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path: root/lib
authorMichael Krelin <hacker@klever.net>2007-06-18 22:02:02 (UTC)
committer Michael Krelin <hacker@klever.net>2007-06-18 22:02:02 (UTC)
commit9af3fae2d53a34003af405b68923061c01584bc6 (patch) (side-by-side diff)
treedd63e5bc3515c47ab074c564c51879b7c9652ab2 /lib
parent3b404dd029a2aba05efc2edadcc7f67c59746cf7 (diff)
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reworked zero-padding machinery and added one more instance of zero-padding
Diffstat (limited to 'lib') (more/less context) (ignore whitespace changes)
-rw-r--r--lib/consumer.cc13
-rw-r--r--lib/server.cc11
-rw-r--r--lib/util.cc10
3 files changed, 20 insertions, 14 deletions
diff --git a/lib/consumer.cc b/lib/consumer.cc
index 12866f0..282f0cc 100644
--- a/lib/consumer.cc
+++ b/lib/consumer.cc
@@ -1,344 +1,345 @@
#include <algorithm>
#include <cassert>
#include <opkele/util.h>
#include <opkele/exception.h>
#include <opkele/data.h>
#include <opkele/consumer.h>
#include <openssl/sha.h>
#include <openssl/hmac.h>
#include <curl/curl.h>
#include <pcre++.h>
#include <iostream>
#include "config.h"
namespace opkele {
using namespace std;
class curl_t {
public:
CURL *_c;
curl_t() : _c(0) { }
curl_t(CURL *c) : _c(c) { }
~curl_t() throw() { if(_c) curl_easy_cleanup(_c); }
curl_t& operator=(CURL *c) { if(_c) curl_easy_cleanup(_c); _c=c; return *this; }
operator const CURL*(void) const { return _c; }
operator CURL*(void) { return _c; }
};
static CURLcode curl_misc_sets(CURL* c) {
CURLcode r;
(r=curl_easy_setopt(c,CURLOPT_FOLLOWLOCATION,1))
|| (r=curl_easy_setopt(c,CURLOPT_MAXREDIRS,5))
|| (r=curl_easy_setopt(c,CURLOPT_DNS_CACHE_TIMEOUT,120))
|| (r=curl_easy_setopt(c,CURLOPT_DNS_USE_GLOBAL_CACHE,1))
|| (r=curl_easy_setopt(c,CURLOPT_USERAGENT,PACKAGE_NAME"/"PACKAGE_VERSION))
|| (r=curl_easy_setopt(c,CURLOPT_TIMEOUT,20))
#ifdef DISABLE_CURL_SSL_VERIFYHOST
|| (r=curl_easy_setopt(c,CURLOPT_SSL_VERIFYHOST,0))
#endif
#ifdef DISABLE_CURL_SSL_VERIFYPEER
|| (r=curl_easy_setopt(c,CURLOPT_SSL_VERIFYPEER,0))
#endif
;
return r;
}
static size_t _curl_tostring(void *ptr,size_t size,size_t nmemb,void *stream) {
string *str = (string*)stream;
size_t bytes = size*nmemb;
size_t get = min(16384-str->length(),bytes);
str->append((const char*)ptr,get);
return get;
}
assoc_t consumer_t::associate(const string& server) {
util::dh_t dh = DH_new();
if(!dh)
throw exception_openssl(OPKELE_CP_ "failed to DH_new()");
dh->p = util::dec_to_bignum(data::_default_p);
dh->g = util::dec_to_bignum(data::_default_g);
if(!DH_generate_key(dh))
throw exception_openssl(OPKELE_CP_ "failed to DH_generate_key()");
string request =
"openid.mode=associate"
"&openid.assoc_type=HMAC-SHA1"
"&openid.session_type=DH-SHA1"
"&openid.dh_consumer_public=";
request += util::url_encode(util::bignum_to_base64(dh->pub_key));
curl_t curl = curl_easy_init();
if(!curl)
throw exception_curl(OPKELE_CP_ "failed to curl_easy_init()");
string response;
CURLcode r;
