/*
- * Store and retrieve mechanism.
- */
-
-/*
- * $Id: Storable.xs,v 1.0.1.10 2001/08/28 21:52:14 ram Exp $
+ * Store and retrieve mechanism.
*
* Copyright (c) 1995-2000, Raphael Manfredi
*
* You may redistribute only under the same terms as Perl 5, as specified
* in the README file that comes with the distribution.
*
- * $Log: Storable.xs,v $
- * Revision 1.0.1.10 2001/08/28 21:52:14 ram
- * patch13: removed spurious debugging messages
- *
- * Revision 1.0.1.9 2001/07/01 11:25:02 ram
- * patch12: fixed memory corruption on croaks during thaw()
- * patch12: made code compile cleanly with -Wall (Jarkko Hietaniemi)
- * patch12: changed tagnum and classnum from I32 to IV in context
- *
- * Revision 1.0.1.8 2001/03/15 00:20:55 ram
- * patch11: last version was wrongly compiling with assertions on
- *
- * Revision 1.0.1.7 2001/02/17 12:25:26 ram
- * patch8: now bless objects ASAP at retrieve time
- * patch8: added support for blessed ref to tied structures
- *
- * Revision 1.0.1.6 2001/01/03 09:40:40 ram
- * patch7: prototype and casting cleanup
- * patch7: trace offending package when overloading cannot be restored
- * patch7: made context cleanup safer to avoid dup freeing
- *
- * Revision 1.0.1.5 2000/11/05 17:21:24 ram
- * patch6: fixed severe "object lost" bug for STORABLE_freeze returns
- *
- * Revision 1.0.1.4 2000/10/26 17:11:04 ram
- * patch5: auto requires module of blessed ref when STORABLE_thaw misses
- *
- * Revision 1.0.1.3 2000/09/29 19:49:57 ram
- * patch3: avoid using "tainted" and "dirty" since Perl remaps them via cpp
- *
- * Revision 1.0.1.2 2000/09/28 21:43:10 ram
- * patch2: perls before 5.004_04 lack newSVpvn
- *
- * Revision 1.0.1.1 2000/09/17 16:47:49 ram
- * patch1: now only taint retrieved data when source was tainted
- * patch1: added support for UTF-8 strings
- * patch1: fixed store hook bug: was allocating class id too soon
- *
- * Revision 1.0 2000/09/01 19:40:41 ram
- * Baseline for first official release.
- *
*/
#include <EXTERN.h>
#include <perl.h>
-#include <patchlevel.h> /* Perl's one, needed since 5.6 */
#include <XSUB.h>
+#ifndef PATCHLEVEL
+# include <patchlevel.h> /* Perl's one, needed since 5.6 */
+# if !(defined(PERL_VERSION) || (SUBVERSION > 0 && defined(PATCHLEVEL)))
+# include <could_not_find_Perl_patchlevel.h>
+# endif
+#endif
+
+#ifndef NETWARE
#if 0
#define DEBUGME /* Debug mode, turns assertions on as well */
#define DASSERT /* Assertion mode */
#endif
+#else /* NETWARE */
+#if 0 /* On NetWare USE_PERLIO is not used */
+#define DEBUGME /* Debug mode, turns assertions on as well */
+#define DASSERT /* Assertion mode */
+#endif
+#endif
/*
* Pre PerlIO time when none of USE_PERLIO and PERLIO_IS_STDIO is defined
* TRACEME() will only output things when the $Storable::DEBUGME is true.
*/
-#define TRACEME(x) do { \
+#define TRACEME(x) \
+ STMT_START { \
if (SvTRUE(perl_get_sv("Storable::DEBUGME", TRUE))) \
- { PerlIO_stdoutf x; PerlIO_stdoutf("\n"); } \
-} while (0)
+ { PerlIO_stdoutf x; PerlIO_stdoutf("\n"); } \
+ } STMT_END
#else
#define TRACEME(x)
#endif /* DEBUGME */
#ifdef DASSERT
-#define ASSERT(x,y) do { \
+#define ASSERT(x,y) \
+ STMT_START { \
if (!(x)) { \
PerlIO_stdoutf("ASSERT FAILED (\"%s\", line %d): ", \
__FILE__, __LINE__); \
PerlIO_stdoutf y; PerlIO_stdoutf("\n"); \
} \
-} while (0)
+ } STMT_END
#else
#define ASSERT(x,y)
#endif
#define SX_BYTE C(8) /* (signed) byte forthcoming */
#define SX_NETINT C(9) /* Integer in network order forthcoming */
#define SX_SCALAR C(10) /* Scalar (binary, small) follows (length, data) */
-#define SX_TIED_ARRAY C(11) /* Tied array forthcoming */
-#define SX_TIED_HASH C(12) /* Tied hash forthcoming */
-#define SX_TIED_SCALAR C(13) /* Tied scalar forthcoming */
+#define SX_TIED_ARRAY C(11) /* Tied array forthcoming */
+#define SX_TIED_HASH C(12) /* Tied hash forthcoming */
+#define SX_TIED_SCALAR C(13) /* Tied scalar forthcoming */
#define SX_SV_UNDEF C(14) /* Perl's immortal PL_sv_undef */
#define SX_SV_YES C(15) /* Perl's immortal PL_sv_yes */
#define SX_SV_NO C(16) /* Perl's immortal PL_sv_no */
#define SX_IX_BLESS C(18) /* Object is blessed, classname given by index */
#define SX_HOOK C(19) /* Stored via hook, user-defined */
#define SX_OVERLOAD C(20) /* Overloaded reference */
-#define SX_TIED_KEY C(21) /* Tied magic key forthcoming */
-#define SX_TIED_IDX C(22) /* Tied magic index forthcoming */
-#define SX_UTF8STR C(23) /* UTF-8 string forthcoming (small) */
-#define SX_LUTF8STR C(24) /* UTF-8 string forthcoming (large) */
-#define SX_FLAG_HASH C(25) /* Hash with flags forthcoming (size, flags, key/flags/value triplet list) */
-#define SX_ERROR C(26) /* Error */
+#define SX_TIED_KEY C(21) /* Tied magic key forthcoming */
+#define SX_TIED_IDX C(22) /* Tied magic index forthcoming */
+#define SX_UTF8STR C(23) /* UTF-8 string forthcoming (small) */
+#define SX_LUTF8STR C(24) /* UTF-8 string forthcoming (large) */
+#define SX_FLAG_HASH C(25) /* Hash with flags forthcoming (size, flags, key/flags/value triplet list) */
+#define SX_CODE C(26) /* Code references as perl source code */
+#define SX_ERROR C(27) /* Error */
/*
* Those are only used to retrieve "old" pre-0.6 binary images.
*/
#define SX_CLASS 'b' /* Object is blessed, class name length <255 */
-#define SX_LG_CLASS 'B' /* Object is blessed, class name length >255 */
+#define SX_LG_CLASS 'B' /* Object is blessed, class name length >255 */
#define SX_STORED 'X' /* End of object */
/*
#define MY_VERSION "Storable(" XS_VERSION ")"
+
+/*
+ * Conditional UTF8 support.
+ *
+ */
+#ifdef SvUTF8_on
+#define STORE_UTF8STR(pv, len) STORE_PV_LEN(pv, len, SX_UTF8STR, SX_LUTF8STR)
+#define HAS_UTF8_SCALARS
+#ifdef HeKUTF8
+#define HAS_UTF8_HASHES
+#define HAS_UTF8_ALL
+#else
+/* 5.6 perl has utf8 scalars but not hashes */
+#endif
+#else
+#define SvUTF8(sv) 0
+#define STORE_UTF8STR(pv, len) CROAK(("panic: storing UTF8 in non-UTF8 perl"))
+#endif
+#ifndef HAS_UTF8_ALL
+#define UTF8_CROAK() CROAK(("Cannot retrieve UTF8 data in non-UTF8 perl"))
+#endif
+
+#ifdef HvPLACEHOLDERS
+#define HAS_RESTRICTED_HASHES
+#else
+#define HVhek_PLACEHOLD 0x200
+#define RESTRICTED_HASH_CROAK() CROAK(("Cannot retrieve restricted hash"))
+#endif
+
+#ifdef HvHASKFLAGS
+#define HAS_HASH_KEY_FLAGS
+#endif
+
/*
* Fields s_tainted and s_dirty are prefixed with s_ because Perl's include
* files remap tainted and dirty when threading is enabled. That's bad for
int netorder; /* true if network order used */
int s_tainted; /* true if input source is tainted, at retrieve time */
int forgive_me; /* whether to be forgiving... */
+ int deparse; /* whether to deparse code refs */
+ SV *eval; /* whether to eval source code */
int canonical; /* whether to store hashes sorted by key */
+#ifndef HAS_RESTRICTED_HASHES
+ int derestrict; /* whether to downgrade restrcted hashes */
+#endif
+#ifndef HAS_UTF8_ALL
+ int use_bytes; /* whether to bytes-ify utf8 */
+#endif
+ int accept_future_minor; /* croak immediately on future minor versions? */
int s_dirty; /* context is dirty due to CROAK() -- can be cleaned */
int membuf_ro; /* true means membuf is read-only and msaved is rw */
struct extendable keybuf; /* for hash key retrieval */
int ver_major; /* major of version for retrieved object */
int ver_minor; /* minor of version for retrieved object */
SV *(**retrieve_vtbl)(); /* retrieve dispatch table */
- struct stcxt *prev; /* contexts chained backwards in real recursion */
+ SV *prev; /* contexts chained backwards in real recursion */
+ SV *my_sv; /* the blessed scalar who's SvPVX() I am */
} stcxt_t;
+#define NEW_STORABLE_CXT_OBJ(cxt) \
+ STMT_START { \
+ SV *self = newSV(sizeof(stcxt_t) - 1); \
+ SV *my_sv = newRV_noinc(self); \
+ sv_bless(my_sv, gv_stashpv("Storable::Cxt", TRUE)); \
+ cxt = (stcxt_t *)SvPVX(self); \
+ Zero(cxt, 1, stcxt_t); \
+ cxt->my_sv = my_sv; \
+ } STMT_END
+
#if defined(MULTIPLICITY) || defined(PERL_OBJECT) || defined(PERL_CAPI)
#if (PATCHLEVEL <= 4) && (SUBVERSION < 68)
#endif /* < perl5.004_68 */
#define dSTCXT_PTR(T,name) \
- T name = ((perinterp_sv && SvIOK(perinterp_sv) \
- ? INT2PTR(T, SvIVX(perinterp_sv)) : (T) 0))
+ T name = ((perinterp_sv && SvIOK(perinterp_sv) && SvIVX(perinterp_sv) \
+ ? (T)SvPVX(SvRV(INT2PTR(SV*,SvIVX(perinterp_sv)))) : (T) 0))
#define dSTCXT \
dSTCXT_SV; \
dSTCXT_PTR(stcxt_t *, cxt)
-#define INIT_STCXT \
- dSTCXT; \
- Newz(0, cxt, 1, stcxt_t); \
- sv_setiv(perinterp_sv, PTR2IV(cxt))
+#define INIT_STCXT \
+ dSTCXT; \
+ NEW_STORABLE_CXT_OBJ(cxt); \
+ sv_setiv(perinterp_sv, PTR2IV(cxt->my_sv))
-#define SET_STCXT(x) do { \
+#define SET_STCXT(x) \
+ STMT_START { \
dSTCXT_SV; \
- sv_setiv(perinterp_sv, PTR2IV(x)); \
-} while (0)
+ sv_setiv(perinterp_sv, PTR2IV(x->my_sv)); \
+ } STMT_END
#else /* !MULTIPLICITY && !PERL_OBJECT && !PERL_CAPI */
-static stcxt_t Context;
-static stcxt_t *Context_ptr = &Context;
+static stcxt_t *Context_ptr = NULL;
#define dSTCXT stcxt_t *cxt = Context_ptr
-#define INIT_STCXT dSTCXT
-#define SET_STCXT(x) Context_ptr = x
+#define SET_STCXT(x) Context_ptr = x
+#define INIT_STCXT \
+ dSTCXT; \
+ NEW_STORABLE_CXT_OBJ(cxt); \
+ SET_STCXT(cxt)
+
#endif /* MULTIPLICITY || PERL_OBJECT || PERL_CAPI */
* but the topmost context stacked.
