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/* This file is part of the dynarmic project.
* Copyright ( c ) 2022 MerryMage
* SPDX - License - Identifier : 0 BSD
*/
# include <algorithm>
# include <array>
# include <cstdio>
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# include <cstdlib>
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# include <functional>
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# include <limits>
# include <optional>
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# include <tuple>
# include <vector>
# include <mcl/bit/swap.hpp>
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# include <mcl/macro/architecture.hpp>
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# include <mcl/stdint.hpp>
# include "./A32/testenv.h"
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# include "./A64/testenv.h"
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# include "./fuzz_util.h"
# include "./rand_int.h"
# include "dynarmic/common/fp/fpcr.h"
# include "dynarmic/common/fp/fpsr.h"
# include "dynarmic/frontend/A32/ITState.h"
# include "dynarmic/frontend/A32/a32_location_descriptor.h"
# include "dynarmic/frontend/A32/a32_types.h"
# include "dynarmic/frontend/A32/translate/a32_translate.h"
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# include "dynarmic/frontend/A64/a64_location_descriptor.h"
# include "dynarmic/frontend/A64/a64_types.h"
# include "dynarmic/frontend/A64/translate/a64_translate.h"
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# include "dynarmic/interface/A32/a32.h"
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# include "dynarmic/interface/A64/a64.h"
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# include "dynarmic/ir/basic_block.h"
# include "dynarmic/ir/location_descriptor.h"
# include "dynarmic/ir/opcodes.h"
// Must be declared last for all necessary operator<< to be declared prior to this.
# include <fmt/format.h>
# include <fmt/ostream.h>
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# if defined(__APPLE__) && defined(MCL_ARCHITECTURE_ARM64)
# include <mach / mach_init.h>
# include <mach / mach_port.h>
# include <mach / task.h>
# endif
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constexpr bool mask_fpsr_cum_bits = true ;
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namespace {
using namespace Dynarmic ;
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bool ShouldTestInst ( IR : : Block & block ) {
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if ( auto terminal = block . GetTerminal ( ) ; boost : : get < IR : : Term : : Interpret > ( & terminal ) ) {
return false ;
}
for ( const auto & ir_inst : block ) {
switch ( ir_inst . GetOpcode ( ) ) {
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// A32
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case IR : : Opcode : : A32GetFpscr :
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case IR : : Opcode : : A32ExceptionRaised :
case IR : : Opcode : : A32CallSupervisor :
case IR : : Opcode : : A32CoprocInternalOperation :
case IR : : Opcode : : A32CoprocSendOneWord :
case IR : : Opcode : : A32CoprocSendTwoWords :
case IR : : Opcode : : A32CoprocGetOneWord :
case IR : : Opcode : : A32CoprocGetTwoWords :
case IR : : Opcode : : A32CoprocLoadWords :
case IR : : Opcode : : A32CoprocStoreWords :
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// A64
case IR : : Opcode : : A64ExceptionRaised :
case IR : : Opcode : : A64CallSupervisor :
case IR : : Opcode : : A64DataCacheOperationRaised :
case IR : : Opcode : : A64GetCNTPCT :
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// Unimplemented
case IR : : Opcode : : SignedSaturatedAdd8 :
case IR : : Opcode : : SignedSaturatedAdd16 :
case IR : : Opcode : : SignedSaturatedAdd32 :
case IR : : Opcode : : SignedSaturatedAdd64 :
case IR : : Opcode : : SignedSaturatedDoublingMultiplyReturnHigh16 :
case IR : : Opcode : : SignedSaturatedDoublingMultiplyReturnHigh32 :
case IR : : Opcode : : SignedSaturatedSub8 :
case IR : : Opcode : : SignedSaturatedSub16 :
case IR : : Opcode : : SignedSaturatedSub32 :
case IR : : Opcode : : SignedSaturatedSub64 :
case IR : : Opcode : : UnsignedSaturatedAdd8 :
case IR : : Opcode : : UnsignedSaturatedAdd16 :
case IR : : Opcode : : UnsignedSaturatedAdd32 :
case IR : : Opcode : : UnsignedSaturatedAdd64 :
case IR : : Opcode : : UnsignedSaturatedSub8 :
case IR : : Opcode : : UnsignedSaturatedSub16 :
