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|
// SPDX-License-Identifier: GPL-2.0
#include <limits.h>
#include <stdio.h>
#include <string.h>
#include <ctype.h>
#include <regex.h>
#include <test_progs.h>
#include "bpf/btf.h"
#include "bpf_util.h"
#include "linux/filter.h"
#include "disasm.h"
#define MAX_PROG_TEXT_SZ (32 * 1024)
/* The code in this file serves the sole purpose of executing test cases
* specified in the test_cases array. Each test case specifies a program
* type, context field offset, and disassembly patterns that correspond
* to read and write instructions generated by
* verifier.c:convert_ctx_access() for accessing that field.
*
* For each test case, up to three programs are created:
* - One that uses BPF_LDX_MEM to read the context field.
* - One that uses BPF_STX_MEM to write to the context field.
* - One that uses BPF_ST_MEM to write to the context field.
*
* The disassembly of each program is then compared with the pattern
* specified in the test case.
*/
struct test_case {
char *name;
enum bpf_prog_type prog_type;
enum bpf_attach_type expected_attach_type;
int field_offset;
int field_sz;
/* Program generated for BPF_ST_MEM uses value 42 by default,
* this field allows to specify custom value.
*/
struct {
bool use;
int value;
} st_value;
/* Pattern for BPF_LDX_MEM(field_sz, dst, ctx, field_offset) */
char *read;
/* Pattern for BPF_STX_MEM(field_sz, ctx, src, field_offset) and
* BPF_ST_MEM (field_sz, ctx, src, field_offset)
*/
char *write;
/* Pattern for BPF_ST_MEM(field_sz, ctx, src, field_offset),
* takes priority over `write`.
*/
char *write_st;
/* Pattern for BPF_STX_MEM (field_sz, ctx, src, field_offset),
* takes priority over `write`.
*/
char *write_stx;
};
#define N(_prog_type, type, field, name_extra...) \
.name = #_prog_type "." #field name_extra, \
.prog_type = BPF_PROG_TYPE_##_prog_type, \
.field_offset = offsetof(type, field), \
.field_sz = sizeof(typeof(((type *)NULL)->field))
static struct test_case test_cases[] = {
/* Sign extension on s390 changes the pattern */
#if defined(__x86_64__) || defined(__aarch64__)
{
N(SCHED_CLS, struct __sk_buff, tstamp),
.read = "r11 = *(u8 *)($ctx + sk_buff::__mono_tc_offset);"
"if w11 & 0x4 goto pc+1;"
"goto pc+4;"
"if w11 & 0x3 goto pc+1;"
"goto pc+2;"
"$dst = 0;"
"goto pc+1;"
"$dst = *(u64 *)($ctx + sk_buff::tstamp);",
.write = "r11 = *(u8 *)($ctx + sk_buff::__mono_tc_offset);"
"if w11 & 0x4 goto pc+1;"
"goto pc+2;"
"w11 &= -4;"
"*(u8 *)($ctx + sk_buff::__mono_tc_offset) = r11;"
"*(u64 *)($ctx + sk_buff::tstamp) = $src;",
},
#endif
{
N(SCHED_CLS, struct __sk_buff, priority),
.read = "$dst = *(u32 *)($ctx + sk_buff::priority);",
.write = "*(u32 *)($ctx + sk_buff::priority) = $src;",
},
{
N(SCHED_CLS, struct __sk_buff, mark),
.read = "$dst = *(u32 *)($ctx + sk_buff::mark);",
.write = "*(u32 *)($ctx + sk_buff::mark) = $src;",
