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Blame valgrind-3.18.1-arm64-ldaxp-stlxp.patch

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Mark Wielaard	04e90e	`commit 530df882b8f60ecacaf2b9b8a719f7ea1c1d1650`
Mark Wielaard	04e90e	`Author: Julian Seward <jseward@acm.org>`
Mark Wielaard	04e90e	`Date: Fri Nov 12 12:13:45 2021 +0100`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`Bug 444399 - disInstr(arm64): unhandled instruction 0xC87F2D89 (LD{,A}XP and ST{,L}XP).`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`This is unfortunately a big and complex patch, to implement LD{,A}XP and`
Mark Wielaard	04e90e	`ST{,L}XP. These were omitted from the original AArch64 v8.0 implementation`
Mark Wielaard	04e90e	`for unknown reasons.`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`(Background) the patch is made significantly more complex because for AArch64`
Mark Wielaard	04e90e	`we actually have two implementations of the underlying`
Mark Wielaard	04e90e	`Load-Linked/Store-Conditional (LL/SC) machinery: a "primary" implementation,`
Mark Wielaard	04e90e	`which translates LL/SC more or less directly into IR and re-emits them at the`
Mark Wielaard	04e90e	`back end, and a "fallback" implementation that implements LL/SC "manually", by`
Mark Wielaard	04e90e	`taking advantage of the fact that V serialises thread execution, so we can`
Mark Wielaard	04e90e	`"implement" LL/SC by simulating a reservation using fields LLSC_* in the guest`
Mark Wielaard	04e90e	`state, and invalidating the reservation at every thread switch.`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`(Background) the fallback scheme is needed because the primary scheme is in`
Mark Wielaard	04e90e	`violation of the ARMv8 semantics in that it can (easily) introduce extra`
Mark Wielaard	04e90e	`memory references between the LL and SC, hence on some hardware causing the`
Mark Wielaard	04e90e	`reservation to always fail and so the simulated program to wind up looping`
Mark Wielaard	04e90e	`forever.`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`For these instructions, big picture:`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`* for the primary implementation, we take advantage of the fact that`
Mark Wielaard	04e90e	`IRStmt_LLSC allows I128 bit transactions to be represented. Hence we bundle`
Mark Wielaard	04e90e	`up the two 64-bit data elements into an I128 (or vice versa) and present a`
Mark Wielaard	04e90e	`single I128-typed IRStmt_LLSC in the IR. In the backend, those are`
Mark Wielaard	04e90e	`re-emitted as LDXP/STXP respectively. For LL/SC on 32-bit register pairs,`
Mark Wielaard	04e90e	`that bundling produces a single 64-bit item, and so the existing LL/SC`
Mark Wielaard	04e90e	`backend machinery handles it. The effect is that a doubleword 32-bit LL/SC`
Mark Wielaard	04e90e	`in the front end translates into a single 64-bit LL/SC in the back end.`
Mark Wielaard	04e90e	`Overall, though, the implementation is straightforward.`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`* for the fallback implementation, it is necessary to extend the guest state`
Mark Wielaard	04e90e	field `guest_LLSC_DATA` to represent a 128-bit transaction, by splitting it
Mark Wielaard	04e90e	`into _DATA_LO64 and DATA_HI64. Then, the implementation is an exact`
Mark Wielaard	04e90e	`analogue of the fallback implementation for single-word LL/SC. It takes`
Mark Wielaard	04e90e	`advantage of the fact that the backend already supports 128-bit CAS, as`
Mark Wielaard	04e90e	`fixed in bug 445354. As with the primary implementation, doubleword 32-bit`
Mark Wielaard	04e90e	`LL/SC is bundled into a single 64-bit transaction.`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`Detailed changes:`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`* new arm64 guest state fields LLSC_DATA_LO64/LLSC_DATA_LO64 to replace`
Mark Wielaard	04e90e	`guest_LLSC_DATA`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`* (ridealong fix) arm64 front end: a fix to a minor and harmless decoding bug`
Mark Wielaard	04e90e	`for the single-word LDX/STX case.`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`* arm64 front end: IR generation for LD{,A}XP/ST{,L}XP: tedious and`
Mark Wielaard	04e90e	`longwinded, but per comments above, an exact(ish) analogue of the singleword`
Mark Wielaard	04e90e	`case`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`* arm64 backend: new insns ARM64Instr_LdrEXP / ARM64Instr_StrEXP to wrap up 2`
Mark Wielaard	04e90e	`x 64 exclusive loads/stores. Per comments above, there's no need to handle`
Mark Wielaard	04e90e	`the 2 x 32 case.`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`* arm64 isel: translate I128-typed IRStmt_LLSC into the above two insns`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`* arm64 isel: some auxiliary bits and pieces needed to handle I128 values;`
Mark Wielaard	04e90e	`this is standard doubleword isel stuff`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`* arm64 isel: (ridealong fix): Ist_CAS: check for endianness of the CAS!`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`* arm64 isel: (ridealong) a couple of formatting fixes`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`* IR infrastructure: add support for I128 constants, done the same as V128`
Mark Wielaard	04e90e	`constants`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`* memcheck: handle shadow loads and stores for I128 values`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`* testcase: memcheck/tests/atomic_incs.c: on arm64, also test 128-bit atomic`
Mark Wielaard	04e90e	`addition, to check we really have atomicity right`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`* testcase: new test none/tests/arm64/ldxp_stxp.c, tests operation but not`
Mark Wielaard	04e90e	`atomicity. (Smoke test).`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`diff --git a/VEX/priv/guest_arm64_toIR.c b/VEX/priv/guest_arm64_toIR.c`
Mark Wielaard	04e90e	`index 12a1c5978..ee018c6a9 100644`
Mark Wielaard	04e90e	`--- a/VEX/priv/guest_arm64_toIR.c`
Mark Wielaard	04e90e	`+++ b/VEX/priv/guest_arm64_toIR.c`
Mark Wielaard	04e90e	`@@ -1184,9 +1184,10 @@ static IRExpr* narrowFrom64 ( IRType dstTy, IRExpr* e )`
Mark Wielaard	04e90e	`#define OFFB_CMSTART offsetof(VexGuestARM64State,guest_CMSTART)`
Mark Wielaard	04e90e	`#define OFFB_CMLEN offsetof(VexGuestARM64State,guest_CMLEN)`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`-#define OFFB_LLSC_SIZE offsetof(VexGuestARM64State,guest_LLSC_SIZE)`
Mark Wielaard	04e90e	`-#define OFFB_LLSC_ADDR offsetof(VexGuestARM64State,guest_LLSC_ADDR)`
Mark Wielaard	04e90e	`-#define OFFB_LLSC_DATA offsetof(VexGuestARM64State,guest_LLSC_DATA)`
Mark Wielaard	04e90e	`+#define OFFB_LLSC_SIZE offsetof(VexGuestARM64State,guest_LLSC_SIZE)`
Mark Wielaard	04e90e	`+#define OFFB_LLSC_ADDR offsetof(VexGuestARM64State,guest_LLSC_ADDR)`
Mark Wielaard	04e90e	`+#define OFFB_LLSC_DATA_LO64 offsetof(VexGuestARM64State,guest_LLSC_DATA_LO64)`
Mark Wielaard	04e90e	`+#define OFFB_LLSC_DATA_HI64 offsetof(VexGuestARM64State,guest_LLSC_DATA_HI64)`
Mark Wielaard	04e90e
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`/* ---------------- Integer registers ---------------- */`
Mark Wielaard	04e90e	`@@ -6652,7 +6653,7 @@ Bool dis_ARM64_load_store(/MB_OUT/DisResult* dres, UInt insn,`
Mark Wielaard	04e90e	`(coregrind/m_scheduler/scheduler.c, run_thread_for_a_while()`
Mark Wielaard	04e90e	`has to do this bit)`
Mark Wielaard	04e90e	`*/`
Mark Wielaard	04e90e	`- if (INSN(29,23) == BITS7(0,0,1,0,0,0,0)`
Mark Wielaard	04e90e	`+ if (INSN(29,24) == BITS6(0,0,1,0,0,0)`
Mark Wielaard	04e90e	`&& (INSN(23,21) & BITS3(1,0,1)) == BITS3(0,0,0)`
Mark Wielaard	04e90e	`&& INSN(14,10) == BITS5(1,1,1,1,1)) {`
Mark Wielaard	04e90e	`UInt szBlg2 = INSN(31,30);`
Mark Wielaard	04e90e	`@@ -6678,7 +6679,8 @@ Bool dis_ARM64_load_store(/MB_OUT/DisResult* dres, UInt insn,`
Mark Wielaard	04e90e	`// if it faults.`
Mark Wielaard	04e90e	`IRTemp loaded_data64 = newTemp(Ity_I64);`
Mark Wielaard	04e90e	`assign(loaded_data64, widenUto64(ty, loadLE(ty, mkexpr(ea))));`
Mark Wielaard	04e90e	`- stmt( IRStmt_Put( OFFB_LLSC_DATA, mkexpr(loaded_data64) ));`
Mark Wielaard	04e90e	`+ stmt( IRStmt_Put( OFFB_LLSC_DATA_LO64, mkexpr(loaded_data64) ));`
Mark Wielaard	04e90e	`+ stmt( IRStmt_Put( OFFB_LLSC_DATA_HI64, mkU64(0) ));`
Mark Wielaard	04e90e	`stmt( IRStmt_Put( OFFB_LLSC_ADDR, mkexpr(ea) ));`
Mark Wielaard	04e90e	`stmt( IRStmt_Put( OFFB_LLSC_SIZE, mkU64(szB) ));`
Mark Wielaard	04e90e	`putIReg64orZR(tt, mkexpr(loaded_data64));`
Mark Wielaard	04e90e	`@@ -6729,7 +6731,7 @@ Bool dis_ARM64_load_store(/MB_OUT/DisResult* dres, UInt insn,`
Mark Wielaard	04e90e	`));`
Mark Wielaard	04e90e	`// Fail if the data doesn't match the LL data`
Mark Wielaard	04e90e	`IRTemp llsc_data64 = newTemp(Ity_I64);`
Mark Wielaard	04e90e	`- assign(llsc_data64, IRExpr_Get(OFFB_LLSC_DATA, Ity_I64));`
Mark Wielaard	04e90e	`+ assign(llsc_data64, IRExpr_Get(OFFB_LLSC_DATA_LO64, Ity_I64));`
Mark Wielaard	04e90e	`stmt( IRStmt_Exit(`
Mark Wielaard	04e90e	`binop(Iop_CmpNE64, widenUto64(ty, loadLE(ty, mkexpr(ea))),`
Mark Wielaard	04e90e	`mkexpr(llsc_data64)),`
Mark Wielaard	04e90e	`@@ -6771,6 +6773,257 @@ Bool dis_ARM64_load_store(/MB_OUT/DisResult* dres, UInt insn,`
Mark Wielaard	04e90e	`/* else fall through */`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`+ /* -------------------- LD{,A}XP -------------------- */`
Mark Wielaard	04e90e	`+ /* -------------------- ST{,L}XP -------------------- */`
Mark Wielaard	04e90e	`+ /* 31 30 29 23 20 15 14 9 4`
Mark Wielaard	04e90e	`+ 1 sz 001000 011 11111 0 t2 n t1 LDXP Rt1, Rt2, [Xn\|SP]`
Mark Wielaard	04e90e	`+ 1 sz 001000 011 11111 1 t2 n t1 LDAXP Rt1, Rt2, [Xn\|SP]`
Mark Wielaard	04e90e	`+ 1 sz 001000 001 s 0 t2 n t1 STXP Ws, Rt1, Rt2, [Xn\|SP]`
Mark Wielaard	04e90e	`+ 1 sz 001000 001 s 1 t2 n t1 STLXP Ws, Rt1, Rt2, [Xn\|SP]`
Mark Wielaard	04e90e	`+ */`
Mark Wielaard	04e90e	`+ /* See just above, "LD{,A}X{R,RH,RB} / ST{,L}X{R,RH,RB}", for detailed`
Mark Wielaard	04e90e	`+ comments about this implementation. Note the 'sz' field here is only 1`
Mark Wielaard	04e90e	`+ bit; above, it is 2 bits, and has a different encoding.`
Mark Wielaard	04e90e	`+ */`
Mark Wielaard	04e90e	`+ if (INSN(31,31) == 1`
Mark Wielaard	04e90e	`+ && INSN(29,24) == BITS6(0,0,1,0,0,0)`
Mark Wielaard	04e90e	`+ && (INSN(23,21) & BITS3(1,0,1)) == BITS3(0,0,1)) {`
Mark Wielaard	04e90e	`+ Bool elemIs64 = INSN(30,30) == 1;`
Mark Wielaard	04e90e	`+ Bool isLD = INSN(22,22) == 1;`
Mark Wielaard	04e90e	`+ Bool isAcqOrRel = INSN(15,15) == 1;`
Mark Wielaard	04e90e	`+ UInt ss = INSN(20,16);`
Mark Wielaard	04e90e	`+ UInt tt2 = INSN(14,10);`
Mark Wielaard	04e90e	`+ UInt nn = INSN(9,5);`
Mark Wielaard	04e90e	`+ UInt tt1 = INSN(4,0);`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+ UInt elemSzB = elemIs64 ? 8 : 4;`
Mark Wielaard	04e90e	`+ UInt fullSzB = 2 * elemSzB;`
Mark Wielaard	04e90e	`+ IRType elemTy = integerIRTypeOfSize(elemSzB);`
Mark Wielaard	04e90e	`+ IRType fullTy = integerIRTypeOfSize(fullSzB);`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+ IRTemp ea = newTemp(Ity_I64);`
Mark Wielaard	04e90e	`+ assign(ea, getIReg64orSP(nn));`
Mark Wielaard	04e90e	`+ /* FIXME generate check that ea is 2elemSzB-aligned /`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+ if (isLD && ss == BITS5(1,1,1,1,1)) {`
Mark Wielaard	04e90e	`+ if (abiinfo->guest__use_fallback_LLSC) {`
Mark Wielaard	04e90e	`+ // Fallback implementation of LL.`
Mark Wielaard	04e90e	`+ // Do the load first so we don't update any guest state if it`
Mark Wielaard	04e90e	`+ // faults. Assumes little-endian guest.`
Mark Wielaard	04e90e	`+ if (fullTy == Ity_I64) {`
Mark Wielaard	04e90e	`+ vassert(elemSzB == 4);`
Mark Wielaard	04e90e	`+ IRTemp loaded_data64 = newTemp(Ity_I64);`
Mark Wielaard	04e90e	`+ assign(loaded_data64, loadLE(fullTy, mkexpr(ea)));`
Mark Wielaard	04e90e	`+ stmt( IRStmt_Put( OFFB_LLSC_DATA_LO64, mkexpr(loaded_data64) ));`
Mark Wielaard	04e90e	`+ stmt( IRStmt_Put( OFFB_LLSC_DATA_HI64, mkU64(0) ));`
Mark Wielaard	04e90e	`+ stmt( IRStmt_Put( OFFB_LLSC_ADDR, mkexpr(ea) ));`
Mark Wielaard	04e90e	`+ stmt( IRStmt_Put( OFFB_LLSC_SIZE, mkU64(8) ));`
Mark Wielaard	04e90e	`+ putIReg64orZR(tt1, unop(Iop_32Uto64,`
Mark Wielaard	04e90e	`+ unop(Iop_64to32,`
Mark Wielaard	04e90e	`+ mkexpr(loaded_data64))));`
Mark Wielaard	04e90e	`+ putIReg64orZR(tt2, unop(Iop_32Uto64,`
Mark Wielaard	04e90e	`+ unop(Iop_64HIto32,`
Mark Wielaard	04e90e	`+ mkexpr(loaded_data64))));`
Mark Wielaard	04e90e	`+ } else {`
Mark Wielaard	04e90e	`+ vassert(elemSzB == 8 && fullTy == Ity_I128);`
Mark Wielaard	04e90e	`+ IRTemp loaded_data128 = newTemp(Ity_I128);`
Mark Wielaard	04e90e	`+ // Hack: do the load as V128 rather than I128 so as to avoid`
Mark Wielaard	04e90e	`+ // having to implement I128 loads in the arm64 back end.`
Mark Wielaard	04e90e	`+ assign(loaded_data128, unop(Iop_ReinterpV128asI128,`
Mark Wielaard	04e90e	`+ loadLE(Ity_V128, mkexpr(ea))));`
Mark Wielaard	04e90e	`+ IRTemp loaded_data_lo64 = newTemp(Ity_I64);`
Mark Wielaard	04e90e	`+ IRTemp loaded_data_hi64 = newTemp(Ity_I64);`
Mark Wielaard	04e90e	`+ assign(loaded_data_lo64, unop(Iop_128to64,`
Mark Wielaard	04e90e	`+ mkexpr(loaded_data128)));`
Mark Wielaard	04e90e	`+ assign(loaded_data_hi64, unop(Iop_128HIto64,`
Mark Wielaard	04e90e	`+ mkexpr(loaded_data128)));`
Mark Wielaard	04e90e	`+ stmt( IRStmt_Put( OFFB_LLSC_DATA_LO64,`
Mark Wielaard	04e90e	`+ mkexpr(loaded_data_lo64) ));`
Mark Wielaard	04e90e	`+ stmt( IRStmt_Put( OFFB_LLSC_DATA_HI64,`
Mark Wielaard	04e90e	`+ mkexpr(loaded_data_hi64) ));`
Mark Wielaard	04e90e	`+ stmt( IRStmt_Put( OFFB_LLSC_ADDR, mkexpr(ea) ));`
Mark Wielaard	04e90e	`+ stmt( IRStmt_Put( OFFB_LLSC_SIZE, mkU64(16) ));`
Mark Wielaard	04e90e	`+ putIReg64orZR(tt1, mkexpr(loaded_data_lo64));`
Mark Wielaard	04e90e	`+ putIReg64orZR(tt2, mkexpr(loaded_data_hi64));`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`+ } else {`
Mark Wielaard	04e90e	`+ // Non-fallback implementation of LL.`
Mark Wielaard	04e90e	`+ IRTemp res = newTemp(fullTy); // I64 or I128`
Mark Wielaard	04e90e	`+ stmt(IRStmt_LLSC(Iend_LE, res, mkexpr(ea), NULL/LL/));`
Mark Wielaard	04e90e	`+ // Assuming a little-endian guest here. Rt1 goes at the lower`
Mark Wielaard	04e90e	+ // address, so it must live in the least significant half of `res`.
