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List of LoongArch instructions

This is unofficial compiled list of currently known LoongArch instructions. Instruction name and encoding are taken from published instruction set manual from Loongson, then slightly modified to fix some perceived inconsistencies.

License

Copyright © 2021-2023 Contributors to this project. All rights reserved.

The instruction encoding data tables are licensed under either CC-BY 4.0 International or 木兰开放作品许可协议 署名,第 1 版 (Mulan Open Works License Attribution, Version 1).

The accompanying programs and supporting code are licensed under either Apache License 2.0, MIT or 木兰宽松许可证,第 2 版 (Mulan Permissive Software License, Version 2).

The license texts are also vendored in the repo:

Reasoning behind the licensing decisions

NOTE: The author is not a lawyer, so take the analysis below with extra caution. The author believes much of the reasoning are correct however...

The official LoongArch manuals are released by Loongson with all rights reserved. So first of all, we believe this project is a fair use of the original work because:

  1. The data collected here is consistent with the reality, with all original content clearly marked and explained. Hence the data tables as a whole pose no risk to compatibility across the ecosystem, and by extension, Loongson's legal interests.
  2. We, and likely any potential consumer of the project, work on and/or use project for personal and/or academic purposes.
  3. And even if the project is eventually being consumed for commercial uses, no Loongson interest is damaged because of (1).
  4. There is not any alternative that we know of, that is simultaneously:
    • not being tied to any specific project (see below), and
    • easy for machine consumption (the official manual is in PDF only, and the English translation is in AsciiDoc).

There are already several LoongArch instruction encoding tables in existence:

  • the array defined in opcodes/loongarch-opc.c of Binutils,
  • the TableGen data files in LLVM,
  • the decodetree definitions in QEMU, and
  • other ad-hoc definitions in various adapted JIT projects.

They are invariably hard to integrate in projects other the originating one, so if one wants proper LoongArch machine code support in another project they happen to work on, they would have to either duplicate efforts or leverage the loongarch-opcodes project -- compared to just giving up and adding no LoongArch support, existence of the loongarch-opcodes project actually benefits Loongson.

Regarding the copyright holder of the project, it's the contributor to this project, because of 《中华人民共和国著作权法》第十三条、第十四条; the Chinese copyright law applies because right now all contributors to the project are PRC citizens to our knowledge.

As to why attribution is required for the data tables, instead of simply being public domain: according to 《中华人民共和国著作权法》第十条, the right of attribution (署名权) is a moral right that cannot be waived. So even if CC0-1.0 is applied to the project, in effect it would largely just become CC-BY, and with the disadvantage of being harder for people to understand because the "fallback path" in the license text must be taken.

As to why the Mulan licenses are allowed as alternative license choices: this is because the author wanted to be extra safe regarding the licensing, especially in the PRC jurisdiction. After checking the Chinese and English texts of the Mulan licenses, the author decided there is little risk adding them to the multiple-licensing choices.

Modifications to upstream specs

Some instruction mnemonics are changed, some syntactic sugar are dropped:

  • dbcl is renamed to dbgcall, and hvcl to hypcall.

    The reason why the shorter names are chosen is unclear, but syscall remains unchanged so the change actually made the naming inconsistent.

  • b[lt,ge][u] are renamed to b[gt,le][u] with corresponding operand order swapped.

    All other two-register instructions have the operand in rd, rj order, except these jump instructions. To preserve semantics the names have to be tweaked accordingly. Also all other instructions with comparison semantics adopt the gt/le distinction, such as the boundary checks, so lt/ge is not consistent either.

  • ertn is renamed to eret.

    Not using ret for "return" is hard to understand, personally I think it's better to stick with widely accepted naming conventions.

  • invtlb is renamed to tlbinv.

    All TLB manipulation instructions start with tlb except this one.

  • csrrd, csrwr, gcsrrd and gcsrwr are removed.

