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SIMD-0174: SBPF arithmetics improvements #174
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--- | ||
simd: '0174' | ||
title: SBPF arithmetics improvements | ||
authors: | ||
- Alexander Meißner | ||
category: Standard | ||
type: Core | ||
status: Draft | ||
created: 2024-09-06 | ||
feature: TBD | ||
extends: SIMD-0161 | ||
--- | ||
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## Summary | ||
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This proposal introduces wide multiplication, signed division and explicit sign | ||
extension to SBPF. | ||
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## Motivation | ||
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All major hardware ISAs support 64 x 64 = 128 bit multiplication; BPF does not. | ||
This hurts performance of big integer arithmetics. Similarly, signed division | ||
and signed remainder / modulo instructions must be emulated in software as | ||
well. | ||
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Another issue related to arithmetics is that some 32 bit instructions perform | ||
sign extension of their results (output, **not** input, there is a difference) | ||
implicitly. This is first of all useless because source languages do not read | ||
the 32 MSBs of a 32 bit result stored in a 64 bit register. And second, it | ||
requires interpreters and compilers to perform extra work to add sign extension | ||
at the end of these instructions. Instead we should go the same route as the | ||
underlying hardware ISAs and require sign extension to be made explicit in a | ||
dedicated instruction. | ||
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Furthermore, the instruction `sub dst, imm` is redundant as it can also be | ||
encoded as `add dst, -imm`. If we were to swap the operands meaning of minuend | ||
and subtrahend, then the instruction would become useful and would even render | ||
`neg dst` redundant. Negation would then be encoded as `reg = 0 - reg`. This | ||
would also make it clear how sign extension rules work for negation. | ||
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## Alternatives Considered | ||
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None. | ||
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## New Terminology | ||
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None. | ||
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## Detailed Design | ||
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The following must go into effect if and only if a program indicates the | ||
SBPF-version (TBD) or higher in its program header (see SIMD-0161). | ||
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### Changes to the Bytecode Verifier | ||
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A program containing one of the following instructions must throw | ||
`VerifierError::UnknownOpCode` during verification: | ||
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- the `MUL` instruction (opcodes `0x24`, `0x2C`, `0x27` and `0x2F`) | ||
- the `DIV` instruction (opcodes `0x34`, `0x3C`, `0x37` and `0x3F`) | ||
- the `MOD` instruction (opcodes `0x94`, `0x9C`, `0x97` and `0x9F`) | ||
- the `NEG` instruction (opcodes `0x84` and `0x87`) | ||
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A program containing one of the following instructions must **not** throw | ||
`VerifierError::UnknownOpCode` during verification anymore (opcodes are for | ||
immediate and register variant each, in that order): | ||
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- the `UHMUL64` instruction (opcode `0x36` and `0x3E`) | ||
- the `UDIV32` instruction (opcode `0x46` and `0x4E`) | ||
- the `UDIV64` instruction (opcode `0x56` and `0x5E`) | ||
- the `UREM32` instruction (opcode `0x66` and `0x6E`) | ||
- the `UREM64` instruction (opcode `0x76` and `0x7E`) | ||
- the `LMUL32` instruction (opcode `0x86` and `0x8E`) | ||
- the `LMUL64` instruction (opcode `0x96` and `0x9E`) | ||
- the `SHMUL64` instruction (opcode `0xB6` and `0xBE`) | ||
- the `SDIV32` instruction (opcode `0xC6` and `0xCE`) | ||
- the `SDIV64` instruction (opcode `0xD6` and `0xDE`) | ||
- the `SREM32` instruction (opcode `0xE6` and `0xEE`) | ||
- the `SREM64` instruction (opcode `0xF6` and `0xFE`) | ||
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The verification rule, that an immediate divisor must not be zero or else | ||
`VerifierError::DivisionByZero` is thrown, is moved to the new division like | ||
instructions: `UDIV32_IMM`, `UDIV64_IMM`, `UREM32_IMM`, `UREM64_IMM`, | ||
`SDIV32_IMM`, `SDIV64_IMM`, `SREM32_IMM`, `SREM64_IMM`. | ||
