bpf, x86: Improve PROBE_MEM runtime load check
This patch rewrites the runtime PROBE_MEM check insns emitted by the BPF JIT in order to ensure load safety. The changes in the patch fix two issues with the previous logic and more generally improve size of emitted code. Paragraphs between this one and "FIX 1" below explain the purpose of the runtime check and examine the current implementation. When a load is marked PROBE_MEM - e.g. due to PTR_UNTRUSTED access - the address being loaded from is not necessarily valid. The BPF jit sets up exception handlers for each such load which catch page faults and 0 out the destination register. Arbitrary register-relative loads can escape this exception handling mechanism. Specifically, a load like dst_reg = *(src_reg + off) will not trigger BPF exception handling if (src_reg + off) is outside of kernel address space, resulting in an uncaught page fault. A concrete example of such behavior is a program like: struct result { char space[40]; long a; }; /* if err, returns ERR_PTR(-EINVAL) */ struct result *ptr = get_ptr_maybe_err(); long x = ptr->a; If get_ptr_maybe_err returns ERR_PTR(-EINVAL) and the result isn't checked for err, 'result' will be (u64)-EINVAL, a number close to U64_MAX. The ptr->a load will be > U64_MAX and will wrap over to a small positive u64, which will be in userspace and thus not covered by BPF exception handling mechanism. In order to prevent such loads from occurring, the BPF jit emits some instructions which do runtime checking of (src_reg + off) and skip the actual load if it's out of range. As an example, here are instructions emitted for a %rdi = *(%rdi + 0x10) PROBE_MEM load: 72: movabs $0x800000000010,%r11 --| 7c: cmp %r11,%rdi |- 72 - 7f: Check 1 7f: jb 0x000000000000008d --| 81: mov %rdi,%r11 -----| 84: add $0x0000000000000010,%r11 |- 81-8b: Check 2 8b: jnc 0x0000000000000091 -----| 8d: xor %edi,%edi ---- 0 out dest 8f: jmp 0x0000000000000095 91: mov 0x10(%rdi),%rdi ---- Actual load 95: The JIT considers kernel address space to start at MAX_TASK_SIZE + PAGE_SIZE. Determining whether a load will be outside of kernel address space should be a simple check: (src_reg + off) >= MAX_TASK_SIZE + PAGE_SIZE But because there is only one spare register when the checking logic is emitted, this logic is split into two checks: Check 1: src_reg >= (MAX_TASK_SIZE + PAGE_SIZE - off) Check 2: src_reg + off doesn't wrap over U64_MAX and result in small pos u64 Emitted insns implementing Checks 1 and 2 are annotated in the above example. Check 1 can be done with a single spare register since the source reg by definition is the left-hand-side of the inequality. Since adding 'off' to both sides of Check 1's inequality results in the original inequality we want, it's equivalent to testing that inequality. Except in the case where src_reg + off wraps past U64_MAX, which is why Check 2 needs to actually add src_reg + off if Check 1 passes - again using the single spare reg. FIX 1: The Check 1 inequality listed above is not what current code is doing. Current code is a bit more pessimistic, instead checking: src_reg >= (MAX_TASK_SIZE + PAGE_SIZE + abs(off)) The 0x800000000010 in above example is from this current check. If Check 1 was corrected to use the correct right-hand-side, the value would be 0x7ffffffffff0. This patch changes the checking logic more broadly (FIX 2 below will elaborate), fixing this issue as a side-effect of the rewrite. Regardless, it's important to understand why Check 1 should've been doing MAX_TASK_SIZE + PAGE_SIZE - off before proceeding. FIX 2: Current code relies on a 'jnc' to determine whether src_reg + off addition wrapped over. For negative offsets this logic is incorrect. Consider Check 2 insns emitted when off = -0x10: 81: mov %rdi,%r11 84: add 0xfffffffffffffff0,%r11 8b: jnc 0x0000000000000091 2's complement representation of -0x10 is a large positive u64. Any value of src_reg that passes Check 1 will result in carry flag being set after (src_reg + off) addition. So a load with any negative offset will always fail Check 2 at runtime and never do the actual load. This patch fixes the negative offset issue by rewriting both checks in order to not rely on carry flag. The rewrite takes advantage of the fact that, while we only have one scratch reg to hold arbitrary values, we know the offset at JIT time. This we can use src_reg as a temporary scratch reg to hold src_reg + offset since we can return it to its original value by later subtracting offset. As a result we can directly check the original