提交 84107e6c 编写于 作者: R Ralf S. Engelschall

Second round of fixing the OpenSSL perl/ stuff. It now at least compiled fine

under Unix and passes some trivial tests I've now added. But the whole stuff
is horribly incomplete, so a README.1ST with a disclaimer was added to make
sure no one expects that this stuff really works in the OpenSSL 0.9.2 release.
Additionally I've started to clean the XS sources up and fixed a few little
bugs and inconsistencies in OpenSSL.{pm,xs} and openssl_bio.xs.

PS: I'm still not convinces whether we should try to make this
    finally running or kick it out and replace it with some
    other module....
上级 9ea0e64d
......@@ -5,6 +5,15 @@
Changes between 0.9.1c and 0.9.2
*) Second round of fixing the OpenSSL perl/ stuff. It now at least compiled
fine under Unix and passes some trivial tests I've now added. But the
whole stuff is horribly incomplete, so a README.1ST with a disclaimer was
added to make sure no one expects that this stuff really works in the
OpenSSL 0.9.2 release. Additionally I've started to clean the XS sources
up and fixed a few little bugs and inconsistencies in OpenSSL.{pm,xs} and
openssl_bio.xs.
[Ralf S. Engelschall]
*) Fix the generation of two part addresses in perl.
[Kenji Miyake <kenji@miyake.org>, integrated by Ben Laurie]
......
README.1ST
MANIFEST
Makefile.PL
typemap
......@@ -12,3 +13,6 @@ openssl_err.xs
openssl_ssl.xs
openssl_x509.xs
openssl_cb.c
t/01-use.t
t/02-version.t
t/03-bio.t
......@@ -2,14 +2,19 @@
## Makefile.PL -- Perl MakeMaker specification
##
$V = '0.9.2';
print "Configuring companion Perl module for OpenSSL $V\n";
use ExtUtils::MakeMaker;
WriteMakefile(
'OPTIMIZE' => '',
'DISTNAME' => 'OpenSSL-0.9.2',
'DISTNAME' => "openssl-$V",
'NAME' => 'OpenSSL',
'VERSION_FROM' => 'OpenSSL.pm',
'LIBS' => ['-L.. -lssl -lcrypto'],
'LIBS' => ( $^O eq 'MSWin32'
? [ '-L../out32dll -lssleay32 -llibeay32' ]
: [ '-L.. -lssl -lcrypto' ] ),
'DEFINE' => '',
'INC' => '-I../include',
'H' => ['openssl.h'],
......
......@@ -4,32 +4,35 @@
package OpenSSL;
require 5.000;
use Exporter;
use DynaLoader;
@ISA = qw(Exporter DynaLoader);
@EXPORT = qw();
$VERSION='0.92';
bootstrap penSSL;
$VERSION = '0.92';
bootstrap OpenSSL;
@OpenSSL::BN::ISA= qw(OpenSSL::ERR);
@OpenSSL::MD::ISA= qw(OpenSSL::ERR);
@OpenSSL::Cipher::ISA= qw(OpenSSL::ERR);
@OpenSSL::SSL::CTX::ISA= qw(OpenSSL::ERR);
@OpenSSL::BIO::ISA= qw(OpenSSL::ERR);
@OpenSSL::SSL::ISA= qw(OpenSSL::ERR);
@OpenSSL::BN::ISA = qw(OpenSSL::ERR);
