gas/doc/c-or1k.texi - binutils-gdb - Git at Google

 @c Copyright (C) 1991-2021 Free Software Foundation, Inc.
 @c This is part of the GAS manual.
 @c For copying conditions, see the file as.texinfo.
 @ifset GENERIC
 @page
 @node OpenRISC-Dependent
 @chapter OPENRISC Dependent Features
 @end ifset
 @ifclear GENERIC
 @node Machine Dependencies
 @chapter OPENRISC Dependent Features
 @end ifclear

 @cindex OPENRISC support
 @menu
 * OpenRISC-Syntax::		Syntax
 * OpenRISC-Float::		Floating Point
 * OpenRISC-Directives::		OpenRISC Machine Directives
 * OpenRISC-Opcodes::		Opcodes
 @end menu

 @cindex OPENRISC syntax
 @cindex syntax, OPENRISC
 @node OpenRISC-Syntax
 @section OpenRISC Syntax
 The assembler syntax follows the OpenRISC 1000 Architecture Manual.

 @menu
 * OpenRISC-Chars::		Special Characters
 * OpenRISC-Regs::		Register Names
 * OpenRISC-Relocs::		Relocations
 @end menu

 @node OpenRISC-Chars
 @subsection Special Characters

 @cindex line comment character, OpenRISC
 @cindex OpenRISC line comment character
 A @samp{#} character appearing anywhere on a line indicates the start
 of a comment that extends to the end of that line.

 @cindex line separator, OpenRISC
 @cindex statement separator, OpenRISC
 @cindex OpenRISC line separator
 @samp{;} can be used instead of a newline to separate statements.

 @node OpenRISC-Regs
 @subsection Register Names
 @cindex OpenRISC registers
 @cindex register names, OpenRISC

 The OpenRISC register file contains 32 general pupose registers.

 @itemize @bullet
 @item
 The 32 general purpose registers are referred to as @samp{r@var{n}}.

 @item
 The stack pointer register @samp{r1} can be referenced using the alias
 @samp{sp}.

 @item
 The frame pointer register @samp{r2} can be referenced using the alias
 @samp{fp}.

 @item
 The link register @samp{r9} can be referenced using the alias @samp{lr}.
 @end itemize

 Floating point operations use the same general purpose registers.  The
 instructions @code{lf.itof.s} (single precision) and @code{lf.itof.d} (double
 precision) can be used to convert integer values to floating point.
 Likewise, instructions @code{lf.ftoi.s} (single precision) and
 @code{lf.ftoi.d} (double precision) can be used to convert floating point to
 integer.

 OpenRISC also contains privileged special purpose registers (SPRs).  The
 SPRs are accessed using the @code{l.mfspr} and @code{l.mtspr} instructions.

 @node OpenRISC-Relocs
 @subsection Relocations
 @cindex OpenRISC relocations
 @cindex relocations, OpenRISC

 ELF relocations are available as defined in the OpenRISC architecture
 specification.

 @code{R_OR1K_HI_16_IN_INSN} is obtained using @samp{hi} and
 @code{R_OR1K_LO_16_IN_INSN} and @code{R_OR1K_SLO16} are obtained using
 @samp{lo}.  For signed offsets @code{R_OR1K_AHI16} is obtained from
 @samp{ha}.  For example:

 @example
 l.movhi r5, hi(symbol)
 l.ori   r5, r5, lo(symbol)

 l.movhi r5, ha(symbol)
 l.addi  r5, r5, lo(symbol)
 @end example

 These ``high'' mnemonics extract bits 31:16 of their operand,
 and the ``low'' mnemonics extract bits 15:0 of their operand.

 The PC relative relocation @code{R_OR1K_GOTPC_HI16} can be obtained by
 enclosing an operand inside of @samp{gotpchi}.  Likewise, the
 @code{R_OR1K_GOTPC_LO16} relocation can be obtained using @samp{gotpclo}.
 These are mostly used when assembling PIC code.  For example, the
 standard PIC sequence on OpenRISC to get the base of the global offset
 table, PC relative, into a register, can be performed as:

 @example
 l.jal   0x8
  l.movhi r17, gotpchi(_GLOBAL_OFFSET_TABLE_-4)
 l.ori   r17, r17, gotpclo(_GLOBAL_OFFSET_TABLE_+0)
 l.add   r17, r17, r9
 @end example

 Several relocations exist to allow the link editor to perform GOT data
 references.  The @code{R_OR1K_GOT16} relocation can obtained by enclosing an
 operand inside of @samp{got}.  For example, assuming the GOT base is in
 register @code{r17}.

