/* ** Common definitions for the JIT compiler. ** Copyright (C) 2005-2016 Mike Pall. See Copyright Notice in luajit.h */ #ifndef _LJ_JIT_H #define _LJ_JIT_H #include "lj_obj.h" #include "lj_ir.h" /* JIT engine flags. */ #define JIT_F_ON 0x00000001 /* CPU-specific JIT engine flags. */ #if LJ_TARGET_X86ORX64 #define JIT_F_SSE2 0x00000010 #define JIT_F_SSE3 0x00000020 #define JIT_F_SSE4_1 0x00000040 #define JIT_F_PREFER_IMUL 0x00000080 #define JIT_F_LEA_AGU 0x00000100 /* Names for the CPU-specific flags. Must match the order above. */ #define JIT_F_CPU_FIRST JIT_F_SSE2 #define JIT_F_CPUSTRING "\4SSE2\4SSE3\6SSE4.1\3AMD\4ATOM" #elif LJ_TARGET_ARM #define JIT_F_ARMV6_ 0x00000010 #define JIT_F_ARMV6T2_ 0x00000020 #define JIT_F_ARMV7 0x00000040 #define JIT_F_VFPV2 0x00000080 #define JIT_F_VFPV3 0x00000100 #define JIT_F_ARMV6 (JIT_F_ARMV6_|JIT_F_ARMV6T2_|JIT_F_ARMV7) #define JIT_F_ARMV6T2 (JIT_F_ARMV6T2_|JIT_F_ARMV7) #define JIT_F_VFP (JIT_F_VFPV2|JIT_F_VFPV3) /* Names for the CPU-specific flags. Must match the order above. */ #define JIT_F_CPU_FIRST JIT_F_ARMV6_ #define JIT_F_CPUSTRING "\5ARMv6\7ARMv6T2\5ARMv7\5VFPv2\5VFPv3" #elif LJ_TARGET_PPC #define JIT_F_SQRT 0x00000010 #define JIT_F_ROUND 0x00000020 /* Names for the CPU-specific flags. Must match the order above. */ #define JIT_F_CPU_FIRST JIT_F_SQRT #define JIT_F_CPUSTRING "\4SQRT\5ROUND" #elif LJ_TARGET_MIPS #define JIT_F_MIPS32R2 0x00000010 /* Names for the CPU-specific flags. Must match the order above. */ #define JIT_F_CPU_FIRST JIT_F_MIPS32R2 #define JIT_F_CPUSTRING "\010MIPS32R2" #else #define JIT_F_CPU_FIRST 0 #define JIT_F_CPUSTRING "" #endif /* Optimization flags. */ #define JIT_F_OPT_MASK 0x0fff0000 #define JIT_F_OPT_FOLD 0x00010000 #define JIT_F_OPT_CSE 0x00020000 #define JIT_F_OPT_DCE 0x00040000 #define JIT_F_OPT_FWD 0x00080000 #define JIT_F_OPT_DSE 0x00100000 #define JIT_F_OPT_NARROW 0x00200000 #define JIT_F_OPT_LOOP 0x00400000 #define JIT_F_OPT_ABC 0x00800000 #define JIT_F_OPT_SINK 0x01000000 #define JIT_F_OPT_FUSE 0x02000000 /* Optimizations names for -O. Must match the order above. */ #define JIT_F_OPT_FIRST JIT_F_OPT_FOLD #define JIT_F_OPTSTRING \ "\4fold\3cse\3dce\3fwd\3dse\6narrow\4loop\3abc\4sink\4fuse" /* Optimization levels set a fixed combination of flags. */ #define JIT_F_OPT_0 0 #define JIT_F_OPT_1 (JIT_F_OPT_FOLD|JIT_F_OPT_CSE|JIT_F_OPT_DCE) #define JIT_F_OPT_2 (JIT_F_OPT_1|JIT_F_OPT_NARROW|JIT_F_OPT_LOOP) #define JIT_F_OPT_3 (JIT_F_OPT_2|\ JIT_F_OPT_FWD|JIT_F_OPT_DSE|JIT_F_OPT_ABC|JIT_F_OPT_SINK|JIT_F_OPT_FUSE) #define JIT_F_OPT_DEFAULT JIT_F_OPT_3 #if LJ_TARGET_WINDOWS || LJ_64 /* See: http://blogs.msdn.com/oldnewthing/archive/2003/10/08/55239.aspx */ #define JIT_P_sizemcode_DEFAULT 64 #else /* Could go as low as 4K, but the mmap() overhead would be rather high. */ #define JIT_P_sizemcode_DEFAULT 32 #endif /* Optimization parameters and their defaults. Length is a char in octal! */ #define JIT_PARAMDEF(_) \ _(\010, maxtrace, 1000) /* Max. # of traces in cache. */ \ _(\011, maxrecord, 4000) /* Max. # of recorded IR instructions. */ \ _(\012, maxirconst, 500) /* Max. # of