forked from Minki/linux
c9c324dc22
The ORC unwinder showed a warning [1] which revealed the stack layout
didn't match what was expected. The problem was that paravirt patching
had replaced "CALL *pv_ops.irq.save_fl" with "PUSHF;POP". That changed
the stack layout between the PUSHF and the POP, so unwinding from an
interrupt which occurred between those two instructions would fail.
Part of the agreed upon solution was to rework the custom paravirt
patching code to use alternatives instead, since objtool already knows
how to read alternatives (and converging runtime patching infrastructure
is always a good thing anyway). But the main problem still remains,
which is that runtime patching can change the stack layout.
Making stack layout changes in alternatives was disallowed with commit
7117f16bf4
("objtool: Fix ORC vs alternatives"), but now that paravirt
is going to be doing it, it needs to be supported.
One way to do so would be to modify the ORC table when the code gets
patched. But ORC is simple -- a good thing! -- and it's best to leave
it alone.
Instead, support stack layout changes by "flattening" all possible stack
states (CFI) from parallel alternative code streams into a single set of
linear states. The only necessary limitation is that CFI conflicts are
disallowed at all possible instruction boundaries.
For example, this scenario is allowed:
Alt1 Alt2 Alt3
0x00 CALL *pv_ops.save_fl CALL xen_save_fl PUSHF
0x01 POP %RAX
0x02 NOP
...
0x05 NOP
...
0x07 <insn>
The unwind information for offset-0x00 is identical for all 3
alternatives. Similarly offset-0x05 and higher also are identical (and
the same as 0x00). However offset-0x01 has deviating CFI, but that is
only relevant for Alt3, neither of the other alternative instruction
streams will ever hit that offset.
This scenario is NOT allowed:
Alt1 Alt2
0x00 CALL *pv_ops.save_fl PUSHF
0x01 NOP6
...
0x07 NOP POP %RAX
The problem here is that offset-0x7, which is an instruction boundary in
both possible instruction patch streams, has two conflicting stack
layouts.
[ The above examples were stolen from Peter Zijlstra. ]
The new flattened CFI array is used both for the detection of conflicts
(like the second example above) and the generation of linear ORC
entries.
BTW, another benefit of these changes is that, thanks to some related
cleanups (new fake nops and alt_group struct) objtool can finally be rid
of fake jumps, which were a constant source of headaches.
[1] https://lkml.kernel.org/r/20201111170536.arx2zbn4ngvjoov7@treble
Cc: Shinichiro Kawasaki <shinichiro.kawasaki@wdc.com>
Signed-off-by: Josh Poimboeuf <jpoimboe@redhat.com>
361 lines
15 KiB
Plaintext
361 lines
15 KiB
Plaintext
Compile-time stack metadata validation
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======================================
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Overview
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--------
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The kernel CONFIG_STACK_VALIDATION option enables a host tool named
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objtool which runs at compile time. It has a "check" subcommand which
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analyzes every .o file and ensures the validity of its stack metadata.
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It enforces a set of rules on asm code and C inline assembly code so
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that stack traces can be reliable.
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For each function, it recursively follows all possible code paths and
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validates the correct frame pointer state at each instruction.
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It also follows code paths involving special sections, like
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.altinstructions, __jump_table, and __ex_table, which can add
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alternative execution paths to a given instruction (or set of
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instructions). Similarly, it knows how to follow switch statements, for
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which gcc sometimes uses jump tables.
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(Objtool also has an 'orc generate' subcommand which generates debuginfo
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for the ORC unwinder. See Documentation/x86/orc-unwinder.rst in the
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kernel tree for more details.)
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Why do we need stack metadata validation?
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-----------------------------------------
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Here are some of the benefits of validating stack metadata:
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a) More reliable stack traces for frame pointer enabled kernels
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Frame pointers are used for debugging purposes. They allow runtime
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code and debug tools to be able to walk the stack to determine the
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chain of function call sites that led to the currently executing
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code.
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For some architectures, frame pointers are enabled by
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CONFIG_FRAME_POINTER. For some other architectures they may be
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required by the ABI (sometimes referred to as "backchain pointers").