    The csrrd and csrwr instructions can, to some degree, be seen as special cases or "specializations" of csrxchg, so remove these in favor of non-overlapping encodings. gcsrrd and gcsrwr are similar.

  • The FCSR operands ofmovfcsr2gr and movgr2fcsr are marked unsigned immediates instead of registers; the mnemonics are renamed to fcsrrd and fcsrwr as well.

    The FCSR is more like a configuration word than real register in terms of expected usage; but the manual and vendor toolchain all treat the slot as an integer register, which is obviously wrong. Instruction naming is adjusted accordingly (to make the FCSR more resemble CSR).

  • Instructions that operate on FCCs have the cf part renamed to fcc in their mnemonics.

    Other parts of the manual, especially the register names, refer to the bank of 1-bit FP predicates as fcc, but mnemonics have cf, which is inconsistent.

  • Naming symmetry is restored for several LBT instructions.

    The x86 and ARM translation assists are almost always named x86foo and armfoo respectively, but annoyingly some are named setx86foo and setarmfoo.

    (After the issue was reported I received private confirmation that the names will not be amended but no justification was given; I suppose it was because the set{x86,arm}foo ops are not touching the actual LBT "arch" state, but I'm not sure, and here the adjusted names are kept nevertheless for perfect consistency.)

  • asrt[le,gt].d have the suffix removed.

    According to the manual, there's no mention of operand width anywhere, so remove the suffix unless more information is provided.

  • [ld,st]ptr are renamed [ld,st]ox4 (Load/Store; Offset x4 or Indexed by 4).

    The instructions are created with accelerating GOT accesses in mind; they got their current semantics because the GOT is an array of pointers, and pointers are at least 32-bit aligned, meaning the array offsets must be at least multiples of 4.

    However, the operation rd = *(rj + imm << 2) itself is completely generic, and has nothing to do with pointers. So, rename the instructions to hopefully avoid having to include the background material (the paragraph above) to every LoongArch learner.

  • ext.w.[bh] are renamed sext.[bh].

    According to the manual these actually sign-extend to full native width (GRLEN), regardless of whether GRLEN is 32 or not. Also the previous name is not too informative either -- "ext" could as well be "zero-extend" or "extract" too, and that's bound to confuse people.

  • bitrev instructions are renamed revbit.

    Byte/halfword-unit-reversing instructions are revb and revh respectively, so unify the naming.

  • lu32i.d lu52i.d are renamed cu32i.d cu52i.d.

    lu12i.w empties low bits, but lu32i.d and lu52i.d keeps low bits. So change the "load" part to "concatenate/connect" to distinguish.

  • pcaddi is renamed pcaddu2i.

    It left-shifts the immediate by 2 before adding, just like its friends pcaddu12i and pcaddu18i, but the u2 part is curiously missing. Fix the inconsistency.

  • alsl.* are renamed sladd.*.

    It's not clear what full name "alsl" actually stands for, so rename to reflect the semantics -- "Shift-Left/ScaLed Add".

  • bytepick.* are renamed catpick.*.

    The original names give a false impression of somehow returning or operating on a single byte, while in fact it was only byte-indexed. Real operation is more like first concatenating two suffix-sized values then picking one suffix-sized value out from middle. Besides, cats inside the manuals are certainly nice...

Instruction format notation used in this repo

The instruction format notation used in the official documentation has several shortcomings that make it difficult for downstream to consume as is:

  • Many format names start with a number, like 2RI16, making them unsuitable as identifiers in most programming languages;

  • Variants to these "base" formats are not explicitly documented, forcing downstream to come up with ad-hoc names themselves;

  • Exact encodings of instructions can differ even with identical assembly syntax, making the original notation ambiguous to use.

    For example, while asrtle takes two register operands, they are not the usual rd, rj but rj, rk. Is this 2R, variant of 2R or a special case of 3R?

