/* * This file was generated automatically by ExtUtils::ParseXS version 3.40 from the * contents of Socket.xs. Do not edit this file, edit Socket.xs instead. * * ANY CHANGES MADE HERE WILL BE LOST! * */ #line 1 "Socket.xs" #define PERL_NO_GET_CONTEXT #include "EXTERN.h" #include "perl.h" #include "XSUB.h" #include #ifdef I_SYS_TYPES # include #endif #if !defined(ultrix) /* Avoid double definition. */ # include #endif #if defined(USE_SOCKS) && defined(I_SOCKS) # include #endif #ifdef MPE # define PF_INET AF_INET # define PF_UNIX AF_UNIX # define SOCK_RAW 3 #endif #ifdef I_SYS_UN # include #endif /* XXX Configure test for #endif #if defined(__sgi) && !defined(AF_LINK) && defined(PF_LINK) && PF_LINK == AF_LNK # undef PF_LINK #endif #if defined(I_NETINET_IN) || defined(__ultrix__) # include #endif #if defined(I_NETINET_IP) # include #endif #ifdef I_NETDB # if !defined(ultrix) /* Avoid double definition. */ # include # endif #endif #ifdef I_ARPA_INET # include #endif #ifdef I_NETINET_TCP # include #endif #if defined(WIN32) && !defined(UNDER_CE) # include #endif #ifdef WIN32 /* VC 6 with its original headers doesn't know about sockaddr_storage, VC 2003 does*/ #ifndef _SS_MAXSIZE # define _SS_MAXSIZE 128 # define _SS_ALIGNSIZE (sizeof(__int64)) # define _SS_PAD1SIZE (_SS_ALIGNSIZE - sizeof (short)) # define _SS_PAD2SIZE (_SS_MAXSIZE - (sizeof (short) + _SS_PAD1SIZE \ + _SS_ALIGNSIZE)) struct sockaddr_storage { short ss_family; char __ss_pad1[_SS_PAD1SIZE]; __int64 __ss_align; char __ss_pad2[_SS_PAD2SIZE]; }; typedef int socklen_t; #define in6_addr in_addr6 #define INET_ADDRSTRLEN 22 #define INET6_ADDRSTRLEN 65 #endif static int inet_pton(int af, const char *src, void *dst) { struct sockaddr_storage ss; int size = sizeof(ss); ss.ss_family = af; /* per MSDN */ if (WSAStringToAddress((char*)src, af, NULL, (struct sockaddr *)&ss, &size) != 0) return 0; switch(af) { case AF_INET: *(struct in_addr *)dst = ((struct sockaddr_in *)&ss)->sin_addr; return 1; case AF_INET6: *(struct in6_addr *)dst = ((struct sockaddr_in6 *)&ss)->sin6_addr; return 1; default: WSASetLastError(WSAEAFNOSUPPORT); return -1; } } static const char *inet_ntop(int af, const void *src, char *dst, socklen_t size) { struct sockaddr_storage ss; unsigned long s = size; ZeroMemory(&ss, sizeof(ss)); ss.ss_family = af; switch(af) { case AF_INET: ((struct sockaddr_in *)&ss)->sin_addr = *(struct in_addr *)src; break; case AF_INET6: ((struct sockaddr_in6 *)&ss)->sin6_addr = *(struct in6_addr *)src; break; default: return NULL; } /* cannot directly use &size because of strict aliasing rules */ if (WSAAddressToString((struct sockaddr *)&ss, sizeof(ss), NULL, dst, &s) != 0) return NULL; else return dst; } #define HAS_INETPTON #define HAS_INETNTOP #endif #ifdef NETWARE NETDB_DEFINE_CONTEXT NETINET_DEFINE_CONTEXT #endif #ifdef I_SYSUIO # include #endif #ifndef AF_NBS # undef PF_NBS #endif #ifndef AF_X25 # undef PF_X25 #endif #ifndef INADDR_NONE # define INADDR_NONE 0xffffffff #endif /* INADDR_NONE */ #ifndef INADDR_BROADCAST # define INADDR_BROADCAST 0xffffffff #endif /* INADDR_BROADCAST */ #ifndef INADDR_LOOPBACK # define INADDR_LOOPBACK 0x7F000001 #endif /* INADDR_LOOPBACK */ #ifndef INET_ADDRSTRLEN #define INET_ADDRSTRLEN 16 #endif #ifndef C_ARRAY_LENGTH #define C_ARRAY_LENGTH(arr) (sizeof(arr) / sizeof(*(arr))) #endif /* !C_ARRAY_LENGTH */ #ifndef PERL_UNUSED_VAR # define PERL_UNUSED_VAR(x) ((void)x) #endif /* !PERL_UNUSED_VAR */ #ifndef PERL_UNUSED_ARG # define PERL_UNUSED_ARG(x) PERL_UNUSED_VAR(x) #endif /* !PERL_UNUSED_ARG */ #ifndef Newx # define Newx(v,n,t) New(0,v,n,t) #endif /* !Newx */ #ifndef SvPVx_nolen #if defined(__GNUC__) && !defined(PERL_GCC_BRACE_GROUPS_FORBIDDEN) # define SvPVx_nolen(sv) ({SV *_sv = (sv); SvPV_nolen(_sv); }) #else /* __GNUC__ */ # define SvPVx_nolen(sv) ((PL_Sv = (sv)), SvPV_nolen(PL_Sv)) #endif /* __GNU__ */ #endif /* !SvPVx_nolen */ #ifndef croak_sv # define croak_sv(sv) croak("%s", SvPVx_nolen(sv)) #endif #ifndef hv_stores # define hv_stores(hv, keystr, val) \ hv_store(hv, ""keystr"", sizeof(keystr)-1, val, 0) #endif /* !hv_stores */ #ifndef newSVpvn_flags # define newSVpvn_flags(s,len,flags) my_newSVpvn_flags(aTHX_ s,len,flags) static SV *my_newSVpvn_flags(pTHX_ const char *s, STRLEN len, U32 flags) { SV *sv = newSVpvn(s, len); SvFLAGS(sv) |= (flags & SVf_UTF8); return (flags & SVs_TEMP) ? sv_2mortal(sv) : sv; } #endif /* !newSVpvn_flags */ #ifndef SvRV_set # define SvRV_set(sv, val) (SvRV(sv) = (val)) #endif /* !SvRV_set */ #ifndef SvPV_nomg # define SvPV_nomg SvPV #endif /* !SvPV_nomg */ #ifndef HEK_FLAGS # define HEK_FLAGS(hek) 0 # define HVhek_UTF8 1 #endif /* !HEK_FLAGS */ #ifndef hv_common /* These magic numbers are arbitrarily chosen (copied from perl core in fact) * and only have to match between this definition and the code that uses them */ # define HV_FETCH_ISSTORE 0x04 # define HV_FETCH_LVALUE 0x10 # define hv_common(hv, keysv, key, klen, flags, act, val, hash) \ my_hv_common(aTHX_ hv, keysv, key, klen, flags, act, val, hash) static void *my_hv_common(pTHX_ HV *hv, SV *keysv, const char *key, STRLEN klen, int flags, int act, SV *val, U32 hash) { /* * This only handles the usage actually made by the code * generated by ExtUtils::Constant. EU:C really ought to arrange * portability of its generated code itself. */ if (!keysv) { keysv = sv_2mortal(newSVpvn(key, klen)); if (flags & HVhek_UTF8) SvUTF8_on(keysv); } if (act == HV_FETCH_LVALUE) { return (void*)hv_fetch_ent(hv, keysv, 1, hash); } else if (act == HV_FETCH_ISSTORE) { return (void*)hv_store_ent(hv, keysv, val, hash); } else { croak("panic: my_hv_common: act=0x%x", act); } } #endif /* !hv_common */ #ifndef hv_common_key_len # define hv_common_key_len(hv, key, kl, act, val, hash) \ my_hv_common_key_len(aTHX_ hv, key, kl, act, val, hash) static void *my_hv_common_key_len(pTHX_ HV *hv, const char *key, I32 kl, int act, SV *val, U32 hash) { STRLEN klen; int flags; if (kl < 0) { klen = -kl; flags = HVhek_UTF8; } else { klen = kl; flags = 0; } return hv_common(hv, NULL, key, klen, flags, act, val, hash); } #endif /* !hv_common_key_len */ #ifndef mPUSHi # define mPUSHi(i) sv_setiv_mg(PUSHs(sv_newmortal()), (IV)(i)) #endif /* !mPUSHi */ #ifndef mPUSHp # define mPUSHp(p,l) sv_setpvn_mg(PUSHs(sv_newmortal()), (p), (l)) #endif /* !mPUSHp */ #ifndef mPUSHs # define mPUSHs(s) PUSHs(sv_2mortal(s)) #endif /* !mPUSHs */ #ifndef CvCONST_on # undef newCONSTSUB # define newCONSTSUB(stash, name, val) my_newCONSTSUB(aTHX_ stash, name, val) static CV *my_newCONSTSUB(pTHX_ HV *stash, char *name, SV *val) { /* * This has to satisfy code generated by ExtUtils::Constant. * It depends on the 5.8+ layout of constant subs. It has * two calls to newCONSTSUB(): one for real constants, and one * for undefined constants. In the latter case, it turns the * initially-generated constant subs into something else, and * it needs the return value from newCONSTSUB() which Perl 5.6 * doesn't provide. */ GV *gv; CV *cv; Perl_newCONSTSUB(aTHX_ stash, name, val); ENTER; SAVESPTR(PL_curstash); PL_curstash = stash; gv = gv_fetchpv(name, 0, SVt_PVCV); cv = GvCV(gv); LEAVE; CvXSUBANY(cv).any_ptr = &PL_sv_undef; return cv; } # define CvCONST_off(cv) my_CvCONST_off(aTHX_ cv) static void my_CvCONST_off(pTHX_ CV *cv) { op_free(CvROOT(cv)); CvROOT(cv) = NULL; CvSTART(cv) = NULL; } #endif /* !CvCONST_on */ #ifndef HAS_INET_ATON /* * Check whether "cp" is a valid ascii representation * of an Internet address and convert to a binary address. * Returns 1 if the address is valid, 0 if not. * This replaces inet_addr, the return value from which * cannot distinguish between failure and a local broadcast address. */ static int my_inet_aton(register const char *cp, struct in_addr *addr) { dTHX; register U32 val; register int base; register char c; int nparts; const char *s; unsigned int parts[4]; register unsigned int *pp = parts; if (!cp || !