// This may look like C, but it's really -*- C++ -*- // $Id$ #include "tao/IIOP_Profile.h" #include "tao/CDR.h" #include "tao/Environment.h" #include "tao/ORB.h" #include "tao/ORB_Core.h" #include "tao/debug.h" #include "tao/iiop_endpoints.h" ACE_RCSID(tao, IIOP_Profile, "$Id$") #if !defined (__ACE_INLINE__) # include "tao/IIOP_Profile.i" #endif /* __ACE_INLINE__ */ static const char prefix_[] = "iiop"; const char TAO_IIOP_Profile::object_key_delimiter_ = '/'; char TAO_IIOP_Profile::object_key_delimiter (void) const { return TAO_IIOP_Profile::object_key_delimiter_; } TAO_IIOP_Profile::TAO_IIOP_Profile (const ACE_INET_Addr &addr, const TAO_ObjectKey &object_key, const TAO_GIOP_Version &version, TAO_ORB_Core *orb_core) : TAO_Profile (TAO_TAG_IIOP_PROFILE, orb_core, version), endpoint_ (addr, orb_core->orb_params ()->use_dotted_decimal_addresses ()), count_ (1), endpoints_encoded_ (0), object_key_ (object_key), tagged_profile_ () { } TAO_IIOP_Profile::TAO_IIOP_Profile (const char* host, CORBA::UShort port, const TAO_ObjectKey &object_key, const ACE_INET_Addr &addr, const TAO_GIOP_Version &version, TAO_ORB_Core *orb_core) : TAO_Profile (TAO_TAG_IIOP_PROFILE, orb_core, version), endpoint_ (host, port, addr), count_ (1), endpoints_encoded_ (0), object_key_ (object_key), tagged_profile_ () { } TAO_IIOP_Profile::TAO_IIOP_Profile (const char *string, TAO_ORB_Core *orb_core, CORBA::Environment &ACE_TRY_ENV) : TAO_Profile (TAO_TAG_IIOP_PROFILE, orb_core, TAO_GIOP_Version (TAO_DEF_GIOP_MAJOR, TAO_DEF_GIOP_MINOR)), endpoint_ (), count_ (1), endpoints_encoded_ (0), object_key_ (), tagged_profile_ () { this->parse_string (string, ACE_TRY_ENV); ACE_CHECK; } TAO_IIOP_Profile::TAO_IIOP_Profile (TAO_ORB_Core *orb_core) : TAO_Profile (TAO_TAG_IIOP_PROFILE, orb_core, TAO_GIOP_Version (TAO_DEF_GIOP_MAJOR, TAO_DEF_GIOP_MINOR)), endpoint_ (), count_ (1), endpoints_encoded_ (0), object_key_ (), tagged_profile_ () { } TAO_IIOP_Profile::~TAO_IIOP_Profile (void) { // Clean up the list of endpoints since we own it. // Skip the head, since it is not dynamically allocated. TAO_Endpoint *tmp = 0; for (TAO_Endpoint *next = this->endpoint ()->next (); next != 0; next = tmp) { tmp = next->next (); delete next; } } // return codes: // -1 -> error // 0 -> can't understand this version // 1 -> success. int TAO_IIOP_Profile::decode (TAO_InputCDR& cdr) { CORBA::ULong encap_len = cdr.length (); // Read and verify major, minor versions, ignoring IIOP // profiles whose versions we don't understand. // CORBA::Octet major, minor; if (!(cdr.read_octet (major) && (major == TAO_DEF_GIOP_MAJOR) && cdr.read_octet (minor))) { if (TAO_debug_level > 0) { ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("TAO (%P|%t) IIOP_Profile::decode - v%d.%d\n"), major, minor)); } return -1; } this->version_.major = major; if (minor <= TAO_DEF_GIOP_MINOR) this->version_.minor = minor; // Decode host and port into the . if (cdr.read_string (this->endpoint_.host_.out ()) == 0 || cdr.read_ushort (this->endpoint_.port_) == 0) { if (TAO_debug_level > 0) { ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("TAO (%P|%t) IIOP_Profile::decode - ") ACE_TEXT ("error while decoding host/port"))); } return -1; } // ... and object key. if ((cdr >> this->object_key_) == 0) return -1; // Tagged Components *only* exist after version 1.0! // For GIOP 1.2, IIOP and GIOP have same version numbers! if (this->version_.major > 1 || this->version_.minor > 0) if (this->tagged_components_.decode (cdr) == 0) return -1; if (cdr.length () != 0 && TAO_debug_level) { // If there is extra data in the profile we are supposed to // ignore it, but print a warning just in case... ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("%d bytes out of %d left after IIOP profile data\n"), cdr.length (), encap_len)); } // Decode endpoints, if any. this->decode_endpoints (); if (cdr.good_bit ()) { // Invalidate the object_addr_ until first access. this->endpoint_.object_addr_.set_type (-1); return 1; } return -1; } int TAO_IIOP_Profile::parse_string (const char *string, CORBA::Environment &ACE_TRY_ENV) { if (!string || !