@OpenSSL::MD::ISA = qw(OpenSSL::ERR);
@OpenSSL::Cipher::ISA = qw(OpenSSL::ERR);
@OpenSSL::SSL::CTX::ISA = qw(OpenSSL::ERR);
@OpenSSL::BIO::ISA = qw(OpenSSL::ERR);
@OpenSSL::SSL::ISA = qw(OpenSSL::ERR);
@BN::ISA= qw(OpenSSL::BN);
@MD::ISA= qw(OpenSSL::MD);
@Cipher::ISA= qw(OpenSSL::Cipher);
@SSL::ISA= qw(OpenSSL::SSL);
@SSL::CTX::ISA= qw(OpenSSL::SSL::CTX);
@BIO::ISA= qw(OpenSSL::BIO);
@BN::ISA = qw(OpenSSL::BN);
@MD::ISA = qw(OpenSSL::MD);
@Cipher::ISA = qw(OpenSSL::Cipher);
@SSL::ISA = qw(OpenSSL::SSL);
@SSL::CTX::ISA = qw(OpenSSL::SSL::CTX);
@BIO::ISA = qw(OpenSSL::BIO);
@OpenSSL::MD::names=qw(md2 md5 sha sha1 ripemd160 mdc2);
@OpenSSL::MD::names = qw(
md2 md5 sha sha1 ripemd160 mdc2
);
@OpenSSL::Cipher::names=qw(
@OpenSSL::Cipher::names = qw(
des-ecb des-cfb des-ofb des-cbc
des-ede des-ede-cfb des-ede-ofb des-ede-cbc
des-ede3 des-ede3-cfb des-ede3-ofb des-ede3-cbc
......@@ -39,36 +42,40 @@ bootstrap penSSL;
bf-ecb bf-cfb bf-ofb bf-cbc
cast5-ecb cast5-cfb cast5-ofb cast5-cbc
rc5-ecb rc5-cfb rc5-ofb rc5-cbc
);
);
sub OpenSSL::SSL::CTX::new_ssl { OpenSSL::SSL::new($_[0]); }
sub OpenSSL::SSL::CTX::new_ssl {
OpenSSL::SSL::new($_[0]);
}
sub OpenSSL::ERR::error
{
my($o)=@_;
my($s,$ret);
sub OpenSSL::ERR::error {
my($o) = @_;
my($s, $ret);
while (($s=$o->get_error()) != 0)
{
while (($s = $o->get_error()) != 0) {
$ret.=$s."\n";
}
return($ret);
}
}
@OpenSSL::Cipher::aliases=qw(des desx des3 idea rc2 bf cast);
@OpenSSL::Cipher::aliases = qw(
des desx des3 idea rc2 bf cast
);
package OpenSSL::BN;
sub bnfix { (ref($_[0]) ne "OpenSSL::BN")?OpenSSL::BN::dec2bn($_[0]):$_[0]; }
sub bnfix {
(ref($_[0]) ne "OpenSSL::BN") ? OpenSSL::BN::dec2bn($_[0]) : $_[0];
}
use overload
"=" => sub { dup($_[0]); },
"+" => sub { add($_[0],$_[1]); },
"-" => sub { ($_[1],$_[0])=($_[0],$_[1]) if $_[2];
OpenSSL::BN::sub($_[0],$_[1]); },
"-" => sub { ($_[1],$_[0])=($_[0],$_[1]) if $_[2]; OpenSSL::BN::sub($_[0],$_[1]); },
"*" => sub { mul($_[0],$_[1]); },
"**" => sub { ($_[1],$_[0])=($_[0],$_[1]) if $_[2]; OpenSSL::BN::exp($_[0],$_[1]); },
"/" => sub { ($_[1],$_[0])=($_[0],$_[1]) if $_[2]; (div($_[0],$_[1]))[0]; },
"%" => sub { ($_[1],$_[0])=($_[0],$_[1]) if $_[2]; mod($_[0],$_[1]); },
"**" => sub { ($_[1],$_[0])=($_[0],$_[1]) if $_[2]; exp($_[0],$_[1]); },
"<<" => sub { lshift($_[0],$_[1]); },
">>" => sub { rshift($_[0],$_[1]); },
"<=>" => sub { OpenSSL::BN::cmp($_[0],$_[1]); },
......@@ -76,5 +83,8 @@ use overload
'0+' => sub { dec2bn($_[0]); },
"bool" => sub { ref($_[0]) eq "OpenSSL::BN"; };
