;
printk = bsearch(&key, printk_list, printk_count, sizeof(*printk_list),
printk_cmp);
return printk;
}
void parse_ftrace_printk(char *file, unsigned int size __unused)
{
struct printk_list {
struct printk_list *next;
unsigned long long addr;
char *printk;
} *list = NULL, *item;
char *line;
char *next = NULL;
char *addr_str;
int i;
line = strtok_r(file, "\n", &next);
while (line) {
addr_str = strsep(&line, ":");
if (!line) {
warning("error parsing print strings");
break;
}
item = malloc_or_die(sizeof(*item));
item->addr = strtoull(addr_str, NULL, 16);
/* fmt still has a space, skip it */
item->printk = strdup(line+1);
item->next = list;
list = item;
line = strtok_r(NULL, "\n", &next);
printk_count++;
}
printk_list = malloc_or_die(sizeof(*printk_list) * printk_count + 1);
i = 0;
while (list) {
printk_list[i].printk = list->printk;
printk_list[i].addr = list->addr;
i++;
item = list;
list = list->next;
free(item);
}
qsort(printk_list, printk_count, sizeof(*printk_list), printk_cmp);
}
void print_printk(void)
{
int i;
for (i = 0; i < (int)printk_count; i++) {
printf("%016llx %s\n",
printk_list[i].addr,
printk_list[i].printk);
}
}
static struct event *alloc_event(void)
{
struct event *event;
event = malloc_or_die(sizeof(*event));
memset(event, 0, sizeof(*event));
return event;
}
enum event_type {
EVENT_ERROR,
EVENT_NONE,
EVENT_SPACE,
EVENT_NEWLINE,
EVENT_OP,
EVENT_DELIM,
EVENT_ITEM,
EVENT_DQUOTE,
EVENT_SQUOTE,
};
static struct event *event_list;
static void add_event(struct event *event)
{
event->next = event_list;
event_list = event;
}
static int event_item_type(enum event_type type)
{
switch (type) {
case EVENT_ITEM ... EVENT_SQUOTE:
return 1;
case EVENT_ERROR ... EVENT_DELIM:
default:
return 0;
}
}
static void free_arg(struct print_arg *arg)
{
if (!arg)
return;
switch (arg->type) {
case PRINT_ATOM:
if (arg->atom.atom)
free(arg->atom.atom);
break;
case PRINT_NULL:
case PRINT_FIELD ... PRINT_OP:
default:
/* todo */
break;
}
free(arg);
}
static enum event_type get_type(int ch)
{
if (ch == '\n')
return EVENT_NEWLINE;
if (isspace(ch))
return EVENT_SPACE;
if (isalnum(ch) || ch == '_')
return EVENT_ITEM;
if (ch == '\'')
return EVENT_SQUOTE;
if (ch == '"')
return EVENT_DQUOTE;
if (!isprint(ch))
return EVENT_NONE;
if (ch == '(' || ch == ')' || ch == ',')
return EVENT_DELIM;
return EVENT_OP;
}
static int __read_char(void)
{
if (input_buf_ptr >= input_buf_siz)
return -1;
return input_buf[input_buf_ptr++];
}
static int __peek_char(void)
{
if (input_buf_ptr >= input_buf_siz)
return -1;
return input_buf[input_buf_ptr];
}
static enum event_type __read_token(char **tok)
{
char buf[BUFSIZ];
int ch, last_ch, quote_ch, next_ch;
int i = 0;
int tok_size = 0;
enum event_type type;
*tok = NULL;
ch = __read_char();
if (ch < 0)
return EVENT_NONE;
type = get_type(ch);
if (type == EVENT_NONE)
return type;
buf[i++] = ch;
switch (type) {
case EVENT_NEWLINE:
case EVENT_DELIM:
*tok = malloc_or_die(2);
(*tok)[0] = ch;
(*tok)[1] = 0;
return type;
case EVENT_OP:
switch (ch) {
case '-':
next_ch = __peek_char();
if (next_ch == '>') {
buf[i++] = __read_char();
break;
}
/* fall through */
case '+':
case '|':
case '&':
case '>':
case '<':
last_ch = ch;
ch = __peek_char();
if (ch != last_ch)
goto test_equal;
buf[i++] = __read_char();
switch (last_ch) {
case '>':
case '<':
goto test_equal;
default:
break;
}
break;
case '!':
case '=':
goto test_equal;
default: /* what should we do instead? */
break;
}
buf[i] = 0;
*tok = strdup(buf);
return type;
test_equal:
ch = __peek_char();
if (ch == '=')
buf[i++] = __read_char();
break;
case EVENT_DQUOTE:
case EVENT_SQUOTE:
/* don't keep quotes */
i--;
quote_ch = ch;
last_ch = 0;
do {
if (i == (BUFSIZ - 1)) {
buf[i] = 0;
if (*tok) {
*tok = realloc(*tok, tok_size + BUFSIZ);
if (!*tok)
return EVENT_NONE;
strcat(*tok, buf);
} else
*tok = strdup(buf);
if (!*tok)
return EVENT_NONE;
tok_size += BUFSIZ;
i = 0;
}
last_ch = ch;
ch = __read_char();
buf[i++] = ch;
/* the '\' '\' will cancel itself */
if (ch == '\\' && last_ch == '\\')
last_ch = 0;
} while (ch != quote_ch || last_ch == '\\');
/* remove the last quote */
i--;
goto out;
case EVENT_ERROR ... EVENT_SPACE:
case EVENT_ITEM:
default:
break;
}
while (get_type(__peek_char()) == type) {
if (i == (BUFSIZ - 1)) {
buf[i] = 0;
if (*tok) {
*tok = realloc(*tok, tok_size + BUFSIZ);
if (!*tok)
return EVENT_NONE;
strcat(*tok, buf);
} else
*tok = strdup(buf);
if (!*tok)
return EVENT_NONE;
tok_size += BUFSIZ;
i = 0;
}
ch = __read_char();
buf[i++] = ch;
}
out:
buf[i] = 0;
if (*tok) {
*tok = realloc(*tok, tok_size + i);
if (!*tok)
return EVENT_NONE;
strcat(*tok, buf);
} else
*tok = strdup(buf);
if (!*tok)
return EVENT_NONE;
return type;
}
static void free_token(char *tok)
{
if (tok)
free(tok);
}
static enum event_type read_token(char **tok)
{
enum event_type type;
for (;;) {
type = __read_token(tok);
if (type != EVENT_SPACE)
return type;
free_token(*tok);
}
/* not reached */
return EVENT_NONE;
}
/* no newline */
static enum event_type read_token_item(char **tok)
{
enum event_type type;
for (;;) {
type = __read_token(tok);
if (type != EVENT_SPACE && type != EVENT_NEWLINE)
return type;
free_token(*tok);
}
/* not reached */
return EVENT_NONE;
}
static int test_type(enum event_type type, enum event_type expect)
{
if (type != expect) {
warning("Error: expected type %d but read %d",
expect, type);
return -1;
}
return 0;
}
static int test_type_token(enum event_type type, char *token,
enum event_type expect, const char *expect_tok)
{
if (type != expect) {
warning("Error: expected type %d but read %d",
expect, type);
return -1;
}
if (strcmp(token, expect_tok) != 0) {
warning("Error: expected '%s' but read '%s'",
expect_tok, token);
return -1;
}
return 0;
}
static int __read_expect_type(enum event_type expect, char **tok, int newline_ok)
{
enum event_type type;
if (newline_ok)
type = read_token(tok);
else
type = read_token_item(tok);
return test_type(type, expect);
}
static int read_expect_type(enum event_type expect, char **tok)
{
return __read_expect_type(expect, tok, 1);
}
static int __read_expected(enum event_type expect, const char *str, int newline_ok)
{
enum event_type type;
char *token;
int ret;
if (newline_ok)
type = read_token(&token);
else
type = read_token_item(&token);
ret = test_type_token(type, token, expect, str);
free_token(token);
return ret;
}
static int read_expected(enum event_type expect, const char *str)
{
return __read_expected(expect, str, 1);
}
static int read_expected_item(enum event_type expect, const char *str)
{
return __read_expected(expect, str, 0);
}
static char *event_read_name(void)
{
char *token;
if (read_expected(EVENT_ITEM, "name") < 0)
return NULL;
if (read_expected(EVENT_OP, ":") < 0)
return NULL;
if (read_expect_type(EVENT_ITEM, &token) < 0)
goto fail;
return token;
fail:
free_token(token);
return NULL;
}
static int event_read_id(void)
{
char *token;
int id;
if (read_expected_item(EVENT_ITEM, "ID") < 0)
return -1;
if (read_expected(EVENT_OP, ":") < 0)
return -1;
if (read_expect_type(EVENT_ITEM, &token) < 0)
goto fail;
id = strtoul(token, NULL, 0);
free_token(token);
return id;
fail:
free_token(token);
return -1;
}
static int field_is_string(struct format_field *field)
{
if ((field->flags & FIELD_IS_ARRAY) &&
(!strstr(field->type, "char") || !strstr(field->type, "u8") ||
!strstr(field->type, "s8")))
return 1;
return 0;
}
static int field_is_dynamic(struct format_field *field)
{
if (!strcmp(field->type, "__data_loc"))
return 1;
return 0;
}
static int event_read_fields(struct event *event, struct format_field **fields)
{
struct format_field *field = NULL;
enum event_type type;
char *token;
char *last_token;
int count = 0;
do {
type = read_token(&token);
if (type == EVENT_NEWLINE) {
free_token(token);
return count;
}
count++;
if (test_type_token(type, token, EVENT_ITEM, "field"))
goto fail;
free_token(token);
type = read_token(&token);
/*
* The ftrace fields may still use the "special" name.
