mirror of
https://github.com/torvalds/linux.git
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2fda5ada07
This simply adds the field to 'struct perf_evsel' and allows setting it via the event parser, to test it lets trace trace: First look at where in a function that receives an evsel we can put a probe to read how evsel->max_events was setup: # perf probe -x ~/bin/perf -L trace__event_handler <trace__event_handler@/home/acme/git/perf/tools/perf/builtin-trace.c:0> 0 static int trace__event_handler(struct trace *trace, struct perf_evsel *evsel, union perf_event *event __maybe_unused, struct perf_sample *sample) 3 { 4 struct thread *thread = machine__findnew_thread(trace->host, sample->pid, sample->tid); 5 int callchain_ret = 0; 7 if (sample->callchain) { 8 callchain_ret = trace__resolve_callchain(trace, evsel, sample, &callchain_cursor); 9 if (callchain_ret == 0) { 10 if (callchain_cursor.nr < trace->min_stack) 11 goto out; 12 callchain_ret = 1; } } See what variables we can probe at line 7: # perf probe -x ~/bin/perf -V trace__event_handler:7 Available variables at trace__event_handler:7 @<trace__event_handler+89> int callchain_ret struct perf_evsel* evsel struct perf_sample* sample struct thread* thread struct trace* trace union perf_event* event Add a probe at that line asking for evsel->max_events to be collected and named as "max_events": # perf probe -x ~/bin/perf trace__event_handler:7 'max_events=evsel->max_events' Added new event: probe_perf:trace__event_handler (on trace__event_handler:7 in /home/acme/bin/perf with max_events=evsel->max_events) You can now use it in all perf tools, such as: perf record -e probe_perf:trace__event_handler -aR sleep 1 Now use 'perf trace', here aliased to just 'trace' and trace trace, i.e. the first 'trace' is tracing just that 'probe_perf:trace__event_handler' event, while the traced trace is tracing all scheduler tracepoints, will stop at two events (--max-events 2) and will just set evsel->max_events for all the sched tracepoints to 9, we will see the output of both traces intermixed: # trace -e *perf:*event_handler trace --max-events 2 -e sched:*/nr=9/ 0.000 :0/0 sched:sched_waking:comm=rcu_sched pid=10 prio=120 target_cpu=000 0.009 :0/0 sched:sched_wakeup:comm=rcu_sched pid=10 prio=120 target_cpu=000 0.000 trace/23949 probe_perf:trace__event_handler:(48c34a) max_events=0x9 0.046 trace/23949 probe_perf:trace__event_handler:(48c34a) max_events=0x9 # Now, if the traced trace sends its output to /dev/null, we'll see just what the first level trace outputs: that evsel->max_events is indeed being set to 9: # trace -e *perf:*event_handler trace -o /dev/null --max-events 2 -e sched:*/nr=9/ 0.000 trace/23961 probe_perf:trace__event_handler:(48c34a) max_events=0x9 0.030 trace/23961 probe_perf:trace__event_handler:(48c34a) max_events=0x9 # Now that we can set evsel->max_events, we can go to the next step, honour that per-event property in 'perf trace'. Cc: Adrian Hunter <adrian.hunter@intel.com> Cc: David Ahern <dsahern@gmail.com> Cc: Jiri Olsa <jolsa@kernel.org> Cc: Milian Wolff <milian.wolff@kdab.com> Cc: Namhyung Kim <namhyung@kernel.org> Cc: Wang Nan <wangnan0@huawei.com> Link: https://lkml.kernel.org/n/tip-og00yasj276joem6e14l1eas@git.kernel.org Signed-off-by: Arnaldo Carvalho de Melo <acme@redhat.com>
380 lines
11 KiB
Plaintext
380 lines
11 KiB
Plaintext
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%option reentrant
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%option bison-bridge
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%option prefix="parse_events_"
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%option stack
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%option bison-locations
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%option yylineno
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%option reject
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%{
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#include <errno.h>
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#include <sys/types.h>
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#include <sys/stat.h>
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#include <unistd.h>
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#include "../perf.h"
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#include "parse-events.h"
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#include "parse-events-bison.h"
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char *parse_events_get_text(yyscan_t yyscanner);
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YYSTYPE *parse_events_get_lval(yyscan_t yyscanner);
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static int __value(YYSTYPE *yylval, char *str, int base, int token)
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{
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u64 num;
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errno = 0;
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num = strtoull(str, NULL, base);
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if (errno)
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return PE_ERROR;
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yylval->num = num;
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return token;
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}
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static int value(yyscan_t scanner, int base)
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{
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YYSTYPE *yylval = parse_events_get_lval(scanner);
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char *text = parse_events_get_text(scanner);
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return __value(yylval, text, base, PE_VALUE);
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}
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static int raw(yyscan_t scanner)
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{
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YYSTYPE *yylval = parse_events_get_lval(scanner);
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char *text = parse_events_get_text(scanner);
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return __value(yylval, text + 1, 16, PE_RAW);
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}
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static int str(yyscan_t scanner, int token)
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{
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YYSTYPE *yylval = parse_events_get_lval(scanner);
