@@ -341,4 +341,319 @@ __naked void precision_two_ids(void)
: __clobber_all);
}
+/* Verify that check_ids() is used by regsafe() for scalars.
+ *
+ * r9 = ... some pointer with range X ...
+ * r6 = ... unbound scalar ID=a ...
+ * r7 = ... unbound scalar ID=b ...
+ * if (r6 > r7) goto +1
+ * r7 = r6
+ * if (r7 > X) goto exit
+ * r9 += r6
+ * ... access memory using r9 ...
+ *
+ * The memory access is safe only if r7 is bounded,
+ * which is true for one branch and not true for another.
+ */
+SEC("socket")
+__failure __msg("register with unbounded min value")
+__flag(BPF_F_TEST_STATE_FREQ)
+__naked void check_ids_in_regsafe(void)
+{
+ asm volatile (
+ /* Bump allocated stack */
+ "r1 = 0;"
+ "*(u64*)(r10 - 8) = r1;"
+ /* r9 = pointer to stack */
+ "r9 = r10;"
+ "r9 += -8;"
+ /* r7 = ktime_get_ns() */
+ "call %[bpf_ktime_get_ns];"
+ "r7 = r0;"
+ /* r6 = ktime_get_ns() */
+ "call %[bpf_ktime_get_ns];"
+ "r6 = r0;"
+ /* if r6 > r7 is an unpredictable jump */
+ "if r6 > r7 goto l1_%=;"
+ "r7 = r6;"
+"l1_%=:"
+ /* if r7 > 4 ...; transfers range to r6 on one execution path
+ * but does not transfer on another
+ */
+ "if r7 > 4 goto l2_%=;"
+ /* Access memory at r9[r6], r6 is not always bounded */
+ "r9 += r6;"
+ "r0 = *(u8*)(r9 + 0);"
+"l2_%=:"
+ "r0 = 0;"
+ "exit;"
+ :
+ : __imm(bpf_ktime_get_ns)
+ : __clobber_all);
+}
+
+/* Similar to check_ids_in_regsafe.
+ * The l0 could be reached in two states:
+ *
+ * (1) r6{.id=A}, r7{.id=A}, r8{.id=B}
+ * (2) r6{.id=B}, r7{.id=A}, r8{.id=B}
+ *
+ * Where (2) is not safe, as "r7 > 4" check won't propagate range for it.
+ * This example would be considered safe without changes to
+ * mark_chain_precision() to track scalar values with equal IDs.
+ */
+SEC("socket")
+__failure __msg("register with unbounded min value")
+__flag(BPF_F_TEST_STATE_FREQ)
+__naked void check_ids_in_regsafe_2(void)
+{
+ asm volatile (
+ /* Bump allocated stack */
+ "r1 = 0;"
+ "*(u64*)(r10 - 8) = r1;"
+ /* r9 = pointer to stack */
+ "r9 = r10;"
+ "r9 += -8;"
+ /* r8 = ktime_get_ns() */
+ "call %[bpf_ktime_get_ns];"
+ "r8 = r0;"
+ /* r7 = ktime_get_ns() */
+ "call %[bpf_ktime_get_ns];"
+ "r7 = r0;"
+ /* r6 = ktime_get_ns() */
+ "call %[bpf_ktime_get_ns];"
+ "r6 = r0;"
+ /* scratch .id from r0 */
+ "r0 = 0;"
+ /* if r6 > r7 is an unpredictable jump */
+ "if r6 > r7 goto l1_%=;"
+ /* tie r6 and r7 .id */
+ "r6 = r7;"
+"l0_%=:"
+ /* if r7 > 4 exit(0) */
+ "if r7 > 4 goto l2_%=;"
+ /* Access memory at r9[r6] */
+ "r9 += r6;"
+ "r0 = *(u8*)(r9 + 0);"
+"l2_%=:"
+ "r0 = 0;"
+ "exit;"
+"l1_%=:"
+ /* tie r6 and r8 .id */
+ "r6 = r8;"
+ "goto l0_%=;"
+ :
+ : __imm(bpf_ktime_get_ns)
+ : __clobber_all);
+}
+
+/* Check that scalar IDs *are not* generated on register to register
+ * assignments if source register is a constant.
