oprofile-0.9.7/libpp/profile_spec.cpp - nest-learning-thermostat/5.1.7/oprofile - Git at Google

 /**
  * @file profile_spec.cpp
  * Contains a PP profile specification
  *
  * @remark Copyright 2003 OProfile authors
  * @remark Read the file COPYING
  *
  * @author Philippe Elie
  */

 #include <algorithm>
 #include <set>
 #include <sstream>
 #include <iterator>
 #include <iostream>
 #include <dirent.h>

 #include "file_manip.h"
 #include "op_config.h"
 #include "profile_spec.h"
 #include "string_manip.h"
 #include "glob_filter.h"
 #include "locate_images.h"
 #include "op_exception.h"
 #include "op_header.h"
 #include "op_fileio.h"

 using namespace std;

 namespace {

 // PP:3.7, full path, or relative path. If we can't find it,
 // we should maintain the original to maintain the wordexp etc.
 string const fixup_image_spec(string const & str, extra_images const & extra)
 {
 	// On error find_image_path() return str, so if an occur we will
 	// use the provided image_name not the fixed one.
 	image_error error;
 	return extra.find_image_path(str, error, true);
 }

 void fixup_image_spec(vector<string> & images, extra_images const & extra)
 {
 	vector<string>::iterator it = images.begin();
 	vector<string>::iterator const end = images.end();

 	for (; it != end; ++it)
 		*it = fixup_image_spec(*it, extra);
 }

 }  // anon namespace


 profile_spec::profile_spec()
 	:
 	extra_found_images()
 {
 	parse_table["archive"] = &profile_spec::parse_archive_path;
 	parse_table["session"] = &profile_spec::parse_session;
 	parse_table["session-exclude"] =
 		&profile_spec::parse_session_exclude;
 	parse_table["image"] = &profile_spec::parse_image;
 	parse_table["image-exclude"] = &profile_spec::parse_image_exclude;
 	parse_table["lib-image"] = &profile_spec::parse_lib_image;
 	parse_table["event"] = &profile_spec::parse_event;
 	parse_table["count"] = &profile_spec::parse_count;
 	parse_table["unit-mask"] = &profile_spec::parse_unitmask;
 	parse_table["tid"] = &profile_spec::parse_tid;
 	parse_table["tgid"] = &profile_spec::parse_tgid;
 	parse_table["cpu"] = &profile_spec::parse_cpu;
 }


 void profile_spec::parse(string const & tag_value)
 {
 	string value;
 	action_t action = get_handler(tag_value, value);
 	if (!action) {
 		throw invalid_argument("profile_spec::parse(): not "
 				       "a valid tag \"" + tag_value + "\"");
 	}

 	(this->*action)(value);
 }


 bool profile_spec::is_valid_tag(string const & tag_value)
 {
 	string value;
 	return get_handler(tag_value, value);
 }


 void profile_spec::set_image_or_lib_name(string const & str)
 {
 	/* FIXME: what does spec say about this being allowed to be
 	 * a comma list or not ? */
 	image_or_lib_image.push_back(fixup_image_spec(str, extra_found_images));
 }


 void profile_spec::parse_archive_path(string const & str)
 {
 	archive_path = op_realpath(str);
 }


 string profile_spec::get_archive_path() const
 {
 	return archive_path;
 }


 void profile_spec::parse_session(string const & str)
 {
 	session = separate_token(str, ',');
 }


 void profile_spec::parse_session_exclude(string const & str)
 {
 	session_exclude = separate_token(str, ',');
 }


 void profile_spec::parse_image(string const & str)
 {
 	image = separate_token(str, ',');
 	fixup_image_spec(image, extra_found_images);
 }


 void profile_spec::parse_image_exclude(string const & str)
 {
 	image_exclude = separate_token(str, ',');
 	fixup_image_spec(image_exclude, extra_found_images);
 }


 void profile_spec::parse_lib_image(string const & str)
 {
 	lib_image = separate_token(str, ',');
 	fixup_image_spec(lib_image, extra_found_images);
 }