(r=curl_misc_sets(curl))
|| (r=curl_easy_setopt(curl,CURLOPT_URL,server.c_str()))
|| (r=curl_easy_setopt(curl,CURLOPT_POST,1))
|| (r=curl_easy_setopt(curl,CURLOPT_POSTFIELDS,request.data()))
|| (r=curl_easy_setopt(curl,CURLOPT_POSTFIELDSIZE,request.length()))
|| (r=curl_easy_setopt(curl,CURLOPT_WRITEFUNCTION,_curl_tostring))
|| (r=curl_easy_setopt(curl,CURLOPT_WRITEDATA,&response))
;
if(r)
throw exception_curl(OPKELE_CP_ "failed to curl_easy_setopt()",r);
if(r=curl_easy_perform(curl))
throw exception_curl(OPKELE_CP_ "failed to curl_easy_perform()",r);
params_t p; p.parse_keyvalues(response);
if(p.has_param("assoc_type") && p.get_param("assoc_type")!="HMAC-SHA1")
throw bad_input(OPKELE_CP_ "unsupported assoc_type");
string st;
if(p.has_param("session_type")) st = p.get_param("session_type");
if((!st.empty()) && st!="DH-SHA1")
throw bad_input(OPKELE_CP_ "unsupported session_type");
secret_t secret;
if(st.empty()) {
secret.from_base64(p.get_param("mac_key"));
}else{
util::bignum_t s_pub = util::base64_to_bignum(p.get_param("dh_server_public"));
- vector<unsigned char> ck(DH_size(dh));
- int cklen = DH_compute_key(&(ck.front()),s_pub,dh);
+ vector<unsigned char> ck(DH_size(dh)+1);
+ unsigned char *ckptr = &(ck.front())+1;
+ int cklen = DH_compute_key(ckptr,s_pub,dh);
if(cklen<0)
throw exception_openssl(OPKELE_CP_ "failed to DH_compute_key()");
- ck.resize(cklen);
- // OpenID algorithm requires extra zero in case of set bit here
- if(ck[0]&0x80) ck.insert(ck.begin(),1,0);
+ if(cklen && (*ckptr)&0x80) {
+ (*(--ckptr)) = 0; ++cklen;
+ }
unsigned char key_sha1[SHA_DIGEST_LENGTH];
- SHA1(&(ck.front()),ck.size(),key_sha1);
+ SHA1(ckptr,cklen,key_sha1);
secret.enxor_from_base64(key_sha1,p.get_param("enc_mac_key"));
}
int expires_in = 0;
if(p.has_param("expires_in")) {
expires_in = util::string_to_long(p.get_param("expires_in"));
}else if(p.has_param("issued") && p.has_param("expiry")) {
expires_in = util::w3c_to_time(p.get_param("expiry"))-util::w3c_to_time(p.get_param("issued"));
}else
throw bad_input(OPKELE_CP_ "no expiration information");
return store_assoc(server,p.get_param("assoc_handle"),secret,expires_in);
}
string consumer_t::checkid_immediate(const string& identity,const string& return_to,const string& trust_root,extension_t *ext) {
return checkid_(mode_checkid_immediate,identity,return_to,trust_root,ext);
}
string consumer_t::checkid_setup(const string& identity,const string& return_to,const string& trust_root,extension_t *ext) {
return checkid_(mode_checkid_setup,identity,return_to,trust_root,ext);
}
string consumer_t::checkid_(mode_t mode,const string& identity,const string& return_to,const string& trust_root,extension_t *ext) {
params_t p;
if(mode==mode_checkid_immediate)
p["mode"]="checkid_immediate";
else if(mode==mode_checkid_setup)
p["mode"]="checkid_setup";
else
throw bad_input(OPKELE_CP_ "unknown checkid_* mode");
string iurl = canonicalize(identity);
string server, delegate;
retrieve_links(iurl,server,delegate);