Mark Wielaard	04e90e	`+ IROp opGetLO = fullTy == Ity_I128 ? Iop_128to64 : Iop_64to32;`
Mark Wielaard	04e90e	`+ IROp opGetHI = fullTy == Ity_I128 ? Iop_128HIto64 : Iop_64HIto32;`
Mark Wielaard	04e90e	`+ putIReg64orZR(tt1, widenUto64(elemTy, unop(opGetLO, mkexpr(res))));`
Mark Wielaard	04e90e	`+ putIReg64orZR(tt2, widenUto64(elemTy, unop(opGetHI, mkexpr(res))));`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`+ if (isAcqOrRel) {`
Mark Wielaard	04e90e	`+ stmt(IRStmt_MBE(Imbe_Fence));`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`+ DIP("ld%sxp %s, %s, [%s] %s\n",`
Mark Wielaard	04e90e	`+ isAcqOrRel ? (isLD ? "a" : "l") : "",`
Mark Wielaard	04e90e	`+ nameIRegOrZR(elemSzB == 8, tt1),`
Mark Wielaard	04e90e	`+ nameIRegOrZR(elemSzB == 8, tt2),`
Mark Wielaard	04e90e	`+ nameIReg64orSP(nn),`
Mark Wielaard	04e90e	`+ abiinfo->guest__use_fallback_LLSC`
Mark Wielaard	04e90e	`+ ? "(fallback implementation)" : "");`
Mark Wielaard	04e90e	`+ return True;`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`+ if (!isLD) {`
Mark Wielaard	04e90e	`+ if (isAcqOrRel) {`
Mark Wielaard	04e90e	`+ stmt(IRStmt_MBE(Imbe_Fence));`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`+ if (abiinfo->guest__use_fallback_LLSC) {`
Mark Wielaard	04e90e	`+ // Fallback implementation of SC.`
Mark Wielaard	04e90e	`+ // This is really ugly, since we don't have any way to do`
Mark Wielaard	04e90e	`+ // proper if-then-else. First, set up as if the SC failed,`
Mark Wielaard	04e90e	`+ // and jump forwards if it really has failed.`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+ // Continuation address`
Mark Wielaard	04e90e	`+ IRConst* nia = IRConst_U64(guest_PC_curr_instr + 4);`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+ // "the SC failed". Any non-zero value means failure.`
Mark Wielaard	04e90e	`+ putIReg64orZR(ss, mkU64(1));`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+ IRTemp tmp_LLsize = newTemp(Ity_I64);`
Mark Wielaard	04e90e	`+ assign(tmp_LLsize, IRExpr_Get(OFFB_LLSC_SIZE, Ity_I64));`
Mark Wielaard	04e90e	`+ stmt( IRStmt_Put( OFFB_LLSC_SIZE, mkU64(0) // "no transaction"`
Mark Wielaard	04e90e	`+ ));`
Mark Wielaard	04e90e	`+ // Fail if no or wrong-size transaction`
Mark Wielaard	04e90e	`+ vassert((fullSzB == 8 && fullTy == Ity_I64)`
Mark Wielaard	04e90e	`+ \|\| (fullSzB == 16 && fullTy == Ity_I128));`
Mark Wielaard	04e90e	`+ stmt( IRStmt_Exit(`
Mark Wielaard	04e90e	`+ binop(Iop_CmpNE64, mkexpr(tmp_LLsize), mkU64(fullSzB)),`
Mark Wielaard	04e90e	`+ Ijk_Boring, nia, OFFB_PC`
Mark Wielaard	04e90e	`+ ));`
Mark Wielaard	04e90e	`+ // Fail if the address doesn't match the LL address`
Mark Wielaard	04e90e	`+ stmt( IRStmt_Exit(`
Mark Wielaard	04e90e	`+ binop(Iop_CmpNE64, mkexpr(ea),`
Mark Wielaard	04e90e	`+ IRExpr_Get(OFFB_LLSC_ADDR, Ity_I64)),`
Mark Wielaard	04e90e	`+ Ijk_Boring, nia, OFFB_PC`
Mark Wielaard	04e90e	`+ ));`
Mark Wielaard	04e90e	`+ // The data to be stored.`
Mark Wielaard	04e90e	`+ IRTemp store_data = newTemp(fullTy);`
Mark Wielaard	04e90e	`+ if (fullTy == Ity_I64) {`
Mark Wielaard	04e90e	`+ assign(store_data,`
Mark Wielaard	04e90e	`+ binop(Iop_32HLto64,`
Mark Wielaard	04e90e	`+ narrowFrom64(Ity_I32, getIReg64orZR(tt2)),`
Mark Wielaard	04e90e	`+ narrowFrom64(Ity_I32, getIReg64orZR(tt1))));`
Mark Wielaard	04e90e	`+ } else {`
Mark Wielaard	04e90e	`+ assign(store_data,`
Mark Wielaard	04e90e	`+ binop(Iop_64HLto128,`
Mark Wielaard	04e90e	`+ getIReg64orZR(tt2), getIReg64orZR(tt1)));`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+ if (fullTy == Ity_I64) {`
Mark Wielaard	04e90e	`+ // 64 bit (2x32 bit) path`
Mark Wielaard	04e90e	`+ // Fail if the data in memory doesn't match the data stashed by`
Mark Wielaard	04e90e	`+ // the LL.`
Mark Wielaard	04e90e	`+ IRTemp llsc_data_lo64 = newTemp(Ity_I64);`
Mark Wielaard	04e90e	`+ assign(llsc_data_lo64,`
Mark Wielaard	04e90e	`+ IRExpr_Get(OFFB_LLSC_DATA_LO64, Ity_I64));`
Mark Wielaard	04e90e	`+ stmt( IRStmt_Exit(`
Mark Wielaard	04e90e	`+ binop(Iop_CmpNE64, loadLE(Ity_I64, mkexpr(ea)),`
Mark Wielaard	04e90e	`+ mkexpr(llsc_data_lo64)),`
Mark Wielaard	04e90e	`+ Ijk_Boring, nia, OFFB_PC`
Mark Wielaard	04e90e	`+ ));`
Mark Wielaard	04e90e	`+ // Try to CAS the new value in.`
Mark Wielaard	04e90e	`+ IRTemp old = newTemp(Ity_I64);`
Mark Wielaard	04e90e	`+ IRTemp expd = newTemp(Ity_I64);`
Mark Wielaard	04e90e	`+ assign(expd, mkexpr(llsc_data_lo64));`
Mark Wielaard	04e90e	`+ stmt( IRStmt_CAS(mkIRCAS(/oldHi/IRTemp_INVALID, old,`
Mark Wielaard	04e90e	`+ Iend_LE, mkexpr(ea),`
Mark Wielaard	04e90e	`+ /expdHi/NULL, mkexpr(expd),`
Mark Wielaard	04e90e	`+ /dataHi/NULL, mkexpr(store_data)`
Mark Wielaard	04e90e	`+ )));`
Mark Wielaard	04e90e	`+ // Fail if the CAS failed (viz, old != expd)`
Mark Wielaard	04e90e	`+ stmt( IRStmt_Exit(`
Mark Wielaard	04e90e	`+ binop(Iop_CmpNE64, mkexpr(old), mkexpr(expd)),`
Mark Wielaard	04e90e	`+ Ijk_Boring, nia, OFFB_PC`
Mark Wielaard	04e90e	`+ ));`
Mark Wielaard	04e90e	`+ } else {`
Mark Wielaard	04e90e	`+ // 128 bit (2x64 bit) path`
Mark Wielaard	04e90e	`+ // Fail if the data in memory doesn't match the data stashed by`
Mark Wielaard	04e90e	`+ // the LL.`
Mark Wielaard	04e90e	`+ IRTemp llsc_data_lo64 = newTemp(Ity_I64);`
Mark Wielaard	04e90e	`+ assign(llsc_data_lo64,`
Mark Wielaard	04e90e	`+ IRExpr_Get(OFFB_LLSC_DATA_LO64, Ity_I64));`
Mark Wielaard	04e90e	`+ IRTemp llsc_data_hi64 = newTemp(Ity_I64);`
Mark Wielaard	04e90e	`+ assign(llsc_data_hi64,`
Mark Wielaard	04e90e	`+ IRExpr_Get(OFFB_LLSC_DATA_HI64, Ity_I64));`
Mark Wielaard	04e90e	`+ IRTemp data_at_ea = newTemp(Ity_I128);`
Mark Wielaard	04e90e	`+ assign(data_at_ea,`
Mark Wielaard	04e90e	`+ unop(Iop_ReinterpV128asI128,`
Mark Wielaard	04e90e	`+ loadLE(Ity_V128, mkexpr(ea))));`
Mark Wielaard	04e90e	`+ stmt( IRStmt_Exit(`
Mark Wielaard	04e90e	`+ binop(Iop_CmpNE64,`
Mark Wielaard	04e90e	`+ unop(Iop_128to64, mkexpr(data_at_ea)),`
Mark Wielaard	04e90e	`+ mkexpr(llsc_data_lo64)),`
Mark Wielaard	04e90e	`+ Ijk_Boring, nia, OFFB_PC`
Mark Wielaard	04e90e	`+ ));`
Mark Wielaard	04e90e	`+ stmt( IRStmt_Exit(`
Mark Wielaard	04e90e	`+ binop(Iop_CmpNE64,`
Mark Wielaard	04e90e	`+ unop(Iop_128HIto64, mkexpr(data_at_ea)),`
Mark Wielaard	04e90e	`+ mkexpr(llsc_data_hi64)),`
Mark Wielaard	04e90e	`+ Ijk_Boring, nia, OFFB_PC`
Mark Wielaard	04e90e	`+ ));`
Mark Wielaard	04e90e	`+ // Try to CAS the new value in.`
Mark Wielaard	04e90e	`+ IRTemp old_lo64 = newTemp(Ity_I64);`
Mark Wielaard	04e90e	`+ IRTemp old_hi64 = newTemp(Ity_I64);`
Mark Wielaard	04e90e	`+ IRTemp expd_lo64 = newTemp(Ity_I64);`
Mark Wielaard	04e90e	`+ IRTemp expd_hi64 = newTemp(Ity_I64);`
Mark Wielaard	04e90e	`+ IRTemp store_data_lo64 = newTemp(Ity_I64);`
Mark Wielaard	04e90e	`+ IRTemp store_data_hi64 = newTemp(Ity_I64);`
Mark Wielaard	04e90e	`+ assign(expd_lo64, mkexpr(llsc_data_lo64));`
Mark Wielaard	04e90e	`+ assign(expd_hi64, mkexpr(llsc_data_hi64));`
Mark Wielaard	04e90e	`+ assign(store_data_lo64, unop(Iop_128to64, mkexpr(store_data)));`
Mark Wielaard	04e90e	`+ assign(store_data_hi64, unop(Iop_128HIto64, mkexpr(store_data)));`
Mark Wielaard	04e90e	`+ stmt( IRStmt_CAS(mkIRCAS(old_hi64, old_lo64,`
Mark Wielaard	04e90e	`+ Iend_LE, mkexpr(ea),`
Mark Wielaard	04e90e	`+ mkexpr(expd_hi64), mkexpr(expd_lo64),`
Mark Wielaard	04e90e	`+ mkexpr(store_data_hi64),`
Mark Wielaard	04e90e	`+ mkexpr(store_data_lo64)`
Mark Wielaard	04e90e	`+ )));`
Mark Wielaard	04e90e	`+ // Fail if the CAS failed (viz, old != expd)`
Mark Wielaard	04e90e	`+ stmt( IRStmt_Exit(`
Mark Wielaard	04e90e	`+ binop(Iop_CmpNE64, mkexpr(old_lo64), mkexpr(expd_lo64)),`
Mark Wielaard	04e90e	`+ Ijk_Boring, nia, OFFB_PC`
Mark Wielaard	04e90e	`+ ));`
Mark Wielaard	04e90e	`+ stmt( IRStmt_Exit(`
Mark Wielaard	04e90e	`+ binop(Iop_CmpNE64, mkexpr(old_hi64), mkexpr(expd_hi64)),`
Mark Wielaard	04e90e	`+ Ijk_Boring, nia, OFFB_PC`
Mark Wielaard	04e90e	`+ ));`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`+ // Otherwise we succeeded (!)`
Mark Wielaard	04e90e	`+ putIReg64orZR(ss, mkU64(0));`
Mark Wielaard	04e90e	`+ } else {`
Mark Wielaard	04e90e	`+ // Non-fallback implementation of SC.`
Mark Wielaard	04e90e	`+ IRTemp res = newTemp(Ity_I1);`
Mark Wielaard	04e90e	`+ IRExpr* dataLO = narrowFrom64(elemTy, getIReg64orZR(tt1));`
Mark Wielaard	04e90e	`+ IRExpr* dataHI = narrowFrom64(elemTy, getIReg64orZR(tt2));`
Mark Wielaard	04e90e	`+ IROp opMerge = fullTy == Ity_I128 ? Iop_64HLto128 : Iop_32HLto64;`
Mark Wielaard	04e90e	`+ IRExpr* data = binop(opMerge, dataHI, dataLO);`
Mark Wielaard	04e90e	`+ // Assuming a little-endian guest here. Rt1 goes at the lower`
Mark Wielaard	04e90e	+ // address, so it must live in the least significant half of `data`.