 void profile_spec::parse_event(string const & str)
 {
 	event.set(str);
 }


 void profile_spec::parse_count(string const & str)
 {
 	count.set(str);
 }


 void profile_spec::parse_unitmask(string const & str)
 {
 	unitmask.set(str);
 }


 void profile_spec::parse_tid(string const & str)
 {
 	tid.set(str);
 }


 void profile_spec::parse_tgid(string const & str)
 {
 	tgid.set(str);
 }


 void profile_spec::parse_cpu(string const & str)
 {
 	cpu.set(str);
 }


 profile_spec::action_t
 profile_spec::get_handler(string const & tag_value, string & value)
 {
 	string::size_type pos = tag_value.find_first_of(':');
 	if (pos == string::npos)
 		return 0;

 	string tag(tag_value.substr(0, pos));
 	value = tag_value.substr(pos + 1);

 	parse_table_t::const_iterator it = parse_table.find(tag);
 	if (it == parse_table.end())
 		return 0;

 	return it->second;
 }


 namespace {

 /// return true if the value from the profile spec may match the comma
 /// list
 template<typename T>
 bool comma_match(comma_list<T> const & cl, generic_spec<T> const & value)
 {
 	// if the profile spec is "all" we match the sample file
 	if (!cl.is_set())
 		return true;

 	// an "all" sample file should never match specified profile
 	// spec values
 	if (!value.is_set())
 		return false;

 	// now match each profile spec value against the sample file
 	return cl.match(value.value());
 }

 }


 bool profile_spec::match(filename_spec const & spec) const
 {
 	bool matched_by_image_or_lib_image = false;

 	// We need the true image name not the one based on the sample
 	// filename for the benefit of module which have /oprofile in their
 	// sample filename. This allow to specify profile spec based on the
 	// real name of the image, e.g. 'binary:*oprofile.ko'
 	string simage = fixup_image_spec(spec.image, extra_found_images);
 	string slib_image = fixup_image_spec(spec.lib_image,
 					     extra_found_images);

 	// PP:3.19
 	if (!image_or_lib_image.empty()) {
 		glob_filter filter(image_or_lib_image, image_exclude);
 		if (filter.match(simage) || filter.match(slib_image))
 			matched_by_image_or_lib_image = true;
 	}

 	if (!matched_by_image_or_lib_image) {
 		// PP:3.7 3.8
 		if (!image.empty()) {
 			glob_filter filter(image, image_exclude);
 			if (!filter.match(simage))
 				return false;
 		} else if (!image_or_lib_image.empty()) {
 			// image.empty() means match all except if user
 			// specified image_or_lib_image
 			return false;
 		}

 		// PP:3.9 3.10
 		if (!lib_image.empty()) {
 			glob_filter filter(lib_image, image_exclude);
 			if (!filter.match(slib_image))
 				return false;
 		} else if (image.empty() && !image_or_lib_image.empty()) {
 			// lib_image empty means match all except if user
 			// specified image_or_lib_image *or* we already
 			// matched this spec through image
 			return false;
 		}
 	}

 	if (!matched_by_image_or_lib_image) {
 		// if we don't match by image_or_lib_image we must try to
 		// exclude from spec, exclusion from image_or_lib_image has
 		// been handled above
 		vector<string> empty;
 		glob_filter filter(empty, image_exclude);
 		if (!filter.match(simage))
 			return false;
 		if (!spec.lib_image.empty() && !filter.match(slib_image))
 			return false;
 	}

 	if (!event.match(spec.event))
 		return false;

 	if (!count.match(spec.count))
 		return false;

 	if (!unitmask.match(spec.unitmask))
 		return false;

 	if (!comma_match(cpu, spec.cpu))
 		return false;

 	if (!comma_match(tid, spec.tid))
 		return false;

 	if (!comma_match(tgid, spec.tgid))
 		return false;

 	return true;
 }


 profile_spec profile_spec::create(list<string> const & args,
                                   vector<string> const & image_path,
 				  string const & root_path)
 {
 	profile_spec spec;
 	set<string> tag_seen;
 	vector<string> temp_image_or_lib;

 	list<string>::const_iterator it = args.begin();
 	list<string>::const_iterator end = args.end();

 	for (; it != end; ++it) {
 		if (spec.is_valid_tag(*it)) {
 			if (tag_seen.find(*it) != tag_seen.end()) {
 				throw op_runtime_error("tag specified "
 				       "more than once: " + *it);
 			}
 			tag_seen.insert(*it);
 			spec.parse(*it);
 		} else {
 			string const file = op_realpath(*it);
 			temp_image_or_lib.push_back(file);
 		}
 	}