p["identity"] = delegate.empty()?iurl:delegate;
if(!trust_root.empty())
p["trust_root"] = trust_root;
p["return_to"] = return_to;
try {
string ah = find_assoc(server)->handle();
p["assoc_handle"] = ah;
}catch(failed_lookup& fl) {
string ah = associate(server)->handle();
p["assoc_handle"] = ah;
}
if(ext) ext->checkid_hook(p,identity);
return p.append_query(server);
}
void consumer_t::id_res(const params_t& pin,const string& identity,extension_t *ext) {
if(pin.has_param("openid.user_setup_url"))
throw id_res_setup(OPKELE_CP_ "assertion failed, setup url provided",pin.get_param("openid.user_setup_url"));
string server,delegate;
retrieve_links(identity.empty()?pin.get_param("openid.identity"):canonicalize(identity),server,delegate);
params_t ps;
try {
assoc_t assoc = retrieve_assoc(server,pin.get_param("openid.assoc_handle"));
const string& sigenc = pin.get_param("openid.sig");
vector<unsigned char> sig;
util::decode_base64(sigenc,sig);
const string& slist = pin.get_param("openid.signed");
string kv;
string::size_type p = 0;
while(true) {
string::size_type co = slist.find(',',p);
string f = (co==string::npos)?slist.substr(p):slist.substr(p,co-p);
kv += f;
kv += ':';
f.insert(0,"openid.");
kv += pin.get_param(f);
kv += '\n';
if(ext) ps[f.substr(sizeof("openid.")-1)] = pin.get_param(f);
if(co==string::npos)
break;
p = co+1;
}
secret_t secret = assoc->secret();
unsigned int md_len = 0;
unsigned char *md = HMAC(
EVP_sha1(),
&(secret.front()),secret.size(),
(const unsigned char *)kv.data(),kv.length(),
0,&md_len);
if(sig.size()!=md_len || memcmp(&(sig.front()),md,md_len))
throw id_res_mismatch(OPKELE_CP_ "signature mismatch");
}catch(failed_lookup& e) { /* XXX: more specific? */
const string& slist = pin.get_param("openid.signed");
string::size_type pp = 0;
params_t p;
while(true) {
string::size_type co = slist.find(',',pp);
string f = "openid.";
f += (co==string::npos)?slist.substr(pp):slist.substr(pp,co-pp);
p[f] = pin.get_param(f);
if(co==string::npos)
break;
pp = co+1;
}
p["openid.assoc_handle"] = pin.get_param("openid.assoc_handle");
p["openid.sig"] = pin.get_param("openid.sig");
p["openid.signed"] = pin.get_param("openid.signed");
try {
string ih = pin.get_param("openid.invalidate_handle");
p["openid.invalidate_handle"] = ih;
}catch(failed_lookup& fl) { }
try {
check_authentication(server,p);
}catch(failed_check_authentication& fca) {
throw id_res_failed(OPKELE_CP_ "failed to check_authentication()");
}
}
if(ext) ext->id_res_hook(pin,ps,identity);
}
void consumer_t::check_authentication(const string& server,const params_t& p) {
string request = "openid.mode=check_authentication";
for(params_t::const_iterator i=p.begin();i!=p.end();++i) {
if(i->first!="openid.mode") {
request += '&';
request += i->first;
request += '=';
request += util::url_encode(i->second);
}
}
curl_t curl = curl_easy_init();
if(!curl)
throw exception_curl(OPKELE_CP_ "failed to curl_easy_init()");
string response;
CURLcode r;
(r=curl_misc_sets(curl))