*cp) return 0; for (;;) { /* * Collect number up to ".". * Values are specified as for C: * 0x=hex, 0=octal, other=decimal. */ val = 0; base = 10; if (*cp == '0') { if (*++cp == 'x' || *cp == 'X') base = 16, cp++; else base = 8; } while ((c = *cp) != '\0') { if (isDIGIT(c)) { val = (val * base) + (c - '0'); cp++; continue; } if (base == 16 && (s=strchr(PL_hexdigit,c))) { val = (val << 4) + ((s - PL_hexdigit) & 15); cp++; continue; } break; } if (*cp == '.') { /* * Internet format: * a.b.c.d * a.b.c (with c treated as 16-bits) * a.b (with b treated as 24 bits) */ if (pp >= parts + 3 || val > 0xff) return 0; *pp++ = val, cp++; } else break; } /* * Check for trailing characters. */ if (*cp && !isSPACE(*cp)) return 0; /* * Concoct the address according to * the number of parts specified. */ nparts = pp - parts + 1; /* force to an int for switch() */ switch (nparts) { case 1: /* a -- 32 bits */ break; case 2: /* a.b -- 8.24 bits */ if (val > 0xffffff) return 0; val |= parts[0] << 24; break; case 3: /* a.b.c -- 8.8.16 bits */ if (val > 0xffff) return 0; val |= (parts[0] << 24) | (parts[1] << 16); break; case 4: /* a.b.c.d -- 8.8.8.8 bits */ if (val > 0xff) return 0; val |= (parts[0] << 24) | (parts[1] << 16) | (parts[2] << 8); break; } addr->s_addr = htonl(val); return 1; } #undef inet_aton #define inet_aton my_inet_aton #endif /* ! HAS_INET_ATON */ /* These are not gni() constants; they're extensions for the perl API */ /* The definitions in Socket.pm and Socket.xs must match */ #define NIx_NOHOST (1 << 0) #define NIx_NOSERV (1 << 1) /* On Windows, ole2.h defines a macro called "interface". We don't need that, * and it will complicate the variables in pack_ip_mreq() etc. (RT87389) */ #undef interface /* STRUCT_OFFSET should have come from from perl.h, but if not, * roll our own (not using offsetof() since that is C99). */ #ifndef STRUCT_OFFSET # define STRUCT_OFFSET(s,m) (Size_t)(&(((s *)0)->m)) #endif static int not_here(const char *s) { croak("Socket::%s not implemented on this architecture", s); return -1; } #define PERL_IN_ADDR_S_ADDR_SIZE 4 /* * Bad assumptions possible here. * * Bad Assumption 1: struct in_addr has no other fields * than the s_addr (which is the field we care about * in here, really). However, we can be fed either 4-byte * addresses (from pack("N", ...), or va.b.c.d, or ...), * or full struct in_addrs (from e.g. pack_sockaddr_in()), * which may or may not be 4 bytes in size. * * Bad Assumption 2: the s_addr field is a simple type * (such as an int, u_int32_t). It can be a bit field, * in which case using & (address-of) on it or taking sizeof() * wouldn't go over too well. (Those are not attempted * now but in case someone thinks to change the below code * to use addr.s_addr instead of addr, you have been warned.) * * Bad Assumption 3: the s_addr is the first field in * an in_addr, or that its bytes are the first bytes in * an in_addr. * * These bad assumptions are wrong in UNICOS which has * struct in_addr { struct { u_long st_addr:32; } s_da }; * #define s_addr s_da.st_addr * and u_long is 64 bits. * * --jhi */ #include "const-c.inc" #if defined(HAS_GETADDRINFO) && !defined(HAS_GAI_STRERROR) static const char *gai_strerror(int err) { switch (err) { #ifdef EAI_ADDRFAMILY case EAI_ADDRFAMILY: return "Address family for hostname is not supported."; #endif #ifdef EAI_AGAIN case EAI_AGAIN: return "The name could not be resolved at this time."; #endif #ifdef EAI_BADFLAGS case EAI_BADFLAGS: return "The flags parameter has an invalid value."; #endif #ifdef EAI_FAIL case EAI_FAIL: return "A non-recoverable error occurred while resolving the name."; #endif #ifdef EAI_FAMILY case EAI_FAMILY: return "The address family was not recognized or length is invalid."; #endif #ifdef EAI_MEMORY case EAI_MEMORY: return "A memory allocation failure occurred."; #endif #ifdef EAI_NODATA case EAI_NODATA: return "No address is associated with the hostname."; #endif #ifdef EAI_NONAME case EAI_NONAME: return "The name does not resolve for the supplied parameters."; #endif #ifdef EAI_OVERFLOW case EAI_OVERFLOW: return "An argument buffer overflowed."; #endif #ifdef EAI_SERVICE case EAI_SERVICE: return "The service parameter was not recognized for the specified socket type."; #endif #ifdef EAI_SOCKTYPE case EAI_SOCKTYPE: return "The specified socket type was not recognized."; #endif #ifdef EAI_SYSTEM case EAI_SYSTEM: return "A system error occurred - see errno."; #endif default: return "Unknown error in getaddrinfo()."; } } #endif #ifdef HAS_GETADDRINFO static SV *err_to_SV(pTHX_ int err) { SV *ret = sv_newmortal(); (void) SvUPGRADE(ret, SVt_PVNV); if(err) { const char *error = gai_strerror(err); sv_setpv(ret, error); } else { sv_setpv(ret, ""); } SvIV_set(ret, err); SvIOK_on(ret); return ret; } static void xs_getaddrinfo(pTHX_ CV *cv) { dXSARGS; SV *host; SV *service; SV *hints; char *hostname = NULL; char *servicename = NULL; STRLEN len; struct addrinfo hints_s; struct addrinfo *res; struct addrinfo *res_iter; int err; int n_res; PERL_UNUSED_ARG(cv); if(items > 3) croak("Usage: Socket::getaddrinfo(host, service, hints)"); SP -= items; if(items < 1) host = &PL_sv_undef; else host = ST(0); if(items < 2) service = &PL_sv_undef; else service = ST(1); if(items < 3) hints = NULL; else hints = ST(2); SvGETMAGIC(host); if(SvOK(host)) { hostname = SvPV_nomg(host, len); if (!len) hostname = NULL; } SvGETMAGIC(service); if(SvOK(service)) { servicename = SvPV_nomg(service, len); if (!len) servicename = NULL; } Zero(&hints_s, sizeof(hints_s), char); hints_s.ai_family = PF_UNSPEC; if(hints && SvOK(hints)) { HV *hintshash; SV **valp; if(!SvROK(hints) || SvTYPE(SvRV(hints)) != SVt_PVHV) croak("hints is not a HASH reference"); hintshash = (HV*)SvRV(hints); if((valp = hv_fetch(hintshash, "flags", 5, 0)) != NULL && SvOK(*valp)) hints_s.ai_flags = SvIV(*valp); if((valp = hv_fetch(hintshash, "family", 6, 0)) != NULL && SvOK(*valp)) hints_s.ai_family = SvIV(*valp); if((valp = hv_fetch(hintshash, "socktype", 8, 0)) != NULL && SvOK(*valp)) hints_s.ai_socktype = SvIV(*valp); if((valp = hv_fetch(hintshash, "protocol", 8, 0)) != NULL && SvOK(*valp)) hints_s.ai_protocol = SvIV(*valp); } err = getaddrinfo(hostname, servicename, &hints_s, &res); XPUSHs(err_to_SV(aTHX_ err)); if(err) XSRETURN(1); n_res = 0; for(res_iter = res; res_iter; res_iter = res_iter->ai_next) { HV *res_hv = newHV(); (void)hv_stores(res_hv, "family", newSViv(res_iter->ai_family)); (void)hv_stores(res_hv, "socktype", newSViv(res_iter->ai_socktype)); (void)hv_stores(res_hv, "protocol", newSViv(res_iter->ai_protocol)); (void)hv_stores(res_hv, "addr", newSVpvn((char*)res_iter->ai_addr, res_iter->ai_addrlen)); if(res_iter->ai_canonname) (void)hv_stores(res_hv, "canonname", newSVpv(res_iter->ai_canonname, 0)); else (void)hv_stores(res_hv, "canonname", newSV(0)); XPUSHs(sv_2mortal(newRV_noinc((SV*)res_hv))); n_res++; } freeaddrinfo(res); XSRETURN(1 + n_res); } #endif #ifdef HAS_GETNAMEINFO static void xs_getnameinfo(pTHX_ CV *cv) { dXSARGS; SV *addr; int flags; int xflags; char host[1024]; char serv[256]; char *sa; /* we'll cast to struct sockaddr * when necessary */ STRLEN addr_len; int err; int want_host, want_serv; PERL_UNUSED_ARG(cv); if(items < 1 || items > 3) croak("Usage: Socket::getnameinfo(addr, flags=0, xflags=0)"); SP -= items; addr = ST(0); SvGETMAGIC(addr); if(items < 2) flags = 0; else flags = SvIV(ST(1)); if(items < 3) xflags = 0; else xflags = SvIV(ST(2)); want_host = !(xflags & NIx_NOHOST); want_serv = !(xflags & NIx_NOSERV); if(!SvPOKp(addr)) croak("addr is not a string"); addr_len = SvCUR(addr); /* We need to ensure the sockaddr is aligned, because a random SvPV might * not be due to SvOOK */ Newx(sa, addr_len, char); Copy(SvPV_nolen(addr), sa, addr_len, char); #ifdef HAS_SOCKADDR_SA_LEN ((struct sockaddr *)sa)->sa_len = addr_len; #endif err = getnameinfo((struct sockaddr *)sa, addr_len, want_host ? host : NULL, want_host ? sizeof(host) : 0, want_serv ? serv : NULL, want_serv ? sizeof(serv) : 0, flags); Safefree(sa); XPUSHs(err_to_SV(aTHX_ err)); if(err) XSRETURN(1); XPUSHs(want_host ? sv_2mortal(newSVpv(host, 0)) : &PL_sv_undef); XPUSHs(want_serv ? sv_2mortal(newSVpv(serv, 0)) : &PL_sv_undef); XSRETURN(3); } #endif #line 741 "Socket.c" #ifndef PERL_UNUSED_VAR # define PERL_UNUSED_VAR(var) if (0) var = var #endif #ifndef dVAR # define dVAR dNOOP #endif /* This stuff is not part of the API! You have been warned. */ #ifndef PERL_VERSION_DECIMAL # define PERL_VERSION_DECIMAL(r,v,s) (r*1000000 + v*1000 + s) #endif #ifndef PERL_DECIMAL_VERSION # define PERL_DECIMAL_VERSION \ PERL_VERSION_DECIMAL(PERL_REVISION,PERL_VERSION,PERL_SUBVERSION) #endif #ifndef PERL_VERSION_GE # define PERL_VERSION_GE(r,v,s) \ (PERL_DECIMAL_VERSION >= PERL_VERSION_DECIMAL(r,v,s)) #endif #ifndef PERL_VERSION_LE # define PERL_VERSION_LE(r,v,s) \ (PERL_DECIMAL_VERSION <= PERL_VERSION_DECIMAL(r,v,s)) #endif /* XS_INTERNAL is the explicit static-linkage variant of the default * XS macro. * * XS_EXTERNAL is the same as XS_INTERNAL except it does not include * "STATIC", ie. it exports XSUB symbols. You probably don't want