sub OpenSSL::BIO::do_accept { OpenSSL::BIO::do_handshake(@_); }
sub OpenSSL::BIO::do_accept {
OpenSSL::BIO::do_handshake(@_);
}
1;
......@@ -4,52 +4,63 @@
#include "openssl.h"
SV *new_ref(type,obj,mort)
char *type;
char *obj;
{
SV *
new_ref(type, obj, mort)
char *type;
char *obj;
{
SV *ret;
if (mort)
ret=sv_newmortal();
ret = sv_newmortal();
else
ret=newSViv(0);
printf(">new_ref %d\n",type);
sv_setref_pv(ret,type,(void *)obj);
ret = newSViv(0);
#ifdef DEBUG
printf(">new_ref %d\n",type);
#endif
sv_setref_pv(ret, type, (void *)obj);
return(ret);
}
}
int ex_new(obj,data,ad,idx,argl,argp)
char *obj;
SV *data;
CRYPTO_EX_DATA *ad;
int idx;
long argl;
char *argp;
{
int
ex_new(obj, data, ad, idx, argl, argp)
char *obj;
SV *data;
CRYPTO_EX_DATA *ad;
int idx;
long argl;
char *argp;
{
SV *sv;
fprintf(stderr,"ex_new %08X %s\n",obj,argp);
sv=sv_newmortal();
sv_setref_pv(sv,argp,(void *)obj);
printf("%d>new_ref '%s'\n",sv,argp);
CRYPTO_set_ex_data(ad,idx,(char *)sv);
#ifdef DEBUG
printf("ex_new %08X %s\n",obj,argp);
#endif
sv = sv_newmortal();
sv_setref_pv(sv, argp, (void *)obj);
#ifdef DEBUG
printf("%d>new_ref '%s'\n", sv, argp);
#endif
CRYPTO_set_ex_data(ad, idx, (char *)sv);
return(1);
}
}
void ex_cleanup(obj,data,ad,idx,argl,argp)
char *obj;
SV *data;
CRYPTO_EX_DATA *ad;
int idx;
long argl;
char *argp;
{
void
ex_cleanup(obj, data, ad, idx, argl, argp)
char *obj;
SV *data;
CRYPTO_EX_DATA *ad;
int idx;
long argl;
char *argp;
{
pr_name("ex_cleanup");
fprintf(stderr,"ex_cleanup %08X %s\n",obj,argp);
#ifdef DEBUG
printf("ex_cleanup %08X %s\n", obj, argp);
#endif
if (data != NULL)
SvREFCNT_dec((SV *)data);
}
}
MODULE = OpenSSL PACKAGE = OpenSSL
......
WARNING, this Perl interface to OpenSSL is horrible incomplete.
Don't expect it to be really useable!!
......@@ -58,18 +58,19 @@
#ifdef __cplusplus
extern "C" {
#endif
#include "EXTERN.h"
#include "perl.h"
#include "XSUB.h"
#ifdef __cplusplus
}
#endif
typedef struct datum_st
{
typedef struct datum_st {
char *dptr;
int dsize;
} datum;
} datum;
#include "crypto.h"
#include "buffer.h"
......@@ -79,7 +80,7 @@ typedef struct datum_st
#include "x509.h"
#include "ssl.h"
#if 0
#ifdef DEBUG
#define pr_name(name) printf("%s\n",name)
#define pr_name_d(name,p2) printf("%s %d\n",name,p2)
#define pr_name_dd(name,p2,p3) printf("%s %d %d\n",name,p2,p3)
......@@ -90,7 +91,6 @@ typedef struct datum_st
#endif
SV *new_ref(char *type, char *obj, int mort);
int ex_new(char *obj,SV *data,CRYPTO_EX_DATA *ad,int idx,long argl,char *argp);
