tools/testing/selftests/bpf/progs/netif_receive_skb.c - linux - Git at Google

 // SPDX-License-Identifier: GPL-2.0
 /* Copyright (c) 2020, Oracle and/or its affiliates. */

 #include "btf_ptr.h"
 #include <bpf/bpf_helpers.h>
 #include <bpf/bpf_tracing.h>
 #include <bpf/bpf_core_read.h>

 #include <errno.h>

 long ret = 0;
 int num_subtests = 0;
 int ran_subtests = 0;
 bool skip = false;

 #define STRSIZE			2048
 #define EXPECTED_STRSIZE	256

 #if defined(bpf_target_s390)
 /* NULL points to a readable struct lowcore on s390, so take the last page */
 #define BADPTR			((void *)0xFFFFFFFFFFFFF000ULL)
 #else
 #define BADPTR			0
 #endif

 #ifndef ARRAY_SIZE
 #define ARRAY_SIZE(x)	(sizeof(x) / sizeof((x)[0]))
 #endif

 struct {
 	__uint(type, BPF_MAP_TYPE_PERCPU_ARRAY);
 	__uint(max_entries, 1);
 	__type(key, __u32);
 	__type(value, char[STRSIZE]);
 } strdata SEC(".maps");

 static int __strncmp(const void *m1, const void *m2, size_t len)
 {
 	const unsigned char *s1 = m1;
 	const unsigned char *s2 = m2;
 	int i, delta = 0;

 	for (i = 0; i < len; i++) {
 		delta = s1[i] - s2[i];
 		if (delta || s1[i] == 0 || s2[i] == 0)
 			break;
 	}
 	return delta;
 }

 #if __has_builtin(__builtin_btf_type_id)
 #define	TEST_BTF(_str, _type, _flags, _expected, ...)			\
 	do {								\
 		static const char _expectedval[EXPECTED_STRSIZE] =	\
 							_expected;	\
 		static const char _ptrtype[64] = #_type;		\
 		__u64 _hflags = _flags | BTF_F_COMPACT;			\
 		static _type _ptrdata = __VA_ARGS__;			\
 		static struct btf_ptr _ptr = { };			\
 		int _cmp;						\
 									\
 		++num_subtests;						\
 		if (ret < 0)						\
 			break;						\
 		++ran_subtests;						\
 		_ptr.ptr = &_ptrdata;					\
 		_ptr.type_id = bpf_core_type_id_kernel(_type);		\
 		if (_ptr.type_id <= 0) {				\
 			ret = -EINVAL;					\
 			break;						\
 		}							\
 		ret = bpf_snprintf_btf(_str, STRSIZE,			\
 				       &_ptr, sizeof(_ptr), _hflags);	\
 		if (ret)						\
 			break;						\
 		_cmp = __strncmp(_str, _expectedval, EXPECTED_STRSIZE);	\
 		if (_cmp != 0) {					\
 			bpf_printk("(%d) got %s", _cmp, _str);		\
 			bpf_printk("(%d) expected %s", _cmp,		\
 				   _expectedval);			\
 			ret = -EBADMSG;					\
 			break;						\
 		}							\
 	} while (0)
 #endif

 /* Use where expected data string matches its stringified declaration */
 #define TEST_BTF_C(_str, _type, _flags, ...)				\
 	TEST_BTF(_str, _type, _flags, "(" #_type ")" #__VA_ARGS__,	\
 		 __VA_ARGS__)

 /* TRACE_EVENT(netif_receive_skb,
  *	TP_PROTO(struct sk_buff *skb),
  */
 SEC("tp_btf/netif_receive_skb")
 int BPF_PROG(trace_netif_receive_skb, struct sk_buff *skb)
 {
 	static __u64 flags[] = { 0, BTF_F_COMPACT, BTF_F_ZERO, BTF_F_PTR_RAW,
 				 BTF_F_NONAME, BTF_F_COMPACT | BTF_F_ZERO |
 				 BTF_F_PTR_RAW | BTF_F_NONAME };
 	static struct btf_ptr p = { };
 	__u32 key = 0;
 	int i, __ret;
 	char *str;