case IR : : Opcode : : UnsignedSaturatedSub32 :
case IR : : Opcode : : UnsignedSaturatedSub64 :
case IR : : Opcode : : VectorMaxS64 :
case IR : : Opcode : : VectorMaxU64 :
case IR : : Opcode : : VectorMinS64 :
case IR : : Opcode : : VectorMinU64 :
case IR : : Opcode : : VectorMultiply64 :
case IR : : Opcode : : SM4AccessSubstitutionBox :
// Half-prec conversions
case IR : : Opcode : : FPHalfToFixedS16 :
case IR : : Opcode : : FPHalfToFixedS32 :
case IR : : Opcode : : FPHalfToFixedS64 :
case IR : : Opcode : : FPHalfToFixedU16 :
case IR : : Opcode : : FPHalfToFixedU32 :
case IR : : Opcode : : FPHalfToFixedU64 :
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// Half-precision
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case IR : : Opcode : : FPAbs16 :
case IR : : Opcode : : FPMulAdd16 :
case IR : : Opcode : : FPNeg16 :
case IR : : Opcode : : FPRecipEstimate16 :
case IR : : Opcode : : FPRecipExponent16 :
case IR : : Opcode : : FPRecipStepFused16 :
case IR : : Opcode : : FPRoundInt16 :
case IR : : Opcode : : FPRSqrtEstimate16 :
case IR : : Opcode : : FPRSqrtStepFused16 :
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case IR : : Opcode : : FPVectorAbs16 :
case IR : : Opcode : : FPVectorEqual16 :
case IR : : Opcode : : FPVectorMulAdd16 :
case IR : : Opcode : : FPVectorNeg16 :
case IR : : Opcode : : FPVectorRecipEstimate16 :
case IR : : Opcode : : FPVectorRecipStepFused16 :
case IR : : Opcode : : FPVectorRoundInt16 :
case IR : : Opcode : : FPVectorRSqrtEstimate16 :
case IR : : Opcode : : FPVectorRSqrtStepFused16 :
case IR : : Opcode : : FPVectorToSignedFixed16 :
case IR : : Opcode : : FPVectorToUnsignedFixed16 :
case IR : : Opcode : : FPVectorFromHalf32 :
case IR : : Opcode : : FPVectorToHalf32 :
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return false ;
default :
continue ;
}
}
return true ;
}
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bool ShouldTestA32Inst ( u32 instruction , u32 pc , bool is_thumb , bool is_last_inst , A32 : : ITState it_state = { } ) {
const A32 : : LocationDescriptor location = A32 : : LocationDescriptor { pc , { } , { } } . SetTFlag ( is_thumb ) . SetIT ( it_state ) ;
IR : : Block block { location } ;
const bool should_continue = A32 : : TranslateSingleInstruction ( block , location , instruction ) ;
if ( ! should_continue & & ! is_last_inst ) {
return false ;
}
return ShouldTestInst ( block ) ;
}
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bool ShouldTestA64Inst ( u32 instruction , u64 pc , bool is_last_inst ) {
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const A64 : : LocationDescriptor location = A64 : : LocationDescriptor { pc , { } } ;
IR : : Block block { location } ;
const bool should_continue = A64 : : TranslateSingleInstruction ( block , location , instruction ) ;
if ( ! should_continue & & ! is_last_inst ) {
return false ;
}
return ShouldTestInst ( block ) ;
}
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u32 GenRandomArmInst ( u32 pc , bool is_last_inst ) {
static const struct InstructionGeneratorInfo {
std : : vector < InstructionGenerator > generators ;
std : : vector < InstructionGenerator > invalid ;
} instructions = [ ] {
const std : : vector < std : : tuple < std : : string , const char * > > list {
# define INST(fn, name, bitstring) {#fn, bitstring},
# include "dynarmic/frontend/A32/decoder/arm.inc"
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# include "dynarmic/frontend/A32/decoder/asimd.inc"
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# include "dynarmic/frontend/A32/decoder/vfp.inc"
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# undef INST
} ;
std : : vector < InstructionGenerator > generators ;
std : : vector < InstructionGenerator > invalid ;
// List of instructions not to test
static constexpr std : : array do_not_test {
// Translating load/stores
" arm_LDRBT " , " arm_LDRBT " , " arm_LDRHT " , " arm_LDRHT " , " arm_LDRSBT " , " arm_LDRSBT " , " arm_LDRSHT " , " arm_LDRSHT " , " arm_LDRT " , " arm_LDRT " ,
" arm_STRBT " , " arm_STRBT " , " arm_STRHT " , " arm_STRHT " , " arm_STRT " , " arm_STRT " ,
// Exclusive load/stores
" arm_LDREXB " , " arm_LDREXD " , " arm_LDREXH " , " arm_LDREX " , " arm_LDAEXB " , " arm_LDAEXD " , " arm_LDAEXH " , " arm_LDAEX " ,
" arm_STREXB " , " arm_STREXD " , " arm_STREXH " , " arm_STREX " , " arm_STLEXB " , " arm_STLEXD " , " arm_STLEXH " , " arm_STLEX " ,
" arm_SWP " , " arm_SWPB " ,
// Elevated load/store multiple instructions.