void ex_cleanup(char *obj,SV *data,CRYPTO_EX_DATA *ad,int idx,
long argl,char *argp);
int ex_new(char *obj, SV *data, CRYPTO_EX_DATA *ad, int idx, long argl, char *argp);
void ex_cleanup(char *obj, SV *data, CRYPTO_EX_DATA *ad, int idx, long argl, char *argp);
#include "openssl.h"
static int p5_bio_ex_bio_ptr=0;
static int p5_bio_ex_bio_callback=0;
static int p5_bio_ex_bio_callback_data=0;
static long p5_bio_callback(bio,state,parg,cmd,larg,ret)
BIO *bio;
int state;
char *parg;
int cmd;
long larg;
int ret;
{
static int p5_bio_ex_bio_ptr = 0;
static int p5_bio_ex_bio_callback = 0;
static int p5_bio_ex_bio_callback_data = 0;
static long
p5_bio_callback(bio,state,parg,cmd,larg,ret)
BIO *bio;
int state;
char *parg;
int cmd;
long larg;
int ret;
{
int i;
SV *me,*cb;
me=(SV *)BIO_get_ex_data(bio,p5_bio_ex_bio_ptr);
cb=(SV *)BIO_get_ex_data(bio,p5_bio_ex_bio_callback);
if (cb != NULL)
{
me = (SV *)BIO_get_ex_data(bio, p5_bio_ex_bio_ptr);
cb = (SV *)BIO_get_ex_data(bio, p5_bio_ex_bio_callback);
if (cb != NULL) {
dSP;
ENTER ;
ENTER;
SAVETMPS;
PUSHMARK(sp);
XPUSHs(sv_2mortal(newSViv(me)));
XPUSHs(sv_2mortal(newSVsv(me)));
XPUSHs(sv_2mortal(newSViv(state)));
XPUSHs(sv_2mortal(newSViv(cmd)));
if ((state == BIO_CB_READ) || (state == BIO_CB_WRITE))
{
XPUSHs(sv_2mortal(newSVpv(parg,larg)));
}
else
XPUSHs(&sv_undef);
/* ptr one */
......@@ -40,37 +38,31 @@ int ret;
XPUSHs(sv_2mortal(newSViv(ret)));
PUTBACK;
i=perl_call_sv(cb,G_SCALAR);
i = perl_call_sv(cb,G_SCALAR);
SPAGAIN;
if (i == 1)
ret=POPi;
ret = POPi;
else
ret=1;
ret = 1;
PUTBACK;
FREETMPS;
LEAVE;
}
else
{
croak("Internal error in SSL p5_ssl_info_callback");
else {
croak("Internal error in p5_bio_callback");
}
return(ret);
}
}
int boot_bio()
{
p5_bio_ex_bio_ptr=
BIO_get_ex_new_index(0,"OpenSSL::BIO",ex_new,NULL,
ex_cleanup);
p5_bio_ex_bio_callback=
BIO_get_ex_new_index(0,"bio_callback",NULL,NULL,
ex_cleanup);
p5_bio_ex_bio_callback_data=
BIO_get_ex_new_index(0,"bio_callback_data",NULL,NULL,
ex_cleanup);
int
boot_bio(void)
{
p5_bio_ex_bio_ptr = BIO_get_ex_new_index(0, "OpenSSL::BIO", ex_new, NULL, ex_cleanup);
p5_bio_ex_bio_callback = BIO_get_ex_new_index(0, "bio_callback", NULL, NULL, ex_cleanup);
p5_bio_ex_bio_callback_data = BIO_get_ex_new_index(0, "bio_callback_data", NULL, NULL, ex_cleanup);
return(1);
}
}
MODULE = OpenSSL::BIO PACKAGE = OpenSSL::BIO PREFIX = p5_BIO_
......@@ -78,58 +70,57 @@ VERSIONCHECK: DISABLE
void
p5_BIO_new_buffer_ssl_connect(...)