 	// PP:3.5 no session given means use the current session.
 	if (spec.session.empty())
 		spec.session.push_back("current");

 	bool ok = true;
 	vector<string>::const_iterator ip_it = image_path.begin();
 	for ( ; ip_it != image_path.end(); ++ip_it) {
 		if (!is_directory(spec.get_archive_path() + "/" + *ip_it)) {
 			cerr << spec.get_archive_path() + "/" + *ip_it << " isn't a valid directory\n";
 			ok = false;
 		}
 	}
 	if (!ok)
 		throw op_runtime_error("invalid --image-path= options");

 	spec.extra_found_images.populate(image_path, spec.get_archive_path(),
 					 root_path);
 	vector<string>::const_iterator im = temp_image_or_lib.begin();
 	vector<string>::const_iterator last = temp_image_or_lib.end();
 	for (; im != last; ++im)
 		spec.set_image_or_lib_name(*im);

 	return spec;
 }

 namespace {

 vector<string> filter_session(vector<string> const & session,
 			      vector<string> const & session_exclude)
 {
 	vector<string> result(session);

 	if (result.empty())
 		result.push_back("current");

 	for (size_t i = 0 ; i < session_exclude.size() ; ++i) {
 		// FIXME: would we use fnmatch on each item, are we allowed
 		// to --session=current* ?
 		vector<string>::iterator it =
 			find(result.begin(), result.end(), session_exclude[i]);

 		if (it != result.end())
 			result.erase(it);
 	}

 	return result;
 }

 static bool invalid_sample_file;
 bool valid_candidate(string const & base_dir, string const & filename,
                      profile_spec const & spec, bool exclude_dependent,
                      bool exclude_cg)
 {
 	if (exclude_cg && filename.find("{cg}") != string::npos)
 		return false;

 	// strip out non sample files
 	string const & sub = filename.substr(base_dir.size(), string::npos);
 	if (!is_prefix(sub, "/{root}/") && !is_prefix(sub, "/{kern}/"))
 		return false;

 	/* When overflows occur in the oprofile kernel driver's sample
 	 * buffers (caused by too high of a sampling rate), it's possible
 	 * for samples to be mis-attributed.  A common scenario is that,
 	 * while profiling process 'abc' running binary 'xzy', the task
 	 * switch for 'abc' gets dropped somehow.  Then, samples are taken
 	 * for the 'xyz' binary.  In the attempt to attribute the samples to
 	 * the associated binary, the oprofile kernel code examines the
 	 * the memory mappings for the last process for which it recorded
 	 * a task switch.  When profiling at a very high rate, the oprofile
 	 * daemon is often the process that is mistakenly examined.  Then the
 	 * sample from binary 'xyz' is matched to some file that's open in
 	 * oprofiled's memory space.  Because oprofiled has many sample files
 	 * open at any given time, there's a good chance the sample's VMA is
 	 * contained within one of those sample files.  So, once finding this
 	 * bogus match, the oprofile kernel records a cookie switch for the
 	 * sample file.  This scenario is made even more likely if a high
 	 * sampling rate (e.g., profiling on several events) is paired with
 	 * callgraph data collection.
 	 *
 	 * When the daemon processes this sample data from the kernel, it
 	 * creates a sample file for the sample file, resulting in something
 	 * of the form:
 	 *    <session-dir>/[blah]<session-dir>/[blah]
 	 *
 	 * When the sample data is post-processed, the sample file is parsed to
 	 * try to determine the name of the binary, but it gets horribly confused.
 	 * At best, the post-processing tool will spit out some warning messages,
 	 * such as:
 	 * warning:
 	 * /lib64/libdl-2.9.so/CYCLES.10000.0.all.all.all/{dep}/{root}/var/lib/oprofile/samples/current/{root}/lib64/libdl-2.9.so/{dep}/{root}/lib64/libdl-2.9.so/PM_RUN_CYC_GRP12.10000.0.all.all.all
 	 * could not be found.
 	 *
 	 * At worst, the parsing may result in an "invalid argument" runtime error
 	 * because of the inability to parse a sample file whose name contains that
 	 * of another sample file.  This typically seems to happen when callgraph
 	 * data is being collected.
 	 *
 	 * The next several lines of code checks if the passed filename
 	 * contains <session-dir>/samples; if so, we discard it as an
 	 * invalid sample file.
 	 */

 	unsigned int j = base_dir.rfind('/');
 	string session_samples_dir = base_dir.substr(0, j);
 	if (sub.find(session_samples_dir) != string::npos) {
 		invalid_sample_file = true;
 		return false;
 	}