" arm_LDM_eret " , " arm_LDM_usr " ,
" arm_STM_usr " ,
// Coprocessor
" arm_CDP " , " arm_LDC " , " arm_MCR " , " arm_MCRR " , " arm_MRC " , " arm_MRRC " , " arm_STC " ,
// System
" arm_CPS " , " arm_RFE " , " arm_SRS " ,
// Undefined
" arm_UDF " ,
// FPSCR is inaccurate
" vfp_VMRS " ,
// Incorrect Unicorn implementations
" asimd_VRECPS " , // Unicorn does not fuse the multiply and subtraction, resulting in being off by 1ULP.
" asimd_VRSQRTS " , // Unicorn does not fuse the multiply and subtraction, resulting in being off by 1ULP.
" vfp_VCVT_from_fixed " , // Unicorn does not do round-to-nearest-even for this instruction correctly.
} ;
for ( const auto & [ fn , bitstring ] : list ) {
if ( std : : find ( do_not_test . begin ( ) , do_not_test . end ( ) , fn ) ! = do_not_test . end ( ) ) {
invalid . emplace_back ( InstructionGenerator { bitstring } ) ;
continue ;
}
generators . emplace_back ( InstructionGenerator { bitstring } ) ;
}
return InstructionGeneratorInfo { generators , invalid } ;
} ( ) ;
while ( true ) {
const size_t index = RandInt < size_t > ( 0 , instructions . generators . size ( ) - 1 ) ;
const u32 inst = instructions . generators [ index ] . Generate ( ) ;
if ( ( instructions . generators [ index ] . Mask ( ) & 0xF0000000 ) = = 0 & & ( inst & 0xF0000000 ) = = 0xF0000000 ) {
continue ;
}
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if ( ShouldTestA32Inst ( inst , pc , false , is_last_inst ) ) {
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return inst ;
}
}
}
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std : : vector < u16 > GenRandomThumbInst ( u32 pc , bool is_last_inst , A32 : : ITState it_state = { } ) {
static const struct InstructionGeneratorInfo {
std : : vector < InstructionGenerator > generators ;
std : : vector < InstructionGenerator > invalid ;
} instructions = [ ] {
const std : : vector < std : : tuple < std : : string , const char * > > list {
# define INST(fn, name, bitstring) {#fn, bitstring},
# include "dynarmic/frontend/A32/decoder/thumb16.inc"
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# include "dynarmic/frontend/A32/decoder/thumb32.inc"
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# undef INST
} ;
const std : : vector < std : : tuple < std : : string , const char * > > vfp_list {
# define INST(fn, name, bitstring) {#fn, bitstring},
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# include "dynarmic/frontend/A32/decoder/vfp.inc"
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# undef INST
} ;
const std : : vector < std : : tuple < std : : string , const char * > > asimd_list {
# define INST(fn, name, bitstring) {#fn, bitstring},
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# include "dynarmic/frontend/A32/decoder/asimd.inc"
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# undef INST
} ;
std : : vector < InstructionGenerator > generators ;
std : : vector < InstructionGenerator > invalid ;
// List of instructions not to test
static constexpr std : : array do_not_test {
" thumb16_BKPT " ,
" thumb16_IT " ,
// Exclusive load/stores
" thumb32_LDREX " ,
" thumb32_LDREXB " ,
" thumb32_LDREXD " ,
" thumb32_LDREXH " ,