 @example
 l.lwz   r19, got(a)(r17)
 l.lwz   r21, 0(r19)
 @end example

 Also, several relocations exist for local GOT references.  The
 @code{R_OR1K_GOTOFF_AHI16} relocation can obtained by enclosing an operand
 inside of @samp{gotoffha}.  Likewise, @code{R_OR1K_GOTOFF_LO16} and
 @code{R_OR1K_GOTOFF_SLO16} can be obtained by enclosing an operand inside of
 @samp{gotofflo}.  For example, assuming the GOT base is in register
 @code{rl7}:

 @example
 l.movhi r19, gotoffha(symbol)
 l.add   r19, r19, r17
 l.lwz   r19, gotofflo(symbol)(r19)
 @end example

 The above PC relative relocations use a @code{l.jal} (jump) instruction
 and reading of the link register to load the PC.  OpenRISC also supports
 page offset PC relative locations without a jump instruction using the
 @code{l.adrp} instruction.  By default the @code{l.adrp} instruction will
 create an @code{R_OR1K_PCREL_PG21} relocation.
 Likewise, @code{BFD_RELOC_OR1K_LO13} and @code{BFD_RELOC_OR1K_SLO13} can
 be obtained by enclosing an operand inside of @samp{po}.  For example:

 @example
 l.adrp  r3, symbol
 l.ori   r4, r3, po(symbol)
 l.lbz   r5, po(symbol)(r3)
 l.sb    po(symbol)(r3), r6
 @end example

 Likewise the page offset relocations can be used with GOT references.  The
 relocation @code{R_OR1K_GOT_PG21} can be obtained by enclosing an
 @code{l.adrp} immediate operand inside of @samp{got}.  Likewise,
 @code{R_OR1K_GOT_LO13} can be obtained by enclosing an operand inside of
 @samp{gotpo}.  For example to load the value of a GOT symbol into register
 @samp{r5} we can do:

 @example
 l.adrp  r17, got(_GLOBAL_OFFSET_TABLE_)
 l.lwz   r5, gotpo(symbol)(r17)
 @end example

 There are many relocations that can be requested for access to
 thread local storage variables.  All of the OpenRISC TLS mnemonics
 are supported:

 @itemize @bullet
 @item
 @code{R_OR1K_TLS_GD_HI16} is requested using @samp{tlsgdhi}.
 @item
 @code{R_OR1K_TLS_GD_LO16} is requested using @samp{tlsgdlo}.
 @item
 @code{R_OR1K_TLS_GD_PG21} is requested using @samp{tldgd}.
 @item
 @code{R_OR1K_TLS_GD_LO13} is requested using @samp{tlsgdpo}.

 @item
 @code{R_OR1K_TLS_LDM_HI16} is requested using @samp{tlsldmhi}.
 @item
 @code{R_OR1K_TLS_LDM_LO16} is requested using @samp{tlsldmlo}.
 @item
 @code{R_OR1K_TLS_LDM_PG21} is requested using @samp{tldldm}.
 @item
 @code{R_OR1K_TLS_LDM_LO13} is requested using @samp{tlsldmpo}.

 @item
 @code{R_OR1K_TLS_LDO_HI16} is requested using @samp{dtpoffhi}.
 @item
 @code{R_OR1K_TLS_LDO_LO16} is requested using @samp{dtpofflo}.

 @item
 @code{R_OR1K_TLS_IE_HI16} is requested using @samp{gottpoffhi}.
 @item
 @code{R_OR1K_TLS_IE_AHI16} is requested using @samp{gottpoffha}.
 @item
 @code{R_OR1K_TLS_IE_LO16} is requested using @samp{gottpofflo}.
 @item
 @code{R_OR1K_TLS_IE_PG21} is requested using @samp{gottp}.
 @item
 @code{R_OR1K_TLS_IE_LO13} is requested using @samp{gottppo}.

 @item
 @code{R_OR1K_TLS_LE_HI16} is requested using @samp{tpoffhi}.
 @item
 @code{R_OR1K_TLS_LE_AHI16} is requested using @samp{tpoffha}.
 @item
 @code{R_OR1K_TLS_LE_LO16} is requested using @samp{tpofflo}.
 @item
 @code{R_OR1K_TLS_LE_SLO16} also is requested using @samp{tpofflo}
 depending on the instruction format.
 @end itemize

 Here are some example TLS model sequences.