PROTOTYPE: ;$
PREINIT:
SSL_CTX *ctx;
BIO *bio;
SV *arg;
PPCODE:
if (items == 1)
arg=ST(0);
arg = ST(0);
else if (items == 2)
arg=ST(1);
arg = ST(1);
else
arg=NULL;
arg = NULL;
if ((arg == NULL) || !(sv_derived_from(arg,"OpenSSL::SSL::CTX")))
croak("Usage: OpenSSL::BIO::new_buffer_ssl_connect(SSL_CTX)");
else
{
IV tmp=SvIV((SV *)SvRV(arg));
ctx=(SSL_CTX *)tmp;
else {
IV tmp = SvIV((SV *)SvRV(arg));
ctx = (SSL_CTX *)tmp;
}
EXTEND(sp,1);
bio=BIO_new_buffer_ssl_connect(ctx);
arg=(SV *)BIO_get_ex_data(bio,p5_bio_ex_bio_ptr);
EXTEND(sp, 1);
bio = BIO_new_buffer_ssl_connect(ctx);
arg = (SV *)BIO_get_ex_data(bio, p5_bio_ex_bio_ptr);
PUSHs(arg);
void
p5_BIO_new_ssl_connect(...)
PROTOTYPE: ;$
PREINIT:
SSL_CTX *ctx;
BIO *bio;
SV *arg;
PPCODE:
if (items == 1)
arg=ST(0);
arg = ST(0);
else if (items == 2)
arg=ST(1);
arg = ST(1);
else
arg=NULL;
arg = NULL;
if ((arg == NULL) || !(sv_derived_from(arg,"OpenSSL::SSL::CTX")))
croak("Usage: OpenSSL::BIO::new_ssl_connect(SSL_CTX)");
else
{
IV tmp=SvIV((SV *)SvRV(arg));
ctx=(SSL_CTX *)tmp;
else {
IV tmp = SvIV((SV *)SvRV(arg));
ctx = (SSL_CTX *)tmp;
}
EXTEND(sp,1);
bio=BIO_new_ssl_connect(ctx);
arg=(SV *)BIO_get_ex_data(bio,p5_bio_ex_bio_ptr);
bio = BIO_new_ssl_connect(ctx);
arg = (SV *)BIO_get_ex_data(bio,p5_bio_ex_bio_ptr);
PUSHs(arg);
void
p5_BIO_new(...)
PROTOTYPE: ;$
PREINIT:
BIO *bio;
char *type;
......@@ -137,161 +128,162 @@ p5_BIO_new(...)
PPCODE:
pr_name("p5_BIO_new");
if ((items == 1) && SvPOK(ST(0)))
type=SvPV(ST(0),na);
type = SvPV(ST(0),na);
else if ((items == 2) && SvPOK(ST(1)))
type=SvPV(ST(1),na);
type = SvPV(ST(1),na);
else
croak("Usage: OpenSSL::BIO::new(type)");
EXTEND(sp,1);
if (strcmp(type,"connect") == 0)
if (strcmp(type, "mem") == 0)
bio=BIO_new(BIO_s_mem());
else if (strcmp(type, "socket") == 0)
bio=BIO_new(BIO_s_socket());
else if (strcmp(type, "connect") == 0)
bio=BIO_new(BIO_s_connect());
else if (strcmp(type,"accept") == 0)
else if (strcmp(type, "accept") == 0)
bio=BIO_new(BIO_s_accept());
else if (strcmp(type,"ssl") == 0)
else if (strcmp(type, "fd") == 0)
bio=BIO_new(BIO_s_fd());
else if (strcmp(type, "file") == 0)
bio=BIO_new(BIO_s_file());
else if (strcmp(type, "null") == 0)
bio=BIO_new(BIO_s_null());
else if (strcmp(type, "ssl") == 0)
bio=BIO_new(BIO_f_ssl());
else if (strcmp(type,"buffer") == 0)
else if (strcmp(type, "buffer") == 0)
bio=BIO_new(BIO_f_buffer());
else
croak("unknown BIO type");
arg=(SV *)BIO_get_ex_data(bio,p5_bio_ex_bio_ptr);
arg = (SV *)BIO_get_ex_data(bio,p5_bio_ex_bio_ptr);
PUSHs(arg);
int
p5_BIO_hostname(bio,name)
p5_BIO_hostname(bio, name)
BIO *bio;
char *name;
PROTOTYPE: $$
CODE:
RETVAL=BIO_set_conn_hostname(bio,name);