" thumb32_STREX " ,
" thumb32_STREXB " ,
" thumb32_STREXD " ,
" thumb32_STREXH " ,
// Coprocessor
" thumb32_CDP " ,
" thumb32_LDC " ,
" thumb32_MCR " ,
" thumb32_MCRR " ,
" thumb32_MRC " ,
" thumb32_MRRC " ,
" thumb32_STC " ,
} ;
for ( const auto & [ fn , bitstring ] : list ) {
if ( std : : find ( do_not_test . begin ( ) , do_not_test . end ( ) , fn ) ! = do_not_test . end ( ) ) {
invalid . emplace_back ( InstructionGenerator { bitstring } ) ;
continue ;
}
generators . emplace_back ( InstructionGenerator { bitstring } ) ;
}
for ( const auto & [ fn , bs ] : vfp_list ) {
std : : string bitstring = bs ;
if ( bitstring . substr ( 0 , 4 ) = = " cccc " | | bitstring . substr ( 0 , 4 ) = = " ---- " ) {
bitstring . replace ( 0 , 4 , " 1110 " ) ;
}
if ( std : : find ( do_not_test . begin ( ) , do_not_test . end ( ) , fn ) ! = do_not_test . end ( ) ) {
invalid . emplace_back ( InstructionGenerator { bitstring . c_str ( ) } ) ;
continue ;
}
generators . emplace_back ( InstructionGenerator { bitstring . c_str ( ) } ) ;
}
for ( const auto & [ fn , bs ] : asimd_list ) {
std : : string bitstring = bs ;
if ( bitstring . substr ( 0 , 7 ) = = " 1111001 " ) {
const char U = bitstring [ 7 ] ;
bitstring . replace ( 0 , 8 , " 111-1111 " ) ;
bitstring [ 3 ] = U ;
} else if ( bitstring . substr ( 0 , 8 ) = = " 11110100 " ) {
bitstring . replace ( 0 , 8 , " 11111001 " ) ;
} else {
ASSERT_FALSE ( " Unhandled ASIMD instruction: {} {} " , fn , bs ) ;
}
if ( std : : find ( do_not_test . begin ( ) , do_not_test . end ( ) , fn ) ! = do_not_test . end ( ) ) {
invalid . emplace_back ( InstructionGenerator { bitstring . c_str ( ) } ) ;
continue ;
}
generators . emplace_back ( InstructionGenerator { bitstring . c_str ( ) } ) ;
}
return InstructionGeneratorInfo { generators , invalid } ;
} ( ) ;
while ( true ) {
const size_t index = RandInt < size_t > ( 0 , instructions . generators . size ( ) - 1 ) ;
const u32 inst = instructions . generators [ index ] . Generate ( ) ;
const bool is_four_bytes = ( inst > > 16 ) ! = 0 ;
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if ( ShouldTestA32Inst ( is_four_bytes ? mcl : : bit : : swap_halves_32 ( inst ) : inst , pc , true , is_last_inst , it_state ) ) {
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if ( is_four_bytes )
return { static_cast < u16 > ( inst > > 16 ) , static_cast < u16 > ( inst ) } ;
return { static_cast < u16 > ( inst ) } ;
}
}
}
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u32 GenRandomA64Inst ( u64 pc , bool is_last_inst ) {
static const struct InstructionGeneratorInfo {
std : : vector < InstructionGenerator > generators ;
std : : vector < InstructionGenerator > invalid ;
} instructions = [ ] {
const std : : vector < std : : tuple < std : : string , const char * > > list {
# define INST(fn, name, bitstring) {#fn, bitstring},
# include "dynarmic/frontend/A64/decoder/a64.inc"
# undef INST
} ;
std : : vector < InstructionGenerator > generators ;
std : : vector < InstructionGenerator > invalid ;
// List of instructions not to test
const std : : vector < std : : string > do_not_test {
// Dynarmic and QEMU currently differ on how the exclusive monitor's address range works.
