@@ -35,20 +35,59 @@ Instruction encoding
eBPF has two instruction encodings:
* the basic instruction encoding, which uses 64 bits to encode an instruction
-* the wide instruction encoding, which appends a second 64-bit immediate value
- (imm64) after the basic instruction for a total of 128 bits.
+* the wide instruction encoding, which appends a second 64-bit immediate (i.e.,
+ constant) value after the basic instruction for a total of 128 bits.
-The basic instruction encoding looks as follows:
+The basic instruction encoding is as follows, where MSB and LSB mean the most significant
+bits and least significant bits, respectively:
============= ======= =============== ==================== ============
32 bits (MSB) 16 bits 4 bits 4 bits 8 bits (LSB)
============= ======= =============== ==================== ============
-immediate offset source register destination register opcode
+imm offset src dst opcode
============= ======= =============== ==================== ============
+imm
+ signed integer immediate value
+
+offset
+ signed integer offset used with pointer arithmetic
+
+src
+ the source register number (0-10), except where otherwise specified
+ (`64-bit immediate instructions`_ reuse this field for other purposes)
+
+dst
+ destination register number (0-10)
+
+opcode
+ operation to perform
+
Note that most instructions do not use all of the fields.
Unused fields shall be cleared to zero.
+As discussed below in `64-bit immediate instructions`_, a 64-bit immediate
+instruction uses a 64-bit immediate value that is constructed as follows.
+The 64 bits following the basic instruction contain a pseudo instruction
+using the same format but with opcode, dst, src, and offset all set to zero,
+and imm containing the high 32 bits of the immediate value.
+
+================= ==================
+64 bits (MSB) 64 bits (LSB)
+================= ==================
+basic instruction pseudo instruction
+================= ==================
+
+Thus the 64-bit immediate value is constructed as follows:
+
+ imm64 = imm + (next_imm << 32)
+
+where 'next_imm' refers to the imm value of the pseudo instruction
+following the basic instruction.
+
+In the remainder of this document 'src' and 'dst' refer to the values of the source
+and destination registers, respectively, rather than the register number.
+
Instruction classes
-------------------
@@ -76,20 +115,24 @@ For arithmetic and jump instructions (``BPF_ALU``, ``BPF_ALU64``, ``BPF_JMP`` an
============== ====== =================
4 bits (MSB) 1 bit 3 bits (LSB)
============== ====== =================
-operation code source instruction class
+code source instruction class
============== ====== =================
-The 4th bit encodes the source operand:
+code
+ the operation code, whose meaning varies by instruction class
- ====== ===== ========================================
- source value description
- ====== ===== ========================================
- BPF_K 0x00 use 32-bit immediate as source operand
- BPF_X 0x08 use 'src_reg' register as source operand
- ====== ===== ========================================
+source
+ the source operand location, which unless otherwise specified is one of:
-The four MSB bits store the operation code.
+ ====== ===== ==========================================
+ source value description
+ ====== ===== ==========================================
+ BPF_K 0x00 use 32-bit 'imm' value as source operand
+ BPF_X 0x08 use 'src' register value as source operand
+ ====== ===== ==========================================
+instruction class
+ the instruction class (see `Instruction classes`_)
Arithmetic instructions
-----------------------
@@ -117,6 +160,8 @@ BPF_ARSH 0xc0 sign extending shift right
BPF_END 0xd0 byte swap operations (see `Byte swap instructions`_ below)
======== ===== ==========================================================
+where 'src' is the source operand value.
+
Underflow and overflow are allowed during arithmetic operations,
meaning the 64-bit or 32-bit value will wrap. If
eBPF program execution would result in division by zero,
@@ -126,21 +171,21 @@ the destination register is instead left unchanged.
``BPF_ADD | BPF_X | BPF_ALU`` means::
- dst_reg = (u32) dst_reg + (u32) src_reg;
+ dst = (u32) ((u32) dst + (u32) src)
where '(u32)' indicates truncation to 32 bits.
``BPF_ADD | BPF_X | BPF_ALU64`` means::
- dst_reg = dst_reg + src_reg
+ dst = dst + src
``BPF_XOR | BPF_K | BPF_ALU`` means::
- src_reg = (u32) src_reg ^ (u32) imm32
+ src = (u32) src ^ (u32) imm
``BPF_XOR | BPF_K | BPF_ALU64`` means::
- src_reg = src_reg ^ imm32
+ src = src ^ imm
Also note that the division and modulo operations are unsigned,
where 'imm' is first sign extended to 64 bits and then converted
@@ -173,11 +218,11 @@ Examples:
``BPF_ALU | BPF_TO_LE | BPF_END`` with imm = 16 means::
- dst_reg = htole16(dst_reg)
+ dst = htole16(dst)
``BPF_ALU | BPF_TO_BE | BPF_END`` with imm = 64 means::
- dst_reg = htobe64(dst_reg)
+ dst = htobe64(dst)
Jump instructions
-----------------
@@ -252,15 +297,15 @@ instructions that transfer data between a register and memory.
``BPF_MEM | <size> | BPF_STX`` means::
- *(size *) (dst_reg + off) = src_reg
+ *(size *) (dst + offset) = src_reg
``BPF_MEM | <size> | BPF_ST`` means::
- *(size *) (dst_reg + off) = imm32
+ *(size *) (dst + offset) = imm32
``BPF_MEM | <size> | BPF_LDX`` means::
- dst_reg = *(size *) (src_reg + off)
+ dst = *(size *) (src + offset)
Where size is one of: ``BPF_B``, ``BPF_H``, ``BPF_W``, or ``BPF_DW``.
@@ -294,11 +339,11 @@ BPF_XOR 0xa0 atomic xor
``BPF_ATOMIC | BPF_W | BPF_STX`` with 'imm' = BPF_ADD means::
- *(u32 *)(dst_reg + off16) += src_reg
+ *(u32 *)(dst + offset) += src
``BPF_ATOMIC | BPF_DW | BPF_STX`` with 'imm' = BPF ADD means::
- *(u64 *)(dst_reg + off16) += src_reg
+ *(u64 *)(dst + offset) += src
In addition to the simple atomic operations, there also is a modifier and
two complex atomic operations:
@@ -313,16 +358,16 @@ BPF_CMPXCHG 0xf0 | BPF_FETCH atomic compare and exchange
The ``BPF_FETCH`` modifier is optional for simple atomic operations, and
always set for the complex atomic operations. If the ``BPF_FETCH`` flag
-is set, then the operation also overwrites ``src_reg`` with the value that
+is set, then the operation also overwrites ``src`` with the value that
was in memory before it was modified.
-The ``BPF_XCHG`` operation atomically exchanges ``src_reg`` with the value
-addressed by ``dst_reg + off``.
+The ``BPF_XCHG`` operation atomically exchanges ``src`` with the value
+addressed by ``dst + offset``.
The ``BPF_CMPXCHG`` operation atomically compares the value addressed by
-``dst_reg + off`` with ``R0``. If they match, the value addressed by
-``dst_reg + off`` is replaced with ``src_reg``. In either case, the
-value that was at ``dst_reg + off`` before the operation is zero-extended
+``dst + offset`` with ``R0``. If they match, the value addressed by
+``dst + offset`` is replaced with ``src``. In either case, the
+value that was at ``dst + offset`` before the operation is zero-extended
and loaded back to ``R0``.
64-bit immediate instructions
@@ -335,7 +380,7 @@ There is currently only one such instruction.
``BPF_LD | BPF_DW | BPF_IMM`` means::
- dst_reg = imm64
+ dst = imm64
Legacy BPF Packet access instructions