*string) { ACE_THROW_RETURN (CORBA::INV_OBJREF ( CORBA_SystemException::_tao_minor_code ( TAO_DEFAULT_MINOR_CODE, EINVAL), CORBA::COMPLETED_NO), -1); } // Remove the "N.n@" version prefix, if it exists, and verify the // version is one that we accept. // Check for version if (isdigit (string [0]) && string[1] == '.' && isdigit (string [2]) && string[3] == '@') { // @@ This may fail for non-ascii character sets [but take that // with a grain of salt] this->version_.set_version ((char) (string [0] - '0'), (char) (string [2] - '0')); string += 4; // Skip over the "N.n@" } if (this->version_.major != TAO_DEF_GIOP_MAJOR || this->version_.minor > TAO_DEF_GIOP_MINOR) { ACE_THROW_RETURN (CORBA::INV_OBJREF ( CORBA_SystemException::_tao_minor_code ( TAO_DEFAULT_MINOR_CODE, EINVAL), CORBA::COMPLETED_NO), -1); } // Pull off the "hostname:port/" part of the objref // Copy the string because we are going to modify it... CORBA::String_var copy (string); char *start = copy.inout (); char *cp_pos = ACE_OS::strchr (start, ':'); // Look for a port char *okd = ACE_OS::strchr (start, this->object_key_delimiter_); if (okd == 0) { // No object key delimiter! ACE_THROW_RETURN (CORBA::INV_OBJREF ( CORBA_SystemException::_tao_minor_code ( TAO_DEFAULT_MINOR_CODE, EINVAL), CORBA::COMPLETED_NO), -1); } // The default port number. const char def_port [] = ":683"; // Length of port. CORBA::ULong length = 0; // Length of host string. CORBA::ULong length_host = 0; // Length of CORBA::ULong length_cp = ACE_OS::strlen ((const char *)okd) + sizeof (def_port); CORBA::String_var cp = CORBA::string_alloc (length_cp); if (cp_pos == 0) { // No host/port delimiter! Dont raise an exception. Use the // default port No. 683 ACE_OS::strcpy (cp, def_port); ACE_OS::strcat (cp, okd); length = ACE_OS::strlen (cp.in ()) - ACE_OS::strlen ((const char *)okd) - 1; length_host = ACE_OS::strlen (start) + sizeof (def_port) - ACE_OS::strlen (cp.in ()) -1; } else { // The port is specified: cp = (const char *)cp_pos; length = ACE_OS::strlen (cp.in ()) - ACE_OS::strlen ((const char *)okd) + 1; length_host = ACE_OS::strlen ((const char *)start) - ACE_OS::strlen (cp.in ()); } CORBA::String_var tmp = CORBA::string_alloc (length); ACE_OS::strncpy (tmp.inout (), cp.in () + 1, length); tmp[length] = '\0'; this->endpoint_.port_ = (CORBA::UShort) ACE_OS::atoi (tmp.in ()); tmp = CORBA::string_alloc (length_host); ACE_OS::strncpy (tmp.inout (), start, length_host); tmp[length_host] = '\0'; this->endpoint_.host_ = tmp._retn (); ACE_INET_Addr host_addr; if (ACE_OS::strcmp (this->endpoint_.host_.in (), "") == 0) { char tmp_host [MAXHOSTNAMELEN + 1]; // If no host is specified: assign the default host : the local host. if (host_addr.get_host_name (tmp_host, sizeof (tmp_host)) != 0) { const char *tmp = host_addr.get_host_addr (); if (tmp == 0) { if (TAO_debug_level > 0) ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("\n\nTAO (%P|%t) ") ACE_TEXT ("IIOP_Profile::parse_string ") ACE_TEXT ("- %p\n\n"), ACE_TEXT ("cannot determine hostname"))); return -1; } this->endpoint_.host_ = tmp; } else { this->endpoint_.host_ = (const char *) tmp_host; } } if (this->endpoint_.object_addr_.set (this->endpoint_.port_, this->endpoint_.host_.in ()) == -1) { if (TAO_debug_level > 0) { ACE_DEBUG ((LM_DEBUG, ACE_TEXT ("%p\n"), ACE_TEXT ("Error Occured !") ACE_TEXT ("TAO (%P|%t) IIOP_Profile::parse_string - \n") ACE_TEXT ("TAO (%P|%t) ACE_INET_Addr::set () failed"))); } return -1; } start = ++okd; // increment past the object key separator TAO_ObjectKey::decode_string_to_sequence (this->object_key_, start); return 1; } CORBA::Boolean TAO_IIOP_Profile::is_equivalent (const TAO_Profile *other_profile) { if (other_profile->tag () != TAO_TAG_IIOP_PROFILE) return 0; const TAO_IIOP_Profile *op = ACE_dynamic_cast (const TAO_IIOP_Profile *, other_profile); if (!