@c Copyright (C) 2016-2018 Free Software Foundation, Inc. @c This is part of the GAS anual. @c For copying conditions, see the file as.texinfo @c man end @ifset GENERIC @page @node RISC-V-Dependent @chapter RISC-V Dependent Features @end ifset @ifclear GENERIC @node Machine Dependencies @chapter RISC-V Dependent Features @end ifclear @cindex RISC-V support @menu * RISC-V-Options:: RISC-V Options * RISC-V-Directives:: RISC-V Directives * RISC-V-Formats:: RISC-V Instruction Formats @end menu @node RISC-V-Options @section RISC-V Options The following table lists all available RISC-V specific options. @c man begin OPTIONS @table @gcctabopt @cindex @samp{-fpic} option, RISC-V @item -fpic @itemx -fPIC Generate position-independent code @cindex @samp{-fno-pic} option, RISC-V @item -fno-pic Don't generate position-independent code (default) @cindex @samp{-march=ISA} option, RISC-V @item -march=ISA Select the base isa, as specified by ISA. For example -march=rv32ima. @cindex @samp{-mabi=ABI} option, RISC-V @item -mabi=ABI Selects the ABI, which is either "ilp32" or "lp64", optionally followed by "f", "d", or "q" to indicate single-precision, double-precision, or quad-precision floating-point calling convention, or none to indicate the soft-float calling convention. Also, "ilp32" can optionally be followed by "e" to indicate the RVE ABI, which is always soft-float. @cindex @samp{-mrelax} option, RISC-V @item -mrelax Take advantage of linker relaxations to reduce the number of instructions required to materialize symbol addresses. (default) @cindex @samp{-mno-relax} option, RISC-V @item -mno-relax Don't do linker relaxations. @end table @c man end @node RISC-V-Directives @section RISC-V Directives @cindex machine directives, RISC-V @cindex RISC-V machine directives The following table lists all available RISC-V specific directives. @table @code @cindex @code{align} directive @item .align @var{size-log-2} Align to the given boundary, with the size given as log2 the number of bytes to align to. @cindex Data directives @item .half @var{value} @itemx .word @var{value} @itemx .dword @var{value} Emits a half-word, word, or double-word value at the current position. @cindex DTP-relative data directives @item .dtprelword @var{value} @itemx .dtpreldword @var{value} Emits a DTP-relative word (or double-word) at the current position. This is meant to be used by the compiler in shared libraries for DWARF debug info for thread local variables. @cindex BSS directive @item .bss Sets the current section to the BSS section. @cindex LEB128 directives @item .uleb128 @var{value} @itemx .sleb128 @var{value} Emits a signed or unsigned LEB128 value at the current position. This only accepts constant expressions, because symbol addresses can change with relaxation, and we don't support relocations to modify LEB128 values at link time. @cindex Option directive @cindex @code{option} directive @item .option @var{argument} Modifies RISC-V specific assembler options inline with the assembly code. This is used when particular instruction sequences must be assembled with a specific set of options. For example, since we relax addressing sequences to shorter GP-relative sequences when possible the initial load of GP must not be relaxed and should be emitted as something like @smallexample .option push .option norelax la gp, __global_pointer$ .option pop @end smallexample in order to produce after linker relaxation the expected @smallexample auipc gp, %pcrel_hi(__global_pointer$) addi gp, gp, %pcrel_lo(__global_pointer$) @end smallexample instead of just @smallexample addi gp, gp, 0 @end smallexample It's not expected that options are changed in this manner during regular use, but there are a handful of esoteric cases like the one above where users need to disable particular features of the assembler for particular code sequences. The complete list of option arguments is shown below: @table @code @item push @itemx