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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [config/] [sh/] [sync.md] - Rev 867
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;; GCC machine description for SH synchronization instructions.
;; Copyright (C) 2011
;; Free Software Foundation, Inc.
;;
;; This file is part of GCC.
;;
;; GCC is free software; you can redistribute it and/or modify
;; it under the terms of the GNU General Public License as published by
;; the Free Software Foundation; either version 3, or (at your option)
;; any later version.
;;
;; GCC is distributed in the hope that it will be useful,
;; but WITHOUT ANY WARRANTY; without even the implied warranty of
;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
;; GNU General Public License for more details.
;;
;; You should have received a copy of the GNU General Public License
;; along with GCC; see the file COPYING3. If not see
;; <http://www.gnu.org/licenses/>.
;;
;;
;; Atomic integer operations for the Renesas / SuperH SH CPUs.
;;
;; On single-core systems there can only be one execution context running
;; at a given point in time. This allows the usage of rewindable atomic
;; sequences, which effectively emulate locked-load / conditional-store
;; operations.
;; When an execution context is interrupted while it is an atomic
;; sequence, the interrupted context's PC is rewound to the beginning of
;; the atomic sequence by the interrupt / exception handling code, before
;; transferring control to another execution context. This is done by
;; something like...
;;
;; if (interrupted_context_in_atomic_sequence
;; && interrupted_pc < atomic_exitpoint)
;; interrupted_pc = atomic_entrypoint;
;;
;; This method is also known as gUSA ("g" User Space Atomicity) and the
;; Linux kernel for SH3/SH4 implements support for such software
;; atomic sequences. However, it can also be implemented in freestanding
;; environments.
;;
;; For this the following atomic sequence ABI is used.
;;
;; r15 >= 0: Execution context is not in an atomic sequence.
;;
;; r15 < 0: Execution context is in an atomic sequence and r15
;; holds the negative byte length of the atomic sequence.
;; In this case the following applies:
;;
;; r0: PC of the first instruction after the atomic
;; write-back instruction (exit point).
;; The entry point PC of the atomic sequence can be
;; determined by doing r0 + r15.
;;
;; r1: Saved r15 stack pointer before entering the
;; atomic sequence.
;;
;; An example atomic add sequence would look like:
;;
;; mova .Lend,r0 ! .Lend must be 4-byte aligned.
;; mov r15,r1
;; .align 2 ! Insert aligning nop if needed.
;; mov #(.Lstart - .Lend),r15 ! Enter atomic sequence
;;.Lstart:
;; mov.l @r4,r2 ! read value
;; add r2,r5 ! modify value
;; mov.l r5,@r4 ! write-back
;;.Lend:
;; mov r1,r15 ! Exit atomic sequence
;; ! r2 holds the previous value.
;; ! r5 holds the new value.
;;
;; Notice that due to the restrictions of the mova instruction, the .Lend
;; label must always be 4-byte aligned. Aligning the .Lend label would
;; potentially insert a nop after the write-back instruction which could
;; make the sequence to be rewound, although it has already passed the
;; write-back instruction. This would make it execute twice.
;; For correct operation the atomic sequences must not be rewound after
;; they have passed the write-back instruction.
;;
;; The current implementation is limited to QImode, HImode and SImode
;; atomic operations. DImode operations could also be implemented but
;; would require some ABI modifications to support multiple-instruction
;; write-back. This is because SH1/SH2/SH3/SH4 does not have a DImode
;; store instruction. DImode stores must be split into two SImode stores.
;;
;; For some operations it would be possible to use insns with an immediate
;; operand such as add #imm,Rn. However, since the original value before
;; the operation also needs to be available, this is not so handy.