" STXR " ,
" STLXR " ,
" STXP " ,
" STLXP " ,
" LDXR " ,
" LDAXR " ,
" LDXP " ,
" LDAXP " ,
// Behaviour differs from QEMU
" MSR_reg " ,
" MSR_imm " ,
" MRS " ,
} ;
for ( const auto & [ fn , bitstring ] : list ) {
if ( fn = = " UnallocatedEncoding " ) {
continue ;
}
if ( std : : find ( do_not_test . begin ( ) , do_not_test . end ( ) , fn ) ! = do_not_test . end ( ) ) {
invalid . emplace_back ( InstructionGenerator { bitstring } ) ;
continue ;
}
generators . emplace_back ( InstructionGenerator { bitstring } ) ;
}
return InstructionGeneratorInfo { generators , invalid } ;
} ( ) ;
while ( true ) {
const size_t index = RandInt < size_t > ( 0 , instructions . generators . size ( ) - 1 ) ;
const u32 inst = instructions . generators [ index ] . Generate ( ) ;
if ( std : : any_of ( instructions . invalid . begin ( ) , instructions . invalid . end ( ) , [ inst ] ( const auto & invalid ) { return invalid . Match ( inst ) ; } ) ) {
continue ;
}
if ( ShouldTestA64Inst ( inst , pc , is_last_inst ) ) {
return inst ;
}
}
}
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template < typename TestEnv >
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Dynarmic : : A32 : : UserConfig GetA32UserConfig ( TestEnv & testenv ) {
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Dynarmic : : A32 : : UserConfig user_config ;
user_config . optimizations & = ~ OptimizationFlag : : FastDispatch ;
user_config . callbacks = & testenv ;
return user_config ;
}
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template < size_t num_jit_reruns = 1 , typename TestEnv >
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void RunTestInstance ( Dynarmic : : A32 : : Jit & jit ,
TestEnv & jit_env ,
const std : : array < u32 , 16 > & regs ,
const std : : array < u32 , 64 > & vecs ,
const std : : vector < typename TestEnv : : InstructionType > & instructions ,
const u32 cpsr ,
const u32 fpscr ,
const size_t ticks_left ) {
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const u32 initial_pc = regs [ 15 ] ;
const u32 num_words = initial_pc / sizeof ( typename TestEnv : : InstructionType ) ;
const u32 code_mem_size = num_words + static_cast < u32 > ( instructions . size ( ) ) ;
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jit . ClearCache ( ) ;
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for ( size_t jit_rerun_count = 0 ; jit_rerun_count < num_jit_reruns ; + + jit_rerun_count ) {
jit_env . code_mem . resize ( code_mem_size ) ;
std : : fill ( jit_env . code_mem . begin ( ) , jit_env . code_mem . end ( ) , TestEnv : : infinite_loop ) ;
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std : : copy ( instructions . begin ( ) , instructions . end ( ) , jit_env . code_mem . begin ( ) + num_words ) ;
jit_env . PadCodeMem ( ) ;
jit_env . modified_memory . clear ( ) ;
jit_env . interrupts . clear ( ) ;
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jit . Regs ( ) = regs ;
jit . ExtRegs ( ) = vecs ;
jit . SetFpscr ( fpscr ) ;
jit . SetCpsr ( cpsr ) ;
jit_env . ticks_left = ticks_left ;
jit . Run ( ) ;
}
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fmt : : print ( " instructions: " ) ;
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for ( auto instruction : instructions ) {
if constexpr ( sizeof ( decltype ( instruction ) ) = = 2 ) {
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fmt : : print ( " {:04x} " , instruction ) ;
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} else {
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fmt : : print ( " {:08x} " , instruction ) ;
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}
}
fmt : : print ( " \n " ) ;
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fmt : : print ( " initial_regs: " ) ;
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for ( u32 i : regs ) {
