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bpf, docs: Move legacy packet instructions to a separate file 

Move legacy packet instructions to a separate file.

Signed-off-by: Dave Thaler <dthaler@microsoft.com>
Link: https://lore.kernel.org/r/20220927185958.14995-1-dthaler1968@googlemail.com
Signed-off-by: Alexei Starovoitov <ast@kernel.org>
This commit is contained in:
Dave Thaler 2022-09-27 18:59:44 +00:00 committed by Alexei Starovoitov
parent 5ee35abb46
commit 6166da0a02
2 changed files with 68 additions and 35 deletions
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38
Documentation/bpf/instruction-set.rst
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@ -282,8 +282,6 @@ arithmetic operations in the imm field to encode the atomic operation:
*(u64 *)(dst_reg + off16) += src_reg
``BPF_XADD`` is a deprecated name for ``BPF_ATOMIC | BPF_ADD``.
In addition to the simple atomic operations, there also is a modifier and
two complex atomic operations:
@ -331,36 +329,6 @@ There is currently only one such instruction.
Legacy BPF Packet access instructions
-------------------------------------
eBPF has special instructions for access to packet data that have been
carried over from classic BPF to retain the performance of legacy socket
filters running in the eBPF interpreter.
The instructions come in two forms: ``BPF_ABS | <size> | BPF_LD`` and
``BPF_IND | <size> | BPF_LD``.
These instructions are used to access packet data and can only be used when
the program context is a pointer to networking packet. ``BPF_ABS``
accesses packet data at an absolute offset specified by the immediate data
and ``BPF_IND`` access packet data at an offset that includes the value of
a register in addition to the immediate data.
These instructions have seven implicit operands:
* Register R6 is an implicit input that must contain pointer to a
struct sk_buff.
* Register R0 is an implicit output which contains the data fetched from
the packet.
* Registers R1-R5 are scratch registers that are clobbered after a call to
``BPF_ABS | BPF_LD`` or ``BPF_IND | BPF_LD`` instructions.
These instructions have an implicit program exit condition as well. When an
eBPF program is trying to access the data beyond the packet boundary, the
program execution will be aborted.
``BPF_ABS | BPF_W | BPF_LD`` means::
R0 = ntohl(*(u32 *) (((struct sk_buff *) R6)->data + imm32))
``BPF_IND | BPF_W | BPF_LD`` means::
R0 = ntohl(*(u32 *) (((struct sk_buff *) R6)->data + src_reg + imm32))
eBPF previously introduced special instructions for access to packet data that were
carried over from classic BPF. However, these instructions are
deprecated and should no longer be used.

65
Documentation/bpf/linux-notes.rst Normal file
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@ -0,0 +1,65 @@
.. contents::
.. sectnum::
==========================
Linux implementation notes
==========================
This document provides more details specific to the Linux kernel implementation of the eBPF instruction set.
Legacy BPF Packet access instructions
=====================================
As mentioned in the `ISA standard documentation <instruction-set.rst#legacy-bpf-packet-access-instructions>`_,
Linux has special eBPF instructions for access to packet data that have been
carried over from classic BPF to retain the performance of legacy socket
filters running in the eBPF interpreter.
The instructions come in two forms: ``BPF_ABS | <size> | BPF_LD`` and
``BPF_IND | <size> | BPF_LD``.
These instructions are used to access packet data and can only be used when
the program context is a pointer to a networking packet. ``BPF_ABS``
accesses packet data at an absolute offset specified by the immediate data
and ``BPF_IND`` access packet data at an offset that includes the value of
a register in addition to the immediate data.
These instructions have seven implicit operands:
* Register R6 is an implicit input that must contain a pointer to a
struct sk_buff.
* Register R0 is an implicit output which contains the data fetched from
the packet.
* Registers R1-R5 are scratch registers that are clobbered by the
instruction.
These instructions have an implicit program exit condition as well. If an
eBPF program attempts access data beyond the packet boundary, the
program execution will be aborted.
``BPF_ABS | BPF_W | BPF_LD`` (0x20) means::
R0 = ntohl(*(u32 *) ((struct sk_buff *) R6->data + imm))
where ``ntohl()`` converts a 32-bit value from network byte order to host byte order.
``BPF_IND | BPF_W | BPF_LD`` (0x40) means::
R0 = ntohl(*(u32 *) ((struct sk_buff *) R6->data + src + imm))
Appendix
========
For reference, the following table lists legacy Linux-specific opcodes in order by value.
====== ==== =================================================== =============
opcode imm description reference
====== ==== =================================================== =============
0x20 any dst = ntohl(\*(uint32_t \*)(R6->data + imm)) `Legacy BPF Packet access instructions`_
0x28 any dst = ntohs(\*(uint16_t \*)(R6->data + imm)) `Legacy BPF Packet access instructions`_
0x30 any dst = (\*(uint8_t \*)(R6->data + imm)) `Legacy BPF Packet access instructions`_
0x38 any dst = ntohll(\*(uint64_t \*)(R6->data + imm)) `Legacy BPF Packet access instructions`_
0x40 any dst = ntohl(\*(uint32_t \*)(R6->data + src + imm)) `Legacy BPF Packet access instructions`_
0x48 any dst = ntohs(\*(uint16_t \*)(R6->data + src + imm)) `Legacy BPF Packet access instructions`_
0x50 any dst = \*(uint8_t \*)(R6->data + src + imm)) `Legacy BPF Packet access instructions`_
0x58 any dst = ntohll(\*(uint64_t \*)(R6->data + src + imm)) `Legacy BPF Packet access instructions`_