(define_c_enum "unspec" [
UNSPEC_ATOMIC
])
(define_c_enum "unspecv" [
UNSPECV_CMPXCHG_1
UNSPECV_CMPXCHG_2
UNSPECV_CMPXCHG_3
])
(define_mode_iterator I124 [QI HI SI])
(define_mode_attr i124suffix [(QI "b") (HI "w") (SI "l")])
(define_mode_attr i124extend_insn [(QI "exts.b") (HI "exts.w") (SI "mov")])
(define_code_iterator FETCHOP [plus minus ior xor and])
(define_code_attr fetchop_name
[(plus "add") (minus "sub") (ior "or") (xor "xor") (and "and")])
(define_expand "atomic_compare_and_swap<mode>"
[(match_operand:QI 0 "register_operand" "") ;; bool success output
(match_operand:I124 1 "register_operand" "") ;; oldval output
(match_operand:I124 2 "memory_operand" "") ;; memory
(match_operand:I124 3 "register_operand" "") ;; expected input
(match_operand:I124 4 "register_operand" "") ;; newval input
(match_operand:SI 5 "const_int_operand" "") ;; is_weak
(match_operand:SI 6 "const_int_operand" "") ;; success model
(match_operand:SI 7 "const_int_operand" "")] ;; failure model
"TARGET_SOFT_ATOMIC && !TARGET_SHMEDIA"
{
rtx addr;
addr = force_reg (Pmode, XEXP (operands[2], 0));
emit_insn (gen_atomic_compare_and_swap<mode>_soft
(gen_lowpart (SImode, operands[1]), addr, operands[3],
operands[4]));
if (<MODE>mode == QImode)
emit_insn (gen_zero_extendqisi2 (gen_lowpart (SImode, operands[1]),
operands[1]));
else if (<MODE>mode == HImode)
emit_insn (gen_zero_extendhisi2 (gen_lowpart (SImode, operands[1]),
operands[1]));
emit_insn (gen_movqi (operands[0], gen_rtx_REG (QImode, T_REG)));
DONE;
})
(define_insn "atomic_compare_and_swap<mode>_soft"
[(set (match_operand:SI 0 "register_operand" "=&u")
(unspec_volatile:SI
[(mem:I124 (match_operand:SI 1 "register_operand" "u"))
(match_operand:I124 2 "register_operand" "u")
(match_operand:I124 3 "register_operand" "u")]
UNSPECV_CMPXCHG_1))
(set (mem:I124 (match_dup 1))
(unspec_volatile:I124 [(const_int 0)] UNSPECV_CMPXCHG_2))
(set (reg:QI T_REG)
(unspec_volatile:QI [(const_int 0)] UNSPECV_CMPXCHG_3))
(clobber (match_scratch:SI 4 "=&u"))
(clobber (reg:SI R0_REG))
(clobber (reg:SI R1_REG))]
"TARGET_SOFT_ATOMIC && !TARGET_SHMEDIA"
{
return "mova 1f,r0" "\n"
" <i124extend_insn> %2,%4" "\n"
" .align 2" "\n"
" mov r15,r1" "\n"
" mov #(0f-1f),r15" "\n"
"0: mov.<i124suffix> @%1,%0" "\n"
" cmp/eq %0,%4" "\n"
" bf 1f" "\n"
" mov.<i124suffix> %3,@%1" "\n"
"1: mov r1,r15";
}
[(set_attr "length" "20")])
(define_expand "atomic_fetch_<fetchop_name><mode>"
[(set (match_operand:I124 0 "register_operand" "")
(match_operand:I124 1 "memory_operand" ""))
(set (match_dup 1)
(unspec:I124
[(FETCHOP:I124 (match_dup 1)
(match_operand:I124 2 "register_operand" ""))]
UNSPEC_ATOMIC))
(match_operand:SI 3 "const_int_operand" "")]
"TARGET_SOFT_ATOMIC && !TARGET_SHMEDIA"