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fmt : : print ( " {:08x} " , i ) ;
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}
fmt : : print ( " \n " ) ;
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fmt : : print ( " initial_vecs: " ) ;
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for ( u32 i : vecs ) {
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fmt : : print ( " {:08x} " , i ) ;
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}
fmt : : print ( " \n " ) ;
fmt : : print ( " initial_cpsr: {:08x} \n " , cpsr ) ;
fmt : : print ( " initial_fpcr: {:08x} \n " , fpscr ) ;
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fmt : : print ( " final_regs: " ) ;
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for ( u32 i : jit . Regs ( ) ) {
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fmt : : print ( " {:08x} " , i ) ;
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}
fmt : : print ( " \n " ) ;
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fmt : : print ( " final_vecs: " ) ;
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for ( u32 i : jit . ExtRegs ( ) ) {
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fmt : : print ( " {:08x} " , i ) ;
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}
fmt : : print ( " \n " ) ;
fmt : : print ( " final_cpsr: {:08x} \n " , jit . Cpsr ( ) ) ;
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fmt : : print ( " final_fpsr: {:08x} \n " , mask_fpsr_cum_bits ? jit . Fpscr ( ) & 0xffffff00 : jit . Fpscr ( ) ) ;
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fmt : : print ( " mod_mem: " ) ;
for ( auto [ addr , value ] : jit_env . modified_memory ) {
fmt : : print ( " {:08x}:{:02x} " , addr , value ) ;
}
fmt : : print ( " \n " ) ;
fmt : : print ( " interrupts: \n " ) ;
for ( const auto & i : jit_env . interrupts ) {
std : : puts ( i . c_str ( ) ) ;
}
fmt : : print ( " === \n " ) ;
}
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Dynarmic : : A64 : : UserConfig GetA64UserConfig ( A64TestEnv & jit_env ) {
Dynarmic : : A64 : : UserConfig jit_user_config { & jit_env } ;
jit_user_config . optimizations & = ~ OptimizationFlag : : FastDispatch ;
// The below corresponds to the settings for qemu's aarch64_max_initfn
jit_user_config . dczid_el0 = 7 ;
jit_user_config . ctr_el0 = 0x80038003 ;
return jit_user_config ;
}
template < size_t num_jit_reruns = 1 >
void RunTestInstance ( Dynarmic : : A64 : : Jit & jit ,
A64TestEnv & jit_env ,
const std : : array < u64 , 31 > & regs ,
const std : : array < std : : array < u64 , 2 > , 32 > & vecs ,
const std : : vector < u32 > & instructions ,
const u32 pstate ,
const u32 fpcr ,
const u64 initial_sp ,
const u64 start_address ,
const size_t ticks_left ) {
jit . ClearCache ( ) ;
for ( size_t jit_rerun_count = 0 ; jit_rerun_count < num_jit_reruns ; + + jit_rerun_count ) {
jit_env . code_mem = instructions ;
jit_env . code_mem . emplace_back ( 0x14000000 ) ; // B .
jit_env . code_mem_start_address = start_address ;
jit_env . modified_memory . clear ( ) ;
jit_env . interrupts . clear ( ) ;
jit . SetRegisters ( regs ) ;
jit . SetVectors ( vecs ) ;
jit . SetPC ( start_address ) ;
jit . SetSP ( initial_sp ) ;
jit . SetFpcr ( fpcr ) ;
jit . SetFpsr ( 0 ) ;
jit . SetPstate ( pstate ) ;
jit . ClearCache ( ) ;
jit_env . ticks_left = ticks_left ;
jit . Run ( ) ;
}
fmt : : print ( " instructions: " ) ;
for ( u32 instruction : instructions ) {
fmt : : print ( " {:08x} " , instruction ) ;
}
fmt : : print ( " \n " ) ;
fmt : : print ( " initial_regs: " ) ;
for ( u64 i : regs ) {
fmt : : print ( " {:016x} " , i ) ;
}
fmt : : print ( " \n " ) ;
fmt : : print ( " initial_vecs: " ) ;
for ( auto i : vecs ) {
fmt : : print ( " {:016x}:{:016x} " , i [ 0 ] , i [ 1 ] ) ;