that * for anything but the BOOT XSUB. * * See XSUB.h in core! */ /* TODO: This might be compatible further back than 5.10.0. */ #if PERL_VERSION_GE(5, 10, 0) && PERL_VERSION_LE(5, 15, 1) # undef XS_EXTERNAL # undef XS_INTERNAL # if defined(__CYGWIN__) && defined(USE_DYNAMIC_LOADING) # define XS_EXTERNAL(name) __declspec(dllexport) XSPROTO(name) # define XS_INTERNAL(name) STATIC XSPROTO(name) # endif # if defined(__SYMBIAN32__) # define XS_EXTERNAL(name) EXPORT_C XSPROTO(name) # define XS_INTERNAL(name) EXPORT_C STATIC XSPROTO(name) # endif # ifndef XS_EXTERNAL # if defined(HASATTRIBUTE_UNUSED) && !defined(__cplusplus) # define XS_EXTERNAL(name) void name(pTHX_ CV* cv __attribute__unused__) # define XS_INTERNAL(name) STATIC void name(pTHX_ CV* cv __attribute__unused__) # else # ifdef __cplusplus # define XS_EXTERNAL(name) extern "C" XSPROTO(name) # define XS_INTERNAL(name) static XSPROTO(name) # else # define XS_EXTERNAL(name) XSPROTO(name) # define XS_INTERNAL(name) STATIC XSPROTO(name) # endif # endif # endif #endif /* perl >= 5.10.0 && perl <= 5.15.1 */ /* The XS_EXTERNAL macro is used for functions that must not be static * like the boot XSUB of a module. If perl didn't have an XS_EXTERNAL * macro defined, the best we can do is assume XS is the same. * Dito for XS_INTERNAL. */ #ifndef XS_EXTERNAL # define XS_EXTERNAL(name) XS(name) #endif #ifndef XS_INTERNAL # define XS_INTERNAL(name) XS(name) #endif /* Now, finally, after all this mess, we want an ExtUtils::ParseXS * internal macro that we're free to redefine for varying linkage due * to the EXPORT_XSUB_SYMBOLS XS keyword. This is internal, use * XS_EXTERNAL(name) or XS_INTERNAL(name) in your code if you need to! */ #undef XS_EUPXS #if defined(PERL_EUPXS_ALWAYS_EXPORT) # define XS_EUPXS(name) XS_EXTERNAL(name) #else /* default to internal */ # define XS_EUPXS(name) XS_INTERNAL(name) #endif #ifndef PERL_ARGS_ASSERT_CROAK_XS_USAGE #define PERL_ARGS_ASSERT_CROAK_XS_USAGE assert(cv); assert(params) /* prototype to pass -Wmissing-prototypes */ STATIC void S_croak_xs_usage(const CV *const cv, const char *const params); STATIC void S_croak_xs_usage(const CV *const cv, const char *const params) { const GV *const gv = CvGV(cv); PERL_ARGS_ASSERT_CROAK_XS_USAGE; if (gv) { const char *const gvname = GvNAME(gv); const HV *const stash = GvSTASH(gv); const char *const hvname = stash ? HvNAME(stash) : NULL; if (hvname) Perl_croak_nocontext("Usage: %s::%s(%s)", hvname, gvname, params); else Perl_croak_nocontext("Usage: %s(%s)", gvname, params); } else { /* Pants. I don't think that it should be possible to get here. */ Perl_croak_nocontext("Usage: CODE(0x%" UVxf ")(%s)", PTR2UV(cv), params); } } #undef PERL_ARGS_ASSERT_CROAK_XS_USAGE #define croak_xs_usage S_croak_xs_usage #endif /* NOTE: the prototype of newXSproto() is different in versions of perls, * so we define a portable version of newXSproto() */ #ifdef newXS_flags #define newXSproto_portable(name, c_impl, file, proto) newXS_flags(name, c_impl, file, proto, 0) #else #define newXSproto_portable(name, c_impl, file, proto) (PL_Sv=(SV*)newXS(name, c_impl, file), sv_setpv(PL_Sv, proto), (CV*)PL_Sv) #endif /* !defined(newXS_flags) */ #if PERL_VERSION_LE(5, 21, 5) # define newXS_deffile(a,b) Perl_newXS(aTHX_ a,b,file) #else # define newXS_deffile(a,b) Perl_newXS_deffile(aTHX_ a,b) #endif #line 885 "Socket.c" /* INCLUDE: Including 'const-xs.inc' from 'Socket.xs' */ XS_EUPXS(XS_Socket_AUTOLOAD); /* prototype to pass -Wmissing-prototypes */ XS_EUPXS(XS_Socket_AUTOLOAD) { dVAR; dXSARGS; if (items != 0) croak_xs_usage(cv, ""); PERL_UNUSED_VAR(ax); /* -Wall */ SP -= items; { #line 1004 "./const-xs.inc" SV *sv = newSVpvn_flags(SvPVX(cv), SvCUR(cv), SVs_TEMP | SvUTF8(cv)); const COP *cop = PL_curcop; #line 902 "Socket.c" #line 1007 "./const-xs.inc" #ifndef SYMBIAN /* It's not obvious how to calculate this at C pre-processor time. However, any compiler optimiser worth its salt should be able to remove the dead code, and hopefully the now-obviously-unused static function too. */ HV *constant_missing = (C_ARRAY_LENGTH(values_for_notfound) > 1) ? get_missing_hash(aTHX) : NULL; if ((C_ARRAY_LENGTH(values_for_notfound) > 1) ? hv_exists_ent(constant_missing, sv, 0) : 0) { sv = newSVpvf("Your vendor has not defined Socket macro %" SVf ", used at %" COP_FILE_F " line %" UVuf "\n", sv, COP_FILE(cop), (UV)CopLINE(cop)); } else #endif { sv = newSVpvf("%" SVf " is not a valid Socket macro at %" COP_FILE_F " line %" UVuf "\n", sv, COP_FILE(cop), (UV)CopLINE(cop)); } croak_sv(sv_2mortal(sv)); #line 925 "Socket.c" PUTBACK; return; } } /* INCLUDE: Returning to 'Socket.xs' from 'const-xs.inc' */ XS_EUPXS(XS_Socket_inet_aton); /* prototype to pass -Wmissing-prototypes */ XS_EUPXS(XS_Socket_inet_aton) { dVAR; dXSARGS; if (items != 1) croak_xs_usage(cv, "host"); { char * host = (char *)SvPV_nolen(ST(0)) ; #line 747 "Socket.xs" { struct in_addr ip_address; struct hostent * phe; if ((*host != '\0') && inet_aton(host, &ip_address)) { ST(0) = sv_2mortal(newSVpvn((char *)&ip_address, sizeof(ip_address))); XSRETURN(1); } #ifdef HAS_GETHOSTBYNAME phe = gethostbyname(host); if (phe && phe->h_addrtype == AF_INET && phe->h_length == 4) { ST(0) = sv_2mortal(newSVpvn((char *)phe->h_addr, phe->h_length)); XSRETURN(1); } #endif XSRETURN_UNDEF; } #line 962 "Socket.c" } XSRETURN(1); } XS_EUPXS(XS_Socket_inet_ntoa); /* prototype to pass -Wmissing-prototypes */ XS_EUPXS(XS_Socket_inet_ntoa) { dVAR; dXSARGS; if (items != 1) croak_xs_usage(cv, "ip_address_sv"); { SV * ip_address_sv = ST(0) ; #line 769 "Socket.xs" { STRLEN addrlen; struct in_addr addr; char * ip_address; if (DO_UTF8(ip_address_sv) && !sv_utf8_downgrade(ip_address_sv, 1)) croak("Wide character in %s", "Socket::inet_ntoa"); ip_address = SvPVbyte(ip_address_sv, addrlen); if (addrlen == sizeof(addr) || addrlen == 4) addr.s_addr = (ip_address[0] & 0xFF) << 24 | (ip_address[1] & 0xFF) << 16 | (ip_address[2] & 0xFF) << 8 | (ip_address[3] & 0xFF); else croak("Bad arg length for %s, length is %" UVuf ", should be %" UVuf, "Socket::inet_ntoa", (UV)addrlen, (UV)sizeof(addr)); /* We could use inet_ntoa() but that is broken * in HP-UX + GCC + 64bitint (returns "0.0.0.0"), * so let's use this sprintf() workaround everywhere. * This is also more threadsafe than using inet_ntoa(). */ ST(0) = sv_2mortal(Perl_newSVpvf(aTHX_ "%d.%d.%d.%d", /* IPv6? */ (int)((addr.s_addr >> 24) & 0xFF), (int)((addr.s_addr >> 16) & 0xFF), (int)((addr.s_addr >> 8) & 0xFF), (int)( addr.s_addr & 0xFF))); } #line 1005 "Socket.c" } XSRETURN(1); } XS_EUPXS(XS_Socket_sockaddr_family); /* prototype to pass -Wmissing-prototypes */ XS_EUPXS(XS_Socket_sockaddr_family) { dVAR; dXSARGS; if (items != 1) croak_xs_usage(cv, "sockaddr"); { SV * sockaddr = ST(0) ; #line 801 "Socket.xs" STRLEN sockaddr_len; char *sockaddr_pv = SvPVbyte(sockaddr, sockaddr_len); #line 1023 "Socket.c" #line 804 "Socket.xs" if (sockaddr_len < STRUCT_OFFSET(struct sockaddr, sa_data)) croak("Bad arg length for %s, length is %" UVuf ", should be at least %" UVuf, "Socket::sockaddr_family", (UV)sockaddr_len, (UV)STRUCT_OFFSET(struct sockaddr, sa_data)); ST(0) = sv_2mortal(newSViv(((struct sockaddr*)sockaddr_pv)->sa_family)); #line 1031 "Socket.c" } XSRETURN(1); } XS_EUPXS(XS_Socket_pack_sockaddr_un); /* prototype to pass -Wmissing-prototypes */ XS_EUPXS(XS_Socket_pack_sockaddr_un) { dVAR; dXSARGS; if (items != 1) croak_xs_usage(cv, "pathname"); { SV * pathname = ST(0) ; #line 815 "Socket.xs" { #ifdef I_SYS_UN struct sockaddr_un sun_ad; /* fear using sun */ STRLEN len; char * pathname_pv; int addr_len; if (!SvOK(pathname)) croak("Undefined path for %s", "Socket::pack_sockaddr_un"); Zero(&sun_ad, sizeof(sun_ad), char); sun_ad.sun_family = AF_UNIX; pathname_pv = SvPV(pathname,len); if (len > sizeof(sun_ad.sun_path)) { warn("Path length (%" UVuf ") is longer than maximum supported length" " (%" UVuf ") and will be truncated", (UV)len, (UV)sizeof(sun_ad.sun_path)); len = sizeof(sun_ad.sun_path); } # ifdef OS2 /* Name should start with \socket\ and contain backslashes! */ { int off; char *s, *e; if (pathname_pv[0] != '/' && pathname_pv[0] != '\\') croak("Relative UNIX domain socket name '%s' unsupported", pathname_pv); else if (len < 8 || pathname_pv[7] != '/' && pathname_pv[7] != '\\' || !strnicmp(pathname_pv + 1, "socket", 6)) off = 7; else off = 0; /* Preserve names starting with \socket\ */ Copy("\\socket", sun_ad.sun_path, off, char); Copy(pathname_pv, sun_ad.sun_path + off, len, char); s = sun_ad.sun_path + off - 1; e = s + len + 1; while (++s < e) if (*s = '/') *s = '\\'; } # else /* !