 	// strip out generated JIT object files for samples of anonymous regions
 	if (is_jit_sample(sub))
 		return false;

 	filename_spec file_spec(filename, spec.extra_found_images);
 	if (spec.match(file_spec)) {
 		if (exclude_dependent && file_spec.is_dependent())
 			return false;
 		return true;
 	}

 	return false;
 }


 /**
  * Print a warning message if we detect any sample buffer overflows
  * occurred in the kernel driver.
  */
 void warn_if_kern_buffs_overflow(string const & session_samples_dir)
 {
 	DIR * dir;
 	struct dirent * dirent;
 	string stats_path;
 	int ret = 0;

 	stats_path = session_samples_dir + "stats/";
 	ret = op_read_int_from_file((stats_path + "event_lost_overflow").
 				    c_str(), 0);

 	if (!(dir = opendir(stats_path.c_str()))) {
 		ret = -1;
 		goto done;
 	}

 	while ((dirent = readdir(dir)) && !ret) {
 		int cpu_nr;
 		string path;
 		if (sscanf(dirent->d_name, "cpu%d", &cpu_nr) != 1)
 			continue;
 		path = stats_path + dirent->d_name + "/";
 		ret = op_read_int_from_file((path + "sample_lost_overflow").
 					    c_str(), 0);
 	}
 	closedir(dir);

  done:
 	if (ret > 0) {
 		cerr << "WARNING! The OProfile kernel driver reports sample "
 		     << "buffer overflows." << endl;
 		cerr << "Such overflows can result in incorrect sample attribution"
 		     << ", invalid sample" << endl
 		     <<	"files and other symptoms.  "
 		     << "See the oprofiled.log for details." << endl;
 		cerr << "You should adjust your sampling frequency to eliminate"
 		     << " (or at least minimize)" << endl
 		     <<	"these overflows." << endl;
 	}
 }


 }  // anonymous namespace


 list<string> profile_spec::generate_file_list(bool exclude_dependent,
   bool exclude_cg) const
 {
 	// FIXME: isn't remove_duplicates faster than doing this, then copy() ?
 	set<string> unique_files;

 	vector<string> sessions = filter_session(session, session_exclude);

 	if (sessions.empty()) {
 		ostringstream os;
 		os << "No session given\n"
 		   << "included session was:\n";
 		copy(session.begin(), session.end(),
 		     ostream_iterator<string>(os, "\n"));
 		os << "excluded session was:\n";
 		copy(session_exclude.begin(), session_exclude.end(),
 		     ostream_iterator<string>(os, "\n"));
 		throw invalid_argument(os.str());
 	}

 	bool found_file = false;

 	vector<string>::const_iterator cit = sessions.begin();
 	vector<string>::const_iterator end = sessions.end();

 	for (; cit != end; ++cit) {
 		if (cit->empty())
 			continue;

 		string base_dir;
 		invalid_sample_file = false;
 		if ((*cit)[0] != '.' && (*cit)[0] != '/')
 			base_dir = archive_path + op_samples_dir;
 		base_dir += *cit;

 		base_dir = op_realpath(base_dir);

 		list<string> files;
 		create_file_list(files, base_dir, "*", true);

 		if (!files.empty()) {
 			found_file = true;
 			warn_if_kern_buffs_overflow(base_dir + "/");
 		}

 		list<string>::const_iterator it = files.begin();
 		list<string>::const_iterator fend = files.end();
 		for (; it != fend; ++it) {
 			if (valid_candidate(base_dir, *it, *this,
 			    exclude_dependent, exclude_cg)) {
 				unique_files.insert(*it);
 			}
 		}
 		if (invalid_sample_file) {
 			cerr << "Warning: Invalid sample files found in "
 			     << base_dir << endl;
 			cerr << "This problem can be caused by too high of a sampling rate."
 			     << endl;
 		}
 	}

 	if (!found_file) {
 		ostringstream os;
 		os  << "No sample file found: try running opcontrol --dump\n"
 		    << "or specify a session containing sample files\n";
 		throw op_fatal_error(os.str());
 	}

 	list<string> result;
 	copy(unique_files.begin(), unique_files.end(), back_inserter(result));

 	return result;
 }
	/**
	* @file profile_spec.cpp
	* Contains a PP profile specification
	*
	* @remark Copyright 2003 OProfile authors
	* @remark Read the file COPYING
	*
	* @author Philippe Elie
	*/