},
{
N(SCHED_CLS, struct __sk_buff, cb[0]),
.read = "$dst = *(u32 *)($ctx + $(sk_buff::cb + qdisc_skb_cb::data));",
.write = "*(u32 *)($ctx + $(sk_buff::cb + qdisc_skb_cb::data)) = $src;",
},
{
N(SCHED_CLS, struct __sk_buff, tc_classid),
.read = "$dst = *(u16 *)($ctx + $(sk_buff::cb + qdisc_skb_cb::tc_classid));",
.write = "*(u16 *)($ctx + $(sk_buff::cb + qdisc_skb_cb::tc_classid)) = $src;",
},
{
N(SCHED_CLS, struct __sk_buff, tc_index),
.read = "$dst = *(u16 *)($ctx + sk_buff::tc_index);",
.write = "*(u16 *)($ctx + sk_buff::tc_index) = $src;",
},
{
N(SCHED_CLS, struct __sk_buff, queue_mapping),
.read = "$dst = *(u16 *)($ctx + sk_buff::queue_mapping);",
.write_stx = "if $src >= 0xffff goto pc+1;"
"*(u16 *)($ctx + sk_buff::queue_mapping) = $src;",
.write_st = "*(u16 *)($ctx + sk_buff::queue_mapping) = $src;",
},
{
/* This is a corner case in filter.c:bpf_convert_ctx_access() */
N(SCHED_CLS, struct __sk_buff, queue_mapping, ".ushrt_max"),
.st_value = { true, USHRT_MAX },
.write_st = "goto pc+0;",
},
{
N(CGROUP_SOCK, struct bpf_sock, bound_dev_if),
.read = "$dst = *(u32 *)($ctx + sock_common::skc_bound_dev_if);",
.write = "*(u32 *)($ctx + sock_common::skc_bound_dev_if) = $src;",
},
{
N(CGROUP_SOCK, struct bpf_sock, mark),
.read = "$dst = *(u32 *)($ctx + sock::sk_mark);",
.write = "*(u32 *)($ctx + sock::sk_mark) = $src;",
},
{
N(CGROUP_SOCK, struct bpf_sock, priority),
.read = "$dst = *(u32 *)($ctx + sock::sk_priority);",
.write = "*(u32 *)($ctx + sock::sk_priority) = $src;",
},
{
N(SOCK_OPS, struct bpf_sock_ops, replylong[0]),
.read = "$dst = *(u32 *)($ctx + bpf_sock_ops_kern::replylong);",
.write = "*(u32 *)($ctx + bpf_sock_ops_kern::replylong) = $src;",
},
{
N(CGROUP_SYSCTL, struct bpf_sysctl, file_pos),
#if __BYTE_ORDER == __LITTLE_ENDIAN
.read = "$dst = *(u64 *)($ctx + bpf_sysctl_kern::ppos);"
"$dst = *(u32 *)($dst +0);",
.write = "*(u64 *)($ctx + bpf_sysctl_kern::tmp_reg) = r9;"
"r9 = *(u64 *)($ctx + bpf_sysctl_kern::ppos);"
"*(u32 *)(r9 +0) = $src;"
"r9 = *(u64 *)($ctx + bpf_sysctl_kern::tmp_reg);",
#else
.read = "$dst = *(u64 *)($ctx + bpf_sysctl_kern::ppos);"
"$dst = *(u32 *)($dst +4);",
.write = "*(u64 *)($ctx + bpf_sysctl_kern::tmp_reg) = r9;"
"r9 = *(u64 *)($ctx + bpf_sysctl_kern::ppos);"
"*(u32 *)(r9 +4) = $src;"
"r9 = *(u64 *)($ctx + bpf_sysctl_kern::tmp_reg);",
#endif
},
{
N(CGROUP_SOCKOPT, struct bpf_sockopt, sk),
.read = "$dst = *(u64 *)($ctx + bpf_sockopt_kern::sk);",
.expected_attach_type = BPF_CGROUP_GETSOCKOPT,
},
{
N(CGROUP_SOCKOPT, struct bpf_sockopt, level),
.read = "$dst = *(u32 *)($ctx + bpf_sockopt_kern::level);",
.write = "*(u32 *)($ctx + bpf_sockopt_kern::level) = $src;",
.expected_attach_type = BPF_CGROUP_SETSOCKOPT,
},
{
N(CGROUP_SOCKOPT, struct bpf_sockopt, optname),
.read = "$dst = *(u32 *)($ctx + bpf_sockopt_kern::optname);",
