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// $Id$
#include "tao/params.h"
#include "tao/orbconf.h"
#if !defined (__ACE_INLINE__)
# include "tao/params.i"
#endif /* __ACE_INLINE__ */
#include "ace/OS_NS_Thread.h"
ACE_RCSID (tao,
params,
"$Id$")
TAO_ORB_Parameters::TAO_ORB_Parameters (void)
: endpoints_map_ (10)
, mcast_discovery_endpoint_ ()
, default_init_ref_ (TAO_DEFAULT_INIT_REFERENCE_INITIALIZER)
, sock_rcvbuf_size_ (ACE_DEFAULT_MAX_SOCKET_BUFSIZ)
, sock_sndbuf_size_ (ACE_DEFAULT_MAX_SOCKET_BUFSIZ)
, nodelay_ (1)
, cdr_memcpy_tradeoff_ (ACE_DEFAULT_CDR_MEMCPY_TRADEOFF)
, use_lite_protocol_ (0)
, use_dotted_decimal_addresses_ (0)
, cache_incoming_by_dotted_decimal_address_ (0)
, linger_ (-1)
, std_profile_components_ (1)
, ace_sched_policy_ (ACE_SCHED_OTHER)
, sched_policy_ (THR_SCHED_DEFAULT)
, scope_policy_ (THR_SCOPE_PROCESS)
, single_read_optimization_ (1)
, shared_profile_ (0)
, pref_network_ ()
, disable_rt_collocation_resolver_ (false)
, enforce_preferred_interfaces_ (false)
{
for (int i = 0; i != TAO_NO_OF_MCAST_SERVICES; ++i)
{
this->service_port_[i] = 0;
}
}
void
TAO_ORB_Parameters::get_endpoint_set (const ACE_CString &lane,
TAO_EndpointSet &endpoint_set)
{
// Look for the lane in the endpoints map.
endpoints_map_type::iterator const endpoints =
this->endpoints_map_.find (lane);
// If lane is not in the map, <endpoint_set> remains empty
if (endpoints == this->endpoints_map_.end ())
return;
// At this point, the parsing should not fail since they have been
// parsed successfully before.
int const result =
this->parse_and_add_endpoints ((*endpoints).second,
endpoint_set);
ACE_ASSERT (result == 0);
ACE_UNUSED_ARG (result);
}
int
TAO_ORB_Parameters::add_endpoints (const ACE_CString &lane,
const ACE_CString &additional_endpoints)
{
TAO_EndpointSet endpoint_set;
// Parse the additional endpoints.
int result =
this->parse_and_add_endpoints (additional_endpoints,
endpoint_set);
// Parse failure.
if (result != 0)
return result;
// Look for the lane in the endpoints map.
//
// Return reference to endpoints string corresponding to lane
// string. If none, a default constructed string is inserted into
// the map and returned.
ACE_CString & existing_endpoints = this->endpoints_map_[lane];
// Create the resulting endpoints string.
if (existing_endpoints.length () != 0)
{
existing_endpoints += ";";
}
existing_endpoints += additional_endpoints;
return 0;
}
int
TAO_ORB_Parameters::parse_and_add_endpoints (const ACE_CString &endpoints,
TAO_EndpointSet &endpoint_set)
{
// Parse the string into seperate endpoints, where `endpoints' is of
// the form:
//
// protocol1://V,v@addr1,...,addrN;protocol2://addr1,...,W.w@addrN;...
//
// A single endpoint, instead of several, can be added just as well.
static char const endpoints_delimiter = ';';
size_t const length = endpoints.length ();
if (endpoints[0] == endpoints_delimiter ||
endpoints[length - 1] == endpoints_delimiter)
{
return -1;
// Failure: endpoints string has an empty endpoint at the
// beginning or the end of the string
// (e.g. ";uiop://foo;iiop://1.3@bar")
}
int status = 0;
// Return code: 0 = success, -1 = failure
if (length > 0)
{
int endpoints_count = 1;
for (size_t j = 0; j != length; ++j)
{
if (endpoints[j] == endpoints_delimiter)
{
++endpoints_count;
}
}
int begin = 0;
int end = endpoints.find (endpoints_delimiter);
for (int i = 0; i < endpoints_count; ++i)
{
if (end == 0)
{
// Handle case where two consecutive endpoints `;;'
// delimiters are found within the endpoints set.
//
// Is it enough to just skip over it or should we return an
// error?
continue;
}
ACE_CString const endpt =
endpoints.substring (begin, end - begin);
// The substring call will work even if `end' is equal to
// ACE_CString::npos since that will just extract the substring
// from the offset `begin' to the end of the string.
// Check for a valid URL style endpoint set
int const check_offset = endpt.find ("://");
if (check_offset > 0 &&
check_offset != endpt.npos)
{
endpoint_set.enqueue_tail (endpt);
// Insert endpoint into list
}
else
{
status = -1; // Error: invalid URL style endpoint set
}
begin = end + 1;
end = endpoints.find (endpoints_delimiter, begin);
}
}
else
{
status = -1;
// Failure: Empty string
}
return status;
}
bool
TAO_ORB_Parameters::preferred_interfaces (const char *s)
{
// Validates that s contains one or more comma separated
// interfaces each consisting of a string with a single
// assignment separator ('=' or ':')
// Any other char is legal, although '*' and '?' will be
// treated as wildcards.
const char* p = s;
bool expect_assign = false;
bool expect_comma = false;
bool expect_char = true;
bool expect_wild = true;
bool found_remote = false;
while (*p != 0)
{
switch (*p)
{
case ':':
case '=':
if (! expect_assign)
return false;
found_remote = true;
expect_assign = false;
expect_char = true;
expect_comma = false;
expect_wild = true;
break;
case ',':
if (! expect_comma)
return false;
found_remote = false;
expect_assign = false;
expect_char = true;
expect_comma = false;
expect_wild = true;
break;
case '*':
case '?':
if (! expect_wild)
return false;
expect_assign = ! found_remote;
expect_char = true;
expect_comma = found_remote;
expect_wild = false;
break;
default:
if (! expect_char)
return false;
expect_assign = ! found_remote;
expect_char = true;
expect_comma = found_remote;
expect_wild = true;
break;
}
++p;
}
if (!expect_comma || expect_assign)
return false;
this->pref_network_ = s;
return true;
}
const char *
TAO_ORB_Parameters::preferred_interfaces (void) const
{
return this->pref_network_.c_str ();
}
void
TAO_ORB_Parameters::enforce_pref_interfaces (bool p)
{
this->enforce_preferred_interfaces_ = p;
}
bool
TAO_ORB_Parameters::enforce_pref_interfaces (void) const
{
return this->enforce_preferred_interfaces_;
}
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