Mark Wielaard	04e90e	`+ stmt(IRStmt_LLSC(Iend_LE, res, mkexpr(ea), data));`
Mark Wielaard	04e90e	`+ /* IR semantics: res is 1 if store succeeds, 0 if it fails.`
Mark Wielaard	04e90e	`+ Need to set rS to 1 on failure, 0 on success. */`
Mark Wielaard	04e90e	`+ putIReg64orZR(ss, binop(Iop_Xor64, unop(Iop_1Uto64, mkexpr(res)),`
Mark Wielaard	04e90e	`+ mkU64(1)));`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`+ DIP("st%sxp %s, %s, %s, [%s] %s\n",`
Mark Wielaard	04e90e	`+ isAcqOrRel ? (isLD ? "a" : "l") : "",`
Mark Wielaard	04e90e	`+ nameIRegOrZR(False, ss),`
Mark Wielaard	04e90e	`+ nameIRegOrZR(elemSzB == 8, tt1),`
Mark Wielaard	04e90e	`+ nameIRegOrZR(elemSzB == 8, tt2),`
Mark Wielaard	04e90e	`+ nameIReg64orSP(nn),`
Mark Wielaard	04e90e	`+ abiinfo->guest__use_fallback_LLSC`
Mark Wielaard	04e90e	`+ ? "(fallback implementation)" : "");`
Mark Wielaard	04e90e	`+ return True;`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`+ /* else fall through */`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`/* ------------------ LDA{R,RH,RB} ------------------ */`
Mark Wielaard	04e90e	`/* ------------------ STL{R,RH,RB} ------------------ */`
Mark Wielaard	04e90e	`/* 31 29 23 20 14 9 4`
Mark Wielaard	04e90e	`diff --git a/VEX/priv/host_arm64_defs.c b/VEX/priv/host_arm64_defs.c`
Mark Wielaard	04e90e	`index 5657bcab9..b65e27db4 100644`
Mark Wielaard	04e90e	`--- a/VEX/priv/host_arm64_defs.c`
Mark Wielaard	04e90e	`+++ b/VEX/priv/host_arm64_defs.c`
Mark Wielaard	04e90e	`@@ -1059,6 +1059,16 @@ ARM64Instr* ARM64Instr_StrEX ( Int szB ) {`
Mark Wielaard	04e90e	`vassert(szB == 8 \|\| szB == 4 \|\| szB == 2 \|\| szB == 1);`
Mark Wielaard	04e90e	`return i;`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e	`+ARM64Instr* ARM64Instr_LdrEXP ( void ) {`
Mark Wielaard	04e90e	`+ ARM64Instr* i = LibVEX_Alloc_inline(sizeof(ARM64Instr));`
Mark Wielaard	04e90e	`+ i->tag = ARM64in_LdrEXP;`
Mark Wielaard	04e90e	`+ return i;`
Mark Wielaard	04e90e	`+}`
Mark Wielaard	04e90e	`+ARM64Instr* ARM64Instr_StrEXP ( void ) {`
Mark Wielaard	04e90e	`+ ARM64Instr* i = LibVEX_Alloc_inline(sizeof(ARM64Instr));`
Mark Wielaard	04e90e	`+ i->tag = ARM64in_StrEXP;`
Mark Wielaard	04e90e	`+ return i;`
Mark Wielaard	04e90e	`+}`
Mark Wielaard	04e90e	`ARM64Instr* ARM64Instr_CAS ( Int szB ) {`
Mark Wielaard	04e90e	`ARM64Instr* i = LibVEX_Alloc_inline(sizeof(ARM64Instr));`
Mark Wielaard	04e90e	`i->tag = ARM64in_CAS;`
Mark Wielaard	04e90e	`@@ -1699,12 +1709,19 @@ void ppARM64Instr ( const ARM64Instr* i ) {`
Mark Wielaard	04e90e	`sz, i->ARM64in.StrEX.szB == 8 ? 'x' : 'w');`
Mark Wielaard	04e90e	`return;`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e	`+ case ARM64in_LdrEXP:`
Mark Wielaard	04e90e	`+ vex_printf("ldxp x2, x3, [x4]");`
Mark Wielaard	04e90e	`+ return;`
Mark Wielaard	04e90e	`+ case ARM64in_StrEXP:`
Mark Wielaard	04e90e	`+ vex_printf("stxp w0, x2, x3, [x4]");`
Mark Wielaard	04e90e	`+ return;`
Mark Wielaard	04e90e	`case ARM64in_CAS: {`
Mark Wielaard	04e90e	`vex_printf("x1 = cas(%dbit)(x3, x5 -> x7)", 8 * i->ARM64in.CAS.szB);`
Mark Wielaard	04e90e	`return;`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e	`case ARM64in_CASP: {`
Mark Wielaard	04e90e	`- vex_printf("x0,x1 = casp(%dbit)(x2, x4,x5 -> x6,x7)", 8 * i->ARM64in.CASP.szB);`
Mark Wielaard	04e90e	`+ vex_printf("x0,x1 = casp(2x%dbit)(x2, x4,x5 -> x6,x7)",`
Mark Wielaard	04e90e	`+ 8 * i->ARM64in.CASP.szB);`
Mark Wielaard	04e90e	`return;`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e	`case ARM64in_MFence:`
Mark Wielaard	04e90e	`@@ -2253,6 +2270,17 @@ void getRegUsage_ARM64Instr ( HRegUsage* u, const ARM64Instr* i, Bool mode64 )`
Mark Wielaard	04e90e	`addHRegUse(u, HRmWrite, hregARM64_X0());`
Mark Wielaard	04e90e	`addHRegUse(u, HRmRead, hregARM64_X2());`
Mark Wielaard	04e90e	`return;`
Mark Wielaard	04e90e	`+ case ARM64in_LdrEXP:`
Mark Wielaard	04e90e	`+ addHRegUse(u, HRmRead, hregARM64_X4());`
Mark Wielaard	04e90e	`+ addHRegUse(u, HRmWrite, hregARM64_X2());`
Mark Wielaard	04e90e	`+ addHRegUse(u, HRmWrite, hregARM64_X3());`
Mark Wielaard	04e90e	`+ return;`
Mark Wielaard	04e90e	`+ case ARM64in_StrEXP:`
Mark Wielaard	04e90e	`+ addHRegUse(u, HRmRead, hregARM64_X4());`
Mark Wielaard	04e90e	`+ addHRegUse(u, HRmWrite, hregARM64_X0());`
Mark Wielaard	04e90e	`+ addHRegUse(u, HRmRead, hregARM64_X2());`
Mark Wielaard	04e90e	`+ addHRegUse(u, HRmRead, hregARM64_X3());`
Mark Wielaard	04e90e	`+ return;`
Mark Wielaard	04e90e	`case ARM64in_CAS:`
Mark Wielaard	04e90e	`addHRegUse(u, HRmRead, hregARM64_X3());`
Mark Wielaard	04e90e	`addHRegUse(u, HRmRead, hregARM64_X5());`
Mark Wielaard	04e90e	`@@ -2571,6 +2599,10 @@ void mapRegs_ARM64Instr ( HRegRemap* m, ARM64Instr* i, Bool mode64 )`
Mark Wielaard	04e90e	`return;`
Mark Wielaard	04e90e	`case ARM64in_StrEX:`
Mark Wielaard	04e90e	`return;`
Mark Wielaard	04e90e	`+ case ARM64in_LdrEXP:`
Mark Wielaard	04e90e	`+ return;`
Mark Wielaard	04e90e	`+ case ARM64in_StrEXP:`
Mark Wielaard	04e90e	`+ return;`
Mark Wielaard	04e90e	`case ARM64in_CAS:`
Mark Wielaard	04e90e	`return;`
Mark Wielaard	04e90e	`case ARM64in_CASP:`
Mark Wielaard	04e90e	`@@ -4167,6 +4199,16 @@ Int emit_ARM64Instr ( /MB_MOD/Bool* is_profInc,`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e	`goto bad;`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e	`+ case ARM64in_LdrEXP: {`
Mark Wielaard	04e90e	`+ // 820C7FC8 ldxp x2, x3, [x4]`
Mark Wielaard	04e90e	`+ *p++ = 0xC87F0C82;`
Mark Wielaard	04e90e	`+ goto done;`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`+ case ARM64in_StrEXP: {`
Mark Wielaard	04e90e	`+ // 820C20C8 stxp w0, x2, x3, [x4]`
Mark Wielaard	04e90e	`+ *p++ = 0xC8200C82;`
Mark Wielaard	04e90e	`+ goto done;`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`case ARM64in_CAS: {`
Mark Wielaard	04e90e	`/* This isn't simple. For an explanation see the comment in`
Mark Wielaard	04e90e	`host_arm64_defs.h on the definition of ARM64Instr case CAS.`
Mark Wielaard	04e90e	`diff --git a/VEX/priv/host_arm64_defs.h b/VEX/priv/host_arm64_defs.h`
Mark Wielaard	04e90e	`index 01fb5708e..dc686dff7 100644`
Mark Wielaard	04e90e	`--- a/VEX/priv/host_arm64_defs.h`
Mark Wielaard	04e90e	`+++ b/VEX/priv/host_arm64_defs.h`
Mark Wielaard	04e90e	`@@ -509,8 +509,10 @@ typedef`
Mark Wielaard	04e90e	`ARM64in_AddToSP, /* move SP by small, signed constant */`
Mark Wielaard	04e90e	`ARM64in_FromSP, /* move SP to integer register */`
Mark Wielaard	04e90e	`ARM64in_Mul,`
Mark Wielaard	04e90e	`- ARM64in_LdrEX,`
Mark Wielaard	04e90e	`- ARM64in_StrEX,`
Mark Wielaard	04e90e	`+ ARM64in_LdrEX, /* load exclusive, single register */`
Mark Wielaard	04e90e	`+ ARM64in_StrEX, /* store exclusive, single register */`
Mark Wielaard	04e90e	`+ ARM64in_LdrEXP, /* load exclusive, register pair, 2x64-bit only */`
Mark Wielaard	04e90e	`+ ARM64in_StrEXP, /* store exclusive, register pair, 2x64-bit only */`
Mark Wielaard	04e90e	`ARM64in_CAS,`
Mark Wielaard	04e90e	`ARM64in_CASP,`
Mark Wielaard	04e90e	`ARM64in_MFence,`
Mark Wielaard	04e90e	`@@ -719,6 +721,12 @@ typedef`
Mark Wielaard	04e90e	`struct {`
Mark Wielaard	04e90e	`Int szB; /* 1, 2, 4 or 8 */`
Mark Wielaard	04e90e	`} StrEX;`
Mark Wielaard	04e90e	`+ /* LDXP x2, x3, [x4]. This is 2x64-bit only. */`
Mark Wielaard	04e90e	`+ struct {`
Mark Wielaard	04e90e	`+ } LdrEXP;`
Mark Wielaard	04e90e	`+ /* STXP w0, x2, x3, [x4]. This is 2x64-bit only. */`
Mark Wielaard	04e90e	`+ struct {`
Mark Wielaard	04e90e	`+ } StrEXP;`
Mark Wielaard	04e90e	`/* x1 = CAS(x3(addr), x5(expected) -> x7(new)),`
Mark Wielaard	04e90e	`and trashes x8`
Mark Wielaard	04e90e	`where x1[8szB-1 : 0] == x5[8szB-1 : 0] indicates success,`
Mark Wielaard	04e90e	`@@ -1037,6 +1045,8 @@ extern ARM64Instr* ARM64Instr_Mul ( HReg dst, HReg argL, HReg argR,`
Mark Wielaard	04e90e	`ARM64MulOp op );`
Mark Wielaard	04e90e	`extern ARM64Instr* ARM64Instr_LdrEX ( Int szB );`
Mark Wielaard	04e90e	`extern ARM64Instr* ARM64Instr_StrEX ( Int szB );`
Mark Wielaard	04e90e	`+extern ARM64Instr* ARM64Instr_LdrEXP ( void );`
Mark Wielaard	04e90e	`+extern ARM64Instr* ARM64Instr_StrEXP ( void );`
Mark Wielaard	04e90e	`extern ARM64Instr* ARM64Instr_CAS ( Int szB );`
Mark Wielaard	04e90e	`extern ARM64Instr* ARM64Instr_CASP ( Int szB );`
Mark Wielaard	04e90e	`extern ARM64Instr* ARM64Instr_MFence ( void );`
Mark Wielaard	04e90e	`diff --git a/VEX/priv/host_arm64_isel.c b/VEX/priv/host_arm64_isel.c`
Mark Wielaard	04e90e	`index 4b1d8c846..094e7e74b 100644`
Mark Wielaard	04e90e	`--- a/VEX/priv/host_arm64_isel.c`
Mark Wielaard	04e90e	`+++ b/VEX/priv/host_arm64_isel.c`
Mark Wielaard	04e90e	`@@ -196,9 +196,9 @@ static HReg iselCondCode_R ( ISelEnv* env, IRExpr* e );`
Mark Wielaard	04e90e	`static HReg iselIntExpr_R_wrk ( ISelEnv* env, IRExpr* e );`
Mark Wielaard	04e90e	`static HReg iselIntExpr_R ( ISelEnv* env, IRExpr* e );`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`-static void iselInt128Expr_wrk ( /OUT/HReg* rHi, HReg* rLo,`
Mark Wielaard	04e90e	`+static void iselInt128Expr_wrk ( /OUT/HReg* rHi, /OUT/HReg* rLo,`
Mark Wielaard	04e90e	`ISelEnv* env, IRExpr* e );`
Mark Wielaard	04e90e	`-static void iselInt128Expr ( /OUT/HReg* rHi, HReg* rLo,`
Mark Wielaard	04e90e	`+static void iselInt128Expr ( /OUT/HReg* rHi, /OUT/HReg* rLo,`
Mark Wielaard	04e90e	`ISelEnv* env, IRExpr* e );`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`static HReg iselDblExpr_wrk ( ISelEnv* env, IRExpr* e );`
Mark Wielaard	04e90e	`@@ -1759,9 +1759,12 @@ static HReg iselIntExpr_R_wrk ( ISelEnv* env, IRExpr* e )`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`/* AND/OR/XOR(e1, e2) (for any e1, e2) */`
Mark Wielaard	04e90e	`switch (e->Iex.Binop.op) {`
Mark Wielaard	04e90e	`- case Iop_And64: case Iop_And32: lop = ARM64lo_AND; goto log_binop;`
Mark Wielaard	04e90e	`- case Iop_Or64: case Iop_Or32: case Iop_Or16: lop = ARM64lo_OR; goto log_binop;`
Mark Wielaard	04e90e	`- case Iop_Xor64: case Iop_Xor32: lop = ARM64lo_XOR; goto log_binop;`
Mark Wielaard	04e90e	`+ case Iop_And64: case Iop_And32:`
Mark Wielaard	04e90e	`+ lop = ARM64lo_AND; goto log_binop;`
Mark Wielaard	04e90e	`+ case Iop_Or64: case Iop_Or32: case Iop_Or16:`