.write = "*(u32 *)($ctx + bpf_sockopt_kern::optname) = $src;",
.expected_attach_type = BPF_CGROUP_SETSOCKOPT,
},
{
N(CGROUP_SOCKOPT, struct bpf_sockopt, optlen),
.read = "$dst = *(u32 *)($ctx + bpf_sockopt_kern::optlen);",
.write = "*(u32 *)($ctx + bpf_sockopt_kern::optlen) = $src;",
.expected_attach_type = BPF_CGROUP_SETSOCKOPT,
},
{
N(CGROUP_SOCKOPT, struct bpf_sockopt, retval),
.read = "$dst = *(u64 *)($ctx + bpf_sockopt_kern::current_task);"
"$dst = *(u64 *)($dst + task_struct::bpf_ctx);"
"$dst = *(u32 *)($dst + bpf_cg_run_ctx::retval);",
.write = "*(u64 *)($ctx + bpf_sockopt_kern::tmp_reg) = r9;"
"r9 = *(u64 *)($ctx + bpf_sockopt_kern::current_task);"
"r9 = *(u64 *)(r9 + task_struct::bpf_ctx);"
"*(u32 *)(r9 + bpf_cg_run_ctx::retval) = $src;"
"r9 = *(u64 *)($ctx + bpf_sockopt_kern::tmp_reg);",
.expected_attach_type = BPF_CGROUP_GETSOCKOPT,
},
{
N(CGROUP_SOCKOPT, struct bpf_sockopt, optval),
.read = "$dst = *(u64 *)($ctx + bpf_sockopt_kern::optval);",
.expected_attach_type = BPF_CGROUP_GETSOCKOPT,
},
{
N(CGROUP_SOCKOPT, struct bpf_sockopt, optval_end),
.read = "$dst = *(u64 *)($ctx + bpf_sockopt_kern::optval_end);",
.expected_attach_type = BPF_CGROUP_GETSOCKOPT,
},
};
#undef N
static regex_t *ident_regex;
static regex_t *field_regex;
static char *skip_space(char *str)
{
while (*str && isspace(*str))
++str;
return str;
}
static char *skip_space_and_semi(char *str)
{
while (*str && (isspace(*str) || *str == ';'))
++str;
return str;
}
static char *match_str(char *str, char *prefix)
{
while (*str && *prefix && *str == *prefix) {
++str;
++prefix;
}
if (*prefix)
return NULL;
return str;
}
static char *match_number(char *str, int num)
{
char *next;
int snum = strtol(str, &next, 10);
if (next - str == 0 || num != snum)
return NULL;
return next;
}
static int find_field_offset_aux(struct btf *btf, int btf_id, char *field_name, int off)
{
const struct btf_type *type = btf__type_by_id(btf, btf_id);
const struct btf_member *m;
__u16 mnum;
int i;
if (!type) {
PRINT_FAIL("Can't find btf_type for id %d\n", btf_id);
return -1;
}
if (!btf_is_struct(type) && !btf_is_union(type)) {
PRINT_FAIL("BTF id %d is not struct or union\n", btf_id);
return -1;
}
m = btf_members(type);
mnum = btf_vlen(type);
for (i = 0; i < mnum; ++i, ++m) {
const char *mname = btf__name_by_offset(btf, m->name_off);
if (strcmp(mname, "") == 0) {
int msize = find_field_offset_aux(btf, m->type, field_name,
off + m->offset);
if (msize >= 0)
return msize;
}
if (strcmp(mname, field_name))
continue;
return (off + m->offset) / 8;
}
return -1;
}
static int find_field_offset(struct btf *btf, char *pattern, regmatch_t *matches)
{
int type_sz = matches[1].rm_eo - matches[1].rm_so;
int field_sz = matches[2].rm_eo - matches[2].rm_so;
char *type = pattern + matches[1].rm_so;
char *field = pattern + matches[2].rm_so;
char field_str[128] = {};