* Just ignore it.
*/
if (event->flags & EVENT_FL_ISFTRACE &&
type == EVENT_ITEM && strcmp(token, "special") == 0) {
free_token(token);
type = read_token(&token);
}
if (test_type_token(type, token, EVENT_OP, ":") < 0)
return -1;
if (read_expect_type(EVENT_ITEM, &token) < 0)
goto fail;
last_token = token;
field = malloc_or_die(sizeof(*field));
memset(field, 0, sizeof(*field));
/* read the rest of the type */
for (;;) {
type = read_token(&token);
if (type == EVENT_ITEM ||
(type == EVENT_OP && strcmp(token, "*") == 0) ||
/*
* Some of the ftrace fields are broken and have
* an illegal "." in them.
*/
(event->flags & EVENT_FL_ISFTRACE &&
type == EVENT_OP && strcmp(token, ".") == 0)) {
if (strcmp(token, "*") == 0)
field->flags |= FIELD_IS_POINTER;
if (field->type) {
field->type = realloc(field->type,
strlen(field->type) +
strlen(last_token) + 2);
strcat(field->type, " ");
strcat(field->type, last_token);
} else
field->type = last_token;
last_token = token;
continue;
}
break;
}
if (!field->type) {
die("no type found");
goto fail;
}
field->name = last_token;
if (test_type(type, EVENT_OP))
goto fail;
if (strcmp(token, "[") == 0) {
enum event_type last_type = type;
char *brackets = token;
int len;
field->flags |= FIELD_IS_ARRAY;
type = read_token(&token);
while (strcmp(token, "]") != 0) {
if (last_type == EVENT_ITEM &&
type == EVENT_ITEM)
len = 2;
else
len = 1;
last_type = type;
brackets = realloc(brackets,
strlen(brackets) +
strlen(token) + len);
if (len == 2)
strcat(brackets, " ");
strcat(brackets, token);
free_token(token);
type = read_token(&token);
if (type == EVENT_NONE) {
die("failed to find token");
goto fail;
}
}
free_token(token);
brackets = realloc(brackets, strlen(brackets) + 2);
strcat(brackets, "]");
/* add brackets to type */
type = read_token(&token);
/*
* If the next token is not an OP, then it is of
* the format: type [] item;
*/
if (type == EVENT_ITEM) {
field->type = realloc(field->type,
strlen(field->type) +
strlen(field->name) +
strlen(brackets) + 2);
strcat(field->type, " ");
strcat(field->type, field->name);
free_token(field->name);
strcat(field->type, brackets);
field->name = token;
type = read_token(&token);
} else {
field->type = realloc(field->type,
strlen(field->type) +
strlen(brackets) + 1);
strcat(field->type, brackets);
}
free(brackets);
}
if (field_is_string(field)) {
field->flags |= FIELD_IS_STRING;
if (field_is_dynamic(field))
field->flags |= FIELD_IS_DYNAMIC;
}
if (test_type_token(type, token, EVENT_OP, ";"))
goto fail;
free_token(token);
if (read_expected(EVENT_ITEM, "offset") < 0)
goto fail_expect;
if (read_expected(EVENT_OP, ":") < 0)
goto fail_expect;
if (read_expect_type(EVENT_ITEM, &token))
goto fail;
field->offset = strtoul(token, NULL, 0);
free_token(token);
if (read_expected(EVENT_OP, ";") < 0)
goto fail_expect;
if (read_expected(EVENT_ITEM, "size") < 0)
goto fail_expect;
if (read_expected(EVENT_OP, ":") < 0)
goto fail_expect;
if (read_expect_type(EVENT_ITEM, &token))
goto fail;
field->size = strtoul(token, NULL, 0);
free_token(token);
if (read_expected(EVENT_OP, ";") < 0)
goto fail_expect;
type = read_token(&token);
if (type != EVENT_NEWLINE) {
/* newer versions of the kernel have a "signed" type */
if (test_type_token(type, token, EVENT_ITEM, "signed"))
goto fail;
free_token(token);
if (read_expected(EVENT_OP, ":") < 0)
goto fail_expect;
if (read_expect_type(EVENT_ITEM, &token))
goto fail;
if (strtoul(token, NULL, 0))
field->flags |= FIELD_IS_SIGNED;
free_token(token);
if (read_expected(EVENT_OP, ";") < 0)
goto fail_expect;
if (read_expect_type(EVENT_NEWLINE, &token))
goto fail;
}
free_token(token);
*fields = field;
fields = &field->next;
} while (1);
return 0;
fail:
free_token(token);
fail_expect:
if (field)
free(field);
return -1;
}
static int event_read_format(struct event *event)
{
char *token;
int ret;
if (read_expected_item(EVENT_ITEM, "format") < 0)
return -1;
if (read_expected(EVENT_OP, ":") < 0)
return -1;
if (read_expect_type(EVENT_NEWLINE, &token))
goto fail;
free_token(token);
ret = event_read_fields(event, &event->format.common_fields);
if (ret < 0)
return ret;
event->format.nr_common = ret;
ret = event_read_fields(event, &event->format.fields);
if (ret < 0)
return ret;
event->format.nr_fields = ret;
return 0;
fail:
free_token(token);
return -1;
}
enum event_type
process_arg_token(struct event *event, struct print_arg *arg,
char **tok, enum event_type type);
static enum event_type
process_arg(struct event *event, struct print_arg *arg, char **tok)
{
enum event_type type;
char *token;
type = read_token(&token);
*tok = token;
return process_arg_token(event, arg, tok, type);
}
static enum event_type
process_cond(struct event *event, struct print_arg *top, char **tok)
{
struct print_arg *arg, *left, *right;
enum event_type type;
char *token = NULL;
arg = malloc_or_die(sizeof(*arg));
memset(arg, 0, sizeof(*arg));
left = malloc_or_die(sizeof(*left));
right = malloc_or_die(sizeof(*right));
arg->type = PRINT_OP;
arg->op.left = left;
arg->op.right = right;
*tok = NULL;
type = process_arg(event, left, &token);
if (test_type_token(type, token, EVENT_OP, ":"))
goto out_free;
arg->op.op = token;
type = process_arg(event, right, &token);
top->op.right = arg;
*tok = token;
return type;
out_free:
free_token(*tok);
free(right);
free(left);
free_arg(arg);
return EVENT_ERROR;
}
static enum event_type
process_array(struct event *event, struct print_arg *top, char **tok)
{
struct print_arg *arg;
enum event_type type;
char *token = NULL;
arg = malloc_or_die(sizeof(*arg));
memset(arg, 0, sizeof(*arg));
*tok = NULL;
type = process_arg(event, arg, &token);
if (test_type_token(type, token, EVENT_OP, "]"))
goto out_free;
top->op.right = arg;
free_token(token);
type = read_token_item(&token);
*tok = token;
return type;
out_free:
free_token(*tok);
free_arg(arg);
return EVENT_ERROR;
}
static int get_op_prio(char *op)
{
if (!op[1]) {
switch (op[0]) {
case '*':
case '/':
case '%':
return 6;
case '+':
case '-':
return 7;
/* '>>' and '<<' are 8 */
case '<':
case '>':
return 9;
/* '==' and '!=' are 10 */
case '&':
return 11;
case '^':
return 12;
case '|':
return 13;
case '?':
return 16;
default:
die("unknown op '%c'", op[0]);
return -1;
}
} else {
if (strcmp(op, "++") == 0 ||
strcmp(op, "--") == 0) {
return 3;
} else if (strcmp(op, ">>") == 0 ||
strcmp(op, "<<") == 0) {
return 8;
} else if (strcmp(op, ">=") == 0 ||
strcmp(op, "<=") == 0) {
return 9;
} else if (strcmp(op, "==") == 0 ||
strcmp(op, "!=") == 0) {
return 10;
} else if (strcmp(op, "&&") == 0) {
return 14;
} else if (strcmp(op, "||") == 0) {
return 15;
} else {
die("unknown op '%s'", op);
return -1;
}
}
}
static void set_op_prio(struct print_arg *arg)
{
/* single ops are the greatest */
if (!arg->op.left || arg->op.left->type == PRINT_NULL) {
arg->op.prio = 0;
return;
}
arg->op.prio = get_op_prio(arg->op.op);
}
static enum event_type
process_op(struct event *event, struct print_arg *arg, char **tok)
{
struct print_arg *left, *right = NULL;
enum event_type type;
char *token;
/* the op is passed in via tok */
token = *tok;
if (arg->type == PRINT_OP && !arg->op.left) {
/* handle single op */