 First, General Dynamic:

 @example
 l.movhi r17, tlsgdhi(symbol)
 l.ori   r17, r17, tlsgdlo(symbol)
 l.add   r17, r17, r16
 l.or    r3, r17, r17
 l.jal   plt(__tls_get_addr)
  l.nop
 @end example

 Initial Exec:

 @example
 l.movhi r17, gottpoffhi(symbol)
 l.add   r17, r17, r16
 l.lwz   r17, gottpofflo(symbol)(r17)
 l.add   r17, r17, r10
 l.lbs   r17, 0(r17)
 @end example

 And finally, Local Exec:

 @example
 l.movhi r17, tpoffha(symbol)
 l.add   r17, r17, r10
 l.addi  r17, r17, tpofflo(symbol)
 l.lbs   r17, 0(r17)
 @end example

 @node OpenRISC-Float
 @section Floating Point

 @cindex floating point, OPENRISC (@sc{ieee})
 @cindex OPENRISC floating point (@sc{ieee})
 OpenRISC uses @sc{ieee} floating-point numbers.

 @node OpenRISC-Directives
 @section OpenRISC Machine Directives

 @cindex OPENRISC machine directives
 @cindex machine directives, OPENRISC
 The OpenRISC version of @code{@value{AS}} supports the following additional
 machine directives:

 @table @code
 @cindex @code{align} directive, OpenRISC
 @item .align
 This must be followed by the desired alignment in bytes.

 @cindex @code{word} directive, OpenRISC
 @item .word
 On the OpenRISC, the @code{.word} directive produces a 32 bit value.

 @cindex @code{nodelay} directive, OpenRISC
 @item .nodelay
 On the OpenRISC, the @code{.nodelay} directive sets a flag in elf binaries
 indicating that the binary is generated catering for no delay slots.

 @cindex @code{proc} directive, OpenRISC
 @item .proc
 This directive is ignored.  Any text following it on the same
 line is also ignored.

 @cindex @code{endproc} directive, OpenRISC
 @item .endproc
 This directive is ignored.  Any text following it on the same
 line is also ignored.
 @end table

 @node OpenRISC-Opcodes
 @section Opcodes

 @cindex OpenRISC opcode summary
 @cindex opcode summary, OpenRISC
 @cindex mnemonics, OpenRISC
 @cindex instruction summary, LM32
 For detailed information on the OpenRISC machine instruction set, see
 @url{http://www.openrisc.io/architecture/}.

 @code{@value{AS}} implements all the standard OpenRISC opcodes.
	@c Copyright (C) 1991-2021 Free Software Foundation, Inc.
	@c This is part of the GAS manual.
	@c For copying conditions, see the file as.texinfo.
	@ifset GENERIC
	@page
	@node OpenRISC-Dependent
	@chapter OPENRISC Dependent Features
	@end ifset
	@ifclear GENERIC
	@node Machine Dependencies
	@chapter OPENRISC Dependent Features
	@end ifclear

	@cindex OPENRISC support
	@menu
	* OpenRISC-Syntax:: Syntax
	* OpenRISC-Float:: Floating Point
	* OpenRISC-Directives:: OpenRISC Machine Directives
	* OpenRISC-Opcodes:: Opcodes
	@end menu

	@cindex OPENRISC syntax
	@cindex syntax, OPENRISC
	@node OpenRISC-Syntax
	@section OpenRISC Syntax
	The assembler syntax follows the OpenRISC 1000 Architecture Manual.

	@menu
	* OpenRISC-Chars:: Special Characters
	* OpenRISC-Regs:: Register Names
	* OpenRISC-Relocs:: Relocations
	@end menu

	@node OpenRISC-Chars
	@subsection Special Characters

	@cindex line comment character, OpenRISC
	@cindex OpenRISC line comment character
	A @samp{#} character appearing anywhere on a line indicates the start
	of a comment that extends to the end of that line.

	@cindex line separator, OpenRISC
	@cindex statement separator, OpenRISC
	@cindex OpenRISC line separator
	@samp{;} can be used instead of a newline to separate statements.

	@node OpenRISC-Regs
	@subsection Register Names
	@cindex OpenRISC registers
	@cindex register names, OpenRISC

	The OpenRISC register file contains 32 general pupose registers.

	@itemize @bullet
	@item
	The 32 general purpose registers are referred to as @samp{r@var{n}}.

	@item
	The stack pointer register @samp{r1} can be referenced using the alias
	@samp{sp}.

	@item
	The frame pointer register @samp{r2} can be referenced using the alias
	@samp{fp}.