char type_str[128] = {};
int btf_id, field_offset;
if (type_sz >= sizeof(type_str)) {
PRINT_FAIL("Malformed pattern: type ident is too long: %d\n", type_sz);
return -1;
}
if (field_sz >= sizeof(field_str)) {
PRINT_FAIL("Malformed pattern: field ident is too long: %d\n", field_sz);
return -1;
}
strncpy(type_str, type, type_sz);
strncpy(field_str, field, field_sz);
btf_id = btf__find_by_name(btf, type_str);
if (btf_id < 0) {
PRINT_FAIL("No BTF info for type %s\n", type_str);
return -1;
}
field_offset = find_field_offset_aux(btf, btf_id, field_str, 0);
if (field_offset < 0) {
PRINT_FAIL("No BTF info for field %s::%s\n", type_str, field_str);
return -1;
}
return field_offset;
}
static regex_t *compile_regex(char *pat)
{
regex_t *re;
int err;
re = malloc(sizeof(regex_t));
if (!re) {
PRINT_FAIL("Can't alloc regex\n");
return NULL;
}
err = regcomp(re, pat, REG_EXTENDED);
if (err) {
char errbuf[512];
regerror(err, re, errbuf, sizeof(errbuf));
PRINT_FAIL("Can't compile regex: %s\n", errbuf);
free(re);
return NULL;
}
return re;
}
static void free_regex(regex_t *re)
{
if (!re)
return;
regfree(re);
free(re);
}
static u32 max_line_len(char *str)
{
u32 max_line = 0;
char *next = str;
while (next) {
next = strchr(str, '\n');
if (next) {
max_line = max_t(u32, max_line, (next - str));
str = next + 1;
} else {
max_line = max_t(u32, max_line, strlen(str));
}
}
return min(max_line, 60u);
}
/* Print strings `pattern_origin` and `text_origin` side by side,
* assume `pattern_pos` and `text_pos` designate location within
* corresponding origin string where match diverges.
* The output should look like:
*
* Can't match disassembly(left) with pattern(right):
* r2 = *(u64 *)(r1 +0) ; $dst = *(u64 *)($ctx + bpf_sockopt_kern::sk1)
* ^ ^
* r0 = 0 ;
* exit ;
*/
static void print_match_error(FILE *out,
char *pattern_origin, char *text_origin,
char *pattern_pos, char *text_pos)
{
char *pattern = pattern_origin;
char *text = text_origin;
int middle = max_line_len(text) + 2;
fprintf(out, "Can't match disassembly(left) with pattern(right):\n");
while (*pattern || *text) {
int column = 0;
int mark1 = -1;
int mark2 = -1;
/* Print one line from text */
while (*text && *text != '\n') {
if (text == text_pos)
mark1 = column;
fputc(*text, out);
++text;
++column;
}
if (text == text_pos)
mark1 = column;
/* Pad to the middle */
while (column < middle) {
fputc(' ', out);
++column;
}
fputs("; ", out);
column += 3;
/* Print one line from pattern, pattern lines are terminated by ';' */
while (*pattern && *pattern != ';') {
if (pattern == pattern_pos)
mark2 = column;
fputc(*pattern, out);
++pattern;
++column;
}
if (pattern == pattern_pos)
mark2 = column;
fputc('\n', out);
if (*pattern)
++pattern;
if (*text)
++text;
/* If pattern and text diverge at this line, print an
* additional line with '^' marks, highlighting
* positions where match fails.