Mark Wielaard	04e90e	`+ lop = ARM64lo_OR; goto log_binop;`
Mark Wielaard	04e90e	`+ case Iop_Xor64: case Iop_Xor32:`
Mark Wielaard	04e90e	`+ lop = ARM64lo_XOR; goto log_binop;`
Mark Wielaard	04e90e	`log_binop: {`
Mark Wielaard	04e90e	`HReg dst = newVRegI(env);`
Mark Wielaard	04e90e	`HReg argL = iselIntExpr_R(env, e->Iex.Binop.arg1);`
Mark Wielaard	04e90e	`@@ -2013,6 +2016,11 @@ static HReg iselIntExpr_R_wrk ( ISelEnv* env, IRExpr* e )`
Mark Wielaard	04e90e	`iselInt128Expr(&rHi,&rLo, env, e->Iex.Unop.arg);`
Mark Wielaard	04e90e	`return rHi; /* and abandon rLo */`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e	`+ case Iop_128to64: {`
Mark Wielaard	04e90e	`+ HReg rHi, rLo;`
Mark Wielaard	04e90e	`+ iselInt128Expr(&rHi,&rLo, env, e->Iex.Unop.arg);`
Mark Wielaard	04e90e	`+ return rLo; /* and abandon rHi */`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`case Iop_8Sto32: case Iop_8Sto64: {`
Mark Wielaard	04e90e	`IRExpr* arg = e->Iex.Unop.arg;`
Mark Wielaard	04e90e	`HReg src = iselIntExpr_R(env, arg);`
Mark Wielaard	04e90e	`@@ -2185,13 +2193,19 @@ static HReg iselIntExpr_R_wrk ( ISelEnv* env, IRExpr* e )`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e	`return dst;`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e	`+ case Iop_64HIto32: {`
Mark Wielaard	04e90e	`+ HReg dst = newVRegI(env);`
Mark Wielaard	04e90e	`+ HReg src = iselIntExpr_R(env, e->Iex.Unop.arg);`
Mark Wielaard	04e90e	`+ addInstr(env, ARM64Instr_Shift(dst, src, ARM64RI6_I6(32),`
Mark Wielaard	04e90e	`+ ARM64sh_SHR));`
Mark Wielaard	04e90e	`+ return dst;`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`case Iop_64to32:`
Mark Wielaard	04e90e	`case Iop_64to16:`
Mark Wielaard	04e90e	`case Iop_64to8:`
Mark Wielaard	04e90e	`case Iop_32to16:`
Mark Wielaard	04e90e	`/* These are no-ops. */`
Mark Wielaard	04e90e	`return iselIntExpr_R(env, e->Iex.Unop.arg);`
Mark Wielaard	04e90e	`-`
Mark Wielaard	04e90e	`default:`
Mark Wielaard	04e90e	`break;`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e	`@@ -2335,6 +2349,43 @@ static void iselInt128Expr_wrk ( HReg* rHi, HReg* rLo,`
Mark Wielaard	04e90e	`vassert(e);`
Mark Wielaard	04e90e	`vassert(typeOfIRExpr(env->type_env,e) == Ity_I128);`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`+ /* --------- TEMP --------- */`
Mark Wielaard	04e90e	`+ if (e->tag == Iex_RdTmp) {`
Mark Wielaard	04e90e	`+ lookupIRTempPair(rHi, rLo, env, e->Iex.RdTmp.tmp);`
Mark Wielaard	04e90e	`+ return;`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+ /* --------- CONST --------- */`
Mark Wielaard	04e90e	`+ if (e->tag == Iex_Const) {`
Mark Wielaard	04e90e	`+ IRConst* c = e->Iex.Const.con;`
Mark Wielaard	04e90e	`+ vassert(c->tag == Ico_U128);`
Mark Wielaard	04e90e	`+ if (c->Ico.U128 == 0) {`
Mark Wielaard	04e90e	`+ // The only case we need to handle (so far)`
Mark Wielaard	04e90e	`+ HReg zero = newVRegI(env);`
Mark Wielaard	04e90e	`+ addInstr(env, ARM64Instr_Imm64(zero, 0));`
Mark Wielaard	04e90e	`+ rHi = rLo = zero;`
Mark Wielaard	04e90e	`+ return;`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+ /* --------- UNARY ops --------- */`
Mark Wielaard	04e90e	`+ if (e->tag == Iex_Unop) {`
Mark Wielaard	04e90e	`+ switch (e->Iex.Unop.op) {`
Mark Wielaard	04e90e	`+ case Iop_ReinterpV128asI128: {`
Mark Wielaard	04e90e	`+ HReg dstHi = newVRegI(env);`
Mark Wielaard	04e90e	`+ HReg dstLo = newVRegI(env);`
Mark Wielaard	04e90e	`+ HReg src = iselV128Expr(env, e->Iex.Unop.arg);`
Mark Wielaard	04e90e	`+ addInstr(env, ARM64Instr_VXfromQ(dstHi, src, 1));`
Mark Wielaard	04e90e	`+ addInstr(env, ARM64Instr_VXfromQ(dstLo, src, 0));`
Mark Wielaard	04e90e	`+ *rHi = dstHi;`
Mark Wielaard	04e90e	`+ *rLo = dstLo;`
Mark Wielaard	04e90e	`+ return;`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`+ default:`
Mark Wielaard	04e90e	`+ break;`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`/* --------- BINARY ops --------- */`
Mark Wielaard	04e90e	`if (e->tag == Iex_Binop) {`
Mark Wielaard	04e90e	`switch (e->Iex.Binop.op) {`
Mark Wielaard	04e90e	`@@ -4086,6 +4137,14 @@ static void iselStmt ( ISelEnv* env, IRStmt* stmt )`
Mark Wielaard	04e90e	`addInstr(env, ARM64Instr_VMov(8/yes, really/, dst, src));`
Mark Wielaard	04e90e	`return;`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e	`+ if (ty == Ity_I128) {`
Mark Wielaard	04e90e	`+ HReg rHi, rLo, dstHi, dstLo;`
Mark Wielaard	04e90e	`+ iselInt128Expr(&rHi,&rLo, env, stmt->Ist.WrTmp.data);`
Mark Wielaard	04e90e	`+ lookupIRTempPair( &dstHi, &dstLo, env, tmp);`
Mark Wielaard	04e90e	`+ addInstr(env, ARM64Instr_MovI(dstHi, rHi));`
Mark Wielaard	04e90e	`+ addInstr(env, ARM64Instr_MovI(dstLo, rLo));`
Mark Wielaard	04e90e	`+ return;`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`if (ty == Ity_V128) {`
Mark Wielaard	04e90e	`HReg src = iselV128Expr(env, stmt->Ist.WrTmp.data);`
Mark Wielaard	04e90e	`HReg dst = lookupIRTemp(env, tmp);`
Mark Wielaard	04e90e	`@@ -4183,42 +4242,67 @@ static void iselStmt ( ISelEnv* env, IRStmt* stmt )`
Mark Wielaard	04e90e	`/* LL */`
Mark Wielaard	04e90e	`IRTemp res = stmt->Ist.LLSC.result;`
Mark Wielaard	04e90e	`IRType ty = typeOfIRTemp(env->type_env, res);`
Mark Wielaard	04e90e	`- if (ty == Ity_I64 \|\| ty == Ity_I32`
Mark Wielaard	04e90e	`+ if (ty == Ity_I128 \|\| ty == Ity_I64 \|\| ty == Ity_I32`
Mark Wielaard	04e90e	`\|\| ty == Ity_I16 \|\| ty == Ity_I8) {`
Mark Wielaard	04e90e	`Int szB = 0;`
Mark Wielaard	04e90e	`- HReg r_dst = lookupIRTemp(env, res);`
Mark Wielaard	04e90e	`HReg raddr = iselIntExpr_R(env, stmt->Ist.LLSC.addr);`
Mark Wielaard	04e90e	`switch (ty) {`
Mark Wielaard	04e90e	`- case Ity_I8: szB = 1; break;`
Mark Wielaard	04e90e	`- case Ity_I16: szB = 2; break;`
Mark Wielaard	04e90e	`- case Ity_I32: szB = 4; break;`
Mark Wielaard	04e90e	`- case Ity_I64: szB = 8; break;`
Mark Wielaard	04e90e	`- default: vassert(0);`
Mark Wielaard	04e90e	`+ case Ity_I8: szB = 1; break;`
Mark Wielaard	04e90e	`+ case Ity_I16: szB = 2; break;`
Mark Wielaard	04e90e	`+ case Ity_I32: szB = 4; break;`
Mark Wielaard	04e90e	`+ case Ity_I64: szB = 8; break;`
Mark Wielaard	04e90e	`+ case Ity_I128: szB = 16; break;`
Mark Wielaard	04e90e	`+ default: vassert(0);`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`+ if (szB == 16) {`
Mark Wielaard	04e90e	`+ HReg r_dstMSword = INVALID_HREG;`
Mark Wielaard	04e90e	`+ HReg r_dstLSword = INVALID_HREG;`
Mark Wielaard	04e90e	`+ lookupIRTempPair(&r_dstMSword, &r_dstLSword, env, res);`
Mark Wielaard	04e90e	`+ addInstr(env, ARM64Instr_MovI(hregARM64_X4(), raddr));`
Mark Wielaard	04e90e	`+ addInstr(env, ARM64Instr_LdrEXP());`
Mark Wielaard	04e90e	`+ addInstr(env, ARM64Instr_MovI(r_dstLSword, hregARM64_X2()));`
Mark Wielaard	04e90e	`+ addInstr(env, ARM64Instr_MovI(r_dstMSword, hregARM64_X3()));`
Mark Wielaard	04e90e	`+ } else {`
Mark Wielaard	04e90e	`+ vassert(szB != 0);`
Mark Wielaard	04e90e	`+ HReg r_dst = lookupIRTemp(env, res);`
Mark Wielaard	04e90e	`+ addInstr(env, ARM64Instr_MovI(hregARM64_X4(), raddr));`
Mark Wielaard	04e90e	`+ addInstr(env, ARM64Instr_LdrEX(szB));`
Mark Wielaard	04e90e	`+ addInstr(env, ARM64Instr_MovI(r_dst, hregARM64_X2()));`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e	`- addInstr(env, ARM64Instr_MovI(hregARM64_X4(), raddr));`
Mark Wielaard	04e90e	`- addInstr(env, ARM64Instr_LdrEX(szB));`
Mark Wielaard	04e90e	`- addInstr(env, ARM64Instr_MovI(r_dst, hregARM64_X2()));`
Mark Wielaard	04e90e	`return;`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e	`goto stmt_fail;`
Mark Wielaard	04e90e	`} else {`
Mark Wielaard	04e90e	`/* SC */`
Mark Wielaard	04e90e	`IRType tyd = typeOfIRExpr(env->type_env, stmt->Ist.LLSC.storedata);`
Mark Wielaard	04e90e	`- if (tyd == Ity_I64 \|\| tyd == Ity_I32`
Mark Wielaard	04e90e	`+ if (tyd == Ity_I128 \|\| tyd == Ity_I64 \|\| tyd == Ity_I32`
Mark Wielaard	04e90e	`\|\| tyd == Ity_I16 \|\| tyd == Ity_I8) {`
Mark Wielaard	04e90e	`Int szB = 0;`
Mark Wielaard	04e90e	`- HReg rD = iselIntExpr_R(env, stmt->Ist.LLSC.storedata);`
Mark Wielaard	04e90e	`HReg rA = iselIntExpr_R(env, stmt->Ist.LLSC.addr);`
Mark Wielaard	04e90e	`switch (tyd) {`
Mark Wielaard	04e90e	`- case Ity_I8: szB = 1; break;`
Mark Wielaard	04e90e	`- case Ity_I16: szB = 2; break;`
Mark Wielaard	04e90e	`- case Ity_I32: szB = 4; break;`
Mark Wielaard	04e90e	`- case Ity_I64: szB = 8; break;`
Mark Wielaard	04e90e	`- default: vassert(0);`
Mark Wielaard	04e90e	`+ case Ity_I8: szB = 1; break;`
Mark Wielaard	04e90e	`+ case Ity_I16: szB = 2; break;`
Mark Wielaard	04e90e	`+ case Ity_I32: szB = 4; break;`
Mark Wielaard	04e90e	`+ case Ity_I64: szB = 8; break;`
Mark Wielaard	04e90e	`+ case Ity_I128: szB = 16; break;`
Mark Wielaard	04e90e	`+ default: vassert(0);`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`+ if (szB == 16) {`
Mark Wielaard	04e90e	`+ HReg rD_MSword = INVALID_HREG;`
Mark Wielaard	04e90e	`+ HReg rD_LSword = INVALID_HREG;`
Mark Wielaard	04e90e	`+ iselInt128Expr(&rD_MSword,`
Mark Wielaard	04e90e	`+ &rD_LSword, env, stmt->Ist.LLSC.storedata);`
Mark Wielaard	04e90e	`+ addInstr(env, ARM64Instr_MovI(hregARM64_X2(), rD_LSword));`
Mark Wielaard	04e90e	`+ addInstr(env, ARM64Instr_MovI(hregARM64_X3(), rD_MSword));`
Mark Wielaard	04e90e	`+ addInstr(env, ARM64Instr_MovI(hregARM64_X4(), rA));`
Mark Wielaard	04e90e	`+ addInstr(env, ARM64Instr_StrEXP());`
Mark Wielaard	04e90e	`+ } else {`
Mark Wielaard	04e90e	`+ vassert(szB != 0);`
Mark Wielaard	04e90e	`+ HReg rD = iselIntExpr_R(env, stmt->Ist.LLSC.storedata);`
Mark Wielaard	04e90e	`+ addInstr(env, ARM64Instr_MovI(hregARM64_X2(), rD));`
Mark Wielaard	04e90e	`+ addInstr(env, ARM64Instr_MovI(hregARM64_X4(), rA));`
Mark Wielaard	04e90e	`+ addInstr(env, ARM64Instr_StrEX(szB));`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e	`- addInstr(env, ARM64Instr_MovI(hregARM64_X2(), rD));`
Mark Wielaard	04e90e	`- addInstr(env, ARM64Instr_MovI(hregARM64_X4(), rA));`
Mark Wielaard	04e90e	`- addInstr(env, ARM64Instr_StrEX(szB));`
Mark Wielaard	04e90e	`} else {`
Mark Wielaard	04e90e	`goto stmt_fail;`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e	`@@ -4243,10 +4327,10 @@ static void iselStmt ( ISelEnv* env, IRStmt* stmt )`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`/* --------- ACAS --------- */`