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For C code, gcc automatically generates instructions for setting up
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frame pointers when the -fno-omit-frame-pointer option is used.
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But for asm code, the frame setup instructions have to be written by
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hand, which most people don't do. So the end result is that
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CONFIG_FRAME_POINTER is honored for C code but not for most asm code.
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For stack traces based on frame pointers to be reliable, all
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functions which call other functions must first create a stack frame
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and update the frame pointer. If a first function doesn't properly
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create a stack frame before calling a second function, the *caller*
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of the first function will be skipped on the stack trace.
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For example, consider the following example backtrace with frame
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pointers enabled:
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[<ffffffff81812584>] dump_stack+0x4b/0x63
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[<ffffffff812d6dc2>] cmdline_proc_show+0x12/0x30
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[<ffffffff8127f568>] seq_read+0x108/0x3e0
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[<ffffffff812cce62>] proc_reg_read+0x42/0x70
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[<ffffffff81256197>] __vfs_read+0x37/0x100
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[<ffffffff81256b16>] vfs_read+0x86/0x130
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[<ffffffff81257898>] SyS_read+0x58/0xd0
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[<ffffffff8181c1f2>] entry_SYSCALL_64_fastpath+0x12/0x76
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It correctly shows that the caller of cmdline_proc_show() is
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seq_read().
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If we remove the frame pointer logic from cmdline_proc_show() by
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replacing the frame pointer related instructions with nops, here's
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what it looks like instead:
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[<ffffffff81812584>] dump_stack+0x4b/0x63
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[<ffffffff812d6dc2>] cmdline_proc_show+0x12/0x30
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[<ffffffff812cce62>] proc_reg_read+0x42/0x70
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[<ffffffff81256197>] __vfs_read+0x37/0x100
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[<ffffffff81256b16>] vfs_read+0x86/0x130
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[<ffffffff81257898>] SyS_read+0x58/0xd0
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[<ffffffff8181c1f2>] entry_SYSCALL_64_fastpath+0x12/0x76
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Notice that cmdline_proc_show()'s caller, seq_read(), has been
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skipped. Instead the stack trace seems to show that
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cmdline_proc_show() was called by proc_reg_read().
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The benefit of objtool here is that because it ensures that *all*
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functions honor CONFIG_FRAME_POINTER, no functions will ever[*] be
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skipped on a stack trace.
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[*] unless an interrupt or exception has occurred at the very
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beginning of a function before the stack frame has been created,
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or at the very end of the function after the stack frame has been
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destroyed. This is an inherent limitation of frame pointers.
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b) ORC (Oops Rewind Capability) unwind table generation
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An alternative to frame pointers and DWARF, ORC unwind data can be
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used to walk the stack. Unlike frame pointers, ORC data is out of
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band. So it doesn't affect runtime performance and it can be
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reliable even when interrupts or exceptions are involved.
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For more details, see Documentation/x86/orc-unwinder.rst.
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c) Higher live patching compatibility rate
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Livepatch has an optional "consistency model", which is needed for
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more complex patches. In order for the consistency model to work,
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stack traces need to be reliable (or an unreliable condition needs to
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be detectable). Objtool makes that possible.
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For more details, see the livepatch documentation in the Linux kernel
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source tree at Documentation/livepatch/livepatch.rst.
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Rules
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-----
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To achieve the validation, objtool enforces the following rules:
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1. Each callable function must be annotated as such with the ELF
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function type. In asm code, this is typically done using the
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ENTRY/ENDPROC macros. If objtool finds a return instruction
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outside of a function, it flags an error since that usually indicates
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callable code which should be annotated accordingly.
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This rule is needed so that objtool can properly identify each
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callable function in order to analyze its stack metadata.
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2. Conversely, each section of code which is *not* callable should *not*
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be annotated as an ELF function. The ENDPROC macro shouldn't be used
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in this case.
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This rule is needed so that objtool can ignore non-callable code.
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Such code doesn't have to follow any of the other rules.