*/
if (mark1 > 0 || mark2 > 0) {
for (column = 0; column <= max(mark1, mark2); ++column) {
if (column == mark1 || column == mark2)
fputc('^', out);
else
fputc(' ', out);
}
fputc('\n', out);
}
}
}
/* Test if `text` matches `pattern`. Pattern consists of the following elements:
*
* - Field offset references:
*
* <type>::<field>
*
* When such reference is encountered BTF is used to compute numerical
* value for the offset of <field> in <type>. The `text` is expected to
* contain matching numerical value.
*
* - Field groups:
*
* $(<type>::<field> [+ <type>::<field>]*)
*
* Allows to specify an offset that is a sum of multiple field offsets.
* The `text` is expected to contain matching numerical value.
*
* - Variable references, e.g. `$src`, `$dst`, `$ctx`.
* These are substitutions specified in `reg_map` array.
* If a substring of pattern is equal to `reg_map[i][0]` the `text` is
* expected to contain `reg_map[i][1]` in the matching position.
*
* - Whitespace is ignored, ';' counts as whitespace for `pattern`.
*
* - Any other characters, `pattern` and `text` should match one-to-one.
*
* Example of a pattern:
*
* __________ fields group ________________
* ' '
* *(u16 *)($ctx + $(sk_buff::cb + qdisc_skb_cb::tc_classid)) = $src;
* ^^^^ '______________________'
* variable reference field offset reference
*/
static bool match_pattern(struct btf *btf, char *pattern, char *text, char *reg_map[][2])
{
char *pattern_origin = pattern;
char *text_origin = text;
regmatch_t matches[3];
_continue:
while (*pattern) {
if (!*text)
goto err;
/* Skip whitespace */
if (isspace(*pattern) || *pattern == ';') {
if (!isspace(*text) && text != text_origin && isalnum(text[-1]))
goto err;
pattern = skip_space_and_semi(pattern);
text = skip_space(text);
continue;
}
/* Check for variable references */
for (int i = 0; reg_map[i][0]; ++i) {
char *pattern_next, *text_next;
pattern_next = match_str(pattern, reg_map[i][0]);
if (!pattern_next)
continue;
text_next = match_str(text, reg_map[i][1]);
if (!text_next)
goto err;
pattern = pattern_next;
text = text_next;
goto _continue;
}
/* Match field group:
* $(sk_buff::cb + qdisc_skb_cb::tc_classid)
*/
if (strncmp(pattern, "$(", 2) == 0) {
char *group_start = pattern, *text_next;
int acc_offset = 0;
pattern += 2;
for (;;) {
int field_offset;
pattern = skip_space(pattern);
if (!*pattern) {
PRINT_FAIL("Unexpected end of pattern\n");
goto err;
}
if (*pattern == ')') {
++pattern;
break;
}
if (*pattern == '+') {
++pattern;
continue;
}
printf("pattern: %s\n", pattern);
if (regexec(field_regex, pattern, 3, matches, 0) != 0) {
PRINT_FAIL("Field reference expected\n");
goto err;
}
field_offset = find_field_offset(btf, pattern, matches);
if (field_offset < 0)
goto err;
pattern += matches[0].rm_eo;
acc_offset += field_offset;
}
text_next = match_number(text, acc_offset);
if (!text_next) {
PRINT_FAIL("No match for group offset %.*s (%d)\n",
(int)(pattern - group_start),
group_start,
acc_offset);
goto err;
}
text = text_next;
}
/* Match field reference:
* sk_buff::cb
*/
if (regexec(field_regex, pattern, 3, matches, 0) == 0) {
int field_offset;
char *text_next;
field_offset = find_field_offset(btf, pattern, matches);
if (field_offset < 0)
goto err;
text_next = match_number(text, field_offset);
if (!text_next) {
PRINT_FAIL("No match for field offset %.*s (%d)\n",
(int)matches[0].rm_eo, pattern, field_offset);
goto err;
}
pattern += matches[0].rm_eo;
text = text_next;
continue;
}
/* If pattern points to identifier not followed by '::'
* skip the identifier to avoid n^2 application of the
* field reference rule.