 #if __has_builtin(__builtin_btf_type_id)
 	str = bpf_map_lookup_elem(&strdata, &key);
 	if (!str)
 		return 0;

 	/* Ensure we can write skb string representation */
 	p.type_id = bpf_core_type_id_kernel(struct sk_buff);
 	p.ptr = skb;
 	for (i = 0; i < ARRAY_SIZE(flags); i++) {
 		++num_subtests;
 		ret = bpf_snprintf_btf(str, STRSIZE, &p, sizeof(p), 0);
 		if (ret < 0)
 			bpf_printk("returned %d when writing skb", ret);
 		++ran_subtests;
 	}

 	/* Check invalid ptr value */
 	p.ptr = BADPTR;
 	__ret = bpf_snprintf_btf(str, STRSIZE, &p, sizeof(p), 0);
 	if (__ret >= 0) {
 		bpf_printk("printing %llx should generate error, got (%d)",
 			   (unsigned long long)BADPTR, __ret);
 		ret = -ERANGE;
 	}

 	/* Verify type display for various types. */

 	/* simple int */
 	TEST_BTF_C(str, int, 0, 1234);
 	TEST_BTF(str, int, BTF_F_NONAME, "1234", 1234);
 	/* zero value should be printed at toplevel */
 	TEST_BTF(str, int, 0, "(int)0", 0);
 	TEST_BTF(str, int, BTF_F_NONAME, "0", 0);
 	TEST_BTF(str, int, BTF_F_ZERO, "(int)0", 0);
 	TEST_BTF(str, int, BTF_F_NONAME | BTF_F_ZERO, "0", 0);
 	TEST_BTF_C(str, int, 0, -4567);
 	TEST_BTF(str, int, BTF_F_NONAME, "-4567", -4567);

 	/* simple char */
 	TEST_BTF_C(str, char, 0, 100);
 	TEST_BTF(str, char, BTF_F_NONAME, "100", 100);
 	/* zero value should be printed at toplevel */
 	TEST_BTF(str, char, 0, "(char)0", 0);
 	TEST_BTF(str, char, BTF_F_NONAME, "0", 0);
 	TEST_BTF(str, char, BTF_F_ZERO, "(char)0", 0);
 	TEST_BTF(str, char, BTF_F_NONAME | BTF_F_ZERO, "0", 0);

 	/* simple typedef */
 	TEST_BTF_C(str, uint64_t, 0, 100);
 	TEST_BTF(str, u64, BTF_F_NONAME, "1", 1);
 	/* zero value should be printed at toplevel */
 	TEST_BTF(str, u64, 0, "(u64)0", 0);
 	TEST_BTF(str, u64, BTF_F_NONAME, "0", 0);
 	TEST_BTF(str, u64, BTF_F_ZERO, "(u64)0", 0);
 	TEST_BTF(str, u64, BTF_F_NONAME|BTF_F_ZERO, "0", 0);

 	/* typedef struct */
 	TEST_BTF_C(str, atomic_t, 0, {.counter = (int)1,});
 	TEST_BTF(str, atomic_t, BTF_F_NONAME, "{1,}", {.counter = 1,});
 	/* typedef with 0 value should be printed at toplevel */
 	TEST_BTF(str, atomic_t, 0, "(atomic_t){}", {.counter = 0,});
 	TEST_BTF(str, atomic_t, BTF_F_NONAME, "{}", {.counter = 0,});
 	TEST_BTF(str, atomic_t, BTF_F_ZERO, "(atomic_t){.counter = (int)0,}",
 		 {.counter = 0,});
 	TEST_BTF(str, atomic_t, BTF_F_NONAME|BTF_F_ZERO,
 		 "{0,}", {.counter = 0,});

 	/* enum where enum value does (and does not) exist */
 	TEST_BTF_C(str, enum bpf_cmd, 0, BPF_MAP_CREATE);
 	TEST_BTF(str, enum bpf_cmd, 0, "(enum bpf_cmd)BPF_MAP_CREATE", 0);
 	TEST_BTF(str, enum bpf_cmd, BTF_F_NONAME, "BPF_MAP_CREATE",
 		 BPF_MAP_CREATE);
 	TEST_BTF(str, enum bpf_cmd, BTF_F_NONAME|BTF_F_ZERO,
 		 "BPF_MAP_CREATE", 0);