Mark Wielaard	04e90e	`case Ist_CAS: {`
Mark Wielaard	04e90e	`- if (stmt->Ist.CAS.details->oldHi == IRTemp_INVALID) {`
Mark Wielaard	04e90e	`+ IRCAS* cas = stmt->Ist.CAS.details;`
Mark Wielaard	04e90e	`+ if (cas->oldHi == IRTemp_INVALID && cas->end == Iend_LE) {`
Mark Wielaard	04e90e	`/* "normal" singleton CAS */`
Mark Wielaard	04e90e	`UChar sz;`
Mark Wielaard	04e90e	`- IRCAS* cas = stmt->Ist.CAS.details;`
Mark Wielaard	04e90e	`IRType ty = typeOfIRExpr(env->type_env, cas->dataLo);`
Mark Wielaard	04e90e	`switch (ty) {`
Mark Wielaard	04e90e	`case Ity_I64: sz = 8; break;`
Mark Wielaard	04e90e	`@@ -4281,10 +4365,9 @@ static void iselStmt ( ISelEnv* env, IRStmt* stmt )`
Mark Wielaard	04e90e	`addInstr(env, ARM64Instr_MovI(rOld, rResult));`
Mark Wielaard	04e90e	`return;`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e	`- else {`
Mark Wielaard	04e90e	`+ if (cas->oldHi != IRTemp_INVALID && cas->end == Iend_LE) {`
Mark Wielaard	04e90e	`/* Paired register CAS, i.e. CASP */`
Mark Wielaard	04e90e	`UChar sz;`
Mark Wielaard	04e90e	`- IRCAS* cas = stmt->Ist.CAS.details;`
Mark Wielaard	04e90e	`IRType ty = typeOfIRExpr(env->type_env, cas->dataLo);`
Mark Wielaard	04e90e	`switch (ty) {`
Mark Wielaard	04e90e	`case Ity_I64: sz = 8; break;`
Mark Wielaard	04e90e	`diff --git a/VEX/priv/ir_defs.c b/VEX/priv/ir_defs.c`
Mark Wielaard	04e90e	`index 25566c41c..2d82c41a1 100644`
Mark Wielaard	04e90e	`--- a/VEX/priv/ir_defs.c`
Mark Wielaard	04e90e	`+++ b/VEX/priv/ir_defs.c`
Mark Wielaard	04e90e	`@@ -76,6 +76,7 @@ void ppIRConst ( const IRConst* con )`
Mark Wielaard	04e90e	`case Ico_U16: vex_printf( "0x%x:I16", (UInt)(con->Ico.U16)); break;`
Mark Wielaard	04e90e	`case Ico_U32: vex_printf( "0x%x:I32", (UInt)(con->Ico.U32)); break;`
Mark Wielaard	04e90e	`case Ico_U64: vex_printf( "0x%llx:I64", (ULong)(con->Ico.U64)); break;`
Mark Wielaard	04e90e	`+ case Ico_U128: vex_printf( "I128{0x%04x}", (UInt)(con->Ico.U128)); break;`
Mark Wielaard	04e90e	`case Ico_F32: u.f32 = con->Ico.F32;`
Mark Wielaard	04e90e	`vex_printf( "F32{0x%x}", u.i32);`
Mark Wielaard	04e90e	`break;`
Mark Wielaard	04e90e	`@@ -2266,6 +2267,13 @@ IRConst* IRConst_U64 ( ULong u64 )`
Mark Wielaard	04e90e	`c->Ico.U64 = u64;`
Mark Wielaard	04e90e	`return c;`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e	`+IRConst* IRConst_U128 ( UShort con )`
Mark Wielaard	04e90e	`+{`
Mark Wielaard	04e90e	`+ IRConst* c = LibVEX_Alloc_inline(sizeof(IRConst));`
Mark Wielaard	04e90e	`+ c->tag = Ico_U128;`
Mark Wielaard	04e90e	`+ c->Ico.U128 = con;`
Mark Wielaard	04e90e	`+ return c;`
Mark Wielaard	04e90e	`+}`
Mark Wielaard	04e90e	`IRConst* IRConst_F32 ( Float f32 )`
Mark Wielaard	04e90e	`{`
Mark Wielaard	04e90e	`IRConst* c = LibVEX_Alloc_inline(sizeof(IRConst));`
Mark Wielaard	04e90e	`@@ -4230,6 +4238,7 @@ IRType typeOfIRConst ( const IRConst* con )`
Mark Wielaard	04e90e	`case Ico_U16: return Ity_I16;`
Mark Wielaard	04e90e	`case Ico_U32: return Ity_I32;`
Mark Wielaard	04e90e	`case Ico_U64: return Ity_I64;`
Mark Wielaard	04e90e	`+ case Ico_U128: return Ity_I128;`
Mark Wielaard	04e90e	`case Ico_F32: return Ity_F32;`
Mark Wielaard	04e90e	`case Ico_F32i: return Ity_F32;`
Mark Wielaard	04e90e	`case Ico_F64: return Ity_F64;`
Mark Wielaard	04e90e	`@@ -5129,7 +5138,7 @@ void tcStmt ( const IRSB* bb, const IRStmt* stmt, IRType gWordTy )`
Mark Wielaard	04e90e	`tyRes = typeOfIRTemp(tyenv, stmt->Ist.LLSC.result);`
Mark Wielaard	04e90e	`if (stmt->Ist.LLSC.storedata == NULL) {`
Mark Wielaard	04e90e	`/* it's a LL */`
Mark Wielaard	04e90e	`- if (tyRes != Ity_I64 && tyRes != Ity_I32`
Mark Wielaard	04e90e	`+ if (tyRes != Ity_I128 && tyRes != Ity_I64 && tyRes != Ity_I32`
Mark Wielaard	04e90e	`&& tyRes != Ity_I16 && tyRes != Ity_I8)`
Mark Wielaard	04e90e	`sanityCheckFail(bb,stmt,"Ist.LLSC(LL).result :: bogus");`
Mark Wielaard	04e90e	`} else {`
Mark Wielaard	04e90e	`@@ -5137,7 +5146,7 @@ void tcStmt ( const IRSB* bb, const IRStmt* stmt, IRType gWordTy )`
Mark Wielaard	04e90e	`if (tyRes != Ity_I1)`
Mark Wielaard	04e90e	`sanityCheckFail(bb,stmt,"Ist.LLSC(SC).result: not :: Ity_I1");`
Mark Wielaard	04e90e	`tyData = typeOfIRExpr(tyenv, stmt->Ist.LLSC.storedata);`
Mark Wielaard	04e90e	`- if (tyData != Ity_I64 && tyData != Ity_I32`
Mark Wielaard	04e90e	`+ if (tyData != Ity_I128 && tyData != Ity_I64 && tyData != Ity_I32`
Mark Wielaard	04e90e	`&& tyData != Ity_I16 && tyData != Ity_I8)`
Mark Wielaard	04e90e	`sanityCheckFail(bb,stmt,`
Mark Wielaard	04e90e	`"Ist.LLSC(SC).result :: storedata bogus");`
Mark Wielaard	04e90e	`@@ -5385,6 +5394,7 @@ Int sizeofIRType ( IRType ty )`
Mark Wielaard	04e90e	`IRType integerIRTypeOfSize ( Int szB )`
Mark Wielaard	04e90e	`{`
Mark Wielaard	04e90e	`switch (szB) {`
Mark Wielaard	04e90e	`+ case 16: return Ity_I128;`
Mark Wielaard	04e90e	`case 8: return Ity_I64;`
Mark Wielaard	04e90e	`case 4: return Ity_I32;`
Mark Wielaard	04e90e	`case 2: return Ity_I16;`
Mark Wielaard	04e90e	`diff --git a/VEX/pub/libvex_guest_arm64.h b/VEX/pub/libvex_guest_arm64.h`
Mark Wielaard	04e90e	`index 39b6ecdc2..91d06bd75 100644`
Mark Wielaard	04e90e	`--- a/VEX/pub/libvex_guest_arm64.h`
Mark Wielaard	04e90e	`+++ b/VEX/pub/libvex_guest_arm64.h`
Mark Wielaard	04e90e	`@@ -157,14 +157,18 @@ typedef`
Mark Wielaard	04e90e	`note of bits 23 and 22. */`
Mark Wielaard	04e90e	`UInt guest_FPCR;`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`- /* Fallback LL/SC support. See bugs 344524 and 369459. */`
Mark Wielaard	04e90e	`- ULong guest_LLSC_SIZE; // 0==no current transaction, else 1,2,4 or 8.`
Mark Wielaard	04e90e	`+ /* Fallback LL/SC support. See bugs 344524 and 369459. _LO64 and _HI64`
Mark Wielaard	04e90e	`+ contain the original contents of _ADDR+0 .. _ADDR+15, but only _SIZE`
Mark Wielaard	04e90e	`+ number of bytes of it. The remaining 16-_SIZE bytes of them must be`
Mark Wielaard	04e90e	`+ zero. */`
Mark Wielaard	04e90e	`+ ULong guest_LLSC_SIZE; // 0==no current transaction, else 1,2,4,8 or 16.`
Mark Wielaard	04e90e	`ULong guest_LLSC_ADDR; // Address of transaction.`
Mark Wielaard	04e90e	`- ULong guest_LLSC_DATA; // Original value at _ADDR, zero-extended.`
Mark Wielaard	04e90e	`+ ULong guest_LLSC_DATA_LO64; // Original value at _ADDR+0.`
Mark Wielaard	04e90e	`+ ULong guest_LLSC_DATA_HI64; // Original value at _ADDR+8.`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`/* Padding to make it have an 16-aligned size */`
Mark Wielaard	04e90e	`/* UInt pad_end_0; */`
Mark Wielaard	04e90e	`- ULong pad_end_1;`
Mark Wielaard	04e90e	`+ /* ULong pad_end_1; */`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e	`VexGuestARM64State;`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`diff --git a/VEX/pub/libvex_ir.h b/VEX/pub/libvex_ir.h`
Mark Wielaard	04e90e	`index deaa044c1..85805bb69 100644`
Mark Wielaard	04e90e	`--- a/VEX/pub/libvex_ir.h`
Mark Wielaard	04e90e	`+++ b/VEX/pub/libvex_ir.h`
Mark Wielaard	04e90e	`@@ -269,6 +269,8 @@ typedef`
Mark Wielaard	04e90e	`Ico_U16,`
Mark Wielaard	04e90e	`Ico_U32,`
Mark Wielaard	04e90e	`Ico_U64,`
Mark Wielaard	04e90e	`+ Ico_U128, /* 128-bit restricted integer constant,`
Mark Wielaard	04e90e	`+ same encoding scheme as V128 */`
Mark Wielaard	04e90e	`Ico_F32, /* 32-bit IEEE754 floating */`
Mark Wielaard	04e90e	`Ico_F32i, /* 32-bit unsigned int to be interpreted literally`
Mark Wielaard	04e90e	`as a IEEE754 single value. */`
Mark Wielaard	04e90e	`@@ -295,6 +297,7 @@ typedef`
Mark Wielaard	04e90e	`UShort U16;`
Mark Wielaard	04e90e	`UInt U32;`
Mark Wielaard	04e90e	`ULong U64;`
Mark Wielaard	04e90e	`+ UShort U128;`
Mark Wielaard	04e90e	`Float F32;`
Mark Wielaard	04e90e	`UInt F32i;`
Mark Wielaard	04e90e	`Double F64;`
Mark Wielaard	04e90e	`@@ -311,6 +314,7 @@ extern IRConst* IRConst_U8 ( UChar );`
Mark Wielaard	04e90e	`extern IRConst* IRConst_U16 ( UShort );`
Mark Wielaard	04e90e	`extern IRConst* IRConst_U32 ( UInt );`
Mark Wielaard	04e90e	`extern IRConst* IRConst_U64 ( ULong );`
Mark Wielaard	04e90e	`+extern IRConst* IRConst_U128 ( UShort );`
Mark Wielaard	04e90e	`extern IRConst* IRConst_F32 ( Float );`
Mark Wielaard	04e90e	`extern IRConst* IRConst_F32i ( UInt );`
Mark Wielaard	04e90e	`extern IRConst* IRConst_F64 ( Double );`
Mark Wielaard	04e90e	`diff --git a/memcheck/mc_machine.c b/memcheck/mc_machine.c`
Mark Wielaard	04e90e	`index 919c7fae8..176c8e5cb 100644`
Mark Wielaard	04e90e	`--- a/memcheck/mc_machine.c`
Mark Wielaard	04e90e	`+++ b/memcheck/mc_machine.c`
Mark Wielaard	04e90e	`@@ -1115,9 +1115,10 @@ static Int get_otrack_shadow_offset_wrk ( Int offset, Int szB )`
Mark Wielaard	04e90e	`if (o == GOF(CMSTART) && sz == 8) return -1; // untracked`
Mark Wielaard	04e90e	`if (o == GOF(CMLEN) && sz == 8) return -1; // untracked`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`- if (o == GOF(LLSC_SIZE) && sz == 8) return -1; // untracked`
Mark Wielaard	04e90e	`- if (o == GOF(LLSC_ADDR) && sz == 8) return o;`
Mark Wielaard	04e90e	`- if (o == GOF(LLSC_DATA) && sz == 8) return o;`
Mark Wielaard	04e90e	`+ if (o == GOF(LLSC_SIZE) && sz == 8) return -1; // untracked`
Mark Wielaard	04e90e	`+ if (o == GOF(LLSC_ADDR) && sz == 8) return o;`
Mark Wielaard	04e90e	`+ if (o == GOF(LLSC_DATA_LO64) && sz == 8) return o;`
Mark Wielaard	04e90e	`+ if (o == GOF(LLSC_DATA_HI64) && sz == 8) return o;`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`VG_(printf)("MC_(get_otrack_shadow_offset)(arm64)(off=%d,sz=%d)\n",`
Mark Wielaard	04e90e	`offset,szB);`
Mark Wielaard	04e90e	`diff --git a/memcheck/mc_translate.c b/memcheck/mc_translate.c`
Mark Wielaard	04e90e	`index c6fd2653f..72ccb3c8c 100644`
Mark Wielaard	04e90e	`--- a/memcheck/mc_translate.c`
Mark Wielaard	04e90e	`+++ b/memcheck/mc_translate.c`
Mark Wielaard	04e90e	`@@ -5497,8 +5497,11 @@ IRAtom* expr2vbits_Load_WRK ( MCEnv* mce,`
Mark Wielaard	04e90e	`the address (shadow) to 'defined' following the test. */`
Mark Wielaard	04e90e	`complainIfUndefined( mce, addr, guard );`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`- /* Now cook up a call to the relevant helper function, to read the`
