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author | David S. Miller <davem@redhat.com> | 2008-04-18 21:19:48 +0000 |
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committer | David S. Miller <davem@redhat.com> | 2008-04-18 21:19:48 +0000 |
commit | c15295d54595ca69acf57a5a7193547cf9edeacf (patch) | |
tree | 61ca92d6f6ccf837058779b3d87febb617236f25 /gas | |
parent | eff014d9160218e61ff961db913bf76c36f24db2 (diff) | |
download | gdb-c15295d54595ca69acf57a5a7193547cf9edeacf.zip gdb-c15295d54595ca69acf57a5a7193547cf9edeacf.tar.gz gdb-c15295d54595ca69acf57a5a7193547cf9edeacf.tar.bz2 |
* doc/c-sparc.texi: Add syntax section.
Diffstat (limited to 'gas')
-rw-r--r-- | gas/ChangeLog | 4 | ||||
-rw-r--r-- | gas/doc/c-sparc.texi | 404 |
2 files changed, 402 insertions, 6 deletions
diff --git a/gas/ChangeLog b/gas/ChangeLog index cfee625..f75e87a 100644 --- a/gas/ChangeLog +++ b/gas/ChangeLog @@ -1,3 +1,7 @@ +2008-04-18 David S. Miller <davem@davemloft.net> + + * doc/c-sparc.texi: Add syntax section. + 2008-04-18 H.J. Lu <hongjiu.lu@intel.com> * config/tc-i386.c (build_modrm_byte): Don't check FMA to swap diff --git a/gas/doc/c-sparc.texi b/gas/doc/c-sparc.texi index 351b300..cd0884c 100644 --- a/gas/doc/c-sparc.texi +++ b/gas/doc/c-sparc.texi @@ -16,6 +16,7 @@ @menu * Sparc-Opts:: Options * Sparc-Aligned-Data:: Option to enforce aligned data +* Sparc-Syntax:: Syntax * Sparc-Float:: Floating Point * Sparc-Directives:: Sparc Machine Directives @end menu @@ -109,12 +110,403 @@ data structures (structures defined using the @code{packed} attribute). You may have to assemble with GAS in order to initialize packed data structures in your own code. -@ignore -@c FIXME: (sparc) Fill in "syntax" section! -@c subsection syntax -I don't know anything about Sparc syntax. Someone who does -will have to write this section. -@end ignore +@cindex SPARC syntax +@cindex syntax, SPARC +@node Sparc-Syntax +@section Sparc Syntax +The assembler syntax closely follows The Sparc Architecture Manual, +versions 8 and 9, as well as most extensions defined by Sun +for their UltraSPARC and Niagara line of processors. + +@menu +* Sparc-Chars:: Special Characters +* Sparc-Regs:: Register Names +* Sparc-Relocs:: Relocations +@end menu + +@node Sparc-Chars +@subsection Special Characters + +@cindex line comment character, Sparc +@cindex Sparc line comment character +@samp{#} is the line comment character. + +@cindex line separator, Sparc +@cindex statement separator, Sparc +@cindex Sparc line separator +@samp{;} can be used instead of a newline to separate statements. + +@node Sparc-Regs +@subsection Register Names +@cindex Sparc registers +@cindex register names, Sparc + +The Sparc integer register file is broken down into global, +outgoing, local, and incoming. + +@itemize @bullet +@item +The 8 global registers are referred to as @samp{%g@var{n}}. + +@item +The 8 outgoing registers are referred to as @samp{%o@var{n}}. + +@item +The 8 local registers are referred to as @samp{%l@var{n}}. + +@item +The 8 incoming registers are referred to as @samp{%i@var{n}}. + +@item +The frame pointer register @samp{%i6} can be referenced using +the alias @samp{%fp}. + +@item +The stack pointer register @samp{%o6} can be referenced using +the alias @samp{%sp}. +@end itemize + +Floating point registers are simply referred to as @samp{%f@var{n}}. +When assembling for pre-V9, only 32 floating point registers +are available. For V9 and later there are 64, but there are +restrictions when referencing the upper 32 registers. They +can only be accessed as double or quad, and thus only even +or quad numbered accesses are allowed. For example, @samp{%f34} +is a legal floating point register, but @samp{%f35} is not. + +Certain V9 instructions allow access to ancillary state registers. +Most simply they can be referred to as @samp{%asr@var{n}} where +@var{n} can be from 16 to 31. However, there are some aliased +defined to reference ASR registers defined for various UltraSPARC +processors: + +@itemize @bullet +@item +The tick compare register is referred to as @samp{%tick_cmpr}. + +@item +The system tick register is referred to as @samp{%sys_tick}. + +@item +The system tick compare register is referred to as @samp{%sys_tick_cmpr}. + +@item +The software interrupt register is referred to as @samp{%softint}. + +@item +The set software interrupt register is referred to as @samp{%set_softint}. + +@item +The clear software interrupt register is referred to as +@samp{%clear_softint}. + +@item +The performance instrumentation counters register is referred to as +@samp{%pic}. + +@item +The performance control register is referred to as @samp{%pcr}. + +@item +The graphics status register is referred to as @samp{%gsr}. + +@item +The dispatch control register is referred to as @samp{%dcr}. +@end itemize + +Various V9 branch and conditional move instructions allow +specification of which set of integer condition codes to +test. These are referred to as @samp{%xcc} and @samp{%icc}. + +In V9, there are 4 sets of floating point condition codes +which are referred to as @samp{%fcc@var{n}}. + +Several special privileged and non-privileged registers +exist: + +@itemize @bullet +@item +The V9 address space identifier register is referred to as @samp{%asi}. + +@item +The V9 restorable windows register is referred to as @samp{%canrestore}. + +@item +The V9 savable windows register is referred to as @samp{%cansave}. + +@item +The V9 clean windows register is referred to as @samp{%cleanwin}. + +@item +The V9 current window pointer register is referred to as @samp{%cwp}. + +@item +The floating-point queue register is referred to as @samp{%fq}. + +@item +The co-processor queue register is referred to as @samp{%cq}. + +@item +The floating point status register is referred to as @samp{%fsr}. + +@item +The other windows register is referred to as @samp{%otherwin}. + +@item +The V9 program counter register is referred to as @samp{%pc}. + +@item +The V9 next program counter register is referred to as @samp{%npc}. + +@item +The V9 processor interrupt level register is referred to as @samp{%pil}. + +@item +The V9 processor state register is referred to as @samp{%pstate}. + +@item +The trap base address register is referred to as @samp{%tba}. + +@item +The V9 tick register is referred to as @samp{%tick}. + +@item +The V9 trap level is referred to as @samp{%tl}. + +@item +The V9 trap program counter is referred to as @samp{%tpc}. + +@item +The V9 trap next program counter is referred to as @samp{%tnpc}. + +@item +The V9 trap state is referred to as @samp{%tstate}. + +@item +The V9 trap type is referred to as @samp{%tt}. + +@item +The V9 condition codes is referred to as @samp{%ccr}. + +@item +The V9 floating-point registers state is referred to as @samp{%fprs}. + +@item +The V9 version register is referred to as @samp{%ver}. + +@item +The V9 window state register is referred to as @samp{%wstate}. + +@item +The Y register is referred to as @samp{%y}. + +@item +The V8 window invalid mask register is referred to as @samp{%wim}. + +@item +The V8 processor state register is referred to as @samp{%psr}. + +@item +The global register level register is referred to as @samp{%gl}. +@end itemize + +Several special register names exist for hypervisor mode code: + +@itemize @bullet +@item +The hyperprivileged processor state register is referred to as +@samp{%hpstate}. + +@item +The hyperprivileged trap state register is referred to as @samp{%htstate}. + +@item +The hyperprivileged interrupt pending register is referred to as +@samp{%hintp}. + +@item +The hyperprivileged trap base address register is referred to as +@samp{%htba}. + +@item +The hyperprivileged implementation version register is referred +to as @samp{%hver}. + +@item +The hyperprivileged system tick compare register is referred +to as @samp{%hstick_cmpr}. +@end itemize + +@node Sparc-Relocs +@subsection Relocations +@cindex Sparc relocations +@cindex relocations, Sparc + +ELF relocations are available as defined in the 32-bit and 64-bit +Sparc ELF specifications. + +@code{R_SPARC_HI22} is obtained using @samp{%hi} and @code{R_SPARC_LO10} +is obtained using @samp{%lo}. Likewise @code{R_SPARC_HIX22} is +obtained from @samp{%hix} and @code{R_SPARC_LOX10} is obtained +using @samp{%lox}. For example: + +@example +sethi %hi(symbol), %g1 +or %g1, %lo(symbol), %g1 + +sethi %hix(symbol), %g1 +xor %g1, %lox(symbol), %g1 +@end example + +These ``high'' mnemonics extract bits 31:10 of their operand, +and the ``low'' mnemonics extract bits 9:0 of their operand. + +V9 code model relocations can be requested as follows: + +@itemize @bullet +@item +@code{R_SPARC_HH22} is