 	TEST_BTF(str, enum bpf_cmd, BTF_F_ZERO, "(enum bpf_cmd)BPF_MAP_CREATE",
 		 BPF_MAP_CREATE);
 	TEST_BTF(str, enum bpf_cmd, BTF_F_NONAME|BTF_F_ZERO,
 		 "BPF_MAP_CREATE", BPF_MAP_CREATE);
 	TEST_BTF_C(str, enum bpf_cmd, 0, 2000);
 	TEST_BTF(str, enum bpf_cmd, BTF_F_NONAME, "2000", 2000);

 	/* simple struct */
 	TEST_BTF_C(str, struct btf_enum, 0,
 		   {.name_off = (__u32)3,.val = (__s32)-1,});
 	TEST_BTF(str, struct btf_enum, BTF_F_NONAME, "{3,-1,}",
 		 { .name_off = 3, .val = -1,});
 	TEST_BTF(str, struct btf_enum, BTF_F_NONAME, "{-1,}",
 		 { .name_off = 0, .val = -1,});
 	TEST_BTF(str, struct btf_enum, BTF_F_NONAME|BTF_F_ZERO, "{0,-1,}",
 		 { .name_off = 0, .val = -1,});
 	/* empty struct should be printed */
 	TEST_BTF(str, struct btf_enum, 0, "(struct btf_enum){}",
 		 { .name_off = 0, .val = 0,});
 	TEST_BTF(str, struct btf_enum, BTF_F_NONAME, "{}",
 		 { .name_off = 0, .val = 0,});
 	TEST_BTF(str, struct btf_enum, BTF_F_ZERO,
 		 "(struct btf_enum){.name_off = (__u32)0,.val = (__s32)0,}",
 		 { .name_off = 0, .val = 0,});

 	/* struct with pointers */
 	TEST_BTF(str, struct list_head, BTF_F_PTR_RAW,
 		 "(struct list_head){.next = (struct list_head *)0x0000000000000001,}",
 		 { .next = (struct list_head *)1 });
 	/* NULL pointer should not be displayed */
 	TEST_BTF(str, struct list_head, BTF_F_PTR_RAW,
 		 "(struct list_head){}",
 		 { .next = (struct list_head *)0 });

 	/* struct with char array */
 	TEST_BTF(str, struct bpf_prog_info, 0,
 		 "(struct bpf_prog_info){.name = (char[])['f','o','o',],}",
 		 { .name = "foo",});
 	TEST_BTF(str, struct bpf_prog_info, BTF_F_NONAME,
 		 "{['f','o','o',],}",
 		 {.name = "foo",});
 	/* leading null char means do not display string */
 	TEST_BTF(str, struct bpf_prog_info, 0,
 		 "(struct bpf_prog_info){}",
 		 {.name = {'\0', 'f', 'o', 'o'}});
 	/* handle non-printable characters */
 	TEST_BTF(str, struct bpf_prog_info, 0,
 		 "(struct bpf_prog_info){.name = (char[])[1,2,3,],}",
 		 { .name = {1, 2, 3, 0}});

 	/* struct with non-char array */
 	TEST_BTF(str, struct __sk_buff, 0,
 		 "(struct __sk_buff){.cb = (__u32[])[1,2,3,4,5,],}",
 		 { .cb = {1, 2, 3, 4, 5,},});
 	TEST_BTF(str, struct __sk_buff, BTF_F_NONAME,
 		 "{[1,2,3,4,5,],}",
 		 { .cb = { 1, 2, 3, 4, 5},});
 	/* For non-char, arrays, show non-zero values only */
 	TEST_BTF(str, struct __sk_buff, 0,
 		 "(struct __sk_buff){.cb = (__u32[])[1,],}",
 		 { .cb = { 0, 0, 1, 0, 0},});

