author | Michael Krelin <hacker@klever.net> | 2008-02-08 21:02:26 (UTC) |
---|---|---|
committer | Michael Krelin <hacker@klever.net> | 2008-02-08 21:02:26 (UTC) |
commit | 9e902e373ba72fd8725c5a1ffdfdc0447b664369 (patch) (side-by-side diff) | |
tree | 5006b406209f13f684fbce235e470252386da818 | |
parent | a62ccf212acb27a092a48d3af8ee0bfb3efdb666 (diff) | |
download | libopkele-9e902e373ba72fd8725c5a1ffdfdc0447b664369.zip libopkele-9e902e373ba72fd8725c5a1ffdfdc0447b664369.tar.gz libopkele-9e902e373ba72fd8725c5a1ffdfdc0447b664369.tar.bz2 |
renamed basic_op class to basic_OP
and doxygenated basic_OP a bit.
Signed-off-by: Michael Krelin <hacker@klever.net>
-rw-r--r-- | include/opkele/basic_op.h | 119 | ||||
-rw-r--r-- | include/opkele/verify_op.h | 2 | ||||
-rw-r--r-- | lib/basic_op.cc | 38 | ||||
-rw-r--r-- | lib/verify_op.cc | 2 | ||||
-rw-r--r-- | test/OP.cc | 2 |
5 files changed, 134 insertions, 29 deletions
diff --git a/include/opkele/basic_op.h b/include/opkele/basic_op.h index 5bba1bf..4daed02 100644 --- a/include/opkele/basic_op.h +++ b/include/opkele/basic_op.h @@ -1,69 +1,174 @@ #ifndef __OPKELE_BASIC_OP_H #define __OPKELE_BASIC_OP_H #include <string> #include <opkele/types.h> #include <opkele/extension.h> namespace opkele { using std::string; - class basic_op { + class basic_OP { public: mode_t mode; assoc_t assoc; bool openid2; string return_to; string realm; string claimed_id; string identity; string invalidate_handle; void reset_vars(); bool has_return_to() const; const string& get_return_to() const; const string& get_realm() const; bool has_identity() const; const string& get_claimed_id() const; const string& get_identity() const; bool is_id_select() const; void select_identity(const string& c,const string& i); void set_claimed_id(const string& c); + /** @name OpenID operations + * @{ + */ + /** + * Establish association with RP + * @param oum reply message + * @param inm request message + */ basic_openid_message& associate( basic_openid_message& oum, const basic_openid_message& inm); + /** + * Parse the checkid_* request. The function parses input message, + * retrieves the information needed for further processing, + * verifies what can be verified at this stage. + * @param inm incoming OpenID message + * @param ext extension/chain of extensions supported + */ void checkid_(const basic_openid_message& inm,extension_t *ext=0); + /** + * Build and sign a positive assertion message + * @param om outpu OpenID message + * @param ext extension/chain of extensions supported + * @return reference to om + */ basic_openid_message& id_res(basic_openid_message& om, extension_t *ext=0); + /** + * Build a 'cancel' negative assertion + * @param om output OpenID message + * @return reference to om + */ basic_openid_message& cancel(basic_openid_message& om); + /** + * Build an 'error' reply + * @param om output OpenID message + * @param error a human-readable message indicating the cause + * @param contact contact address for the server administrator (can be empty) + * @param reference a reference token (can be empty) + * @return reference to om + */ basic_openid_message& error(basic_openid_message& om, const string& error,const string& contact, const string& reference ); + /** + * Build a setup_needed reply to checkid_immediate request + * @param oum output OpenID message + * @param inm incoming OpenID request being processed + * @return reference to oum + */ basic_openid_message& setup_needed( basic_openid_message& oum,const basic_openid_message& inm); + /** + * Process