pop Pushes or pops the current option stack. These should be used whenever changing an option in line with assembly code in order to ensure the user's command-line options are respected for the bulk of the file being assembled. @item rvc @itemx norvc Enables or disables the generation of compressed instructions. Instructions are opportunistically compressed by the RISC-V assembler when possible, but sometimes this behavior is not desirable. @item pic @itemx nopic Enables or disables position-independent code generation. Unless you really know what you're doing, this should only be at the top of a file. @item relax @itemx norelax Enables or disables relaxation. The RISC-V assembler and linker opportunistically relax some code sequences, but sometimes this behavior is not desirable. @end table @cindex INSN directives @item .insn @var{value} @itemx .insn @var{value} This directive permits the numeric representation of an instructions and makes the assembler insert the operands according to one of the instruction formats for @samp{.insn} (@ref{RISC-V-Formats}). For example, the instruction @samp{add a0, a1, a2} could be written as @samp{.insn r 0x33, 0, 0, a0, a1, a2}. @end table @node RISC-V-Formats @section Instruction Formats @cindex instruction formats, risc-v @cindex RISC-V instruction formats The RISC-V Instruction Set Manual Volume I: User-Level ISA lists 12 instruction formats where some of the formats have multiple variants. For the @samp{.insn} pseudo directive the assembler recognizes some of the formats. Typically, the most general variant of the instruction format is used by the @samp{.insn} directive. The following table lists the abbreviations used in the table of instruction formats: @display @multitable @columnfractions .15 .40 @item opcode @tab Unsigned immediate or opcode name for 7-bits opcode. @item opcode2 @tab Unsigned immediate or opcode name for 2-bits opcode. @item func7 @tab Unsigned immediate for 7-bits function code. @item func4 @tab Unsigned immediate for 4-bits function code. @item func3 @tab Unsigned immediate for 3-bits function code. @item func2 @tab Unsigned immediate for 2-bits function code. @item rd @tab Destination register number for operand x, can be GPR or FPR. @item rd' @tab Destination register number for operand x, only accept s0-s1, a0-a5, fs0-fs1 and fa0-fa5. @item rs1 @tab First source register number for operand x, can be GPR or FPR. @item rs1' @tab First source register number for operand x, only accept s0-s1, a0-a5, fs0-fs1 and fa0-fa5. @item rs2 @tab Second source register number for operand x, can be GPR or FPR. @item rs2' @tab Second source register number for operand x, only accept s0-s1, a0-a5, fs0-fs1 and fa0-fa5. @item simm12 @tab Sign-extended 12-bit immediate for operand x. @item simm20 @tab Sign-extended 20-bit immediate for operand x. @item simm6 @tab Sign-extended 6-bit immediate for operand x. @item uimm8 @tab Unsigned 8-bit immediate for operand x. @item symbol @tab Symbol or lable reference for operand x. @end multitable @end display The following table lists all available opcode name: @table @code @item C0 @item C1 @item C2 Opcode space for compressed instructions. @item LOAD Opcode space for load instructions. @item LOAD_FP Opcode space for floating-point load instructions. @item STORE Opcode space for store instructions. @item STORE_FP Opcode space for floating-point store instructions. @item AUIPC Opcode space for auipc instruction. @item LUI Opcode space for lui instruction. @item BRANCH Opcode space for branch instructions. @item JAL Opcode space for jal instruction. @item JALR Opcode space for jalr instruction. @item OP Opcode space for ALU instructions. @item OP_32 Opcode space for 32-bits ALU instructions. @item OP_IMM Opcode space for ALU with immediate instructions. @item OP_IMM_32 Opcode space for 32-bits ALU with immediate instructions. @item OP_FP Opcode space for floating-point operation