*/
-#define CROAK(x) do { cxt->s_dirty = 1; croak x; } while (0)
+#define CROAK(x) STMT_START { cxt->s_dirty = 1; croak x; } STMT_END
/*
* End of "thread-safe" related definitions.
*/
#define kbuf (cxt->keybuf).arena
#define ksiz (cxt->keybuf).asiz
-#define KBUFINIT() do { \
+#define KBUFINIT() \
+ STMT_START { \
if (!kbuf) { \
TRACEME(("** allocating kbuf of 128 bytes")); \
New(10003, kbuf, 128, char); \
ksiz = 128; \
} \
-} while (0)
-#define KBUFCHK(x) do { \
+ } STMT_END
+#define KBUFCHK(x) \
+ STMT_START { \
if (x >= ksiz) { \
TRACEME(("** extending kbuf to %d bytes (had %d)", x+1, ksiz)); \
Renew(kbuf, x+1, char); \
ksiz = x+1; \
} \
-} while (0)
+ } STMT_END
/*
* memory buffer handling
#define int_aligned(x) \
((unsigned long) (x) == trunc_int(x))
-#define MBUF_INIT(x) do { \
+#define MBUF_INIT(x) \
+ STMT_START { \
if (!mbase) { \
TRACEME(("** allocating mbase of %d bytes", MGROW)); \
New(10003, mbase, MGROW, char); \
- msiz = MGROW; \
+ msiz = (STRLEN)MGROW; \
} \
mptr = mbase; \
if (x) \
mend = mbase + x; \
else \
mend = mbase + msiz; \
-} while (0)
+ } STMT_END
#define MBUF_TRUNC(x) mptr = mbase + x
#define MBUF_SIZE() (mptr - mbase)
* buffer into cxt->msaved, before MBUF_LOAD() can be used to retrieve
* data from a string.
*/
-#define MBUF_SAVE_AND_LOAD(in) do { \
+#define MBUF_SAVE_AND_LOAD(in) \
+ STMT_START { \
ASSERT(!cxt->membuf_ro, ("mbase not already saved")); \
cxt->membuf_ro = 1; \
TRACEME(("saving mbuf")); \
StructCopy(&cxt->membuf, &cxt->msaved, struct extendable); \
MBUF_LOAD(in); \
-} while (0)
+ } STMT_END
-#define MBUF_RESTORE() do { \
+#define MBUF_RESTORE() \
+ STMT_START { \
ASSERT(cxt->membuf_ro, ("mbase is read-only")); \
cxt->membuf_ro = 0; \
TRACEME(("restoring mbuf")); \
StructCopy(&cxt->msaved, &cxt->membuf, struct extendable); \
-} while (0)
+ } STMT_END
/*
* Use SvPOKp(), because SvPOK() fails on tainted scalars.
* See store_scalar() for other usage of this workaround.
*/
-#define MBUF_LOAD(v) do { \
+#define MBUF_LOAD(v) \
+ STMT_START { \
ASSERT(cxt->membuf_ro, ("mbase is read-only")); \
if (!SvPOKp(v)) \
CROAK(("Not a scalar string")); \
mptr = mbase = SvPV(v, msiz); \
mend = mbase + msiz; \
-} while (0)
+ } STMT_END
-#define MBUF_XTEND(x) do { \
+#define MBUF_XTEND(x) \
+ STMT_START { \
int nsz = (int) round_mgrow((x)+msiz); \
int offset = mptr - mbase; \
ASSERT(!cxt->membuf_ro, ("mbase is not read-only")); \
msiz = nsz; \
mptr = mbase + offset; \
mend = mbase + nsz; \
-} while (0)
+ } STMT_END
-#define MBUF_CHK(x) do { \
+#define MBUF_CHK(x) \
+ STMT_START { \
if ((mptr + (x)) > mend) \
MBUF_XTEND(x); \
-} while (0)
+ } STMT_END
-#define MBUF_GETC(x) do { \
+#define MBUF_GETC(x) \
+ STMT_START { \
if (mptr < mend) \
x = (int) (unsigned char) *mptr++; \
else \
return (SV *) 0; \
-} while (0)
+ } STMT_END
#ifdef CRAY_HACK
-#define MBUF_GETINT(x) do { \
+#define MBUF_GETINT(x) \
+ STMT_START { \
oC(x); \
if ((mptr + 4) <= mend) { \
memcpy(oI(&x), mptr, 4); \
mptr += 4; \
} else \
return (SV *) 0; \
-} while (0)
+ } STMT_END
#else
-#define MBUF_GETINT(x) do { \
+#define MBUF_GETINT(x) \
+ STMT_START { \
if ((mptr + sizeof(int)) <= mend) { \
if (int_aligned(mptr)) \
x = *(int *) mptr; \
mptr += sizeof(int); \
} else \
return (SV *) 0; \
-} while (0)
+ } STMT_END
#endif
-#define MBUF_READ(x,s) do { \
+#define MBUF_READ(x,s) \
+ STMT_START { \
if ((mptr + (s)) <= mend) { \
memcpy(x, mptr, s); \
mptr += s; \
} else \
return (SV *) 0; \
-} while (0)
+ } STMT_END
-#define MBUF_SAFEREAD(x,s,z) do { \
+#define MBUF_SAFEREAD(x,s,z) \
+ STMT_START { \
if ((mptr + (s)) <= mend) { \
memcpy(x, mptr, s); \
mptr += s; \
sv_free(z); \
return (SV *) 0; \
} \
-} while (0)
+ } STMT_END
-#define MBUF_PUTC(c) do { \
+#define MBUF_PUTC(c) \
+ STMT_START { \
if (mptr < mend) \
*mptr++ = (char) c; \
else { \
MBUF_XTEND(1); \
*mptr++ = (char) c; \
} \
-} while (0)
+ } STMT_END
#ifdef CRAY_HACK
-#define MBUF_PUTINT(i) do { \
+#define MBUF_PUTINT(i) \
+ STMT_START { \
MBUF_CHK(4); \
memcpy(mptr, oI(&i), 4); \
mptr += 4; \
-} while (0)
+ } STMT_END
#else
-#define MBUF_PUTINT(i) do { \
+#define MBUF_PUTINT(i) \
+ STMT_START { \
MBUF_CHK(sizeof(int)); \
if (int_aligned(mptr)) \
*(int *) mptr = i; \
else \
memcpy(mptr, &i, sizeof(int)); \
mptr += sizeof(int); \
-} while (0)
+ } STMT_END
#endif
-#define MBUF_WRITE(x,s) do { \
+#define MBUF_WRITE(x,s) \
+ STMT_START { \
MBUF_CHK(s); \
memcpy(mptr, x, s); \
mptr += s; \
-} while (0)
+ } STMT_END
/*
* Possible return values for sv_type().
#define svis_HASH 3
#define svis_TIED 4
#define svis_TIED_ITEM 5
-#define svis_OTHER 6
+#define svis_CODE 6
+#define svis_OTHER 7
/*
* Flags for SX_HOOK.
* a "minor" version, to better track this kind of evolution from now on.
*
*/
-static char old_magicstr[] = "perl-store"; /* Magic number before 0.6 */
-static char magicstr[] = "pst0"; /* Used as a magic number */
+static const char old_magicstr[] = "perl-store"; /* Magic number before 0.6 */
+static const char magicstr[] = "pst0"; /* Used as a magic number */
+
+#define MAGICSTR_BYTES 'p','s','t','0'
+#define OLDMAGICSTR_BYTES 'p','e','r','l','-','s','t','o','r','e'
+
+/* 5.6.x introduced the ability to have IVs as long long.
+ However, Configure still defined BYTEORDER based on the size of a long.
+ Storable uses the BYTEORDER value as part of the header, but doesn't
+ explicity store sizeof(IV) anywhere in the header. Hence on 5.6.x built
+ with IV as long long on a platform that uses Configure (ie most things
+ except VMS and Windows) headers are identical for the different IV sizes,
+ despite the files containing some fields based on sizeof(IV)
+ Erk. Broken-ness.