{
rtx addr;
addr = force_reg (Pmode, XEXP (operands[1], 0));
emit_insn (gen_atomic_fetch_<fetchop_name><mode>_soft
(operands[0], addr, operands[2]));
if (<MODE>mode == QImode)
emit_insn (gen_zero_extendqisi2 (gen_lowpart (SImode, operands[0]),
operands[0]));
else if (<MODE>mode == HImode)
emit_insn (gen_zero_extendhisi2 (gen_lowpart (SImode, operands[0]),
operands[0]));
DONE;
})
(define_insn "atomic_fetch_<fetchop_name><mode>_soft"
[(set (match_operand:I124 0 "register_operand" "=&u")
(mem:I124 (match_operand:SI 1 "register_operand" "u")))
(set (mem:I124 (match_dup 1))
(unspec:I124
[(FETCHOP:I124 (mem:I124 (match_dup 1))
(match_operand:I124 2 "register_operand" "u"))]
UNSPEC_ATOMIC))
(clobber (match_scratch:I124 3 "=&u"))
(clobber (reg:SI R0_REG))
(clobber (reg:SI R1_REG))]
"TARGET_SOFT_ATOMIC && !TARGET_SHMEDIA"
{
return "mova 1f,r0" "\n"
" .align 2" "\n"
" mov r15,r1" "\n"
" mov #(0f-1f),r15" "\n"
"0: mov.<i124suffix> @%1,%0" "\n"
" mov %0,%3" "\n"
" <fetchop_name> %2,%3" "\n"
" mov.<i124suffix> %3,@%1" "\n"
"1: mov r1,r15";
}
[(set_attr "length" "18")])
(define_expand "atomic_fetch_nand<mode>"
[(set (match_operand:I124 0 "register_operand" "")
(match_operand:I124 1 "memory_operand" ""))
(set (match_dup 1)
(unspec:I124
[(not:I124 (and:I124 (match_dup 1)
(match_operand:I124 2 "register_operand" "")))]
UNSPEC_ATOMIC))
(match_operand:SI 3 "const_int_operand" "")]
"TARGET_SOFT_ATOMIC && !TARGET_SHMEDIA"
{
rtx addr;
addr = force_reg (Pmode, XEXP (operands[1], 0));
emit_insn (gen_atomic_fetch_nand<mode>_soft
(operands[0], addr, operands[2]));
if (<MODE>mode == QImode)
emit_insn (gen_zero_extendqisi2 (gen_lowpart (SImode, operands[0]),
operands[0]));
else if (<MODE>mode == HImode)
emit_insn (gen_zero_extendhisi2 (gen_lowpart (SImode, operands[0]),
operands[0]));
DONE;
})
(define_insn "atomic_fetch_nand<mode>_soft"
[(set (match_operand:I124 0 "register_operand" "=&u")
(mem:I124 (match_operand:SI 1 "register_operand" "u")))
(set (mem:I124 (match_dup 1))
(unspec:I124
[(not:I124 (and:I124 (mem:I124 (match_dup 1))
(match_operand:I124 2 "register_operand" "u")))]
UNSPEC_ATOMIC))
(clobber (match_scratch:I124 3 "=&u"))
(clobber (reg:SI R0_REG))
(clobber (reg:SI R1_REG))]
"TARGET_SOFT_ATOMIC && !TARGET_SHMEDIA"
{
return "mova 1f,r0" "\n"
" mov r15,r1" "\n"
" .align 2" "\n"
" mov #(0f-1f),r15" "\n"
"0: mov.<i124suffix> @%1,%0" "\n"
" mov %2,%3" "\n"
" and %0,%3" "\n"
" not %3,%3" "\n"
" mov.<i124suffix> %3,@%1" "\n"
"1: mov r1,r15";
}
[(set_attr "length" "20")])
(define_expand "atomic_<fetchop_name>_fetch<mode>"
[(set (match_operand:I124 0 "register_operand" "")
(FETCHOP:I124
(match_operand:I124 1 "memory_operand" "")
(match_operand:I124 2 "register_operand" "")))