	#include <algorithm>
	#include <set>
	#include <sstream>
	#include <iterator>
	#include <iostream>
	#include <dirent.h>

	#include "file_manip.h"
	#include "op_config.h"
	#include "profile_spec.h"
	#include "string_manip.h"
	#include "glob_filter.h"
	#include "locate_images.h"
	#include "op_exception.h"
	#include "op_header.h"
	#include "op_fileio.h"

	using namespace std;

	namespace {

	// PP:3.7, full path, or relative path. If we can't find it,
	// we should maintain the original to maintain the wordexp etc.
	string const fixup_image_spec(string const & str, extra_images const & extra)
	{
	// On error find_image_path() return str, so if an occur we will
	// use the provided image_name not the fixed one.
	image_error error;
	return extra.find_image_path(str, error, true);
	}

	void fixup_image_spec(vector<string> & images, extra_images const & extra)
	{
	vector<string>::iterator it = images.begin();
	vector<string>::iterator const end = images.end();

	for (; it != end; ++it)
	it = fixup_image_spec(it, extra);
	}

	} // anon namespace


	profile_spec::profile_spec()
	:
	extra_found_images()
	{
	parse_table["archive"] = &profile_spec::parse_archive_path;
	parse_table["session"] = &profile_spec::parse_session;
	parse_table["session-exclude"] =
	&profile_spec::parse_session_exclude;
	parse_table["image"] = &profile_spec::parse_image;
	parse_table["image-exclude"] = &profile_spec::parse_image_exclude;
	parse_table["lib-image"] = &profile_spec::parse_lib_image;
	parse_table["event"] = &profile_spec::parse_event;
	parse_table["count"] = &profile_spec::parse_count;
	parse_table["unit-mask"] = &profile_spec::parse_unitmask;
	parse_table["tid"] = &profile_spec::parse_tid;
	parse_table["tgid"] = &profile_spec::parse_tgid;
	parse_table["cpu"] = &profile_spec::parse_cpu;
	}


	void profile_spec::parse(string const & tag_value)
	{
	string value;
	action_t action = get_handler(tag_value, value);
	if (!action) {
	throw invalid_argument("profile_spec::parse(): not "
	"a valid tag \"" + tag_value + "\"");
	}

	(this->*action)(value);
	}


	bool profile_spec::is_valid_tag(string const & tag_value)
	{
	string value;
	return get_handler(tag_value, value);
	}


	void profile_spec::set_image_or_lib_name(string const & str)
	{
	/* FIXME: what does spec say about this being allowed to be
	* a comma list or not ? */
	image_or_lib_image.push_back(fixup_image_spec(str, extra_found_images));
	}


	void profile_spec::parse_archive_path(string const & str)
	{
	archive_path = op_realpath(str);
	}


	string profile_spec::get_archive_path() const
	{
	return archive_path;
	}


	void profile_spec::parse_session(string const & str)
	{
	session = separate_token(str, ',');
	}


	void profile_spec::parse_session_exclude(string const & str)
	{
	session_exclude = separate_token(str, ',');
	}


	void profile_spec::parse_image(string const & str)
	{
	image = separate_token(str, ',');
	fixup_image_spec(image, extra_found_images);
	}


	void profile_spec::parse_image_exclude(string const & str)
	{
	image_exclude = separate_token(str, ',');
	fixup_image_spec(image_exclude, extra_found_images);
	}


	void profile_spec::parse_lib_image(string const & str)
	{
	lib_image = separate_token(str, ',');
	fixup_image_spec(lib_image, extra_found_images);
	}