+ 5.8 is consistent - the following redifinition kludge is only needed on
+ 5.6.x, but the interwork is needed on 5.8 while data survives in files
+ with the 5.6 header.
+
+*/
+
+#if defined (IVSIZE) && (IVSIZE == 8) && (LONGSIZE == 4)
+#ifndef NO_56_INTERWORK_KLUDGE
+#define USE_56_INTERWORK_KLUDGE
+#endif
+#if BYTEORDER == 0x1234
+#undef BYTEORDER
+#define BYTEORDER 0x12345678
+#else
+#if BYTEORDER == 0x4321
+#undef BYTEORDER
+#define BYTEORDER 0x87654321
+#endif
+#endif
+#endif
+
+#if BYTEORDER == 0x1234
+#define BYTEORDER_BYTES '1','2','3','4'
+#else
+#if BYTEORDER == 0x12345678
+#define BYTEORDER_BYTES '1','2','3','4','5','6','7','8'
+#ifdef USE_56_INTERWORK_KLUDGE
+#define BYTEORDER_BYTES_56 '1','2','3','4'
+#endif
+#else
+#if BYTEORDER == 0x87654321
+#define BYTEORDER_BYTES '8','7','6','5','4','3','2','1'
+#ifdef USE_56_INTERWORK_KLUDGE
+#define BYTEORDER_BYTES_56 '4','3','2','1'
+#endif
+#else
+#if BYTEORDER == 0x4321
+#define BYTEORDER_BYTES '4','3','2','1'
+#else
+#error Unknown byteoder. Please append your byteorder to Storable.xs
+#endif
+#endif
+#endif
+#endif
+
+static const char byteorderstr[] = {BYTEORDER_BYTES, 0};
+#ifdef USE_56_INTERWORK_KLUDGE
+static const char byteorderstr_56[] = {BYTEORDER_BYTES_56, 0};
+#endif
#define STORABLE_BIN_MAJOR 2 /* Binary major "version" */
+#define STORABLE_BIN_MINOR 6 /* Binary minor "version" */
+
+/* If we aren't 5.7.3 or later, we won't be writing out files that use the
+ * new flagged hash introdued in 2.5, so put 2.4 in the binary header to
+ * maximise ease of interoperation with older Storables.
+ * Could we write 2.3s if we're on 5.005_03? NWC
+ */
#if (PATCHLEVEL <= 6)
-#define STORABLE_BIN_MINOR 4 /* Binary minor "version" */
+#define STORABLE_BIN_WRITE_MINOR 4
#else
/*
* As of perl 5.7.3, utf8 hash key is introduced.
* So this must change -- dankogai
*/
-#define STORABLE_BIN_MINOR 5 /* Binary minor "version" */
+#define STORABLE_BIN_WRITE_MINOR 6
#endif /* (PATCHLEVEL <= 6) */
/*
* Useful store shortcuts...
*/
-#define PUTMARK(x) do { \
+#define PUTMARK(x) \
+ STMT_START { \
if (!cxt->fio) \
MBUF_PUTC(x); \
else if (PerlIO_putc(cxt->fio, x) == EOF) \
return -1; \
-} while (0)
+ } STMT_END
-#define WRITE_I32(x) do { \
+#define WRITE_I32(x) \
+ STMT_START { \
ASSERT(sizeof(x) == sizeof(I32), ("writing an I32")); \
if (!cxt->fio) \
MBUF_PUTINT(x); \
else if (PerlIO_write(cxt->fio, oI(&x), oS(sizeof(x))) != oS(sizeof(x))) \
return -1; \
- } while (0)
+ } STMT_END
#ifdef HAS_HTONL
-#define WLEN(x) do { \
+#define WLEN(x) \
+ STMT_START { \
if (cxt->netorder) { \
int y = (int) htonl(x); \
if (!cxt->fio) \
else if (PerlIO_write(cxt->fio,oI(&x),oS(sizeof(x))) != oS(sizeof(x))) \
return -1; \
} \
-} while (0)
+ } STMT_END
#else
#define WLEN(x) WRITE_I32(x)
#endif
-#define WRITE(x,y) do { \
+#define WRITE(x,y) \
+ STMT_START { \
if (!cxt->fio) \
MBUF_WRITE(x,y); \
else if (PerlIO_write(cxt->fio, x, y) != y) \
return -1; \
- } while (0)
+ } STMT_END
-#define STORE_PV_LEN(pv, len, small, large) do { \
+#define STORE_PV_LEN(pv, len, small, large) \
+ STMT_START { \
if (len <= LG_SCALAR) { \
unsigned char clen = (unsigned char) len; \
PUTMARK(small); \
WLEN(len); \
WRITE(pv, len); \
} \
-} while (0)
+ } STMT_END
#define STORE_SCALAR(pv, len) STORE_PV_LEN(pv, len, SX_SCALAR, SX_LSCALAR)
/*
- * Conditional UTF8 support.
- * On non-UTF8 perls, UTF8 strings are returned as normal strings.
- *
+ * Store &PL_sv_undef in arrays without recursing through store().
*/
-#ifdef SvUTF8_on
-#define STORE_UTF8STR(pv, len) STORE_PV_LEN(pv, len, SX_UTF8STR, SX_LUTF8STR)
-#else
-#define SvUTF8(sv) 0
-#define STORE_UTF8STR(pv, len) CROAK(("panic: storing UTF8 in non-UTF8 perl"))
-#define SvUTF8_on(sv) CROAK(("Cannot retrieve UTF8 data in non-UTF8 perl"))
-#endif
-
-/*
- * Store undef in arrays and hashes without recursing through store().
- */
-#define STORE_UNDEF() do { \
+#define STORE_SV_UNDEF() \
+ STMT_START { \
cxt->tagnum++; \
- PUTMARK(SX_UNDEF); \
-} while (0)
+ PUTMARK(SX_SV_UNDEF); \
+ } STMT_END
/*
* Useful retrieve shortcuts...
#define GETCHAR() \
(cxt->fio ? PerlIO_getc(cxt->fio) : (mptr >= mend ? EOF : (int) *mptr++))
-#define GETMARK(x) do { \
+#define GETMARK(x) \
+ STMT_START { \
if (!cxt->fio) \
MBUF_GETC(x); \
else if ((int) (x = PerlIO_getc(cxt->fio)) == EOF) \
return (SV *) 0; \
-} while (0)
+ } STMT_END
-#define READ_I32(x) do { \
+#define READ_I32(x) \
+ STMT_START { \
ASSERT(sizeof(x) == sizeof(I32), ("reading an I32")); \
oC(x); \
if (!cxt->fio) \
MBUF_GETINT(x); \
else if (PerlIO_read(cxt->fio, oI(&x), oS(sizeof(x))) != oS(sizeof(x))) \
return (SV *) 0; \
-} while (0)
+ } STMT_END
#ifdef HAS_NTOHL
-#define RLEN(x) do { \
+#define RLEN(x) \
+ STMT_START { \
oC(x); \
if (!cxt->fio) \
MBUF_GETINT(x); \
return (SV *) 0; \
if (cxt->netorder) \
x = (int) ntohl(x); \
-} while (0)
+ } STMT_END
#else
#define RLEN(x) READ_I32(x)
#endif
-#define READ(x,y) do { \
+#define READ(x,y) \
+ STMT_START { \
if (!cxt->fio) \
MBUF_READ(x, y); \
else if (PerlIO_read(cxt->fio, x, y) != y) \
return (SV *) 0; \
-} while (0)
+ } STMT_END
-#define SAFEREAD(x,y,z) do { \
+#define SAFEREAD(x,y,z) \
+ STMT_START { \
if (!cxt->fio) \
MBUF_SAFEREAD(x,y,z); \
else if (PerlIO_read(cxt->fio, x, y) != y) { \
sv_free(z); \
return (SV *) 0; \
} \
-} while (0)
+ } STMT_END
/*
* This macro is used at retrieve time, to remember where object 'y', bearing a
* recursively, and the first SEEN() call for which the class name is not NULL
* will bless the object.
*/
-#define SEEN(y,c) do { \
+#define SEEN(y,c) \
+ STMT_START { \
if (!y) \
return (SV *) 0; \
if (av_store(cxt->aseen, cxt->tagnum++, SvREFCNT_inc(y)) == 0) \
PTR2UV(y), SvREFCNT(y)-1)); \
if (c) \
BLESS((SV *) (y), c); \
-} while (0)
+ } STMT_END
/*
* Bless `s' in `p', via a temporary reference, required by sv_bless().
