// SPDX-License-Identifier: GPL-2.0 /* Converted from tools/testing/selftests/bpf/verifier/runtime_jit.c */ #include <linux/bpf.h> #include <bpf/bpf_helpers.h> #include "bpf_misc.h" void dummy_prog_42_socket(void); void dummy_prog_24_socket(void); void dummy_prog_loop1_socket(void); void dummy_prog_loop2_socket(void); struct { __uint(type, BPF_MAP_TYPE_PROG_ARRAY); __uint(max_entries, 4); __uint(key_size, sizeof(int)); __array(values, void (void)); } map_prog1_socket SEC(".maps") = { .values = { [0] = (void *)&dummy_prog_42_socket, [1] = (void *)&dummy_prog_loop1_socket, [2] = (void *)&dummy_prog_24_socket, }, }; struct { __uint(type, BPF_MAP_TYPE_PROG_ARRAY); __uint(max_entries, 8); __uint(key_size, sizeof(int)); __array(values, void (void)); } map_prog2_socket SEC(".maps") = { .values = { [1] = (void *)&dummy_prog_loop2_socket, [2] = (void *)&dummy_prog_24_socket, [7] = (void *)&dummy_prog_42_socket, }, }; SEC("socket") __auxiliary __auxiliary_unpriv __naked void dummy_prog_42_socket(void) { asm volatile ("r0 = 42; exit;"); } SEC("socket") __auxiliary __auxiliary_unpriv __naked void dummy_prog_24_socket(void) { asm volatile ("r0 = 24; exit;"); } SEC("socket") __auxiliary __auxiliary_unpriv __naked void dummy_prog_loop1_socket(void) { asm volatile (" \ r3 = 1; \ r2 = %[map_prog1_socket] ll; \ call %[bpf_tail_call]; \ r0 = 41; \ exit; \ " : : __imm(bpf_tail_call), __imm_addr(map_prog1_socket) : __clobber_all); } SEC("socket") __auxiliary __auxiliary_unpriv __naked void dummy_prog_loop2_socket(void) { asm volatile (" \ r3 = 1; \ r2 = %[map_prog2_socket] ll; \ call %[bpf_tail_call]; \ r0 = 41; \ exit; \ " : : __imm(bpf_tail_call), __imm_addr(map_prog2_socket) : __clobber_all); } SEC("socket") __description("runtime/jit: tail_call within bounds, prog once") __success __success_unpriv __retval(42) __naked void call_within_bounds_prog_once(void) { asm volatile (" \ r3 = 0; \ r2 = %[map_prog1_socket] ll; \ call %[bpf_tail_call]; \ r0 = 1; \ exit; \ " : : __imm(bpf_tail_call), __imm_addr(map_prog1_socket) : __clobber_all); } SEC("socket") __description("runtime/jit: tail_call within bounds, prog loop") __success __success_unpriv __retval(41) __naked void call_within_bounds_prog_loop(void) { asm volatile (" \ r3 = 1; \ r2 = %[map_prog1_socket] ll; \ call %[bpf_tail_call]; \ r0 = 1; \ exit; \ " : : __imm(bpf_tail_call), __imm_addr(map_prog1_socket) : __clobber_all); } SEC("socket") __description("runtime/jit: tail_call within bounds, no prog") __success __success_unpriv __retval(1) __naked void call_within_bounds_no_prog(void) { asm volatile (" \ r3 = 3; \ r2 = %[map_prog1_socket] ll; \ call %[bpf_tail_call]; \ r0 = 1; \ exit; \ " : : __imm(bpf_tail_call), __imm_addr(map_prog1_socket) : __clobber_all); } SEC("socket") __description("runtime/jit: tail_call within bounds, key 2") __success __success_unpriv __retval(24) __naked void call_within_bounds_key_2(void) { asm volatile (" \ r3 = 2; \ r2 = %[map_prog1_socket] ll; \ call %[bpf_tail_call]; \ r0 = 1; \ exit; \ " : : __imm(bpf_tail_call), __imm_addr(map_prog1_socket) : __clobber_all); } SEC("socket") __description("runtime/jit: tail_call within bounds, key 2 / key 2, first branch") __success __success_unpriv __retval(24) __naked void _2_key_2_first_branch(void) { asm volatile (" \ r0 = 13; \ *(u8*)(r1 + %[__sk_buff_cb_0]) = r0; \ r0 = *(u8*)(r1 + %[__sk_buff_cb_0]); \ if r0 == 13 goto l0_%=; \ r3 = 2; \ r2 = %[map_prog1_socket] ll; \ goto l1_%=; \ l0_%=: r3 = 2; \ r2 = %[map_prog1_socket] ll; \ l1_%=: call %[bpf_tail_call]; \ r0 = 1; \ exit; \ " : : __imm(bpf_tail_call), __imm_addr(map_prog1_socket), __imm_const(__sk_buff_cb_0, offsetof(struct __sk_buff, cb[0])) : __clobber_all); } SEC("socket") __description("runtime/jit: tail_call within bounds, key 2 / key 2, second branch") __success __success_unpriv __retval(24) __naked void _2_key_2_second_branch(void) { asm volatile (" \ r0 = 14; \ *(u8*)(r1 + %[__sk_buff_cb_0]) = r0; \ r0 = *(u8*)(r1 + %[__sk_buff_cb_0]); \ if r0 == 13 goto l0_%=; \ r3 = 2; \ r2 = %[map_prog1_socket] ll; \ goto l1_%=; \ l0_%=: r3 = 2; \ r2 = %[map_prog1_socket] ll; \ l1_%=: call %[bpf_tail_call]; \ r0 = 1; \ exit; \ " : : __imm(bpf_tail_call), __imm_addr(map_prog1_socket), __imm_const(__sk_buff_cb_0, offsetof(struct __sk_buff, cb[0])) : __clobber_all); } SEC("socket") __description("runtime/jit: tail_call within bounds, key 0 / key 2, first branch") __success __success_unpriv __retval(24) __naked void _0_key_2_first_branch(void) { asm volatile (" \ r0 = 13; \ *(u8*)(r1 + %[__sk_buff_cb_0]) = r0; \ r0 = *(u8*)(r1 + %[__sk_buff_cb_0]); \ if r0 == 13 goto l0_%=; \ r3 = 0; \ r2 = %[map_prog1_socket] ll; \ goto l1_%=; \ l0_%=: r3 = 2; \ r2 = %[map_prog1_socket] ll; \ l1_%=: call %[bpf_tail_call]; \ r0 = 1; \ exit; \ " : : __imm(bpf_tail_call), __imm_addr(map_prog1_socket), __imm_const(__sk_buff_cb_0, offsetof(struct __sk_buff, cb[0])) : __clobber_all); } SEC("socket") __description("runtime/jit: tail_call within bounds, key 0 / key 2, second branch") __success __success_unpriv __retval(42) __naked void _0_key_2_second_branch(void) { asm volatile (" \ r0 = 14; \ *(u8*)(r1 + %[__sk_buff_cb_0]) = r0; \ r0 = *(u8*)(r1 + %[__sk_buff_cb_0]); \ if r0 == 13 goto l0_%=; \ r3 = 0; \ r2 = %[map_prog1_socket] ll; \ goto l1_%=; \ l0_%=: r3 = 2; \ r2 = %[map_prog1_socket] ll; \ l1_%=: call %[bpf_tail_call]; \ r0 = 1; \ exit; \ " : : __imm(bpf_tail_call), __imm_addr(map_prog1_socket), __imm_const(__sk_buff_cb_0, offsetof(struct __sk_buff, cb[0])) : __clobber_all); } SEC("socket") __description("runtime/jit: tail_call within bounds, different maps, first branch") __success __failure_unpriv __msg_unpriv("tail_call abusing map_ptr") __retval(1) __naked void bounds_different_maps_first_branch(void) { asm volatile (" \ r0 = 13; \ *(u8*)(r1 + %[__sk_buff_cb_0]) = r0; \ r0 = *(u8*)(r1 + %[__sk_buff_cb_0]); \ if r0 == 13 goto l0_%=; \ r3 = 0; \ r2 = %[map_prog1_socket] ll; \ goto l1_%=; \ l0_%=: r3 = 0; \ r2 = %[map_prog2_socket] ll; \ l1_%=: call %[bpf_tail_call]; \ r0 = 1; \ exit; \ " : : __imm(bpf_tail_call), __imm_addr(map_prog1_socket), __imm_addr(map_prog2_socket), __imm_const(__sk_buff_cb_0, offsetof(struct __sk_buff, cb[0])) : __clobber_all); } SEC("socket") __description("runtime/jit: tail_call within bounds, different maps, second branch") __success __failure_unpriv __msg_unpriv("tail_call abusing map_ptr") __retval(42) __naked void bounds_different_maps_second_branch(void) { asm volatile (" \ r0 = 14; \ *(u8*)(r1 + %[__sk_buff_cb_0]) = r0; \ r0 = *(u8*)(r1 + %[__sk_buff_cb_0]); \ if r0 == 13 goto l0_%=; \ r3 = 0; \ r2 = %[map_prog1_socket] ll; \ goto l1_%=; \ l0_%=: r3 = 0; \ r2 = %[map_prog2_socket] ll; \ l1_%=: call %[bpf_tail_call]; \ r0 = 1; \ exit; \ " : : __imm(bpf_tail_call), __imm_addr(map_prog1_socket), __imm_addr(map_prog2_socket), __imm_const(__sk_buff_cb_0, offsetof(struct __sk_buff, cb[0])) : __clobber_all); } SEC("socket") __description("runtime/jit: tail_call out of bounds") __success __success_unpriv __retval(2) __naked void tail_call_out_of_bounds(void) { asm volatile (" \ r3 = 256; \ r2 = %[map_prog1_socket] ll; \ call %[bpf_tail_call]; \ r0 = 2; \ exit; \ " : : __imm(bpf_tail_call), __imm_addr(map_prog1_socket) : __clobber_all); } SEC("socket") __description("runtime/jit: pass negative index to tail_call") __success __success_unpriv __retval(2) __naked void negative_index_to_tail_call(void) { asm volatile (" \ r3 = -1; \ r2 = %[map_prog1_socket] ll; \ call %[bpf_tail_call]; \ r0 = 2; \ exit; \ " : : __imm(bpf_tail_call), __imm_addr(map_prog1_socket) : __clobber_all); } SEC("socket") __description("runtime/jit: pass > 32bit index to tail_call") __success __success_unpriv __retval(42) /* Verifier rewrite for unpriv skips tail call here. */ __retval_unpriv(2) __naked void _32bit_index_to_tail_call(void) { asm volatile (" \ r3 = 0x100000000 ll; \ r2 = %[map_prog1_socket] ll; \ call %[bpf_tail_call]; \ r0 = 2; \ exit; \ " : : __imm(bpf_tail_call), __imm_addr(map_prog1_socket) : __clobber_all); } char _license[] SEC("license") = "GPL";