Mark Wielaard	04e90e	`- data V bits from shadow memory. */`
Mark Wielaard	04e90e	`+ /* Now cook up a call to the relevant helper function, to read the data V`
Mark Wielaard	04e90e	`+ bits from shadow memory. Note that I128 loads are done by pretending`
Mark Wielaard	04e90e	`+ we're doing a V128 load, and then converting the resulting V128 vbits`
Mark Wielaard	04e90e	+ word to an I128, right at the end of this function -- see `castedToI128`
Mark Wielaard	04e90e	`+ below. (It's only a minor hack :-) This pertains to bug 444399. */`
Mark Wielaard	04e90e	`ty = shadowTypeV(ty);`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`void* helper = NULL;`
Mark Wielaard	04e90e	`@@ -5511,6 +5514,7 @@ IRAtom* expr2vbits_Load_WRK ( MCEnv* mce,`
Mark Wielaard	04e90e	`hname = "MC_(helperc_LOADV256le)";`
Mark Wielaard	04e90e	`ret_via_outparam = True;`
Mark Wielaard	04e90e	`break;`
Mark Wielaard	04e90e	`+ case Ity_I128: // fallthrough. See comment above.`
Mark Wielaard	04e90e	`case Ity_V128: helper = &MC_(helperc_LOADV128le);`
Mark Wielaard	04e90e	`hname = "MC_(helperc_LOADV128le)";`
Mark Wielaard	04e90e	`ret_via_outparam = True;`
Mark Wielaard	04e90e	`@@ -5576,7 +5580,7 @@ IRAtom* expr2vbits_Load_WRK ( MCEnv* mce,`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`/* We need to have a place to park the V bits we're just about to`
Mark Wielaard	04e90e	`read. */`
Mark Wielaard	04e90e	`- IRTemp datavbits = newTemp(mce, ty, VSh);`
Mark Wielaard	04e90e	`+ IRTemp datavbits = newTemp(mce, ty == Ity_I128 ? Ity_V128 : ty, VSh);`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`/* Here's the call. */`
Mark Wielaard	04e90e	`IRDirty* di;`
Mark Wielaard	04e90e	`@@ -5603,7 +5607,14 @@ IRAtom* expr2vbits_Load_WRK ( MCEnv* mce,`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e	`stmt( 'V', mce, IRStmt_Dirty(di) );`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`- return mkexpr(datavbits);`
Mark Wielaard	04e90e	`+ if (ty == Ity_I128) {`
Mark Wielaard	04e90e	`+ IRAtom* castedToI128`
Mark Wielaard	04e90e	`+ = assignNew('V', mce, Ity_I128,`
Mark Wielaard	04e90e	`+ unop(Iop_ReinterpV128asI128, mkexpr(datavbits)));`
Mark Wielaard	04e90e	`+ return castedToI128;`
Mark Wielaard	04e90e	`+ } else {`
Mark Wielaard	04e90e	`+ return mkexpr(datavbits);`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`@@ -5631,6 +5642,7 @@ IRAtom* expr2vbits_Load ( MCEnv* mce,`
Mark Wielaard	04e90e	`case Ity_I16:`
Mark Wielaard	04e90e	`case Ity_I32:`
Mark Wielaard	04e90e	`case Ity_I64:`
Mark Wielaard	04e90e	`+ case Ity_I128:`
Mark Wielaard	04e90e	`case Ity_V128:`
Mark Wielaard	04e90e	`case Ity_V256:`
Mark Wielaard	04e90e	`return expr2vbits_Load_WRK(mce, end, ty, addr, bias, guard);`
Mark Wielaard	04e90e	`@@ -5928,6 +5940,7 @@ void do_shadow_Store ( MCEnv* mce,`
Mark Wielaard	04e90e	`c = IRConst_V256(V_BITS32_DEFINED); break;`
Mark Wielaard	04e90e	`case Ity_V128: // V128 weirdness -- used twice`
Mark Wielaard	04e90e	`c = IRConst_V128(V_BITS16_DEFINED); break;`
Mark Wielaard	04e90e	`+ case Ity_I128: c = IRConst_U128(V_BITS16_DEFINED); break;`
Mark Wielaard	04e90e	`case Ity_I64: c = IRConst_U64 (V_BITS64_DEFINED); break;`
Mark Wielaard	04e90e	`case Ity_I32: c = IRConst_U32 (V_BITS32_DEFINED); break;`
Mark Wielaard	04e90e	`case Ity_I16: c = IRConst_U16 (V_BITS16_DEFINED); break;`
Mark Wielaard	04e90e	`@@ -5948,6 +5961,7 @@ void do_shadow_Store ( MCEnv* mce,`
Mark Wielaard	04e90e	`switch (ty) {`
Mark Wielaard	04e90e	`case Ity_V256: /* we'll use the helper four times */`
Mark Wielaard	04e90e	`case Ity_V128: /* we'll use the helper twice */`
Mark Wielaard	04e90e	`+ case Ity_I128: /* we'll use the helper twice */`
Mark Wielaard	04e90e	`case Ity_I64: helper = &MC_(helperc_STOREV64le);`
Mark Wielaard	04e90e	`hname = "MC_(helperc_STOREV64le)";`
Mark Wielaard	04e90e	`break;`
Mark Wielaard	04e90e	`@@ -6051,9 +6065,9 @@ void do_shadow_Store ( MCEnv* mce,`
Mark Wielaard	04e90e	`stmt( 'V', mce, IRStmt_Dirty(diQ3) );`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e	`- else if (UNLIKELY(ty == Ity_V128)) {`
Mark Wielaard	04e90e	`+ else if (UNLIKELY(ty == Ity_V128 \|\| ty == Ity_I128)) {`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`- /* V128-bit case */`
Mark Wielaard	04e90e	`+ /* V128/I128-bit case */`
Mark Wielaard	04e90e	`/* See comment in next clause re 64-bit regparms */`
Mark Wielaard	04e90e	`/* also, need to be careful about endianness */`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`@@ -6062,6 +6076,7 @@ void do_shadow_Store ( MCEnv* mce,`
Mark Wielaard	04e90e	`IRAtom addrLo64, addrHi64;`
Mark Wielaard	04e90e	`IRAtom vdataLo64, vdataHi64;`
Mark Wielaard	04e90e	`IRAtom eBiasLo64, eBiasHi64;`
Mark Wielaard	04e90e	`+ IROp opGetLO64, opGetHI64;`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`if (end == Iend_LE) {`
Mark Wielaard	04e90e	`offLo64 = 0;`
Mark Wielaard	04e90e	`@@ -6071,9 +6086,17 @@ void do_shadow_Store ( MCEnv* mce,`
Mark Wielaard	04e90e	`offHi64 = 0;`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`+ if (ty == Ity_V128) {`
Mark Wielaard	04e90e	`+ opGetLO64 = Iop_V128to64;`
Mark Wielaard	04e90e	`+ opGetHI64 = Iop_V128HIto64;`
Mark Wielaard	04e90e	`+ } else {`
Mark Wielaard	04e90e	`+ opGetLO64 = Iop_128to64;`
Mark Wielaard	04e90e	`+ opGetHI64 = Iop_128HIto64;`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`eBiasLo64 = tyAddr==Ity_I32 ? mkU32(bias+offLo64) : mkU64(bias+offLo64);`
Mark Wielaard	04e90e	`addrLo64 = assignNew('V', mce, tyAddr, binop(mkAdd, addr, eBiasLo64) );`
Mark Wielaard	04e90e	`- vdataLo64 = assignNew('V', mce, Ity_I64, unop(Iop_V128to64, vdata));`
Mark Wielaard	04e90e	`+ vdataLo64 = assignNew('V', mce, Ity_I64, unop(opGetLO64, vdata));`
Mark Wielaard	04e90e	`diLo64 = unsafeIRDirty_0_N(`
Mark Wielaard	04e90e	`1/regparms/,`
Mark Wielaard	04e90e	`hname, VG_(fnptr_to_fnentry)( helper ),`
Mark Wielaard	04e90e	`@@ -6081,7 +6104,7 @@ void do_shadow_Store ( MCEnv* mce,`
Mark Wielaard	04e90e	`);`
Mark Wielaard	04e90e	`eBiasHi64 = tyAddr==Ity_I32 ? mkU32(bias+offHi64) : mkU64(bias+offHi64);`
Mark Wielaard	04e90e	`addrHi64 = assignNew('V', mce, tyAddr, binop(mkAdd, addr, eBiasHi64) );`
Mark Wielaard	04e90e	`- vdataHi64 = assignNew('V', mce, Ity_I64, unop(Iop_V128HIto64, vdata));`
Mark Wielaard	04e90e	`+ vdataHi64 = assignNew('V', mce, Ity_I64, unop(opGetHI64, vdata));`
Mark Wielaard	04e90e	`diHi64 = unsafeIRDirty_0_N(`
Mark Wielaard	04e90e	`1/regparms/,`
Mark Wielaard	04e90e	`hname, VG_(fnptr_to_fnentry)( helper ),`
Mark Wielaard	04e90e	`@@ -6888,7 +6911,7 @@ static void do_shadow_LLSC ( MCEnv* mce,`
Mark Wielaard	04e90e	`/* Just treat this as a normal load, followed by an assignment of`
Mark Wielaard	04e90e	`the value to .result. */`
Mark Wielaard	04e90e	`/* Stay sane */`
Mark Wielaard	04e90e	`- tl_assert(resTy == Ity_I64 \|\| resTy == Ity_I32`
Mark Wielaard	04e90e	`+ tl_assert(resTy == Ity_I128 \|\| resTy == Ity_I64 \|\| resTy == Ity_I32`
Mark Wielaard	04e90e	`\|\| resTy == Ity_I16 \|\| resTy == Ity_I8);`
Mark Wielaard	04e90e	`assign( 'V', mce, resTmp,`
Mark Wielaard	04e90e	`expr2vbits_Load(`
Mark Wielaard	04e90e	`@@ -6899,7 +6922,7 @@ static void do_shadow_LLSC ( MCEnv* mce,`
Mark Wielaard	04e90e	`/* Stay sane */`
Mark Wielaard	04e90e	`IRType dataTy = typeOfIRExpr(mce->sb->tyenv,`
Mark Wielaard	04e90e	`stStoredata);`
Mark Wielaard	04e90e	`- tl_assert(dataTy == Ity_I64 \|\| dataTy == Ity_I32`
Mark Wielaard	04e90e	`+ tl_assert(dataTy == Ity_I128 \|\| dataTy == Ity_I64 \|\| dataTy == Ity_I32`
Mark Wielaard	04e90e	`\|\| dataTy == Ity_I16 \|\| dataTy == Ity_I8);`
Mark Wielaard	04e90e	`do_shadow_Store( mce, stEnd,`
Mark Wielaard	04e90e	`stAddr, 0/* addr bias */,`
Mark Wielaard	04e90e	`@@ -7684,7 +7707,7 @@ static void schemeS ( MCEnv* mce, IRStmt* st )`
Mark Wielaard	04e90e	`= typeOfIRTemp(mce->sb->tyenv, st->Ist.LLSC.result);`
Mark Wielaard	04e90e	`IRExpr* vanillaLoad`
Mark Wielaard	04e90e	`= IRExpr_Load(st->Ist.LLSC.end, resTy, st->Ist.LLSC.addr);`
Mark Wielaard	04e90e	`- tl_assert(resTy == Ity_I64 \|\| resTy == Ity_I32`
Mark Wielaard	04e90e	`+ tl_assert(resTy == Ity_I128 \|\| resTy == Ity_I64 \|\| resTy == Ity_I32`
Mark Wielaard	04e90e	`\|\| resTy == Ity_I16 \|\| resTy == Ity_I8);`
Mark Wielaard	04e90e	`assign( 'B', mce, findShadowTmpB(mce, st->Ist.LLSC.result),`
Mark Wielaard	04e90e	`schemeE(mce, vanillaLoad));`
Mark Wielaard	04e90e	`diff --git a/memcheck/tests/Makefile.am b/memcheck/tests/Makefile.am`
Mark Wielaard	04e90e	`index 449710020..2b43ef7d7 100644`
Mark Wielaard	04e90e	`--- a/memcheck/tests/Makefile.am`
Mark Wielaard	04e90e	`+++ b/memcheck/tests/Makefile.am`
Mark Wielaard	04e90e	`@@ -90,6 +90,7 @@ EXTRA_DIST = \`
Mark Wielaard	04e90e	`addressable.stderr.exp addressable.stdout.exp addressable.vgtest \`
Mark Wielaard	04e90e	`atomic_incs.stderr.exp atomic_incs.vgtest \`
Mark Wielaard	04e90e	`atomic_incs.stdout.exp-32bit atomic_incs.stdout.exp-64bit \`
Mark Wielaard	04e90e	`+ atomic_incs.stdout.exp-64bit-and-128bit \`
Mark Wielaard	04e90e	`badaddrvalue.stderr.exp \`
Mark Wielaard	04e90e	`badaddrvalue.stdout.exp badaddrvalue.vgtest \`
Mark Wielaard	04e90e	`exit_on_first_error.stderr.exp \`
Mark Wielaard	04e90e	`diff --git a/memcheck/tests/atomic_incs.c b/memcheck/tests/atomic_incs.c`
Mark Wielaard	04e90e	`index f931750f4..1c738c530 100644`
Mark Wielaard	04e90e	`--- a/memcheck/tests/atomic_incs.c`
Mark Wielaard	04e90e	`+++ b/memcheck/tests/atomic_incs.c`
Mark Wielaard	04e90e	`@@ -22,6 +22,17 @@`
Mark Wielaard	04e90e	`#define NNN 3456987`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`#define IS_8_ALIGNED(_ptr) (0 == (((unsigned long)(_ptr)) & 7))`
Mark Wielaard	04e90e	`+#define IS_16_ALIGNED(_ptr) (0 == (((unsigned long)(_ptr)) & 15))`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+// U128 from libvex_basictypes.h is a 4-x-UInt array, which is a bit`
Mark Wielaard	04e90e	`+// inconvenient, hence:`
Mark Wielaard	04e90e	`+typedef`
Mark Wielaard	04e90e	`+ struct {`
Mark Wielaard	04e90e	`+ // assuming little-endianness`
Mark Wielaard	04e90e	`+ unsigned long long int lo64;`