requested using @samp{%hh}. It can +also be generated using @samp{%uhi}. +@item +@code{R_SPARC_HM10} is requested using @samp{%hm}. It can +also be generated using @samp{%ulo}. +@item +@code{R_SPARC_LM22} is requested using @samp{%lm}. + +@item +@code{R_SPARC_H44} is requested using @samp{%h44}. +@item +@code{R_SPARC_M44} is requested using @samp{%m44}. +@item +@code{R_SPARC_L44} is requested using @samp{%l44}. +@end itemize + +The PC relative relocation @code{R_SPARC_PC22} can be obtained by +enclosing an operand inside of @samp{%pc22}. Likewise, the +@code{R_SPARC_PC10} relocation can be obtained using @samp{%pc10}. +These are mostly used when assembling PIC code. For example, the +standard PIC sequence on Sparc to get the base of the global offset +table, PC relative, into a register, can be performed as: + +@example +sethi %pc22(_GLOBAL_OFFSET_TABLE_-4), %l7 +add %l7, %pc10(_GLOBAL_OFFSET_TABLE_+4), %l7 +@end example + +Several relocations exist to allow the link editor to potentially +optimize GOT data references. The @code{R_SPARC_GOTDATA_OP_HIX22} +relocation can obtained by enclosing an operand inside of +@samp{%gdop_hix22}. The @code{R_SPARC_GOTDATA_OP_LOX10} +relocation can obtained by enclosing an operand inside of +@samp{%gdop_lox10}. Likewise, @code{R_SPARC_GOTDATA_OP} can be +obtained by enclosing an operand inside of @samp{%gdop}. +For example, assuming the GOT base is in register @code{%l7}: + +@example +sethi %gdop_hix22(symbol), %l1 +xor %l1, %gdop_lox10(symbol), %l1 +ld [%l7 + %l1], %l2, %gdop(symbol) +@end example + +There are many relocations that can be requested for access to +thread local storage variables. All of the Sparc TLS mnemonics +are supported: + +@itemize @bullet +@item +@code{R_SPARC_TLS_GD_HI22} is requested using @samp{%tgd_hi22}. +@item +@code{R_SPARC_TLS_GD_LO10} is requested using @samp{%tgd_lo10}. +@item +@code{R_SPARC_TLS_GD_ADD} is requested using @samp{%tgd_add}. +@item +@code{R_SPARC_TLS_GD_CALL} is requested using @samp{%tgd_call}. + +@item +@code{R_SPARC_TLS_LDM_HI22} is requested using @samp{%tldm_hi22}. +@item +@code{R_SPARC_TLS_LDM_LO10} is requested using @samp{%tldm_lo10}. +@item +@code{R_SPARC_TLS_LDM_ADD} is requested using @samp{%tldm_add}. +@item +@code{R_SPARC_TLS_LDM_CALL} is requested using @samp{%tldm_call}. + +@item +@code{R_SPARC_TLS_LDO_HIX22} is requested using @samp{%tldo_hix22}. +@item +@code{R_SPARC_TLS_LDO_LOX10} is requested using @samp{%tldo_lox10}. +@item +@code{R_SPARC_TLS_LDO_ADD} is requested using @samp{%tldo_add}. + +@item +@code{R_SPARC_TLS_IE_HI22} is requested using @samp{%tie_hi22}. +@item +@code{R_SPARC_TLS_IE_LO10} is requested using @samp{%tie_lo10}. +@item +@code{R_SPARC_TLS_IE_LD} is requested using @samp{%tie_ld}. +@item +@code{R_SPARC_TLS_IE_LDX} is requested using @samp{%tie_ldx}. +@item +@code{R_SPARC_TLS_IE_ADD} is requested using @samp{%tie_add}. + +@item +@code{R_SPARC_TLS_LE_HIX22} is requested using @samp{%tle_hix22}. +@item +@code{R_SPARC_TLS_LE_LOX10} is requested using @samp{%tle_lox10}. +@end itemize + +Here are some example TLS model sequences. + +First, General Dynamic: + +@example +sethi %tgd_hi22(symbol), %l1 +add %l1, %tgd_lo10(symbol), %l1 +add %l7, %l1, %o0, %tgd_add(symbol) +call __tls_get_addr, %tgd_call(symbol) +nop +@end example + +Local Dynamic: + +@example +sethi %tldm_hi22(symbol), %l1 +add %l1, %tldm_lo10(symbol), %l1 +add %l7, %l1, %o0, %tldm_add(symbol) +call __tls_get_addr, %tldm_call(symbol) +nop + +sethi %tldo_hix22(symbol), %l1 +xor %l1, %tldo_lox10(symbol), %l1 +add %o0, %l1, %l1, %tldo_add(symbol) +@end example + +Initial Exec: + +@example +sethi %tie_hi22(symbol), %l1 +add %l1, %tie_lo10(symbol), %l1 +ld [%l7 + %l1], %o0, %tie_ld(symbol) +add %g7, %o0, %o0, %tie_add(symbol) + +sethi %tie_hi22(symbol), %l1 +add %l1, %tie_lo10(symbol), %l1 +ldx [%l7 + %l1], %o0, %tie_ldx(symbol) +add %g7, %o0, %o0, %tie_add(symbol) +@end example + +And finally, Local Exec: + +@example +sethi %tle_hix22(symbol), %l1 +add %l1, %tle_lox10(symbol), %l1 +add %g7, %l1, %l1 +@end example + +When assembling for 64-bit, and a secondary constant addend is +specified in an address expression that would normally generate +an @code{R_SPARC_LO10} relocation, the assembler will emit an +@code{R_SPARC_OLO10} instead. @node Sparc-Float @section Floating Point |