*/
-#define BLESS(s,p) do { \
+#define BLESS(s,p) \
+ STMT_START { \
SV *ref; \
HV *stash; \
TRACEME(("blessing 0x%"UVxf" in %s", PTR2UV(s), (p))); \
(void) sv_bless(ref, stash); \
SvRV(ref) = 0; \
SvREFCNT_dec(ref); \
-} while (0)
+ } STMT_END
static int store();
static SV *retrieve(stcxt_t *cxt, char *cname);
static int store_hash(stcxt_t *cxt, HV *hv);
static int store_tied(stcxt_t *cxt, SV *sv);
static int store_tied_item(stcxt_t *cxt, SV *sv);
+static int store_code(stcxt_t *cxt, CV *cv);
static int store_other(stcxt_t *cxt, SV *sv);
static int store_blessed(stcxt_t *cxt, SV *sv, int type, HV *pkg);
(int (*)(stcxt_t *cxt, SV *sv)) store_hash, /* svis_HASH */
store_tied, /* svis_TIED */
store_tied_item, /* svis_TIED_ITEM */
+ (int (*)(stcxt_t *cxt, SV *sv)) store_code, /* svis_CODE */
store_other, /* svis_OTHER */
};
retrieve_other, /* SX_UTF8STR not supported */
retrieve_other, /* SX_LUTF8STR not supported */
retrieve_other, /* SX_FLAG_HASH not supported */
+ retrieve_other, /* SX_CODE not supported */
retrieve_other, /* SX_ERROR */
};
static SV *retrieve_tied_key(stcxt_t *cxt, char *cname);
static SV *retrieve_tied_idx(stcxt_t *cxt, char *cname);
static SV *retrieve_flag_hash(stcxt_t *cxt, char *cname);
+static SV *retrieve_code(stcxt_t *cxt, char *cname);
static SV *(*sv_retrieve[])(stcxt_t *cxt, char *cname) = {
0, /* SX_OBJECT -- entry unused dynamically */
retrieve_utf8str, /* SX_UTF8STR */
retrieve_lutf8str, /* SX_LUTF8STR */
retrieve_flag_hash, /* SX_HASH */
+ retrieve_code, /* SX_CODE */
retrieve_other, /* SX_ERROR */
};
cxt->netorder = network_order;
cxt->forgive_me = -1; /* Fetched from perl if needed */
+ cxt->deparse = -1; /* Idem */
+ cxt->eval = NULL; /* Idem */
cxt->canonical = -1; /* Idem */
cxt->tagnum = -1; /* Reset tag numbers */
cxt->classnum = -1; /* Reset class numbers */
if (cxt->hseen) {
hv_iterinit(cxt->hseen);
while ((he = hv_iternext(cxt->hseen))) /* Extra () for -Wall, grr.. */
- HeVAL(he) = &PL_sv_undef;
+ HeVAL(he) = &PL_sv_placeholder;
}
if (cxt->hclass) {
hv_iterinit(cxt->hclass);
while ((he = hv_iternext(cxt->hclass))) /* Extra () for -Wall, grr.. */
- HeVAL(he) = &PL_sv_undef;
+ HeVAL(he) = &PL_sv_placeholder;
}
/*
sv_free((SV *) hook_seen);
}
+ cxt->forgive_me = -1; /* Fetched from perl if needed */
+ cxt->deparse = -1; /* Idem */
+ if (cxt->eval) {
+ SvREFCNT_dec(cxt->eval);
+ }
+ cxt->eval = NULL; /* Idem */
+ cxt->canonical = -1; /* Idem */
+
reset_context(cxt);
}
* new retrieve routines.
*/
- cxt->hseen = ((cxt->retrieve_vtbl == sv_old_retrieve) ? newHV() : 0);
+ cxt->hseen = (((void*)cxt->retrieve_vtbl == (void*)sv_old_retrieve)
+ ? newHV() : 0);
cxt->aseen = newAV(); /* Where retrieved objects are kept */
cxt->aclass = newAV(); /* Where seen classnames are kept */
cxt->optype = optype;
cxt->s_tainted = is_tainted;
cxt->entry = 1; /* No recursion yet */
+#ifndef HAS_RESTRICTED_HASHES
+ cxt->derestrict = -1; /* Fetched from perl if needed */
+#endif
+#ifndef HAS_UTF8_ALL
+ cxt->use_bytes = -1; /* Fetched from perl if needed */
+#endif
+ cxt->accept_future_minor = -1; /* Fetched from perl if needed */
}
/*
sv_free((SV *) hseen); /* optional HV, for backward compat. */
}
+#ifndef HAS_RESTRICTED_HASHES
+ cxt->derestrict = -1; /* Fetched from perl if needed */
+#endif
+#ifndef HAS_UTF8_ALL
+ cxt->use_bytes = -1; /* Fetched from perl if needed */
+#endif
+ cxt->accept_future_minor = -1; /* Fetched from perl if needed */
+
reset_context(cxt);
}
ASSERT(!parent_cxt->s_dirty, ("parent context clean"));
- Newz(0, cxt, 1, stcxt_t);
- cxt->prev = parent_cxt;
+ NEW_STORABLE_CXT_OBJ(cxt);
+ cxt->prev = parent_cxt->my_sv;
SET_STCXT(cxt);
ASSERT(!cxt->s_dirty, ("clean context"));
static void free_context(cxt)
stcxt_t *cxt;
{
- stcxt_t *prev = cxt->prev;
+ stcxt_t *prev = (stcxt_t *)(cxt->prev ? SvPVX(SvRV(cxt->prev)) : 0);
TRACEME(("free_context"));
ASSERT(!cxt->s_dirty, ("clean context"));
ASSERT(prev, ("not freeing root context"));
- if (kbuf)
- Safefree(kbuf);
- if (mbase)
- Safefree(mbase);
-
- Safefree(cxt);
+ SvREFCNT_dec(cxt->my_sv);
SET_STCXT(prev);
ASSERT(cxt, ("context not void"));
pv = SvPV(sv, len); /* We know it's SvPOK */
goto string; /* Share code below */
}
- } else if (flags & SVp_POK) { /* SvPOKp(sv) => string */
- I32 wlen; /* For 64-bit machines */
- pv = SvPV(sv, len);
-
- /*
- * Will come here from below with pv and len set if double & netorder,
- * or from above if it was readonly, POK and NOK but neither &PL_sv_yes
- * nor &PL_sv_no.
- */
- string:
+ } else if (flags & SVf_POK) {
+ /* public string - go direct to string read. */
+ goto string_readlen;
+ } else if (
+#if (PATCHLEVEL <= 6)
+ /* For 5.6 and earlier NV flag trumps IV flag, so only use integer
+ direct if NV flag is off. */
+ (flags & (SVf_NOK | SVf_IOK)) == SVf_IOK
+#else
+ /* 5.7 rules are that if IV public flag is set, IV value is as
+ good, if not better, than NV value. */
+ flags & SVf_IOK
+#endif
+ ) {
+ iv = SvIV(sv);
+ /*
+ * Will come here from below with iv set if double is an integer.
+ */
+ integer:
- wlen = (I32) len; /* WLEN via STORE_SCALAR expects I32 */
- if (SvUTF8 (sv))
- STORE_UTF8STR(pv, wlen);
- else
- STORE_SCALAR(pv, wlen);
- TRACEME(("ok (scalar 0x%"UVxf" '%s', length = %"IVdf")",
- PTR2UV(sv), SvPVX(sv), (IV)len));
+ /* Sorry. This isn't in 5.005_56 (IIRC) or earlier. */
+#ifdef SVf_IVisUV
+ /* Need to do this out here, else 0xFFFFFFFF becomes iv of -1
+ * (for example) and that ends up in the optimised small integer
+ * case.
+ */
+ if ((flags & SVf_IVisUV) && SvUV(sv) > IV_MAX) {
+ TRACEME(("large unsigned integer as string, value = %"UVuf, SvUV(sv)));
+ goto string_readlen;
+ }
+#endif
+ /*
+ * Optimize small integers into a single byte, otherwise store as
+ * a real integer (converted into network order if they asked).
+ */
- } else if (flags & SVp_NOK) { /* SvNOKp(sv) => double */
- NV nv = SvNV(sv);
+ if (iv >= -128 && iv <= 127) {
+ unsigned char siv = (unsigned char) (iv + 128); /* [0,255] */
+ PUTMARK(SX_BYTE);
+ PUTMARK(siv);
+ TRACEME(("small integer stored as %d", siv));
+ } else if (cxt->netorder) {
+#ifndef HAS_HTONL
+ TRACEME(("no htonl, fall back to string for integer"));
+ goto string_readlen;
+#else
+ I32 niv;
- /*
- * Watch for number being an integer in disguise.
- */
- if (nv == (NV) (iv = I_V(nv))) {
- TRACEME(("double %"NVff" is actually integer %"IVdf, nv, iv));
- goto integer; /* Share code below */
- }
- if (cxt->netorder) {
- TRACEME(("double %"NVff" stored as string", nv));
- pv = SvPV(sv, len);
- goto string; /* Share code above */
- }
+#if IVSIZE > 4
+ if (
+#ifdef SVf_IVisUV
+ /* Sorry. This isn't in 5.005_56 (IIRC) or earlier. */
+ ((flags & SVf_IVisUV) && SvUV(sv) > 0x7FFFFFFF) ||
+#endif
+ (iv > 0x7FFFFFFF) || (iv < -0x80000000)) {
+ /* Bigger than 32 bits. */
+ TRACEME(("large network order integer as string, value = %"IVdf, iv));
+ goto string_readlen;
+ }
+#endif
- PUTMARK(SX_DOUBLE);
- WRITE(&nv, sizeof(nv));
+ niv = (I32) htonl((I32) iv);
+ TRACEME(("using network order"));
+ PUTMARK(SX_NETINT);
+ WRITE_I32(niv);
+#endif
+ } else {
+ PUTMARK(SX_INTEGER);
+ WRITE(&iv, sizeof(iv));
+ }
+
+ TRACEME(("ok (integer 0x%"UVxf", value = %"IVdf")", PTR2UV(sv), iv));
+ } else if (flags & SVf_NOK) {
+ NV nv;
+#if (PATCHLEVEL <= 6)
+ nv = SvNV(sv);
+ /*
+ * Watch for number being an integer in disguise.
+ */
+ if (nv == (NV) (iv = I_V(nv))) {
+ TRACEME(("double %"NVff" is actually integer %"IVdf, nv, iv));
+ goto integer; /* Share code above */
+ }
+#else
- TRACEME(("ok (double 0x%"UVxf", value = %"NVff")", PTR2UV(sv), nv));
+ SvIV_please(sv);
+ if (SvIOK_notUV(sv)) {
+ iv = SvIV(sv);
+ goto integer; /* Share code above */
+ }
+ nv = SvNV(sv);
+#endif
- } else if (flags & SVp_IOK) { /* SvIOKp(sv) => integer */
- iv = SvIV(sv);
+ if (cxt->netorder) {
+ TRACEME(("double %"NVff" stored as string", nv));
+ goto string_readlen; /* Share code below */
+ }
- /*
- * Will come here from above with iv set if double is an integer.
- */
- integer:
+ PUTMARK(SX_DOUBLE);
+ WRITE(&nv, sizeof(nv));
- /*
- * Optimize small integers into a single byte, otherwise store as
- * a real integer (converted into network order if they asked).