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char *text = parse_events_get_text(scanner);
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if (text[0] != '\'') {
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yylval->str = strdup(text);
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} else {
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/*
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* If a text tag specified on the command line
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* contains opening single quite ' then it is
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* expected that the tag ends with single quote
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* as well, like this:
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* name=\'CPU_CLK_UNHALTED.THREAD:cmask=1\'
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* quotes need to be escaped to bypass shell
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* processing.
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*/
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yylval->str = strndup(&text[1], strlen(text) - 2);
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}
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return token;
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}
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static bool isbpf_suffix(char *text)
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{
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int len = strlen(text);
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if (len < 2)
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return false;
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if ((text[len - 1] == 'c' || text[len - 1] == 'o') &&
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text[len - 2] == '.')
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return true;
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if (len > 4 && !strcmp(text + len - 4, ".obj"))
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return true;
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return false;
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}
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static bool isbpf(yyscan_t scanner)
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{
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char *text = parse_events_get_text(scanner);
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struct stat st;
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if (!isbpf_suffix(text))
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return false;
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return stat(text, &st) == 0;
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}
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/*
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* This function is called when the parser gets two kind of input:
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*
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* @cfg1 or @cfg2=config
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*
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* The leading '@' is stripped off before 'cfg1' and 'cfg2=config' are given to
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* bison. In the latter case it is necessary to keep the string intact so that
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* the PMU kernel driver can determine what configurable is associated to
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* 'config'.
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*/
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static int drv_str(yyscan_t scanner, int token)
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{
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YYSTYPE *yylval = parse_events_get_lval(scanner);
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char *text = parse_events_get_text(scanner);
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/* Strip off the '@' */
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yylval->str = strdup(text + 1);
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return token;
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}
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#define REWIND(__alloc) \
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do { \
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YYSTYPE *__yylval = parse_events_get_lval(yyscanner); \
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char *text = parse_events_get_text(yyscanner); \
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\
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if (__alloc) \
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__yylval->str = strdup(text); \
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\
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yycolumn -= strlen(text); \
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yyless(0); \
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} while (0)
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static int pmu_str_check(yyscan_t scanner)
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{
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YYSTYPE *yylval = parse_events_get_lval(scanner);
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char *text = parse_events_get_text(scanner);
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yylval->str = strdup(text);
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switch (perf_pmu__parse_check(text)) {
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case PMU_EVENT_SYMBOL_PREFIX:
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return PE_PMU_EVENT_PRE;
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case PMU_EVENT_SYMBOL_SUFFIX:
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return PE_PMU_EVENT_SUF;
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case PMU_EVENT_SYMBOL:
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return PE_KERNEL_PMU_EVENT;
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default:
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return PE_NAME;
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}
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}
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static int sym(yyscan_t scanner, int type, int config)
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{
