bpf, docs: Use consistent names for the same field

Commit Message

Dave Thaler Jan. 27, 2023, 2:24 a.m. UTC

From: Dave Thaler <dthaler@microsoft.com>

Use consistent names for the same field, e.g., 'dst' vs 'dst_reg'.
Previously a mix of terms were used for the same thing in various cases.

Signed-off-by: Dave Thaler <dthaler@microsoft.com>
---
V2 -> V3: per David Vernet, added bolding and updated terms for reg numbers

V1 -> V2: addressed comments from Alexei and Stanislav
---
 Documentation/bpf/instruction-set.rst | 105 ++++++++++++++++++--------
 1 file changed, 73 insertions(+), 32 deletions(-)

Comments

David Vernet Jan. 27, 2023, 5:55 a.m. UTC | #1

On Fri, Jan 27, 2023 at 02:24:16AM +0000, dthaler1968@googlemail.com wrote:
> From: Dave Thaler <dthaler@microsoft.com>
> 
> Use consistent names for the same field, e.g., 'dst' vs 'dst_reg'.
> Previously a mix of terms were used for the same thing in various cases.
> 
> Signed-off-by: Dave Thaler <dthaler@microsoft.com>
> ---
> V2 -> V3: per David Vernet, added bolding and updated terms for reg numbers
> 
> V1 -> V2: addressed comments from Alexei and Stanislav
> ---
>  Documentation/bpf/instruction-set.rst | 105 ++++++++++++++++++--------
>  1 file changed, 73 insertions(+), 32 deletions(-)
> 
> diff --git a/Documentation/bpf/instruction-set.rst b/Documentation/bpf/instruction-set.rst
> index 2d3fe59bd26..2da47fe4ef8 100644
> --- a/Documentation/bpf/instruction-set.rst
> +++ b/Documentation/bpf/instruction-set.rst
> @@ -30,20 +30,56 @@ 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_reg          dst_reg               opcode
>  =============  =======  ===============  ====================  ============

Can you adjust the width of the src_reg and dst_reg columns to be
minimized, as the others are?

Looks great otherwise.

>  
> +**imm**
> +  signed integer immediate value
> +
> +**offset**
> +  signed integer offset used with pointer arithmetic
> +
> +**src_reg**
> +  the source register number (0-10), except where otherwise specified
> +  (`64-bit immediate instructions`_ reuse this field for other purposes)
> +
> +**dst_reg**
> +  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_reg, src_reg, 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 = (next_imm << 32) | imm
> +
> +where 'next_imm' refers to the imm value of the pseudo instruction
> +following the basic instruction.
> +
>  Instruction classes
>  -------------------
>  
> @@ -71,27 +107,32 @@ 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_reg' register value as source operand
> +  ======  =====  ==============================================
>  
> +**instruction class**
> +  the instruction class (see `Instruction classes`_)
>  
>  Arithmetic instructions
>  -----------------------
>  
>  ``BPF_ALU`` uses 32-bit wide operands while ``BPF_ALU64`` uses 64-bit wide operands for
>  otherwise identical operations.
> -The 'code' field encodes the operation as below:
> +The 'code' field encodes the operation as below, where 'src' and 'dst' refer
> +to the values of the source and destination registers, respectively.
>  
>  ========  =====  ==========================================================
>  code      value  description
> @@ -121,19 +162,19 @@ the destination register is unchanged whereas for ``BPF_ALU`` the upper
>  
>  ``BPF_ADD | BPF_X | BPF_ALU`` means::
>  
> -  dst_reg = (u32) dst_reg + (u32) src_reg;
> +  dst = (u32) ((u32) dst + (u32) src)
>  
>  ``BPF_ADD | BPF_X | BPF_ALU64`` means::
>  
> -  dst_reg = dst_reg + src_reg
> +  dst = dst + src
>  
>  ``BPF_XOR | BPF_K | BPF_ALU`` means::
>  
> -  dst_reg = (u32) dst_reg ^ (u32) imm32
> +  dst = (u32) dst ^ (u32) imm32
>  
>  ``BPF_XOR | BPF_K | BPF_ALU64`` means::
>  
> -  dst_reg = dst_reg ^ imm32
> +  dst = dst ^ imm32
>  
>  Also note that the division and modulo operations are unsigned. Thus, for
>  ``BPF_ALU``, 'imm' is first interpreted as an unsigned 32-bit value, whereas
> @@ -167,11 +208,11 @@ 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
>  -----------------
> @@ -246,15 +287,15 @@ 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
>  
>  ``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``.
>  
> @@ -288,11 +329,11 @@ 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:
> @@ -307,16 +348,16 @@ 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
> @@ -329,7 +370,7 @@ There is currently only one such instruction.
>  
>  ``BPF_LD | BPF_DW | BPF_IMM`` means::
>  
> -  dst_reg = imm64
> +  dst = imm64
>  
>  
>  Legacy BPF Packet access instructions
> -- 
> 2.33.4
>