- */
+ TRACEME(("ok (double 0x%"UVxf", value = %"NVff")", PTR2UV(sv), nv));
- if (iv >= -128 && iv <= 127) {
- unsigned char siv = (unsigned char) (iv + 128); /* [0,255] */
- PUTMARK(SX_BYTE);
- PUTMARK(siv);
- TRACEME(("small integer stored as %d", siv));
- } else if (cxt->netorder) {
- I32 niv;
-#ifdef HAS_HTONL
- niv = (I32) htonl(iv);
- TRACEME(("using network order"));
-#else
- niv = (I32) iv;
- TRACEME(("as-is for network order"));
-#endif
- PUTMARK(SX_NETINT);
- WRITE_I32(niv);
- } else {
- PUTMARK(SX_INTEGER);
- WRITE(&iv, sizeof(iv));
- }
+ } else if (flags & (SVp_POK | SVp_NOK | SVp_IOK)) {
+ I32 wlen; /* For 64-bit machines */
- TRACEME(("ok (integer 0x%"UVxf", value = %"IVdf")", PTR2UV(sv), iv));
+ string_readlen:
+ pv = SvPV(sv, len);
+ /*
+ * Will come here from above if it was readonly, POK and NOK but
+ * neither &PL_sv_yes nor &PL_sv_no.
+ */
+ string:
+
+ wlen = (I32) len; /* WLEN via STORE_SCALAR expects I32 */
+ if (SvUTF8 (sv))
+ STORE_UTF8STR(pv, wlen);
+ else
+ STORE_SCALAR(pv, wlen);
+ TRACEME(("ok (scalar 0x%"UVxf" '%s', length = %"IVdf")",
+ PTR2UV(sv), SvPVX(sv), (IV)len));
} else
- CROAK(("Can't determine type of %s(0x%"UVxf")",
- sv_reftype(sv, FALSE),
- PTR2UV(sv)));
-
- return 0; /* Ok, no recursion on scalars */
+ CROAK(("Can't determine type of %s(0x%"UVxf")",
+ sv_reftype(sv, FALSE),
+ PTR2UV(sv)));
+ return 0; /* Ok, no recursion on scalars */
}
/*
sav = av_fetch(av, i, 0);
if (!sav) {
TRACEME(("(#%d) undef item", i));
- STORE_UNDEF();
+ STORE_SV_UNDEF();
continue;
}
TRACEME(("(#%d) item", i));
*/
static int store_hash(stcxt_t *cxt, HV *hv)
{
- I32 len = HvTOTALKEYS(hv);
+ I32 len =
+#ifdef HAS_RESTRICTED_HASHES
+ HvTOTALKEYS(hv);
+#else
+ HvKEYS(hv);
+#endif
I32 i;
int ret = 0;
I32 riter;
HE *eiter;
- int flagged_hash = ((SvREADONLY(hv) || HvHASKFLAGS(hv)) ? 1 : 0);
+ int flagged_hash = ((SvREADONLY(hv)
+#ifdef HAS_HASH_KEY_FLAGS
+ || HvHASKFLAGS(hv)
+#endif
+ ) ? 1 : 0);
unsigned char hash_flags = (SvREADONLY(hv) ? SHV_RESTRICTED : 0);
if (flagged_hash) {
TRACEME(("using canonical order"));
for (i = 0; i < len; i++) {
+#ifdef HAS_RESTRICTED_HASHES
HE *he = hv_iternext_flags(hv, HV_ITERNEXT_WANTPLACEHOLDERS);
+#else
+ HE *he = hv_iternext(hv);
+#endif
SV *key = hv_iterkeysv(he);
av_store(av, AvFILLp(av)+1, key); /* av_push(), really */
}
= (((hash_flags & SHV_RESTRICTED)
&& SvREADONLY(val))
? SHV_K_LOCKED : 0);
- if (val == &PL_sv_undef)
+ if (val == &PL_sv_placeholder)
flags |= SHV_K_PLACEHOLDER;
keyval = SvPV(key, keylen_tmp);
keylen = keylen_tmp;
+#ifdef HAS_UTF8_HASHES
+ /* If you build without optimisation on pre 5.6
+ then nothing spots that SvUTF8(key) is always 0,
+ so the block isn't optimised away, at which point
+ the linker dislikes the reference to
+ bytes_from_utf8. */
if (SvUTF8(key)) {
const char *keysave = keyval;
bool is_utf8 = TRUE;
flags |= SHV_K_UTF8;
}
}
+#endif
if (flagged_hash) {
PUTMARK(flags);
/*
* Storing in "random" order (in the order the keys are stored
- * within the the hash). This is the default and will be faster!
+ * within the hash). This is the default and will be faster!
*/
for (i = 0; i < len; i++) {
char *key;
I32 len;
unsigned char flags;
+#ifdef HV_ITERNEXT_WANTPLACEHOLDERS
HE *he = hv_iternext_flags(hv, HV_ITERNEXT_WANTPLACEHOLDERS);
+#else
+ HE *he = hv_iternext(hv);
+#endif
SV *val = (he ? hv_iterval(hv, he) : 0);
SV *key_sv = NULL;
HEK *hek;
= (((hash_flags & SHV_RESTRICTED)
&& SvREADONLY(val))
? SHV_K_LOCKED : 0);
- if (val == &PL_sv_undef)
+ if (val == &PL_sv_placeholder)
flags |= SHV_K_PLACEHOLDER;
hek = HeKEY_hek(he);
flags |= SHV_K_ISSV;
} else {
/* Regular string key. */
+#ifdef HAS_HASH_KEY_FLAGS
if (HEK_UTF8(hek))
flags |= SHV_K_UTF8;
if (HEK_WASUTF8(hek))
flags |= SHV_K_WASUTF8;
+#endif
key = HEK_KEY(hek);
}
/*
}
/*
+ * store_code
+ *
+ * Store a code reference.
+ *
+ * Layout is SX_CODE <length> followed by a scalar containing the perl
+ * source code of the code reference.
+ */
+static int store_code(stcxt_t *cxt, CV *cv)
+{
+#if PERL_VERSION < 6
+ /*
+ * retrieve_code does not work with perl 5.005 or less
+ */
+ return store_other(cxt, (SV*)cv);
+#else
+ dSP;
+ I32 len;
+ int count, reallen;
+ SV *text, *bdeparse;
+
+ TRACEME(("store_code (0x%"UVxf")", PTR2UV(cv)));
+
+ if (
+ cxt->deparse == 0 ||
+ (cxt->deparse < 0 && !(cxt->deparse =
+ SvTRUE(perl_get_sv("Storable::Deparse", TRUE)) ? 1 : 0))
+ ) {
+ return store_other(cxt, (SV*)cv);
+ }
+
+ /*
+ * Require B::Deparse. At least B::Deparse 0.61 is needed for
+ * blessed code references.
+ */
+ /* XXX sv_2mortal seems to be evil here. why? */
+ load_module(PERL_LOADMOD_NOIMPORT, newSVpvn("B::Deparse",10), newSVnv(0.61));
+
+ ENTER;
+ SAVETMPS;
+
+ /*
+ * create the B::Deparse object
+ */
+
+ PUSHMARK(sp);
+ XPUSHs(sv_2mortal(newSVpvn("B::Deparse",10)));
+ PUTBACK;
+ count = call_method("new", G_SCALAR);
+ SPAGAIN;
+ if (count != 1)
+ CROAK(("Unexpected return value from B::Deparse::new\n"));
+ bdeparse = POPs;
+
+ /*
+ * call the coderef2text method
+ */
+
+ PUSHMARK(sp);
+ XPUSHs(bdeparse); /* XXX is this already mortal? */
+ XPUSHs(sv_2mortal(newRV_inc((SV*)cv)));
+ PUTBACK;
+ count = call_method("coderef2text", G_SCALAR);
+ SPAGAIN;
+ if (count != 1)
+ CROAK(("Unexpected return value from B::Deparse::coderef2text\n"));
+
+ text = POPs;
+ len = SvLEN(text);
+ reallen = strlen(SvPV_nolen(text));
+
+ /*
+ * Empty code references or XS functions are deparsed as
+ * "(prototype) ;" or ";".
+ */
+
+ if (len == 0 || *(SvPV_nolen(text)+reallen-1) == ';') {
+ CROAK(("The result of B::Deparse::coderef2text was empty - maybe you're trying to serialize an XS function?\n"));
+ }
+
+ /*
+ * Signal code by emitting SX_CODE.
+ */
+
+ PUTMARK(SX_CODE);
+ TRACEME(("size = %d", len));
+ TRACEME(("code = %s", SvPV_nolen(text)));
+
+ /*
+ * Now store the source code.
+ */
+
+ STORE_SCALAR(SvPV_nolen(text), len);
+
+ FREETMPS;
+ LEAVE;
+
+ TRACEME(("ok (code)"));
+
+ return 0;
+#endif
+}
+
+/*
* store_tied
*
* When storing a tied object (be it a tied scalar, array or hash), we lay out
static int store_tied(stcxt_t *cxt, SV *sv)
{
MAGIC *mg;
+ SV *obj = NULL;
int ret = 0;
int svt = SvTYPE(sv);
char mtype = 'P';
* accesses on the retrieved object will indeed call the magic methods...
*/
- if ((ret = store(cxt, mg->mg_obj))) /* Extra () for -Wall, grr... */
+ /* [#17040] mg_obj is NULL for scalar self-ties. AMS 20030416 */
+ obj = mg->mg_obj ? mg->mg_obj : newSV(0);
+ if ((ret = store(cxt, obj)))
return ret;
TRACEME(("ok (tied)"));
* If they returned more than one item, we need to serialize some
* extra references if not already done.
*
- * Loop over the array, starting at postion #1, and for each item,
+ * Loop over the array, starting at position #1, and for each item,
* ensure it is a reference, serialize it if not already done, and
* replace the entry with the tag ID of the corresponding serialized
* object.
PUTMARK(clen);
}
if (len2)
- WRITE(pv, len2); /* Final \0 is omitted */
+ WRITE(pv, (SSize_t)len2); /* Final \0 is omitted */
/* [<len3> <object-IDs>] */
if (flags & SHF_HAS_LIST) {
len = strlen(buf);
STORE_SCALAR(buf, len);
- TRACEME(("ok (dummy \"%s\", length = %"IVdf")", buf, len));
+ TRACEME(("ok (dummy \"%s\", length = %"IVdf")", buf, (IV) len));
return 0;
}
if (SvRMAGICAL(sv) && (mg_find(sv, 'P')))
return svis_TIED;
return svis_HASH;
+ case SVt_PVCV:
+ return svis_CODE;
default:
break;
}
*
* NOTA BENE, for 64-bit machines: the "*svh" below does not yield a
* real pointer, rather a tag number (watch the insertion code below).