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YYSTYPE *yylval = parse_events_get_lval(scanner);
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yylval->num = (type << 16) + config;
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return type == PERF_TYPE_HARDWARE ? PE_VALUE_SYM_HW : PE_VALUE_SYM_SW;
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}
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static int term(yyscan_t scanner, int type)
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{
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YYSTYPE *yylval = parse_events_get_lval(scanner);
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yylval->num = type;
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return PE_TERM;
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}
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#define YY_USER_ACTION \
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do { \
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yylloc->last_column = yylloc->first_column; \
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yylloc->first_column = yycolumn; \
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yycolumn += yyleng; \
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} while (0);
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#define USER_REJECT \
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yycolumn -= yyleng; \
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REJECT
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%}
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%x mem
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%s config
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%x event
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%x array
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group [^,{}/]*[{][^}]*[}][^,{}/]*
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event_pmu [^,{}/]+[/][^/]*[/][^,{}/]*
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event [^,{}/]+
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bpf_object [^,{}]+\.(o|bpf)[a-zA-Z0-9._]*
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bpf_source [^,{}]+\.c[a-zA-Z0-9._]*
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num_dec [0-9]+
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num_hex 0x[a-fA-F0-9]+
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num_raw_hex [a-fA-F0-9]+
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name [a-zA-Z_*?\[\]][a-zA-Z0-9_*?.\[\]]*
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name_tag [\'][a-zA-Z_*?\[\]][a-zA-Z0-9_*?\-,\.\[\]:=]*[\']
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name_minus [a-zA-Z_*?][a-zA-Z0-9\-_*?.:]*
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drv_cfg_term [a-zA-Z0-9_\.]+(=[a-zA-Z0-9_*?\.:]+)?
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/* If you add a modifier you need to update check_modifier() */
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modifier_event [ukhpPGHSDIW]+
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modifier_bp [rwx]{1,3}
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%%
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%{
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{
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int start_token;
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start_token = parse_events_get_extra(yyscanner);
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if (start_token == PE_START_TERMS)
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BEGIN(config);
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else if (start_token == PE_START_EVENTS)
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BEGIN(event);
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if (start_token) {
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parse_events_set_extra(NULL, yyscanner);
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/*
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* The flex parser does not init locations variable
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* via the scan_string interface, so we need do the
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* init in here.
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*/
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yycolumn = 0;
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return start_token;
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}
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}
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%}
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<event>{
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{group} {
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BEGIN(INITIAL);
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REWIND(0);
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}
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{event_pmu} |
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{bpf_object} |
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{bpf_source} |
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{event} {
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BEGIN(INITIAL);
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REWIND(1);
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return PE_EVENT_NAME;
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}
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<<EOF>> {
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BEGIN(INITIAL);
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REWIND(0);
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}
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}
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<array>{
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"]" { BEGIN(config); return ']'; }
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{num_dec} { return value(yyscanner, 10); }
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{num_hex} { return value(yyscanner, 16); }
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, { return ','; }
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"\.\.\." { return PE_ARRAY_RANGE; }
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}
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<config>{
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/*
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* Please update config_term_names when new static term is added.