RETVAL = BIO_set_conn_hostname(bio, name);
OUTPUT:
RETVAL
int
p5_BIO_set_accept_port(bio,str)
p5_BIO_set_accept_port(bio, str)
BIO *bio;
char *str;
PROTOTYPE: $$
CODE:
RETVAL=BIO_set_accept_port(bio,str);
RETVAL = BIO_set_accept_port(bio, str);
OUTPUT:
RETVAL
int
p5_BIO_do_handshake(bio)
BIO *bio;
PROTOTYPE: $
CODE:
RETVAL=BIO_do_handshake(bio);
RETVAL = BIO_do_handshake(bio);
OUTPUT:
RETVAL
BIO *
p5_BIO_push(b,bio)
p5_BIO_push(b, bio)
BIO *b;
BIO *bio;
PROTOTYPE: $$
CODE:
/* This reference will be reduced when the reference is
* let go, and then when the BIO_free_all() is called
* inside the OpenSSL library by the BIO with this
* pushed into */
bio->references++;
RETVAL=BIO_push(b,bio);
RETVAL = BIO_push(b, bio);
OUTPUT:
RETVAL
void
p5_BIO_pop(b)
BIO *b
PROTOTYPE: $
PREINIT:
BIO *bio;
char *type;
SV *arg;
PPCODE:
bio=BIO_pop(b);
if (bio != NULL)
{
bio = BIO_pop(b);
if (bio != NULL) {
/* This BIO will either be one created in the
* perl library, in which case it will have a perl
* SV, otherwise it will have been created internally,
* inside OpenSSL. For the 'pushed in', it needs
* the reference count decememted. */
arg=(SV *)BIO_get_ex_data(bio,p5_bio_ex_bio_ptr);
if (arg == NULL)
{
arg=new_ref("OpenSSL::BIO",(char *)bio,0);
BIO_set_ex_data(bio,p5_bio_ex_bio_ptr,(char *)arg);
arg = (SV *)BIO_get_ex_data(bio, p5_bio_ex_bio_ptr);
if (arg == NULL) {
arg = new_ref("OpenSSL::BIO",(char *)bio,0);
BIO_set_ex_data(bio, p5_bio_ex_bio_ptr, (char *)arg);
PUSHs(arg);
}
else
{
else {
/* it was pushed in */
SvREFCNT_inc(arg);
PUSHs(arg);
#if 0 /* This does not need to be done. */
if (bio->references < 1)
abort();
/* decrement the reference count */
BIO_free(bio);
#endif
}
}
int
p5_BIO_sysread(bio,in,num, ...)
p5_BIO_sysread(bio, in, num, ...)
BIO *bio;
SV *in;
int num;
PROTOTYPE: $$$;
PREINIT:
int i,n,olen;
int offset;
char *p;
CODE:
offset=0;
offset = 0;
if (!SvPOK(in))
sv_setpvn(in,"",0);
SvPV(in,olen);
if (items > 3)
{
offset=SvIV(ST(3));
if (offset < 0)
{
sv_setpvn(in, "", 0);
SvPV(in, olen);
if (items > 3) {
offset = SvIV(ST(3));
if (offset < 0) {
if (-offset > olen)
croak("Offset outside string");
offset+=olen;
}
}
if ((num+offset) > olen)
{
SvGROW(in,num+offset+1);
p=SvPV(in,i);
memset(&(p[olen]),0,(num+offset)-olen+1);
if ((num+offset) > olen) {
SvGROW(in, num+offset+1);
p=SvPV(in, i);
memset(&(p[olen]), 0, (num+offset)-olen+1);
}
p=SvPV(in,n);
i=BIO_read(bio,p+offset,num);
RETVAL=i;
if (i <= 0) i=0;
SvCUR_set(in,offset+i);
p = SvPV(in,n);
i = BIO_read(bio, p+offset, num);
RETVAL = i;
if (i <= 0)
i = 0;
SvCUR_set(in, offset+i);
OUTPUT:
RETVAL
int
p5_BIO_syswrite(bio,in, ...)
p5_BIO_syswrite(bio, in, ...)