( defined OS2 ) */ Copy(pathname_pv, sun_ad.sun_path, len, char); # endif if (0) not_here("dummy"); if (len > 1 && sun_ad.sun_path[0] == '\0') { /* Linux-style abstract-namespace socket. * The name is not a file name, but an array of arbitrary * character, starting with \0 and possibly including \0s, * therefore the length of the structure must denote the * end of that character array */ addr_len = (char *)&(sun_ad.sun_path) - (char *)&sun_ad + len; } else { addr_len = sizeof(sun_ad); } # ifdef HAS_SOCKADDR_SA_LEN sun_ad.sun_len = addr_len; # endif ST(0) = sv_2mortal(newSVpvn((char *)&sun_ad, addr_len)); #else ST(0) = (SV*)not_here("pack_sockaddr_un"); #endif } #line 1112 "Socket.c" } XSRETURN(1); } XS_EUPXS(XS_Socket_unpack_sockaddr_un); /* prototype to pass -Wmissing-prototypes */ XS_EUPXS(XS_Socket_unpack_sockaddr_un) { dVAR; dXSARGS; if (items != 1) croak_xs_usage(cv, "sun_sv"); { SV * sun_sv = ST(0) ; #line 885 "Socket.xs" { #ifdef I_SYS_UN struct sockaddr_un addr; STRLEN sockaddrlen; char * sun_ad; int addr_len = 0; if (!SvOK(sun_sv)) croak("Undefined address for %s", "Socket::unpack_sockaddr_un"); sun_ad = SvPVbyte(sun_sv,sockaddrlen); # if defined(__linux__) || defined(HAS_SOCKADDR_SA_LEN) /* On Linux or *BSD sockaddrlen on sockets returned by accept, recvfrom, getpeername and getsockname is not equal to sizeof(addr). */ if (sockaddrlen < sizeof(addr)) { Copy(sun_ad, &addr, sockaddrlen, char); Zero(((char*)&addr) + sockaddrlen, sizeof(addr) - sockaddrlen, char); } else { Copy(sun_ad, &addr, sizeof(addr), char); } # ifdef HAS_SOCKADDR_SA_LEN /* In this case, sun_len must be checked */ if (sockaddrlen != addr.sun_len) croak("Invalid arg sun_len field for %s, length is %" UVuf ", but sun_len is %" UVuf, "Socket::unpack_sockaddr_un", (UV)sockaddrlen, (UV)addr.sun_len); # endif # else if (sockaddrlen != sizeof(addr)) croak("Bad arg length for %s, length is %" UVuf ", should be %" UVuf, "Socket::unpack_sockaddr_un", (UV)sockaddrlen, (UV)sizeof(addr)); Copy(sun_ad, &addr, sizeof(addr), char); # endif if (addr.sun_family != AF_UNIX) croak("Bad address family for %s, got %d, should be %d", "Socket::unpack_sockaddr_un", addr.sun_family, AF_UNIX); # ifdef __linux__ if (addr.sun_path[0] == '\0') { /* Linux-style abstract socket address begins with a nul * and can contain nuls. */ addr_len = (char *)&addr - (char *)&(addr.sun_path) + sockaddrlen; } else # endif { # if defined(HAS_SOCKADDR_SA_LEN) /* On *BSD sun_path not always ends with a '\0' */ int maxlen = addr.sun_len - 2; /* should use STRUCT_OFFSET(struct sockaddr_un, sun_path) instead of 2 */ if (maxlen > (int)sizeof(addr.sun_path)) maxlen = (int)sizeof(addr.sun_path); # else const int maxlen = (int)sizeof(addr.sun_path); # endif while (addr_len < maxlen && addr.sun_path[addr_len]) addr_len++; } ST(0) = sv_2mortal(newSVpvn(addr.sun_path, addr_len)); #else ST(0) = (SV*)not_here("unpack_sockaddr_un"); #endif } #line 1189 "Socket.c" } XSRETURN(1); } XS_EUPXS(XS_Socket_pack_sockaddr_in); /* prototype to pass -Wmissing-prototypes */ XS_EUPXS(XS_Socket_pack_sockaddr_in) { dVAR; dXSARGS; if (items != 2) croak_xs_usage(cv, "port_sv, ip_address_sv"); { SV * port_sv = ST(0) ; SV * ip_address_sv = ST(1) ; #line 952 "Socket.xs" { struct sockaddr_in sin; struct in_addr addr; STRLEN addrlen; unsigned short port = 0; char * ip_address; if (SvOK(port_sv)) port = SvUV(port_sv); if (!SvOK(ip_address_sv)) croak("Undefined address for %s", "Socket::pack_sockaddr_in"); if (DO_UTF8(ip_address_sv) && !sv_utf8_downgrade(ip_address_sv, 1)) croak("Wide character in %s", "Socket::pack_sockaddr_in"); ip_address = SvPVbyte(ip_address_sv, addrlen); if (addrlen == sizeof(addr) || addrlen == 4) addr.s_addr = (unsigned int)(ip_address[0] & 0xFF) << 24 | (unsigned int)(ip_address[1] & 0xFF) << 16 | (unsigned int)(ip_address[2] & 0xFF) << 8 | (unsigned int)(ip_address[3] & 0xFF); else croak("Bad arg length for %s, length is %" UVuf ", should be %" UVuf, "Socket::pack_sockaddr_in", (UV)addrlen, (UV)sizeof(addr)); Zero(&sin, sizeof(sin), char); sin.sin_family = AF_INET; sin.sin_port = htons(port); sin.sin_addr.s_addr = htonl(addr.s_addr); # ifdef HAS_SOCKADDR_SA_LEN sin.sin_len = sizeof(sin); # endif ST(0) = sv_2mortal(newSVpvn((char *)&sin, sizeof(sin))); } #line 1240 "Socket.c" } XSRETURN(1); } XS_EUPXS(XS_Socket_unpack_sockaddr_in); /* prototype to pass -Wmissing-prototypes */ XS_EUPXS(XS_Socket_unpack_sockaddr_in) { dVAR; dXSARGS; if (items != 1) croak_xs_usage(cv, "sin_sv"); PERL_UNUSED_VAR(ax); /* -Wall */ SP -= items; { SV * sin_sv = ST(0) ; #line 990 "Socket.xs" { STRLEN sockaddrlen; struct sockaddr_in addr; SV *ip_address_sv; char * sin; if (!SvOK(sin_sv)) croak("Undefined address for %s", "Socket::unpack_sockaddr_in"); sin = SvPVbyte(sin_sv,sockaddrlen); if (sockaddrlen != sizeof(addr)) { croak("Bad arg length for %s, length is %" UVuf ", should be %" UVuf, "Socket::unpack_sockaddr_in", (UV)sockaddrlen, (UV)sizeof(addr)); } Copy(sin, &addr, sizeof(addr), char); if (addr.sin_family != AF_INET) { croak("Bad address family for %s, got %d, should be %d", "Socket::unpack_sockaddr_in", addr.sin_family, AF_INET); } ip_address_sv = newSVpvn((char *)&addr.sin_addr, sizeof(addr.sin_addr)); if(GIMME_V == G_ARRAY) { EXTEND(SP, 2); mPUSHi(ntohs(addr.sin_port)); mPUSHs(ip_address_sv); } else { mPUSHs(ip_address_sv); } } #line 1287 "Socket.c" PUTBACK; return; } } XS_EUPXS(XS_Socket_pack_sockaddr_in6); /* prototype to pass -Wmissing-prototypes */ XS_EUPXS(XS_Socket_pack_sockaddr_in6) { dVAR; dXSARGS; if (items < 2 || items > 4) croak_xs_usage(cv, "port_sv, sin6_addr, scope_id=0, flowinfo=0"); { SV * port_sv = ST(0) ; SV * sin6_addr = ST(1) ; unsigned long scope_id; unsigned long flowinfo; if (items < 3) scope_id = 0; else { scope_id = (unsigned long)SvUV(ST(2)) ; } if (items < 4) flowinfo = 0; else { flowinfo = (unsigned long)SvUV(ST(3)) ; } #line 1027 "Socket.xs" { #ifdef HAS_SOCKADDR_IN6 unsigned short port = 0; struct sockaddr_in6 sin6; char * addrbytes; STRLEN addrlen; if (SvOK(port_sv)) port = SvUV(port_sv); if (!SvOK(sin6_addr)) croak("Undefined address for %s", "Socket::pack_sockaddr_in6"); if (DO_UTF8(sin6_addr) && !sv_utf8_downgrade(sin6_addr, 1)) croak("Wide character in %s", "Socket::pack_sockaddr_in6"); addrbytes = SvPVbyte(sin6_addr, addrlen); if (addrlen != sizeof(sin6.sin6_addr)) croak("Bad arg length %s, length is %" UVuf ", should be %" UVuf, "Socket::pack_sockaddr_in6", (UV)addrlen, (UV)sizeof(sin6.sin6_addr)); Zero(&sin6, sizeof(sin6), char); sin6.sin6_family = AF_INET6; sin6.sin6_port = htons(port); sin6.sin6_flowinfo = htonl(flowinfo); Copy(addrbytes, &sin6.sin6_addr, sizeof(sin6.sin6_addr), char); # ifdef HAS_SIN6_SCOPE_ID sin6.sin6_scope_id = scope_id; # else if (scope_id != 0) warn("%s cannot represent non-zero scope_id %d", "Socket::pack_sockaddr_in6", scope_id); # endif # ifdef HAS_SOCKADDR_SA_LEN sin6.sin6_len = sizeof(sin6); # endif ST(0) = sv_2mortal(newSVpvn((char *)&sin6, sizeof(sin6))); #else PERL_UNUSED_VAR(port_sv); PERL_UNUSED_VAR(sin6_addr); ST(0) = (SV*)not_here("pack_sockaddr_in6"); #endif } #line 1361 "Socket.c" } XSRETURN(1); } XS_EUPXS(XS_Socket_unpack_sockaddr_in6); /* prototype to pass -Wmissing-prototypes */ XS_EUPXS(XS_Socket_unpack_sockaddr_in6) { dVAR; dXSARGS; if (items != 1) croak_xs_usage(cv, "sin6_sv"); PERL_UNUSED_VAR(ax); /* -Wall */ SP -= items; { SV * sin6_sv = ST(0) ; #line 1071 "Socket.xs" { #ifdef HAS_SOCKADDR_IN6 STRLEN addrlen; struct sockaddr_in6 sin6; char * addrbytes; SV *ip_address_sv; if (!SvOK(sin6_sv)) croak("Undefined address for %s", "Socket::unpack_sockaddr_in6"); addrbytes = SvPVbyte(sin6_sv, addrlen); if (addrlen != sizeof(sin6)) croak("Bad arg length for %s, length is %" UVuf ", should be %" UVuf, "Socket::unpack_sockaddr_in6", (UV)addrlen, (UV)sizeof(sin6)); Copy(addrbytes, &sin6, sizeof(sin6), char); if (sin6.sin6_family != AF_INET6) croak("Bad address family for %s, got %d, should be %d", "Socket::unpack_sockaddr_in6", sin6.sin6_family, AF_INET6); ip_address_sv = newSVpvn((char *)&sin6.sin6_addr, sizeof(sin6.sin6_addr)); if(GIMME_V == G_ARRAY) { EXTEND(SP, 4); mPUSHi(ntohs(sin6.sin6_port)); mPUSHs(ip_address_sv); # ifdef HAS_SIN6_SCOPE_ID mPUSHi(sin6.sin6_scope_id); # else mPUSHi(0); # endif mPUSHi(ntohl(sin6.sin6_flowinfo)); } else { mPUSHs(ip_address_sv); } #else PERL_UNUSED_VAR(sin6_sv); ST(0) = (SV*)not_here("pack_sockaddr_in6"); #endif } #line 1417 "Socket.c" PUTBACK; return; } } XS_EUPXS(XS_Socket_inet_ntop); /* prototype to pass -Wmissing-prototypes */ XS_EUPXS(XS_Socket_inet_ntop) { dVAR; dXSARGS; if (items != 2) croak_xs_usage(cv, "af, ip_address_sv"); { int af = (int)SvIV(ST(0)) ; SV * ip_address_sv = ST(1) ; #line 1115 "Socket.xs" #ifdef HAS_INETNTOP STRLEN addrlen; #ifdef AF_INET6 struct in6_addr addr; char str[INET6_ADDRSTRLEN]; #else struct in_addr addr; char str[INET_ADDRSTRLEN]; #endif char *ip_address; if (DO_UTF8(ip_address_sv) && !sv_utf8_downgrade(ip_address_sv, 1)) croak("Wide character in %s", "Socket::inet_ntop"); ip_address = SvPV(ip_address_sv, addrlen); switch(af) { case AF_INET: if(addrlen != 4) croak("Bad address length for Socket::inet_ntop on AF_INET;" " got %" UVuf ", should be 4", (UV)addrlen); break; #ifdef AF_INET6 case AF_INET6: if(addrlen != 16) croak("Bad address length for Socket::inet_ntop on AF_INET6;" " got %" UVuf ", should be 16", (UV)addrlen); break; #endif default: croak("Bad address family for %s, got %d, should be" #ifdef AF_INET6 " either AF_INET or AF_INET6", #else " AF_INET", #endif "Socket::inet_ntop", af); } if(addrlen < sizeof(addr)) { Copy(ip_address, &addr, addrlen, char); Zero(((char*)&addr) + addrlen, sizeof(addr) - addrlen, char); } else { Copy(ip_address, &addr, sizeof addr, char); } inet_ntop(af, &addr, str, sizeof str); ST(0) = sv_2mortal(newSVpvn(str, strlen(str))); #else PERL_UNUSED_VAR(af); PERL_UNUSED_VAR(ip_address_sv); ST(0) = (SV*)not_here("inet_ntop"); #endif #line 1490 "Socket.c" } XSRETURN(1); } XS_EUPXS(XS_Socket_inet_pton); /* prototype to pass -Wmissing-prototypes */ XS_EUPXS(XS_Socket_inet_pton) { dVAR; dXSARGS; if (items != 2) croak_xs_usage(cv, "af, host"); { int af = (int)SvIV(ST(0)) ; const char * host = (const char *)SvPV_nolen(ST(1)) ; #line 1175 "Socket.xs" #ifdef HAS_INETPTON int ok; int addrlen = 0; #ifdef AF_INET6 struct in6_addr ip_address; #else struct in_addr ip_address; #endif switch(af) { case AF_INET: addrlen = 4; break; #ifdef AF_INET6 case AF_INET6: addrlen = 16; break; #endif default: croak("Bad address family for %s, got %d, should be" #ifdef AF_INET6 " either AF_INET or AF_INET6", #else " AF_INET", #endif "Socket::inet_pton", af); } ok = (*host != '\0') && inet_pton(af, host, &ip_address); ST(0) = sv_newmortal(); if (ok) { sv_setpvn( ST(0), (char *)&ip_address, addrlen); } #else PERL_UNUSED_VAR(af); PERL_UNUSED_VAR(host); ST(0) = (SV*)not_here("inet_pton"); #endif #line 1546 "Socket.c" } XSRETURN(1); } XS_EUPXS(XS_Socket_pack_ip_mreq); /* prototype to pass -Wmissing-prototypes */ XS_EUPXS(XS_Socket_pack_ip_mreq) { dVAR; dXSARGS; if (items < 1 || items > 2) croak_xs_usage(cv, "multiaddr, interface=&PL_sv_undef"); { SV * multiaddr = ST(0) ; SV * interface; if (items < 2) interface = &PL_sv_undef; else { interface = ST(1) ; } #line 1219 "Socket.xs" { #ifdef HAS_IP_MREQ struct ip_mreq mreq; char * multiaddrbytes; char * interfacebytes; STRLEN len; if (DO_UTF8(multiaddr) && !sv_utf8_downgrade(multiaddr, 1)) croak("Wide character in %s", "Socket::pack_ip_mreq"); multiaddrbytes = SvPVbyte(multiaddr, len); if (len != sizeof(mreq.imr_multiaddr)) croak("Bad arg length %s, length is %" UVuf ", should be %" UVuf, "Socket::pack_ip_mreq", (UV)len, (UV)sizeof(mreq.imr_multiaddr)); Zero(&mreq, sizeof(mreq), char); Copy(multiaddrbytes, &mreq.imr_multiaddr, sizeof(mreq.imr_multiaddr), char); if(SvOK(interface)) { if (DO_UTF8(interface) && !sv_utf8_downgrade(interface, 1)) croak("Wide character in %s", "Socket::pack_ip_mreq"); interfacebytes = SvPVbyte(interface, len); if (len != sizeof(mreq.imr_interface)) croak("Bad arg length %s, length is %" UVuf ", should be %" UVuf, "Socket::pack_ip_mreq", (UV)len, (UV)sizeof(mreq.imr_interface)); Copy(interfacebytes, &mreq.imr_interface, sizeof(mreq.imr_interface), char); } else mreq.imr_interface.s_addr = INADDR_ANY; ST(0) = sv_2mortal(newSVpvn((char *)&mreq, sizeof(mreq))); #else not_here("pack_ip_mreq"); #endif } #line 1602 "Socket.c" } XSRETURN(1); } XS_EUPXS(XS_Socket_unpack_ip_mreq); /* prototype to pass -Wmissing-prototypes */ XS_EUPXS(XS_Socket_unpack_ip_mreq) { dVAR; dXSARGS; if (items != 1) croak_xs_usage(cv, "mreq_sv"); PERL_UNUSED_VAR(ax); /* -Wall */ SP -= items; { SV * mreq_sv = ST(0) ; #line 1256 "Socket.xs" { #ifdef HAS_IP_MREQ struct ip_mreq mreq; STRLEN mreqlen; char * mreqbytes = SvPVbyte(mreq_sv, mreqlen); if (mreqlen != sizeof(mreq)) croak("Bad arg length for %s, length is %" UVuf ", should be %" UVuf, "Socket::unpack_ip_mreq", (UV)mreqlen, (UV)sizeof(mreq)); Copy(mreqbytes, &mreq, sizeof(mreq), char); EXTEND(SP, 2); mPUSHp((char *)&mreq.imr_multiaddr, sizeof(mreq.imr_multiaddr)); mPUSHp((char *)&mreq.imr_interface, sizeof(mreq.imr_interface)); #else not_here("unpack_ip_mreq"); #endif } #line 1637 "Socket.c" PUTBACK; return; } } XS_EUPXS(XS_Socket_pack_ip_mreq_source); /* prototype to pass -Wmissing-prototypes */ XS_EUPXS(XS_Socket_pack_ip_mreq_source) { dVAR; dXSARGS; if (items < 2 || items > 3) croak_xs_usage(cv, "multiaddr, source, interface=&PL_sv_undef"); { SV * multiaddr = ST(0) ; SV * source = ST(1) ; SV * interface; if (items < 3) interface = &PL_sv_undef; else { interface = ST(2) ; } #line 1280 "Socket.xs" { #if defined(HAS_IP_MREQ_SOURCE) && defined (IP_ADD_SOURCE_MEMBERSHIP) struct ip_mreq_source mreq; char * multiaddrbytes; char * sourcebytes; char * interfacebytes; STRLEN len; if (DO_UTF8(multiaddr) && !sv_utf8_downgrade(multiaddr, 1)) croak("Wide character in %s", "Socket::pack_ip_mreq_source"); multiaddrbytes = SvPVbyte(multiaddr, len); if (len != sizeof(mreq.imr_multiaddr)) croak("Bad arg length %s, length is %" UVuf ", should be %" UVuf, "Socket::pack_ip_mreq", (UV)len, (UV)sizeof(mreq.imr_multiaddr)); if (DO_UTF8(source) && !sv_utf8_downgrade(source, 1)) croak("Wide character in %s", "Socket::pack_ip_mreq_source"); if (len != sizeof(mreq.imr_sourceaddr)) croak("Bad arg length %s, length is %" UVuf ", should be %" UVuf, "Socket::pack_ip_mreq", (UV)len, (UV)sizeof(mreq.imr_sourceaddr)); sourcebytes = SvPVbyte(source, len); Zero(&mreq, sizeof(mreq), char); Copy(multiaddrbytes, &mreq.imr_multiaddr, sizeof(mreq.imr_multiaddr), char); Copy(sourcebytes, &mreq.imr_sourceaddr, sizeof(mreq.imr_sourceaddr), char); if(SvOK(interface)) { if (DO_UTF8(interface) && !sv_utf8_downgrade(interface, 1)) croak("Wide character in %s", "Socket::pack_ip_mreq"); interfacebytes = SvPVbyte(interface, len); if (len != sizeof(mreq.imr_interface)) croak("Bad arg length %s, length is %" UVuf ", should be %" UVuf, "Socket::pack_ip_mreq", (UV)len, (UV)sizeof(mreq.imr_interface)); Copy(interfacebytes, &mreq.imr_interface, sizeof(mreq.imr_interface), char); } else mreq.imr_interface.s_addr = INADDR_ANY; ST(0) = sv_2mortal(newSVpvn((char *)&mreq, sizeof(mreq))); #else PERL_UNUSED_VAR(multiaddr); PERL_UNUSED_VAR(source); not_here("pack_ip_mreq_source"); #endif } #line 1707 "Socket.c" } XSRETURN(1); } XS_EUPXS(XS_Socket_unpack_ip_mreq_source); /* prototype to pass -Wmissing-prototypes */ XS_EUPXS(XS_Socket_unpack_ip_mreq_source) { dVAR; dXSARGS; if (items != 1) croak_xs_usage(cv, "mreq_sv"); PERL_UNUSED_VAR(ax); /* -Wall */ SP -= items; { SV * mreq_sv = ST(0) ; #line 1328 "Socket.xs" { #if defined(HAS_IP_MREQ_SOURCE) && defined (IP_ADD_SOURCE_MEMBERSHIP) struct ip_mreq_source mreq; STRLEN mreqlen; char * mreqbytes = SvPVbyte(mreq_sv, mreqlen); if (mreqlen != sizeof(mreq)) croak("Bad arg length for %s, length is %" UVuf ", should be %" UVuf, "Socket::unpack_ip_mreq_source", (UV)mreqlen, (UV)sizeof(mreq)); Copy(mreqbytes, &mreq, sizeof(mreq), char); EXTEND(SP, 3); mPUSHp((char *)&mreq.imr_multiaddr, sizeof(mreq.imr_multiaddr)); mPUSHp((char *)&mreq.imr_sourceaddr, sizeof(mreq.imr_sourceaddr)); mPUSHp((char *)&mreq.imr_interface, sizeof(mreq.imr_interface)); #else PERL_UNUSED_VAR(mreq_sv); not_here("unpack_ip_mreq_source"); #endif } #line 1744 "Socket.c" PUTBACK; return; } } XS_EUPXS(XS_Socket_pack_ipv6_mreq); /* prototype to pass -Wmissing-prototypes */ XS_EUPXS(XS_Socket_pack_ipv6_mreq) { dVAR; dXSARGS; if (items != 2) croak_xs_usage(cv, "multiaddr, ifindex"); { SV * multiaddr = ST(0) ; unsigned int ifindex = (unsigned int)SvUV(ST(1)) ; #line 1353 "Socket.xs" { #ifdef HAS_IPV6_MREQ struct ipv6_mreq mreq; char * multiaddrbytes; STRLEN len; if (DO_UTF8(multiaddr) && !sv_utf8_downgrade(multiaddr, 1)) croak("Wide character in %s", "Socket::pack_ipv6_mreq"); multiaddrbytes = SvPVbyte(multiaddr, len); if (len != sizeof(mreq.ipv6mr_multiaddr)) croak("Bad arg length %s, length