check_authentication request + * @param oum output OpenID message + * @param inm incoming request + * @return reference to oum + */ basic_openid_message& check_authentication( basic_openid_message& oum,const basic_openid_message& inm); - + /** + * @} + */ + + /** + * Verify return_to url. The default implementation checks whether + * return_to URI matches the realm + * @throw bad_realm in case of invalid realm + * @throw bad_return_to if return_to doesn't match the realm + * @see verify_op::verify_return_to() + */ virtual void verify_return_to(); - virtual assoc_t alloc_assoc(const string& t,size_t kl,bool sl) = 0; - virtual assoc_t retrieve_assoc(const string& h) = 0; - - virtual string& alloc_nonce(string& nonce,bool sl) = 0; + /** + * @name Global persistent store API + * These functions are related to the associations with RPs storage + * and retrieval and nonce management. + * @{ + */ + /** + * Allocate association. + * @param type association type + * @param kl association key length + * @param sl true if the association is stateless + * @return association object + */ + virtual assoc_t alloc_assoc(const string& type,size_t kl,bool sl) = 0; + /** + * Retrieve valid unexpired association + * @param handle association handle + * @return association object + */ + virtual assoc_t retrieve_assoc(const string& handle) = 0; + /** + * Allocate nonce. + * @param nonce input-output parameter containing timestamp part of + * the nonce on input + * @param sl true if the nonce is + * @return reference to nonce + * @throw failed_lookup if no such valid unexpired association + * could be retrieved + */ + virtual string& alloc_nonce(string& nonce) = 0; + /** + * Check nonce validity + * @param nonce nonce to check + * @return true if nonce found and isn't yet invalidated + */ virtual bool check_nonce(const string& nonce) = 0; + /** + * Invalidate nonce + * @param nonce nonce to check + */ virtual void invalidate_nonce(const string& nonce) = 0; - + /** + * @} + */ + + /** + * @name Site particulars API + * @{ + */ + /** + * Query the absolute URL of the op endpoint + * @return fully qualified url of the OP endpoint + */ virtual const string get_op_endpoint() const = 0; + /** + * @} + */ }; } #endif /* __OPKELE_BASIC_OP_H */ diff --git a/include/opkele/verify_op.h b/include/opkele/verify_op.h index f5c97b2..6c3c386 100644 --- a/include/opkele/verify_op.h +++ b/include/opkele/verify_op.h @@ -1,16 +1,16 @@ #ifndef __OPKELE_VERIFY_OP_H #define __OPKELE_VERIFY_OP_H #include <opkele/basic_op.h> namespace opkele { - class verify_op : public basic_op { + class verify_op : public basic_OP { public: void verify_return_to(); }; } #endif /* __OPKELE_VERIFY_OP_H */ diff --git a/lib/basic_op.cc b/lib/basic_op.cc index 7a2dbd2..18446dc 100644 --- a/lib/basic_op.cc +++ b/lib/basic_op.cc @@ -1,330 +1,330 @@ #include <time.h> #include <cassert> #include <openssl/sha.h> #include <openssl/hmac.h> #include <opkele/data.h> #include <opkele/basic_op.h> #include <opkele/exception.h> #include <opkele/util.h> #include <opkele/uris.h> namespace opkele { - void basic_op::reset_vars() { + void basic_OP::reset_vars() { assoc.reset(); return_to.clear(); realm.clear(); claimed_id.clear(); identity.clear(); invalidate_handle.clear(); } - bool basic_op::has_return_to() const { + bool basic_OP::has_return_to() const { return !return_to.empty(); } - const string& basic_op::get_return_to() const { + const string& basic_OP::get_return_to() const { if(return_to.empty()) throw