|| (r=curl_easy_setopt(curl,CURLOPT_URL,server.c_str()))
|| (r=curl_easy_setopt(curl,CURLOPT_POST,1))
|| (r=curl_easy_setopt(curl,CURLOPT_POSTFIELDS,request.data()))
|| (r=curl_easy_setopt(curl,CURLOPT_POSTFIELDSIZE,request.length()))
|| (r=curl_easy_setopt(curl,CURLOPT_WRITEFUNCTION,_curl_tostring))
|| (r=curl_easy_setopt(curl,CURLOPT_WRITEDATA,&response))
;
if(r)
throw exception_curl(OPKELE_CP_ "failed to curl_easy_setopt()",r);
if(r=curl_easy_perform(curl))
throw exception_curl(OPKELE_CP_ "failed to curl_easy_perform()",r);
params_t pp; pp.parse_keyvalues(response);
if(pp.has_param("invalidate_handle"))
invalidate_assoc(server,pp.get_param("invalidate_handle"));
if(pp.has_param("is_valid")) {
if(pp.get_param("is_valid")=="true")
return;
}else if(pp.has_param("lifetime")) {
if(util::string_to_long(pp.get_param("lifetime")))
return;
}
throw failed_check_authentication(OPKELE_CP_ "failed to verify response");
}
void consumer_t::retrieve_links(const string& url,string& server,string& delegate) {
server.erase();
delegate.erase();
curl_t curl = curl_easy_init();
if(!curl)
throw exception_curl(OPKELE_CP_ "failed to curl_easy_init()");
string html;
CURLcode r;
(r=curl_misc_sets(curl))
|| (r=curl_easy_setopt(curl,CURLOPT_URL,url.c_str()))
|| (r=curl_easy_setopt(curl,CURLOPT_WRITEFUNCTION,_curl_tostring))
|| (r=curl_easy_setopt(curl,CURLOPT_WRITEDATA,&html))
;
if(r)
throw exception_curl(OPKELE_CP_ "failed to curl_easy_setopt()",r);
r = curl_easy_perform(curl);
if(r && r!=CURLE_WRITE_ERROR)
throw exception_curl(OPKELE_CP_ "failed to curl_easy_perform()",r);
pcrepp::Pcre bre("<body\\b",PCRE_CASELESS);
// strip out everything past body
if(bre.search(html))
html.erase(bre.get_match_start());
pcrepp::Pcre hdre("<head[^>]*>",PCRE_CASELESS);
if(!hdre.search(html))
throw bad_input(OPKELE_CP_ "failed to find head");
html.erase(0,hdre.get_match_end()+1);
pcrepp::Pcre lre("<link\\b([^>]+)>",PCRE_CASELESS),
rre("\\brel=['\"]([^'\"]+)['\"]",PCRE_CASELESS),
hre("\\bhref=['\"]([^'\"]+)['\"]",PCRE_CASELESS);
while(lre.search(html)) {
string attrs = lre[0];
html.erase(0,lre.get_match_end()+1);
if(!(rre.search(attrs)&&hre.search(attrs)))
continue;
if(rre[0]=="openid.server") {
server = hre[0];
if(!delegate.empty())
break;
}else if(rre[0]=="openid.delegate") {
delegate = hre[0];
if(!server.empty())
break;
}
}
if(server.empty())
throw failed_assertion(OPKELE_CP_ "The location has no openid.server declaration");
}
assoc_t consumer_t::find_assoc(const string& server) {
throw failed_lookup(OPKELE_CP_ "no find_assoc() provided");
}
string consumer_t::canonicalize(const string& url) {
string rv = url;
// strip leading and trailing spaces
string::size_type i = rv.find_first_not_of(" \t\r\n");
if(i==string::npos)
throw bad_input(OPKELE_CP_ "empty URL");
if(i)
rv.erase(0,i);
i = rv.find_last_not_of(" \t\r\n");
assert(i!=string::npos);
if(i<(rv.length()-1))
rv.erase(i+1);
// add missing http://
i = rv.find("://");
if(i==string::npos) { // primitive. but do we need more?
