Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Kumar Kartikeya Dwivedi | 1355 | 95.76% | 1 | 50.00% |
Alexei Starovoitov | 60 | 4.24% | 1 | 50.00% |
Total | 1415 | 2 |
// SPDX-License-Identifier: GPL-2.0 #include <vmlinux.h> #include <bpf/bpf_tracing.h> #include <bpf/bpf_helpers.h> #include <bpf/bpf_core_read.h> #include <bpf/bpf_endian.h> #include "bpf_misc.h" #include "bpf_experimental.h" #ifndef ETH_P_IP #define ETH_P_IP 0x0800 #endif struct { __uint(type, BPF_MAP_TYPE_PROG_ARRAY); __uint(max_entries, 4); __uint(key_size, sizeof(__u32)); __uint(value_size, sizeof(__u32)); } jmp_table SEC(".maps"); static __noinline int static_func(u64 i) { bpf_throw(32); return i; } __noinline int global2static_simple(u64 i) { static_func(i + 2); return i - 1; } __noinline int global2static(u64 i) { if (i == ETH_P_IP) bpf_throw(16); return static_func(i); } static __noinline int static2global(u64 i) { return global2static(i) + i; } SEC("tc") int exception_throw_always_1(struct __sk_buff *ctx) { bpf_throw(64); return 0; } /* In this case, the global func will never be seen executing after call to * static subprog, hence verifier will DCE the remaining instructions. Ensure we * are resilient to that. */ SEC("tc") int exception_throw_always_2(struct __sk_buff *ctx) { return global2static_simple(ctx->protocol); } SEC("tc") int exception_throw_unwind_1(struct __sk_buff *ctx) { return static2global(bpf_ntohs(ctx->protocol)); } SEC("tc") int exception_throw_unwind_2(struct __sk_buff *ctx) { return static2global(bpf_ntohs(ctx->protocol) - 1); } SEC("tc") int exception_throw_default(struct __sk_buff *ctx) { bpf_throw(0); return 1; } SEC("tc") int exception_throw_default_value(struct __sk_buff *ctx) { bpf_throw(5); return 1; } SEC("tc") int exception_tail_call_target(struct __sk_buff *ctx) { bpf_throw(16); return 0; } static __noinline int exception_tail_call_subprog(struct __sk_buff *ctx) { volatile int ret = 10; bpf_tail_call_static(ctx, &jmp_table, 0); return ret; } SEC("tc") int exception_tail_call(struct __sk_buff *ctx) { volatile int ret = 0; ret = exception_tail_call_subprog(ctx); return ret + 8; } __noinline int exception_ext_global(struct __sk_buff *ctx) { volatile int ret = 0; return ret; } static __noinline int exception_ext_static(struct __sk_buff *ctx) { return exception_ext_global(ctx); } SEC("tc") int exception_ext(struct __sk_buff *ctx) { return exception_ext_static(ctx); } __noinline int exception_cb_mod_global(u64 cookie) { volatile int ret = 0; return ret; } /* Example of how the exception callback supplied during verification can still * introduce extensions by calling to dummy global functions, and alter runtime * behavior. * * Right now we don't allow freplace attachment to exception callback itself, * but if the need arises this restriction is technically feasible to relax in * the future. */ __noinline int exception_cb_mod(u64 cookie) { return exception_cb_mod_global(cookie) + cookie + 10; } SEC("tc") __exception_cb(exception_cb_mod) int exception_ext_mod_cb_runtime(struct __sk_buff *ctx) { bpf_throw(25); return 0; } __noinline static int subprog(struct __sk_buff *ctx) { return bpf_ktime_get_ns(); } __noinline static int throwing_subprog(struct __sk_buff *ctx) { if (ctx->tstamp) bpf_throw(0); return bpf_ktime_get_ns(); } __noinline int global_subprog(struct __sk_buff *ctx) { return bpf_ktime_get_ns(); } __noinline int throwing_global_subprog(struct __sk_buff *ctx) { if (ctx->tstamp) bpf_throw(0); return bpf_ktime_get_ns(); } SEC("tc") int exception_throw_subprog(struct __sk_buff *ctx) { switch (ctx->protocol) { case 1: return subprog(ctx); case 2: return global_subprog(ctx); case 3: return throwing_subprog(ctx); case 4: return throwing_global_subprog(ctx); default: break; } bpf_throw(1); return 0; } __noinline int assert_nz_gfunc(u64 c) { volatile u64 cookie = c; bpf_assert(cookie != 0); return 0; } __noinline int assert_zero_gfunc(u64 c) { volatile u64 cookie = c; bpf_assert(bpf_cmp_unlikely(cookie, ==, 0)); return 0; } __noinline int assert_neg_gfunc(s64 c) { volatile s64 cookie = c; bpf_assert(bpf_cmp_unlikely(cookie, <, 0)); return 0; } __noinline int assert_pos_gfunc(s64 c) { volatile s64 cookie = c; bpf_assert(bpf_cmp_unlikely(cookie, >, 0)); return 0; } __noinline int assert_negeq_gfunc(s64 c) { volatile s64 cookie = c; bpf_assert(bpf_cmp_unlikely(cookie, <=, -1)); return 0; } __noinline int assert_poseq_gfunc(s64 c) { volatile s64 cookie = c; bpf_assert(bpf_cmp_unlikely(cookie, >=, 1)); return 0; } __noinline int assert_nz_gfunc_with(u64 c) { volatile u64 cookie = c; bpf_assert_with(cookie != 0, cookie + 100); return 0; } __noinline int assert_zero_gfunc_with(u64 c) { volatile u64 cookie = c; bpf_assert_with(bpf_cmp_unlikely(cookie, ==, 0), cookie + 100); return 0; } __noinline int assert_neg_gfunc_with(s64 c) { volatile s64 cookie = c; bpf_assert_with(bpf_cmp_unlikely(cookie, <, 0), cookie + 100); return 0; } __noinline int assert_pos_gfunc_with(s64 c) { volatile s64 cookie = c; bpf_assert_with(bpf_cmp_unlikely(cookie, >, 0), cookie + 100); return 0; } __noinline int assert_negeq_gfunc_with(s64 c) { volatile s64 cookie = c; bpf_assert_with(bpf_cmp_unlikely(cookie, <=, -1), cookie + 100); return 0; } __noinline int assert_poseq_gfunc_with(s64 c) { volatile s64 cookie = c; bpf_assert_with(bpf_cmp_unlikely(cookie, >=, 1), cookie + 100); return 0; } #define check_assert(name, cookie, tag) \ SEC("tc") \ int exception##tag##name(struct __sk_buff *ctx) \ { \ return name(cookie) + 1; \ } check_assert(assert_nz_gfunc, 5, _); check_assert(assert_zero_gfunc, 0, _); check_assert(assert_neg_gfunc, -100, _); check_assert(assert_pos_gfunc, 100, _); check_assert(assert_negeq_gfunc, -1, _); check_assert(assert_poseq_gfunc, 1, _); check_assert(assert_nz_gfunc_with, 5, _); check_assert(assert_zero_gfunc_with, 0, _); check_assert(assert_neg_gfunc_with, -100, _); check_assert(assert_pos_gfunc_with, 100, _); check_assert(assert_negeq_gfunc_with, -1, _); check_assert(assert_poseq_gfunc_with, 1, _); check_assert(assert_nz_gfunc, 0, _bad_); check_assert(assert_zero_gfunc, 5, _bad_); check_assert(assert_neg_gfunc, 100, _bad_); check_assert(assert_pos_gfunc, -100, _bad_); check_assert(assert_negeq_gfunc, 1, _bad_); check_assert(assert_poseq_gfunc, -1, _bad_); check_assert(assert_nz_gfunc_with, 0, _bad_); check_assert(assert_zero_gfunc_with, 5, _bad_); check_assert(assert_neg_gfunc_with, 100, _bad_); check_assert(assert_pos_gfunc_with, -100, _bad_); check_assert(assert_negeq_gfunc_with, 1, _bad_); check_assert(assert_poseq_gfunc_with, -1, _bad_); SEC("tc") int exception_assert_range(struct __sk_buff *ctx) { u64 time = bpf_ktime_get_ns(); bpf_assert_range(time, 0, ~0ULL); return 1; } SEC("tc") int exception_assert_range_with(struct __sk_buff *ctx) { u64 time = bpf_ktime_get_ns(); bpf_assert_range_with(time, 0, ~0ULL, 10); return 1; } SEC("tc") int exception_bad_assert_range(struct __sk_buff *ctx) { u64 time = bpf_ktime_get_ns(); bpf_assert_range(time, -100, 100); return 1; } SEC("tc") int exception_bad_assert_range_with(struct __sk_buff *ctx) { u64 time = bpf_ktime_get_ns(); bpf_assert_range_with(time, -1000, 1000, 10); return 1; } char _license[] SEC("license") = "GPL";
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