BIO *bio;
SV *in;
PROTOTYPE: $$;
PREINIT:
char *ptr;
int len,in_len;
int offset=0;
int n;
CODE:
ptr=SvPV(in,in_len);
if (items > 2)
{
len=SvOK(ST(2))?SvIV(ST(2)):in_len;
if (items > 3)
{
offset=SvIV(ST(3));
if (offset < 0)
{
ptr = SvPV(in, in_len);
if (items > 2) {
len = SvOK(ST(2)) ? SvIV(ST(2)) : in_len;
if (items > 3) {
offset = SvIV(ST(3));
if (offset < 0) {
if (-offset > in_len)
croak("Offset outside string");
offset+=in_len;
......@@ -300,152 +292,158 @@ p5_BIO_syswrite(bio,in, ...)
croak("Offset outside string");
}
if (len >= (in_len-offset))
len=in_len-offset;
len = in_len-offset;
}
else
len=in_len;
RETVAL=BIO_write(bio,ptr+offset,len);
len = in_len;
RETVAL = BIO_write(bio, ptr+offset, len);
OUTPUT:
RETVAL
void
p5_BIO_getline(bio)
BIO *bio;
PROTOTYPE: $
PREINIT:
int i;
char *p;
PPCODE:
pr_name("p5_BIO_gets");
EXTEND(sp,1);
EXTEND(sp, 1);
PUSHs(sv_newmortal());
sv_setpvn(ST(0),"",0);
SvGROW(ST(0),1024);
p=SvPV(ST(0),na);
i=BIO_gets(bio,p,1024);
if (i < 0) i=0;
SvCUR_set(ST(0),i);
sv_setpvn(ST(0), "", 0);
SvGROW(ST(0), 1024);
p=SvPV(ST(0), na);
i = BIO_gets(bio, p, 1024);
if (i < 0)
i = 0;
SvCUR_set(ST(0), i);
int
p5_BIO_flush(bio)
BIO *bio;
PROTOTYPE: $
CODE:
RETVAL=BIO_flush(bio);
RETVAL = BIO_flush(bio);
OUTPUT:
RETVAL
char *
p5_BIO_type(bio)
BIO *bio;
PROTOTYPE: $
CODE:
RETVAL=bio->method->name;
RETVAL = bio->method->name;
OUTPUT:
RETVAL
void
p5_BIO_next_bio(b)
BIO *b
PROTOTYPE: $
PREINIT:
BIO *bio;
char *type;
SV *arg;
PPCODE:
bio=b->next_bio;
if (bio != NULL)
{
arg=(SV *)BIO_get_ex_data(bio,p5_bio_ex_bio_ptr);
if (arg == NULL)
{
arg=new_ref("OpenSSL::BIO",(char *)bio,0);
BIO_set_ex_data(bio,p5_bio_ex_bio_ptr,(char *)arg);
bio = b->next_bio;
if (bio != NULL) {
arg = (SV *)BIO_get_ex_data(bio, p5_bio_ex_bio_ptr);
if (arg == NULL) {
arg = new_ref("OpenSSL::BIO", (char *)bio, 0);
BIO_set_ex_data(bio, p5_bio_ex_bio_ptr, (char *)arg);
bio->references++;
PUSHs(arg);
}
else
{
else {
SvREFCNT_inc(arg);
PUSHs(arg);
}
}
int
p5_BIO_puts(bio,in)
p5_BIO_puts(bio, in)
BIO *bio;
SV *in;
PROTOTYPE: $$
PREINIT:
char *ptr;
CODE:
ptr=SvPV(in,na);
RETVAL=BIO_puts(bio,ptr);
ptr = SvPV(in,na);
RETVAL = BIO_puts(bio, ptr);
OUTPUT:
RETVAL
void
p5_BIO_set_callback(bio,cb,...)
p5_BIO_set_callback(bio, cb,...)