 	/* struct with bitfields */
 	TEST_BTF_C(str, struct bpf_insn, 0,
 		   {.code = (__u8)1,.dst_reg = (__u8)0x2,.src_reg = (__u8)0x3,.off = (__s16)4,.imm = (__s32)5,});
 	TEST_BTF(str, struct bpf_insn, BTF_F_NONAME, "{1,0x2,0x3,4,5,}",
 		 {.code = 1, .dst_reg = 0x2, .src_reg = 0x3, .off = 4,
 		  .imm = 5,});
 #else
 	skip = true;
 #endif

 	return 0;
 }

 char _license[] SEC("license") = "GPL";
	// SPDX-License-Identifier: GPL-2.0
	/* Copyright (c) 2020, Oracle and/or its affiliates. */

	#include "btf_ptr.h"
	#include <bpf/bpf_helpers.h>
	#include <bpf/bpf_tracing.h>
	#include <bpf/bpf_core_read.h>

	#include <errno.h>

	long ret = 0;
	int num_subtests = 0;
	int ran_subtests = 0;
	bool skip = false;

	#define STRSIZE 2048
	#define EXPECTED_STRSIZE 256

	#if defined(bpf_target_s390)
	/* NULL points to a readable struct lowcore on s390, so take the last page */
	#define BADPTR ((void *)0xFFFFFFFFFFFFF000ULL)
	#else
	#define BADPTR 0
	#endif

	#ifndef ARRAY_SIZE
	#define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0]))
	#endif

	struct {
	__uint(type, BPF_MAP_TYPE_PERCPU_ARRAY);
	__uint(max_entries, 1);
	__type(key, __u32);
	__type(value, char[STRSIZE]);
	} strdata SEC(".maps");

	static int __strncmp(const void m1, const void m2, size_t len)
	{
	const unsigned char *s1 = m1;
	const unsigned char *s2 = m2;
	int i, delta = 0;

	for (i = 0; i < len; i++) {
	delta = s1[i] - s2[i];
	if (delta \|\| s1[i] == 0 \|\| s2[i] == 0)
	break;
	}
	return delta;
	}

	#if __has_builtin(__builtin_btf_type_id)
	#define TEST_BTF(_str, _type, _flags, _expected, ...) \
	do { \
	static const char _expectedval[EXPECTED_STRSIZE] = \
	_expected; \
	static const char _ptrtype[64] = #_type; \
	__u64 _hflags = _flags \| BTF_F_COMPACT; \
	static _type _ptrdata = __VA_ARGS__; \
	static struct btf_ptr _ptr = { }; \
	int _cmp; \
	\
	++num_subtests; \
	if (ret < 0) \
	break; \
	++ran_subtests; \
	_ptr.ptr = &_ptrdata; \
	_ptr.type_id = bpf_core_type_id_kernel(_type); \
	if (_ptr.type_id <= 0) { \
	ret = -EINVAL; \
	break; \
	} \
	ret = bpf_snprintf_btf(_str, STRSIZE, \
	&_ptr, sizeof(_ptr), _hflags); \
	if (ret) \
	break; \
	_cmp = __strncmp(_str, _expectedval, EXPECTED_STRSIZE); \
	if (_cmp != 0) { \
	bpf_printk("(%d) got %s", _cmp, _str); \
	bpf_printk("(%d) expected %s", _cmp, \
	_expectedval); \
	ret = -EBADMSG; \
	break; \
	} \
	} while (0)
	#endif

	/* Use where expected data string matches its stringified declaration */
	#define TEST_BTF_C(_str, _type, _flags, ...) \
	TEST_BTF(_str, _type, _flags, "(" #_type ")" #__VA_ARGS__, \
	__VA_ARGS__)

	/* TRACE_EVENT(netif_receive_skb,
	* TP_PROTO(struct sk_buff *skb),
	*/
	SEC("tp_btf/netif_receive_skb")
	int BPF_PROG(trace_netif_receive_skb, struct sk_buff *skb)
	{
	static __u64 flags[] = { 0, BTF_F_COMPACT, BTF_F_ZERO, BTF_F_PTR_RAW,
	BTF_F_NONAME, BTF_F_COMPACT \| BTF_F_ZERO \|
	BTF_F_PTR_RAW \| BTF_F_NONAME };
	static struct btf_ptr p = { };
	__u32 key = 0;
	int i, __ret;
	char *str;