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*/
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config { return term(yyscanner, PARSE_EVENTS__TERM_TYPE_CONFIG); }
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config1 { return term(yyscanner, PARSE_EVENTS__TERM_TYPE_CONFIG1); }
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config2 { return term(yyscanner, PARSE_EVENTS__TERM_TYPE_CONFIG2); }
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name { return term(yyscanner, PARSE_EVENTS__TERM_TYPE_NAME); }
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period { return term(yyscanner, PARSE_EVENTS__TERM_TYPE_SAMPLE_PERIOD); }
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freq { return term(yyscanner, PARSE_EVENTS__TERM_TYPE_SAMPLE_FREQ); }
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branch_type { return term(yyscanner, PARSE_EVENTS__TERM_TYPE_BRANCH_SAMPLE_TYPE); }
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time { return term(yyscanner, PARSE_EVENTS__TERM_TYPE_TIME); }
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call-graph { return term(yyscanner, PARSE_EVENTS__TERM_TYPE_CALLGRAPH); }
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stack-size { return term(yyscanner, PARSE_EVENTS__TERM_TYPE_STACKSIZE); }
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max-stack { return term(yyscanner, PARSE_EVENTS__TERM_TYPE_MAX_STACK); }
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nr { return term(yyscanner, PARSE_EVENTS__TERM_TYPE_MAX_EVENTS); }
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inherit { return term(yyscanner, PARSE_EVENTS__TERM_TYPE_INHERIT); }
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no-inherit { return term(yyscanner, PARSE_EVENTS__TERM_TYPE_NOINHERIT); }
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overwrite { return term(yyscanner, PARSE_EVENTS__TERM_TYPE_OVERWRITE); }
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no-overwrite { return term(yyscanner, PARSE_EVENTS__TERM_TYPE_NOOVERWRITE); }
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, { return ','; }
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"/" { BEGIN(INITIAL); return '/'; }
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{name_minus} { return str(yyscanner, PE_NAME); }
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\[all\] { return PE_ARRAY_ALL; }
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"[" { BEGIN(array); return '['; }
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@{drv_cfg_term} { return drv_str(yyscanner, PE_DRV_CFG_TERM); }
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}
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<mem>{
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{modifier_bp} { return str(yyscanner, PE_MODIFIER_BP); }
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: { return ':'; }
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"/" { return '/'; }
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{num_dec} { return value(yyscanner, 10); }
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{num_hex} { return value(yyscanner, 16); }
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/*
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* We need to separate 'mem:' scanner part, in order to get specific
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* modifier bits parsed out. Otherwise we would need to handle PE_NAME
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* and we'd need to parse it manually. During the escape from <mem>
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* state we need to put the escaping char back, so we dont miss it.
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*/
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. { unput(*yytext); BEGIN(INITIAL); }
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/*
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* We destroy the scanner after reaching EOF,
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* but anyway just to be sure get back to INIT state.
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*/
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<<EOF>> { BEGIN(INITIAL); }
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}
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cpu-cycles|cycles { return sym(yyscanner, PERF_TYPE_HARDWARE, PERF_COUNT_HW_CPU_CYCLES); }
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stalled-cycles-frontend|idle-cycles-frontend { return sym(yyscanner, PERF_TYPE_HARDWARE, PERF_COUNT_HW_STALLED_CYCLES_FRONTEND); }
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stalled-cycles-backend|idle-cycles-backend { return sym(yyscanner, PERF_TYPE_HARDWARE, PERF_COUNT_HW_STALLED_CYCLES_BACKEND); }
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instructions { return sym(yyscanner, PERF_TYPE_HARDWARE, PERF_COUNT_HW_INSTRUCTIONS); }
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cache-references { return sym(yyscanner, PERF_TYPE_HARDWARE, PERF_COUNT_HW_CACHE_REFERENCES); }
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cache-misses { return sym(yyscanner, PERF_TYPE_HARDWARE, PERF_COUNT_HW_CACHE_MISSES); }
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branch-instructions|branches { return sym(yyscanner, PERF_TYPE_HARDWARE, PERF_COUNT_HW_BRANCH_INSTRUCTIONS); }
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branch-misses { return sym(yyscanner, PERF_TYPE_HARDWARE, PERF_COUNT_HW_BRANCH_MISSES); }
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bus-cycles { return sym(yyscanner, PERF_TYPE_HARDWARE, PERF_COUNT_HW_BUS_CYCLES); }
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ref-cycles { return sym(yyscanner, PERF_TYPE_HARDWARE, PERF_COUNT_HW_REF_CPU_CYCLES); }