is %" UVuf ", should be %" UVuf, "Socket::pack_ipv6_mreq", (UV)len, (UV)sizeof(mreq.ipv6mr_multiaddr)); Zero(&mreq, sizeof(mreq), char); Copy(multiaddrbytes, &mreq.ipv6mr_multiaddr, sizeof(mreq.ipv6mr_multiaddr), char); mreq.ipv6mr_interface = ifindex; ST(0) = sv_2mortal(newSVpvn((char *)&mreq, sizeof(mreq))); #else PERL_UNUSED_VAR(multiaddr); PERL_UNUSED_VAR(ifindex); not_here("pack_ipv6_mreq"); #endif } #line 1785 "Socket.c" } XSRETURN(1); } XS_EUPXS(XS_Socket_unpack_ipv6_mreq); /* prototype to pass -Wmissing-prototypes */ XS_EUPXS(XS_Socket_unpack_ipv6_mreq) { dVAR; dXSARGS; if (items != 1) croak_xs_usage(cv, "mreq_sv"); PERL_UNUSED_VAR(ax); /* -Wall */ SP -= items; { SV * mreq_sv = ST(0) ; #line 1380 "Socket.xs" { #ifdef HAS_IPV6_MREQ struct ipv6_mreq mreq; STRLEN mreqlen; char * mreqbytes = SvPVbyte(mreq_sv, mreqlen); if (mreqlen != sizeof(mreq)) croak("Bad arg length for %s, length is %" UVuf ", should be %" UVuf, "Socket::unpack_ipv6_mreq", (UV)mreqlen, (UV)sizeof(mreq)); Copy(mreqbytes, &mreq, sizeof(mreq), char); EXTEND(SP, 2); mPUSHp((char *)&mreq.ipv6mr_multiaddr, sizeof(mreq.ipv6mr_multiaddr)); mPUSHi(mreq.ipv6mr_interface); #else PERL_UNUSED_VAR(mreq_sv); not_here("unpack_ipv6_mreq"); #endif } #line 1821 "Socket.c" PUTBACK; return; } } #ifdef __cplusplus extern "C" #endif XS_EXTERNAL(boot_Socket); /* prototype to pass -Wmissing-prototypes */ XS_EXTERNAL(boot_Socket) { #if PERL_VERSION_LE(5, 21, 5) dVAR; dXSARGS; #else dVAR; dXSBOOTARGSXSAPIVERCHK; #endif #if (PERL_REVISION == 5 && PERL_VERSION < 9) char* file = __FILE__; #else const char* file = __FILE__; #endif PERL_UNUSED_VAR(file); PERL_UNUSED_VAR(cv); /* -W */ PERL_UNUSED_VAR(items); /* -W */ #if PERL_VERSION_LE(5, 21, 5) XS_VERSION_BOOTCHECK; # ifdef XS_APIVERSION_BOOTCHECK XS_APIVERSION_BOOTCHECK; # endif #endif newXS_deffile("Socket::AUTOLOAD", XS_Socket_AUTOLOAD); newXS_deffile("Socket::inet_aton", XS_Socket_inet_aton); newXS_deffile("Socket::inet_ntoa", XS_Socket_inet_ntoa); newXS_deffile("Socket::sockaddr_family", XS_Socket_sockaddr_family); newXS_deffile("Socket::pack_sockaddr_un", XS_Socket_pack_sockaddr_un); newXS_deffile("Socket::unpack_sockaddr_un", XS_Socket_unpack_sockaddr_un); newXS_deffile("Socket::pack_sockaddr_in", XS_Socket_pack_sockaddr_in); newXS_deffile("Socket::unpack_sockaddr_in", XS_Socket_unpack_sockaddr_in); newXS_deffile("Socket::pack_sockaddr_in6", XS_Socket_pack_sockaddr_in6); newXS_deffile("Socket::unpack_sockaddr_in6", XS_Socket_unpack_sockaddr_in6); newXS_deffile("Socket::inet_ntop", XS_Socket_inet_ntop); newXS_deffile("Socket::inet_pton", XS_Socket_inet_pton); newXS_deffile("Socket::pack_ip_mreq", XS_Socket_pack_ip_mreq); newXS_deffile("Socket::unpack_ip_mreq", XS_Socket_unpack_ip_mreq); newXS_deffile("Socket::pack_ip_mreq_source", XS_Socket_pack_ip_mreq_source); newXS_deffile("Socket::unpack_ip_mreq_source", XS_Socket_unpack_ip_mreq_source); newXS_deffile("Socket::pack_ipv6_mreq", XS_Socket_pack_ipv6_mreq); newXS_deffile("Socket::unpack_ipv6_mreq", XS_Socket_unpack_ipv6_mreq); /* Initialisation Section */ #line 2 "./const-xs.inc" { #if defined(dTHX) && !defined(PERL_NO_GET_CONTEXT) dTHX; #endif HV *symbol_table = get_hv("Socket::", GV_ADD); static const struct iv_s values_for_iv[] = { #ifdef AF_802 { "AF_802", 6, AF_802 }, #endif #ifdef AF_AAL { "AF_AAL", 6, AF_AAL }, #endif #ifdef AF_APPLETALK { "AF_APPLETALK", 12, AF_APPLETALK }, #endif #ifdef AF_CCITT { "AF_CCITT", 8, AF_CCITT }, #endif #ifdef AF_CHAOS { "AF_CHAOS", 8, AF_CHAOS }, #endif #ifdef AF_CTF { "AF_CTF", 6, AF_CTF }, #endif #ifdef AF_DATAKIT { "AF_DATAKIT", 10, AF_DATAKIT }, #endif #ifdef AF_DECnet { "AF_DECnet", 9, AF_DECnet }, #endif #ifdef AF_DLI { "AF_DLI", 6, AF_DLI }, #endif #ifdef AF_ECMA { "AF_ECMA", 7, AF_ECMA }, #endif #ifdef AF_GOSIP { "AF_GOSIP", 8, AF_GOSIP }, #endif #ifdef AF_HYLINK { "AF_HYLINK", 9, AF_HYLINK }, #endif #ifdef AF_IMPLINK { "AF_IMPLINK", 10, AF_IMPLINK }, #endif #ifdef AF_INET { "AF_INET", 7, AF_INET }, #endif #ifdef AF_INET6 { "AF_INET6", 8, AF_INET6 }, #endif #ifdef AF_ISO { "AF_ISO", 6, AF_ISO }, #endif #ifdef AF_KEY { "AF_KEY", 6, AF_KEY }, #endif #ifdef AF_LAST { "AF_LAST", 7, AF_LAST }, #endif #ifdef AF_LAT { "AF_LAT", 6, AF_LAT }, #endif #ifdef AF_LINK { "AF_LINK", 7, AF_LINK }, #endif #ifdef AF_MAX { "AF_MAX", 6, AF_MAX }, #endif #ifdef AF_NBS { "AF_NBS", 6, AF_NBS }, #endif #ifdef AF_NIT { "AF_NIT", 6, AF_NIT }, #endif #ifdef AF_NS { "AF_NS", 5, AF_NS }, #endif #ifdef AF_OSI { "AF_OSI", 6, AF_OSI }, #endif #ifdef AF_OSINET { "AF_OSINET", 9, AF_OSINET }, #endif #ifdef AF_PUP { "AF_PUP", 6, AF_PUP }, #endif #ifdef AF_ROUTE { "AF_ROUTE", 8, AF_ROUTE }, #endif #ifdef AF_SNA { "AF_SNA", 6, AF_SNA }, #endif #ifdef AF_UNIX { "AF_UNIX", 7, AF_UNIX }, #endif #ifdef AF_UNSPEC { "AF_UNSPEC", 9, AF_UNSPEC }, #endif #ifdef AF_USER { "AF_USER", 7, AF_USER }, #endif #ifdef AF_WAN { "AF_WAN", 6, AF_WAN }, #endif #ifdef AF_X25 { "AF_X25", 6, AF_X25 }, #endif #ifdef AI_ADDRCONFIG { "AI_ADDRCONFIG", 13, AI_ADDRCONFIG }, #endif #ifdef AI_ALL { "AI_ALL", 6, AI_ALL }, #endif #ifdef AI_CANONIDN { "AI_CANONIDN", 11, AI_CANONIDN }, #endif #ifdef AI_CANONNAME { "AI_CANONNAME", 12, AI_CANONNAME }, #endif #ifdef AI_IDN { "AI_IDN", 6, AI_IDN }, #endif #ifdef AI_IDN_ALLOW_UNASSIGNED { "AI_IDN_ALLOW_UNASSIGNED", 23, AI_IDN_ALLOW_UNASSIGNED }, #endif #ifdef AI_IDN_USE_STD3_ASCII_RULES { "AI_IDN_USE_STD3_ASCII_RULES", 27, AI_IDN_USE_STD3_ASCII_RULES }, #endif #ifdef AI_NUMERICHOST { "AI_NUMERICHOST", 14, AI_NUMERICHOST }, #endif #ifdef AI_NUMERICSERV { "AI_NUMERICSERV", 14, AI_NUMERICSERV }, #endif #ifdef AI_PASSIVE { "AI_PASSIVE", 10, AI_PASSIVE }, #endif #ifdef AI_V4MAPPED { "AI_V4MAPPED", 11, AI_V4MAPPED }, #endif #ifdef EAI_ADDRFAMILY { "EAI_ADDRFAMILY", 14, EAI_ADDRFAMILY }, #endif #ifdef EAI_AGAIN { "EAI_AGAIN", 9, EAI_AGAIN }, #endif #ifdef EAI_BADFLAGS { "EAI_BADFLAGS", 12, EAI_BADFLAGS }, #endif #ifdef EAI_BADHINTS { "EAI_BADHINTS", 12, EAI_BADHINTS }, #endif #ifdef EAI_FAIL { "EAI_FAIL", 8, EAI_FAIL }, #endif #ifdef EAI_FAMILY { "EAI_FAMILY", 10, EAI_FAMILY }, #endif #ifdef EAI_NODATA { "EAI_NODATA", 10, EAI_NODATA }, #endif #ifdef EAI_NONAME { "EAI_NONAME", 10, EAI_NONAME }, #endif #ifdef EAI_PROTOCOL { "EAI_PROTOCOL", 12, EAI_PROTOCOL }, #endif #ifdef EAI_SERVICE { "EAI_SERVICE", 11, EAI_SERVICE }, #endif #ifdef EAI_SOCKTYPE { "EAI_SOCKTYPE", 12, EAI_SOCKTYPE }, #endif #ifdef EAI_SYSTEM { "EAI_SYSTEM", 10, EAI_SYSTEM }, #endif #ifdef IOV_MAX { "IOV_MAX", 7, IOV_MAX }, #endif #ifdef IP_ADD_MEMBERSHIP { "IP_ADD_MEMBERSHIP", 17, IP_ADD_MEMBERSHIP }, #endif #ifdef IP_ADD_SOURCE_MEMBERSHIP { "IP_ADD_SOURCE_MEMBERSHIP", 24, IP_ADD_SOURCE_MEMBERSHIP }, #endif #ifdef IP_BIND_ADDRESS_NO_PORT { "IP_BIND_ADDRESS_NO_PORT", 23, IP_BIND_ADDRESS_NO_PORT }, #endif #ifdef IP_DROP_MEMBERSHIP { "IP_DROP_MEMBERSHIP", 18, IP_DROP_MEMBERSHIP }, #endif #ifdef IP_DROP_SOURCE_MEMBERSHIP { "IP_DROP_SOURCE_MEMBERSHIP", 25, IP_DROP_SOURCE_MEMBERSHIP }, #endif #ifdef IP_FREEBIND { "IP_FREEBIND", 11, IP_FREEBIND }, #endif #ifdef IP_HDRINCL { "IP_HDRINCL", 10, IP_HDRINCL }, #endif #ifdef IP_MULTICAST_ALL { "IP_MULTICAST_ALL", 16, IP_MULTICAST_ALL }, #endif #ifdef IP_MULTICAST_IF { "IP_MULTICAST_IF", 15, IP_MULTICAST_IF }, #endif #ifdef IP_MULTICAST_LOOP { "IP_MULTICAST_LOOP", 17, IP_MULTICAST_LOOP }, #endif #ifdef IP_MULTICAST_TTL { "IP_MULTICAST_TTL", 16, IP_MULTICAST_TTL }, #endif #ifdef IP_MTU { "IP_MTU", 6, IP_MTU }, #endif #ifdef IP_MTU_DISCOVER { "IP_MTU_DISCOVER", 15, IP_MTU_DISCOVER }, #endif #ifdef IP_NODEFRAG { "IP_NODEFRAG", 11, IP_NODEFRAG }, #endif #ifdef IP_OPTIONS { "IP_OPTIONS", 10, IP_OPTIONS }, #endif #ifdef IP_RECVERR { "IP_RECVERR", 10, IP_RECVERR }, #endif #ifdef IP_RECVOPTS { "IP_RECVOPTS", 11, IP_RECVOPTS }, #endif #ifdef IP_RECVRETOPTS { "IP_RECVRETOPTS", 14, IP_RECVRETOPTS }, #endif #ifdef IP_RETOPTS { "IP_RETOPTS", 10, IP_RETOPTS }, #endif #ifdef IP_TOS { "IP_TOS", 6, IP_TOS }, #endif #ifdef IP_TRANSPARENT { "IP_TRANSPARENT", 14, IP_TRANSPARENT }, #endif #ifdef IP_TTL { "IP_TTL", 6, IP_TTL }, #endif #ifdef IP_PMTUDISC_DO { "IP_PMTUDISC_DO", 14, IP_PMTUDISC_DO }, #endif #ifdef IP_PMTUDISC_DONT { "IP_PMTUDISC_DONT", 16, IP_PMTUDISC_DONT }, #endif #ifdef IP_PMTUDISC_PROBE { "IP_PMTUDISC_PROBE", 17, IP_PMTUDISC_PROBE }, #endif #ifdef IP_PMTUDISC_WANT { "IP_PMTUDISC_WANT", 16, IP_PMTUDISC_WANT }, #endif #ifdef IPTOS_LOWDELAY { "IPTOS_LOWDELAY", 14, IPTOS_LOWDELAY }, #endif #ifdef IPTOS_THROUGHPUT { "IPTOS_THROUGHPUT", 16, IPTOS_THROUGHPUT }, #endif #ifdef