rv.insert(0,"http://");
i = sizeof("http://")-1;
}else{
i += sizeof("://")-1;
}
string::size_type qm = rv.find('?',i);
string::size_type sl = rv.find('/',i);
if(qm!=string::npos) {
if(sl==string::npos || sl>qm)
rv.insert(qm,1,'/');
}else{
if(sl==string::npos)
rv += '/';
}
return rv;
}
}
diff --git a/lib/server.cc b/lib/server.cc
index e81d4b6..8db97be 100644
--- a/lib/server.cc
+++ b/lib/server.cc
@@ -1,169 +1,170 @@
#include <vector>
#include <openssl/sha.h>
#include <openssl/hmac.h>
#include <opkele/util.h>
#include <opkele/exception.h>
#include <opkele/server.h>
#include <opkele/data.h>
namespace opkele {
using namespace std;
void server_t::associate(const params_t& pin,params_t& pout) {
util::dh_t dh;
util::bignum_t c_pub;
unsigned char key_sha1[SHA_DIGEST_LENGTH];
enum {
sess_cleartext,
sess_dh_sha1
} st = sess_cleartext;
if(
pin.has_param("openid.session_type")
&& pin.get_param("openid.session_type")=="DH-SHA1" ) {
/* TODO: fallback to cleartext in case of exceptions here? */
if(!(dh = DH_new()))
throw exception_openssl(OPKELE_CP_ "failed to DH_new()");
c_pub = util::base64_to_bignum(pin.get_param("openid.dh_consumer_public"));
if(pin.has_param("openid.dh_modulus"))
dh->p = util::base64_to_bignum(pin.get_param("openid.dh_modulus"));
else
dh->p = util::dec_to_bignum(data::_default_p);
if(pin.has_param("openid.dh_gen"))
dh->g = util::base64_to_bignum(pin.get_param("openid.dh_gen"));
else
dh->g = util::dec_to_bignum(data::_default_g);
if(!DH_generate_key(dh))
throw exception_openssl(OPKELE_CP_ "failed to DH_generate_key()");
- vector<unsigned char> ck(DH_size(dh));
+ vector<unsigned char> ck(DH_size(dh)+1);
+ unsigned char *ckptr = &(ck.front())+1;
int cklen = DH_compute_key(&(ck.front()),c_pub,dh);
if(cklen<0)
throw exception_openssl(OPKELE_CP_ "failed to DH_compute_key()");
- ck.resize(cklen);
- // OpenID algorithm requires extra zero in case of set bit here
- if(ck[0]&0x80) ck.insert(ck.begin(),1,0);
- SHA1(&(ck.front()),ck.size(),key_sha1);
+ if(cklen && (*ckptr)&0x80) {
+ (*(--ckptr)) = 0; ++cklen;
+ }
+ SHA1(ckptr,cklen,key_sha1);
st = sess_dh_sha1;
}
assoc_t assoc = alloc_assoc(mode_associate);
time_t now = time(0);
pout.clear();
pout["assoc_type"] = assoc->assoc_type();
pout["assoc_handle"] = assoc->handle();
/* TODO: eventually remove deprecated stuff */
pout["issued"] = util::time_to_w3c(now);
pout["expiry"] = util::time_to_w3c(now+assoc->expires_in());
pout["expires_in"] = util::long_to_string(assoc->expires_in());
secret_t secret = assoc->secret();
switch(st) {
case sess_dh_sha1:
pout["session_type"] = "DH-SHA1";
pout["dh_server_public"] = util::bignum_to_base64(dh->pub_key);
secret.enxor_to_base64(key_sha1,pout["enc_mac_key"]);
break;
default:
secret.to_base64(pout["mac_key"]);
break;
}
}
void server_t::checkid_immediate(const params_t& pin,string& return_to,params_t& pout,extension_t *ext) {
checkid_(mode_checkid_immediate,pin,return_to,pout,ext);
}
void server_t::checkid_setup(const params_t& pin,string& return_to,params_t& pout,extension_t *ext) {
checkid_(mode_checkid_setup,pin,return_to,pout,ext);
}
void server_t::checkid_(mode_t mode,const params_t& pin,string& return_to,params_t& pout,extension_t *ext) {
if(mode!=mode_checkid_immediate && mode!=mode_checkid_setup)
throw bad_input(OPKELE_CP_ "invalid checkid_* mode");