	#if __has_builtin(__builtin_btf_type_id)
	str = bpf_map_lookup_elem(&strdata, &key);
	if (!str)
	return 0;

	/* Ensure we can write skb string representation */
	p.type_id = bpf_core_type_id_kernel(struct sk_buff);
	p.ptr = skb;
	for (i = 0; i < ARRAY_SIZE(flags); i++) {
	++num_subtests;
	ret = bpf_snprintf_btf(str, STRSIZE, &p, sizeof(p), 0);
	if (ret < 0)
	bpf_printk("returned %d when writing skb", ret);
	++ran_subtests;
	}

	/* Check invalid ptr value */
	p.ptr = BADPTR;
	__ret = bpf_snprintf_btf(str, STRSIZE, &p, sizeof(p), 0);
	if (__ret >= 0) {
	bpf_printk("printing %llx should generate error, got (%d)",
	(unsigned long long)BADPTR, __ret);
	ret = -ERANGE;
	}

	/* Verify type display for various types. */

	/* simple int */
	TEST_BTF_C(str, int, 0, 1234);
	TEST_BTF(str, int, BTF_F_NONAME, "1234", 1234);
	/* zero value should be printed at toplevel */
	TEST_BTF(str, int, 0, "(int)0", 0);
	TEST_BTF(str, int, BTF_F_NONAME, "0", 0);
	TEST_BTF(str, int, BTF_F_ZERO, "(int)0", 0);
	TEST_BTF(str, int, BTF_F_NONAME \| BTF_F_ZERO, "0", 0);
	TEST_BTF_C(str, int, 0, -4567);
	TEST_BTF(str, int, BTF_F_NONAME, "-4567", -4567);

	/* simple char */
	TEST_BTF_C(str, char, 0, 100);
	TEST_BTF(str, char, BTF_F_NONAME, "100", 100);
	/* zero value should be printed at toplevel */
	TEST_BTF(str, char, 0, "(char)0", 0);
	TEST_BTF(str, char, BTF_F_NONAME, "0", 0);
	TEST_BTF(str, char, BTF_F_ZERO, "(char)0", 0);
	TEST_BTF(str, char, BTF_F_NONAME \| BTF_F_ZERO, "0", 0);

	/* simple typedef */
	TEST_BTF_C(str, uint64_t, 0, 100);
	TEST_BTF(str, u64, BTF_F_NONAME, "1", 1);
	/* zero value should be printed at toplevel */
	TEST_BTF(str, u64, 0, "(u64)0", 0);
	TEST_BTF(str, u64, BTF_F_NONAME, "0", 0);
	TEST_BTF(str, u64, BTF_F_ZERO, "(u64)0", 0);
	TEST_BTF(str, u64, BTF_F_NONAME\|BTF_F_ZERO, "0", 0);

	/* typedef struct */
	TEST_BTF_C(str, atomic_t, 0, {.counter = (int)1,});
	TEST_BTF(str, atomic_t, BTF_F_NONAME, "{1,}", {.counter = 1,});
	/* typedef with 0 value should be printed at toplevel */
	TEST_BTF(str, atomic_t, 0, "(atomic_t){}", {.counter = 0,});
	TEST_BTF(str, atomic_t, BTF_F_NONAME, "{}", {.counter = 0,});
	TEST_BTF(str, atomic_t, BTF_F_ZERO, "(atomic_t){.counter = (int)0,}",
	{.counter = 0,});
	TEST_BTF(str, atomic_t, BTF_F_NONAME\|BTF_F_ZERO,
	"{0,}", {.counter = 0,});

	/* enum where enum value does (and does not) exist */
	TEST_BTF_C(str, enum bpf_cmd, 0, BPF_MAP_CREATE);
	TEST_BTF(str, enum bpf_cmd, 0, "(enum bpf_cmd)BPF_MAP_CREATE", 0);
	TEST_BTF(str, enum bpf_cmd, BTF_F_NONAME, "BPF_MAP_CREATE",
	BPF_MAP_CREATE);
	TEST_BTF(str, enum bpf_cmd, BTF_F_NONAME\|BTF_F_ZERO,
	"BPF_MAP_CREATE", 0);