+ *
+ * If such IDs *are* generated the 'l1' below would be reached in
+ * two states:
+ *
+ * (1) r1{.id=A}, r2{.id=A}
+ * (2) r1{.id=C}, r2{.id=C}
+ *
+ * Thus forcing 'if r1 == r2' verification twice.
+ */
+SEC("socket")
+__success __log_level(2)
+__msg("11: (1d) if r3 == r4 goto pc+0")
+__msg("frame 0: propagating r3,r4")
+__msg("11: safe")
+__msg("processed 15 insns")
+__flag(BPF_F_TEST_STATE_FREQ)
+__naked void no_scalar_id_for_const(void)
+{
+ asm volatile (
+ "call %[bpf_ktime_get_ns];"
+ /* unpredictable jump */
+ "if r0 > 7 goto l0_%=;"
+ /* possibly generate same scalar ids for r3 and r4 */
+ "r1 = 0;"
+ "r1 = r1;"
+ "r3 = r1;"
+ "r4 = r1;"
+ "goto l1_%=;"
+"l0_%=:"
+ /* possibly generate different scalar ids for r3 and r4 */
+ "r1 = 0;"
+ "r2 = 0;"
+ "r3 = r1;"
+ "r4 = r2;"
+"l1_%=:"
+ /* predictable jump, marks r3 and r4 precise */
+ "if r3 == r4 goto +0;"
+ "r0 = 0;"
+ "exit;"
+ :
+ : __imm(bpf_ktime_get_ns)
+ : __clobber_all);
+}
+
+/* Same as no_scalar_id_for_const() but for 32-bit values */
+SEC("socket")
+__success __log_level(2)
+__msg("11: (1e) if w3 == w4 goto pc+0")
+__msg("frame 0: propagating r3,r4")
+__msg("11: safe")
+__msg("processed 15 insns")
+__flag(BPF_F_TEST_STATE_FREQ)
+__naked void no_scalar_id_for_const32(void)
+{
+ asm volatile (
+ "call %[bpf_ktime_get_ns];"
+ /* unpredictable jump */
+ "if r0 > 7 goto l0_%=;"
+ /* possibly generate same scalar ids for r3 and r4 */
+ "w1 = 0;"
+ "w1 = w1;"
+ "w3 = w1;"
+ "w4 = w1;"
+ "goto l1_%=;"
+"l0_%=:"
+ /* possibly generate different scalar ids for r3 and r4 */
+ "w1 = 0;"
+ "w2 = 0;"
+ "w3 = w1;"
+ "w4 = w2;"
+"l1_%=:"
+ /* predictable jump, marks r1 and r2 precise */
+ "if w3 == w4 goto +0;"
+ "r0 = 0;"
+ "exit;"
+ :
+ : __imm(bpf_ktime_get_ns)
+ : __clobber_all);
+}
+
+/* Check that unique scalar IDs are ignored when new verifier state is
+ * compared to cached verifier state. For this test:
+ * - cached state has no id on r1
+ * - new state has a unique id on r1
+ */
+SEC("socket")
+__success __log_level(2)
+__msg("6: (25) if r6 > 0x7 goto pc+1")
+__msg("7: (57) r1 &= 255")
+__msg("8: (bf) r2 = r10")
+__msg("from 6 to 8: safe")
+__msg("processed 12 insns")
+__flag(BPF_F_TEST_STATE_FREQ)
+__naked void ignore_unique_scalar_ids_cur(void)
+{
+ asm volatile (
+ "call %[bpf_ktime_get_ns];"
+ "r6 = r0;"
+ "call %[bpf_ktime_get_ns];"
+ "r0 &= 0xff;"
+ /* r1.id == r0.id */
+ "r1 = r0;"
+ /* make r1.id unique */
+ "r0 = 0;"
+ "if r6 > 7 goto l0_%=;"
+ /* clear r1 id, but keep the range compatible */
+ "r1 &= 0xff;"
+"l0_%=:"
+ /* get here in two states:
+ * - first: r1 has no id (cached state)
+ * - second: r1 has a unique id (should be considered equivalent)
+ */
+ "r2 = r10;"
+ "r2 += r1;"
+ "exit;"
+ :
+ : __imm(bpf_ktime_get_ns)
+ : __clobber_all);
+}
+
+/* Check that unique scalar IDs are ignored when new verifier state is