*/
if (regexec(ident_regex, pattern, 1, matches, 0) == 0) {
if (strncmp(pattern, text, matches[0].rm_eo) != 0)
goto err;
pattern += matches[0].rm_eo;
text += matches[0].rm_eo;
continue;
}
/* Match literally */
if (*pattern != *text)
goto err;
++pattern;
++text;
}
return true;
err:
test__fail();
print_match_error(stdout, pattern_origin, text_origin, pattern, text);
return false;
}
static void print_insn(void *private_data, const char *fmt, ...)
{
va_list args;
va_start(args, fmt);
vfprintf((FILE *)private_data, fmt, args);
va_end(args);
}
/* Disassemble instructions to a stream */
static void print_xlated(FILE *out, struct bpf_insn *insn, __u32 len)
{
const struct bpf_insn_cbs cbs = {
.cb_print = print_insn,
.cb_call = NULL,
.cb_imm = NULL,
.private_data = out,
};
bool double_insn = false;
int i;
for (i = 0; i < len; i++) {
if (double_insn) {
double_insn = false;
continue;
}
double_insn = insn[i].code == (BPF_LD | BPF_IMM | BPF_DW);
print_bpf_insn(&cbs, insn + i, true);
}
}
/* We share code with kernel BPF disassembler, it adds '(FF) ' prefix
* for each instruction (FF stands for instruction `code` byte).
* This function removes the prefix inplace for each line in `str`.
*/
static void remove_insn_prefix(char *str, int size)
{
const int prefix_size = 5;
int write_pos = 0, read_pos = prefix_size;
int len = strlen(str);
char c;
size = min(size, len);
while (read_pos < size) {
c = str[read_pos++];
if (c == 0)
break;
str[write_pos++] = c;
if (c == '\n')
read_pos += prefix_size;
}
str[write_pos] = 0;
}
struct prog_info {
char *prog_kind;
enum bpf_prog_type prog_type;
enum bpf_attach_type expected_attach_type;
struct bpf_insn *prog;
u32 prog_len;
};
static void match_program(struct btf *btf,
struct prog_info *pinfo,
char *pattern,
char *reg_map[][2],
bool skip_first_insn)
{
struct bpf_insn *buf = NULL;
int err = 0, prog_fd = 0;
FILE *prog_out = NULL;
char *text = NULL;
__u32 cnt = 0;
text = calloc(MAX_PROG_TEXT_SZ, 1);
if (!text) {
PRINT_FAIL("Can't allocate %d bytes\n", MAX_PROG_TEXT_SZ);
goto out;
}
// TODO: log level
LIBBPF_OPTS(bpf_prog_load_opts, opts);
opts.log_buf = text;
opts.log_size = MAX_PROG_TEXT_SZ;
opts.log_level = 1 | 2 | 4;
opts.expected_attach_type = pinfo->expected_attach_type;
prog_fd = bpf_prog_load(pinfo->prog_type, NULL, "GPL",
pinfo->prog, pinfo->prog_len, &opts);
if (prog_fd < 0) {
PRINT_FAIL("Can't load program, errno %d (%s), verifier log:\n%s\n",
errno, strerror(errno), text);
goto out;
}
memset(text, 0, MAX_PROG_TEXT_SZ);
err = get_xlated_program(prog_fd, &buf, &cnt);
if (err) {
PRINT_FAIL("Can't load back BPF program\n");
goto out;
}
prog_out = fmemopen(text, MAX_PROG_TEXT_SZ - 1, "w");
if (!prog_out) {
PRINT_FAIL("Can't open memory stream\n");
goto out;
}
if (skip_first_insn)
print_xlated(prog_out, buf + 1, cnt - 1);