	void profile_spec::parse_event(string const & str)
	{
	event.set(str);
	}


	void profile_spec::parse_count(string const & str)
	{
	count.set(str);
	}


	void profile_spec::parse_unitmask(string const & str)
	{
	unitmask.set(str);
	}


	void profile_spec::parse_tid(string const & str)
	{
	tid.set(str);
	}


	void profile_spec::parse_tgid(string const & str)
	{
	tgid.set(str);
	}


	void profile_spec::parse_cpu(string const & str)
	{
	cpu.set(str);
	}


	profile_spec::action_t
	profile_spec::get_handler(string const & tag_value, string & value)
	{
	string::size_type pos = tag_value.find_first_of(':');
	if (pos == string::npos)
	return 0;

	string tag(tag_value.substr(0, pos));
	value = tag_value.substr(pos + 1);

	parse_table_t::const_iterator it = parse_table.find(tag);
	if (it == parse_table.end())
	return 0;

	return it->second;
	}


	namespace {

	/// return true if the value from the profile spec may match the comma
	/// list
	template<typename T>
	bool comma_match(comma_list<T> const & cl, generic_spec<T> const & value)
	{
	// if the profile spec is "all" we match the sample file
	if (!cl.is_set())
	return true;

	// an "all" sample file should never match specified profile
	// spec values
	if (!value.is_set())
	return false;

	// now match each profile spec value against the sample file
	return cl.match(value.value());
	}

	}


	bool profile_spec::match(filename_spec const & spec) const
	{
	bool matched_by_image_or_lib_image = false;

	// We need the true image name not the one based on the sample
	// filename for the benefit of module which have /oprofile in their
	// sample filename. This allow to specify profile spec based on the
	// real name of the image, e.g. 'binary:*oprofile.ko'
	string simage = fixup_image_spec(spec.image, extra_found_images);
	string slib_image = fixup_image_spec(spec.lib_image,
	extra_found_images);

	// PP:3.19
	if (!image_or_lib_image.empty()) {
	glob_filter filter(image_or_lib_image, image_exclude);
	if (filter.match(simage) \|\| filter.match(slib_image))
	matched_by_image_or_lib_image = true;
	}

	if (!matched_by_image_or_lib_image) {
	// PP:3.7 3.8
	if (!image.empty()) {
	glob_filter filter(image, image_exclude);
	if (!filter.match(simage))
	return false;
	} else if (!image_or_lib_image.empty()) {
	// image.empty() means match all except if user
	// specified image_or_lib_image
	return false;
	}

	// PP:3.9 3.10
	if (!lib_image.empty()) {
	glob_filter filter(lib_image, image_exclude);
	if (!filter.match(slib_image))
	return false;
	} else if (image.empty() && !image_or_lib_image.empty()) {
	// lib_image empty means match all except if user
	// specified image_or_lib_image or we already
	// matched this spec through image
	return false;
	}
	}

	if (!matched_by_image_or_lib_image) {
	// if we don't match by image_or_lib_image we must try to
	// exclude from spec, exclusion from image_or_lib_image has
	// been handled above
	vector<string> empty;
	glob_filter filter(empty, image_exclude);
	if (!filter.match(simage))
	return false;
	if (!spec.lib_image.empty() && !filter.match(slib_image))
	return false;
	}

	if (!event.match(spec.event))
	return false;

	if (!count.match(spec.count))
	return false;

	if (!unitmask.match(spec.unitmask))
	return false;

	if (!comma_match(cpu, spec.cpu))
	return false;

	if (!comma_match(tid, spec.tid))
	return false;

	if (!comma_match(tgid, spec.tgid))
	return false;

	return true;
	}


	profile_spec profile_spec::create(list<string> const & args,
	vector<string> const & image_path,
	string const & root_path)
	{
	profile_spec spec;
	set<string> tag_seen;
	vector<string> temp_image_or_lib;

	list<string>::const_iterator it = args.begin();
	list<string>::const_iterator end = args.end();

	for (; it != end; ++it) {
	if (spec.is_valid_tag(*it)) {
	if (tag_seen.find(*it) != tag_seen.end()) {
	throw op_runtime_error("tag specified "
	"more than once: " + *it);
	}
	tag_seen.insert(*it);
	spec.parse(*it);
	} else {
	string const file = op_realpath(*it);
	temp_image_or_lib.push_back(file);
	}
	}