inequality we care about: (src_reg + off) >= MAX_TASK_SIZE + PAGE_SIZE For a load like %rdi = *(%rsi + -0x10), this results in emitted code: 43: movabs $0x800000000000,%r11 4d: add $0xfffffffffffffff0,%rsi --- src_reg += off 54: cmp %r11,%rsi --- Check original inequality 57: jae 0x000000000000005d 59: xor %edi,%edi 5b: jmp 0x0000000000000061 5d: mov 0x0(%rdi),%rsi --- Actual Load 61: sub $0xfffffffffffffff0,%rsi --- src_reg -= off Note that the actual load is always done with offset 0, since previous insns have already done src_reg += off. Regardless of whether the new check succeeds or fails, insn 61 is always executed, returning src_reg to its original value. Because the goal of these checks is to ensure that loaded-from address will be protected by BPF exception handler, the new check can safely ignore any wrapover from insn 4d. If such wrapped-over address passes insn 54 + 57's cmp-and-jmp it will have such protection so the load can proceed. IMPROVEMENTS: The above improved logic is 8 insns vs original logic's 9, and has 1 fewer jmp. The number of checking insns can be further improved in common scenarios: If src_reg == dst_reg, the actual load insn will clobber src_reg, so there's no original src_reg state for the sub insn immediately following the load to restore, so it can be omitted. In fact, it must be omitted since it would incorrectly subtract from the result of the load if it wasn't. So for src_reg == dst_reg, JIT emits these insns: 3c: movabs $0x800000000000,%r11 46: add $0xfffffffffffffff0,%rdi 4d: cmp %r11,%rdi 50: jae 0x0000000000000056 52: xor %edi,%edi 54: jmp 0x000000000000005a 56: mov 0x0(%rdi),%rdi 5a: The only difference from larger example being the omitted sub, which would've been insn 5a in this example. If offset == 0, we can similarly omit the sub as in previous case, since there's nothing added to subtract. For the same reason we can omit the addition as well, resulting in JIT emitting these insns: 46: movabs $0x800000000000,%r11 4d: cmp %r11,%rdi 50: jae 0x0000000000000056 52: xor %edi,%edi 54: jmp 0x000000000000005a 56: mov 0x0(%rdi),%rdi 5a: Although the above example also has src_reg == dst_reg, the same offset == 0 optimization is valid to apply if src_reg != dst_reg. To summarize the improvements in emitted insn count for the check-and-load: BEFORE: 8 check insns, 3 jmps AFTER (general case): 7 check insns, 2 jmps (12.5% fewer insn, 33% jmp) AFTER (src == dst): 6 check insns, 2 jmps (25% fewer insn) AFTER (offset == 0): 5 check insns, 2 jmps (37.5% fewer insn) (Above counts don't include the 1 load insn, just checking around it) Based on BPF bytecode + JITted x86 insn I saw while experimenting with these improvements, I expect the src_reg == dst_reg case to occur most often, followed by offset == 0, then the general case. Signed-off-by: Dave Marchevsky <davemarchevsky@fb.com> Signed-off-by: Daniel Borkmann <daniel@iogearbox.net> Acked-by: Yonghong Song <yhs@fb.com> Link: https://lore.kernel.org/bpf/20221216214319.3408356-1-davemarchevsky@fb.com
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@ -992,6 +992,7 @@ static int do_jit(struct bpf_prog *bpf_prog, int *addrs, u8 *image, u8 *rw_image
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u8 b2 = 0, b3 = 0;
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u8 *start_of_ldx;
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s64 jmp_offset;
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s16 insn_off;
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u8 jmp_cond;
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u8 *func;
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int nops;
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@ -1358,57 +1359,52 @@ st: if (is_imm8(insn->off))
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case BPF_LDX | BPF_PROBE_MEM | BPF_W:
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case BPF_LDX | BPF_MEM | BPF_DW:
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case BPF_LDX | BPF_PROBE_MEM | BPF_DW:
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if (BPF_MODE(insn->code) == BPF_PROBE_MEM) {
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/* Though the verifier prevents negative insn->off in BPF_PROBE_MEM
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* add abs(insn->off) to the limit to make sure that negative
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* offset won't be an issue.
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* insn->off is s16, so it won't affect valid pointers.
