// SPDX-License-Identifier: GPL-2.0
#include <stdio.h>
#include <string.h>
#include <stdbool.h>
#include <stdint.h>
#include <sys/mman.h>
#include <unistd.h>
#include <sdt.h>
#ifndef MADV_POPULATE_READ
#define MADV_POPULATE_READ 22
#endif
int __attribute__((weak)) uprobe(void)
{
return 0;
}
#define __PASTE(a, b) a##b
#define PASTE(a, b) __PASTE(a, b)
#define NAME(name, idx) PASTE(name, idx)
#define DEF(name, idx) int __attribute__((weak)) NAME(name, idx)(void) { return 0; }
#define CALL(name, idx) NAME(name, idx)();
#define F(body, name, idx) body(name, idx)
#define F10(body, name, idx) \
F(body, PASTE(name, idx), 0) F(body, PASTE(name, idx), 1) F(body, PASTE(name, idx), 2) \
F(body, PASTE(name, idx), 3) F(body, PASTE(name, idx), 4) F(body, PASTE(name, idx), 5) \
F(body, PASTE(name, idx), 6) F(body, PASTE(name, idx), 7) F(body, PASTE(name, idx), 8) \
F(body, PASTE(name, idx), 9)
#define F100(body, name, idx) \
F10(body, PASTE(name, idx), 0) F10(body, PASTE(name, idx), 1) F10(body, PASTE(name, idx), 2) \
F10(body, PASTE(name, idx), 3) F10(body, PASTE(name, idx), 4) F10(body, PASTE(name, idx), 5) \
F10(body, PASTE(name, idx), 6) F10(body, PASTE(name, idx), 7) F10(body, PASTE(name, idx), 8) \
F10(body, PASTE(name, idx), 9)
#define F1000(body, name, idx) \
F100(body, PASTE(name, idx), 0) F100(body, PASTE(name, idx), 1) F100(body, PASTE(name, idx), 2) \
F100(body, PASTE(name, idx), 3) F100(body, PASTE(name, idx), 4) F100(body, PASTE(name, idx), 5) \
F100(body, PASTE(name, idx), 6) F100(body, PASTE(name, idx), 7) F100(body, PASTE(name, idx), 8) \
F100(body, PASTE(name, idx), 9)
#define F10000(body, name, idx) \
F1000(body, PASTE(name, idx), 0) F1000(body, PASTE(name, idx), 1) F1000(body, PASTE(name, idx), 2) \
F1000(body, PASTE(name, idx), 3) F1000(body, PASTE(name, idx), 4) F1000(body, PASTE(name, idx), 5) \
F1000(body, PASTE(name, idx), 6) F1000(body, PASTE(name, idx), 7) F1000(body, PASTE(name, idx), 8) \
F1000(body, PASTE(name, idx), 9)
F10000(DEF, uprobe_multi_func_, 0)
F10000(DEF, uprobe_multi_func_, 1)
F10000(DEF, uprobe_multi_func_, 2)
F10000(DEF, uprobe_multi_func_, 3)
F10000(DEF, uprobe_multi_func_, 4)
static int bench(void)
{
F10000(CALL, uprobe_multi_func_, 0)
F10000(CALL, uprobe_multi_func_, 1)
F10000(CALL, uprobe_multi_func_, 2)
F10000(CALL, uprobe_multi_func_, 3)
F10000(CALL, uprobe_multi_func_, 4)
return 0;
}
#define PROBE STAP_PROBE(test, usdt);
#define PROBE10 PROBE PROBE PROBE PROBE PROBE \
PROBE PROBE PROBE PROBE PROBE
#define PROBE100 PROBE10 PROBE10 PROBE10 PROBE10 PROBE10 \
PROBE10 PROBE10 PROBE10 PROBE10 PROBE10
#define PROBE1000 PROBE100 PROBE100 PROBE100 PROBE100 PROBE100 \
PROBE100 PROBE100 PROBE100 PROBE100 PROBE100
#define PROBE10000 PROBE1000 PROBE1000 PROBE1000 PROBE1000 PROBE1000 \
PROBE1000 PROBE1000 PROBE1000 PROBE1000 PROBE1000
static int usdt(void)
{
PROBE10000
PROBE10000
PROBE10000
PROBE10000
PROBE10000
return 0;
}
extern char build_id_start[];
extern char build_id_end[];
int __attribute__((weak)) trigger_uprobe(bool build_id_resident)
{
int page_sz = sysconf(_SC_PAGESIZE);
void *addr;
/* page-align build ID start */
addr = (void *)((uintptr_t)&build_id_start & ~(page_sz - 1));
/* to guarantee MADV_PAGEOUT work reliably, we need to ensure that
* memory range is mapped into current process, so we unconditionally
* do MADV_POPULATE_READ, and then MADV_PAGEOUT, if necessary
*/
madvise(addr, page_sz, MADV_POPULATE_READ);
if (!build_id_resident)
madvise(addr, page_sz, MADV_PAGEOUT);
(void)uprobe();
return 0;
}
int main(int argc, char **argv)
{
if (argc != 2)
goto error;
if (!strcmp("bench", argv[1]))
return bench();
if (!strcmp("usdt", argv[1]))
return usdt();
if (!strcmp("uprobe-paged-out", argv[1]))
return trigger_uprobe(false /* page-out build ID */);
if (!strcmp("uprobe-paged-in", argv[1]))
return trigger_uprobe(true /* page-in build ID */);
error:
fprintf(stderr, "usage: %s <bench|usdt>\n", argv[0]);
return -1;
}