IR constants of a trace. */ \ _(\007, maxside, 100) /* Max. # of side traces of a root trace. */ \ _(\007, maxsnap, 500) /* Max. # of snapshots for a trace. */ \ _(\011, minstitch, 0) /* Min. # of IR ins for a stitched trace. */ \ \ _(\007, hotloop, 56) /* # of iter. to detect a hot loop/call. */ \ _(\007, hotexit, 10) /* # of taken exits to start a side trace. */ \ _(\007, tryside, 4) /* # of attempts to compile a side trace. */ \ \ _(\012, instunroll, 4) /* Max. unroll for instable loops. */ \ _(\012, loopunroll, 15) /* Max. unroll for loop ops in side traces. */ \ _(\012, callunroll, 3) /* Max. unroll for recursive calls. */ \ _(\011, recunroll, 2) /* Min. unroll for true recursion. */ \ \ /* Size of each machine code area (in KBytes). */ \ _(\011, sizemcode, JIT_P_sizemcode_DEFAULT) \ /* Max. total size of all machine code areas (in KBytes). */ \ _(\010, maxmcode, 512) \ /* End of list. */ enum { #define JIT_PARAMENUM(len, name, value) JIT_P_##name, JIT_PARAMDEF(JIT_PARAMENUM) #undef JIT_PARAMENUM JIT_P__MAX }; #define JIT_PARAMSTR(len, name, value) #len #name #define JIT_P_STRING JIT_PARAMDEF(JIT_PARAMSTR) /* Trace compiler state. */ typedef enum { LJ_TRACE_IDLE, /* Trace compiler idle. */ LJ_TRACE_ACTIVE = 0x10, LJ_TRACE_RECORD, /* Bytecode recording active. */ LJ_TRACE_START, /* New trace started. */ LJ_TRACE_END, /* End of trace. */ LJ_TRACE_ASM, /* Assemble trace. */ LJ_TRACE_ERR /* Trace aborted with error. */ } TraceState; /* Post-processing action. */ typedef enum { LJ_POST_NONE, /* No action. */ LJ_POST_FIXCOMP, /* Fixup comparison and emit pending guard. */ LJ_POST_FIXGUARD, /* Fixup and emit pending guard. */ LJ_POST_FIXGUARDSNAP, /* Fixup and emit pending guard and snapshot. */ LJ_POST_FIXBOOL, /* Fixup boolean result. */ LJ_POST_FIXCONST, /* Fixup constant results. */ LJ_POST_FFRETRY /* Suppress recording of retried fast functions. */ } PostProc; /* Machine code type. */ #if LJ_TARGET_X86ORX64 typedef uint8_t MCode; #else typedef uint32_t MCode; #endif /* Stack snapshot header. */ typedef struct SnapShot { uint16_t mapofs; /* Offset into snapshot map. */ IRRef1 ref; /* First IR ref for this snapshot. */ uint8_t nslots; /* Number of valid slots. */ uint8_t topslot; /* Maximum frame extent. */ uint8_t nent; /* Number of compressed entries. */ uint8_t count; /* Count of taken exits for this snapshot. */ } SnapShot; #define SNAPCOUNT_DONE 255 /* Already compiled and linked a side trace. */ /* Compressed snapshot entry. */ typedef uint32_t SnapEntry; #define SNAP_FRAME 0x010000 /* Frame slot. */ #define SNAP_CONT 0x020000 /* Continuation slot. */ #define SNAP_NORESTORE 0x040000 /* No need to restore slot. */ #define SNAP_SOFTFPNUM 0x080000 /* Soft-float number. */ LJ_STATIC_ASSERT(SNAP_FRAME == TREF_FRAME); LJ_STATIC_ASSERT(SNAP_CONT == TREF_CONT); #define SNAP(slot, flags, ref) (((SnapEntry)(slot) << 24) + (flags) + (ref)) #define SNAP_TR(slot, tr) \ (((SnapEntry)(slot) << 24) + ((tr) & (TREF_CONT|TREF_FRAME|TREF_REFMASK))) #define SNAP_MKPC(pc) ((SnapEntry)u32ptr(pc)) #define SNAP_MKFTSZ(ftsz) ((SnapEntry)(ftsz)) #define