Due to these reasons, we use a new notation for describing the various LoongArch instruction formats. The syntax is described in ABNF as follows:

insn-format  =  "EMPTY"
insn-format  =/ reg-slots
insn-format  =/ imm-slots
insn-format  =/ reg-slots imm-slots

reg-slots    = 1*reg
reg          = int-reg / fp-reg / fcc-reg / scratch-reg / lsx-reg / lasx-reg
int-reg      = "D" / "J" / "K" / "A"
fp-reg       = "F" index
fcc-reg      = "C" index
scratch-reg  = "T" index
lsx-reg      = "V" index
lasx-reg     = "X" index

index-length = index length
index        = "d" / "j" / "k" / "a" / "m" / "n"
length       = 1*DIGIT

imm-slots    = 1*imm
imm          = signedness 1*index-length
signedness   = "S" / "U"

// extensions to the above, for expressing the "manual syntax"
manual-insn-format =  "EMPTY"
manual-insn-format =/ 1*manual-arg

manual-arg   =  reg / manual-imm
manual-imm   =  imm
manual-imm   =/ imm postproc

postproc     = "p" pp-frag
pp-frag      = pp-op 1*DIGIT
pp-op        = "p" / "s"

This notation has the following advantages:

  • One name exactly specifies one encoding;
  • All names are valid for use as identifiers in programming languages;
  • Unambiguous to parse even when capitalized;
  • Properly distinguishes between superficially similar encodings due to design warts, for example:
    • DJ, JK, FdJ and DFj (presumably all 2R in official notation), or
    • DSj20 and JSd5k16 which are totally different formats, but nearly the same in official notation (non-existent 1RI20 and base format 1RI21).

The field offsets and sizes for the register operand slots are as follows:

Register slot Starting bit index Field size in bits Bank
D 0 5 Integer
J 5 5 Integer
K 10 5 Integer
A 15 5 Integer
C Specified by the index character 3 FP condition code
F Specified by the index character 5 FP
T Specified by the index character 2 LBT scratch
V Specified by the index character 5 LSX / 128-bit SIMD
X Specified by the index character 5 LASX / 256-bit SIMD

The bit index specifiers are as follows:

Character Starting bit index
d 0
j 5
k 10
a 15
m 16
n 18

In some formats, a long immediate is broken into multiple fields. The individual fields are to be concatenated from left (MSB direction) to right (LSB direction) to form the effective number. For example, the format officially known as 1RI21 is JSd5k16 in our notation; the Sd5k16 part means (int32_t)(((x & 0x1f) << 16) | ((x >> 10) & 0xffff)).

The format that takes no operands is specially named EMPTY. For all other formats, the operand slots are sorted so that all registers precede the immediates, and from LSB to MSB in either group. This means even instructions taking rj, rd as presented in official manuals are DJ format, and that bstrpick.d is DJUk6Um6 and never something like DJUm6Uk6 or JDUk6Um6.

Because index characters can only follow certain leading characters, the whole instruction format string can be capitalized without becoming ambiguous, despite the index specifiers sharing the same djka characters with register operands. So for example the JSd5k16 name above can easily be capitalized into JSD5K16 for adherence to certain coding styles.

Original format or "Manual syntax" of instructions

In the original LoongArch ISA manual, many instructions' asm syntax is not consistent with the above canonicalized notation, but instead are more-or-less arbitrary (like with the conditional branches, no reason whatsoever for swapping rd and rj), and/or seem to abandon consistency for arguably ergonomics purposes, most commonly by hiding a shifted immediate operand's such nature, but there are more.

These original formats are recorded in the optional attribute orig_fmt, and they conform to the manual-insn-format ABNF item described above instead. Most notably, this means register operands no longer always come first, hence the case-insensitive property is lost for some of the formats; also immediates may optionally have to be "postprocessed" for proper disassembly output (or "preprocessed" for assembly), they are marked with a p followed by one postprocess operation.

The possible immediate postprocess operations are listed below:

Notation Meaning
pNN imm + NN
sNN imm << NN

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