instructions. @item MADD Opcode space for madd instruction. @item MSUB Opcode space for msub instruction. @item NMADD Opcode space for nmadd instruction. @item NMSUB Opcode space for msub instruction. @item AMO Opcode space for atomic memory operation instructions. @item MISC_IMM Opcode space for misc instructions. @item SYSTEM Opcode space for system instructions. @item CUSTOM_0 @item CUSTOM_1 @item CUSTOM_2 @item CUSTOM_3 Opcode space for customize instructions. @end table An instruction is two or four bytes in length and must be aligned on a 2 byte boundary. The first two bits of the instruction specify the length of the instruction, 00, 01 and 10 indicates a two byte instruction, 11 indicates a four byte instruction. The following table lists the RISC-V instruction formats that are available with the @samp{.insn} pseudo directive: @table @code @item R type: .insn r opcode, func3, func7, rd, rs1, rs2 @verbatim +-------+-----+-----+-------+----+-------------+ | func7 | rs2 | rs1 | func3 | rd | opcode | +-------+-----+-----+-------+----+-------------+ 31 25 20 15 12 7 0 @end verbatim @item R type with 4 register operands: .insn r opcode, func3, func2, rd, rs1, rs2, rs3 @verbatim +-----+-------+-----+-----+-------+----+-------------+ | rs3 | func2 | rs2 | rs1 | func3 | rd | opcode | +-----+-------+-----+-----+-------+----+-------------+ 31 27 25 20 15 12 7 0 @end verbatim @item I type: .insn i opcode, func3, rd, rs1, simm12 @verbatim +-------------+-----+-------+----+-------------+ | simm12 | rs1 | func3 | rd | opcode | +-------------+-----+-------+----+-------------+ 31 20 15 12 7 0 @end verbatim @item S type: .insn s opcode, func3, rd, rs1, simm12 @verbatim +--------------+-----+-----+-------+-------------+-------------+ | simm12[11:5] | rs2 | rs1 | func3 | simm12[4:0] | opcode | +--------------+-----+-----+-------+-------------+-------------+ 31 25 20 15 12 7 0 @end verbatim @item SB type: .insn sb opcode, func3, rd, rs1, symbol @itemx SB type: .insn sb opcode, func3, rd, simm12(rs1) @verbatim +--------------+-----+-----+-------+-------------+-------------+ | simm21[11:5] | rs2 | rs1 | func3 | simm12[4:0] | opcode | +--------------+-----+-----+-------+-------------+-------------+ 31 25 20 15 12 7 0 @end verbatim @item U type: .insn u opcode, rd, simm20 @verbatim +---------------------------+----+-------------+ | simm20 | rd | opcode | +---------------------------+----+-------------+ 31 12 7 0 @end verbatim @item UJ type: .insn uj opcode, rd, symbol @verbatim +------------+--------------+------------+---------------+----+-------------+ | simm20[20] | simm20[10:1] | simm20[11] | simm20[19:12] | rd | opcode | +------------+--------------+------------+---------------+----+-------------+ 31 30 21 20 12 7 0 @end verbatim @item CR type: .insn cr opcode2, func4, rd, rs1 @verbatim +---------+--------+-----+---------+ | func4 | rd/rs1 | rs2 | opcode2 | +---------+--------+-----+---------+ 15 12 7 2 0 @end verbatim @item CI type: .insn ci opcode2, func3, rd, simm6 @verbatim +---------+-----+--------+-----+---------+ | func3 | imm | rd/rs1 | imm | opcode2 | +---------+-----+--------+-----+---------+ 15 13 12 7 2 0 @end verbatim @item CIW type: .insn ciw opcode2, func3, rd, uimm8 @verbatim +---------+--------------+-----+---------+ | func3 | imm | rd' | opcode2 | +---------+--------------+-----+---------+ 15 13 7 2 0 @end verbatim @item CB type: .insn cb opcode2, func3, rs1, symbol @verbatim +---------+--------+------+--------+---------+ | func3 | offset | rs1' | offset | opcode2 | +---------+--------+------+--------+---------+ 15 13 10 7 2 0 @end verbatim @item CJ type: .insn cj opcode2, symbol @verbatim +---------+--------------------+---------+ | func3 | jump target | opcode2 | +---------+--------------------+---------+ 15 13 7 2 0 @end verbatim @end table For the complete list of all instruction format variants see The RISC-V Instruction Set Manual Volume I: User-Level ISA.