snap_ref(sn) ((sn) & 0xffff) #define snap_slot(sn) ((BCReg)((sn) >> 24)) #define snap_isframe(sn) ((sn) & SNAP_FRAME) #define snap_pc(sn) ((const BCIns *)(uintptr_t)(sn)) #define snap_setref(sn, ref) (((sn) & (0xffff0000&~SNAP_NORESTORE)) | (ref)) /* Snapshot and exit numbers. */ typedef uint32_t SnapNo; typedef uint32_t ExitNo; /* Trace number. */ typedef uint32_t TraceNo; /* Used to pass around trace numbers. */ typedef uint16_t TraceNo1; /* Stored trace number. */ /* Type of link. ORDER LJ_TRLINK */ typedef enum { LJ_TRLINK_NONE, /* Incomplete trace. No link, yet. */ LJ_TRLINK_ROOT, /* Link to other root trace. */ LJ_TRLINK_LOOP, /* Loop to same trace. */ LJ_TRLINK_TAILREC, /* Tail-recursion. */ LJ_TRLINK_UPREC, /* Up-recursion. */ LJ_TRLINK_DOWNREC, /* Down-recursion. */ LJ_TRLINK_INTERP, /* Fallback to interpreter. */ LJ_TRLINK_RETURN, /* Return to interpreter. */ LJ_TRLINK_STITCH /* Trace stitching. */ } TraceLink; /* Trace object. */ typedef struct GCtrace { GCHeader; uint8_t topslot; /* Top stack slot already checked to be allocated. */ uint8_t linktype; /* Type of link. */ IRRef nins; /* Next IR instruction. Biased with REF_BIAS. */ #if LJ_GC64 uint32_t unused_gc64; #endif GCRef gclist; IRIns *ir; /* IR instructions/constants. Biased with REF_BIAS. */ IRRef nk; /* Lowest IR constant. Biased with REF_BIAS. */ uint16_t nsnap; /* Number of snapshots. */ uint16_t nsnapmap; /* Number of snapshot map elements. */ SnapShot *snap; /* Snapshot array. */ SnapEntry *snapmap; /* Snapshot map. */ GCRef startpt; /* Starting prototype. */ MRef startpc; /* Bytecode PC of starting instruction. */ BCIns startins; /* Original bytecode of starting instruction. */ MSize szmcode; /* Size of machine code. */ MCode *mcode; /* Start of machine code. */ MSize mcloop; /* Offset of loop start in machine code. */ uint16_t nchild; /* Number of child traces (root trace only). */ uint16_t spadjust; /* Stack pointer adjustment (offset in bytes). */ TraceNo1 traceno; /* Trace number. */ TraceNo1 link; /* Linked trace (or self for loops). */ TraceNo1 root; /* Root trace of side trace (or 0 for root traces). */ TraceNo1 nextroot; /* Next root trace for same prototype. */ TraceNo1 nextside; /* Next side trace of same root trace. */ uint8_t sinktags; /* Trace has SINK tags. */ uint8_t unused1; #ifdef LUAJIT_USE_GDBJIT void *gdbjit_entry; /* GDB JIT entry. */ #endif } GCtrace; #define gco2trace(o) check_exp((o)->gch.gct == ~LJ_TTRACE, (GCtrace *)(o)) #define traceref(J, n) \ check_exp((n)>0 && (MSize)(n)sizetrace, (GCtrace *)gcref(J->trace[(n)])) LJ_STATIC_ASSERT(offsetof(GChead, gclist) == offsetof(GCtrace, gclist)); static LJ_AINLINE MSize snap_nextofs(GCtrace *T, SnapShot *snap) { if (snap+1 == &T->snap[T->nsnap]) return T->nsnapmap; else return (snap+1)->mapofs; } /* Round-robin penalty cache for bytecodes leading to aborted traces. */ typedef struct HotPenalty { MRef pc; /* Starting bytecode PC. */ uint16_t val; /* Penalty value, i.e. hotcount start. */ uint16_t reason; /* Abort reason (really TraceErr). */ } HotPenalty; #define PENALTY_SLOTS 64 /* Penalty cache slot. Must