Patch

diff --git a/Documentation/bpf/instruction-set.rst b/Documentation/bpf/instruction-set.rst
index 2d3fe59bd26..2da47fe4ef8 100644
--- a/Documentation/bpf/instruction-set.rst
+++ b/Documentation/bpf/instruction-set.rst
@@ -30,20 +30,56 @@  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_reg          dst_reg               opcode
 =============  =======  ===============  ====================  ============
 
+**imm**
+  signed integer immediate value
+
+**offset**
+  signed integer offset used with pointer arithmetic
+
+**src_reg**
+  the source register number (0-10), except where otherwise specified
+  (`64-bit immediate instructions`_ reuse this field for other purposes)
+
+**dst_reg**
+  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_reg, src_reg, 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 = (next_imm << 32) | imm
+
+where 'next_imm' refers to the imm value of the pseudo instruction
+following the basic instruction.
+
 Instruction classes
 -------------------
 
@@ -71,27 +107,32 @@  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_reg' register value as source operand
+  ======  =====  ==============================================
 
+**instruction class**
+  the instruction class (see `Instruction classes`_)
 
 Arithmetic instructions
 -----------------------
 
 ``BPF_ALU`` uses 32-bit wide operands while ``BPF_ALU64`` uses 64-bit wide operands for
 otherwise identical operations.
-The 'code' field encodes the operation as below:
+The 'code' field encodes the operation as below, where 'src' and 'dst' refer
+to the values of the source and destination registers, respectively.
 
 ========  =====  ==========================================================
 code      value  description
@@ -121,19 +162,19 @@  the destination register is unchanged whereas for ``BPF_ALU`` the upper
 
 ``BPF_ADD | BPF_X | BPF_ALU`` means::
 
-  dst_reg = (u32) dst_reg + (u32) src_reg;
+  dst = (u32) ((u32) dst + (u32) src)
 
 ``BPF_ADD | BPF_X | BPF_ALU64`` means::
 
-  dst_reg = dst_reg + src_reg
+  dst = dst + src
 
 ``BPF_XOR | BPF_K | BPF_ALU`` means::
 
-  dst_reg = (u32) dst_reg ^ (u32) imm32
+  dst = (u32) dst ^ (u32) imm32
 
 ``BPF_XOR | BPF_K | BPF_ALU64`` means::
 
-  dst_reg = dst_reg ^ imm32
+  dst = dst ^ imm32
 
 Also note that the division and modulo operations are unsigned. Thus, for
 ``BPF_ALU``, 'imm' is first interpreted as an unsigned 32-bit value, whereas
@@ -167,11 +208,11 @@  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
 -----------------
@@ -246,15 +287,15 @@  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
 
 ``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``.
 
@@ -288,11 +329,11 @@  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:
@@ -307,16 +348,16 @@  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
@@ -329,7 +370,7 @@  There is currently only one such instruction.
 
 ``BPF_LD | BPF_DW | BPF_IMM`` means::
 
-  dst_reg = imm64
+  dst = imm64
 
 
 Legacy BPF Packet access instructions