	TEST_BTF(str, enum bpf_cmd, BTF_F_ZERO, "(enum bpf_cmd)BPF_MAP_CREATE",
	BPF_MAP_CREATE);
	TEST_BTF(str, enum bpf_cmd, BTF_F_NONAME\|BTF_F_ZERO,
	"BPF_MAP_CREATE", BPF_MAP_CREATE);
	TEST_BTF_C(str, enum bpf_cmd, 0, 2000);
	TEST_BTF(str, enum bpf_cmd, BTF_F_NONAME, "2000", 2000);

	/* simple struct */
	TEST_BTF_C(str, struct btf_enum, 0,
	{.name_off = (__u32)3,.val = (__s32)-1,});
	TEST_BTF(str, struct btf_enum, BTF_F_NONAME, "{3,-1,}",
	{ .name_off = 3, .val = -1,});
	TEST_BTF(str, struct btf_enum, BTF_F_NONAME, "{-1,}",
	{ .name_off = 0, .val = -1,});
	TEST_BTF(str, struct btf_enum, BTF_F_NONAME\|BTF_F_ZERO, "{0,-1,}",
	{ .name_off = 0, .val = -1,});
	/* empty struct should be printed */
	TEST_BTF(str, struct btf_enum, 0, "(struct btf_enum){}",
	{ .name_off = 0, .val = 0,});
	TEST_BTF(str, struct btf_enum, BTF_F_NONAME, "{}",
	{ .name_off = 0, .val = 0,});
	TEST_BTF(str, struct btf_enum, BTF_F_ZERO,
	"(struct btf_enum){.name_off = (__u32)0,.val = (__s32)0,}",
	{ .name_off = 0, .val = 0,});

	/* struct with pointers */
	TEST_BTF(str, struct list_head, BTF_F_PTR_RAW,
	"(struct list_head){.next = (struct list_head *)0x0000000000000001,}",
	{ .next = (struct list_head *)1 });
	/* NULL pointer should not be displayed */
	TEST_BTF(str, struct list_head, BTF_F_PTR_RAW,
	"(struct list_head){}",
	{ .next = (struct list_head *)0 });

	/* struct with char array */
	TEST_BTF(str, struct bpf_prog_info, 0,
	"(struct bpf_prog_info){.name = (char[])['f','o','o',],}",
	{ .name = "foo",});
	TEST_BTF(str, struct bpf_prog_info, BTF_F_NONAME,
	"{['f','o','o',],}",
	{.name = "foo",});
	/* leading null char means do not display string */
	TEST_BTF(str, struct bpf_prog_info, 0,
	"(struct bpf_prog_info){}",
	{.name = {'\0', 'f', 'o', 'o'}});
	/* handle non-printable characters */
	TEST_BTF(str, struct bpf_prog_info, 0,
	"(struct bpf_prog_info){.name = (char[])[1,2,3,],}",
	{ .name = {1, 2, 3, 0}});

	/* struct with non-char array */
	TEST_BTF(str, struct __sk_buff, 0,
	"(struct __sk_buff){.cb = (__u32[])[1,2,3,4,5,],}",
	{ .cb = {1, 2, 3, 4, 5,},});
	TEST_BTF(str, struct __sk_buff, BTF_F_NONAME,
	"{[1,2,3,4,5,],}",
	{ .cb = { 1, 2, 3, 4, 5},});
	/* For non-char, arrays, show non-zero values only */
	TEST_BTF(str, struct __sk_buff, 0,
	"(struct __sk_buff){.cb = (__u32[])[1,],}",
	{ .cb = { 0, 0, 1, 0, 0},});

	/* struct with bitfields */
	TEST_BTF_C(str, struct bpf_insn, 0,
	{.code = (__u8)1,.dst_reg = (__u8)0x2,.src_reg = (__u8)0x3,.off = (__s16)4,.imm = (__s32)5,});
	TEST_BTF(str, struct bpf_insn, BTF_F_NONAME, "{1,0x2,0x3,4,5,}",
	{.code = 1, .dst_reg = 0x2, .src_reg = 0x3, .off = 4,
	.imm = 5,});
	#else
	skip = true;
	#endif

	return 0;
	}

	char _license[] SEC("license") = "GPL";