Mark Wielaard	04e90e	`+ unsigned long long int hi64;`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`+ MyU128;`
Mark Wielaard	04e90e
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`__attribute__((noinline)) void atomic_add_8bit ( char* p, int n )`
Mark Wielaard	04e90e	`@@ -712,6 +723,40 @@ __attribute__((noinline)) void atomic_add_64bit ( long long int* p, int n )`
Mark Wielaard	04e90e	`#endif`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`+__attribute__((noinline)) void atomic_add_128bit ( MyU128* p,`
Mark Wielaard	04e90e	`+ unsigned long long int n )`
Mark Wielaard	04e90e	`+{`
Mark Wielaard	04e90e	`+#if defined(VGA_x86) \|\| defined(VGA_ppc32) \|\| defined(VGA_mips32) \`
Mark Wielaard	04e90e	`+ \|\| defined (VGA_nanomips) \|\| defined(VGA_mips64) \`
Mark Wielaard	04e90e	`+ \|\| defined(VGA_amd64) \`
Mark Wielaard	04e90e	`+ \|\| defined(VGA_ppc64be) \|\| defined(VGA_ppc64le) \`
Mark Wielaard	04e90e	`+ \|\| defined(VGA_arm) \`
Mark Wielaard	04e90e	`+ \|\| defined(VGA_s390x)`
Mark Wielaard	04e90e	`+ /* do nothing; is not supported */`
Mark Wielaard	04e90e	`+#elif defined(VGA_arm64)`
Mark Wielaard	04e90e	`+ unsigned long long int block[3]`
Mark Wielaard	04e90e	`+ = { (unsigned long long int)p, (unsigned long long int)n,`
Mark Wielaard	04e90e	`+ 0xFFFFFFFFFFFFFFFFULL};`
Mark Wielaard	04e90e	`+ do {`
Mark Wielaard	04e90e	`+ __asm__ __volatile__(`
Mark Wielaard	04e90e	`+ "mov x5, %0" "\n\t" // &block[0]`
Mark Wielaard	04e90e	`+ "ldr x9, [x5, #0]" "\n\t" // p`
Mark Wielaard	04e90e	`+ "ldr x10, [x5, #8]" "\n\t" // n`
Mark Wielaard	04e90e	`+ "ldxp x7, x8, [x9]" "\n\t"`
Mark Wielaard	04e90e	`+ "adds x7, x7, x10" "\n\t"`
Mark Wielaard	04e90e	`+ "adc x8, x8, xzr" "\n\t"`
Mark Wielaard	04e90e	`+ "stxp w4, x7, x8, [x9]" "\n\t"`
Mark Wielaard	04e90e	`+ "str x4, [x5, #16]" "\n\t"`
Mark Wielaard	04e90e	`+ : /out/`
Mark Wielaard	04e90e	`+ : /in/ "r"(&block[0])`
Mark Wielaard	04e90e	`+ : /trash/ "memory", "cc", "x5", "x7", "x8", "x9", "x10", "x4"`
Mark Wielaard	04e90e	`+ );`
Mark Wielaard	04e90e	`+ } while (block[2] != 0);`
Mark Wielaard	04e90e	`+#else`
Mark Wielaard	04e90e	`+# error "Unsupported arch"`
Mark Wielaard	04e90e	`+#endif`
Mark Wielaard	04e90e	`+}`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`int main ( int argc, char** argv )`
Mark Wielaard	04e90e	`{`
Mark Wielaard	04e90e	`int i, status;`
Mark Wielaard	04e90e	`@@ -720,8 +765,12 @@ int main ( int argc, char** argv )`
Mark Wielaard	04e90e	`short* p16;`
Mark Wielaard	04e90e	`int* p32;`
Mark Wielaard	04e90e	`long long int* p64;`
Mark Wielaard	04e90e	`+ MyU128* p128;`
Mark Wielaard	04e90e	`pid_t child, p2;`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`+ assert(sizeof(MyU128) == 16);`
Mark Wielaard	04e90e	`+ assert(sysconf(_SC_PAGESIZE) >= 4096);`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`printf("parent, pre-fork\n");`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`page = mmap( 0, sysconf(_SC_PAGESIZE),`
Mark Wielaard	04e90e	`@@ -736,11 +785,13 @@ int main ( int argc, char** argv )`
Mark Wielaard	04e90e	`p16 = (short*)(page+256);`
Mark Wielaard	04e90e	`p32 = (int*)(page+512);`
Mark Wielaard	04e90e	`p64 = (long long int*)(page+768);`
Mark Wielaard	04e90e	`+ p128 = (MyU128*)(page+1024);`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`assert( IS_8_ALIGNED(p8) );`
Mark Wielaard	04e90e	`assert( IS_8_ALIGNED(p16) );`
Mark Wielaard	04e90e	`assert( IS_8_ALIGNED(p32) );`
Mark Wielaard	04e90e	`assert( IS_8_ALIGNED(p64) );`
Mark Wielaard	04e90e	`+ assert( IS_16_ALIGNED(p128) );`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`memset(page, 0, 1024);`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`@@ -748,6 +799,7 @@ int main ( int argc, char** argv )`
Mark Wielaard	04e90e	`*p16 = 0;`
Mark Wielaard	04e90e	`*p32 = 0;`
Mark Wielaard	04e90e	`*p64 = 0;`
Mark Wielaard	04e90e	`+ p128->lo64 = p128->hi64 = 0;`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`child = fork();`
Mark Wielaard	04e90e	`if (child == -1) {`
Mark Wielaard	04e90e	`@@ -763,6 +815,7 @@ int main ( int argc, char** argv )`
Mark Wielaard	04e90e	`atomic_add_16bit(p16, 1);`
Mark Wielaard	04e90e	`atomic_add_32bit(p32, 1);`
Mark Wielaard	04e90e	`atomic_add_64bit(p64, 98765 ); /* ensure we hit the upper 32 bits */`
Mark Wielaard	04e90e	`+ atomic_add_128bit(p128, 0x1000000013374771ULL); // ditto re upper 64`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e	`return 1;`
Mark Wielaard	04e90e	`/* NOTREACHED */`
Mark Wielaard	04e90e	`@@ -778,6 +831,7 @@ int main ( int argc, char** argv )`
Mark Wielaard	04e90e	`atomic_add_16bit(p16, 1);`
Mark Wielaard	04e90e	`atomic_add_32bit(p32, 1);`
Mark Wielaard	04e90e	`atomic_add_64bit(p64, 98765 ); /* ensure we hit the upper 32 bits */`
Mark Wielaard	04e90e	`+ atomic_add_128bit(p128, 0x1000000013374771ULL); // ditto re upper 64`
Mark Wielaard	04e90e	`}`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`p2 = waitpid(child, &status, 0);`
Mark Wielaard	04e90e	`@@ -788,11 +842,17 @@ int main ( int argc, char** argv )`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`printf("FINAL VALUES: 8 bit %d, 16 bit %d, 32 bit %d, 64 bit %lld\n",`
Mark Wielaard	04e90e	`(int)((signed char)p8), (int)(p16), p32, *p64 );`
Mark Wielaard	04e90e	`+ printf(" 128 bit 0x%016llx:0x%016llx\n",`
Mark Wielaard	04e90e	`+ p128->hi64, p128->lo64);`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`if (-74 == (int)((signed char)p8)`
Mark Wielaard	04e90e	`&& 32694 == (int)(*p16)`
Mark Wielaard	04e90e	`&& 6913974 == *p32`
Mark Wielaard	04e90e	`- && (0LL == p64 \|\| 682858642110LL == p64)) {`
Mark Wielaard	04e90e	`+ && (0LL == p64 \|\| 682858642110LL == p64)`
Mark Wielaard	04e90e	`+ && ((0 == p128->hi64 && 0 == p128->lo64)`
Mark Wielaard	04e90e	`+ \|\| (0x00000000000697fb == p128->hi64`
Mark Wielaard	04e90e	`+ && 0x6007eb426316d956ULL == p128->lo64))`
Mark Wielaard	04e90e	`+ ) {`
Mark Wielaard	04e90e	`printf("PASS\n");`
Mark Wielaard	04e90e	`} else {`
Mark Wielaard	04e90e	`printf("FAIL -- see source code for expected values\n");`
Mark Wielaard	04e90e	`diff --git a/memcheck/tests/atomic_incs.stdout.exp-32bit b/memcheck/tests/atomic_incs.stdout.exp-32bit`
Mark Wielaard	04e90e	`index c5b8781e5..55e5044b5 100644`
Mark Wielaard	04e90e	`--- a/memcheck/tests/atomic_incs.stdout.exp-32bit`
Mark Wielaard	04e90e	`+++ b/memcheck/tests/atomic_incs.stdout.exp-32bit`
Mark Wielaard	04e90e	`@@ -3,5 +3,6 @@ child`
Mark Wielaard	04e90e	`parent, pre-fork`
Mark Wielaard	04e90e	`parent`
Mark Wielaard	04e90e	`FINAL VALUES: 8 bit -74, 16 bit 32694, 32 bit 6913974, 64 bit 0`
Mark Wielaard	04e90e	`+ 128 bit 0x0000000000000000:0x0000000000000000`
Mark Wielaard	04e90e	`PASS`
Mark Wielaard	04e90e	`parent exits`
Mark Wielaard	04e90e	`diff --git a/memcheck/tests/atomic_incs.stdout.exp-64bit b/memcheck/tests/atomic_incs.stdout.exp-64bit`
Mark Wielaard	04e90e	`index 82405c520..ca2f4fc97 100644`
Mark Wielaard	04e90e	`--- a/memcheck/tests/atomic_incs.stdout.exp-64bit`
Mark Wielaard	04e90e	`+++ b/memcheck/tests/atomic_incs.stdout.exp-64bit`
Mark Wielaard	04e90e	`@@ -3,5 +3,6 @@ child`
Mark Wielaard	04e90e	`parent, pre-fork`
Mark Wielaard	04e90e	`parent`
Mark Wielaard	04e90e	`FINAL VALUES: 8 bit -74, 16 bit 32694, 32 bit 6913974, 64 bit 682858642110`
Mark Wielaard	04e90e	`+ 128 bit 0x0000000000000000:0x0000000000000000`
Mark Wielaard	04e90e	`PASS`
Mark Wielaard	04e90e	`parent exits`
Mark Wielaard	04e90e	`diff --git a/memcheck/tests/atomic_incs.stdout.exp-64bit-and-128bit b/memcheck/tests/atomic_incs.stdout.exp-64bit-and-128bit`
Mark Wielaard	04e90e	`new file mode 100644`
Mark Wielaard	04e90e	`index 000000000..ef6580917`
Mark Wielaard	04e90e	`--- /dev/null`
Mark Wielaard	04e90e	`+++ b/memcheck/tests/atomic_incs.stdout.exp-64bit-and-128bit`
Mark Wielaard	04e90e	`@@ -0,0 +1,8 @@`
Mark Wielaard	04e90e	`+parent, pre-fork`
Mark Wielaard	04e90e	`+child`
Mark Wielaard	04e90e	`+parent, pre-fork`
Mark Wielaard	04e90e	`+parent`
Mark Wielaard	04e90e	`+FINAL VALUES: 8 bit -74, 16 bit 32694, 32 bit 6913974, 64 bit 682858642110`
Mark Wielaard	04e90e	`+ 128 bit 0x00000000000697fb:0x6007eb426316d956`
Mark Wielaard	04e90e	`+PASS`
Mark Wielaard	04e90e	`+parent exits`
Mark Wielaard	04e90e	`diff --git a/none/tests/arm64/Makefile.am b/none/tests/arm64/Makefile.am`
Mark Wielaard	04e90e	`index 00cbfa52c..9efb49b27 100644`
Mark Wielaard	04e90e	`--- a/none/tests/arm64/Makefile.am`
Mark Wielaard	04e90e	`+++ b/none/tests/arm64/Makefile.am`
Mark Wielaard	04e90e	`@@ -12,7 +12,10 @@ EXTRA_DIST = \`
Mark Wielaard	04e90e	`atomics_v81.stdout.exp atomics_v81.stderr.exp atomics_v81.vgtest \`
Mark Wielaard	04e90e	`simd_v81.stdout.exp simd_v81.stderr.exp simd_v81.vgtest \`
Mark Wielaard	04e90e	`fmadd_sub.stdout.exp fmadd_sub.stderr.exp fmadd_sub.vgtest \`
Mark Wielaard	04e90e	`- fp_and_simd_v82.stdout.exp fp_and_simd_v82.stderr.exp fp_and_simd_v82.vgtest`
Mark Wielaard	04e90e	`+ fp_and_simd_v82.stdout.exp fp_and_simd_v82.stderr.exp \`
Mark Wielaard	04e90e	`+ fp_and_simd_v82.vgtest \`
Mark Wielaard	04e90e	`+ ldxp_stxp.stdout.exp ldxp_stxp.stderr.exp \`
Mark Wielaard	04e90e	`+ ldxp_stxp_basisimpl.vgtest ldxp_stxp_fallbackimpl.vgtest`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`check_PROGRAMS = \`
Mark Wielaard	04e90e	`allexec \`
Mark Wielaard	04e90e	`@@ -20,7 +23,8 @@ check_PROGRAMS = \`
Mark Wielaard	04e90e	`fp_and_simd \`
Mark Wielaard	04e90e	`integer \`
Mark Wielaard	04e90e	`memory \`
Mark Wielaard	04e90e	`- fmadd_sub`
Mark Wielaard	04e90e	`+ fmadd_sub \`
Mark Wielaard	04e90e	`+ ldxp_stxp`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`if BUILD_ARMV8_CRC_TESTS`
Mark Wielaard	04e90e	`check_PROGRAMS += crc32`
Mark Wielaard	04e90e	`diff --git a/none/tests/arm64/ldxp_stxp.c b/none/tests/arm64/ldxp_stxp.c`
Mark Wielaard	04e90e	`new file mode 100644`
Mark Wielaard	04e90e	`index 000000000..b5f6ea121`
Mark Wielaard	04e90e	`--- /dev/null`
Mark Wielaard	04e90e	`+++ b/none/tests/arm64/ldxp_stxp.c`
Mark Wielaard	04e90e	`@@ -0,0 +1,93 @@`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+/* Note, this is only a basic smoke test of LD{A}XP and ST{L}XP. Their`