be a power of 2. */ #define PENALTY_MIN (36*2) /* Minimum penalty value. */ #define PENALTY_MAX 60000 /* Maximum penalty value. */ #define PENALTY_RNDBITS 4 /* # of random bits to add to penalty value. */ /* Round-robin backpropagation cache for narrowing conversions. */ typedef struct BPropEntry { IRRef1 key; /* Key: original reference. */ IRRef1 val; /* Value: reference after conversion. */ IRRef mode; /* Mode for this entry (currently IRCONV_*). */ } BPropEntry; /* Number of slots for the backpropagation cache. Must be a power of 2. */ #define BPROP_SLOTS 16 /* Scalar evolution analysis cache. */ typedef struct ScEvEntry { MRef pc; /* Bytecode PC of FORI. */ IRRef1 idx; /* Index reference. */ IRRef1 start; /* Constant start reference. */ IRRef1 stop; /* Constant stop reference. */ IRRef1 step; /* Constant step reference. */ IRType1 t; /* Scalar type. */ uint8_t dir; /* Direction. 1: +, 0: -. */ } ScEvEntry; /* Reverse bytecode map (IRRef -> PC). Only for selected instructions. */ typedef struct RBCHashEntry { MRef pc; /* Bytecode PC. */ GCRef pt; /* Prototype. */ IRRef ref; /* IR reference. */ } RBCHashEntry; /* Number of slots in the reverse bytecode hash table. Must be a power of 2. */ #define RBCHASH_SLOTS 8 /* 128 bit SIMD constants. */ enum { LJ_KSIMD_ABS, LJ_KSIMD_NEG, LJ_KSIMD__MAX }; /* Get 16 byte aligned pointer to SIMD constant. */ #define LJ_KSIMD(J, n) \ ((TValue *)(((intptr_t)&J->ksimd[2*(n)] + 15) & ~(intptr_t)15)) /* Set/reset flag to activate the SPLIT pass for the current trace. */ #if LJ_SOFTFP || (LJ_32 && LJ_HASFFI) #define lj_needsplit(J) (J->needsplit = 1) #define lj_resetsplit(J) (J->needsplit = 0) #else #define lj_needsplit(J) UNUSED(J) #define lj_resetsplit(J) UNUSED(J) #endif /* Fold state is used to fold instructions on-the-fly. */ typedef struct FoldState { IRIns ins; /* Currently emitted instruction. */ IRIns left; /* Instruction referenced by left operand. */ IRIns right; /* Instruction referenced by right operand. */ } FoldState; /* JIT compiler state. */ typedef struct jit_State { GCtrace cur; /* Current trace. */ lua_State *L; /* Current Lua state. */ const BCIns *pc; /* Current PC. */ GCfunc *fn; /* Current function. */ GCproto *pt; /* Current prototype. */ TRef *base; /* Current frame base, points into J->slots. */ uint32_t flags; /* JIT engine flags. */ BCReg maxslot; /* Relative to baseslot. */ BCReg baseslot; /* Current frame base, offset into J->slots. */ uint8_t mergesnap; /* Allowed to merge with next snapshot. */ uint8_t needsnap; /* Need snapshot before recording next bytecode. */ IRType1 guardemit; /* Accumulated IRT_GUARD for emitted instructions. */ uint8_t bcskip; /* Number of bytecode instructions to skip. */ FoldState fold; /* Fold state. */ const BCIns *bc_min; /* Start of allowed bytecode range for root trace. */ MSize bc_extent; /* Extent of the range. */ TraceState state; /* Trace compiler state. */ int32_t instunroll; /* Unroll counter for instable loops. */ int32_t loopunroll; /* Unroll counter for loop ops in side traces. */ int32_t tailcalled; /* Number of successive tailcalls. */ int32_t framedepth; /* Current frame depth. */ int32_t retdepth; /* Return frame depth (count of RETF). */ MRef k64; /* Pointer to chained array of 64 bit constants. */ TValue ksimd[LJ_KSIMD__MAX*2+1]; /* 16 byte aligned SIMD constants. */ IRIns *irbuf; /* Temp. IR instruction buffer. Biased with REF_BIAS. */ IRRef irtoplim; /* Upper limit of instuction buffer (biased). */ IRRef irbotlim; /* Lower limit of instuction buffer (biased). */ IRRef loopref; /* Last loop reference or ref of final LOOP (or 0). */ MSize sizesnap; /* Size of temp. snapshot buffer. */ SnapShot *snapbuf; /* Temp. snapshot buffer. */ SnapEntry *snapmapbuf; /* Temp. snapshot map buffer. */ MSize sizesnapmap; /* Size of temp. snapshot map buffer. */ PostProc postproc; /* Required post-processing after execution. */ #if LJ_SOFTFP || (LJ_32 && LJ_HASFFI) uint8_t needsplit; /* Need SPLIT pass. */ #endif uint8_t retryrec; /* Retry recording. */ GCRef *trace; /* Array of traces. */ TraceNo freetrace; /* Start of scan for next free trace. */ MSize sizetrace; /* Size of trace array. */ TValue *ktracep; /* Pointer to K64Array slot with GCtrace pointer. */ IRRef1 chain[IR__MAX]; /* IR instruction skip-list chain anchors. */ TRef slot[LJ_MAX_JSLOTS+LJ_STACK_EXTRA]; /* Stack slot map. */ int32_t param[JIT_P__MAX]; /* JIT engine parameters. */ MCode *exitstubgroup[LJ_MAX_EXITSTUBGR]; /* Exit stub group addresses. */ HotPenalty penalty[PENALTY_SLOTS]; /* Penalty slots. */ uint32_t penaltyslot; /* Round-robin index into penalty slots. */ uint32_t prngstate; /* PRNG state. */ #ifdef LUAJIT_ENABLE_TABLE_BUMP RBCHashEntry rbchash[RBCHASH_SLOTS]; /* Reverse bytecode map. */ #endif BPropEntry bpropcache[BPROP_SLOTS]; /* Backpropagation cache slots. */ uint32_t bpropslot; /* Round-robin index into bpropcache slots. */ ScEvEntry scev; /* Scalar evolution analysis cache slots. */ const BCIns *startpc; /* Bytecode PC of starting instruction. */ TraceNo parent; /* Parent of current side trace (0 for root traces). */ ExitNo exitno; /* Exit number in parent of current side trace. */ BCIns *patchpc; /* PC for pending re-patch. */ BCIns patchins; /* Instruction for pending re-patch. */ int mcprot; /* Protection of current mcode area. */ MCode *mcarea; /* Base of current mcode area. */ MCode *mctop; /* Top of current mcode area. */ MCode *mcbot; /* Bottom of current mcode area. */ size_t szmcarea; /* Size of current mcode area. */ size_t szallmcarea; /* Total size of all allocated mcode areas. */ TValue errinfo; /* Additional info element for trace errors. */ #if LJ_HASPROFILE GCproto *prev_pt; /* Previous prototype. */ BCLine prev_line; /* Previous line. */ int prof_mode; /* Profiling mode: 0, 'f', 'l'. */ #endif } #if LJ_TARGET_ARM LJ_ALIGN(16) /* For DISPATCH-relative addresses in assembler part. */ #endif jit_State; /* Trivial PRNG e.g. used for penalty randomization. */ static LJ_AINLINE uint32_t LJ_PRNG_BITS(jit_State *J, int bits) { /* Yes, this LCG is very weak, but that doesn't matter for our use case. */ J->prngstate = J->prngstate * 1103515245 + 12345; return J->prngstate >> (32-bits); } #endif