if (token[1]) {
die("bad op token %s", token);
return EVENT_ERROR;
}
switch (token[0]) {
case '!':
case '+':
case '-':
break;
default:
die("bad op token %s", token);
return EVENT_ERROR;
}
/* make an empty left */
left = malloc_or_die(sizeof(*left));
left->type = PRINT_NULL;
arg->op.left = left;
right = malloc_or_die(sizeof(*right));
arg->op.right = right;
type = process_arg(event, right, tok);
} else if (strcmp(token, "?") == 0) {
left = malloc_or_die(sizeof(*left));
/* copy the top arg to the left */
*left = *arg;
arg->type = PRINT_OP;
arg->op.op = token;
arg->op.left = left;
arg->op.prio = 0;
type = process_cond(event, arg, tok);
} else if (strcmp(token, ">>") == 0 ||
strcmp(token, "<<") == 0 ||
strcmp(token, "&") == 0 ||
strcmp(token, "|") == 0 ||
strcmp(token, "&&") == 0 ||
strcmp(token, "||") == 0 ||
strcmp(token, "-") == 0 ||
strcmp(token, "+") == 0 ||
strcmp(token, "*") == 0 ||
strcmp(token, "^") == 0 ||
strcmp(token, "/") == 0 ||
strcmp(token, "<") == 0 ||
strcmp(token, ">") == 0 ||
strcmp(token, "==") == 0 ||
strcmp(token, "!=") == 0) {
left = malloc_or_die(sizeof(*left));
/* copy the top arg to the left */
*left = *arg;
arg->type = PRINT_OP;
arg->op.op = token;
arg->op.left = left;
set_op_prio(arg);
right = malloc_or_die(sizeof(*right));
type = read_token_item(&token);
*tok = token;
/* could just be a type pointer */
if ((strcmp(arg->op.op, "*") == 0) &&
type == EVENT_DELIM && (strcmp(token, ")") == 0)) {
if (left->type != PRINT_ATOM)
die("bad pointer type");
left->atom.atom = realloc(left->atom.atom,
sizeof(left->atom.atom) + 3);
strcat(left->atom.atom, " *");
*arg = *left;
free(arg);
return type;
}
type = process_arg_token(event, right, tok, type);
arg->op.right = right;
} else if (strcmp(token, "[") == 0) {
left = malloc_or_die(sizeof(*left));
*left = *arg;
arg->type = PRINT_OP;
arg->op.op = token;
arg->op.left = left;
arg->op.prio = 0;
type = process_array(event, arg, tok);
} else {
warning("unknown op '%s'", token);
event->flags |= EVENT_FL_FAILED;
/* the arg is now the left side */
return EVENT_NONE;
}
if (type == EVENT_OP) {
int prio;
/* higher prios need to be closer to the root */
prio = get_op_prio(*tok);
if (prio > arg->op.prio)
return process_op(event, arg, tok);
return process_op(event, right, tok);
}
return type;
}
static enum event_type
process_entry(struct event *event __unused, struct print_arg *arg,
char **tok)
{
enum event_type type;
char *field;
char *token;
if (read_expected(EVENT_OP, "->") < 0)
return EVENT_ERROR;
if (read_expect_type(EVENT_ITEM, &token) < 0)
goto fail;
field = token;
arg->type = PRINT_FIELD;
arg->field.name = field;
if (is_flag_field) {
arg->field.field = find_any_field(event, arg->field.name);
arg->field.field->flags |= FIELD_IS_FLAG;
is_flag_field = 0;
} else if (is_symbolic_field) {
arg->field.field = find_any_field(event, arg->field.name);
arg->field.field->flags |= FIELD_IS_SYMBOLIC;
is_symbolic_field = 0;
}
type = read_token(&token);
*tok = token;
return type;
fail:
free_token(token);
return EVENT_ERROR;
}
static char *arg_eval (struct print_arg *arg);
static long long arg_num_eval(struct print_arg *arg)
{
long long left, right;
long long val = 0;
switch (arg->type) {
case PRINT_ATOM:
val = strtoll(arg->atom.atom, NULL, 0);
break;
case PRINT_TYPE:
val = arg_num_eval(arg->typecast.item);
break;
case PRINT_OP:
switch (arg->op.op[0]) {
case '|':
left = arg_num_eval(arg->op.left);
right = arg_num_eval(arg->op.right);
if (arg->op.op[1])
val = left || right;
else
val = left | right;
break;
case '&':
left = arg_num_eval(arg->op.left);
right = arg_num_eval(arg->op.right);
if (arg->op.op[1])
val = left && right;
else
val = left & right;
break;
case '<':
left = arg_num_eval(arg->op.left);
right = arg_num_eval(arg->op.right);
switch (arg->op.op[1]) {
case 0:
val = left < right;
break;
case '<':
val = left << right;
break;
case '=':
val = left <= right;
break;
default:
die("unknown op '%s'", arg->op.op);
}
break;
case '>':
left = arg_num_eval(arg->op.left);
right = arg_num_eval(arg->op.right);
switch (arg->op.op[1]) {
case 0:
val = left > right;
break;
case '>':
val = left >> right;
break;
case '=':
val = left >= right;
break;
default:
die("unknown op '%s'", arg->op.op);
}
break;
case '=':
left = arg_num_eval(arg->op.left);
right = arg_num_eval(arg->op.right);
if (arg->op.op[1] != '=')
die("unknown op '%s'", arg->op.op);
val = left == right;
break;
case '!':
left = arg_num_eval(arg->op.left);
right = arg_num_eval(arg->op.right);
switch (arg->op.op[1]) {
case '=':
val = left != right;
break;
default:
die("unknown op '%s'", arg->op.op);
}
break;
default:
die("unknown op '%s'", arg->op.op);
}
break;
case PRINT_NULL:
case PRINT_FIELD ... PRINT_SYMBOL:
case PRINT_STRING:
default:
die("invalid eval type %d", arg->type);
}
return val;
}
static char *arg_eval (struct print_arg *arg)
{
long long val;
static char buf[20];
switch (arg->type) {
case PRINT_ATOM:
return arg->atom.atom;
case PRINT_TYPE:
return arg_eval(arg->typecast.item);
case PRINT_OP:
val = arg_num_eval(arg);
sprintf(buf, "%lld", val);
return buf;
case PRINT_NULL:
case PRINT_FIELD ... PRINT_SYMBOL:
case PRINT_STRING:
default:
die("invalid eval type %d", arg->type);
break;
}
return NULL;
}
static enum event_type
process_fields(struct event *event, struct print_flag_sym **list, char **tok)
{
enum event_type type;
struct print_arg *arg = NULL;
struct print_flag_sym *field;
char *token = NULL;
char *value;
do {
free_token(token);
type = read_token_item(&token);
if (test_type_token(type, token, EVENT_OP, "{"))
break;
arg = malloc_or_die(sizeof(*arg));
free_token(token);
type = process_arg(event, arg, &token);
if (test_type_token(type, token, EVENT_DELIM, ","))
goto out_free;
field = malloc_or_die(sizeof(*field));
memset(field, 0, sizeof(field));
value = arg_eval(arg);
field->value = strdup(value);
free_token(token);
type = process_arg(event, arg, &token);
if (test_type_token(type, token, EVENT_OP, "}"))
goto out_free;
value = arg_eval(arg);
field->str = strdup(value);
free_arg(arg);
arg = NULL;
*list = field;
list = &field->next;
free_token(token);
type = read_token_item(&token);
} while (type == EVENT_DELIM && strcmp(token, ",") == 0);
*tok = token;
return type;
out_free:
free_arg(arg);
free_token(token);
return EVENT_ERROR;
}
static enum event_type
process_flags(struct event *event, struct print_arg *arg, char **tok)
{
struct print_arg *field;
enum event_type type;
char *token;
memset(arg, 0, sizeof(*arg));
arg->type = PRINT_FLAGS;
if (read_expected_item(EVENT_DELIM, "(") < 0)
return EVENT_ERROR;
field = malloc_or_die(sizeof(*field));
type = process_arg(event, field, &token);
if (test_type_token(type, token, EVENT_DELIM, ","))
goto out_free;
arg->flags.field = field;
type = read_token_item(&token);
if (event_item_type(type)) {
arg->flags.delim = token;
type = read_token_item(&token);
}
if (test_type_token(type, token, EVENT_DELIM, ","))
goto out_free;
type = process_fields(event, &arg->flags.flags, &token);
if (test_type_token(type, token, EVENT_DELIM, ")"))
goto out_free;
free_token(token);
type = read_token_item(tok);
return type;
out_free:
free_token(token);