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cpu-clock { return sym(yyscanner, PERF_TYPE_SOFTWARE, PERF_COUNT_SW_CPU_CLOCK); }
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task-clock { return sym(yyscanner, PERF_TYPE_SOFTWARE, PERF_COUNT_SW_TASK_CLOCK); }
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page-faults|faults { return sym(yyscanner, PERF_TYPE_SOFTWARE, PERF_COUNT_SW_PAGE_FAULTS); }
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minor-faults { return sym(yyscanner, PERF_TYPE_SOFTWARE, PERF_COUNT_SW_PAGE_FAULTS_MIN); }
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major-faults { return sym(yyscanner, PERF_TYPE_SOFTWARE, PERF_COUNT_SW_PAGE_FAULTS_MAJ); }
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context-switches|cs { return sym(yyscanner, PERF_TYPE_SOFTWARE, PERF_COUNT_SW_CONTEXT_SWITCHES); }
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cpu-migrations|migrations { return sym(yyscanner, PERF_TYPE_SOFTWARE, PERF_COUNT_SW_CPU_MIGRATIONS); }
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alignment-faults { return sym(yyscanner, PERF_TYPE_SOFTWARE, PERF_COUNT_SW_ALIGNMENT_FAULTS); }
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emulation-faults { return sym(yyscanner, PERF_TYPE_SOFTWARE, PERF_COUNT_SW_EMULATION_FAULTS); }
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dummy { return sym(yyscanner, PERF_TYPE_SOFTWARE, PERF_COUNT_SW_DUMMY); }
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duration_time { return sym(yyscanner, PERF_TYPE_SOFTWARE, PERF_COUNT_SW_DUMMY); }
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bpf-output { return sym(yyscanner, PERF_TYPE_SOFTWARE, PERF_COUNT_SW_BPF_OUTPUT); }
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/*
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* We have to handle the kernel PMU event cycles-ct/cycles-t/mem-loads/mem-stores separately.
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* Because the prefix cycles is mixed up with cpu-cycles.
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* loads and stores are mixed up with cache event
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*/
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cycles-ct { return str(yyscanner, PE_KERNEL_PMU_EVENT); }
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cycles-t { return str(yyscanner, PE_KERNEL_PMU_EVENT); }
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mem-loads { return str(yyscanner, PE_KERNEL_PMU_EVENT); }
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mem-stores { return str(yyscanner, PE_KERNEL_PMU_EVENT); }
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topdown-[a-z-]+ { return str(yyscanner, PE_KERNEL_PMU_EVENT); }
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L1-dcache|l1-d|l1d|L1-data |
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L1-icache|l1-i|l1i|L1-instruction |
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LLC|L2 |
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dTLB|d-tlb|Data-TLB |
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iTLB|i-tlb|Instruction-TLB |
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branch|branches|bpu|btb|bpc |
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node { return str(yyscanner, PE_NAME_CACHE_TYPE); }
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load|loads|read |
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store|stores|write |
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prefetch|prefetches |
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speculative-read|speculative-load |
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refs|Reference|ops|access |
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misses|miss { return str(yyscanner, PE_NAME_CACHE_OP_RESULT); }
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mem: { BEGIN(mem); return PE_PREFIX_MEM; }
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r{num_raw_hex} { return raw(yyscanner); }
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{num_dec} { return value(yyscanner, 10); }
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{num_hex} { return value(yyscanner, 16); }
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{modifier_event} { return str(yyscanner, PE_MODIFIER_EVENT); }
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{bpf_object} { if (!isbpf(yyscanner)) { USER_REJECT }; return str(yyscanner, PE_BPF_OBJECT); }
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{bpf_source} { if (!isbpf(yyscanner)) { USER_REJECT }; return str(yyscanner, PE_BPF_SOURCE); }
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{name} { return pmu_str_check(yyscanner); }
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{name_tag} { return str(yyscanner, PE_NAME); }
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"/" { BEGIN(config); return '/'; }
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- { return '-'; }
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, { BEGIN(event); return ','; }
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: { return ':'; }
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"{" { BEGIN(event); return '{'; }
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"}" { return '}'; }
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= { return '='; }
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\n { }
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. { }
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%%
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int parse_events_wrap(void *scanner __maybe_unused)
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{
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return 1;
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}
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