(set (match_dup 1)
(unspec:I124
[(FETCHOP:I124 (match_dup 1) (match_dup 2))]
UNSPEC_ATOMIC))
(match_operand:SI 3 "const_int_operand" "")]
"TARGET_SOFT_ATOMIC && !TARGET_SHMEDIA"
{
rtx addr;
addr = force_reg (Pmode, XEXP (operands[1], 0));
emit_insn (gen_atomic_<fetchop_name>_fetch<mode>_soft
(operands[0], addr, operands[2]));
if (<MODE>mode == QImode)
emit_insn (gen_zero_extendqisi2 (gen_lowpart (SImode, operands[0]),
operands[0]));
else if (<MODE>mode == HImode)
emit_insn (gen_zero_extendhisi2 (gen_lowpart (SImode, operands[0]),
operands[0]));
DONE;
})
(define_insn "atomic_<fetchop_name>_fetch<mode>_soft"
[(set (match_operand:I124 0 "register_operand" "=&u")
(FETCHOP:I124
(mem:I124 (match_operand:SI 1 "register_operand" "u"))
(match_operand:I124 2 "register_operand" "u")))
(set (mem:I124 (match_dup 1))
(unspec:I124
[(FETCHOP:I124 (mem:I124 (match_dup 1)) (match_dup 2))]
UNSPEC_ATOMIC))
(clobber (reg:SI R0_REG))
(clobber (reg:SI R1_REG))]
"TARGET_SOFT_ATOMIC && !TARGET_SHMEDIA"
{
return "mova 1f,r0" "\n"
" mov r15,r1" "\n"
" .align 2" "\n"
" mov #(0f-1f),r15" "\n"
"0: mov.<i124suffix> @%1,%0" "\n"
" <fetchop_name> %2,%0" "\n"
" mov.<i124suffix> %0,@%1" "\n"
"1: mov r1,r15";
}
[(set_attr "length" "16")])
(define_expand "atomic_nand_fetch<mode>"
[(set (match_operand:I124 0 "register_operand" "")
(not:I124 (and:I124
(match_operand:I124 1 "memory_operand" "")
(match_operand:I124 2 "register_operand" ""))))
(set (match_dup 1)
(unspec:I124
[(not:I124 (and:I124 (match_dup 1) (match_dup 2)))]
UNSPEC_ATOMIC))
(match_operand:SI 3 "const_int_operand" "")]
"TARGET_SOFT_ATOMIC && !TARGET_SHMEDIA"
{
rtx addr;
addr = force_reg (Pmode, XEXP (operands[1], 0));
emit_insn (gen_atomic_nand_fetch<mode>_soft
(operands[0], addr, operands[2]));
if (<MODE>mode == QImode)
emit_insn (gen_zero_extendqisi2 (gen_lowpart (SImode, operands[0]),
operands[0]));
else if (<MODE>mode == HImode)
emit_insn (gen_zero_extendhisi2 (gen_lowpart (SImode, operands[0]),
operands[0]));
DONE;
})
(define_insn "atomic_nand_fetch<mode>_soft"
[(set (match_operand:I124 0 "register_operand" "=&u")
(not:I124 (and:I124
(mem:I124 (match_operand:SI 1 "register_operand" "u"))
(match_operand:I124 2 "register_operand" "u"))))
(set (mem:I124 (match_dup 1))
(unspec:I124
[(not:I124 (and:I124 (mem:I124 (match_dup 1)) (match_dup 2)))]
UNSPEC_ATOMIC))
(clobber (reg:SI R0_REG))
(clobber (reg:SI R1_REG))]
"TARGET_SOFT_ATOMIC && !TARGET_SHMEDIA"
{
return "mova 1f,r0" "\n"
" .align 2" "\n"
" mov r15,r1" "\n"
" mov #(0f-1f),r15" "\n"
"0: mov.<i124suffix> @%1,%0" "\n"
" and %2,%0" "\n"
" not %0,%0" "\n"
" mov.<i124suffix> %0,@%1" "\n"
"1: mov r1,r15";
}
[(set_attr "length" "18")])
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