/* This file is part of the Variable::Magic Perl module. * See http://search.cpan.org/dist/Variable-Magic/ */ #include /* , va_{start,arg,end}, ... */ #include /* sprintf() */ #define PERL_NO_GET_CONTEXT #include "EXTERN.h" #include "perl.h" #include "XSUB.h" #define __PACKAGE__ "Variable::Magic" #ifndef VMG_PERL_PATCHLEVEL # ifdef PERL_PATCHNUM # define VMG_PERL_PATCHLEVEL PERL_PATCHNUM # else # define VMG_PERL_PATCHLEVEL 0 # endif #endif #define VMG_HAS_PERL(R, V, S) (PERL_REVISION > (R) || (PERL_REVISION == (R) && (PERL_VERSION > (V) || (PERL_VERSION == (V) && (PERL_SUBVERSION >= (S)))))) #define VMG_HAS_PERL_BRANCH(R, V, S) (PERL_REVISION == (R) && PERL_VERSION == (V) && PERL_SUBVERSION >= (S)) #define VMG_HAS_PERL_MAINT(R, V, S, P) (PERL_REVISION == (R) && PERL_VERSION == (V) && (VMG_PERL_PATCHLEVEL >= (P) || (!VMG_PERL_PATCHLEVEL && PERL_SUBVERSION >= (S)))) /* --- Threads and multiplicity -------------------------------------------- */ #ifndef NOOP # define NOOP #endif #ifndef dNOOP # define dNOOP #endif /* Safe unless stated otherwise in Makefile.PL */ #ifndef VMG_FORKSAFE # define VMG_FORKSAFE 1 #endif #ifndef VMG_MULTIPLICITY # if defined(MULTIPLICITY) || defined(PERL_IMPLICIT_CONTEXT) # define VMG_MULTIPLICITY 1 # else # define VMG_MULTIPLICITY 0 # endif #endif #if VMG_MULTIPLICITY && !defined(tTHX) # define tTHX PerlInterpreter* #endif #if VMG_MULTIPLICITY && defined(USE_ITHREADS) && defined(dMY_CXT) && defined(MY_CXT) && defined(START_MY_CXT) && defined(MY_CXT_INIT) && (defined(MY_CXT_CLONE) || defined(dMY_CXT_SV)) # define VMG_THREADSAFE 1 # ifndef MY_CXT_CLONE # define MY_CXT_CLONE \ dMY_CXT_SV; \ my_cxt_t *my_cxtp = (my_cxt_t*)SvPVX(newSV(sizeof(my_cxt_t)-1)); \ Copy(INT2PTR(my_cxt_t*, SvUV(my_cxt_sv)), my_cxtp, 1, my_cxt_t); \ sv_setuv(my_cxt_sv, PTR2UV(my_cxtp)) # endif #else # define VMG_THREADSAFE 0 # undef dMY_CXT # define dMY_CXT dNOOP # undef MY_CXT # define MY_CXT vmg_globaldata # undef START_MY_CXT # define START_MY_CXT STATIC my_cxt_t MY_CXT; # undef MY_CXT_INIT # define MY_CXT_INIT NOOP # undef MY_CXT_CLONE # define MY_CXT_CLONE NOOP #endif #if VMG_THREADSAFE STATIC SV *vmg_clone(pTHX_ SV *sv, tTHX owner) { #define vmg_clone(P, O) vmg_clone(aTHX_ (P), (O)) SV *dupsv; #if VMG_HAS_PERL(5, 13, 2) CLONE_PARAMS *param = Perl_clone_params_new(owner, aTHX); dupsv = sv_dup(sv, param); Perl_clone_params_del(param); #else CLONE_PARAMS param; param.stashes = NULL; /* don't need it unless sv is a PVHV */ param.flags = 0; param.proto_perl = owner; dupsv = sv_dup(sv, ¶m); #endif return SvREFCNT_inc(dupsv); } #endif /* VMG_THREADSAFE */ /* --- Compatibility ------------------------------------------------------- */ #ifndef Newx # define Newx(v, n, c) New(0, v, n, c) #endif #ifndef SvMAGIC_set # define SvMAGIC_set(sv, val) (SvMAGIC(sv) = (val)) #endif #ifndef SvRV_const # define SvRV_const(sv) SvRV((SV *) sv) #endif #ifndef SvREFCNT_inc_simple_void # define SvREFCNT_inc_simple_void(sv) SvREFCNT_inc(sv) #endif #ifndef mPUSHu # define mPUSHu(U) PUSHs(sv_2mortal(newSVuv(U))) #endif #ifndef PERL_MAGIC_ext # define PERL_MAGIC_ext '~' #endif #ifndef PERL_MAGIC_tied # define PERL_MAGIC_tied 'P' #endif #ifndef MGf_COPY # define MGf_COPY 0 #endif #ifndef MGf_DUP # define MGf_DUP 0 #endif #ifndef MGf_LOCAL # define MGf_LOCAL 0 #endif #ifndef IN_PERL_COMPILETIME # define IN_PERL_COMPILETIME (PL_curcop == &PL_compiling) #endif /* uvar magic and Hash::Util::FieldHash were commited with 28419, but we only * enable them on 5.10 */ #if VMG_HAS_PERL(5, 10, 0) # define VMG_UVAR 1 #else # define VMG_UVAR 0 #endif /* Applied to dev-5.9 as 25854, integrated to maint-5.8 as 28160, partially * reverted to dev-5.11 as 9cdcb38b */ #if VMG_HAS_PERL_MAINT(5, 8, 9, 28160) || VMG_HAS_PERL_MAINT(5, 9, 3, 25854) || VMG_HAS_PERL(5, 10, 0) # ifndef VMG_COMPAT_ARRAY_PUSH_NOLEN /* This branch should only apply for perls before the official 5.11.0 release. * Makefile.PL takes care of the higher ones. */ # define VMG_COMPAT_ARRAY_PUSH_NOLEN 1 # endif # ifndef VMG_COMPAT_ARRAY_PUSH_NOLEN_VOID # define VMG_COMPAT_ARRAY_PUSH_NOLEN_VOID 1 # endif #else # ifndef VMG_COMPAT_ARRAY_PUSH_NOLEN # define