+ * compared to cached verifier state. For this test:
+ * - cached state has a unique id on r1
+ * - new state has no id on r1
+ */
+SEC("socket")
+__success __log_level(2)
+__msg("6: (25) if r6 > 0x7 goto pc+1")
+__msg("7: (05) goto pc+1")
+__msg("9: (bf) r2 = r10")
+__msg("9: safe")
+__msg("processed 13 insns")
+__flag(BPF_F_TEST_STATE_FREQ)
+__naked void ignore_unique_scalar_ids_old(void)
+{
+ asm volatile (
+ "call %[bpf_ktime_get_ns];"
+ "r6 = r0;"
+ "call %[bpf_ktime_get_ns];"
+ "r0 &= 0xff;"
+ /* r1.id == r0.id */
+ "r1 = r0;"
+ /* make r1.id unique */
+ "r0 = 0;"
+ "if r6 > 7 goto l1_%=;"
+ "goto l0_%=;"
+"l1_%=:"
+ /* clear r1 id, but keep the range compatible */
+ "r1 &= 0xff;"
+"l0_%=:"
+ /* get here in two states:
+ * - first: r1 has a unique id (cached state)
+ * - second: r1 has no id (should be considered equivalent)
+ */
+ "r2 = r10;"
+ "r2 += r1;"
+ "exit;"
+ :
+ : __imm(bpf_ktime_get_ns)
+ : __clobber_all);
+}
+
+/* Check that two different scalar IDs in a verified state can't be
+ * mapped to the same scalar ID in current state.
+ */
+SEC("socket")
+__success __log_level(2)
+/* The exit instruction should be reachable from two states,
+ * use two matches and "processed .. insns" to ensure this.
+ */
+__msg("13: (95) exit")
+__msg("13: (95) exit")
+__msg("processed 18 insns")
+__flag(BPF_F_TEST_STATE_FREQ)
+__naked void two_old_ids_one_cur_id(void)
+{
+ asm volatile (
+ /* Give unique scalar IDs to r{6,7} */
+ "call %[bpf_ktime_get_ns];"
+ "r0 &= 0xff;"
+ "r6 = r0;"
+ "call %[bpf_ktime_get_ns];"
+ "r0 &= 0xff;"
+ "r7 = r0;"
+ "r0 = 0;"
+ /* Maybe make r{6,7} IDs identical */
+ "if r6 > r7 goto l0_%=;"
+ "goto l1_%=;"
+"l0_%=:"
+ "r6 = r7;"
+"l1_%=:"
+ /* Mark r{6,7} precise.
+ * Get here in two states:
+ * - first: r6{.id=A}, r7{.id=B} (cached state)
+ * - second: r6{.id=A}, r7{.id=A}
+ * Currently we don't want to consider such states equivalent.
+ * Thus "exit;" would be verified twice.
+ */
+ "r2 = r10;"
+ "r2 += r6;"
+ "r2 += r7;"
+ "exit;"
+ :
+ : __imm(bpf_ktime_get_ns)
+ : __clobber_all);
+}
+
char _license[] SEC("license") = "GPL";
Verify that the following example is rejected by verifier: r9 = ... some pointer with range X ... r6 = ... unbound scalar ID=a ... r7 = ... unbound scalar ID=b ... if (r6 > r7) goto +1 r7 = r6 if (r7 > X) goto exit r9 += r6 *(u64 *)r9 = Y Also add test cases to: - check that check_alu_op() for BPF_MOV instruction does not allocate scalar ID if source register is a constant; - check that unique scalar IDs are ignored when new verifier state is compared to cached verifier state; - check that two different scalar IDs in a verified state can't be mapped to the same scalar ID in current state. Signed-off-by: Eduard Zingerman <eddyz87@gmail.com> --- .../selftests/bpf/progs/verifier_scalar_ids.c | 315 ++++++++++++++++++ 1 file changed, 315 insertions(+)