else
print_xlated(prog_out, buf, cnt);
fclose(prog_out);
remove_insn_prefix(text, MAX_PROG_TEXT_SZ);
ASSERT_TRUE(match_pattern(btf, pattern, text, reg_map),
pinfo->prog_kind);
out:
if (prog_fd)
close(prog_fd);
free(buf);
free(text);
}
static void run_one_testcase(struct btf *btf, struct test_case *test)
{
struct prog_info pinfo = {};
int bpf_sz;
if (!test__start_subtest(test->name))
return;
switch (test->field_sz) {
case 8:
bpf_sz = BPF_DW;
break;
case 4:
bpf_sz = BPF_W;
break;
case 2:
bpf_sz = BPF_H;
break;
case 1:
bpf_sz = BPF_B;
break;
default:
PRINT_FAIL("Unexpected field size: %d, want 8,4,2 or 1\n", test->field_sz);
return;
}
pinfo.prog_type = test->prog_type;
pinfo.expected_attach_type = test->expected_attach_type;
if (test->read) {
struct bpf_insn ldx_prog[] = {
BPF_LDX_MEM(bpf_sz, BPF_REG_2, BPF_REG_1, test->field_offset),
BPF_MOV64_IMM(BPF_REG_0, 0),
BPF_EXIT_INSN(),
};
char *reg_map[][2] = {
{ "$ctx", "r1" },
{ "$dst", "r2" },
{}
};
pinfo.prog_kind = "LDX";
pinfo.prog = ldx_prog;
pinfo.prog_len = ARRAY_SIZE(ldx_prog);
match_program(btf, &pinfo, test->read, reg_map, false);
}
if (test->write || test->write_st || test->write_stx) {
struct bpf_insn stx_prog[] = {
BPF_MOV64_IMM(BPF_REG_2, 0),
BPF_STX_MEM(bpf_sz, BPF_REG_1, BPF_REG_2, test->field_offset),
BPF_MOV64_IMM(BPF_REG_0, 0),
BPF_EXIT_INSN(),
};
char *stx_reg_map[][2] = {
{ "$ctx", "r1" },
{ "$src", "r2" },
{}
};
struct bpf_insn st_prog[] = {
BPF_ST_MEM(bpf_sz, BPF_REG_1, test->field_offset,
test->st_value.use ? test->st_value.value : 42),
BPF_MOV64_IMM(BPF_REG_0, 0),
BPF_EXIT_INSN(),
};
char *st_reg_map[][2] = {
{ "$ctx", "r1" },
{ "$src", "42" },
{}
};
if (test->write || test->write_stx) {
char *pattern = test->write_stx ? test->write_stx : test->write;
pinfo.prog_kind = "STX";
pinfo.prog = stx_prog;
pinfo.prog_len = ARRAY_SIZE(stx_prog);
match_program(btf, &pinfo, pattern, stx_reg_map, true);
}
if (test->write || test->write_st) {
char *pattern = test->write_st ? test->write_st : test->write;
pinfo.prog_kind = "ST";
pinfo.prog = st_prog;
pinfo.prog_len = ARRAY_SIZE(st_prog);
match_program(btf, &pinfo, pattern, st_reg_map, false);
}
}
test__end_subtest();
}
void test_ctx_rewrite(void)
{
struct btf *btf;
int i;
field_regex = compile_regex("^([[:alpha:]_][[:alnum:]_]+)::([[:alpha:]_][[:alnum:]_]+)");
ident_regex = compile_regex("^[[:alpha:]_][[:alnum:]_]+");
if (!field_regex || !ident_regex)
return;
btf = btf__load_vmlinux_btf();
if (!btf) {
PRINT_FAIL("Can't load vmlinux BTF, errno %d (%s)\n", errno, strerror(errno));
goto out;
}
for (i = 0; i < ARRAY_SIZE(test_cases); ++i)
run_one_testcase(btf, &test_cases[i]);
out:
btf__free(btf);
free_regex(field_regex);
free_regex(ident_regex);
}
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