-rw-r--r-- | lib/basic_rp.cc | 10 |
1 files changed, 6 insertions, 4 deletions
diff --git a/lib/basic_rp.cc b/lib/basic_rp.cc index bd45d99..a0ad130 100644 --- a/lib/basic_rp.cc +++ b/lib/basic_rp.cc @@ -1,297 +1,299 @@ +#include <cassert> #include <openssl/sha.h> #include <openssl/hmac.h> #include <opkele/basic_rp.h> #include <opkele/exception.h> #include <opkele/uris.h> #include <opkele/data.h> #include <opkele/util.h> #include <opkele/curl.h> namespace opkele { static void dh_get_secret( secret_t& secret, const basic_openid_message& om, const char *exp_assoc, const char *exp_sess, util::dh_t& dh, size_t d_len, unsigned char *(*d_fun)(const unsigned char*,size_t,unsigned char*), size_t exp_s_len) try { if(om.get_field("assoc_type")!=exp_assoc || om.get_field("session_type")!=exp_sess) throw bad_input(OPKELE_CP_ "Unexpected associate response"); util::bignum_t s_pub = util::base64_to_bignum(om.get_field("dh_server_public")); 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()"); if(cklen && (*ckptr)&0x80) { (*(--ckptr))=0; ++cklen; } - unsigned char key_digest[d_len]; + assert(d_len<=SHA256_DIGEST_LENGTH); + unsigned char key_digest[SHA256_DIGEST_LENGTH]; secret.enxor_from_base64((*d_fun)(ckptr,cklen,key_digest),om.get_field("enc_mac_key")); if(secret.size()!=exp_s_len) throw bad_input(OPKELE_CP_ "Secret length isn't consistent with association type"); }catch(opkele::failed_lookup& ofl) { throw bad_input(OPKELE_CP_ "Incoherent response from OP"); } OPKELE_RETHROW static void direct_request(basic_openid_message& oum,const basic_openid_message& inm,const string& OP) { util::curl_pick_t curl = util::curl_pick_t::easy_init(); if(!curl) throw exception_curl(OPKELE_CP_ "failed to initialize curl"); string request = inm.query_string(); CURLcode r; (r=curl.misc_sets()) || (r=curl.easy_setopt(CURLOPT_URL,OP.c_str())) || (r=curl.easy_setopt(CURLOPT_POST,1)) || (r=curl.easy_setopt(CURLOPT_POSTFIELDS,request.data())) || (r=curl.easy_setopt(CURLOPT_POSTFIELDSIZE,request.length())) || (r=curl.set_write()); if(r) throw exception_curl(OPKELE_CP_ "failed to set curly options",r); if( (r=curl.easy_perform()) ) throw exception_curl(OPKELE_CP_ "failed to perform curly request",r); oum.from_keyvalues(curl.response); } assoc_t basic_RP::associate(const string& OP) { 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()"); openid_message_t req; req.set_field("ns",OIURI_OPENID20); req.set_field("mode","associate"); req.set_field("dh_modulus",util::bignum_to_base64(dh->p)); req.set_field("dh_gen",util::bignum_to_base64(dh->g)); req.set_field("dh_consumer_public",util::bignum_to_base64(dh->pub_key)); openid_message_t res; req.set_field("assoc_type","HMAC-SHA256"); req.set_field("session_type","DH-SHA256"); secret_t secret; int expires_in; try { direct_request(res,req,OP); dh_get_secret( secret, res, "HMAC-SHA256", "DH-SHA256", dh, SHA256_DIGEST_LENGTH, SHA256, SHA256_DIGEST_LENGTH ); expires_in = util::string_to_long(res.get_field("expires_in")); - }catch(exception& e) { + }catch(exception&) { try { req.set_field("assoc_type","HMAC-SHA1"); req.set_field("session_type","DH-SHA1"); direct_request(res,req,OP); dh_get_secret( secret, res, "HMAC-SHA1", "DH-SHA1", dh, SHA_DIGEST_LENGTH, SHA1, SHA_DIGEST_LENGTH ); expires_in = util::string_to_long(res.get_field("expires_in")); - }catch(bad_input& e) { + }catch(bad_input&) { throw dumb_RP(OPKELE_CP_ "OP failed to supply an association"); } } return store_assoc( OP, res.get_field("assoc_handle"), res.get_field("assoc_type"), secret, expires_in ); } basic_openid_message& basic_RP::checkid_( basic_openid_message& rv, mode_t mode, const string& return_to,const string& realm, extension_t *ext) { rv.reset_fields(); rv.set_field("ns",OIURI_OPENID20); if(mode==mode_checkid_immediate) rv.set_field("mode","checkid_immediate"); else if(mode==mode_checkid_setup) rv.set_field("mode","checkid_setup"); else throw bad_input(OPKELE_CP_ "unknown checkid_* mode"); if(realm.empty() && return_to.empty()) throw bad_input(OPKELE_CP_ "At least one of realm and return_to must be non-empty"); if(!realm.empty()) { rv.set_field("realm",realm); rv.set_field("trust_root",realm); } if(!return_to.empty()) rv.set_field("return_to",return_to); const openid_endpoint_t& ep = get_endpoint(); rv.set_field("claimed_id",ep.claimed_id); rv.set_field("identity",ep.local_id); try { rv.set_field("assoc_handle",find_assoc(ep.uri)->handle()); }catch(dumb_RP& drp) { }catch(failed_lookup& fl) { try { rv.set_field("assoc_handle",associate(ep.uri)->handle()); }catch(dumb_RP& drp) { } } OPKELE_RETHROW if(ext) ext->rp_checkid_hook(rv); return rv; } class signed_part_message_proxy : public basic_openid_message { public: const basic_openid_message& x; set<string> signeds; signed_part_message_proxy(const basic_openid_message& xx) : x(xx) { const string& slist = x.get_field("signed"); 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); signeds.insert(f); if(co==string::npos) break; p = co+1; } } bool has_field(const string& n) const { return signeds.find(n)!