return EVENT_ERROR;
}
static enum event_type
process_symbols(struct event *event, struct print_arg *arg, char **tok)
{
struct print_arg *field;
enum event_type type;
char *token;
memset(arg, 0, sizeof(*arg));
arg->type = PRINT_SYMBOL;
if (read_expected_item(EVENT_DELIM, "(") < 0)
return EVENT_ERROR;
field = malloc_or_die(sizeof(*field));
type = process_arg(event, field, &token);
if (test_type_token(type, token, EVENT_DELIM, ","))
goto out_free;
arg->symbol.field = field;
type = process_fields(event, &arg->symbol.symbols, &token);
if (test_type_token(type, token, EVENT_DELIM, ")"))
goto out_free;
free_token(token);
type = read_token_item(tok);
return type;
out_free:
free_token(token);
return EVENT_ERROR;
}
static enum event_type
process_paren(struct event *event, struct print_arg *arg, char **tok)
{
struct print_arg *item_arg;
enum event_type type;
char *token;
type = process_arg(event, arg, &token);
if (type == EVENT_ERROR)
return EVENT_ERROR;
if (type == EVENT_OP)
type = process_op(event, arg, &token);
if (type == EVENT_ERROR)
return EVENT_ERROR;
if (test_type_token(type, token, EVENT_DELIM, ")")) {
free_token(token);
return EVENT_ERROR;
}
free_token(token);
type = read_token_item(&token);
/*
* If the next token is an item or another open paren, then
* this was a typecast.
*/
if (event_item_type(type) ||
(type == EVENT_DELIM && strcmp(token, "(") == 0)) {
/* make this a typecast and contine */
/* prevous must be an atom */
if (arg->type != PRINT_ATOM)
die("previous needed to be PRINT_ATOM");
item_arg = malloc_or_die(sizeof(*item_arg));
arg->type = PRINT_TYPE;
arg->typecast.type = arg->atom.atom;
arg->typecast.item = item_arg;
type = process_arg_token(event, item_arg, &token, type);
}
*tok = token;
return type;
}
static enum event_type
process_str(struct event *event __unused, struct print_arg *arg, char **tok)
{
enum event_type type;
char *token;
if (read_expected(EVENT_DELIM, "(") < 0)
return EVENT_ERROR;
if (read_expect_type(EVENT_ITEM, &token) < 0)
goto fail;
arg->type = PRINT_STRING;
arg->string.string = token;
arg->string.offset = -1;
if (read_expected(EVENT_DELIM, ")") < 0)
return EVENT_ERROR;
type = read_token(&token);
*tok = token;
return type;
fail:
free_token(token);
return EVENT_ERROR;
}
enum event_type
process_arg_token(struct event *event, struct print_arg *arg,
char **tok, enum event_type type)
{
char *token;
char *atom;
token = *tok;
switch (type) {
case EVENT_ITEM:
if (strcmp(token, "REC") == 0) {
free_token(token);
type = process_entry(event, arg, &token);
} else if (strcmp(token, "__print_flags") == 0) {
free_token(token);
is_flag_field = 1;
type = process_flags(event, arg, &token);
} else if (strcmp(token, "__print_symbolic") == 0) {
free_token(token);
is_symbolic_field = 1;
type = process_symbols(event, arg, &token);
} else if (strcmp(token, "__get_str") == 0) {
free_token(token);
type = process_str(event, arg, &token);
} else {
atom = token;
/* test the next token */
type = read_token_item(&token);
/* atoms can be more than one token long */
while (type == EVENT_ITEM) {
atom = realloc(atom, strlen(atom) + strlen(token) + 2);
strcat(atom, " ");
strcat(atom, token);
free_token(token);
type = read_token_item(&token);
}
/* todo, test for function */
arg->type = PRINT_ATOM;
arg->atom.atom = atom;
}
break;
case EVENT_DQUOTE:
case EVENT_SQUOTE:
arg->type = PRINT_ATOM;
arg->atom.atom = token;
type = read_token_item(&token);
break;
case EVENT_DELIM:
if (strcmp(token, "(") == 0) {
free_token(token);
type = process_paren(event, arg, &token);
break;
}
case EVENT_OP:
/* handle single ops */
arg->type = PRINT_OP;
arg->op.op = token;
arg->op.left = NULL;
type = process_op(event, arg, &token);
break;
case EVENT_ERROR ... EVENT_NEWLINE:
default:
die("unexpected type %d", type);
}
*tok = token;
return type;
}
static int event_read_print_args(struct event *event, struct print_arg **list)
{
enum event_type type = EVENT_ERROR;
struct print_arg *arg;
char *token;
int args = 0;
do {
if (type == EVENT_NEWLINE) {
free_token(token);
type = read_token_item(&token);
continue;
}
arg = malloc_or_die(sizeof(*arg));
memset(arg, 0, sizeof(*arg));
type = process_arg(event, arg, &token);
if (type == EVENT_ERROR) {
free_arg(arg);
return -1;
}
*list = arg;
args++;
if (type == EVENT_OP) {
type = process_op(event, arg, &token);
list = &arg->next;
continue;
}
if (type == EVENT_DELIM && strcmp(token, ",") == 0) {
free_token(token);
*list = arg;
list = &arg->next;
continue;
}
break;
} while (type != EVENT_NONE);
if (type != EVENT_NONE)
free_token(token);
return args;
}
static int event_read_print(struct event *event)
{
enum event_type type;
char *token;
int ret;
if (read_expected_item(EVENT_ITEM, "print") < 0)
return -1;
if (read_expected(EVENT_ITEM, "fmt") < 0)
return -1;
if (read_expected(EVENT_OP, ":") < 0)
return -1;
if (read_expect_type(EVENT_DQUOTE, &token) < 0)
goto fail;
concat:
event->print_fmt.format = token;
event->print_fmt.args = NULL;
/* ok to have no arg */
type = read_token_item(&token);
if (type == EVENT_NONE)
return 0;
/* Handle concatination of print lines */
if (type == EVENT_DQUOTE) {
char *cat;
cat = malloc_or_die(strlen(event->print_fmt.format) +
strlen(token) + 1);
strcpy(cat, event->print_fmt.format);
strcat(cat, token);
free_token(token);
free_token(event->print_fmt.format);
event->print_fmt.format = NULL;
token = cat;
goto concat;
}
if (test_type_token(type, token, EVENT_DELIM, ","))
goto fail;
free_token(token);
ret = event_read_print_args(event, &event->print_fmt.args);
if (ret < 0)
return -1;
return ret;
fail:
free_token(token);
return -1;
}
static struct format_field *
find_common_field(struct event *event, const char *name)
{
struct format_field *format;
for (format = event->format.common_fields;
format; format = format->next) {
if (strcmp(format->name, name) == 0)
break;
}
return format;
}
static struct format_field *
find_field(struct event *event, const char *name)
{
struct format_field *format;
for (format = event->format.fields;
format; format = format->next) {
if (strcmp(format->name, name) == 0)
break;
}
return format;
}
static struct format_field *
find_any_field(struct event *event, const char *name)
{
struct format_field *format;
format = find_common_field(event, name);
if (format)
return format;
return find_field(event, name);
}
unsigned long long read_size(void *ptr, int size)
{
switch (size) {
case 1:
return *(unsigned char *)ptr;
case 2:
return data2host2(ptr);
case 4:
return data2host4(ptr);
case 8:
return data2host8(ptr);
default:
/* BUG! */
return 0;
}
}
unsigned long long
raw_field_value(struct event *event, const char *name, void *data)
{
struct format_field *field;
field = find_any_field(event, name);
if (!field)
return 0ULL;
return read_size(data + field->offset, field->size);
}
void *raw_field_ptr(struct event *event, const char *name, void *data)
{
struct format_field *field;
field = find_any_field(event, name);
if (!field)
return NULL;
return data + field->offset;
}
static int get_common_info(const char *type, int *offset, int *size)
{
struct event *event;
struct format_field *field;
/*
* All events should have the same common elements.
