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docs/bpf: Add documentation for new instructions
Add documentation in instruction-set.rst for new instruction encoding and their corresponding operations. Also removed the question related to 'no BPF_SDIV' in bpf_design_QA.rst since we have BPF_SDIV insn now. Cc: bpf@ietf.org Signed-off-by: Yonghong Song <yonghong.song@linux.dev> Link: https://lore.kernel.org/r/20230728011342.3724411-1-yonghong.song@linux.dev Signed-off-by: Alexei Starovoitov <ast@kernel.org>
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@ -140,11 +140,6 @@ A: Because if we picked one-to-one relationship to x64 it would have made
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it more complicated to support on arm64 and other archs. Also it
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needs div-by-zero runtime check.
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Q: Why there is no BPF_SDIV for signed divide operation?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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A: Because it would be rarely used. llvm errors in such case and
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prints a suggestion to use unsigned divide instead.
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Q: Why BPF has implicit prologue and epilogue?
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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A: Because architectures like sparc have register windows and in general
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@ -154,24 +154,27 @@ otherwise identical operations.
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The 'code' field encodes the operation as below, where 'src' and 'dst' refer
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to the values of the source and destination registers, respectively.
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======== ===== ==========================================================
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code value description
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======== ===== ==========================================================
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BPF_ADD 0x00 dst += src
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BPF_SUB 0x10 dst -= src
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BPF_MUL 0x20 dst \*= src
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BPF_DIV 0x30 dst = (src != 0) ? (dst / src) : 0
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BPF_OR 0x40 dst \|= src
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BPF_AND 0x50 dst &= src
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BPF_LSH 0x60 dst <<= (src & mask)
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BPF_RSH 0x70 dst >>= (src & mask)
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BPF_NEG 0x80 dst = -dst
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BPF_MOD 0x90 dst = (src != 0) ? (dst % src) : dst
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BPF_XOR 0xa0 dst ^= src
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BPF_MOV 0xb0 dst = src
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BPF_ARSH 0xc0 sign extending dst >>= (src & mask)
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BPF_END 0xd0 byte swap operations (see `Byte swap instructions`_ below)
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======== ===== ==========================================================
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======== ===== ======= ==========================================================
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code value offset description
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======== ===== ======= ==========================================================
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BPF_ADD 0x00 0 dst += src
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BPF_SUB 0x10 0 dst -= src
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BPF_MUL 0x20 0 dst \*= src
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BPF_DIV 0x30 0 dst = (src != 0) ? (dst / src) : 0
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BPF_SDIV 0x30 1 dst = (src != 0) ? (dst s/ src) : 0
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BPF_OR 0x40 0 dst \|= src
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BPF_AND 0x50 0 dst &= src
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BPF_LSH 0x60 0 dst <<= (src & mask)
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BPF_RSH 0x70 0 dst >>= (src & mask)
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BPF_NEG 0x80 0 dst = -dst
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BPF_MOD 0x90 0 dst = (src != 0) ? (dst % src) : dst
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BPF_SMOD 0x90 1 dst = (src != 0) ? (dst s% src) : dst
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BPF_XOR 0xa0 0 dst ^= src
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BPF_MOV 0xb0 0 dst = src
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BPF_MOVSX 0xb0 8/16/32 dst = (s8,s16,s32)src
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BPF_ARSH 0xc0 0 sign extending dst >>= (src & mask)
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BPF_END 0xd0 0 byte swap operations (see `Byte swap instructions`_ below)
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======== ===== ============ ==========================================================
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Underflow and overflow are allowed during arithmetic operations, meaning
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the 64-bit or 32-bit value will wrap. If eBPF program execution would
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@ -198,11 +201,20 @@ where '(u32)' indicates that the upper 32 bits are zeroed.
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dst = dst ^ imm32
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Also note that the division and modulo operations are unsigned. Thus, for
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``BPF_ALU``, 'imm' is first interpreted as an unsigned 32-bit value, whereas
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for ``BPF_ALU64``, 'imm' is first sign extended to 64 bits and the result
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interpreted as an unsigned 64-bit value. There are no instructions for
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signed division or modulo.
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Note that most instructions have instruction offset of 0. But three instructions
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(BPF_SDIV, BPF_SMOD, BPF_MOVSX) have non-zero offset.
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The devision and modulo operations support both unsigned and signed flavors.
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For unsigned operation (BPF_DIV and BPF_MOD), for ``BPF_ALU``, 'imm' is first
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interpreted as an unsigned 32-bit value, whereas for ``BPF_ALU64``, 'imm' is
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first sign extended to 64 bits and the result interpreted as an unsigned 64-bit
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value. For signed operation (BPF_SDIV and BPF_SMOD), for ``BPF_ALU``, 'imm' is
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interpreted as a signed value. For ``BPF_ALU64``, the 'imm' is sign extended
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from 32 to 64 and interpreted as a signed 64-bit value.
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Instruction BPF_MOVSX does move operation with sign extension.