IPTOS_RELIABILITY { "IPTOS_RELIABILITY", 17, IPTOS_RELIABILITY }, #endif #ifdef IPTOS_MINCOST { "IPTOS_MINCOST", 13, IPTOS_MINCOST }, #endif #ifdef IPV6_ADDRFROM { "IPV6_ADDRFROM", 13, IPV6_ADDRFROM }, #endif #ifdef IPV6_ADD_MEMBERSHIP { "IPV6_ADD_MEMBERSHIP", 19, IPV6_ADD_MEMBERSHIP }, #endif #ifdef IPV6_DROP_MEMBERSHIP { "IPV6_DROP_MEMBERSHIP", 20, IPV6_DROP_MEMBERSHIP }, #endif #ifdef IPV6_JOIN_GROUP { "IPV6_JOIN_GROUP", 15, IPV6_JOIN_GROUP }, #endif #ifdef IPV6_LEAVE_GROUP { "IPV6_LEAVE_GROUP", 16, IPV6_LEAVE_GROUP }, #endif #ifdef IPV6_MTU { "IPV6_MTU", 8, IPV6_MTU }, #endif #ifdef IPV6_MTU_DISCOVER { "IPV6_MTU_DISCOVER", 17, IPV6_MTU_DISCOVER }, #endif #ifdef IPV6_MULTICAST_HOPS { "IPV6_MULTICAST_HOPS", 19, IPV6_MULTICAST_HOPS }, #endif #ifdef IPV6_MULTICAST_IF { "IPV6_MULTICAST_IF", 17, IPV6_MULTICAST_IF }, #endif #ifdef IPV6_MULTICAST_LOOP { "IPV6_MULTICAST_LOOP", 19, IPV6_MULTICAST_LOOP }, #endif #ifdef IPV6_RECVERR { "IPV6_RECVERR", 12, IPV6_RECVERR }, #endif #ifdef IPV6_ROUTER_ALERT { "IPV6_ROUTER_ALERT", 17, IPV6_ROUTER_ALERT }, #endif #ifdef IPV6_UNICAST_HOPS { "IPV6_UNICAST_HOPS", 17, IPV6_UNICAST_HOPS }, #endif #ifdef IPV6_V6ONLY { "IPV6_V6ONLY", 11, IPV6_V6ONLY }, #endif #ifdef MSG_BCAST { "MSG_BCAST", 9, MSG_BCAST }, #endif #ifdef MSG_BTAG { "MSG_BTAG", 8, MSG_BTAG }, #endif #ifdef MSG_CTLFLAGS { "MSG_CTLFLAGS", 12, MSG_CTLFLAGS }, #endif #ifdef MSG_CTLIGNORE { "MSG_CTLIGNORE", 13, MSG_CTLIGNORE }, #endif #ifdef MSG_DONTWAIT { "MSG_DONTWAIT", 12, MSG_DONTWAIT }, #endif #ifdef MSG_EOF { "MSG_EOF", 7, MSG_EOF }, #endif #ifdef MSG_EOR { "MSG_EOR", 7, MSG_EOR }, #endif #ifdef MSG_ERRQUEUE { "MSG_ERRQUEUE", 12, MSG_ERRQUEUE }, #endif #ifdef MSG_ETAG { "MSG_ETAG", 8, MSG_ETAG }, #endif #ifdef MSG_FASTOPEN { "MSG_FASTOPEN", 12, MSG_FASTOPEN }, #endif #ifdef MSG_FIN { "MSG_FIN", 7, MSG_FIN }, #endif #ifdef MSG_MAXIOVLEN { "MSG_MAXIOVLEN", 13, MSG_MAXIOVLEN }, #endif #ifdef MSG_MCAST { "MSG_MCAST", 9, MSG_MCAST }, #endif #ifdef MSG_NOSIGNAL { "MSG_NOSIGNAL", 12, MSG_NOSIGNAL }, #endif #ifdef MSG_RST { "MSG_RST", 7, MSG_RST }, #endif #ifdef MSG_SYN { "MSG_SYN", 7, MSG_SYN }, #endif #ifdef MSG_TRUNC { "MSG_TRUNC", 9, MSG_TRUNC }, #endif #ifdef MSG_URG { "MSG_URG", 7, MSG_URG }, #endif #ifdef MSG_WAITALL { "MSG_WAITALL", 11, MSG_WAITALL }, #endif #ifdef MSG_WIRE { "MSG_WIRE", 8, MSG_WIRE }, #endif #ifdef NI_DGRAM { "NI_DGRAM", 8, NI_DGRAM }, #endif #ifdef NI_IDN { "NI_IDN", 6, NI_IDN }, #endif #ifdef NI_IDN_ALLOW_UNASSIGNED { "NI_IDN_ALLOW_UNASSIGNED", 23, NI_IDN_ALLOW_UNASSIGNED }, #endif #ifdef NI_IDN_USE_STD3_ASCII_RULES { "NI_IDN_USE_STD3_ASCII_RULES", 27, NI_IDN_USE_STD3_ASCII_RULES }, #endif #ifdef NI_NAMEREQD { "NI_NAMEREQD", 11, NI_NAMEREQD }, #endif #ifdef NI_NOFQDN { "NI_NOFQDN", 9, NI_NOFQDN }, #endif #ifdef NI_NUMERICHOST { "NI_NUMERICHOST", 14, NI_NUMERICHOST }, #endif #ifdef NI_NUMERICSERV { "NI_NUMERICSERV", 14, NI_NUMERICSERV }, #endif #ifdef PF_802 { "PF_802", 6, PF_802 }, #endif #ifdef PF_AAL { "PF_AAL", 6, PF_AAL }, #endif #ifdef PF_APPLETALK { "PF_APPLETALK", 12, PF_APPLETALK }, #endif #ifdef PF_CCITT { "PF_CCITT", 8, PF_CCITT }, #endif #ifdef PF_CHAOS { "PF_CHAOS", 8, PF_CHAOS }, #endif #ifdef PF_CTF { "PF_CTF", 6, PF_CTF }, #endif #ifdef PF_DATAKIT { "PF_DATAKIT", 10, PF_DATAKIT }, #endif #ifdef PF_DECnet { "PF_DECnet", 9, PF_DECnet }, #endif #ifdef PF_DLI { "PF_DLI", 6, PF_DLI }, #endif #ifdef PF_ECMA { "PF_ECMA", 7, PF_ECMA }, #endif #ifdef PF_GOSIP { "PF_GOSIP", 8, PF_GOSIP }, #endif #ifdef PF_HYLINK { "PF_HYLINK", 9, PF_HYLINK }, #endif #ifdef PF_IMPLINK { "PF_IMPLINK", 10, PF_IMPLINK }, #endif #ifdef PF_INET { "PF_INET", 7, PF_INET }, #endif #ifdef PF_INET6 { "PF_INET6", 8, PF_INET6 }, #endif #ifdef PF_ISO { "PF_ISO", 6, PF_ISO }, #endif #ifdef PF_KEY { "PF_KEY", 6, PF_KEY }, #endif #ifdef PF_LAST { "PF_LAST", 7, PF_LAST }, #endif #ifdef PF_LAT { "PF_LAT", 6, PF_LAT }, #endif #ifdef PF_LINK { "PF_LINK", 7, PF_LINK }, #endif #ifdef PF_MAX { "PF_MAX", 6, PF_MAX }, #endif #ifdef PF_NBS { "PF_NBS", 6, PF_NBS }, #endif #ifdef PF_NIT { "PF_NIT", 6, PF_NIT }, #endif #ifdef PF_NS { "PF_NS", 5, PF_NS }, #endif #ifdef PF_OSI { "PF_OSI", 6, PF_OSI }, #endif #ifdef PF_OSINET { "PF_OSINET", 9, PF_OSINET }, #endif #ifdef PF_PUP { "PF_PUP", 6, PF_PUP }, #endif #ifdef PF_ROUTE { "PF_ROUTE", 8, PF_ROUTE }, #endif #ifdef PF_SNA { "PF_SNA", 6, PF_SNA }, #endif #ifdef PF_UNIX { "PF_UNIX", 7, PF_UNIX }, #endif #ifdef PF_UNSPEC { "PF_UNSPEC", 9, PF_UNSPEC }, #endif #ifdef PF_USER { "PF_USER", 7, PF_USER }, #endif #ifdef PF_WAN { "PF_WAN", 6, PF_WAN }, #endif #ifdef PF_X25 { "PF_X25", 6, PF_X25 }, #endif #ifdef SCM_CONNECT { "SCM_CONNECT", 11, SCM_CONNECT }, #endif #ifdef SCM_CREDENTIALS { "SCM_CREDENTIALS", 15, SCM_CREDENTIALS }, #endif #ifdef SCM_CREDS { "SCM_CREDS", 9, SCM_CREDS }, #endif #ifdef SCM_TIMESTAMP { "SCM_TIMESTAMP", 13, SCM_TIMESTAMP }, #endif #ifdef SOCK_DGRAM { "SOCK_DGRAM", 10, SOCK_DGRAM }, #endif #ifdef SOCK_RAW { "SOCK_RAW", 8, SOCK_RAW }, #endif #ifdef SOCK_RDM { "SOCK_RDM", 8, SOCK_RDM }, #endif #ifdef SOCK_SEQPACKET { "SOCK_SEQPACKET", 14, SOCK_SEQPACKET }, #endif #ifdef SOCK_STREAM { "SOCK_STREAM", 11, SOCK_STREAM }, #endif #ifdef SOCK_NONBLOCK { "SOCK_NONBLOCK", 13, SOCK_NONBLOCK }, #endif #ifdef SOCK_CLOEXEC { "SOCK_CLOEXEC", 12, SOCK_CLOEXEC }, #endif #ifdef SOL_SOCKET { "SOL_SOCKET", 10, SOL_SOCKET }, #endif #ifdef SOMAXCONN { "SOMAXCONN", 9, SOMAXCONN }, #endif #ifdef SO_ACCEPTCONN { "SO_ACCEPTCONN", 13, SO_ACCEPTCONN }, #endif #ifdef SO_ATTACH_FILTER { "SO_ATTACH_FILTER", 16, SO_ATTACH_FILTER }, #endif #ifdef SO_BACKLOG { "SO_BACKLOG", 10, SO_BACKLOG }, #endif #ifdef SO_BINDTODEVICE { "SO_BINDTODEVICE", 15, SO_BINDTODEVICE }, #endif #ifdef SO_BROADCAST { "SO_BROADCAST", 12, SO_BROADCAST }, #endif #ifdef SO_BSDCOMPAT { "SO_BSDCOMPAT", 12, SO_BSDCOMPAT }, #endif #ifdef SO_BUSY_POLL { "SO_BUSY_POLL", 12, SO_BUSY_POLL }, #endif #ifdef SO_CHAMELEON { "SO_CHAMELEON", 12, SO_CHAMELEON }, #endif #ifdef SO_DEBUG { "SO_DEBUG", 8, SO_DEBUG }, #endif #ifdef SO_DETACH_FILTER { "SO_DETACH_FILTER", 16, SO_DETACH_FILTER }, #endif #ifdef SO_DGRAM_ERRIND { "SO_DGRAM_ERRIND", 15, SO_DGRAM_ERRIND }, #endif #ifdef SO_DOMAIN { "SO_DOMAIN", 9, SO_DOMAIN }, #endif #ifdef SO_DONTLINGER { "SO_DONTLINGER", 13, SO_DONTLINGER }, #endif #ifdef SO_DONTROUTE { "SO_DONTROUTE", 12, SO_DONTROUTE }, #endif #ifdef SO_ERROR { "SO_ERROR", 8, SO_ERROR }, #endif #ifdef SO_FAMILY { "SO_FAMILY", 9, SO_FAMILY }, #endif #ifdef SO_KEEPALIVE { "SO_KEEPALIVE", 12, SO_KEEPALIVE }, #endif #ifdef SO_LINGER { "SO_LINGER", 9, SO_LINGER }, #endif #ifdef SO_LOCK_FILTER { "SO_LOCK_FILTER", 14, SO_LOCK_FILTER }, #endif #ifdef SO_MARK { "SO_MARK", 7, SO_MARK }, #endif #ifdef SO_OOBINLINE { "SO_OOBINLINE", 12, SO_OOBINLINE }, #endif #ifdef SO_PASSCRED { "SO_PASSCRED", 11, SO_PASSCRED }, #endif #ifdef SO_PASSIFNAME { "SO_PASSIFNAME", 13, SO_PASSIFNAME }, #endif #ifdef SO_PEEK_OFF { "SO_PEEK_OFF", 11, SO_PEEK_OFF }, #endif #ifdef SO_PEERCRED { "SO_PEERCRED", 11, SO_PEERCRED }, #endif #ifdef SO_PRIORITY { "SO_PRIORITY", 11, SO_PRIORITY }, #endif #ifdef SO_PROTOCOL { "SO_PROTOCOL", 11, SO_PROTOCOL }, #endif #ifdef SO_PROTOTYPE { "SO_PROTOTYPE", 12, SO_PROTOTYPE }, #endif #ifdef SO_RCVBUF { "SO_RCVBUF", 9, SO_RCVBUF }, #endif #ifdef SO_RCVBUFFORCE { "SO_RCVBUFFORCE", 14, SO_RCVBUFFORCE }, #endif #ifdef SO_RCVLOWAT { "SO_RCVLOWAT", 11, SO_RCVLOWAT }, #endif #ifdef SO_RCVTIMEO { "SO_RCVTIMEO", 11, SO_RCVTIMEO }, #endif #ifdef SO_REUSEADDR { "SO_REUSEADDR", 12, SO_REUSEADDR }, #endif #ifdef SO_REUSEPORT { "SO_REUSEPORT", 12, SO_REUSEPORT }, #endif #ifdef SO_RXQ_OVFL { "SO_RXQ_OVFL", 11, SO_RXQ_OVFL }, #endif #ifdef SO_SECURITY_AUTHENTICATION { "SO_SECURITY_AUTHENTICATION", 26, SO_SECURITY_AUTHENTICATION }, #endif #ifdef SO_SECURITY_ENCRYPTION_NETWORK { "SO_SECURITY_ENCRYPTION_NETWORK", 30, SO_SECURITY_ENCRYPTION_NETWORK }, #endif #ifdef SO_SECURITY_ENCRYPTION_TRANSPORT { "SO_SECURITY_ENCRYPTION_TRANSPORT", 32, SO_SECURITY_ENCRYPTION_TRANSPORT }, #endif #ifdef SO_SNDBUF { "SO_SNDBUF", 9, SO_SNDBUF }, #endif #ifdef SO_SNDBUFFORCE { "SO_SNDBUFFORCE", 14, SO_SNDBUFFORCE }, #endif #ifdef SO_SNDLOWAT { "SO_SNDLOWAT", 11, SO_SNDLOWAT }, #endif #ifdef SO_SNDTIMEO { "SO_SNDTIMEO", 11, SO_SNDTIMEO }, #endif #ifdef SO_STATE { "SO_STATE", 8, SO_STATE }, #endif #ifdef SO_TIMESTAMP { "SO_TIMESTAMP", 12, SO_TIMESTAMP }, #endif #ifdef SO_TYPE { "SO_TYPE", 7, SO_TYPE }, #endif #ifdef SO_USELOOPBACK { "SO_USELOOPBACK", 14, SO_USELOOPBACK }, #endif #ifdef SO_XOPEN { "SO_XOPEN", 