* Pick any event to find where the type is;
*/
if (!event_list)
die("no event_list!");
event = event_list;
field = find_common_field(event, type);
if (!field)
die("field '%s' not found", type);
*offset = field->offset;
*size = field->size;
return 0;
}
static int __parse_common(void *data, int *size, int *offset,
const char *name)
{
int ret;
if (!*size) {
ret = get_common_info(name, offset, size);
if (ret < 0)
return ret;
}
return read_size(data + *offset, *size);
}
int trace_parse_common_type(void *data)
{
static int type_offset;
static int type_size;
return __parse_common(data, &type_size, &type_offset,
"common_type");
}
int trace_parse_common_pid(void *data)
{
static int pid_offset;
static int pid_size;
return __parse_common(data, &pid_size, &pid_offset,
"common_pid");
}
int parse_common_pc(void *data)
{
static int pc_offset;
static int pc_size;
return __parse_common(data, &pc_size, &pc_offset,
"common_preempt_count");
}
int parse_common_flags(void *data)
{
static int flags_offset;
static int flags_size;
return __parse_common(data, &flags_size, &flags_offset,
"common_flags");
}
int parse_common_lock_depth(void *data)
{
static int ld_offset;
static int ld_size;
int ret;
ret = __parse_common(data, &ld_size, &ld_offset,
"common_lock_depth");
if (ret < 0)
return -1;
return ret;
}
struct event *trace_find_event(int id)
{
struct event *event;
for (event = event_list; event; event = event->next) {
if (event->id == id)
break;
}
return event;
}
struct event *trace_find_next_event(struct event *event)
{
if (!event)
return event_list;
return event->next;
}
static unsigned long long eval_num_arg(void *data, int size,
struct event *event, struct print_arg *arg)
{
unsigned long long val = 0;
unsigned long long left, right;
struct print_arg *larg;
switch (arg->type) {
case PRINT_NULL:
/* ?? */
return 0;
case PRINT_ATOM:
return strtoull(arg->atom.atom, NULL, 0);
case PRINT_FIELD:
if (!arg->field.field) {
arg->field.field = find_any_field(event, arg->field.name);
if (!arg->field.field)
die("field %s not found", arg->field.name);
}
/* must be a number */
val = read_size(data + arg->field.field->offset,
arg->field.field->size);
break;
case PRINT_FLAGS:
case PRINT_SYMBOL:
break;
case PRINT_TYPE:
return eval_num_arg(data, size, event, arg->typecast.item);
case PRINT_STRING:
return 0;
break;
case PRINT_OP:
if (strcmp(arg->op.op, "[") == 0) {
/*
* Arrays are special, since we don't want
* to read the arg as is.
*/
if (arg->op.left->type != PRINT_FIELD)
goto default_op; /* oops, all bets off */
larg = arg->op.left;
if (!larg->field.field) {
larg->field.field =
find_any_field(event, larg->field.name);
if (!larg->field.field)
die("field %s not found", larg->field.name);
}
right = eval_num_arg(data, size, event, arg->op.right);
val = read_size(data + larg->field.field->offset +
right * long_size, long_size);
break;
}
default_op:
left = eval_num_arg(data, size, event, arg->op.left);
right = eval_num_arg(data, size, event, arg->op.right);
switch (arg->op.op[0]) {
case '|':
if (arg->op.op[1])
val = left || right;
else
val = left | right;
break;
case '&':
if (arg->op.op[1])
val = left && right;
else
val = left & right;
break;
case '<':
switch (arg->op.op[1]) {
case 0:
val = left < right;
break;
case '<':
val = left << right;
break;
case '=':
val = left <= right;
break;
default:
die("unknown op '%s'", arg->op.op);
}
break;
case '>':
switch (arg->op.op[1]) {
case 0:
val = left > right;
break;
case '>':
val = left >> right;
break;
case '=':
val = left >= right;
break;
default:
die("unknown op '%s'", arg->op.op);
}
break;
case '=':
if (arg->op.op[1] != '=')
die("unknown op '%s'", arg->op.op);
val = left == right;
break;
case '-':
val = left - right;
break;
case '+':
val = left + right;
break;
default:
die("unknown op '%s'", arg->op.op);
}
break;
default: /* not sure what to do there */
return 0;
}
return val;
}
struct flag {
const char *name;
unsigned long long value;
};
static const struct flag flags[] = {
{ "HI_SOFTIRQ", 0 },
{ "TIMER_SOFTIRQ", 1 },
{ "NET_TX_SOFTIRQ", 2 },
{ "NET_RX_SOFTIRQ", 3 },
{ "BLOCK_SOFTIRQ", 4 },
{ "BLOCK_IOPOLL_SOFTIRQ", 5 },
{ "TASKLET_SOFTIRQ", 6 },
{ "SCHED_SOFTIRQ", 7 },
{ "HRTIMER_SOFTIRQ", 8 },
{ "RCU_SOFTIRQ", 9 },
{ "HRTIMER_NORESTART", 0 },
{ "HRTIMER_RESTART", 1 },
};
unsigned long long eval_flag(const char *flag)
{
int i;
/*
* Some flags in the format files do not get converted.
* If the flag is not numeric, see if it is something that
* we already know about.