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3. Each callable function which calls another function must have the
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correct frame pointer logic, if required by CONFIG_FRAME_POINTER or
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the architecture's back chain rules. This can by done in asm code
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with the FRAME_BEGIN/FRAME_END macros.
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This rule ensures that frame pointer based stack traces will work as
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designed. If function A doesn't create a stack frame before calling
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function B, the _caller_ of function A will be skipped on the stack
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trace.
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4. Dynamic jumps and jumps to undefined symbols are only allowed if:
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a) the jump is part of a switch statement; or
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b) the jump matches sibling call semantics and the frame pointer has
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the same value it had on function entry.
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This rule is needed so that objtool can reliably analyze all of a
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function's code paths. If a function jumps to code in another file,
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and it's not a sibling call, objtool has no way to follow the jump
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because it only analyzes a single file at a time.
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5. A callable function may not execute kernel entry/exit instructions.
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The only code which needs such instructions is kernel entry code,
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which shouldn't be be in callable functions anyway.
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This rule is just a sanity check to ensure that callable functions
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return normally.
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Objtool warnings
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----------------
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For asm files, if you're getting an error which doesn't make sense,
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first make sure that the affected code follows the above rules.
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For C files, the common culprits are inline asm statements and calls to
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"noreturn" functions. See below for more details.
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Another possible cause for errors in C code is if the Makefile removes
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-fno-omit-frame-pointer or adds -fomit-frame-pointer to the gcc options.
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Here are some examples of common warnings reported by objtool, what
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they mean, and suggestions for how to fix them.
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1. file.o: warning: objtool: func()+0x128: call without frame pointer save/setup
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The func() function made a function call without first saving and/or
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updating the frame pointer, and CONFIG_FRAME_POINTER is enabled.
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If the error is for an asm file, and func() is indeed a callable
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function, add proper frame pointer logic using the FRAME_BEGIN and
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FRAME_END macros. Otherwise, if it's not a callable function, remove
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its ELF function annotation by changing ENDPROC to END, and instead
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use the manual unwind hint macros in asm/unwind_hints.h.
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If it's a GCC-compiled .c file, the error may be because the function
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uses an inline asm() statement which has a "call" instruction. An
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asm() statement with a call instruction must declare the use of the
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stack pointer in its output operand. On x86_64, this means adding
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the ASM_CALL_CONSTRAINT as an output constraint:
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asm volatile("call func" : ASM_CALL_CONSTRAINT);
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Otherwise the stack frame may not get created before the call.
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2. file.o: warning: objtool: .text+0x53: unreachable instruction
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Objtool couldn't find a code path to reach the instruction.
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If the error is for an asm file, and the instruction is inside (or
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reachable from) a callable function, the function should be annotated
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with the ENTRY/ENDPROC macros (ENDPROC is the important one).
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Otherwise, the code should probably be annotated with the unwind hint
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macros in asm/unwind_hints.h so objtool and the unwinder can know the
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stack state associated with the code.
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If you're 100% sure the code won't affect stack traces, or if you're
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a just a bad person, you can tell objtool to ignore it. See the
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"Adding exceptions" section below.
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If it's not actually in a callable function (e.g. kernel entry code),
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change ENDPROC to END.
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4. file.o: warning: objtool: func(): can't find starting instruction
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or
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file.o: warning: objtool: func()+0x11dd: can't decode instruction
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Does the file have data in a text section? If so, that can confuse
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objtool's instruction decoder. Move the data to a more appropriate
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section like .data or .rodata.
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5. file.o: warning: objtool: func()+0x6: unsupported instruction in callable function
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This is a kernel entry/exit instruction like sysenter or iret. Such
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instructions aren't allowed in a callable function, and are most
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likely part of the kernel entry code. They should usually not have
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the callable function annotation (ENDPROC) and should always be
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annotated with the unwind hint macros in asm/unwind_hints.h.
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6. file.o: warning: objtool: func()+0x26: sibling call from callable instruction with modified stack frame
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This is a dynamic jump or a jump to an undefined symbol. Objtool
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assumed it's a sibling call and detected that the frame pointer
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wasn't first restored to its original state.