pout.clear();
assoc_t assoc;
try {
assoc = retrieve_assoc(pin.get_param("openid.assoc_handle"));
}catch(failed_lookup& fl) {
// no handle specified or no valid handle found, going dumb
assoc = alloc_assoc(mode_checkid_setup);
if(pin.has_param("openid.assoc_handle"))
pout["invalidate_handle"]=pin.get_param("openid.assoc_handle");
}
string trust_root;
try {
trust_root = pin.get_param("openid.trust_root");
}catch(failed_lookup& fl) { }
string identity = pin.get_param("openid.identity");
return_to = pin.get_param("openid.return_to");
validate(*assoc,pin,identity,trust_root);
pout["mode"] = "id_res";
pout["assoc_handle"] = assoc->handle();
if(pin.has_param("openid.assoc_handle") && assoc->stateless())
pout["invalidate_handle"] = pin.get_param("openid.assoc_handle");
pout["identity"] = identity;
pout["return_to"] = return_to;
/* TODO: eventually remove deprecated stuff */
time_t now = time(0);
pout["issued"] = util::time_to_w3c(now);
pout["valid_to"] = util::time_to_w3c(now+120);
pout["exipres_in"] = "120";
pout["signed"]="mode,identity,return_to";
if(ext) ext->checkid_hook(pin,pout);
pout.sign(assoc->secret(),pout["sig"],pout["signed"]);
}
void server_t::check_authentication(const params_t& pin,params_t& pout) {
vector<unsigned char> sig;
const string& sigenc = pin.get_param("openid.sig");
util::decode_base64(sigenc,sig);
assoc_t assoc;
try {
assoc = retrieve_assoc(pin.get_param("openid.assoc_handle"));
}catch(failed_lookup& fl) {
throw failed_assertion(OPKELE_CP_ "invalid handle or handle not specified");
}
if(!assoc->stateless())
throw stateful_handle(OPKELE_CP_ "will not do check_authentication on a stateful handle");
const string& slist = pin.get_param("openid.signed");
string kv;
string::size_type p =0;
while(true) {
string::size_type co = slist.find(',',p);
string f = (co==string::npos)?slist.substr(p):slist.substr(p,co-p);
kv += f;
kv += ':';
if(f=="mode")
kv += "id_res";
else {
f.insert(0,"openid.");
kv += pin.get_param(f);
}
kv += '\n';
if(co==string::npos)
break;
p = co+1;
}
secret_t secret = assoc->secret();
unsigned int md_len = 0;
unsigned char *md = HMAC(
EVP_sha1(),
&(secret.front()),secret.size(),
(const unsigned char *)kv.data(),kv.length(),
0,&md_len);
pout.clear();
if(sig.size()==md_len && !memcmp(&(sig.front()),md,md_len)) {
pout["is_valid"]="true";
pout["lifetime"]="60"; /* TODO: eventually remove deprecated stuff */
}else{
pout["is_valid"]="false";
pout["lifetime"]="0"; /* TODO: eventually remove deprecated stuff */
}
if(pin.has_param("openid.invalidate_handle")) {
string h = pin.get_param("openid.invalidate_handle");
try {
assoc_t assoc = retrieve_assoc(h);
}catch(invalid_handle& ih) {
pout["invalidate_handle"] = h;
}catch(failed_lookup& fl) { }
}
}
}
diff --git a/lib/util.cc b/lib/util.cc
index d9abca7..94f6f53 100644
--- a/lib/util.cc
+++ b/lib/util.cc
@@ -1,158 +1,162 @@
#include <errno.h>
#include <cassert>
#include <vector>
#include <string>
#include <openssl/bio.h>
#include <openssl/evp.h>
#include <curl/curl.h>
#include "opkele/util.h"
#include "opkele/exception.h"
namespace opkele {
using namespace std;
namespace util {
/*
* base64
*/
string encode_base64(const void *data,size_t length) {
BIO *b64 = 0, *bmem = 0;
try {
b64 = BIO_new(BIO_f_base64());
if(!b64)