*/
if (isdigit(flag[0]))
return strtoull(flag, NULL, 0);
for (i = 0; i < (int)(sizeof(flags)/sizeof(flags[0])); i++)
if (strcmp(flags[i].name, flag) == 0)
return flags[i].value;
return 0;
}
static void print_str_arg(void *data, int size,
struct event *event, struct print_arg *arg)
{
struct print_flag_sym *flag;
unsigned long long val, fval;
char *str;
int print;
switch (arg->type) {
case PRINT_NULL:
/* ?? */
return;
case PRINT_ATOM:
printf("%s", arg->atom.atom);
return;
case PRINT_FIELD:
if (!arg->field.field) {
arg->field.field = find_any_field(event, arg->field.name);
if (!arg->field.field)
die("field %s not found", arg->field.name);
}
str = malloc_or_die(arg->field.field->size + 1);
memcpy(str, data + arg->field.field->offset,
arg->field.field->size);
str[arg->field.field->size] = 0;
printf("%s", str);
free(str);
break;
case PRINT_FLAGS:
val = eval_num_arg(data, size, event, arg->flags.field);
print = 0;
for (flag = arg->flags.flags; flag; flag = flag->next) {
fval = eval_flag(flag->value);
if (!val && !fval) {
printf("%s", flag->str);
break;
}
if (fval && (val & fval) == fval) {
if (print && arg->flags.delim)
printf("%s", arg->flags.delim);
printf("%s", flag->str);
print = 1;
val &= ~fval;
}
}
break;
case PRINT_SYMBOL:
val = eval_num_arg(data, size, event, arg->symbol.field);
for (flag = arg->symbol.symbols; flag; flag = flag->next) {
fval = eval_flag(flag->value);
if (val == fval) {
printf("%s", flag->str);
break;
}
}
break;
case PRINT_TYPE:
break;
case PRINT_STRING: {
int str_offset;
if (arg->string.offset == -1) {
struct format_field *f;
f = find_any_field(event, arg->string.string);
arg->string.offset = f->offset;
}
str_offset = *(int *)(data + arg->string.offset);
str_offset &= 0xffff;
printf("%s", ((char *)data) + str_offset);
break;
}
case PRINT_OP:
/*
* The only op for string should be ? :
*/
if (arg->op.op[0] != '?')
return;
val = eval_num_arg(data, size, event, arg->op.left);
if (val)
print_str_arg(data, size, event, arg->op.right->op.left);
else
print_str_arg(data, size, event, arg->op.right->op.right);
break;
default:
/* well... */
break;
}
}
static struct print_arg *make_bprint_args(char *fmt, void *data, int size, struct event *event)
{
static struct format_field *field, *ip_field;
struct print_arg *args, *arg, **next;
unsigned long long ip, val;
char *ptr;
void *bptr;
if (!field) {
field = find_field(event, "buf");
if (!field)
die("can't find buffer field for binary printk");
ip_field = find_field(event, "ip");
if (!ip_field)
die("can't find ip field for binary printk");
}
ip = read_size(data + ip_field->offset, ip_field->size);
/*
* The first arg is the IP pointer.
*/
args = malloc_or_die(sizeof(*args));
arg = args;
arg->next = NULL;
next = &arg->next;
arg->type = PRINT_ATOM;
arg->atom.atom = malloc_or_die(32);
sprintf(arg->atom.atom, "%lld", ip);
/* skip the first "%pf : " */
for (ptr = fmt + 6, bptr = data + field->offset;
bptr < data + size && *ptr; ptr++) {
int ls = 0;
if (*ptr == '%') {
process_again:
ptr++;
switch (*ptr) {
case '%':
break;
case 'l':
ls++;
goto process_again;
case 'L':
ls = 2;
goto process_again;
case '0' ... '9':
goto process_again;
case 'p':
ls = 1;
/* fall through */
case 'd':
case 'u':
case 'x':
case 'i':
/* the pointers are always 4 bytes aligned */
bptr = (void *)(((unsigned long)bptr + 3) &
~3);
switch (ls) {
case 0:
case 1:
ls = long_size;
break;
case 2:
ls = 8;
default:
break;
}
val = read_size(bptr, ls);
bptr += ls;
arg = malloc_or_die(sizeof(*arg));
arg->next = NULL;
arg->type = PRINT_ATOM;
arg->atom.atom = malloc_or_die(32);
sprintf(arg->atom.atom, "%lld", val);
*next = arg;
next = &arg->next;
break;
case 's':
arg = malloc_or_die(sizeof(*arg));
arg->next = NULL;
arg->type = PRINT_STRING;
arg->string.string = strdup(bptr);
bptr += strlen(bptr) + 1;
*next = arg;
next = &arg->next;
default:
break;
}
}
}
return args;
}
static void free_args(struct print_arg *args)
{
struct print_arg *next;
while (args) {
next = args->next;
if (args->type == PRINT_ATOM)
free(args->atom.atom);
else
free(args->string.string);
free(args);
args = next;
}
}
static char *get_bprint_format(void *data, int size __unused, struct event *event)
{
unsigned long long addr;
static struct format_field *field;
struct printk_map *printk;
char *format;
char *p;
if (!field) {
field = find_field(event, "fmt");
if (!field)
die("can't find format field for binary printk");
printf("field->offset = %d size=%d\n", field->offset, field->size);
}
addr = read_size(data + field->offset, field->size);
printk = find_printk(addr);
if (!printk) {
format = malloc_or_die(45);
sprintf(format, "%%pf : (NO FORMAT FOUND at %llx)\n",
addr);
return format;
}
p = printk->printk;
/* Remove any quotes. */
if (*p == '"')
p++;
format = malloc_or_die(strlen(p) + 10);
sprintf(format, "%s : %s", "%pf", p);
/* remove ending quotes and new line since we will add one too */
p = format + strlen(format) - 1;
if (*p == '"')
*p = 0;
p -= 2;
if (strcmp(p, "\\n") == 0)
*p = 0;
return format;
}
static void pretty_print(void *data, int size, struct event *event)
{
struct print_fmt *print_fmt = &event->print_fmt;
struct print_arg *arg = print_fmt->args;
struct print_arg *args = NULL;
const char *ptr = print_fmt->format;
unsigned long long val;
struct func_map *func;
const char *saveptr;
char *bprint_fmt = NULL;
char format[32];
int show_func;
int len;
int ls;
if (event->flags & EVENT_FL_ISFUNC)
ptr = " %pF <-- %pF";
if (event->flags & EVENT_FL_ISBPRINT) {
bprint_fmt = get_bprint_format(data, size, event);
args = make_bprint_args(bprint_fmt, data, size, event);
arg = args;
ptr = bprint_fmt;
}
for (; *ptr; ptr++) {
ls = 0;
if (*ptr == '\\') {
ptr++;
switch (*ptr) {
case 'n':
printf("\n");
break;
case 't':
printf("\t");
break;
case 'r':
printf("\r");
break;
case '\\':
printf("\\");
break;
default:
printf("%c", *ptr);
break;
}
} else if (*ptr == '%') {
saveptr = ptr;
show_func = 0;
cont_process:
ptr++;
switch (*ptr) {
case '%':
printf("%%");
break;
case 'l':
ls++;
goto cont_process;
case 'L':
ls = 2;
goto cont_process;
case 'z':
case 'Z':
case '0' ... '9':
goto cont_process;
case 'p':
if (long_size == 4)
ls = 1;
else
ls = 2;
if (*(ptr+1) == 'F' ||
*(ptr+1) == 'f') {
ptr++;
show_func = *ptr;
}
/* fall through */
case 'd':
case 'i':
case 'x':
case 'X':
case 'u':
if (!arg)
die("no argument match");
len = ((unsigned long)ptr + 1) -
(unsigned long)saveptr;
/* should never happen */
if (len > 32)
die("bad format!");
memcpy(format, saveptr, len);
format[len] = 0;
val = eval_num_arg(data, size, event, arg);
arg = arg->next;
if (show_func) {
func = find_func(val);
if (func) {
printf("%s", func->func);
if (show_func == 'F')
printf("+0x%llx",
val - func->addr);
break;
}
}
switch (ls) {
case 0:
printf(format, (int)val);
break;
case 1:
printf(format, (long)val);
break;
case 2:
printf(format, (long long)val);
break;
default:
die("bad count (%d)", ls);
}
break;
case 's':
if (!arg)
die("no matching argument");
print_str_arg(data, size, event, arg);
arg = arg->next;
break;
default:
printf(">%c<", *ptr);
}
} else
printf("%c", *ptr);
}
if (args) {
free_args(args);
free(bprint_fmt);
}
}
static inline int log10_cpu(int nb)
{
if (nb / 100)
return 3;
if (nb / 10)
return 2;
return 1;
}
static void print_lat_fmt(void *data, int size __unused)
{
unsigned int lat_flags;
unsigned int pc;
int lock_depth;
int hardirq;
int softirq;
lat_flags = parse_common_flags(data);
pc = parse_common_pc(data);
lock_depth = parse_common_lock_depth(data);
hardirq = lat_flags & TRACE_FLAG_HARDIRQ;
softirq = lat_flags & TRACE_FLAG_SOFTIRQ;
printf("%c%c%c",
(lat_flags & TRACE_FLAG_IRQS_OFF) ? 'd' :
(lat_flags & TRACE_FLAG_IRQS_NOSUPPORT) ?