(this->object_key_ == op->object_key_ && this->version_ == op->version_ && this->count_ == op->count_)) return 0; // Check endpoints equivalence. const TAO_IIOP_Endpoint *other_endp = &op->endpoint_; for (TAO_IIOP_Endpoint *endp = &this->endpoint_; endp != 0; endp = endp->next_) { if (endp->is_equivalent (other_endp)) other_endp = other_endp->next_; else return 0; } return 1; } CORBA::ULong TAO_IIOP_Profile::hash (CORBA::ULong max, CORBA::Environment &) { // Get the hashvalue for all endpoints. CORBA::ULong hashval = 0; for (TAO_IIOP_Endpoint *endp = &this->endpoint_; endp != 0; endp = endp->next_) { hashval += endp->hash (); } hashval += this->version_.minor; hashval += this->tag (); if (this->object_key_.length () >= 4) { hashval += this->object_key_ [1]; hashval += this->object_key_ [3]; } return hashval % max; } TAO_Endpoint* TAO_IIOP_Profile::endpoint (void) { return &this->endpoint_; } void TAO_IIOP_Profile::add_endpoint (TAO_IIOP_Endpoint *endp) { endp->next_ = this->endpoint_.next_; this->endpoint_.next_ = endp; this->count_++; } char * TAO_IIOP_Profile::to_string (CORBA::Environment &) { CORBA::String_var key; TAO_ObjectKey::encode_sequence_to_string (key.inout(), this->object_key_); u_int buflen = (ACE_OS::strlen (::prefix_) + 3 /* "loc" */ + 1 /* colon separator */ + 2 /* double-slash separator */ + 1 /* major version */ + 1 /* decimal point */ + 1 /* minor version */ + 1 /* `@' character */ + ACE_OS::strlen (this->endpoint_.host ()) + 1 /* colon separator */ + 5 /* port number */ + 1 /* object key separator */ + ACE_OS::strlen (key.in ())); char * buf = CORBA::string_alloc (buflen); static const char digits [] = "0123456789"; ACE_OS::sprintf (buf, "%sloc://%c.%c@%s:%d%c%s", ::prefix_, digits [this->version_.major], digits [this->version_.minor], this->endpoint_.host (), this->endpoint_.port (), this->object_key_delimiter_, key.in ()); return buf; } const char * TAO_IIOP_Profile::prefix (void) { return ::prefix_; } int TAO_IIOP_Profile::encode (TAO_OutputCDR &stream) const { // UNSIGNED LONG, protocol tag stream.write_ulong (this->tag ()); // Create the encapsulation.... TAO_OutputCDR encap (ACE_CDR::DEFAULT_BUFSIZE, TAO_ENCAP_BYTE_ORDER, this->orb_core ()->output_cdr_buffer_allocator (), this->orb_core ()->output_cdr_dblock_allocator (), this->orb_core ()->orb_params ()->cdr_memcpy_tradeoff (), this->orb_core ()->to_iso8859 (), this->orb_core ()->to_unicode ()); // Create the profile body this->create_profile_body (encap); // write the encapsulation as an octet sequence... stream << CORBA::ULong (encap.total_length ()); stream.write_octet_array_mb (encap.begin ()); return 1; } IOP::TaggedProfile & TAO_IIOP_Profile::create_tagged_profile (void) { // Check whether we have already created the TaggedProfile if (this->tagged_profile_.profile_data.get_buffer () == 0) { // As we have not created we will now create the TaggedProfile this->tagged_profile_.tag = TAO_TAG_IIOP_PROFILE; // Create the encapsulation.... TAO_OutputCDR encap (ACE_CDR::DEFAULT_BUFSIZE, TAO_ENCAP_BYTE_ORDER, this->orb_core ()->output_cdr_buffer_allocator (), this->orb_core ()->output_cdr_dblock_allocator (), this->orb_core ()->orb_params ()->cdr_memcpy_tradeoff (), this->orb_core ()->to_iso8859 (), this->orb_core ()->to_unicode ()); // Create the profile body this->create_profile_body (encap); CORBA::ULong length = ACE_static_cast(CORBA::ULong,encap.total_length ()); #if (TAO_NO_COPY_OCTET_SEQUENCES == 1) // Place the message block in to the Sequence of Octets that we // have this->tagged_profile_.profile_data.replace (length, encap.begin ()); #else this->tagged_profile_.profile_data.length (length); CORBA::Octet *buffer = this->tagged_profile_.profile_data.get_buffer (); for (const ACE_Message_Block *i = encap.begin (); i != encap.end (); i = i->next ()) { ACE_OS::memcpy (buffer, i->rd_ptr (), i->length ()); buffer += i->length (); } #endif /* TAO_NO_COPY_OCTET_SEQUENCES == 1 */ } return this->tagged_profile_; } void TAO_IIOP_Profile::create_profile_body (TAO_OutputCDR &encap) const { encap.write_octet (TAO_ENCAP_BYTE_ORDER); // The GIOP version encap.write_octet (this->version_.major); encap.write_octet (this->version_.minor); // STRING hostname from profile encap.write_string (this->endpoint_.host ()); // UNSIGNED SHORT port number encap.write_ushort (this->endpoint_.port ()); // OCTET SEQUENCE for object key encap << this->object_key_; #if (TAO_HAS_RT_CORBA == 1) // For now, use/transfer multiple endpoints per profile only with // RTCORBA. // Encode profile endpoints. TAO_IIOP_Profile *p = ACE_const_cast (TAO_IIOP_Profile *, this); if (!endpoints_encoded_) p->encode_endpoints (); #endif /* TAO_HAS_RT_CORBA == 1 */ if (this->version_.major > 1 || this->version_.minor > 0) this->tagged_components ().encode (encap); } int TAO_IIOP_Profile::encode_endpoints (void) { // Create a data structure and fill it with endpoint info for wire // transfer. // We include information for the head of the list // together with other endpoints because even though its addressing // info is transmitted using standard ProfileBody components, its // priority is not! TAO_IIOPEndpointSequence endpoints; endpoints.length (this->count_); const TAO_IIOP_Endpoint *endpoint = &this->endpoint_; for (size_t i = 0; i < this->count_; ++i) { endpoints[i].host = endpoint->host (); endpoints[i].port = endpoint->port (); endpoints[i].priority = endpoint->priority (); endpoint = endpoint->next_; } // Encode the data structure. TAO_OutputCDR out_cdr; out_cdr << ACE_OutputCDR::from_boolean (TAO_ENCAP_BYTE_ORDER); out_cdr << endpoints; CORBA::ULong length = out_cdr.total_length (); IOP::TaggedComponent tagged_component; tagged_component.tag = TAO_TAG_ENDPOINTS; tagged_component.component_data.length (length); CORBA::Octet *buf = tagged_component.component_data.get_buffer (); for (const ACE_Message_Block *iterator = out_cdr.begin (); iterator != 0; iterator = iterator->cont ()) { CORBA::ULong i_length = iterator->length (); ACE_OS::memcpy (buf, iterator->rd_ptr (), i_length); buf += i_length; } // Add component with encoded endpoint data to this profile's // TaggedComponents. tagged_components_.set_component (tagged_component); this->endpoints_encoded_ = 1; return 1; } int TAO_IIOP_Profile::decode_endpoints (void) { IOP::TaggedComponent tagged_component; tagged_component.tag = TAO_TAG_ENDPOINTS; if (this->tagged_components_.get_component (tagged_component)) { const CORBA::Octet *buf = tagged_component.component_data.get_buffer (); TAO_InputCDR in_cdr (ACE_reinterpret_cast (const char*, buf), tagged_component.component_data.length ()); // Extract the Byte Order. CORBA::Boolean byte_order; if ((in_cdr >> ACE_InputCDR::to_boolean (byte_order)) == 0) return 0; in_cdr.reset_byte_order (ACE_static_cast(int, byte_order)); // Extract endpoints sequence. TAO_IIOPEndpointSequence endpoints; if ((in_cdr >> endpoints) == 0) return 0; // Get the priority of the first endpoint (head of the list. // It's other data is extracted as part of the standard profile // decoding. this->endpoint_.priority (endpoints[0].priority); // Use information extracted from the tagged component to // populate the profile. Skip the first endpoint, since it is // always extracted through standard profile body. Also, begin // from the end of the sequence to preserve endpoint order, // since method reverses the order of endpoints // in the list. for (CORBA::ULong i = endpoints.length () - 1; i > 0; --i) { TAO_IIOP_Endpoint *endpoint = 0; ACE_NEW_RETURN (endpoint, TAO_IIOP_Endpoint (endpoints[i].host, endpoints[i].port, endpoints[i].priority), 0); this->add_endpoint (endpoint); } } this->endpoints_encoded_ = 1; return 1; }