Mark Wielaard	04e90e	`+ atomicity properties are tested by memcheck/tests/atomic_incs.c. */`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+#include <stdio.h>`
Mark Wielaard	04e90e	`+#include <stdlib.h>`
Mark Wielaard	04e90e	`+#include <malloc.h>`
Mark Wielaard	04e90e	`+#include <assert.h>`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+typedef unsigned int UInt;`
Mark Wielaard	04e90e	`+typedef unsigned long long int ULong;`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+void initBlock ( ULong* block )`
Mark Wielaard	04e90e	`+{`
Mark Wielaard	04e90e	`+ block[0] = 0x0001020304050607ULL;`
Mark Wielaard	04e90e	`+ block[1] = 0x1011121314151617ULL;`
Mark Wielaard	04e90e	`+ block[2] = 0x2021222324252627ULL;`
Mark Wielaard	04e90e	`+ block[3] = 0x3031323334353637ULL;`
Mark Wielaard	04e90e	`+ block[4] = 0x4041424344454647ULL;`
Mark Wielaard	04e90e	`+ block[5] = 0x5051525354555657ULL;`
Mark Wielaard	04e90e	`+}`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+void printBlock ( const char* who,`
Mark Wielaard	04e90e	`+ ULong* block, ULong rt1contents, ULong rt2contents,`
Mark Wielaard	04e90e	`+ UInt zeroIfSuccess )`
Mark Wielaard	04e90e	`+{`
Mark Wielaard	04e90e	`+ printf("Block %s (%s)\n", who, zeroIfSuccess == 0 ? "success" : "FAILURE" );`
Mark Wielaard	04e90e	`+ for (int i = 0; i < 6; i++) {`
Mark Wielaard	04e90e	`+ printf("0x%016llx\n", block[i]);`
Mark Wielaard	04e90e	`+ }`
Mark Wielaard	04e90e	`+ printf("0x%016llx rt1contents\n", rt1contents);`
Mark Wielaard	04e90e	`+ printf("0x%016llx rt2contents\n", rt2contents);`
Mark Wielaard	04e90e	`+ printf("\n");`
Mark Wielaard	04e90e	`+}`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+int main ( void )`
Mark Wielaard	04e90e	`+{`
Mark Wielaard	04e90e	`+ ULong* block = memalign(16, 6 * sizeof(ULong));`
Mark Wielaard	04e90e	`+ assert(block);`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+ ULong rt1in, rt2in, rt1out, rt2out;`
Mark Wielaard	04e90e	`+ UInt scRes;`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+ // Do ldxp then stxp with x-registers`
Mark Wielaard	04e90e	`+ initBlock(block);`
Mark Wielaard	04e90e	`+ rt1in = 0x5555666677778888ULL;`
Mark Wielaard	04e90e	`+ rt2in = 0xAAAA9999BBBB0000ULL;`
Mark Wielaard	04e90e	`+ rt1out = 0x1111222233334444ULL;`
Mark Wielaard	04e90e	`+ rt2out = 0xFFFFEEEEDDDDCCCCULL;`
Mark Wielaard	04e90e	`+ scRes = 0x55555555;`
Mark Wielaard	04e90e	`+ __asm__ __volatile__(`
Mark Wielaard	04e90e	`+ "ldxp %1, %2, [%5]" "\n\t"`
Mark Wielaard	04e90e	`+ "stxp %w0, %3, %4, [%5]" "\n\t"`
Mark Wielaard	04e90e	`+ : /OUT/`
Mark Wielaard	04e90e	`+ "=&r"(scRes), // %0`
Mark Wielaard	04e90e	`+ "=&r"(rt1out), // %1`
Mark Wielaard	04e90e	`+ "=&r"(rt2out) // %2`
Mark Wielaard	04e90e	`+ : /IN/`
Mark Wielaard	04e90e	`+ "r"(rt1in), // %3`
Mark Wielaard	04e90e	`+ "r"(rt2in), // %4`
Mark Wielaard	04e90e	`+ "r"(&block[2]) // %5`
Mark Wielaard	04e90e	`+ : /TRASH/`
Mark Wielaard	04e90e	`+ "memory","cc"`
Mark Wielaard	04e90e	`+ );`
Mark Wielaard	04e90e	`+ printBlock("after ldxp/stxp 2x64-bit", block, rt1out, rt2out, scRes);`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+ // Do ldxp then stxp with w-registers`
Mark Wielaard	04e90e	`+ initBlock(block);`
Mark Wielaard	04e90e	`+ rt1in = 0x5555666677778888ULL;`
Mark Wielaard	04e90e	`+ rt2in = 0xAAAA9999BBBB0000ULL;`
Mark Wielaard	04e90e	`+ rt1out = 0x1111222233334444ULL;`
Mark Wielaard	04e90e	`+ rt2out = 0xFFFFEEEEDDDDCCCCULL;`
Mark Wielaard	04e90e	`+ scRes = 0x55555555;`
Mark Wielaard	04e90e	`+ __asm__ __volatile__(`
Mark Wielaard	04e90e	`+ "ldxp %w1, %w2, [%5]" "\n\t"`
Mark Wielaard	04e90e	`+ "stxp %w0, %w3, %w4, [%5]" "\n\t"`
Mark Wielaard	04e90e	`+ : /OUT/`
Mark Wielaard	04e90e	`+ "=&r"(scRes), // %0`
Mark Wielaard	04e90e	`+ "=&r"(rt1out), // %1`
Mark Wielaard	04e90e	`+ "=&r"(rt2out) // %2`
Mark Wielaard	04e90e	`+ : /IN/`
Mark Wielaard	04e90e	`+ "r"(rt1in), // %3`
Mark Wielaard	04e90e	`+ "r"(rt2in), // %4`
Mark Wielaard	04e90e	`+ "r"(&block[2]) // %5`
Mark Wielaard	04e90e	`+ : /TRASH/`
Mark Wielaard	04e90e	`+ "memory","cc"`
Mark Wielaard	04e90e	`+ );`
Mark Wielaard	04e90e	`+ printBlock("after ldxp/stxp 2x32-bit", block, rt1out, rt2out, scRes);`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+ free(block);`
Mark Wielaard	04e90e	`+ return 0;`
Mark Wielaard	04e90e	`+}`
Mark Wielaard	04e90e	`diff --git a/none/tests/arm64/ldxp_stxp_basisimpl.stderr.exp b/none/tests/arm64/ldxp_stxp_basisimpl.stderr.exp`
Mark Wielaard	04e90e	`new file mode 100644`
Mark Wielaard	04e90e	`index 000000000..e69de29bb`
Mark Wielaard	04e90e	`diff --git a/none/tests/arm64/ldxp_stxp_basisimpl.stdout.exp b/none/tests/arm64/ldxp_stxp_basisimpl.stdout.exp`
Mark Wielaard	04e90e	`new file mode 100644`
Mark Wielaard	04e90e	`index 000000000..f269ecdcc`
Mark Wielaard	04e90e	`--- /dev/null`
Mark Wielaard	04e90e	`+++ b/none/tests/arm64/ldxp_stxp_basisimpl.stdout.exp`
Mark Wielaard	04e90e	`@@ -0,0 +1,20 @@`
Mark Wielaard	04e90e	`+Block after ldxp/stxp 2x64-bit (success)`
Mark Wielaard	04e90e	`+0x0001020304050607`
Mark Wielaard	04e90e	`+0x1011121314151617`
Mark Wielaard	04e90e	`+0x5555666677778888`
Mark Wielaard	04e90e	`+0xaaaa9999bbbb0000`
Mark Wielaard	04e90e	`+0x4041424344454647`
Mark Wielaard	04e90e	`+0x5051525354555657`
Mark Wielaard	04e90e	`+0x2021222324252627 rt1contents`
Mark Wielaard	04e90e	`+0x3031323334353637 rt2contents`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+Block after ldxp/stxp 2x32-bit (success)`
Mark Wielaard	04e90e	`+0x0001020304050607`
Mark Wielaard	04e90e	`+0x1011121314151617`
Mark Wielaard	04e90e	`+0xbbbb000077778888`
Mark Wielaard	04e90e	`+0x3031323334353637`
Mark Wielaard	04e90e	`+0x4041424344454647`
Mark Wielaard	04e90e	`+0x5051525354555657`
Mark Wielaard	04e90e	`+0x0000000024252627 rt1contents`
Mark Wielaard	04e90e	`+0x0000000020212223 rt2contents`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`diff --git a/none/tests/arm64/ldxp_stxp_basisimpl.vgtest b/none/tests/arm64/ldxp_stxp_basisimpl.vgtest`
Mark Wielaard	04e90e	`new file mode 100644`
Mark Wielaard	04e90e	`index 000000000..29133729a`
Mark Wielaard	04e90e	`--- /dev/null`
Mark Wielaard	04e90e	`+++ b/none/tests/arm64/ldxp_stxp_basisimpl.vgtest`
Mark Wielaard	04e90e	`@@ -0,0 +1,2 @@`
Mark Wielaard	04e90e	`+prog: ldxp_stxp`
Mark Wielaard	04e90e	`+vgopts: -q`
Mark Wielaard	04e90e	`diff --git a/none/tests/arm64/ldxp_stxp_fallbackimpl.stderr.exp b/none/tests/arm64/ldxp_stxp_fallbackimpl.stderr.exp`
Mark Wielaard	04e90e	`new file mode 100644`
Mark Wielaard	04e90e	`index 000000000..e69de29bb`
Mark Wielaard	04e90e	`diff --git a/none/tests/arm64/ldxp_stxp_fallbackimpl.stdout.exp b/none/tests/arm64/ldxp_stxp_fallbackimpl.stdout.exp`
Mark Wielaard	04e90e	`new file mode 100644`
Mark Wielaard	04e90e	`index 000000000..f269ecdcc`
Mark Wielaard	04e90e	`--- /dev/null`
Mark Wielaard	04e90e	`+++ b/none/tests/arm64/ldxp_stxp_fallbackimpl.stdout.exp`
Mark Wielaard	04e90e	`@@ -0,0 +1,20 @@`
Mark Wielaard	04e90e	`+Block after ldxp/stxp 2x64-bit (success)`
Mark Wielaard	04e90e	`+0x0001020304050607`
Mark Wielaard	04e90e	`+0x1011121314151617`
Mark Wielaard	04e90e	`+0x5555666677778888`
Mark Wielaard	04e90e	`+0xaaaa9999bbbb0000`
Mark Wielaard	04e90e	`+0x4041424344454647`
Mark Wielaard	04e90e	`+0x5051525354555657`
Mark Wielaard	04e90e	`+0x2021222324252627 rt1contents`
Mark Wielaard	04e90e	`+0x3031323334353637 rt2contents`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`+Block after ldxp/stxp 2x32-bit (success)`
Mark Wielaard	04e90e	`+0x0001020304050607`
Mark Wielaard	04e90e	`+0x1011121314151617`
Mark Wielaard	04e90e	`+0xbbbb000077778888`
Mark Wielaard	04e90e	`+0x3031323334353637`
Mark Wielaard	04e90e	`+0x4041424344454647`
Mark Wielaard	04e90e	`+0x5051525354555657`
Mark Wielaard	04e90e	`+0x0000000024252627 rt1contents`
Mark Wielaard	04e90e	`+0x0000000020212223 rt2contents`
Mark Wielaard	04e90e	`+`
Mark Wielaard	04e90e	`diff --git a/none/tests/arm64/ldxp_stxp_fallbackimpl.vgtest b/none/tests/arm64/ldxp_stxp_fallbackimpl.vgtest`
Mark Wielaard	04e90e	`new file mode 100644`
Mark Wielaard	04e90e	`index 000000000..474282a03`
Mark Wielaard	04e90e	`--- /dev/null`
Mark Wielaard	04e90e	`+++ b/none/tests/arm64/ldxp_stxp_fallbackimpl.vgtest`
Mark Wielaard	04e90e	`@@ -0,0 +1,2 @@`
Mark Wielaard	04e90e	`+prog: ldxp_stxp`
Mark Wielaard	04e90e	`+vgopts: -q --sim-hints=fallback-llsc`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`commit 0d38ca5dd6b446c70738031132d41f09de0f7a8a`
Mark Wielaard	04e90e	`Author: Julian Seward <jseward@acm.org>`
Mark Wielaard	04e90e	`Date: Fri Nov 12 13:08:45 2021 +0100`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`Bug 444399 - disInstr(arm64): unhandled instruction 0xC87F2D89 (LD{,A}XP and ST{,L}XP). FOLLOWUP FIX.`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`This is an attempt to un-break 'make dist', as broken by the main commit for`
Mark Wielaard	04e90e	`this bug, which was 530df882b8f60ecacaf2b9b8a719f7ea1c1d1650.`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`diff --git a/none/tests/arm64/Makefile.am b/none/tests/arm64/Makefile.am`
Mark Wielaard	04e90e	`index 9efb49b27..4a06f0996 100644`
Mark Wielaard	04e90e	`--- a/none/tests/arm64/Makefile.am`
Mark Wielaard	04e90e	`+++ b/none/tests/arm64/Makefile.am`
Mark Wielaard	04e90e	`@@ -14,8 +14,10 @@ EXTRA_DIST = \`
Mark Wielaard	04e90e	`fmadd_sub.stdout.exp fmadd_sub.stderr.exp fmadd_sub.vgtest \`
Mark Wielaard	04e90e	`fp_and_simd_v82.stdout.exp fp_and_simd_v82.stderr.exp \`
Mark Wielaard	04e90e	`fp_and_simd_v82.vgtest \`
Mark Wielaard	04e90e	`- ldxp_stxp.stdout.exp ldxp_stxp.stderr.exp \`
Mark Wielaard	04e90e	`- ldxp_stxp_basisimpl.vgtest ldxp_stxp_fallbackimpl.vgtest`
Mark Wielaard	04e90e	`+ ldxp_stxp_basisimpl.stdout.exp ldxp_stxp_basisimpl.stderr.exp \`
Mark Wielaard	04e90e	`+ ldxp_stxp_basisimpl.vgtest \`
Mark Wielaard	04e90e	`+ ldxp_stxp_fallbackimpl.stdout.exp ldxp_stxp_fallbackimpl.stderr.exp \`
Mark Wielaard	04e90e	`+ ldxp_stxp_fallbackimpl.vgtest`
Mark Wielaard	04e90e
Mark Wielaard	04e90e	`check_PROGRAMS = \`
Mark Wielaard	04e90e	`allexec \`

rpms / valgrind

Source Code

Blame valgrind-3.18.1-arm64-ldaxp-stlxp.patch