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``BPF_ALU | MOVSX`` sign extendes 8-bit and 16-bit into 32-bit and upper 32-bit are zeroed.
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``BPF_ALU64 | MOVSX`` sign extends 8-bit, 16-bit and 32-bit into 64-bit.
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Shift operations use a mask of 0x3F (63) for 64-bit operations and 0x1F (31)
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for 32-bit operations.
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@ -210,21 +222,23 @@ for 32-bit operations.
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Byte swap instructions
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~~~~~~~~~~~~~~~~~~~~~~
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The byte swap instructions use an instruction class of ``BPF_ALU`` and a 4-bit
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'code' field of ``BPF_END``.
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The byte swap instructions use instruction classes of ``BPF_ALU`` and ``BPF_ALU64``
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and a 4-bit 'code' field of ``BPF_END``.
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The byte swap instructions operate on the destination register
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only and do not use a separate source register or immediate value.
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The 1-bit source operand field in the opcode is used to select what byte
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order the operation convert from or to:
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For ``BPF_ALU``, the 1-bit source operand field in the opcode is used to select what byte
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order the operation convert from or to. For ``BPF_ALU64``, the 1-bit source operand
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field in the opcode is not used and must be 0.
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========= ===== =================================================
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source value description
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========= ===== =================================================
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BPF_TO_LE 0x00 convert between host byte order and little endian
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BPF_TO_BE 0x08 convert between host byte order and big endian
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========= ===== =================================================
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========= ========= ===== =================================================
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class source value description
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========= ========= ===== =================================================
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BPF_ALU BPF_TO_LE 0x00 convert between host byte order and little endian
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BPF_ALU BPF_TO_BE 0x08 convert between host byte order and big endian
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BPF_ALU64 BPF_TO_LE 0x00 do byte swap unconditionally
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========= ========= ===== =================================================
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The 'imm' field encodes the width of the swap operations. The following widths
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are supported: 16, 32 and 64.
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@ -239,6 +253,12 @@ Examples:
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dst = htobe64(dst)
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``BPF_ALU64 | BPF_TO_LE | BPF_END`` with imm = 16/32/64 means::
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dst = bswap16 dst
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dst = bswap32 dst
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dst = bswap64 dst
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Jump instructions
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-----------------
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@ -249,7 +269,8 @@ The 'code' field encodes the operation as below:
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======== ===== === =========================================== =========================================
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code value src description notes
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======== ===== === =========================================== =========================================
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BPF_JA 0x0 0x0 PC += offset BPF_JMP only
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BPF_JA 0x0 0x0 PC += offset BPF_JMP class
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BPF_JA 0x0 0x0 PC += imm BPF_JMP32 class
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BPF_JEQ 0x1 any PC += offset if dst == src
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BPF_JGT 0x2 any PC += offset if dst > src unsigned
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BPF_JGE 0x3 any PC += offset if dst >= src unsigned
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@ -278,6 +299,16 @@ Example:
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where 's>=' indicates a signed '>=' comparison.
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``BPF_JA | BPF_K | BPF_JMP32`` (0x06) means::
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gotol +imm
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where 'imm' means the branch offset comes from insn 'imm' field.
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Note there are two flavors of BPF_JA instrions. BPF_JMP class permits 16-bit jump offset while
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BPF_JMP32 permits 32-bit jump offset. A >16bit conditional jmp can be converted to a <16bit
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conditional jmp plus a 32-bit unconditional jump.
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Helper functions
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~~~~~~~~~~~~~~~~
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@ -320,6 +351,7 @@ The mode modifier is one of:
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BPF_ABS 0x20 legacy BPF packet access (absolute) `Legacy BPF Packet access instructions`_
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BPF_IND 0x40 legacy BPF packet access (indirect) `Legacy BPF Packet access instructions`_
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BPF_MEM 0x60 regular load and store operations `Regular load and store operations`_
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BPF_MEMSX 0x80 sign-extension load operations `Sign-extension load operations`_
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BPF_ATOMIC 0xc0 atomic operations `Atomic operations`_
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============= ===== ==================================== =============
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@ -350,9 +382,20 @@ instructions that transfer data between a register and memory.
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``BPF_MEM | <size> | BPF_LDX`` means::
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dst = *(size *) (src + offset)
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dst = *(unsigned size *) (src + offset)
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Where size is one of: ``BPF_B``, ``BPF_H``, ``BPF_W``, or ``BPF_DW``.
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Where size is one of: ``BPF_B``, ``BPF_H``, ``BPF_W``, or ``BPF_DW`` and
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'unsigned size' is one of u8, u16, u32 and u64.
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The ``BPF_MEMSX`` mode modifier is used to encode sign-extension load
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instructions that transfer data between a register and memory.
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``BPF_MEMSX | <size> | BPF_LDX`` means::
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dst = *(signed size *) (src + offset)
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Where size is one of: ``BPF_B``, ``BPF_H`` or ``BPF_W``, and
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'signed size' is one of s8, s16 and s32.
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Atomic operations
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-----------------
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