- * That means it pobably safe to assume it is well under the 32-bit limit,
+ * That means it probably safe to assume it is well under the 32-bit limit,
* and makes the truncation safe.
* -- RAM, 14/09/1999
*/
*/
static int magic_write(stcxt_t *cxt)
{
- char buf[256]; /* Enough room for 256 hexa digits */
- unsigned char c;
- int use_network_order = cxt->netorder;
-
- TRACEME(("magic_write on fd=%d", cxt->fio ? PerlIO_fileno(cxt->fio)
- : -1));
-
- if (cxt->fio)
- WRITE(magicstr, strlen(magicstr)); /* Don't write final \0 */
-
- /*
- * Starting with 0.6, the "use_network_order" byte flag is also used to
- * indicate the version number of the binary image, encoded in the upper
- * bits. The bit 0 is always used to indicate network order.
- */
-
- c = (unsigned char)
- ((use_network_order ? 0x1 : 0x0) | (STORABLE_BIN_MAJOR << 1));
- PUTMARK(c);
-
- /*
- * Starting with 0.7, a full byte is dedicated to the minor version of
- * the binary format, which is incremented only when new markers are
- * introduced, for instance, but when backward compatibility is preserved.
- */
+ /*
+ * Starting with 0.6, the "use_network_order" byte flag is also used to
+ * indicate the version number of the binary image, encoded in the upper
+ * bits. The bit 0 is always used to indicate network order.
+ */
+ /*
+ * Starting with 0.7, a full byte is dedicated to the minor version of
+ * the binary format, which is incremented only when new markers are
+ * introduced, for instance, but when backward compatibility is preserved.
+ */
- PUTMARK((unsigned char) STORABLE_BIN_MINOR);
+ /* Make these at compile time. The WRITE() macro is sufficiently complex
+ that it saves about 200 bytes doing it this way and only using it
+ once. */
+ static const unsigned char network_file_header[] = {
+ MAGICSTR_BYTES,
+ (STORABLE_BIN_MAJOR << 1) | 1,
+ STORABLE_BIN_WRITE_MINOR
+ };
+ static const unsigned char file_header[] = {
+ MAGICSTR_BYTES,
+ (STORABLE_BIN_MAJOR << 1) | 0,
+ STORABLE_BIN_WRITE_MINOR,
+ /* sizeof the array includes the 0 byte at the end: */
+ (char) sizeof (byteorderstr) - 1,
+ BYTEORDER_BYTES,
+ (unsigned char) sizeof(int),
+ (unsigned char) sizeof(long),
+ (unsigned char) sizeof(char *),
+ (unsigned char) sizeof(NV)
+ };
+#ifdef USE_56_INTERWORK_KLUDGE
+ static const unsigned char file_header_56[] = {
+ MAGICSTR_BYTES,
+ (STORABLE_BIN_MAJOR << 1) | 0,
+ STORABLE_BIN_WRITE_MINOR,
+ /* sizeof the array includes the 0 byte at the end: */
+ (char) sizeof (byteorderstr_56) - 1,
+ BYTEORDER_BYTES_56,
+ (unsigned char) sizeof(int),
+ (unsigned char) sizeof(long),
+ (unsigned char) sizeof(char *),
+ (unsigned char) sizeof(NV)
+ };
+#endif
+ const unsigned char *header;
+ SSize_t length;
+
+ TRACEME(("magic_write on fd=%d", cxt->fio ? PerlIO_fileno(cxt->fio) : -1));
+
+ if (cxt->netorder) {
+ header = network_file_header;
+ length = sizeof (network_file_header);
+ } else {
+#ifdef USE_56_INTERWORK_KLUDGE
+ if (SvTRUE(perl_get_sv("Storable::interwork_56_64bit", TRUE))) {
+ header = file_header_56;
+ length = sizeof (file_header_56);
+ } else
+#endif
+ {
+ header = file_header;
+ length = sizeof (file_header);
+ }
+ }
- if (use_network_order)
- return 0; /* Don't bother with byte ordering */
+ if (!cxt->fio) {
+ /* sizeof the array includes the 0 byte at the end. */
+ header += sizeof (magicstr) - 1;
+ length -= sizeof (magicstr) - 1;
+ }
- sprintf(buf, "%lx", (unsigned long) BYTEORDER);
- c = (unsigned char) strlen(buf);
- PUTMARK(c);
- WRITE(buf, (unsigned int) c); /* Don't write final \0 */
- PUTMARK((unsigned char) sizeof(int));
- PUTMARK((unsigned char) sizeof(long));
- PUTMARK((unsigned char) sizeof(char *));
- PUTMARK((unsigned char) sizeof(NV));
+ WRITE( (unsigned char*) header, length);
+ if (!cxt->netorder) {
TRACEME(("ok (magic_write byteorder = 0x%lx [%d], I%d L%d P%d D%d)",
- (unsigned long) BYTEORDER, (int) c,
+ (unsigned long) BYTEORDER, (int) sizeof (byteorderstr) - 1,
(int) sizeof(int), (int) sizeof(long),
(int) sizeof(char *), (int) sizeof(NV)));
-
- return 0;
+ }
+ return 0;
}
/*
* We don't need to remember the addresses returned by retrieval, because
* all the references will be obtained through indirection via the object
* tags in the object-ID list.
+ *
+ * We need to decrement the reference count for these objects
+ * because, if the user doesn't save a reference to them in the hook,
+ * they must be freed when this context is cleaned.
*/
while (flags & SHF_NEED_RECURSE) {
rv = retrieve(cxt, 0);
if (!rv)
return (SV *) 0;
+ SvREFCNT_dec(rv);
TRACEME(("retrieve_hook back with rv=0x%"UVxf,
PTR2UV(rv)));
GETMARK(flags);
*/
TRACEME(("calling STORABLE_thaw on %s at 0x%"UVxf" (%"IVdf" args)",
- class, PTR2UV(sv), AvFILLp(av) + 1));
+ class, PTR2UV(sv), (IV) AvFILLp(av) + 1));
rv = newRV(sv);
(void) scalar_call(rv, hook, clone, av, G_SCALAR|G_DISCARD);
* an SX_OBJECT indication, a ref count increment was done.
*/
- sv_upgrade(rv, SVt_RV);
+ if (cname) {
+ /* Do not use sv_upgrade to preserve STASH */
+ SvFLAGS(rv) &= ~SVTYPEMASK;
+ SvFLAGS(rv) |= SVt_RV;
+ } else {
+ sv_upgrade(rv, SVt_RV);
+ }
+
SvRV(rv) = sv; /* $rv = \$sv */
SvROK_on(rv);
static SV *retrieve_tied_scalar(stcxt_t *cxt, char *cname)
{
SV *tv;
- SV *sv;
+ SV *sv, *obj = NULL;
TRACEME(("retrieve_tied_scalar (#%d)", cxt->tagnum));
tv = NEWSV(10002, 0);
SEEN(tv, cname); /* Will return if rv is null */
sv = retrieve(cxt, 0); /* Retrieve <object> */
- if (!sv)
+ if (!sv) {
return (SV *) 0; /* Failed */
+ }
+ else if (SvTYPE(sv) != SVt_NULL) {
+ obj = sv;
+ }
sv_upgrade(tv, SVt_PVMG);
- sv_magic(tv, sv, 'q', Nullch, 0);
- SvREFCNT_dec(sv); /* Undo refcnt inc from sv_magic() */
+ sv_magic(tv, obj, 'q', Nullch, 0);
+
+ if (obj) {
+ /* Undo refcnt inc from sv_magic() */
+ SvREFCNT_dec(obj);
+ }
TRACEME(("ok (retrieve_tied_scalar at 0x%"UVxf")", PTR2UV(tv)));
SV *sv;
RLEN(len);
- TRACEME(("retrieve_lscalar (#%d), len = %"IVdf, cxt->tagnum, len));
+ TRACEME(("retrieve_lscalar (#%d), len = %"IVdf, cxt->tagnum, (IV) len));
/*
* Allocate an empty scalar of the suitable length.
if (cxt->s_tainted) /* Is input source tainted? */
SvTAINT(sv); /* External data cannot be trusted */
- TRACEME(("large scalar len %"IVdf" '%s'", len, SvPVX(sv)));
+ TRACEME(("large scalar len %"IVdf" '%s'", (IV) len, SvPVX(sv)));
TRACEME(("ok (retrieve_lscalar at 0x%"UVxf")", PTR2UV(sv)));
return sv;
*/
static SV *retrieve_utf8str(stcxt_t *cxt, char *cname)
{
- SV *sv;
+ SV *sv;
- TRACEME(("retrieve_utf8str"));
+ TRACEME(("retrieve_utf8str"));
- sv = retrieve_scalar(cxt, cname);
- if (sv)
- SvUTF8_on(sv);
+ sv = retrieve_scalar(cxt, cname);
+ if (sv) {
+#ifdef HAS_UTF8_SCALARS
+ SvUTF8_on(sv);
+#else
+ if (cxt->use_bytes < 0)
+ cxt->use_bytes
+ = (SvTRUE(perl_get_sv("Storable::drop_utf8", TRUE))
+ ? 1 : 0);
+ if (cxt->use_bytes == 0)
+ UTF8_CROAK();
+#endif
+ }
- return sv;
+ return sv;
}
/*
*/
static SV *retrieve_lutf8str(stcxt_t *cxt, char *cname)
{
- SV *sv;
-
- TRACEME(("retrieve_lutf8str"));
+ SV *sv;
- sv = retrieve_lscalar(cxt, cname);
- if (sv)
- SvUTF8_on(sv);
+ TRACEME(("retrieve_lutf8str"));
- return sv;
+ sv = retrieve_lscalar(cxt, cname);
+ if (sv) {
+#ifdef HAS_UTF8_SCALARS
+ SvUTF8_on(sv);
+#else
+ if (cxt->use_bytes < 0)
+ cxt->use_bytes
+ = (SvTRUE(perl_get_sv("Storable::drop_utf8", TRUE))
+ ? 1 : 0);
+ if (cxt->use_bytes == 0)
+ UTF8_CROAK();
+#endif
+ }
+ return sv;
}
/*
*/
RLEN(size); /* Get key size */
- KBUFCHK(size); /* Grow hash key read pool if needed */
+ KBUFCHK((STRLEN)size); /* Grow hash key read pool if needed */
if (size)
READ(kbuf, size);
kbuf[size] = '\0'; /* Mark string end, just in case */
int hash_flags;
GETMARK(hash_flags);
- TRACEME(("retrieve_flag_hash (#%d)", cxt->tagnum));
+ TRACEME(("retrieve_flag_hash (#%d)", cxt->tagnum));
/*
* Read length, allocate table.