VMG_COMPAT_ARRAY_PUSH_NOLEN 0 # endif # ifndef VMG_COMPAT_ARRAY_PUSH_NOLEN_VOID # define VMG_COMPAT_ARRAY_PUSH_NOLEN_VOID 0 # endif #endif /* Applied to dev-5.11 as 34908 */ #if VMG_HAS_PERL_MAINT(5, 11, 0, 34908) || VMG_HAS_PERL(5, 12, 0) # define VMG_COMPAT_ARRAY_UNSHIFT_NOLEN_VOID 1 #else # define VMG_COMPAT_ARRAY_UNSHIFT_NOLEN_VOID 0 #endif /* Applied to dev-5.9 as 31473 (see #43357), integrated to maint-5.8 as 32542 */ #if VMG_HAS_PERL_MAINT(5, 8, 9, 32542) || VMG_HAS_PERL_MAINT(5, 9, 5, 31473) || VMG_HAS_PERL(5, 10, 0) # define VMG_COMPAT_ARRAY_UNDEF_CLEAR 1 #else # define VMG_COMPAT_ARRAY_UNDEF_CLEAR 0 #endif #if VMG_HAS_PERL_MAINT(5, 11, 0, 32969) || VMG_HAS_PERL(5, 12, 0) # define VMG_COMPAT_SCALAR_LENGTH_NOLEN 1 #else # define VMG_COMPAT_SCALAR_LENGTH_NOLEN 0 #endif #if VMG_HAS_PERL(5, 13, 2) # define VMG_COMPAT_GLOB_GET 1 #else # define VMG_COMPAT_GLOB_GET 0 #endif /* ... Bug-free mg_magical ................................................. */ /* See the discussion at http://www.xray.mpe.mpg.de/mailing-lists/perl5-porters/2008-01/msg00036.html. This version is specialized to our needs. */ #if VMG_UVAR STATIC void vmg_sv_magicuvar(pTHX_ SV *sv, const char *uf, I32 len) { #define vmg_sv_magicuvar(S, U, L) vmg_sv_magicuvar(aTHX_ (S), (U), (L)) const MAGIC* mg; sv_magic(sv, NULL, PERL_MAGIC_uvar, uf, len); /* uvar magic has set and get magic, hence this has set SVs_GMG and SVs_SMG. */ if ((mg = SvMAGIC(sv))) { SvRMAGICAL_off(sv); do { const MGVTBL* const vtbl = mg->mg_virtual; if (vtbl) { if (vtbl->svt_clear) { SvRMAGICAL_on(sv); break; } } } while ((mg = mg->mg_moremagic)); } } #endif /* VMG_UVAR */ /* ... Safe version of call_sv() ........................................... */ #define VMG_SAVE_LAST_CX (!VMG_HAS_PERL(5, 8, 4) || VMG_HAS_PERL(5, 9, 5)) STATIC I32 vmg_call_sv(pTHX_ SV *sv, I32 flags, I32 destructor) { #define vmg_call_sv(S, F, D) vmg_call_sv(aTHX_ (S), (F), (D)) I32 ret, cxix = 0, in_eval = 0; #if VMG_SAVE_LAST_CX PERL_CONTEXT saved_cx; #endif SV *old_err = NULL; if (SvTRUE(ERRSV)) { old_err = ERRSV; ERRSV = newSV(0); } if (cxstack_ix < cxstack_max) { cxix = cxstack_ix + 1; if (destructor && CxTYPE(cxstack + cxix) == CXt_EVAL) in_eval = 1; } #if VMG_SAVE_LAST_CX /* The last popped context will be reused by call_sv(), but our callers may * still need its previous value. Back it up so that it isn't clobbered. */ saved_cx = cxstack[cxix]; #endif ret = call_sv(sv, flags | G_EVAL); #if VMG_SAVE_LAST_CX cxstack[cxix] = saved_cx; #endif if (SvTRUE(ERRSV)) { if (old_err) { sv_setsv(old_err, ERRSV); SvREFCNT_dec(ERRSV); ERRSV = old_err; } if (IN_PERL_COMPILETIME) { if (!PL_in_eval) { if (PL_errors) sv_catsv(PL_errors, ERRSV); else Perl_warn(aTHX_ "%s", SvPV_nolen(ERRSV)); SvCUR_set(ERRSV, 0); } #if VMG_HAS_PERL(5, 10, 0) || defined(PL_parser) if (PL_parser) ++PL_parser->error_count; #elif defined(PL_error_count) ++PL_error_count; #else ++PL_Ierror_count; #endif } else if (!in_eval) croak(NULL); } else { if (old_err) { SvREFCNT_dec(ERRSV); ERRSV = old_err; } } return ret; } /* --- Stolen chunk of B --------------------------------------------------- */ typedef enum { OPc_NULL = 0, OPc_BASEOP = 1, OPc_UNOP = 2, OPc_BINOP = 3, OPc_LOGOP = 4, OPc_LISTOP = 5, OPc_PMOP = 6, OPc_SVOP = 7, OPc_PADOP = 8, OPc_PVOP = 9, OPc_LOOP = 10, OPc_COP = 11, OPc_MAX = 12 } opclass; STATIC const char *const vmg_opclassnames[] = { "B::NULL", "B::OP", "B::UNOP", "B::BINOP", "B::LOGOP", "B::LISTOP", "B::PMOP", "B::SVOP", "B::PADOP", "B::PVOP", "B::LOOP", "B::COP" }; STATIC opclass vmg_opclass(const OP *o) { #if 0 if (!o) return OPc_NULL; #endif if (o->op_type == 0) return (o->op_flags & OPf_KIDS) ? OPc_UNOP : OPc_BASEOP; if (o->op_type == OP_SASSIGN) return ((o->op_private & OPpASSIGN_BACKWARDS) ? OPc_UNOP : OPc_BINOP); if (o->op_type == OP_AELEMFAST) { if (o->op_flags & OPf_SPECIAL) return OPc_BASEOP; else #ifdef USE_ITHREADS return OPc_PADOP; #else return OPc_SVOP; #endif } #ifdef USE_ITHREADS if (o->op_type == OP_GV || o->op_type == OP_GVSV || o->op_type == OP_RCATLINE) return OPc_PADOP; #endif switch (PL_opargs[o->op_type] & OA_CLASS_MASK) { case OA_BASEOP: return OPc_BASEOP; case OA_UNOP: return OPc_UNOP; case OA_BINOP: return OPc_BINOP; case OA_LOGOP: return OPc_LOGOP; case OA_LISTOP: return OPc_LISTOP; case OA_PMOP: return OPc_PMOP; case OA_SVOP: return OPc_SVOP; case OA_PADOP: return OPc_PADOP; case OA_PVOP_OR_SVOP: return (o->op_private & (OPpTRANS_TO_UTF|OPpTRANS_FROM_UTF)) ? OPc_SVOP : OPc_PVOP; case OA_LOOP: return OPc_LOOP; case OA_COP: return OPc_COP; case OA_BASEOP_OR_UNOP: return (o->op_flags & OPf_KIDS) ? OPc_UNOP : OPc_BASEOP; case OA_FILESTATOP: return ((o->op_flags & OPf_KIDS) ? OPc_UNOP : #ifdef USE_ITHREADS (o->op_flags & OPf_REF) ? OPc_PADOP : OPc_BASEOP); #else (o->op_flags & OPf_REF) ? OPc_SVOP : OPc_BASEOP); #endif case OA_LOOPEXOP: if (o->op_flags & OPf_STACKED) return OPc_UNOP; else if (o->op_flags & OPf_SPECIAL) return OPc_BASEOP; else return OPc_PVOP; } return OPc_BASEOP; } /* --- Error messages ------------------------------------------------------ */ STATIC const char vmg_invalid_wiz[] = "Invalid wizard object"; STATIC const char vmg_wrongargnum[] = "Wrong number of arguments"; STATIC const char vmg_argstorefailed[] = "Error while storing arguments"; /* --- Signatures ---------------------------------------------------------- */ #define SIG_WZO ((U16) (0x3891)) #define SIG_WIZ ((U16) (0x3892)) /* --- MGWIZ structure ----------------------------------------------------- */ typedef struct { MGVTBL *vtbl; U8 opinfo; U8 uvar; SV *cb_data; SV *cb_get, *cb_set, *cb_len, *cb_clear, *cb_free; #if MGf_COPY SV *cb_copy; #endif /* MGf_COPY */ #if MGf_DUP SV *cb_dup; #endif /* MGf_DUP */ #if MGf_LOCAL SV *cb_local; #endif /* MGf_LOCAL */ #if VMG_UVAR SV *cb_fetch, *cb_store, *cb_exists, *cb_delete; #endif /* VMG_UVAR */ #if VMG_MULTIPLICITY tTHX owner; #endif /* VMG_MULTIPLICITY */ } MGWIZ; STATIC void vmg_mgwiz_free(pTHX_ MGWIZ *w) { #define vmg_mgwiz_free(W) vmg_mgwiz_free(aTHX_ (W)) if (!w) return; if (w->cb_data) SvREFCNT_dec(w->cb_data); if (w->cb_get) SvREFCNT_dec(w->cb_get); if (w->cb_set) SvREFCNT_dec(w->cb_set); if (w->cb_len) SvREFCNT_dec(w->cb_len); if (w->cb_clear) SvREFCNT_dec(w->cb_clear); if (w->cb_free) SvREFCNT_dec(w->cb_free); #if MGf_COPY if (w->cb_copy) SvREFCNT_dec(w->cb_copy); #endif /* MGf_COPY */ #if 0 /* MGf_DUP */ if (w->cb_dup) SvREFCNT_dec(w->cb_dup); #endif /* MGf_DUP */ #if MGf_LOCAL if (w->cb_local) SvREFCNT_dec(w->cb_local); #endif /* MGf_LOCAL */ #if VMG_UVAR if (w->cb_fetch) SvREFCNT_dec(w->cb_fetch); if (w->cb_store) SvREFCNT_dec(w->cb_store); if (w->cb_exists) SvREFCNT_dec(w->cb_exists); if (w->cb_delete) SvREFCNT_dec(w->cb_delete); #endif /* VMG_UVAR */ Safefree(w->vtbl); Safefree(w); return; } #if VMG_THREADSAFE #define VMG_CLONE_CB(N) \ z->cb_ ## N = (w->cb_ ## N) ? vmg_clone(w->cb_ ## N, w->owner) \ : NULL; STATIC MGWIZ *vmg_mgwiz_clone(pTHX_ const MGWIZ *w) { #define vmg_mgwiz_clone(W) vmg_mgwiz_clone(aTHX_ (W)) MGVTBL *t; MGWIZ *z; if (!w) return NULL; Newx(t, 1, MGVTBL); Copy(w->vtbl, t, 1, MGVTBL); Newx(z, 1, MGWIZ); z->vtbl = t; z->uvar = w->uvar; z->opinfo = w->opinfo; VMG_CLONE_CB(data); VMG_CLONE_CB(get); VMG_CLONE_CB(set); VMG_CLONE_CB(len); VMG_CLONE_CB(clear); VMG_CLONE_CB(free); #if MGf_COPY VMG_CLONE_CB(copy); #endif /* MGf_COPY */ #if MGf_DUP VMG_CLONE_CB(dup); #endif /* MGf_DUP */ #if MGf_LOCAL VMG_CLONE_CB(local); #endif /* MGf_LOCAL */ #if VMG_UVAR VMG_CLONE_CB(fetch); VMG_CLONE_CB(store); VMG_CLONE_CB(exists); VMG_CLONE_CB(delete); #endif /* VMG_UVAR */ z->owner = aTHX; return z; } #endif /* VMG_THREADSAFE */ /* --- Context-safe global data -------------------------------------------- */ #if VMG_THREADSAFE #define PTABLE_NAME ptable #define PTABLE_VAL_FREE(V) vmg_mgwiz_free(V) #define pPTBL pTHX #define pPTBL_ pTHX_ #define aPTBL aTHX #define aPTBL_ aTHX_ #include "ptable.h" #define ptable_store(T, K, V) ptable_store(aTHX_ (T), (K), (V)) #define ptable_clear(T) ptable_clear(aTHX_ (T)) #define ptable_free(T) ptable_free(aTHX_ (T)) #endif /* VMG_THREADSAFE */ #define MY_CXT_KEY __PACKAGE__ "::_guts" XS_VERSION typedef struct { #if VMG_THREADSAFE ptable *wizards; tTHX owner; #endif HV *b__op_stashes[OPc_MAX]; } my_cxt_t; START_MY_CXT #if VMG_THREADSAFE STATIC void vmg_ptable_clone(pTHX_ ptable_ent *ent, void *ud_) { my_cxt_t *ud = ud_; MGWIZ *w; if (ud->owner == aTHX) return; w = vmg_mgwiz_clone(ent->val); if (w) ptable_store(ud->wizards, ent->key, w); } #endif /* VMG_THREADSAFE */ /* --- Wizard objects ------------------------------------------------------ */ STATIC int vmg_wizard_free(pTHX_ SV *sv, MAGIC *mg); STATIC MGVTBL vmg_wizard_vtbl = { NULL, /* get */ NULL, /* set */ NULL, /* len */ NULL, /* clear */ vmg_wizard_free, /* free */ #if MGf_COPY NULL, /* copy */ #endif /* MGf_COPY */ #if MGf_DUP NULL, /* dup */ #endif /* MGf_DUP */ #if MGf_LOCAL NULL, /* local */ #endif /* MGf_LOCAL */ }; /* ... Wizard constructor .................................................. */ STATIC SV *vmg_wizard_new(pTHX_ const MGWIZ *w) { #define vmg_wizard_new(W) vmg_wizard_new(aTHX_ (W)) SV *wiz = newSVuv(PTR2IV(w)); if (w) { MAGIC *mg = sv_magicext(wiz, NULL, PERL_MAGIC_ext, &vmg_wizard_vtbl, NULL, 0); mg->mg_private = SIG_WZO; } SvREADONLY_on(wiz); return wiz; } STATIC const SV *vmg_wizard_validate(pTHX_ const SV *wiz) { #define vmg_wizard_validate(W) vmg_wizard_validate(aTHX_ (W)) if (SvROK(wiz)) { wiz = SvRV_const(wiz); if (SvIOK(wiz)) return wiz; } croak(vmg_invalid_wiz); /* Not reached */ return NULL; } #define vmg_wizard_id(W) SvIVX((const SV *) (W)) #define vmg_wizard_main_mgwiz(W) INT2PTR(const MGWIZ *, vmg_wizard_id(W)) /* ... Wizard destructor ................................................... */ STATIC int vmg_wizard_free(pTHX_ SV *sv, MAGIC *mg) { MGWIZ *w; if (PL_dirty) /* During global destruction, the context is already freed */ return 0; w = (MGWIZ *) vmg_wizard_main_mgwiz(sv); #if VMG_THREADSAFE { dMY_CXT; ptable_store(MY_CXT.wizards, w, NULL); } #else /* VMG_THREADSAFE */ vmg_mgwiz_free(w); #endif /* !VMG_THREADSAFE */ return 0; } #if VMG_THREADSAFE STATIC const MGWIZ *vmg_wizard_mgwiz(pTHX_ const SV *wiz) { #define vmg_wizard_mgwiz(W) vmg_wizard_mgwiz(aTHX_ ((const SV *) (W))) const MGWIZ *w; w = vmg_wizard_main_mgwiz(wiz); if (w->owner == aTHX) return w; { dMY_CXT; return ptable_fetch(MY_CXT.wizards, w); } } #else /* VMG_THREADSAFE */ #define vmg_wizard_mgwiz(W) vmg_wizard_main_mgwiz(W) #endif /* !VMG_THREADSAFE */ /* --- User-level functions implementation --------------------------------- */ STATIC const MAGIC *vmg_find(const SV *sv, const SV *wiz) { const MAGIC *mg, *moremagic; IV wid; if (SvTYPE(sv) < SVt_PVMG) return NULL; wid = vmg_wizard_id(wiz); for (mg = SvMAGIC(sv); mg; mg = moremagic) { moremagic = mg->mg_moremagic; if (mg->mg_type == PERL_MAGIC_ext && mg->mg_private == SIG_WIZ) { IV zid = vmg_wizard_id(mg->mg_ptr); if (zid == wid) return mg; } } return NULL; } /* ... Construct private data .............................................. */ STATIC SV *vmg_data_new(pTHX_ SV *ctor, SV *sv, SV **args, I32 items) { #define vmg_data_new(C, S, A, I) vmg_data_new(aTHX_ (C), (S), (A), (I)) I32 i; SV *nsv; dSP; ENTER; SAVETMPS; PUSHMARK(SP); EXTEND(SP, items + 1); PUSHs(sv_2mortal(newRV_inc(sv))); for (i = 0; i < items; ++i) PUSHs(args[i]); PUTBACK; vmg_call_sv(ctor, G_SCALAR, 0); SPAGAIN; nsv = POPs; #if VMG_HAS_PERL(5, 8, 3) SvREFCNT_inc_simple_void(nsv); /* Or it will be destroyed in FREETMPS */ #else nsv = sv_newref(nsv); /* Workaround some bug in SvREFCNT_inc() */ #endif PUTBACK; FREETMPS; LEAVE; return nsv; } STATIC SV *vmg_data_get(pTHX_ SV *sv, const SV *wiz) { #define vmg_data_get(S, W) vmg_data_get(aTHX_ (S), (W)) const MAGIC *mg = vmg_find(sv, wiz); return mg ? mg->mg_obj : NULL; } /* ... Magic cast/dispell .................................................. */ #if VMG_UVAR STATIC I32 vmg_svt_val(pTHX_ IV, SV *); STATIC void vmg_uvar_del(SV *sv, MAGIC *prevmagic, MAGIC *mg, MAGIC *moremagic) { if (prevmagic) { prevmagic->mg_moremagic = moremagic; } else { SvMAGIC_set(sv, moremagic); } mg->mg_moremagic = NULL; Safefree(mg->mg_ptr); Safefree(mg); } #endif /* VMG_UVAR */ STATIC UV vmg_cast(pTHX_ SV *sv, const SV *wiz, SV **args, I32 items) { #define vmg_cast(S, W, A, I) vmg_cast(aTHX_ (S), (W), (A), (I)) MAGIC *mg, *moremagic = NULL; SV *data; const MGWIZ *w; U32 oldgmg; if (vmg_find(sv, wiz)) return 1; w = vmg_wizard_mgwiz(wiz); oldgmg = SvGMAGICAL(sv); data = (w->cb_data) ? vmg_data_new(w->cb_data, sv, args, items) : NULL; mg = sv_magicext(sv, data, PERL_MAGIC_ext, w->vtbl, (const char *) wiz, HEf_SVKEY); SvREFCNT_dec(data); mg->mg_private = SIG_WIZ; #if MGf_COPY if (w->cb_copy) mg->mg_flags |= MGf_COPY; #endif /* MGf_COPY */ #if 0 /* MGf_DUP */ if (w->cb_dup) mg->mg_flags |= MGf_DUP; #endif /* MGf_DUP */ #if MGf_LOCAL if (w->cb_local) mg->mg_flags |= MGf_LOCAL; #endif /* MGf_LOCAL */ if (SvTYPE(sv) < SVt_PVHV) goto done; /* The GMAGICAL flag only says that a hash is tied or has uvar magic - get * magic is actually never called for them. If the GMAGICAL flag was off before * calling sv_magicext(), the hash isn't tied and has no uvar magic. If it's * now on, then this wizard has get magic. Hence we can work around the * get/clear shortcoming by turning the GMAGICAL flag off. If the current magic * has uvar callbacks, it will be turned back on later. */ if (!oldgmg && SvGMAGICAL(sv)) SvGMAGICAL_off(sv); #if VMG_UVAR if (w->uvar) { MAGIC *prevmagic; struct ufuncs uf[2]; uf[0].uf_val = vmg_svt_val; uf[0].uf_set = NULL; uf[0].uf_index = 0; uf[1].uf_val = NULL; uf[1].uf_set = NULL; uf[1].uf_index = 0; /* One uvar magic in the chain is enough. */ for (prevmagic = NULL, mg = SvMAGIC(sv); mg; prevmagic = mg, mg = moremagic) { moremagic = mg->mg_moremagic; if (mg->mg_type == PERL_MAGIC_uvar) break; } if (mg) { /* Found another uvar magic. */ struct ufuncs *olduf = (struct ufuncs *) mg->mg_ptr; if (olduf->uf_val == vmg_svt_val) { /* It's our uvar magic, nothing to do. oldgmg was true. */ goto done; } else { /* It's another uvar magic, backup it and replace it by ours. */ uf[1] = *olduf; vmg_uvar_del(sv, prevmagic, mg, moremagic); } } vmg_sv_magicuvar(sv, (const char *) &uf, sizeof(uf)); /* Our hash now carries uvar magic. The uvar/clear shortcoming has to be * handled by our uvar callback. */ } #endif /* VMG_UVAR */ done: return 1; } STATIC UV vmg_dispell(pTHX_ SV *sv, const SV *wiz) { #define vmg_dispell(S, W) vmg_dispell(aTHX_ (S), (W)) #if VMG_UVAR U32 uvars = 0; #endif /* VMG_UVAR */ MAGIC *mg, *prevmagic, *moremagic = NULL; IV wid = vmg_wizard_id(wiz); if (SvTYPE(sv) < SVt_PVMG) return 0; for (prevmagic = NULL, mg = SvMAGIC(sv); mg; prevmagic = mg, mg = moremagic) { moremagic = mg->mg_moremagic; if (mg->mg_type == PERL_MAGIC_ext && mg->mg_private == SIG_WIZ) { const MGWIZ *z = vmg_wizard_mgwiz(mg->mg_ptr); IV zid = vmg_wizard_id(mg->mg_ptr); if (zid == wid) { #if VMG_UVAR /* If the current has no uvar, short-circuit uvar deletion. */ uvars = z->uvar ? (uvars + 1) : 0; #endif /* VMG_UVAR */ break; #if VMG_UVAR } else if (z->uvar) { ++uvars; /* We can't break here since we need to find the ext magic to delete. */ #endif /* VMG_UVAR */ } } } if (!mg) return 0; if (prevmagic) { prevmagic->mg_moremagic = moremagic; } else { SvMAGIC_set(sv, moremagic); } mg->mg_moremagic = NULL; /* Destroy private data */ if (mg->mg_obj != sv) SvREFCNT_dec(mg->mg_obj); /* Unreference the wizard */ SvREFCNT_dec((SV *) mg->mg_ptr); Safefree(mg); #if VMG_UVAR if (uvars == 1 && SvTYPE(sv) >= SVt_PVHV) { /* mg was the first ext magic in the chain that had uvar */ for (mg = moremagic; mg; mg = mg->mg_moremagic) { if (mg->mg_type == PERL_MAGIC_ext && mg->mg_private == SIG_WIZ) { const MGWIZ *z = vmg_wizard_mgwiz(mg->mg_ptr); if (z->uvar) { ++uvars; break; } } } if (uvars == 1) { struct ufuncs *uf; for (prevmagic = NULL, mg = SvMAGIC(sv); mg; prevmagic = mg, mg = moremagic){ moremagic = mg->mg_moremagic; if (mg->mg_type == PERL_MAGIC_uvar) break; } /* assert(mg); */ uf = (struct ufuncs *) mg->mg_ptr; /* assert(uf->uf_val == vmg_svt_val); */ if (uf[1].uf_val || uf[1].uf_set) { /* Revert the original uvar magic. */ uf[0] = uf[1]; Renew(uf, 1, struct ufuncs); mg->mg_ptr = (char *) uf; mg->mg_len = sizeof(struct ufuncs); } else { /* Remove the uvar magic. */ vmg_uvar_del(sv, prevmagic, mg, moremagic); } } } #endif /* VMG_UVAR */ return 1; } /* ... OP info ............................................................. */ #define VMG_OP_INFO_NAME 1 #define VMG_OP_INFO_OBJECT 2 #if VMG_THREADSAFE STATIC perl_mutex vmg_op_name_init_mutex; #endif STATIC U32 vmg_op_name_init = 0; STATIC unsigned char vmg_op_name_len[MAXO] = { 0 }; STATIC void vmg_op_info_init(pTHX_ unsigned int opinfo) { #define vmg_op_info_init(W) vmg_op_info_init(aTHX_ (W)) switch (opinfo) { case VMG_OP_INFO_NAME: #if VMG_THREADSAFE MUTEX_LOCK(&vmg_op_name_init_mutex); #endif if (!vmg_op_name_init) { OPCODE t; for (t = 0; t < OP_max; ++t) vmg_op_name_len[t] = strlen(PL_op_name[t]); vmg_op_name_init = 1; } #if VMG_THREADSAFE MUTEX_UNLOCK(&vmg_op_name_init_mutex); #endif break; case VMG_OP_INFO_OBJECT: { dMY_CXT; if (!MY_CXT.b__op_stashes[0]) { opclass c; require_pv("B.pm"); for (c = OPc_NULL; c < OPc_MAX; ++c) MY_CXT.b__op_stashes[c] = gv_stashpv(vmg_opclassnames[c], 1); } break; } default: break; } } STATIC SV *vmg_op_info(pTHX_ unsigned int opinfo) { #define vmg_op_info(W) vmg_op_info(aTHX_ (W)) if (!PL_op) return &PL_sv_undef; switch (opinfo) { case VMG_OP_INFO_NAME: { OPCODE t = PL_op->op_type; return sv_2mortal(newSVpvn(PL_op_name[t], vmg_op_name_len[t])); } case VMG_OP_INFO_OBJECT: { dMY_CXT; return sv_bless(sv_2mortal(newRV_noinc(newSViv(PTR2IV(PL_op)))), MY_CXT.b__op_stashes[vmg_opclass(PL_op)]); } default: break; } return &PL_sv_undef; } /* ... svt callbacks ....................................................... */ #define VMG_CB_CALL_ARGS_MASK 15 #define VMG_CB_CALL_ARGS_SHIFT 4 #define VMG_CB_CALL_OPINFO (VMG_OP_INFO_NAME|VMG_OP_INFO_OBJECT) STATIC int vmg_cb_call(pTHX_ SV *cb, unsigned int flags, SV *sv, ...) { va_list ap; int ret = 0; unsigned int i, args, opinfo; SV *svr; dSP; args = flags & VMG_CB_CALL_ARGS_MASK; flags >>= VMG_CB_CALL_ARGS_SHIFT; opinfo = flags & VMG_CB_CALL_OPINFO; ENTER; SAVETMPS; PUSHMARK(SP); EXTEND(SP, args + 1); PUSHs(sv_2mortal(newRV_inc(sv))); va_start(ap, sv); for (i = 0; i < args; ++i) { SV *sva = va_arg(ap, SV *); PUSHs(sva ? sva : &PL_sv_undef); } va_end(ap); if (opinfo) XPUSHs(vmg_op_info(opinfo)); PUTBACK; vmg_call_sv(cb, G_SCALAR, 0); SPAGAIN; svr = POPs; if (SvOK(svr)) ret = (int) SvIV(svr); PUTBACK; FREETMPS; LEAVE; return ret; } #define VMG_CB_FLAGS(OI, A) \ ((((unsigned int) (OI)) << VMG_CB_CALL_ARGS_SHIFT) | (A)) #define vmg_cb_call1(I, OI, S, A1) \ vmg_cb_call(aTHX_ (I), VMG_CB_FLAGS((OI), 1), (S), (A1)) #define vmg_cb_call2(I, OI, S, A1, A2) \ vmg_cb_call(aTHX_ (I), VMG_CB_FLAGS((OI), 2), (S), (A1), (A2)) #define vmg_cb_call3(I, OI, S, A1, A2, A3) \ vmg_cb_call(aTHX_ (I), VMG_CB_FLAGS((OI), 3), (S), (A1), (A2), (A3)) STATIC int vmg_svt_get(pTHX_ SV *sv, MAGIC *mg) { const MGWIZ *w = vmg_wizard_mgwiz(mg->mg_ptr); return vmg_cb_call1(w->cb_get, w->opinfo, sv, mg->mg_obj); } STATIC int vmg_svt_set(pTHX_ SV *sv, MAGIC *mg) { const MGWIZ *w = vmg_wizard_mgwiz(mg->mg_ptr); return vmg_cb_call1(w->cb_set, w->opinfo, sv, mg->mg_obj); } STATIC U32 vmg_svt_len(pTHX_ SV *sv, MAGIC *mg) { const MGWIZ *w = vmg_wizard_mgwiz(mg->mg_ptr); unsigned int opinfo = w->opinfo; U32 len, ret; SV *svr; svtype t = SvTYPE(sv); dSP; ENTER; SAVETMPS; PUSHMARK(SP); EXTEND(SP, 3); PUSHs(sv_2mortal(newRV_inc(sv))); PUSHs(mg->mg_obj ? mg->mg_obj : &PL_sv_undef); if (t < SVt_PVAV) { STRLEN l; #if VMG_HAS_PERL(5, 9, 3) const U8 *s = SvPV_const(sv, l); #else U8 *s = SvPV(sv, l); #endif if (DO_UTF8(sv)) len = utf8_length(s, s + l); else len = l; mPUSHu(len); } else if (t == SVt_PVAV) { len = av_len((AV *) sv) + 1; mPUSHu(len); } else { len = 0; PUSHs(&PL_sv_undef); } if (opinfo) XPUSHs(vmg_op_info(opinfo)); PUTBACK; vmg_call_sv(w->cb_len, G_SCALAR, 0); SPAGAIN; svr = POPs; ret = SvOK(svr) ? (U32) SvUV(svr) : len; if (t == SVt_PVAV) --ret; PUTBACK; FREETMPS; LEAVE; return ret; } STATIC int vmg_svt_clear(pTHX_ SV *sv, MAGIC *mg) { const MGWIZ *w = vmg_wizard_mgwiz(mg->mg_ptr); return vmg_cb_call1(w->cb_clear, w->opinfo, sv, mg->mg_obj); } STATIC int vmg_svt_free(pTHX_ SV *sv, MAGIC *mg) { const MGWIZ *w; int ret = 0; SV *svr; dSP; /* Don't even bother if we are in global destruction - the wizard is prisoner * of circular references and we are way beyond user realm */ if (PL_dirty) return 0; w = vmg_wizard_mgwiz(mg->mg_ptr); /* So that it survives the temp cleanup below */ SvREFCNT_inc_simple_void(sv); #if !