no_return_to(OPKELE_CP_ "No return_to URL provided with request"); return return_to; } - const string& basic_op::get_realm() const { + const string& basic_OP::get_realm() const { assert(!realm.empty()); return realm; } - bool basic_op::has_identity() const { + bool basic_OP::has_identity() const { return !identity.empty(); } - const string& basic_op::get_claimed_id() const { + const string& basic_OP::get_claimed_id() const { if(claimed_id.empty()) throw non_identity(OPKELE_CP_ "attempting to retrieve claimed_id of non-identity related request"); assert(!identity.empty()); return claimed_id; } - const string& basic_op::get_identity() const { + const string& basic_OP::get_identity() const { if(identity.empty()) throw non_identity(OPKELE_CP_ "attempting to retrieve identity of non-identity related request"); assert(!claimed_id.empty()); return identity; } - bool basic_op::is_id_select() const { + bool basic_OP::is_id_select() const { return identity==IDURI_SELECT20; } - void basic_op::select_identity(const string& c,const string& i) { + void basic_OP::select_identity(const string& c,const string& i) { claimed_id = c; identity = i; } - void basic_op::set_claimed_id(const string& c) { + void basic_OP::set_claimed_id(const string& c) { claimed_id = c; } - basic_openid_message& basic_op::associate( + basic_openid_message& basic_OP::associate( basic_openid_message& oum, const basic_openid_message& inm) try { assert(inm.get_field("mode")=="associate"); util::dh_t dh; util::bignum_t c_pub; unsigned char key_digest[SHA256_DIGEST_LENGTH]; size_t d_len = 0; enum { sess_cleartext, sess_dh_sha1, sess_dh_sha256 } st = sess_cleartext; string sts = inm.get_field("session_type"); string ats = inm.get_field("assoc_type"); if(sts=="DH-SHA1" || sts=="DH-SHA256") { if(!(dh = DH_new())) throw exception_openssl(OPKELE_CP_ "failed to DH_new()"); c_pub = util::base64_to_bignum(inm.get_field("dh_consumer_public")); try { dh->p = util::base64_to_bignum(inm.get_field("dh_modulus")); }catch(failed_lookup&) { dh->p = util::dec_to_bignum(data::_default_p); } try { dh->g = util::base64_to_bignum(inm.get_field("dh_gen")); }catch(failed_lookup&) { 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)+1); unsigned char *ckptr = &(ck.front())+1; int cklen = DH_compute_key(ckptr,c_pub,dh); if(cklen<0) throw exception_openssl(OPKELE_CP_ "failed to DH_compute_key()"); if(cklen && (*ckptr)&0x80) { (*(--ckptr)) = 0; ++cklen; } if(sts=="DH-SHA1") { SHA1(ckptr,cklen,key_digest); d_len = SHA_DIGEST_LENGTH; }else if(sts=="DH-SHA256") { SHA256(ckptr,cklen,key_digest); d_len = SHA256_DIGEST_LENGTH; }else throw internal_error(OPKELE_CP_ "I thought I knew the session type"); }else throw unsupported(OPKELE_CP_ "Unsupported session_type"); assoc_t assoc; if(ats=="HMAC-SHA1") assoc = alloc_assoc(ats,SHA_DIGEST_LENGTH,true); else if(ats=="HMAC-SHA256") assoc = alloc_assoc(ats,SHA256_DIGEST_LENGTH,true); else throw unsupported(OPKELE_CP_ "Unsupported assoc_type"); oum.reset_fields(); oum.set_field("ns",OIURI_OPENID20); oum.set_field("assoc_type",assoc->assoc_type()); oum.set_field("assoc_handle",assoc->handle()); oum.set_field("expires_in",util::long_to_string(assoc->expires_in())); secret_t secret = assoc->secret(); if(sts=="DH-SHA1" || sts=="DH-SHA256") { if(d_len != secret.size()) throw bad_input(OPKELE_CP_ "Association secret and session MAC are not of the same size"); oum.set_field("session_type",sts); oum.set_field("dh_server_public",util::bignum_to_base64(dh->pub_key)); string