throw exception_openssl(OPKELE_CP_ "failed to BIO_new() base64 encoder");
BIO_set_flags(b64,BIO_FLAGS_BASE64_NO_NL);
bmem = BIO_new(BIO_s_mem());
BIO_set_flags(b64,BIO_CLOSE);
if(!bmem)
throw exception_openssl(OPKELE_CP_ "failed to BIO_new() memory buffer");
BIO_push(b64,bmem);
if(BIO_write(b64,data,length)!=length)
throw exception_openssl(OPKELE_CP_ "failed to BIO_write()");
BIO_flush(b64);
char *rvd;
long rvl = BIO_get_mem_data(bmem,&rvd);
string rv(rvd,rvl);
BIO_free_all(b64);
return rv;
}catch(...) {
if(b64) BIO_free_all(b64);
throw;
}
}
void decode_base64(const string& data,vector<unsigned char>& rv) {
BIO *b64 = 0, *bmem = 0;
rv.clear();
try {
bmem = BIO_new_mem_buf((void*)data.data(),data.size());
if(!bmem)
throw exception_openssl(OPKELE_CP_ "failed to BIO_new_mem_buf()");
b64 = BIO_new(BIO_f_base64());
if(!b64)
throw exception_openssl(OPKELE_CP_ "failed to BIO_new() base64 decoder");
BIO_set_flags(b64,BIO_FLAGS_BASE64_NO_NL);
BIO_push(b64,bmem);
unsigned char tmp[512];
size_t rb = 0;
while((rb=BIO_read(b64,tmp,sizeof(tmp)))>0)
rv.insert(rv.end(),tmp,&tmp[rb]);
BIO_free_all(b64);
}catch(...) {
if(b64) BIO_free_all(b64);
throw;
}
}
/*
* big numerics
*/
BIGNUM *base64_to_bignum(const string& b64) {
vector<unsigned char> bin;
decode_base64(b64,bin);
BIGNUM *rv = BN_bin2bn(&(bin.front()),bin.size(),0);
if(!rv)
throw failed_conversion(OPKELE_CP_ "failed to BN_bin2bn()");
return rv;
}
BIGNUM *dec_to_bignum(const string& dec) {
BIGNUM *rv = 0;
if(!BN_dec2bn(&rv,dec.c_str()))
throw failed_conversion(OPKELE_CP_ "failed to BN_dec2bn()");
return rv;
}
string bignum_to_base64(const BIGNUM *bn) {
- vector<unsigned char> bin(BN_num_bytes(bn));
- int l = BN_bn2bin(bn,&(bin.front()));
- return encode_base64(&(bin.front()),l);
+ vector<unsigned char> bin(BN_num_bytes(bn)+1);
+ unsigned char *binptr = &(bin.front())+1;
+ int l = BN_bn2bin(bn,binptr);
+ if(l && (*binptr)&0x80){
+ (*(--binptr)) = 0; ++l;
+ }
+ return encode_base64(binptr,l);
}
/*
* w3c times
*/
string time_to_w3c(time_t t) {
struct tm tm_t;
if(!gmtime_r(&t,&tm_t))
throw failed_conversion(OPKELE_CP_ "failed to BN_dec2bn()");
char rv[25];
if(!strftime(rv,sizeof(rv)-1,"%Y-%m-%dT%H:%M:%SZ",&tm_t))
throw failed_conversion(OPKELE_CP_ "failed to strftime()");
return rv;
}
time_t w3c_to_time(const string& w) {
struct tm tm_t;
memset(&tm_t,0,sizeof(tm_t));
if(
sscanf(
w.c_str(),
"%04d-%02d-%02dT%02d:%02d:%02dZ",
&tm_t.tm_year,&tm_t.tm_mon,&tm_t.tm_mday,
&tm_t.tm_hour,&tm_t.tm_min,&tm_t.tm_sec
) != 6 )
throw failed_conversion(OPKELE_CP_ "failed to sscanf()");
tm_t.tm_mon--;
tm_t.tm_year-=1900;
time_t rv = mktime(&tm_t);
if(rv==(time_t)-1)
throw failed_conversion(OPKELE_CP_ "failed to mktime()");
return rv;
}
/*
*
*/
string url_encode(const string& str) {
char * t = curl_escape(str.c_str(),str.length());
if(!t)
throw failed_conversion(OPKELE_CP_ "failed to curl_escape()");
string rv(t);
curl_free(t);
return rv;
}
string long_to_string(long l) {
char rv[32];
int r=snprintf(rv,sizeof(rv),"%ld",l);
if(r<0 || r>=sizeof(rv))
throw failed_conversion(OPKELE_CP_ "failed to snprintf()");
return rv;
}
long string_to_long(const string& s) {
char *endptr = 0;
long rv = strtol(s.c_str(),&endptr,10);
if((!endptr) || endptr==s.c_str())
throw failed_conversion(OPKELE_CP_ "failed to strtol()");
return rv;
}
}
}