(VMG_HAS_PERL_MAINT(5, 11, 0, 32686) || VMG_HAS_PERL(5, 12, 0)) /* The previous magic tokens were freed but the magic chain wasn't updated, so * if you access the sv from the callback the old deleted magics will trigger * and cause memory misreads. Change 32686 solved it that way : */ SvMAGIC_set(sv, mg); #endif ENTER; SAVETMPS; PUSHMARK(SP); EXTEND(SP, 2); PUSHs(sv_2mortal(newRV_inc(sv))); PUSHs(mg->mg_obj ? mg->mg_obj : &PL_sv_undef); if (w->opinfo) XPUSHs(vmg_op_info(w->opinfo)); PUTBACK; vmg_call_sv(w->cb_free, G_SCALAR, 1); SPAGAIN; svr = POPs; if (SvOK(svr)) ret = (int) SvIV(svr); PUTBACK; FREETMPS; LEAVE; /* Calling SvREFCNT_dec() will trigger destructors in an infinite loop, so * we have to rely on SvREFCNT() being a lvalue. Heck, even the core does it */ --SvREFCNT(sv); /* Perl_mg_free will get rid of the magic and decrement mg->mg_obj and * mg->mg_ptr reference count */ return ret; } #if MGf_COPY STATIC int vmg_svt_copy(pTHX_ SV *sv, MAGIC *mg, SV *nsv, const char *key, # if VMG_HAS_PERL_MAINT(5, 11, 0, 33256) || VMG_HAS_PERL(5, 12, 0) I32 keylen # else int keylen # endif ) { SV *keysv; const MGWIZ *w = vmg_wizard_mgwiz(mg->mg_ptr); int ret; if (keylen == HEf_SVKEY) { keysv = (SV *) key; } else { keysv = newSVpvn(key, keylen); } ret = vmg_cb_call3(w->cb_copy, w->opinfo, sv, mg->mg_obj, keysv, nsv); if (keylen != HEf_SVKEY) { SvREFCNT_dec(keysv); } return ret; } #endif /* MGf_COPY */ #if 0 /* MGf_DUP */ STATIC int vmg_svt_dup(pTHX_ MAGIC *mg, CLONE_PARAMS *param) { return 0; } #endif /* MGf_DUP */ #if MGf_LOCAL STATIC int vmg_svt_local(pTHX_ SV *nsv, MAGIC *mg) { const MGWIZ *w = vmg_wizard_mgwiz(mg->mg_ptr); return vmg_cb_call1(w->cb_local, w->opinfo, nsv, mg->mg_obj); } #endif /* MGf_LOCAL */ #if VMG_UVAR STATIC OP *vmg_pp_resetuvar(pTHX) { SvRMAGICAL_on(cSVOP_sv); return NORMAL; } STATIC I32 vmg_svt_val(pTHX_ IV action, SV *sv) { struct ufuncs *uf; MAGIC *mg, *umg; SV *key = NULL, *newkey = NULL; int tied = 0; umg = mg_find(sv, PERL_MAGIC_uvar); /* umg can't be NULL or we wouldn't be there. */ key = umg->mg_obj; uf = (struct ufuncs *) umg->mg_ptr; if (uf[1].uf_val) uf[1].uf_val(aTHX_ action, sv); if (uf[1].uf_set) uf[1].uf_set(aTHX_ action, sv); action &= HV_FETCH_ISSTORE | HV_FETCH_ISEXISTS | HV_FETCH_LVALUE | HV_DELETE; for (mg = SvMAGIC(sv); mg; mg = mg->mg_moremagic) { const MGWIZ *w; switch (mg->mg_type) { case PERL_MAGIC_ext: break; case PERL_MAGIC_tied: ++tied; continue; default: continue; } if (mg->mg_private != SIG_WIZ) continue; w = vmg_wizard_mgwiz(mg->mg_ptr); switch (w->uvar) { case 0: continue; case 2: if (!newkey) newkey = key = umg->mg_obj = sv_mortalcopy(umg->mg_obj); } switch (action) { case 0: if (w->cb_fetch) vmg_cb_call2(w->cb_fetch, w->opinfo, sv, mg->mg_obj, key); break; case HV_FETCH_ISSTORE: case HV_FETCH_LVALUE: case (HV_FETCH_ISSTORE|HV_FETCH_LVALUE): if (w->cb_store) vmg_cb_call2(w->cb_store, w->opinfo, sv, mg->mg_obj, key); break; case HV_FETCH_ISEXISTS: if (w->cb_exists) vmg_cb_call2(w->cb_exists, w->opinfo, sv, mg->mg_obj, key); break; case HV_DELETE: if (w->cb_delete) vmg_cb_call2(w->cb_delete, w->opinfo, sv, mg->mg_obj, key); break; } } if (SvRMAGICAL(sv) && !tied) { /* Temporarily hide the RMAGICAL flag of the hash so it isn't wrongly * mistaken for a tied hash by the rest of hv_common. It will be reset by * the op_ppaddr of a new fake op injected between the current and the next * one. */ OP *o = PL_op; if (!o->op_next || o->op_next->op_ppaddr != vmg_pp_resetuvar) { SVOP *svop; NewOp(1101, svop, 1, SVOP); svop->op_type = OP_STUB; svop->op_ppaddr = vmg_pp_resetuvar; svop->op_next = o->op_next; svop->op_flags = 0; svop->op_sv = sv; o->op_next = (OP *) svop; } SvRMAGICAL_off(sv); } return 0; } #endif /* VMG_UVAR */ /* --- Macros for the XS section ------------------------------------------- */ #define VMG_SET_CB(S, N) \ cb = (S); \ w->cb_ ## N = (SvOK(cb) && SvROK(cb)) ? SvREFCNT_inc(SvRV(cb)) : NULL; #define VMG_SET_SVT_CB(S, N) \ cb = (S); \ if (SvOK(cb) && SvROK(cb)) { \ t->svt_ ## N = vmg_svt_ ## N; \ w->cb_ ## N = SvREFCNT_inc(SvRV(cb)); \ } else { \ t->svt_ ## N = NULL; \ w->cb_ ## N = NULL; \ } #if VMG_THREADSAFE STATIC void vmg_cleanup(pTHX_ void *ud) { dMY_CXT; ptable_free(MY_CXT.wizards); MY_CXT.wizards = NULL; } #endif /* VMG_THREADSAFE */ /* --- XS ------------------------------------------------------------------ */ MODULE = Variable::Magic PACKAGE = Variable::Magic PROTOTYPES: ENABLE BOOT: { HV *stash; MY_CXT_INIT; #if VMG_THREADSAFE MY_CXT.wizards = ptable_new(); MY_CXT.owner = aTHX; #endif MY_CXT.b__op_stashes[0] = NULL; #if VMG_THREADSAFE MUTEX_INIT(&vmg_op_name_init_mutex); call_atexit(vmg_cleanup, NULL); #endif stash = gv_stashpv(__PACKAGE__, 1); newCONSTSUB(stash, "MGf_COPY", newSVuv(MGf_COPY)); newCONSTSUB(stash, "MGf_DUP", newSVuv(MGf_DUP)); newCONSTSUB(stash, "MGf_LOCAL", newSVuv(MGf_LOCAL)); newCONSTSUB(stash, "VMG_UVAR", newSVuv(VMG_UVAR)); newCONSTSUB(stash, "VMG_COMPAT_ARRAY_PUSH_NOLEN", newSVuv(VMG_COMPAT_ARRAY_PUSH_NOLEN)); newCONSTSUB(stash, "VMG_COMPAT_ARRAY_PUSH_NOLEN_VOID", newSVuv(VMG_COMPAT_ARRAY_PUSH_NOLEN_VOID)); newCONSTSUB(stash, "VMG_COMPAT_ARRAY_UNSHIFT_NOLEN_VOID", newSVuv(VMG_COMPAT_ARRAY_UNSHIFT_NOLEN_VOID)); newCONSTSUB(stash, "VMG_COMPAT_ARRAY_UNDEF_CLEAR", newSVuv(VMG_COMPAT_ARRAY_UNDEF_CLEAR)); newCONSTSUB(stash, "VMG_COMPAT_SCALAR_LENGTH_NOLEN", newSVuv(VMG_COMPAT_SCALAR_LENGTH_NOLEN)); newCONSTSUB(stash, "VMG_COMPAT_GLOB_GET", newSVuv(VMG_COMPAT_GLOB_GET)); newCONSTSUB(stash, "VMG_PERL_PATCHLEVEL", newSVuv(VMG_PERL_PATCHLEVEL)); newCONSTSUB(stash, "VMG_THREADSAFE", newSVuv(VMG_THREADSAFE)); newCONSTSUB(stash, "VMG_FORKSAFE", newSVuv(VMG_FORKSAFE)); newCONSTSUB(stash, "VMG_OP_INFO_NAME", newSVuv(VMG_OP_INFO_NAME)); newCONSTSUB(stash, "VMG_OP_INFO_OBJECT", newSVuv(VMG_OP_INFO_OBJECT)); } #if VMG_THREADSAFE void CLONE(...) PROTOTYPE: DISABLE PREINIT: ptable *t; U32 had_b__op_stash = 0; opclass c; PPCODE: { my_cxt_t ud; dMY_CXT; ud.wizards = t = ptable_new(); ud.owner = MY_CXT.owner; ptable_walk(MY_CXT.wizards, vmg_ptable_clone, &ud); for (c = OPc_NULL; c < OPc_MAX; ++c) { if (MY_CXT.b__op_stashes[c]) had_b__op_stash |= (((U32) 1) << c); } } { MY_CXT_CLONE; MY_CXT.wizards = t; MY_CXT.owner = aTHX; for (c = OPc_NULL; c < OPc_MAX; ++c) { MY_CXT.b__op_stashes[c] = (had_b__op_stash & (((U32) 1) << c)) ? gv_stashpv(vmg_opclassnames[c], 1) : NULL; } } XSRETURN(0); #endif /* VMG_THREADSAFE */ SV *_wizard(...) PROTOTYPE: DISABLE PREINIT: I32 i = 0; UV opinfo; MGWIZ *w; MGVTBL *t; SV *cb; CODE: dMY_CXT; if (items != 7 #if MGf_COPY + 1 #endif /* MGf_COPY */ #if MGf_DUP + 1 #endif /* MGf_DUP */ #if MGf_LOCAL + 1 #endif /* MGf_LOCAL */ #if VMG_UVAR + 5 #endif /* VMG_UVAR */ ) { croak(vmg_wrongargnum); } Newx(t, 1, MGVTBL); Newx(w, 1, MGWIZ); VMG_SET_CB(ST(i++), data); cb = ST(i++); opinfo = SvOK(cb) ? SvUV(cb) : 0; w->opinfo = (U8) ((opinfo < 255) ? opinfo : 255); if (w->opinfo) vmg_op_info_init(w->opinfo); VMG_SET_SVT_CB(ST(i++), get); VMG_SET_SVT_CB(ST(i++), set); VMG_SET_SVT_CB(ST(i++), len); VMG_SET_SVT_CB(ST(i++), clear); VMG_SET_SVT_CB(ST(i++), free); #if MGf_COPY VMG_SET_SVT_CB(ST(i++), copy); #endif /* MGf_COPY */ #if MGf_DUP /* VMG_SET_SVT_CB(ST(i++), dup); */ i++; t->svt_dup = NULL; w->cb_dup = NULL; #endif /* MGf_DUP */ #if MGf_LOCAL VMG_SET_SVT_CB(ST(i++), local); #endif /* MGf_LOCAL */ #if VMG_UVAR VMG_SET_CB(ST(i++), fetch); VMG_SET_CB(ST(i++), store); VMG_SET_CB(ST(i++), exists); VMG_SET_CB(ST(i++), delete); cb = ST(i++); if (w->cb_fetch || w->cb_store || w->cb_exists || w->cb_delete) w->uvar = SvTRUE(cb) ? 2 : 1; else w->uvar = 0; #endif /* VMG_UVAR */ #if VMG_MULTIPLICITY w->owner = aTHX; #endif /* VMG_MULTIPLICITY */ w->vtbl = t; #if VMG_THREADSAFE ptable_store(MY_CXT.wizards, w, w); #endif /* VMG_THREADSAFE */ RETVAL = newRV_noinc(vmg_wizard_new(w)); OUTPUT: RETVAL SV *cast(SV *sv, SV *wiz, ...) PROTOTYPE: \[$@%&*]$@ PREINIT: SV **args = NULL; I32 i = 0; CODE: if (items > 2) { i = items - 2; args = &ST(2); } RETVAL = newSVuv(vmg_cast(SvRV(sv), vmg_wizard_validate(wiz), args, i)); OUTPUT: RETVAL void getdata(SV *sv, SV *wiz) PROTOTYPE: \[$@%&*]$ PREINIT: SV *data; PPCODE: data = vmg_data_get(SvRV(sv), vmg_wizard_validate(wiz)); if (!data) XSRETURN_EMPTY; ST(0) = data; XSRETURN(1); SV *dispell(SV *sv, SV *wiz) PROTOTYPE: \[$@%&*]$ CODE: RETVAL = newSVuv(vmg_dispell(SvRV(sv), vmg_wizard_validate(wiz))); OUTPUT: RETVAL