b64; secret.enxor_to_base64(key_digest,b64); oum.set_field("enc_mac_key",b64); }else /* TODO: support cleartext over encrypted connection */ throw unsupported(OPKELE_CP_ "Unsupported session type"); return oum; } catch(unsupported& u) { oum.reset_fields(); oum.set_field("ns",OIURI_OPENID20); oum.set_field("error",u.what()); oum.set_field("error_code","unsupported-type"); oum.set_field("session_type","DH-SHA256"); oum.set_field("assoc_type","HMAC-SHA256"); return oum; } - void basic_op::checkid_(const basic_openid_message& inm, + void basic_OP::checkid_(const basic_openid_message& inm, extension_t *ext) { reset_vars(); string mode = inm.get_field("mode"); if(mode=="checkid_setup") mode = mode_checkid_setup; else if(mode=="checkid_immediate") mode = mode_checkid_immediate; else throw bad_input(OPKELE_CP_ "Invalid checkid_* mode"); try { assoc = retrieve_assoc(invalidate_handle=inm.get_field("assoc_handle")); invalidate_handle.clear(); }catch(failed_lookup&) { } try { openid2 = (inm.get_field("ns")==OIURI_OPENID20); }catch(failed_lookup&) { openid2 = false; } try { return_to = inm.get_field("return_to"); }catch(failed_lookup&) { } if(openid2) { try { realm = inm.get_field("realm"); }catch(failed_lookup&) { try { realm = inm.get_field("trust_root"); }catch(failed_lookup&) { if(return_to.empty()) throw bad_input(OPKELE_CP_ "Both realm and return_to are unset"); realm = return_to; } } }else{ try { realm = inm.get_field("trust_root"); }catch(failed_lookup&) { if(return_to.empty()) throw bad_input(OPKELE_CP_ "Both realm and return_to are unset"); realm = return_to; } } try { identity = inm.get_field("identity"); try { claimed_id = inm.get_field("claimed_id"); }catch(failed_lookup&) { if(openid2) throw bad_input(OPKELE_CP_ "claimed_id and identity must be either both present or both absent"); claimed_id = identity; } }catch(failed_lookup&) { if(openid2 && inm.has_field("claimed_id")) throw bad_input(OPKELE_CP_ "claimed_id and identity must be either both present or both absent"); } verify_return_to(); if(ext) ext->op_checkid_hook(inm); } - basic_openid_message& basic_op::id_res(basic_openid_message& om, + basic_openid_message& basic_OP::id_res(basic_openid_message& om, extension_t *ext) { assert(!return_to.empty()); assert(!is_id_select()); if(!assoc) { assoc = alloc_assoc("HMAC-SHA256",SHA256_DIGEST_LENGTH,true); } time_t now = time(0); struct tm gmt; gmtime_r(&now,&gmt); char w3timestr[24]; if(!strftime(w3timestr,sizeof(w3timestr),"%Y-%m-%dT%H:%M:%SZ",&gmt)) throw failed_conversion(OPKELE_CP_ "Failed to build time string for nonce" ); om.set_field("ns",OIURI_OPENID20); om.set_field("mode","id_res"); om.set_field("op_endpoint",get_op_endpoint()); string ats = "ns,mode,op_endpoint,return_to,response_nonce," "assoc_handle,signed"; if(!identity.empty()) { om.set_field("identity",identity); om.set_field("claimed_id",claimed_id); ats += ",identity,claimed_id"; } om.set_field("return_to",return_to); string nonce = w3timestr; - om.set_field("response_nonce",alloc_nonce(nonce,assoc->stateless())); + om.set_field("response_nonce",alloc_nonce(nonce)); if(!invalidate_handle.empty()) { om.set_field("invalidate_handle",invalidate_handle); ats += ",invalidate_handle"; } om.set_field("assoc_handle",assoc->handle()); om.add_to_signed(ats); if(ext) ext->op_id_res_hook(om); om.set_field("sig",util::base64_signature(assoc,om)); return om; } - basic_openid_message& basic_op::cancel(basic_openid_message& om) { + basic_openid_message& basic_OP::cancel(basic_openid_message& om) { assert(!return_to.empty()); om.set_field("ns",OIURI_OPENID20); om.set_field("mode","cancel"); return