	@item
	The link register @samp{r9} can be referenced using the alias @samp{lr}.
	@end itemize

	Floating point operations use the same general purpose registers. The
	instructions @code{lf.itof.s} (single precision) and @code{lf.itof.d} (double
	precision) can be used to convert integer values to floating point.
	Likewise, instructions @code{lf.ftoi.s} (single precision) and
	@code{lf.ftoi.d} (double precision) can be used to convert floating point to
	integer.

	OpenRISC also contains privileged special purpose registers (SPRs). The
	SPRs are accessed using the @code{l.mfspr} and @code{l.mtspr} instructions.

	@node OpenRISC-Relocs
	@subsection Relocations
	@cindex OpenRISC relocations
	@cindex relocations, OpenRISC

	ELF relocations are available as defined in the OpenRISC architecture
	specification.

	@code{R_OR1K_HI_16_IN_INSN} is obtained using @samp{hi} and
	@code{R_OR1K_LO_16_IN_INSN} and @code{R_OR1K_SLO16} are obtained using
	@samp{lo}. For signed offsets @code{R_OR1K_AHI16} is obtained from
	@samp{ha}. For example:

	@example
	l.movhi r5, hi(symbol)
	l.ori r5, r5, lo(symbol)

	l.movhi r5, ha(symbol)
	l.addi r5, r5, lo(symbol)
	@end example

	These ``high'' mnemonics extract bits 31:16 of their operand,
	and the ``low'' mnemonics extract bits 15:0 of their operand.

	The PC relative relocation @code{R_OR1K_GOTPC_HI16} can be obtained by
	enclosing an operand inside of @samp{gotpchi}. Likewise, the
	@code{R_OR1K_GOTPC_LO16} relocation can be obtained using @samp{gotpclo}.
	These are mostly used when assembling PIC code. For example, the
	standard PIC sequence on OpenRISC to get the base of the global offset
	table, PC relative, into a register, can be performed as:

	@example
	l.jal 0x8
	l.movhi r17, gotpchi(_GLOBAL_OFFSET_TABLE_-4)
	l.ori r17, r17, gotpclo(_GLOBAL_OFFSET_TABLE_+0)
	l.add r17, r17, r9
	@end example

	Several relocations exist to allow the link editor to perform GOT data
	references. The @code{R_OR1K_GOT16} relocation can obtained by enclosing an
	operand inside of @samp{got}. For example, assuming the GOT base is in
	register @code{r17}.

	@example
	l.lwz r19, got(a)(r17)
	l.lwz r21, 0(r19)
	@end example

	Also, several relocations exist for local GOT references. The
	@code{R_OR1K_GOTOFF_AHI16} relocation can obtained by enclosing an operand
	inside of @samp{gotoffha}. Likewise, @code{R_OR1K_GOTOFF_LO16} and
	@code{R_OR1K_GOTOFF_SLO16} can be obtained by enclosing an operand inside of
	@samp{gotofflo}. For example, assuming the GOT base is in register
	@code{rl7}:

	@example
	l.movhi r19, gotoffha(symbol)
	l.add r19, r19, r17
	l.lwz r19, gotofflo(symbol)(r19)
	@end example

	The above PC relative relocations use a @code{l.jal} (jump) instruction
	and reading of the link register to load the PC. OpenRISC also supports
	page offset PC relative locations without a jump instruction using the
	@code{l.adrp} instruction. By default the @code{l.adrp} instruction will
	create an @code{R_OR1K_PCREL_PG21} relocation.
	Likewise, @code{BFD_RELOC_OR1K_LO13} and @code{BFD_RELOC_OR1K_SLO13} can
	be obtained by enclosing an operand inside of @samp{po}. For example:

	@example
	l.adrp r3, symbol
	l.ori r4, r3, po(symbol)
	l.lbz r5, po(symbol)(r3)
	l.sb po(symbol)(r3), r6
	@end example

	Likewise the page offset relocations can be used with GOT references. The
	relocation @code{R_OR1K_GOT_PG21} can be obtained by enclosing an
	@code{l.adrp} immediate operand inside of @samp{got}. Likewise,
	@code{R_OR1K_GOT_LO13} can be obtained by enclosing an operand inside of
	@samp{gotpo}. For example to load the value of a GOT symbol into register
	@samp{r5} we can do:

	@example
	l.adrp r17, got(_GLOBAL_OFFSET_TABLE_)
	l.lwz r5, gotpo(symbol)(r17)
	@end example

	There are many relocations that can be requested for access to
	thread local storage variables. All of the OpenRISC TLS mnemonics
	are supported:

	@itemize @bullet
	@item
	@code{R_OR1K_TLS_GD_HI16} is requested using @samp{tlsgdhi}.
	@item
	@code{R_OR1K_TLS_GD_LO16} is requested using @samp{tlsgdlo}.
	@item
	@code{R_OR1K_TLS_GD_PG21} is requested using @samp{tldgd}.
	@item
	@code{R_OR1K_TLS_GD_LO13} is requested using @samp{tlsgdpo}.