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### Changes to Execution | ||
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#### PQR Instruction Class | ||
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A new instruction class product, quotient and remainder (PQR) is introduced: | ||
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- the `UHMUL64` instruction (opcode `0x36` and `0x3E`) produces the 64 MSBs of | ||
There was a problem hiding this comment. Choose a reason for hiding this commentThe reason will be displayed to describe this comment to others. Learn more. Just an impl note for Practically speaking, this means that to do 64x64=128 bit umul one should use |
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the product of an unsigned 64 x 64 bit multiplication (`dst * imm` and | ||
`dst * src`). | ||
- the `UDIV32` instruction (opcode `0x46` and `0x4E`) produces the quotient of | ||
an unsigned 32 bit division (`dst / imm` and `dst / src`). | ||
- the `UDIV64` instruction (opcode `0x56` and `0x5E`) produces the quotient of | ||
an unsigned 64 bit division (`dst / imm` and `dst / src`). | ||
- the `UREM32` instruction (opcode `0x66` and `0x6E`) produces the remainder of | ||
an unsigned 64 bit division (`dst % imm` and `dst % src`). | ||
- the `UREM64` instruction (opcode `0x76` and `0x7E`) produces the remainder of | ||
an unsigned 64 bit division (`dst % imm` and `dst % src`). | ||
- the `LMUL32` instruction (opcode `0x86` and `0x8E`) produces the 32 LSBs of | ||
the product of any 32 x 32 bit multiplication (`dst * imm` and `dst * src`). | ||
- the `LMUL64` instruction (opcode `0x96` and `0x9E`) produces the 64 LSBs of | ||
the product of any 64 x 64 bit multiplication (`dst * imm` and `dst * src`). | ||
- the `SHMUL64` instruction (opcode `0xB6` and `0xBE`) produces the 64 MSBs of | ||
the product of a signed 64 x 64 bit multiplication (`dst * imm` and | ||
`dst * src`). | ||
- the `SDIV32` instruction (opcode `0xC6` and `0xCE`) produces the quotient of | ||
a signed 32 bit division (`dst / imm` and `dst / src`). | ||
- the `SDIV64` instruction (opcode `0xD6` and `0xDE`) produces the quotient of | ||
a signed 64 bit division (`dst / imm` and `dst / src`). | ||
- the `SREM32` instruction (opcode `0xE6` and `0xEE`) produces the remainder of | ||
a signed 32 bit division (`dst / imm` and `dst / src`). | ||
- the `SREM64` instruction (opcode `0xF6` and `0xFE`) produces the remainder of | ||
a signed 64 bit division (`dst / imm` and `dst / src`). | ||
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Runtime exceptions are: | ||
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- If the divisor (`imm` or `src`) of any division is zero, | ||
`EbpfError::DivideByZero` must be thrown. | ||
- If the dividend (`dst`) of a signed division has the minimal value for its | ||
bit-width and the divisor (`imm` or `src`) is `-1`, then | ||
`EbpfError::DivideOverflow` must be thrown. | ||
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#### Explicit Sign Extension | ||
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The following instructions must stop performing implicit sign extension of | ||
their results, instead filling the 32 MSBs of `dst` with zeros: | ||
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- the `ADD32` instruction (opcode `0x04` and `0x0C`) | ||
- the `SUB32` instruction (opcode `0x14` and `0x1C`) | ||
- all of the new 32 bit PQR instructions: `UDIV32`, `UREM32`, `SDIV32`, | ||
`SREM32` and `LMUL32` | ||
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Instead the `MOV32_REG` instruction (opcode `0xBC`) which until now did zero | ||
out the 32 MSBs, must now perform sign extension in the 32 MSBs. Meaning this | ||
instruction becomes the explicit sign extension operation. | ||
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#### Register Immediate Subtraction | ||
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The operands roles of `SUB32_IMM` (opcode `0x14`) and `SUB64_IMM` (opcode | ||
`0x17`) must be swapped: Until now the resulting difference was `src - imm` and | ||
it must be changed to `imm - src`. | ||
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## Impact | ||
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The toolchain will emit machine-code according to the selected SBPF version. | ||
Big integer arithmetics and signed divisions will become cheaper CU wise. | ||
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## Security Considerations | ||
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None. |
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Let's specify which SBPF version this will be released in.