}
fmt : : print ( " \n " ) ;
fmt : : print ( " initial_sp: {:016x} \n " , initial_sp ) ;
fmt : : print ( " initial_pstate: {:08x} \n " , pstate ) ;
fmt : : print ( " initial_fpcr: {:08x} \n " , fpcr ) ;
fmt : : print ( " final_regs: " ) ;
for ( u64 i : jit . GetRegisters ( ) ) {
fmt : : print ( " {:016x} " , i ) ;
}
fmt : : print ( " \n " ) ;
fmt : : print ( " final_vecs: " ) ;
for ( auto i : jit . GetVectors ( ) ) {
fmt : : print ( " {:016x}:{:016x} " , i [ 0 ] , i [ 1 ] ) ;
}
fmt : : print ( " \n " ) ;
fmt : : print ( " final_sp: {:016x} \n " , jit . GetSP ( ) ) ;
fmt : : print ( " final_pc: {:016x} \n " , jit . GetPC ( ) ) ;
fmt : : print ( " final_pstate: {:08x} \n " , jit . GetPstate ( ) ) ;
fmt : : print ( " final_fpcr: {:08x} \n " , jit . GetFpcr ( ) ) ;
fmt : : print ( " final_qc : {} \n " , FP : : FPSR { jit . GetFpsr ( ) } . QC ( ) ) ;
fmt : : print ( " mod_mem: " ) ;
for ( auto [ addr , value ] : jit_env . modified_memory ) {
fmt : : print ( " {:08x}:{:02x} " , addr , value ) ;
}
fmt : : print ( " \n " ) ;
fmt : : print ( " interrupts: \n " ) ;
for ( const auto & i : jit_env . interrupts ) {
std : : puts ( i . c_str ( ) ) ;
}
fmt : : print ( " === \n " ) ;
}
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} // Anonymous namespace
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void TestThumb ( size_t num_instructions , size_t num_iterations ) {
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ThumbTestEnv jit_env { } ;
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Dynarmic : : A32 : : Jit jit { GetA32UserConfig ( jit_env ) } ;
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std : : array < u32 , 16 > regs ;
std : : array < u32 , 64 > ext_reg ;
std : : vector < u16 > instructions ;
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for ( size_t iteration = 0 ; iteration < num_iterations ; + + iteration ) {
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std : : generate ( regs . begin ( ) , regs . end ( ) , [ ] { return RandInt < u32 > ( 0 , ~ u32 ( 0 ) ) ; } ) ;
std : : generate ( ext_reg . begin ( ) , ext_reg . end ( ) , [ ] { return RandInt < u32 > ( 0 , ~ u32 ( 0 ) ) ; } ) ;
const u32 start_address = 100 ;
const u32 cpsr = ( RandInt < u32 > ( 0 , 0xF ) < < 28 ) | 0x1F0 ;
const u32 fpcr = RandomFpcr ( ) ;
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instructions . clear ( ) ;
for ( size_t i = 0 ; i < num_instructions ; + + i ) {
const auto inst = GenRandomThumbInst ( static_cast < u32 > ( start_address + 2 * instructions . size ( ) ) , i = = num_instructions - 1 ) ;
instructions . insert ( instructions . end ( ) , inst . begin ( ) , inst . end ( ) ) ;
}
regs [ 15 ] = start_address ;
RunTestInstance ( jit , jit_env , regs , ext_reg , instructions , cpsr , fpcr , num_instructions ) ;
}
}
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void TestArm ( size_t num_instructions , size_t num_iterations ) {
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ArmTestEnv jit_env { } ;
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Dynarmic : : A32 : : Jit jit { GetA32UserConfig ( jit_env ) } ;
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std : : array < u32 , 16 > regs ;
std : : array < u32 , 64 > ext_reg ;
std : : vector < u32 > instructions ;
for ( size_t iteration = 0 ; iteration < num_iterations ; + + iteration ) {
std : : generate ( regs . begin ( ) , regs . end ( ) , [ ] { return RandInt < u32 > ( 0 , ~ u32 ( 0 ) ) ; } ) ;
std : : generate ( ext_reg . begin ( ) , ext_reg . end ( ) , [ ] { return RandInt < u32 > ( 0 , ~ u32 ( 0 ) ) ; } ) ;
const u32 start_address = 100 ;
const u32 cpsr = ( RandInt < u32 > ( 0 , 0xF ) < < 28 ) ;
const u32 fpcr = RandomFpcr ( ) ;
instructions . clear ( ) ;
for ( size_t i = 0 ; i < num_instructions ; + + i ) {