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If it's not really a sibling call, you may need to move the
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destination code to the local file.
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If the instruction is not actually in a callable function (e.g.
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kernel entry code), change ENDPROC to END and annotate manually with
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the unwind hint macros in asm/unwind_hints.h.
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7. file: warning: objtool: func()+0x5c: stack state mismatch
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The instruction's frame pointer state is inconsistent, depending on
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which execution path was taken to reach the instruction.
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Make sure that, when CONFIG_FRAME_POINTER is enabled, the function
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pushes and sets up the frame pointer (for x86_64, this means rbp) at
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the beginning of the function and pops it at the end of the function.
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Also make sure that no other code in the function touches the frame
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pointer.
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Another possibility is that the code has some asm or inline asm which
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does some unusual things to the stack or the frame pointer. In such
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cases it's probably appropriate to use the unwind hint macros in
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asm/unwind_hints.h.
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8. file.o: warning: objtool: funcA() falls through to next function funcB()
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This means that funcA() doesn't end with a return instruction or an
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unconditional jump, and that objtool has determined that the function
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can fall through into the next function. There could be different
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reasons for this:
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1) funcA()'s last instruction is a call to a "noreturn" function like
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panic(). In this case the noreturn function needs to be added to
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objtool's hard-coded global_noreturns array. Feel free to bug the
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objtool maintainer, or you can submit a patch.
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2) funcA() uses the unreachable() annotation in a section of code
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that is actually reachable.
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3) If funcA() calls an inline function, the object code for funcA()
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might be corrupt due to a gcc bug. For more details, see:
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https://gcc.gnu.org/bugzilla/show_bug.cgi?id=70646
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9. file.o: warning: objtool: funcA() call to funcB() with UACCESS enabled
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This means that an unexpected call to a non-whitelisted function exists
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outside of arch-specific guards.
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X86: SMAP (stac/clac): __uaccess_begin()/__uaccess_end()
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ARM: PAN: uaccess_enable()/uaccess_disable()
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These functions should be called to denote a minimal critical section around
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access to __user variables. See also: https://lwn.net/Articles/517475/
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The intention of the warning is to prevent calls to funcB() from eventually
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calling schedule(), potentially leaking the AC flags state, and not
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restoring them correctly.
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It also helps verify that there are no unexpected calls to funcB() which may
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access user space pages with protections against doing so disabled.
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To fix, either:
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1) remove explicit calls to funcB() from funcA().
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2) add the correct guards before and after calls to low level functions like
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__get_user_size()/__put_user_size().
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3) add funcB to uaccess_safe_builtin whitelist in tools/objtool/check.c, if
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funcB obviously does not call schedule(), and is marked notrace (since
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function tracing inserts additional calls, which is not obvious from the
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sources).
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10. file.o: warning: func()+0x5c: stack layout conflict in alternatives
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This means that in the use of the alternative() or ALTERNATIVE()
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macro, the code paths have conflicting modifications to the stack.
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The problem is that there is only one ORC unwind table, which means
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that the ORC unwind entries must be consistent for all possible
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instruction boundaries regardless of which code has been patched.
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This limitation can be overcome by massaging the alternatives with
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NOPs to shift the stack changes around so they no longer conflict.
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11. file.o: warning: unannotated intra-function call
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This warning means that a direct call is done to a destination which
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is not at the beginning of a function. If this is a legit call, you
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can remove this warning by putting the ANNOTATE_INTRA_FUNCTION_CALL
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directive right before the call.
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If the error doesn't seem to make sense, it could be a bug in objtool.
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Feel free to ask the objtool maintainer for help.
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Adding exceptions
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-----------------
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If you _really_ need objtool to ignore something, and are 100% sure
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that it won't affect kernel stack traces, you can tell objtool to
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ignore it:
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- To skip validation of a function, use the STACK_FRAME_NON_STANDARD
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macro.
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- To skip validation of a file, add
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OBJECT_FILES_NON_STANDARD_filename.o := y
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to the Makefile.
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- To skip validation of a directory, add
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OBJECT_FILES_NON_STANDARD := y
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to the Makefile.
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