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*/
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u64 limit = TASK_SIZE_MAX + PAGE_SIZE + abs(insn->off);
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u8 *end_of_jmp1, *end_of_jmp2;
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insn_off = insn->off;
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if (BPF_MODE(insn->code) == BPF_PROBE_MEM) {
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/* Conservatively check that src_reg + insn->off is a kernel address:
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* 1. src_reg + insn->off >= limit
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* 2. src_reg + insn->off doesn't become small positive.
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* Cannot do src_reg + insn->off >= limit in one branch,
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* since it needs two spare registers, but JIT has only one.
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* src_reg + insn->off >= TASK_SIZE_MAX + PAGE_SIZE
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* src_reg is used as scratch for src_reg += insn->off and restored
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* after emit_ldx if necessary
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*/
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u64 limit = TASK_SIZE_MAX + PAGE_SIZE;
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u8 *end_of_jmp;
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/* At end of these emitted checks, insn->off will have been added
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* to src_reg, so no need to do relative load with insn->off offset
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*/
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insn_off = 0;
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/* movabsq r11, limit */
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EMIT2(add_1mod(0x48, AUX_REG), add_1reg(0xB8, AUX_REG));
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EMIT((u32)limit, 4);
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EMIT(limit >> 32, 4);
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if (insn->off) {
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/* add src_reg, insn->off */
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maybe_emit_1mod(&prog, src_reg, true);
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EMIT2_off32(0x81, add_1reg(0xC0, src_reg), insn->off);
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}
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/* cmp src_reg, r11 */
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maybe_emit_mod(&prog, src_reg, AUX_REG, true);
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EMIT2(0x39, add_2reg(0xC0, src_reg, AUX_REG));
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/* if unsigned '<' goto end_of_jmp2 */
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EMIT2(X86_JB, 0);
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end_of_jmp1 = prog;
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/* mov r11, src_reg */
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emit_mov_reg(&prog, true, AUX_REG, src_reg);
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/* add r11, insn->off */
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maybe_emit_1mod(&prog, AUX_REG, true);
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EMIT2_off32(0x81, add_1reg(0xC0, AUX_REG), insn->off);
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/* jmp if not carry to start_of_ldx
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* Otherwise ERR_PTR(-EINVAL) + 128 will be the user addr
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* that has to be rejected.
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*/
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EMIT2(0x73 /* JNC */, 0);
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end_of_jmp2 = prog;
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/* if unsigned '>=', goto load */
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EMIT2(X86_JAE, 0);
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end_of_jmp = prog;
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/* xor dst_reg, dst_reg */
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emit_mov_imm32(&prog, false, dst_reg, 0);
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/* jmp byte_after_ldx */
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EMIT2(0xEB, 0);
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/* populate jmp_offset for JB above to jump to xor dst_reg */
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end_of_jmp1[-1] = end_of_jmp2 - end_of_jmp1;
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/* populate jmp_offset for JNC above to jump to start_of_ldx */
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/* populate jmp_offset for JAE above to jump to start_of_ldx */
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start_of_ldx = prog;
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end_of_jmp2[-1] = start_of_ldx - end_of_jmp2;
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end_of_jmp[-1] = start_of_ldx - end_of_jmp;
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}
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emit_ldx(&prog, BPF_SIZE(insn->code), dst_reg, src_reg, insn->off);
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emit_ldx(&prog, BPF_SIZE(insn->code), dst_reg, src_reg, insn_off);
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if (BPF_MODE(insn->code) == BPF_PROBE_MEM) {
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struct exception_table_entry *ex;
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u8 *_insn = image + proglen + (start_of_ldx - temp);
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@ -1417,6 +1413,18 @@ st: if (is_imm8(insn->off))
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/* populate jmp_offset for JMP above */
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start_of_ldx[-1] = prog - start_of_ldx;
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if (insn->off && src_reg != dst_reg) {
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/* sub src_reg, insn->off
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* Restore src_reg after "add src_reg, insn->off" in prev
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* if statement. But if src_reg == dst_reg, emit_ldx
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* above already clobbered src_reg, so no need to restore.
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* If add src_reg, insn->off was unnecessary, no need to
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* restore either.
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*/
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maybe_emit_1mod(&prog, src_reg, true);
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EMIT2_off32(0x81, add_1reg(0xE8, src_reg), insn->off);
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}
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if (!bpf_prog->aux->extable)
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break;
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