	@item
	@code{R_OR1K_TLS_LDM_HI16} is requested using @samp{tlsldmhi}.
	@item
	@code{R_OR1K_TLS_LDM_LO16} is requested using @samp{tlsldmlo}.
	@item
	@code{R_OR1K_TLS_LDM_PG21} is requested using @samp{tldldm}.
	@item
	@code{R_OR1K_TLS_LDM_LO13} is requested using @samp{tlsldmpo}.

	@item
	@code{R_OR1K_TLS_LDO_HI16} is requested using @samp{dtpoffhi}.
	@item
	@code{R_OR1K_TLS_LDO_LO16} is requested using @samp{dtpofflo}.

	@item
	@code{R_OR1K_TLS_IE_HI16} is requested using @samp{gottpoffhi}.
	@item
	@code{R_OR1K_TLS_IE_AHI16} is requested using @samp{gottpoffha}.
	@item
	@code{R_OR1K_TLS_IE_LO16} is requested using @samp{gottpofflo}.
	@item
	@code{R_OR1K_TLS_IE_PG21} is requested using @samp{gottp}.
	@item
	@code{R_OR1K_TLS_IE_LO13} is requested using @samp{gottppo}.

	@item
	@code{R_OR1K_TLS_LE_HI16} is requested using @samp{tpoffhi}.
	@item
	@code{R_OR1K_TLS_LE_AHI16} is requested using @samp{tpoffha}.
	@item
	@code{R_OR1K_TLS_LE_LO16} is requested using @samp{tpofflo}.
	@item
	@code{R_OR1K_TLS_LE_SLO16} also is requested using @samp{tpofflo}
	depending on the instruction format.
	@end itemize

	Here are some example TLS model sequences.

	First, General Dynamic:

	@example
	l.movhi r17, tlsgdhi(symbol)
	l.ori r17, r17, tlsgdlo(symbol)
	l.add r17, r17, r16
	l.or r3, r17, r17
	l.jal plt(__tls_get_addr)
	l.nop
	@end example

	Initial Exec:

	@example
	l.movhi r17, gottpoffhi(symbol)
	l.add r17, r17, r16
	l.lwz r17, gottpofflo(symbol)(r17)
	l.add r17, r17, r10
	l.lbs r17, 0(r17)
	@end example

	And finally, Local Exec:

	@example
	l.movhi r17, tpoffha(symbol)
	l.add r17, r17, r10
	l.addi r17, r17, tpofflo(symbol)
	l.lbs r17, 0(r17)
	@end example

	@node OpenRISC-Float
	@section Floating Point

	@cindex floating point, OPENRISC (@sc{ieee})
	@cindex OPENRISC floating point (@sc{ieee})
	OpenRISC uses @sc{ieee} floating-point numbers.

	@node OpenRISC-Directives
	@section OpenRISC Machine Directives

	@cindex OPENRISC machine directives
	@cindex machine directives, OPENRISC
	The OpenRISC version of @code{@value{AS}} supports the following additional
	machine directives:

	@table @code
	@cindex @code{align} directive, OpenRISC
	@item .align
	This must be followed by the desired alignment in bytes.

	@cindex @code{word} directive, OpenRISC
	@item .word
	On the OpenRISC, the @code{.word} directive produces a 32 bit value.

	@cindex @code{nodelay} directive, OpenRISC
	@item .nodelay
	On the OpenRISC, the @code{.nodelay} directive sets a flag in elf binaries
	indicating that the binary is generated catering for no delay slots.

	@cindex @code{proc} directive, OpenRISC
	@item .proc
	This directive is ignored. Any text following it on the same
	line is also ignored.

	@cindex @code{endproc} directive, OpenRISC
	@item .endproc
	This directive is ignored. Any text following it on the same
	line is also ignored.
	@end table

	@node OpenRISC-Opcodes
	@section Opcodes

	@cindex OpenRISC opcode summary
	@cindex opcode summary, OpenRISC
	@cindex mnemonics, OpenRISC
	@cindex instruction summary, LM32
	For detailed information on the OpenRISC machine instruction set, see
	@url{http://www.openrisc.io/architecture/}.

	@code{@value{AS}} implements all the standard OpenRISC opcodes.