363 строки
14 KiB
Plaintext
363 строки
14 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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Currently it only checks frame pointer usage, but there are plans to add
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CFI validation for C files and CFI generation for asm files.
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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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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) 100% reliable stack traces for DWARF enabled kernels
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(NOTE: This is not yet implemented)
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As an alternative to frame pointers, DWARF Call Frame Information
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(CFI) metadata can be used to walk the stack. Unlike frame pointers,
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CFI metadata is out of band. So it doesn't affect runtime
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performance and it can be reliable even when interrupts or exceptions
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are involved.
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For C code, gcc automatically generates DWARF CFI metadata. But for
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asm code, generating CFI is a tedious manual approach which requires
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manually placed .cfi assembler macros to be scattered throughout the
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code. It's clumsy and very easy to get wrong, and it makes the real
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code harder to read.
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Stacktool will improve this situation in several ways. For code
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which already has CFI annotations, it will validate them. For code
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which doesn't have CFI annotations, it will generate them. So an
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architecture can opt to strip out all the manual .cfi annotations
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from their asm code and have objtool generate them instead.
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We might also add a runtime stack validation debug option where we
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periodically walk the stack from schedule() and/or an NMI to ensure
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that the stack metadata is sane and that we reach the bottom of the
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stack.
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So the benefit of objtool here will be that external tooling should
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always show perfect stack traces. And the same will be true for
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kernel warning/oops traces if the architecture has a runtime DWARF
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unwinder.
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c) Higher live patching compatibility rate
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(NOTE: This is not yet implemented)
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Currently with CONFIG_LIVEPATCH there's a basic live patching
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framework which is safe for roughly 85-90% of "security" fixes. But
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patches can't have complex features like function dependency or
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prototype changes, or data structure changes.
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There's a strong need to support patches which have the more complex
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features so that the patch compatibility rate for security fixes can
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eventually approach something resembling 100%. To achieve that, a
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"consistency model" is needed, which allows tasks to be safely
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transitioned from an unpatched state to a patched state.
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One of the key requirements of the currently proposed livepatch
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consistency model [*] is that it needs to walk the stack of each
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sleeping task to determine if it can be transitioned to the patched
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state. If objtool can ensure that stack traces are reliable, this
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consistency model can be used and the live patching compatibility
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rate can be improved significantly.
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[*] https://lkml.kernel.org/r/cover.1423499826.git.jpoimboe@redhat.com
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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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Errors in .S files
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------------------
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If you're getting an error in a compiled .S file which you don't
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understand, first make sure that the affected code follows the above
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rules.
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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. asm_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.
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If func() is indeed a callable function, add proper frame pointer
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logic using the FRAME_BEGIN and FRAME_END macros. Otherwise, remove
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its ELF function annotation by changing ENDPROC to END.
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If you're getting this error in a .c file, see the "Errors in .c
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files" section.
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2. asm_file.o: warning: objtool: .text+0x53: return instruction outside of a callable function
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A return instruction was detected, but objtool couldn't find a way
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for a callable function to reach the instruction.
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If the return instruction is inside (or reachable from) a callable
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function, the function needs to be annotated with the ENTRY/ENDPROC
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macros.
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If you _really_ need a return instruction outside of a function, and
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are 100% sure that it won't affect stack traces, you can tell
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objtool to ignore it. See the "Adding exceptions" section below.
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3. asm_file.o: warning: objtool: func()+0x9: function has unreachable instruction
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The instruction lives inside of a callable function, but there's no
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possible control flow path from the beginning of the function to the
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instruction.
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If the instruction is actually needed, and it's actually in a
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callable function, ensure that its function is properly annotated
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with ENTRY/ENDPROC.
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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. asm_file.o: warning: objtool: func(): can't find starting instruction
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or
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asm_file.o: warning: objtool: func()+0x11dd: can't decode instruction
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Did you put 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. asm_file.o: warning: objtool: func()+0x6: kernel entry/exit from callable instruction
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This is a kernel entry/exit instruction like sysenter or sysret.
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Such instructions aren't allowed in a callable function, and are most
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likely part of the kernel entry code.
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If the instruction isn't actually in a callable function, change
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ENDPROC to END.
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6. asm_file.o: warning: objtool: func()+0x26: sibling call from callable instruction with changed frame pointer
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This is a dynamic jump or a jump to an undefined symbol. Stacktool
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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.
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7. asm_file: warning: objtool: func()+0x5c: frame pointer 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 the function pushes and sets up the frame pointer (for
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x86_64, this means rbp) at the beginning of the function and pops it
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at the end of the function. Also make sure that no other code in the
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function touches the frame pointer.
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Errors in .c files
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------------------
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1. c_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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2. If you're getting any other objtool error in a compiled .c file, it
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may be because the file uses an asm() statement which has a "call"
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instruction. An asm() statement with a call instruction must declare
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the use of the stack pointer in its output operand. For example, on
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x86_64:
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register void *__sp asm("rsp");
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asm volatile("call func" : "+r" (__sp));
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Otherwise the stack frame may not get created before the call.
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3. 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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Also see the above section for .S file errors for more information what
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the individual error messages mean.
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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 := n
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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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