'X' : '.',
(lat_flags & TRACE_FLAG_NEED_RESCHED) ?
'N' : '.',
(hardirq && softirq) ? 'H' :
hardirq ? 'h' : softirq ? 's' : '.');
if (pc)
printf("%x", pc);
else
printf(".");
if (lock_depth < 0)
printf(".");
else
printf("%d", lock_depth);
}
/* taken from Linux, written by Frederic Weisbecker */
static void print_graph_cpu(int cpu)
{
int i;
int log10_this = log10_cpu(cpu);
int log10_all = log10_cpu(cpus);
/*
* Start with a space character - to make it stand out
* to the right a bit when trace output is pasted into
* email:
*/
printf(" ");
/*
* Tricky - we space the CPU field according to the max
* number of online CPUs. On a 2-cpu system it would take
* a maximum of 1 digit - on a 128 cpu system it would
* take up to 3 digits:
*/
for (i = 0; i < log10_all - log10_this; i++)
printf(" ");
printf("%d) ", cpu);
}
#define TRACE_GRAPH_PROCINFO_LENGTH 14
#define TRACE_GRAPH_INDENT 2
static void print_graph_proc(int pid, const char *comm)
{
/* sign + log10(MAX_INT) + '\0' */
char pid_str[11];
int spaces = 0;
int len;
int i;
sprintf(pid_str, "%d", pid);
/* 1 stands for the "-" character */
len = strlen(comm) + strlen(pid_str) + 1;
if (len < TRACE_GRAPH_PROCINFO_LENGTH)
spaces = TRACE_GRAPH_PROCINFO_LENGTH - len;
/* First spaces to align center */
for (i = 0; i < spaces / 2; i++)
printf(" ");
printf("%s-%s", comm, pid_str);
/* Last spaces to align center */
for (i = 0; i < spaces - (spaces / 2); i++)
printf(" ");
}
static struct record *
get_return_for_leaf(int cpu, int cur_pid, unsigned long long cur_func,
struct record *next)
{
struct format_field *field;
struct event *event;
unsigned long val;
int type;
int pid;
type = trace_parse_common_type(next->data);
event = trace_find_event(type);
if (!event)
return NULL;
if (!(event->flags & EVENT_FL_ISFUNCRET))
return NULL;
pid = trace_parse_common_pid(next->data);
field = find_field(event, "func");
if (!field)
die("function return does not have field func");
val = read_size(next->data + field->offset, field->size);
if (cur_pid != pid || cur_func != val)
return NULL;
/* this is a leaf, now advance the iterator */
return trace_read_data(cpu);
}
/* Signal a overhead of time execution to the output */
static void print_graph_overhead(unsigned long long duration)
{
/* Non nested entry or return */
if (duration == ~0ULL)
return (void)printf(" ");
/* Duration exceeded 100 msecs */
if (duration > 100000ULL)
return (void)printf("! ");
/* Duration exceeded 10 msecs */
if (duration > 10000ULL)
return (void)printf("+ ");
printf(" ");
}
static void print_graph_duration(unsigned long long duration)
{
unsigned long usecs = duration / 1000;
unsigned long nsecs_rem = duration % 1000;
/* log10(ULONG_MAX) + '\0' */
char msecs_str[21];
char nsecs_str[5];
int len;
int i;
sprintf(msecs_str, "%lu", usecs);
/* Print msecs */
len = printf("%lu", usecs);
/* Print nsecs (we don't want to exceed 7 numbers) */
if (len < 7) {
snprintf(nsecs_str, 8 - len, "%03lu", nsecs_rem);
len += printf(".%s", nsecs_str);
}
printf(" us ");
/* Print remaining spaces to fit the row's width */
for (i = len; i < 7; i++)
printf(" ");
printf("| ");
}
static void
print_graph_entry_leaf(struct event *event, void *data, struct record *ret_rec)
{
unsigned long long rettime, calltime;
unsigned long long duration, depth;
unsigned long long val;
struct format_field *field;
struct func_map *func;
struct event *ret_event;
int type;
int i;
type = trace_parse_common_type(ret_rec->data);
ret_event = trace_find_event(type);
field = find_field(ret_event, "rettime");
if (!field)
die("can't find rettime in return graph");
rettime = read_size(ret_rec->data + field->offset, field->size);
field = find_field(ret_event, "calltime");
if (!field)
die("can't find rettime in return graph");
calltime = read_size(ret_rec->data + field->offset, field->size);
duration = rettime - calltime;
/* Overhead */
print_graph_overhead(duration);
/* Duration */
print_graph_duration(duration);
field = find_field(event, "depth");
if (!field)
die("can't find depth in entry graph");
depth = read_size(data + field->offset, field->size);
/* Function */
for (i = 0; i < (int)(depth * TRACE_GRAPH_INDENT); i++)
printf(" ");
field = find_field(event, "func");
if (!field)
die("can't find func in entry graph");
val = read_size(data + field->offset, field->size);
func = find_func(val);
if (func)
printf("%s();", func->func);
else
printf("%llx();", val);
}
static void print_graph_nested(struct event *event, void *data)
{
struct format_field *field;
unsigned long long depth;
unsigned long long val;
struct func_map *func;
int i;
/* No overhead */
print_graph_overhead(-1);
/* No time */
printf(" | ");
field = find_field(event, "depth");
if (!field)
die("can't find depth in entry graph");
depth = read_size(data + field->offset, field->size);
/* Function */
for (i = 0; i < (int)(depth * TRACE_GRAPH_INDENT); i++)
printf(" ");
field = find_field(event, "func");
if (!field)
die("can't find func in entry graph");
val = read_size(data + field->offset, field->size);
func = find_func(val);
if (func)
printf("%s() {", func->func);
else
printf("%llx() {", val);
}
static void
pretty_print_func_ent(void *data, int size, struct event *event,
int cpu, int pid, const char *comm,
unsigned long secs, unsigned long usecs)
{
struct format_field *field;
struct record *rec;
void *copy_data;
unsigned long val;
printf("%5lu.%06lu | ", secs, usecs);
print_graph_cpu(cpu);
print_graph_proc(pid, comm);
printf(" | ");
if (latency_format) {
print_lat_fmt(data, size);
printf(" | ");
}
field = find_field(event, "func");
if (!field)
die("function entry does not have func field");
val = read_size(data + field->offset, field->size);
/*
* peek_data may unmap the data pointer. Copy it first.