*/
+#ifndef HAS_RESTRICTED_HASHES
+ if (hash_flags & SHV_RESTRICTED) {
+ if (cxt->derestrict < 0)
+ cxt->derestrict
+ = (SvTRUE(perl_get_sv("Storable::downgrade_restricted", TRUE))
+ ? 1 : 0);
+ if (cxt->derestrict == 0)
+ RESTRICTED_HASH_CROAK();
+ }
+#endif
+
RLEN(len);
TRACEME(("size = %d, flags = %d", len, hash_flags));
hv = newHV();
return (SV *) 0;
GETMARK(flags);
+#ifdef HAS_RESTRICTED_HASHES
if ((hash_flags & SHV_RESTRICTED) && (flags & SHV_K_LOCKED))
SvREADONLY_on(sv);
+#endif
if (flags & SHV_K_ISSV) {
/* XXX you can't set a placeholder with an SV key.
if (flags & SHV_K_PLACEHOLDER) {
SvREFCNT_dec (sv);
- sv = &PL_sv_undef;
+ sv = &PL_sv_placeholder;
store_flags |= HVhek_PLACEHOLD;
}
- if (flags & SHV_K_UTF8)
+ if (flags & SHV_K_UTF8) {
+#ifdef HAS_UTF8_HASHES
store_flags |= HVhek_UTF8;
+#else
+ if (cxt->use_bytes < 0)
+ cxt->use_bytes
+ = (SvTRUE(perl_get_sv("Storable::drop_utf8", TRUE))
+ ? 1 : 0);
+ if (cxt->use_bytes == 0)
+ UTF8_CROAK();
+#endif
+ }
+#ifdef HAS_UTF8_HASHES
if (flags & SHV_K_WASUTF8)
store_flags |= HVhek_WASUTF8;
+#endif
RLEN(size); /* Get key size */
- KBUFCHK(size); /* Grow hash key read pool if needed */
+ KBUFCHK((STRLEN)size); /* Grow hash key read pool if needed */
if (size)
READ(kbuf, size);
kbuf[size] = '\0'; /* Mark string end, just in case */
* Enter key/value pair into hash table.
*/
+#ifdef HAS_RESTRICTED_HASHES
if (hv_store_flags(hv, kbuf, size, sv, 0, flags) == 0)
return (SV *) 0;
+#else
+ if (!(store_flags & HVhek_PLACEHOLD))
+ if (hv_store(hv, kbuf, size, sv, 0) == 0)
+ return (SV *) 0;
+#endif
}
}
+#ifdef HAS_RESTRICTED_HASHES
if (hash_flags & SHV_RESTRICTED)
SvREADONLY_on(hv);
+#endif
TRACEME(("ok (retrieve_hash at 0x%"UVxf")", PTR2UV(hv)));
}
/*
+ * retrieve_code
+ *
+ * Return a code reference.
+ */
+static SV *retrieve_code(stcxt_t *cxt, char *cname)
+{
+#if PERL_VERSION < 6
+ CROAK(("retrieve_code does not work with perl 5.005 or less\n"));
+#else
+ dSP;
+ int type, count;
+ SV *cv;
+ SV *sv, *text, *sub;
+
+ TRACEME(("retrieve_code (#%d)", cxt->tagnum));
+
+ /*
+ * Retrieve the source of the code reference
+ * as a small or large scalar
+ */
+
+ GETMARK(type);
+ switch (type) {
+ case SX_SCALAR:
+ text = retrieve_scalar(cxt, cname);
+ break;
+ case SX_LSCALAR:
+ text = retrieve_lscalar(cxt, cname);
+ break;
+ default:
+ CROAK(("Unexpected type %d in retrieve_code\n", type));
+ }
+
+ /*
+ * prepend "sub " to the source
+ */
+
+ sub = newSVpvn("sub ", 4);
+ sv_catpv(sub, SvPV_nolen(text)); /* XXX no sv_catsv! */
+ SvREFCNT_dec(text);
+
+ /*
+ * evaluate the source to a code reference and use the CV value
+ */
+
+ if (cxt->eval == NULL) {
+ cxt->eval = perl_get_sv("Storable::Eval", TRUE);
+ SvREFCNT_inc(cxt->eval);
+ }
+ if (!SvTRUE(cxt->eval)) {
+ if (
+ cxt->forgive_me == 0 ||
+ (cxt->forgive_me < 0 && !(cxt->forgive_me =
+ SvTRUE(perl_get_sv("Storable::forgive_me", TRUE)) ? 1 : 0))
+ ) {
+ CROAK(("Can't eval, please set $Storable::Eval to a true value"));
+ } else {
+ sv = newSVsv(sub);
+ return sv;
+ }
+ }
+
+ ENTER;
+ SAVETMPS;
+
+ if (SvROK(cxt->eval) && SvTYPE(SvRV(cxt->eval)) == SVt_PVCV) {
+ SV* errsv = get_sv("@", TRUE);
+ sv_setpv(errsv, ""); /* clear $@ */
+ PUSHMARK(sp);
+ XPUSHs(sv_2mortal(newSVsv(sub)));
+ PUTBACK;
+ count = call_sv(cxt->eval, G_SCALAR);
+ SPAGAIN;
+ if (count != 1)
+ CROAK(("Unexpected return value from $Storable::Eval callback\n"));
+ cv = POPs;
+ if (SvTRUE(errsv)) {
+ CROAK(("code %s caused an error: %s",
+ SvPV_nolen(sub), SvPV_nolen(errsv)));
+ }
+ PUTBACK;
+ } else {
+ cv = eval_pv(SvPV_nolen(sub), TRUE);
+ }
+ if (cv && SvROK(cv) && SvTYPE(SvRV(cv)) == SVt_PVCV) {
+ sv = SvRV(cv);
+ } else {
+ CROAK(("code %s did not evaluate to a subroutine reference\n", SvPV_nolen(sub)));
+ }
+
+ SvREFCNT_inc(sv); /* XXX seems to be necessary */
+ SvREFCNT_dec(sub);
+
+ FREETMPS;
+ LEAVE;
+
+ SEEN(sv, cname);
+ return sv;
+#endif
+}
+
+/*
* old_retrieve_array
*
* Retrieve a whole array in pre-0.6 binary format.
if (c != SX_KEY)
(void) retrieve_other((stcxt_t *) 0, 0); /* Will croak out */
RLEN(size); /* Get key size */
- KBUFCHK(size); /* Grow hash key read pool if needed */
+ KBUFCHK((STRLEN)size); /* Grow hash key read pool if needed */
if (size)
READ(kbuf, size);
kbuf[size] = '\0'; /* Mark string end, just in case */
*/
static SV *magic_check(stcxt_t *cxt)
{
- char buf[256];
- char byteorder[256];
- int c;
- int use_network_order;
- int version_major;
- int version_minor = 0;
+ /* The worst case for a malicious header would be old magic (which is
+ longer), major, minor, byteorder length byte of 255, 255 bytes of
+ garbage, sizeof int, long, pointer, NV.
+ So the worse of that we can read is 255 bytes of garbage plus 4.
+ Err, I am assuming 8 bit bytes here. Please file a bug report if you're
+ compiling perl on a system with chars that are larger than 8 bits.
+ (Even Crays aren't *that* perverse).
+ */
+ unsigned char buf[4 + 255];
+ unsigned char *current;
+ int c;
+ int length;
+ int use_network_order;
+ int use_NV_size;
+ int version_major;
+ int version_minor = 0;
+
+ TRACEME(("magic_check"));
- TRACEME(("magic_check"));
+ /*
+ * The "magic number" is only for files, not when freezing in memory.
+ */
- /*
- * The "magic number" is only for files, not when freezing in memory.
- */
+ if (cxt->fio) {
+ /* This includes the '\0' at the end. I want to read the extra byte,
+ which is usually going to be the major version number. */
+ STRLEN len = sizeof(magicstr);
+ STRLEN old_len;
- if (cxt->fio) {
- STRLEN len = sizeof(magicstr) - 1;
- STRLEN old_len;
+ READ(buf, (SSize_t)(len)); /* Not null-terminated */
- READ(buf, len); /* Not null-terminated */
- buf[len] = '\0'; /* Is now */
+ /* Point at the byte after the byte we read. */
+ current = buf + --len; /* Do the -- outside of macros. */
- if (0 == strcmp(buf, magicstr))
- goto magic_ok;
+ if (memNE(buf, magicstr, len)) {
+ /*
+ * Try to read more bytes to check for the old magic number, which
+ * was longer.
+ */
- /*
- * Try to read more bytes to check for the old magic number, which
- * was longer.
- */
+ TRACEME(("trying for old magic number"));
- old_len = sizeof(old_magicstr) - 1;
- READ(&buf[len], old_len - len);
- buf[old_len] = '\0'; /* Is now null-terminated */
+ old_len = sizeof(old_magicstr) - 1;
+ READ(current + 1, (SSize_t)(old_len - len));
+
+ if (memNE(buf, old_magicstr, old_len))
+ CROAK(("File is not a perl storable"));
+ current = buf + old_len;
+ }
+ use_network_order = *current;
+ } else
+ GETMARK(use_network_order);
+
+ /*
+ * Starting with 0.6, the "use_network_order" byte flag is also used to
+ * indicate the version number of the binary, and therefore governs the
+ * setting of sv_retrieve_vtbl. See magic_write().