8, SO_XOPEN }, #endif #ifdef SO_XSE { "SO_XSE", 6, SO_XSE }, #endif #ifdef TCP_CONGESTION { "TCP_CONGESTION", 14, TCP_CONGESTION }, #endif #ifdef TCP_CONNECTIONTIMEOUT { "TCP_CONNECTIONTIMEOUT", 21, TCP_CONNECTIONTIMEOUT }, #endif #ifdef TCP_CORK { "TCP_CORK", 8, TCP_CORK }, #endif #ifdef TCP_DEFER_ACCEPT { "TCP_DEFER_ACCEPT", 16, TCP_DEFER_ACCEPT }, #endif #ifdef TCP_FASTOPEN { "TCP_FASTOPEN", 12, TCP_FASTOPEN }, #endif #ifdef TCP_INFO { "TCP_INFO", 8, TCP_INFO }, #endif #ifdef TCP_INIT_CWND { "TCP_INIT_CWND", 13, TCP_INIT_CWND }, #endif #ifdef TCP_KEEPALIVE { "TCP_KEEPALIVE", 13, TCP_KEEPALIVE }, #endif #ifdef TCP_KEEPCNT { "TCP_KEEPCNT", 11, TCP_KEEPCNT }, #endif #ifdef TCP_KEEPIDLE { "TCP_KEEPIDLE", 12, TCP_KEEPIDLE }, #endif #ifdef TCP_KEEPINTVL { "TCP_KEEPINTVL", 13, TCP_KEEPINTVL }, #endif #ifdef TCP_LINGER2 { "TCP_LINGER2", 11, TCP_LINGER2 }, #endif #ifdef TCP_MAXRT { "TCP_MAXRT", 9, TCP_MAXRT }, #endif #ifdef TCP_MAXSEG { "TCP_MAXSEG", 10, TCP_MAXSEG }, #endif #ifdef TCP_MD5SIG { "TCP_MD5SIG", 10, TCP_MD5SIG }, #endif #ifdef TCP_NODELAY { "TCP_NODELAY", 11, TCP_NODELAY }, #endif #ifdef TCP_NOOPT { "TCP_NOOPT", 9, TCP_NOOPT }, #endif #ifdef TCP_NOPUSH { "TCP_NOPUSH", 10, TCP_NOPUSH }, #endif #ifdef TCP_QUICKACK { "TCP_QUICKACK", 12, TCP_QUICKACK }, #endif #ifdef TCP_SACK_ENABLE { "TCP_SACK_ENABLE", 15, TCP_SACK_ENABLE }, #endif #ifdef TCP_STDURG { "TCP_STDURG", 10, TCP_STDURG }, #endif #ifdef TCP_SYNCNT { "TCP_SYNCNT", 10, TCP_SYNCNT }, #endif #ifdef TCP_USER_TIMEOUT { "TCP_USER_TIMEOUT", 16, TCP_USER_TIMEOUT }, #endif #ifdef TCP_WINDOW_CLAMP { "TCP_WINDOW_CLAMP", 16, TCP_WINDOW_CLAMP }, #endif #ifdef UIO_MAXIOV { "UIO_MAXIOV", 10, UIO_MAXIOV }, #endif #ifdef IPPROTO_IP { "IPPROTO_IP", 10, IPPROTO_IP }, #endif #ifdef IPPROTO_IPV6 { "IPPROTO_IPV6", 12, IPPROTO_IPV6 }, #endif #ifdef IPPROTO_RAW { "IPPROTO_RAW", 11, IPPROTO_RAW }, #endif #ifdef IPPROTO_ICMP { "IPPROTO_ICMP", 12, IPPROTO_ICMP }, #endif #ifdef IPPROTO_IGMP { "IPPROTO_IGMP", 12, IPPROTO_IGMP }, #endif #ifdef IPPROTO_TCP { "IPPROTO_TCP", 11, IPPROTO_TCP }, #endif #ifdef IPPROTO_UDP { "IPPROTO_UDP", 11, IPPROTO_UDP }, #endif #ifdef IPPROTO_GRE { "IPPROTO_GRE", 11, IPPROTO_GRE }, #endif #ifdef IPPROTO_ESP { "IPPROTO_ESP", 11, IPPROTO_ESP }, #endif #ifdef IPPROTO_AH { "IPPROTO_AH", 10, IPPROTO_AH }, #endif #ifdef IPPROTO_ICMPV6 { "IPPROTO_ICMPV6", 14, IPPROTO_ICMPV6 }, #endif #ifdef IPPROTO_SCTP { "IPPROTO_SCTP", 12, IPPROTO_SCTP }, #endif #ifdef SHUT_RD { "SHUT_RD", 7, SHUT_RD }, #endif #ifdef SHUT_WR { "SHUT_WR", 7, SHUT_WR }, #endif #ifdef SHUT_RDWR { "SHUT_RDWR", 9, SHUT_RDWR }, #endif #if defined(MSG_CTRUNC) || defined(HAS_MSG_CTRUNC) /* might be an enum */ { "MSG_CTRUNC", 10, MSG_CTRUNC }, #endif #if defined(MSG_DONTROUTE) || defined(HAS_MSG_DONTROUTE) /* might be an enum */ { "MSG_DONTROUTE", 13, MSG_DONTROUTE }, #endif #if defined(MSG_OOB) || defined(HAS_MSG_OOB) /* might be an enum */ { "MSG_OOB", 7, MSG_OOB }, #endif #if defined(MSG_PEEK) || defined(HAS_MSG_PEEK) /* might be an enum */ { "MSG_PEEK", 8, MSG_PEEK }, #endif #if defined(MSG_PROXY) || defined(HAS_MSG_PROXY) /* might be an enum */ { "MSG_PROXY", 9, MSG_PROXY }, #endif #if defined(SCM_RIGHTS) || defined(HAS_SCM_RIGHTS) /* might be an enum */ { "SCM_RIGHTS", 10, SCM_RIGHTS }, #endif #ifndef IPPROTO_IP /* This is the default value: */ { "IPPROTO_IP", 10, 0 }, #endif #ifndef IPPROTO_IPV6 /* This is the default value: */ { "IPPROTO_IPV6", 12, 41 }, #endif #ifndef IPPROTO_RAW /* This is the default value: */ { "IPPROTO_RAW", 11, 255 }, #endif #ifndef IPPROTO_ICMP /* This is the default value: */ { "IPPROTO_ICMP", 12, 1 }, #endif #ifndef IPPROTO_IGMP /* This is the default value: */ { "IPPROTO_IGMP", 12, 2 }, #endif #ifndef IPPROTO_TCP /* This is the default value: */ { "IPPROTO_TCP", 11, 6 }, #endif #ifndef IPPROTO_UDP /* This is the default value: */ { "IPPROTO_UDP", 11, 17 }, #endif #ifndef IPPROTO_GRE /* This is the default value: */ { "IPPROTO_GRE", 11, 47 }, #endif #ifndef IPPROTO_ESP /* This is the default value: */ { "IPPROTO_ESP", 11, 50 }, #endif #ifndef IPPROTO_AH /* This is the default value: */ { "IPPROTO_AH", 10, 51 }, #endif #ifndef IPPROTO_ICMPV6 /* This is the default value: */ { "IPPROTO_ICMPV6", 14, 58 }, #endif #ifndef IPPROTO_SCTP /* This is the default value: */ { "IPPROTO_SCTP", 12, 132 }, #endif #ifndef SHUT_RD /* This is the default value: */ { "SHUT_RD", 7, 0 }, #endif #ifndef SHUT_WR /* This is the default value: */ { "SHUT_WR", 7, 1 }, #endif #ifndef SHUT_RDWR /* This is the default value: */ { "SHUT_RDWR", 9, 2 }, #endif { NULL, 0, 0 } }; const struct iv_s *value_for_iv = values_for_iv; while (value_for_iv->name) { constant_add_symbol(aTHX_ symbol_table, value_for_iv->name, value_for_iv->namelen, newSViv(value_for_iv->value)); ++value_for_iv; } if (C_ARRAY_LENGTH(values_for_notfound) > 1) { #ifndef SYMBIAN HV *const constant_missing = get_missing_hash(aTHX); #endif const struct notfound_s *value_for_notfound = values_for_notfound; do { /* Need to add prototypes, else parsing will vary by platform. */ HE *he = (HE*) hv_common_key_len(symbol_table, value_for_notfound->name, value_for_notfound->namelen, HV_FETCH_LVALUE, NULL, 0); SV *sv; #ifndef SYMBIAN HEK *hek; #endif if (!he) { croak("Couldn't add key '%s' to %%Socket::", value_for_notfound->name); } sv = HeVAL(he); if (!SvOK(sv) && SvTYPE(sv) != SVt_PVGV) { /* Nothing was here before, so mark a prototype of "" */ sv_setpvn(sv, "", 0); } else if (SvPOK(sv) && SvCUR(sv) == 0) { /* There is already a prototype of "" - do nothing */ } else { /* Someone has been here before us - have to make a real typeglob. */ /* It turns out to be incredibly hard to deal with all the corner cases of sub foo (); and reporting errors correctly, so lets cheat a bit. Start with a constant subroutine */ CV *cv = newCONSTSUB(symbol_table, value_for_notfound->name, &PL_sv_yes); /* and then turn it into a non constant declaration only. */ SvREFCNT_dec(CvXSUBANY(cv).any_ptr); CvCONST_off(cv); CvXSUB(cv) = NULL; CvXSUBANY(cv).any_ptr = NULL; } #ifndef SYMBIAN hek = HeKEY_hek(he); if (!hv_common(constant_missing, NULL, HEK_KEY(hek), HEK_LEN(hek), HEK_FLAGS(hek), HV_FETCH_ISSTORE, &PL_sv_yes, HEK_HASH(hek))) croak("Couldn't add key '%s' to missing_hash", value_for_notfound->name); #endif } while ((++value_for_notfound)->name); } #ifdef INADDR_ANY { SV * temp0; struct in_addr ip_address; ip_address.s_addr = htonl(INADDR_ANY); temp0 = newSVpvn_flags((char *)&ip_address,sizeof(ip_address), SVs_TEMP); constant_add_symbol(aTHX_ symbol_table, "INADDR_ANY", 10, SvREFCNT_inc(temp0)); } #endif #ifdef INADDR_LOOPBACK { SV * temp0; struct in_addr ip_address; ip_address.s_addr = htonl(INADDR_LOOPBACK); temp0 = newSVpvn_flags((char *)&ip_address,sizeof(ip_address), SVs_TEMP); constant_add_symbol(aTHX_ symbol_table, "INADDR_LOOPBACK", 15, SvREFCNT_inc(temp0)); } #endif #ifdef INADDR_NONE { SV * temp0; struct in_addr ip_address; ip_address.s_addr = htonl(INADDR_NONE); temp0 = newSVpvn_flags((char *)&ip_address,sizeof(ip_address), SVs_TEMP); constant_add_symbol(aTHX_ symbol_table, "INADDR_NONE", 11, SvREFCNT_inc(temp0)); } #endif #ifdef INADDR_BROADCAST { SV * temp0; struct in_addr ip_address; ip_address.s_addr = htonl(INADDR_BROADCAST); temp0 = newSVpvn_flags((char *)&ip_address,sizeof(ip_address), SVs_TEMP); constant_add_symbol(aTHX_ symbol_table, "INADDR_BROADCAST", 16, SvREFCNT_inc(temp0)); } #endif #ifdef IN6ADDR_ANY_INIT { SV * temp0; struct in6_addr ip6_address = IN6ADDR_ANY_INIT; temp0 = newSVpvn_flags((char *)&ip6_address,sizeof(ip6_address), SVs_TEMP); constant_add_symbol(aTHX_ symbol_table, "IN6ADDR_ANY", 11, SvREFCNT_inc(temp0)); } #endif #ifdef IN6ADDR_LOOPBACK_INIT { SV * temp0; struct in6_addr ip6_address = IN6ADDR_LOOPBACK_INIT; temp0 = newSVpvn_flags((char *)&ip6_address,sizeof(ip6_address), SVs_TEMP); constant_add_symbol(aTHX_ symbol_table, "IN6ADDR_LOOPBACK", 16, SvREFCNT_inc(temp0)); } #endif /* As we've been creating subroutines, we better invalidate any cached methods */ mro_method_changed_in(symbol_table); } #line 736 "Socket.xs" #ifdef HAS_GETADDRINFO newXS("Socket::getaddrinfo", xs_getaddrinfo, __FILE__); #endif #ifdef HAS_GETNAMEINFO newXS("Socket::getnameinfo", xs_getnameinfo, __FILE__); #endif #line 2883 "Socket.c" /* End of Initialisation Section */ #if PERL_VERSION_LE(5, 21, 5) # if PERL_VERSION_GE(5, 9, 0) if (PL_unitcheckav) call_list(PL_scopestack_ix, PL_unitcheckav); # endif XSRETURN_YES; #else Perl_xs_boot_epilog(aTHX_ ax); #endif }