*/
copy_data = malloc_or_die(size);
memcpy(copy_data, data, size);
data = copy_data;
rec = trace_peek_data(cpu);
if (rec) {
rec = get_return_for_leaf(cpu, pid, val, rec);
if (rec) {
print_graph_entry_leaf(event, data, rec);
goto out_free;
}
}
print_graph_nested(event, data);
out_free:
free(data);
}
static void
pretty_print_func_ret(void *data, int size __unused, struct event *event,
int cpu, int pid, const char *comm,
unsigned long secs, unsigned long usecs)
{
unsigned long long rettime, calltime;
unsigned long long duration, depth;
struct format_field *field;
int i;
printf("%5lu.%06lu | ", secs, usecs);
print_graph_cpu(cpu);
print_graph_proc(pid, comm);
printf(" | ");
if (latency_format) {
print_lat_fmt(data, size);
printf(" | ");
}
field = find_field(event, "rettime");
if (!field)
die("can't find rettime in return graph");
rettime = read_size(data + field->offset, field->size);
field = find_field(event, "calltime");
if (!field)
die("can't find calltime in return graph");
calltime = read_size(data + field->offset, field->size);
duration = rettime - calltime;
/* Overhead */
print_graph_overhead(duration);
/* Duration */
print_graph_duration(duration);
field = find_field(event, "depth");
if (!field)
die("can't find depth in entry graph");
depth = read_size(data + field->offset, field->size);
/* Function */
for (i = 0; i < (int)(depth * TRACE_GRAPH_INDENT); i++)
printf(" ");
printf("}");
}
static void
pretty_print_func_graph(void *data, int size, struct event *event,
int cpu, int pid, const char *comm,
unsigned long secs, unsigned long usecs)
{
if (event->flags & EVENT_FL_ISFUNCENT)
pretty_print_func_ent(data, size, event,
cpu, pid, comm, secs, usecs);
else if (event->flags & EVENT_FL_ISFUNCRET)
pretty_print_func_ret(data, size, event,
cpu, pid, comm, secs, usecs);
printf("\n");
}
void print_event(int cpu, void *data, int size, unsigned long long nsecs,
char *comm)
{
struct event *event;
unsigned long secs;
unsigned long usecs;
int type;
int pid;
secs = nsecs / NSECS_PER_SEC;
nsecs -= secs * NSECS_PER_SEC;
usecs = nsecs / NSECS_PER_USEC;
type = trace_parse_common_type(data);
event = trace_find_event(type);
if (!event) {
warning("ug! no event found for type %d", type);
return;
}
pid = trace_parse_common_pid(data);
if (event->flags & (EVENT_FL_ISFUNCENT | EVENT_FL_ISFUNCRET))
return pretty_print_func_graph(data, size, event, cpu,
pid, comm, secs, usecs);
if (latency_format) {
printf("%8.8s-%-5d %3d",
comm, pid, cpu);
print_lat_fmt(data, size);
} else
printf("%16s-%-5d [%03d]", comm, pid, cpu);
printf(" %5lu.%06lu: %s: ", secs, usecs, event->name);
if (event->flags & EVENT_FL_FAILED) {
printf("EVENT '%s' FAILED TO PARSE\n",
event->name);
return;
}
pretty_print(data, size, event);
printf("\n");
}
static void print_fields(struct print_flag_sym *field)
{
printf("{ %s, %s }", field->value, field->str);
if (field->next) {
printf(", ");
print_fields(field->next);
}
}
static void print_args(struct print_arg *args)
{
int print_paren = 1;
switch (args->type) {
case PRINT_NULL:
printf("null");
break;
case PRINT_ATOM:
printf("%s", args->atom.atom);
break;
case PRINT_FIELD:
printf("REC->%s", args->field.name);
break;
case PRINT_FLAGS:
printf("__print_flags(");
print_args(args->flags.field);
printf(", %s, ", args->flags.delim);
print_fields(args->flags.flags);
printf(")");
break;
case PRINT_SYMBOL:
printf("__print_symbolic(");
print_args(args->symbol.field);
printf(", ");
print_fields(args->symbol.symbols);
printf(")");
break;
case PRINT_STRING:
printf("__get_str(%s)", args->string.string);
break;
case PRINT_TYPE:
printf("(%s)", args->typecast.type);
print_args(args->typecast.item);
break;
case PRINT_OP:
if (strcmp(args->op.op, ":") == 0)
print_paren = 0;
if (print_paren)
printf("(");
print_args(args->op.left);
printf(" %s ", args->op.op);
print_args(args->op.right);
if (print_paren)
printf(")");
break;
default:
/* we should warn... */
return;
}
if (args->next) {
printf("\n");
print_args(args->next);
}
}
static void parse_header_field(const char *field,
int *offset, int *size)
{
char *token;
int type;
if (read_expected(EVENT_ITEM, "field") < 0)
return;
if (read_expected(EVENT_OP, ":") < 0)
return;
/* type */
if (read_expect_type(EVENT_ITEM, &token) < 0)
goto fail;
free_token(token);
if (read_expected(EVENT_ITEM, field) < 0)
return;
if (read_expected(EVENT_OP, ";") < 0)
return;
if (read_expected(EVENT_ITEM, "offset") < 0)
return;
if (read_expected(EVENT_OP, ":") < 0)
return;
if (read_expect_type(EVENT_ITEM, &token) < 0)
goto fail;
*offset = atoi(token);
free_token(token);
if (read_expected(EVENT_OP, ";") < 0)
return;
if (read_expected(EVENT_ITEM, "size") < 0)
return;
if (read_expected(EVENT_OP, ":") < 0)
return;
if (read_expect_type(EVENT_ITEM, &token) < 0)
goto fail;
*size = atoi(token);
free_token(token);
if (read_expected(EVENT_OP, ";") < 0)
return;
type = read_token(&token);
if (type != EVENT_NEWLINE) {
/* newer versions of the kernel have a "signed" type */
if (type != EVENT_ITEM)
goto fail;
if (strcmp(token, "signed") != 0)
goto fail;
free_token(token);
if (read_expected(EVENT_OP, ":") < 0)
return;
if (read_expect_type(EVENT_ITEM, &token))
goto fail;
free_token(token);
if (read_expected(EVENT_OP, ";") < 0)
return;
if (read_expect_type(EVENT_NEWLINE, &token))
goto fail;
}
fail:
free_token(token);
}
int parse_header_page(char *buf, unsigned long size)
{
init_input_buf(buf, size);
parse_header_field("timestamp", &header_page_ts_offset,
&header_page_ts_size);
parse_header_field("commit", &header_page_size_offset,
&header_page_size_size);
parse_header_field("data", &header_page_data_offset,
&header_page_data_size);
return 0;
}
int parse_ftrace_file(char *buf, unsigned long size)
{
struct format_field *field;
struct print_arg *arg, **list;
struct event *event;
int ret;
init_input_buf(buf, size);
event = alloc_event();
if (!event)
return -ENOMEM;
event->flags |= EVENT_FL_ISFTRACE;
event->name = event_read_name();
if (!event->name)
die("failed to read ftrace event name");
if (strcmp(event->name, "function") == 0)
event->flags |= EVENT_FL_ISFUNC;
else if (strcmp(event->name, "funcgraph_entry") == 0)
event->flags |= EVENT_FL_ISFUNCENT;
else if (strcmp(event->name, "funcgraph_exit") == 0)
event->flags |= EVENT_FL_ISFUNCRET;
else if (strcmp(event->name, "bprint") == 0)
event->flags |= EVENT_FL_ISBPRINT;
event->id = event_read_id();
if (event->id < 0)
die("failed to read ftrace event id");
add_event(event);
ret = event_read_format(event);
if (ret < 0)
die("failed to read ftrace event format");
ret = event_read_print(event);
if (ret < 0)
die("failed to read ftrace event print fmt");
/* New ftrace handles args */
if (ret > 0)
return 0;
/*
* The arguments for ftrace files are parsed by the fields.
* Set up the fields as their arguments.
*/
list = &event->print_fmt.args;
for (field = event->format.fields; field; field = field->next) {
arg = malloc_or_die(sizeof(*arg));
memset(arg, 0, sizeof(*arg));
*list = arg;
list = &arg->next;
arg->type = PRINT_FIELD;
arg->field.name = field->name;
arg->field.field = field;
}
return 0;
}
int parse_event_file(char *buf, unsigned long size, char *sys)
{
struct event *event;
int ret;
init_input_buf(buf, size);
event = alloc_event();
if (!event)
return -ENOMEM;
event->name = event_read_name();
if (!event->name)
die("failed to read event name");
event->id = event_read_id();
if (event->id < 0)
die("failed to read event id");
ret = event_read_format(event);
if (ret < 0) {
warning("failed to read event format for %s", event->name);
goto event_failed;
}
ret = event_read_print(event);
if (ret < 0) {
warning("failed to read event print fmt for %s", event->name);
goto event_failed;
}
event->system = strdup(sys);
#define PRINT_ARGS 0
if (PRINT_ARGS && event->print_fmt.args)
print_args(event->print_fmt.args);
add_event(event);
return 0;
event_failed:
event->flags |= EVENT_FL_FAILED;
/* still add it even if it failed */
add_event(event);
return -1;
}
void parse_set_info(int nr_cpus, int long_sz)
{
cpus = nr_cpus;
long_size = long_sz;
}