instructions . emplace_back ( GenRandomArmInst ( static_cast < u32 > ( start_address + 4 * instructions . size ( ) ) , i = = num_instructions - 1 ) ) ;
}
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regs [ 15 ] = start_address ;
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RunTestInstance ( jit , jit_env , regs , ext_reg , instructions , cpsr , fpcr , num_instructions ) ;
}
}
void TestA64 ( size_t num_instructions , size_t num_iterations ) {
A64TestEnv jit_env { } ;
Dynarmic : : A64 : : Jit jit { GetA64UserConfig ( jit_env ) } ;
std : : array < u64 , 31 > regs ;
std : : array < std : : array < u64 , 2 > , 32 > vecs ;
std : : vector < u32 > instructions ;
for ( size_t iteration = 0 ; iteration < num_iterations ; + + iteration ) {
std : : generate ( regs . begin ( ) , regs . end ( ) , [ ] { return RandInt < u64 > ( 0 , ~ u64 ( 0 ) ) ; } ) ;
std : : generate ( vecs . begin ( ) , vecs . end ( ) , RandomVector ) ;
const u32 start_address = 100 ;
const u32 pstate = ( RandInt < u32 > ( 0 , 0xF ) < < 28 ) ;
const u32 fpcr = RandomFpcr ( ) ;
const u64 initial_sp = RandInt < u64 > ( 0x30'0000'0000 , 0x40'0000'0000 ) * 4 ;
instructions . clear ( ) ;
for ( size_t i = 0 ; i < num_instructions ; + + i ) {
instructions . emplace_back ( GenRandomA64Inst ( static_cast < u32 > ( start_address + 4 * instructions . size ( ) ) , i = = num_instructions - 1 ) ) ;
}
RunTestInstance ( jit , jit_env , regs , vecs , instructions , pstate , fpcr , initial_sp , start_address , num_instructions ) ;
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}
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}
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static std : : optional < size_t > str2sz ( char const * s ) {
char * end = nullptr ;
errno = 0 ;
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const long l = std : : strtol ( s , & end , 10 ) ;
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if ( errno = = ERANGE | | l < 0 ) {
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return std : : nullopt ;
}
if ( * s = = ' \0 ' | | * end ! = ' \0 ' ) {
return std : : nullopt ;
}
return static_cast < size_t > ( l ) ;
}
int main ( int argc , char * argv [ ] ) {
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# if defined(__APPLE__) && defined(MCL_ARCHITECTURE_ARM64)
// Allows for attaching a debugger to this process to work when debugging fastmem (since we currently use POSIX signals rather than a mach socket on arm64).
task_set_exception_ports ( mach_task_self ( ) , EXC_MASK_BAD_ACCESS , MACH_PORT_NULL , EXCEPTION_DEFAULT , 0 ) ;
# endif
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if ( argc ! = 5 ) {
fmt : : print ( " Usage: {} <thumb|arm|a64> <seed> <instruction_count> <iteration_count> \n " , argv [ 0 ] ) ;
}
const auto seed = str2sz ( argv [ 2 ] ) ;
const auto instruction_count = str2sz ( argv [ 3 ] ) ;
const auto iterator_count = str2sz ( argv [ 4 ] ) ;
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if ( ! seed | | ! instruction_count | | ! iterator_count ) {
fmt : : print ( " invalid numeric arguments \n " ) ;
return 1 ;
}
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detail : : g_rand_int_generator . seed ( static_cast < std : : mt19937 : : result_type > ( * seed ) ) ;
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if ( strcmp ( argv [ 1 ] , " thumb " ) = = 0 ) {
TestThumb ( * instruction_count , * iterator_count ) ;
} else if ( strcmp ( argv [ 1 ] , " arm " ) = = 0 ) {
TestArm ( * instruction_count , * iterator_count ) ;
} else if ( strcmp ( argv [ 1 ] , " a64 " ) = = 0 ) {
TestA64 ( * instruction_count , * iterator_count ) ;
} else {
fmt : : print ( " unrecognized instruction class \n " ) ;
return 1 ;
}
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return 0 ;
}