+ */
- if (strcmp(buf, old_magicstr))
- CROAK(("File is not a perl storable"));
- }
+ version_major = use_network_order >> 1;
+ cxt->retrieve_vtbl = version_major ? sv_retrieve : sv_old_retrieve;
-magic_ok:
- /*
- * Starting with 0.6, the "use_network_order" byte flag is also used to
- * indicate the version number of the binary, and therefore governs the
- * setting of sv_retrieve_vtbl. See magic_write().
- */
+ TRACEME(("magic_check: netorder = 0x%x", use_network_order));
- GETMARK(use_network_order);
- version_major = use_network_order >> 1;
- cxt->retrieve_vtbl = version_major ? sv_retrieve : sv_old_retrieve;
- TRACEME(("magic_check: netorder = 0x%x", use_network_order));
+ /*
+ * Starting with 0.7 (binary major 2), a full byte is dedicated to the
+ * minor version of the protocol. See magic_write().
+ */
+ if (version_major > 1)
+ GETMARK(version_minor);
- /*
- * Starting with 0.7 (binary major 2), a full byte is dedicated to the
- * minor version of the protocol. See magic_write().
- */
+ cxt->ver_major = version_major;
+ cxt->ver_minor = version_minor;
- if (version_major > 1)
- GETMARK(version_minor);
+ TRACEME(("binary image version is %d.%d", version_major, version_minor));
- cxt->ver_major = version_major;
- cxt->ver_minor = version_minor;
+ /*
+ * Inter-operability sanity check: we can't retrieve something stored
+ * using a format more recent than ours, because we have no way to
+ * know what has changed, and letting retrieval go would mean a probable
+ * failure reporting a "corrupted" storable file.
+ */
- TRACEME(("binary image version is %d.%d", version_major, version_minor));
+ if (
+ version_major > STORABLE_BIN_MAJOR ||
+ (version_major == STORABLE_BIN_MAJOR &&
+ version_minor > STORABLE_BIN_MINOR)
+ ) {
+ int croak_now = 1;
+ TRACEME(("but I am version is %d.%d", STORABLE_BIN_MAJOR,
+ STORABLE_BIN_MINOR));
+
+ if (version_major == STORABLE_BIN_MAJOR) {
+ TRACEME(("cxt->accept_future_minor is %d",
+ cxt->accept_future_minor));
+ if (cxt->accept_future_minor < 0)
+ cxt->accept_future_minor
+ = (SvTRUE(perl_get_sv("Storable::accept_future_minor",
+ TRUE))
+ ? 1 : 0);
+ if (cxt->accept_future_minor == 1)
+ croak_now = 0; /* Don't croak yet. */
+ }
+ if (croak_now) {
+ CROAK(("Storable binary image v%d.%d more recent than I am (v%d.%d)",
+ version_major, version_minor,
+ STORABLE_BIN_MAJOR, STORABLE_BIN_MINOR));
+ }
+ }
- /*
- * Inter-operability sanity check: we can't retrieve something stored
- * using a format more recent than ours, because we have no way to
- * know what has changed, and letting retrieval go would mean a probable
- * failure reporting a "corrupted" storable file.
- */
+ /*
+ * If they stored using network order, there's no byte ordering
+ * information to check.
+ */
- if (
- version_major > STORABLE_BIN_MAJOR ||
- (version_major == STORABLE_BIN_MAJOR &&
- version_minor > STORABLE_BIN_MINOR)
- )
- CROAK(("Storable binary image v%d.%d more recent than I am (v%d.%d)",
- version_major, version_minor,
- STORABLE_BIN_MAJOR, STORABLE_BIN_MINOR));
+ if ((cxt->netorder = (use_network_order & 0x1))) /* Extra () for -Wall */
+ return &PL_sv_undef; /* No byte ordering info */
- /*
- * If they stored using network order, there's no byte ordering
- * information to check.
- */
+ /* In C truth is 1, falsehood is 0. Very convienient. */
+ use_NV_size = version_major >= 2 && version_minor >= 2;
- if ((cxt->netorder = (use_network_order & 0x1))) /* Extra () for -Wall */
- return &PL_sv_undef; /* No byte ordering info */
+ GETMARK(c);
+ length = c + 3 + use_NV_size;
+ READ(buf, length); /* Not null-terminated */
- sprintf(byteorder, "%lx", (unsigned long) BYTEORDER);
- GETMARK(c);
- READ(buf, c); /* Not null-terminated */
- buf[c] = '\0'; /* Is now */
+ TRACEME(("byte order '%.*s' %d", c, buf, c));
- if (strcmp(buf, byteorder))
- CROAK(("Byte order is not compatible"));
-
- GETMARK(c); /* sizeof(int) */
- if ((int) c != sizeof(int))
- CROAK(("Integer size is not compatible"));
-
- GETMARK(c); /* sizeof(long) */
- if ((int) c != sizeof(long))
- CROAK(("Long integer size is not compatible"));
-
- GETMARK(c); /* sizeof(char *) */
- if ((int) c != sizeof(char *))
- CROAK(("Pointer integer size is not compatible"));
-
- if (version_major >= 2 && version_minor >= 2) {
- GETMARK(c); /* sizeof(NV) */
- if ((int) c != sizeof(NV))
- CROAK(("Double size is not compatible"));
- }
+#ifdef USE_56_INTERWORK_KLUDGE
+ /* No point in caching this in the context as we only need it once per
+ retrieve, and we need to recheck it each read. */
+ if (SvTRUE(perl_get_sv("Storable::interwork_56_64bit", TRUE))) {
+ if ((c != (sizeof (byteorderstr_56) - 1))
+ || memNE(buf, byteorderstr_56, c))
+ CROAK(("Byte order is not compatible"));
+ } else
+#endif
+ {
+ if ((c != (sizeof (byteorderstr) - 1)) || memNE(buf, byteorderstr, c))
+ CROAK(("Byte order is not compatible"));
+ }
+
+ current = buf + c;
+
+ /* sizeof(int) */
+ if ((int) *current++ != sizeof(int))
+ CROAK(("Integer size is not compatible"));
- return &PL_sv_undef; /* OK */
+ /* sizeof(long) */
+ if ((int) *current++ != sizeof(long))
+ CROAK(("Long integer size is not compatible"));
+
+ /* sizeof(char *) */
+ if ((int) *current != sizeof(char *))
+ CROAK(("Pointer size is not compatible"));
+
+ if (use_NV_size) {
+ /* sizeof(NV) */
+ if ((int) *++current != sizeof(NV))
+ CROAK(("Double size is not compatible"));
+ }
+
+ return &PL_sv_undef; /* OK */
}
/*
TRACEME(("had retrieved #%d at 0x%"UVxf, tag, PTR2UV(sv)));
SvREFCNT_inc(sv); /* One more reference to this same sv */
return sv; /* The SV pointer where object was retrieved */
- }
+ } else if (type >= SX_ERROR && cxt->ver_minor > STORABLE_BIN_MINOR) {
+ if (cxt->accept_future_minor < 0)
+ cxt->accept_future_minor
+ = (SvTRUE(perl_get_sv("Storable::accept_future_minor",
+ TRUE))
+ ? 1 : 0);
+ if (cxt->accept_future_minor == 1) {
+ CROAK(("Storable binary image v%d.%d contains data of type %d. "
+ "This Storable is v%d.%d and can only handle data types up to %d",
+ cxt->ver_major, cxt->ver_minor, type,
+ STORABLE_BIN_MAJOR, STORABLE_BIN_MINOR, SX_ERROR - 1));
+ }
+ }
first_time: /* Will disappear when support for old format is dropped */
default:
return (SV *) 0; /* Failed */
}
- KBUFCHK(len); /* Grow buffer as necessary */
+ KBUFCHK((STRLEN)len); /* Grow buffer as necessary */
if (len)
READ(kbuf, len);
kbuf[len] = '\0'; /* Mark string end */
if (!sv) {
TRACEME(("retrieve ERROR"));
+#if (PATCHLEVEL <= 4)
+ /* perl 5.00405 seems to screw up at this point with an
+ 'attempt to modify a read only value' error reported in the
+ eval { $self = pretrieve(*FILE) } in _retrieve.
+ I can't see what the cause of this error is, but I suspect a
+ bug in 5.004, as it seems to be capable of issuing spurious
+ errors or core dumping with matches on $@. I'm not going to
+ spend time on what could be a fruitless search for the cause,
+ so here's a bodge. If you're running 5.004 and don't like
+ this inefficiency, either upgrade to a newer perl, or you are
+ welcome to find the problem and send in a patch.
+ */
+ return newSV(0);
+#else
return &PL_sv_undef; /* Something went wrong, return undef */
+#endif
}
TRACEME(("retrieve got %s(0x%"UVxf")",
#define InputStream PerlIO *
#endif /* !OutputStream */
+MODULE = Storable PACKAGE = Storable::Cxt
+
+void
+DESTROY(self)
+ SV *self
+PREINIT:
+ stcxt_t *cxt = (stcxt_t *)SvPVX(SvRV(self));
+PPCODE:
+ if (kbuf)
+ Safefree(kbuf);
+ if (!cxt->membuf_ro && mbase)
+ Safefree(mbase);
+ if (cxt->membuf_ro && (cxt->msaved).arena)
+ Safefree((cxt->msaved).arena);
+
+
MODULE = Storable PACKAGE = Storable
PROTOTYPES: ENABLE
BOOT:
init_perinterp();
+ gv_fetchpv("Storable::drop_utf8", GV_ADDMULTI, SVt_PV);
+#ifdef DEBUGME
+ /* Only disable the used only once warning if we are in debugging mode. */
+ gv_fetchpv("Storable::DEBUGME", GV_ADDMULTI, SVt_PV);
+#endif
+#ifdef USE_56_INTERWORK_KLUDGE
+ gv_fetchpv("Storable::interwork_56_64bit", GV_ADDMULTI, SVt_PV);
+#endif
int
pstore(f,obj)
int
is_retrieving()
-