bpf, docs: Better document the atomic instructions
Use proper tables and RST markup to document the atomic instructions in a structured way. Signed-off-by: Christoph Hellwig <hch@lst.de> Signed-off-by: Alexei Starovoitov <ast@kernel.org> Link: https://lore.kernel.org/bpf/20220131183638.3934982-6-hch@lst.de
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@ -249,39 +249,65 @@ Where size is one of: ``BPF_B``, ``BPF_H``, ``BPF_W``, or ``BPF_DW``.
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Atomic operations
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-----------------
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eBPF includes atomic operations, which use the immediate field for extra
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encoding::
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Atomic operations are operations that operate on memory and can not be
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interrupted or corrupted by other access to the same memory region
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by other eBPF programs or means outside of this specification.
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.imm = BPF_ADD, .code = BPF_ATOMIC | BPF_W | BPF_STX: lock xadd *(u32 *)(dst_reg + off16) += src_reg
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.imm = BPF_ADD, .code = BPF_ATOMIC | BPF_DW | BPF_STX: lock xadd *(u64 *)(dst_reg + off16) += src_reg
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All atomic operations supported by eBPF are encoded as store operations
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that use the ``BPF_ATOMIC`` mode modifier as follows:
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The basic atomic operations supported are::
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* ``BPF_ATOMIC | BPF_W | BPF_STX`` for 32-bit operations
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* ``BPF_ATOMIC | BPF_DW | BPF_STX`` for 64-bit operations
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* 8-bit and 16-bit wide atomic operations are not supported.
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BPF_ADD
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BPF_AND
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BPF_OR
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BPF_XOR
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The imm field is used to encode the actual atomic operation.
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Simple atomic operation use a subset of the values defined to encode
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arithmetic operations in the imm field to encode the atomic operation:
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Each having equivalent semantics with the ``BPF_ADD`` example, that is: the
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memory location addresed by ``dst_reg + off`` is atomically modified, with
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``src_reg`` as the other operand. If the ``BPF_FETCH`` flag is set in the
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immediate, then these operations also overwrite ``src_reg`` with the
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value that was in memory before it was modified.
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======== ===== ===========
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imm value description
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======== ===== ===========
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BPF_ADD 0x00 atomic add
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BPF_OR 0x40 atomic or
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BPF_AND 0x50 atomic and
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BPF_XOR 0xa0 atomic xor
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======== ===== ===========
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The more special operations are::
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BPF_XCHG
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``BPF_ATOMIC | BPF_W | BPF_STX`` with imm = BPF_ADD means::
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This atomically exchanges ``src_reg`` with the value addressed by ``dst_reg +
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off``. ::
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*(u32 *)(dst_reg + off16) += src_reg
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BPF_CMPXCHG
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``BPF_ATOMIC | BPF_DW | BPF_STX`` with imm = BPF ADD means::
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This atomically compares the value addressed by ``dst_reg + off`` with
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``R0``. If they match it is replaced with ``src_reg``. In either case, the
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value that was there before is zero-extended and loaded back to ``R0``.
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*(u64 *)(dst_reg + off16) += src_reg
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Note that 1 and 2 byte atomic operations are not supported.
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``BPF_XADD`` is a deprecated name for ``BPF_ATOMIC | BPF_ADD``.
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In addition to the simple atomic operations, there also is a modifier and
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two complex atomic operations:
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=========== ================ ===========================
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imm value description
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=========== ================ ===========================
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BPF_FETCH 0x01 modifier: return old value
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BPF_XCHG 0xe0 | BPF_FETCH atomic exchange
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BPF_CMPXCHG 0xf0 | BPF_FETCH atomic compare and exchange
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=========== ================ ===========================
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The ``BPF_FETCH`` modifier is optional for simple atomic operations, and
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always set for the complex atomic operations. If the ``BPF_FETCH`` flag
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is set, then the operation also overwrites ``src_reg`` with the value that
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was in memory before it was modified.
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The ``BPF_XCHG`` operation atomically exchanges ``src_reg`` with the value
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addressed by ``dst_reg + off``.
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The ``BPF_CMPXCHG`` operation atomically compares the value addressed by
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``dst_reg + off`` with ``R0``. If they match, the value addressed by
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``dst_reg + off`` is replaced with ``src_reg``. In either case, the
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value that was at ``dst_reg + off`` before the operation is zero-extended
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and loaded back to ``R0``.
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Clang can generate atomic instructions by default when ``-mcpu=v3`` is
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enabled. If a lower version for ``-mcpu`` is set, the only atomic instruction
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@ -289,10 +315,6 @@ Clang can generate is ``BPF_ADD`` *without* ``BPF_FETCH``. If you need to enable
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the atomics features, while keeping a lower ``-mcpu`` version, you can use
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``-Xclang -target-feature -Xclang +alu32``.
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You may encounter ``BPF_XADD`` - this is a legacy name for ``BPF_ATOMIC``,
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referring to the exclusive-add operation encoded when the immediate field is
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zero.
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64-bit immediate instructions
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-----------------------------
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