BIO *bio;
SV *cb;
PROTOTYPE: $$;
PREINIT:
SV *arg=NULL;
SV *arg2=NULL;
SV *arg = NULL;
SV *arg2 = NULL;
CODE:
if (items > 3)
croak("Usage: OpenSSL::BIO::set_callback(bio,callback[,arg]");
if (items == 3)
{
arg2=sv_mortalcopy(ST(2));
if (items == 3) {
arg2 = sv_mortalcopy(ST(2));
SvREFCNT_inc(arg2);
BIO_set_ex_data(bio,p5_bio_ex_bio_callback_data,
(char *)arg2);
BIO_set_ex_data(bio, p5_bio_ex_bio_callback_data, (char *)arg2);
}
arg=sv_mortalcopy(ST(1));
arg = sv_mortalcopy(ST(1));
SvREFCNT_inc(arg);
BIO_set_ex_data(bio,p5_bio_ex_bio_callback,(char *)arg);
printf("%08lx < bio_ptr\n",BIO_get_ex_data(bio,p5_bio_ex_bio_ptr));
BIO_set_callback(bio,p5_bio_callback);
BIO_set_ex_data(bio, p5_bio_ex_bio_callback, (char *)arg);
/* printf("%08lx < bio_ptr\n",BIO_get_ex_data(bio,p5_bio_ex_bio_ptr)); */
BIO_set_callback(bio, p5_bio_callback);
void
p5_BIO_DESTROY(bio)
BIO *bio
PROTOTYPE: $
PREINIT:
SV *sv;
PPCODE:
pr_name_d("p5_BIO_DESTROY",bio->references);
printf("p5_BIO_DESTROY <%s> %d\n",bio->method->name,bio->references);
/* printf("p5_BIO_DESTROY <%s> %d\n",bio->method->name,bio->references); */
BIO_set_ex_data(bio,p5_bio_ex_bio_ptr,NULL);
BIO_free_all(bio);
int
p5_BIO_set_ssl(bio,ssl)
p5_BIO_set_ssl(bio, ssl)
BIO *bio;
SSL *ssl;
PROTOTYPE: $$
CODE:
pr_name("p5_BIO_set_ssl");
ssl->references++;
RETVAL=BIO_set_ssl(bio,ssl,BIO_CLOSE);
RETVAL = BIO_set_ssl(bio, ssl, BIO_CLOSE);
OUTPUT:
RETVAL
int
p5_BIO_number_read(bio)
BIO *bio;
PROTOTYPE: $
CODE:
RETVAL=BIO_number_read(bio);
RETVAL = BIO_number_read(bio);
OUTPUT:
RETVAL
int
p5_BIO_number_written(bio)
BIO *bio;
PROTOTYPE: $
CODE:
RETVAL=BIO_number_written(bio);
RETVAL = BIO_number_written(bio);
OUTPUT:
RETVAL
int
p5_BIO_references(bio)
BIO *bio;
PROTOTYPE: $
CODE:
RETVAL=bio->references;
RETVAL = bio->references;
OUTPUT:
RETVAL
BEGIN {
$| = 1;
print "1..1\n";
}
END {
print "not ok 1\n" unless $loaded;
}
use OpenSSL;
$loaded = 1;
print "ok 1\n";
print "1..1\n";
use OpenSSL;
if ($OpenSSL::VERSION ne '') {
print "ok 1\n";
}
else {
print "not ok 1\n";
}
BEGIN {
$| = 1;
print "1..1\n";
}
END {
print "not ok 1\n" unless $ok;
}
use OpenSSL;
my $bio = OpenSSL::BIO::new("mem") || die;
undef $bio;
$ok = 1;
print "ok 1\n";
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