=signeds.end() && x.has_field(n); } const string& get_field(const string& n) const { if(signeds.find(n)==signeds.end()) throw failed_lookup(OPKELE_CP_ "The field isn't known to be signed"); return x.get_field(n); } fields_iterator fields_begin() const { return signeds.begin(); } fields_iterator fields_end() const { return signeds.end(); } }; static void parse_query(const string& u,string::size_type q, map<string,string>& p) { if(q==string::npos) return; assert(u[q]=='?'); ++q; string::size_type l = u.size(); while(q<l) { string::size_type eq = u.find('=',q); string::size_type am = u.find('&',q); if(am==string::npos) { if(eq==string::npos) { p[""] = u.substr(q); }else{ p[u.substr(q,eq-q)] = u.substr(eq+1); } break; }else{ if(eq==string::npos || eq>am) { p[""] = u.substr(q,eq-q); }else{ p[u.substr(q,eq-q)] = u.substr(eq+1,am-eq-1); } q = ++am; } } } void basic_RP::id_res(const basic_openid_message& om,extension_t *ext) { bool o2 = om.has_field("ns") && om.get_field("ns")==OIURI_OPENID20; if( (!o2) && om.has_field("user_setup_url")) throw id_res_setup(OPKELE_CP_ "assertion failed, setup url provided", om.get_field("user_setup_url")); string m = om.get_field("mode"); if(o2 && m=="setup_needed") throw id_res_setup(OPKELE_CP_ "setup needed, no setup url provided"); if(m=="cancel") throw id_res_cancel(OPKELE_CP_ "authentication cancelled"); bool go_dumb=false; try { string OP = o2 ?om.get_field("op_endpoint") :get_endpoint().uri; assoc_t assoc = retrieve_assoc( OP,om.get_field("assoc_handle")); if(om.get_field("sig")!=util::base64_signature(assoc,om)) throw id_res_mismatch(OPKELE_CP_ "signature mismatch"); }catch(dumb_RP& drp) { go_dumb=true; }catch(failed_lookup& e) { go_dumb=true; } OPKELE_RETHROW if(go_dumb) { try { string OP = o2 ?om.get_field("op_endpoint") :get_endpoint().uri; check_authentication(OP,om); }catch(failed_check_authentication& fca) { throw id_res_failed(OPKELE_CP_ "failed to check_authentication()"); } OPKELE_RETHROW } signed_part_message_proxy signeds(om); if(o2) { check_nonce(om.get_field("op_endpoint"), om.get_field("response_nonce")); static const char *mustsign[] = { "op_endpoint", "return_to", "response_nonce", "assoc_handle", "claimed_id", "identity" }; - for(int ms=0;ms<(sizeof(mustsign)/sizeof(*mustsign));++ms) { + for(size_t ms=0;ms<(sizeof(mustsign)/sizeof(*mustsign));++ms) { if(om.has_field(mustsign[ms]) && !signeds.has_field(mustsign[ms])) throw bad_input(OPKELE_CP_ string("Field '")+mustsign[ms]+"' is not signed against the specs"); } if( ( (om.has_field("claimed_id")?1:0) ^ (om.has_field("identity")?1:0) )&1 ) throw bad_input(OPKELE_CP_ "claimed_id and identity must be either both present or both absent"); string turl = util::rfc_3986_normalize_uri(get_this_url()); util::strip_uri_fragment_part(turl); string rurl = util::rfc_3986_normalize_uri(om.get_field("return_to")); util::strip_uri_fragment_part(rurl); string::size_type tq = turl.find('?'), rq = rurl.find('?'); if( ((tq==string::npos)?turl:turl.substr(0,tq)) != ((rq==string::npos)?rurl:rurl.substr(0,rq)) ) throw id_res_bad_return_to(OPKELE_CP_ "return_to url doesn't match request url"); map<string,string> tp; parse_query(turl,tq,tp); map<string,string> rp; parse_query(rurl,rq,rp); for(map<string,string>::const_iterator rpi=rp.begin();rpi!=rp.end();++rpi) { map<string,string>::const_iterator tpi = tp.find(rpi->first); if(tpi==tp.end()) throw id_res_bad_return_to(OPKELE_CP_ string("Parameter '")+rpi->first+"' from return_to is missing from the request"); if(tpi->second!=rpi->second) throw id_res_bad_return_to(OPKELE_CP_ string("Parameter '")+rpi->first+"' from return_to doesn't matche the request"); } if(om.has_field("claimed_id")) { verify_OP( om.get_field("op_endpoint"), om.get_field("claimed_id"), om.get_field("identity") ); } } if(ext) ext->rp_id_res_hook(om,signeds); } void basic_RP::check_authentication(const string& OP, const basic_openid_message& om){ openid_message_t res; static const string checkauthmode = "check_authentication"; direct_request(res,util::change_mode_message_proxy(om,checkauthmode),OP); if(res.has_field("is_valid")) { if(res.get_field("is_valid")=="true") { if(res.has_field("invalidate_handle")) invalidate_assoc(OP,res.get_field("invalidate_handle")); return; } } throw failed_check_authentication( OPKELE_CP_ "failed to verify response"); } } |