om; } - basic_openid_message& basic_op::error(basic_openid_message& om, + basic_openid_message& basic_OP::error(basic_openid_message& om, const string& error,const string& contact, const string& reference ) { assert(!return_to.empty()); om.set_field("ns",OIURI_OPENID20); om.set_field("mode","error"); om.set_field("error",error); om.set_field("contact",contact); om.set_field("reference",reference); return om; } - basic_openid_message& basic_op::setup_needed( + basic_openid_message& basic_OP::setup_needed( basic_openid_message& oum,const basic_openid_message& inm) { assert(mode==mode_checkid_immediate); assert(!return_to.empty()); if(openid2) { oum.set_field("ns",OIURI_OPENID20); oum.set_field("mode","setup_needed"); }else{ oum.set_field("mode","id_res"); static const string setupmode = "checkid_setup"; oum.set_field("user_setup_url", util::change_mode_message_proxy(inm,setupmode) .append_query(get_op_endpoint())); } return oum; } - basic_openid_message& basic_op::check_authentication( + basic_openid_message& basic_OP::check_authentication( basic_openid_message& oum, const basic_openid_message& inm) try { assert(inm.get_field("mode")=="check_authentication"); oum.reset_fields(); oum.set_field("ns",OIURI_OPENID20); bool o2; try { o2 = (inm.get_field("ns")==OIURI_OPENID20); }catch(failed_lookup&) { o2 = false; } string nonce; if(o2) { try { if(!check_nonce(nonce = inm.get_field("response_nonce"))) throw failed_check_authentication(OPKELE_CP_ "Invalid nonce"); }catch(failed_lookup&) { throw failed_check_authentication(OPKELE_CP_ "No nonce provided with check_authentication request"); } } try { assoc = retrieve_assoc(inm.get_field("assoc_handle")); if(!assoc->stateless()) throw failed_check_authentication(OPKELE_CP_ "Will not do check_authentication on a stateful handle"); }catch(failed_lookup&) { throw failed_check_authentication(OPKELE_CP_ "No assoc_handle or invalid assoc_handle specified with check_authentication request"); } static const string idresmode = "id_res"; try { if(util::base64_signature(assoc,util::change_mode_message_proxy(inm,idresmode))!=inm.get_field("sig")) throw failed_check_authentication(OPKELE_CP_ "Signature mismatch"); }catch(failed_lookup&) { throw failed_check_authentication(OPKELE_CP_ "failed to calculate signature"); } oum.set_field("is_valid","true"); try { string h = inm.get_field("invalidate_handle"); try { assoc_t ih = retrieve_assoc(h); }catch(invalid_handle& ih) { oum.set_field("invalidate_handle",h); }catch(failed_lookup& ih) { oum.set_field("invalidate_handle",h); } }catch(failed_lookup&) { } if(o2) { assert(!nonce.empty()); invalidate_nonce(nonce); } return oum; }catch(failed_check_authentication& ) { oum.set_field("is_valid","false"); return oum; } - void basic_op::verify_return_to() { + void basic_OP::verify_return_to() { if(realm.find('#')!=string::npos) throw opkele::bad_realm(OPKELE_CP_ "authentication realm contains URI fragment"); if(!util::uri_matches_realm(return_to,realm)) throw bad_return_to(OPKELE_CP_ "return_to URL doesn't match realm"); } } diff --git a/lib/verify_op.cc b/lib/verify_op.cc index e7c26b5..0beca2d 100644 --- a/lib/verify_op.cc +++ b/lib/verify_op.cc @@ -1,53 +1,53 @@ #include <opkele/verify_op.h> #include <opkele/discovery.h> #include <opkele/exception.h> #include <opkele/util.h> #include <opkele/uris.h> namespace opkele { using std::output_iterator_tag; class __RP_verifier_good_input : public exception { public: __RP_verifier_good_input(OPKELE_E_PARS) : exception(OPKELE_E_CONS) { } }; class RP_verifier : public iterator<output_iterator_tag,openid_endpoint_t,void> { public: int seen; const string& return_to; RP_verifier(const string& rt) : return_to(rt), seen(0) { } RP_verifier& operator*() { return *this; } RP_verifier& operator=(const openid_endpoint_t& oep) { if(util::uri_matches_realm(return_to,oep.uri)) throw __RP_verifier_good_input(OPKELE_CP_ "Found matching realm"); return *this; } RP_verifier& operator++() { ++seen; return *this; } RP_verifier& operator++(int) { +seen; return *this; } }; void verify_op::verify_return_to() { - basic_op::verify_return_to(); + basic_OP::verify_return_to(); try { RP_verifier rpv(return_to); string drealm = realm; string::size_type csss = drealm.find("://*."); if(csss==4 || csss==5) drealm.replace(csss+3,1,"www"); const char *rtt[] = { STURI_OPENID20_RT, 0 }; yadiscover(rpv,drealm,rtt,false); if(rpv.seen) throw bad_return_to(OPKELE_CP_ "return_to URL doesn't match any found while doing discovery on RP"); }catch(__RP_verifier_good_input&) { }catch(bad_return_to& brt) { throw; }catch(exception_network&) { } } } @@ -116,97 +116,97 @@ class example_op_t : public opkele::verify_op { rand ); string ssecret; a_secret.to_base64(ssecret); time_t now = time(0); int expires_in = sl?3600*2:3600*24*7*2; sqlite3_mem_t<char*> S = sqlite3_mprintf( "INSERT INTO assoc" " (a_handle,a_type,a_ctime,a_etime,a_secret,a_stateless)" " VALUES (" " %Q,%Q,datetime('now')," " datetime('now','+%d seconds')," " %Q,%d );", a_handle.c_str(), type.c_str(), expires_in, ssecret.c_str(), sl ); db.exec(S); return opkele::assoc_t(new opkele::association( "", a_handle, type, a_secret, now+expires_in, sl )); } opkele::assoc_t retrieve_assoc(const string& h) { sqlite3_mem_t<char*> S = sqlite3_mprintf( "SELECT" " a_handle,a_type,a_secret,a_stateless," " strftime('%%s',a_etime) AS a_etime," " a_itime" " FROM assoc" " WHERE a_handle=%Q AND a_itime IS NULL" " AND datetime('now') < a_etime" " LIMIT 1", h.c_str() ); sqlite3_table_t T; int nr,nc; db.get_table(S,T,&nr,&nc); if(nr<1) throw opkele::failed_lookup(OPKELE_CP_ "couldn't retrieve valid unexpired assoc"); assert(nr==1); assert(nc==6); opkele::secret_t secret; opkele::util::decode_base64(T.get(1,2,nc),secret); return opkele::assoc_t(new opkele::association( "", h, T.get(1,1,nc), secret, strtol(T.get(1,4,nc),0,0), strtol(T.get(1,3,nc),0,0) )); } - string& alloc_nonce(string& nonce,bool stateless) { + string& alloc_nonce(string& nonce) { uuid_t uuid; uuid_generate(uuid); nonce += opkele::util::encode_base64(uuid,sizeof(uuid)); sqlite3_mem_t<char*> S = sqlite3_mprintf( "INSERT INTO nonces" " (n_once) VALUES (%Q)", nonce.c_str() ); db.exec(S); return nonce; } bool check_nonce(const string& nonce) { sqlite3_mem_t<char*> S = sqlite3_mprintf( "SELECT 1" " FROM nonces" " WHERE n_once=%Q AND n_itime IS NULL", nonce.c_str()); sqlite3_table_t T; int nr,nc; db.get_table(S,T,&nr,&nc); return nr>=1; } void invalidate_nonce(const string& nonce) { sqlite3_mem_t<char*> S = sqlite3_mprintf( "UPDATE nonces" " SET n_itime=datetime('now')" " WHERE n_once=%Q", nonce.c_str()); db.exec(S); } const string get_op_endpoint() const { return get_self_url(gw); } }; int main(int argc,char *argv[]) { try { kingate::plaincgi_interface ci; kingate::cgi_gateway gw(ci); string op; try { op = gw.get_param("op"); }catch(kingate::exception_notfound&) { } string message; if(op=="set_password") { example_op_t OP(gw); string password = gw.get_param("password"); |