	// PP:3.5 no session given means use the current session.
	if (spec.session.empty())
	spec.session.push_back("current");

	bool ok = true;
	vector<string>::const_iterator ip_it = image_path.begin();
	for ( ; ip_it != image_path.end(); ++ip_it) {
	if (!is_directory(spec.get_archive_path() + "/" + *ip_it)) {
	cerr << spec.get_archive_path() + "/" + *ip_it << " isn't a valid directory\n";
	ok = false;
	}
	}
	if (!ok)
	throw op_runtime_error("invalid --image-path= options");

	spec.extra_found_images.populate(image_path, spec.get_archive_path(),
	root_path);
	vector<string>::const_iterator im = temp_image_or_lib.begin();
	vector<string>::const_iterator last = temp_image_or_lib.end();
	for (; im != last; ++im)
	spec.set_image_or_lib_name(*im);

	return spec;
	}

	namespace {

	vector<string> filter_session(vector<string> const & session,
	vector<string> const & session_exclude)
	{
	vector<string> result(session);

	if (result.empty())
	result.push_back("current");

	for (size_t i = 0 ; i < session_exclude.size() ; ++i) {
	// FIXME: would we use fnmatch on each item, are we allowed
	// to --session=current* ?
	vector<string>::iterator it =
	find(result.begin(), result.end(), session_exclude[i]);

	if (it != result.end())
	result.erase(it);
	}

	return result;
	}

	static bool invalid_sample_file;
	bool valid_candidate(string const & base_dir, string const & filename,
	profile_spec const & spec, bool exclude_dependent,
	bool exclude_cg)
	{
	if (exclude_cg && filename.find("{cg}") != string::npos)
	return false;

	// strip out non sample files
	string const & sub = filename.substr(base_dir.size(), string::npos);
	if (!is_prefix(sub, "/{root}/") && !is_prefix(sub, "/{kern}/"))
	return false;

	/* When overflows occur in the oprofile kernel driver's sample
	* buffers (caused by too high of a sampling rate), it's possible
	* for samples to be mis-attributed. A common scenario is that,
	* while profiling process 'abc' running binary 'xzy', the task
	* switch for 'abc' gets dropped somehow. Then, samples are taken
	* for the 'xyz' binary. In the attempt to attribute the samples to
	* the associated binary, the oprofile kernel code examines the
	* the memory mappings for the last process for which it recorded
	* a task switch. When profiling at a very high rate, the oprofile
	* daemon is often the process that is mistakenly examined. Then the
	* sample from binary 'xyz' is matched to some file that's open in
	* oprofiled's memory space. Because oprofiled has many sample files
	* open at any given time, there's a good chance the sample's VMA is
	* contained within one of those sample files. So, once finding this
	* bogus match, the oprofile kernel records a cookie switch for the
	* sample file. This scenario is made even more likely if a high
	* sampling rate (e.g., profiling on several events) is paired with
	* callgraph data collection.
	*
	* When the daemon processes this sample data from the kernel, it
	* creates a sample file for the sample file, resulting in something
	* of the form:
	* <session-dir>/[blah]<session-dir>/[blah]
	*
	* When the sample data is post-processed, the sample file is parsed to
	* try to determine the name of the binary, but it gets horribly confused.
	* At best, the post-processing tool will spit out some warning messages,
	* such as:
	* warning:
	* /lib64/libdl-2.9.so/CYCLES.10000.0.all.all.all/{dep}/{root}/var/lib/oprofile/samples/current/{root}/lib64/libdl-2.9.so/{dep}/{root}/lib64/libdl-2.9.so/PM_RUN_CYC_GRP12.10000.0.all.all.all
	* could not be found.
	*
	* At worst, the parsing may result in an "invalid argument" runtime error
	* because of the inability to parse a sample file whose name contains that
	* of another sample file. This typically seems to happen when callgraph
	* data is being collected.
	*
	* The next several lines of code checks if the passed filename
	* contains <session-dir>/samples; if so, we discard it as an
	* invalid sample file.
	*/

	unsigned int j = base_dir.rfind('/');
	string session_samples_dir = base_dir.substr(0, j);
	if (sub.find(session_samples_dir) != string::npos) {
	invalid_sample_file = true;
	return false;
	}

	// strip out generated JIT object files for samples of anonymous regions
	if (is_jit_sample(sub))
	return false;

	filename_spec file_spec(filename, spec.extra_found_images);
	if (spec.match(file_spec)) {
	if (exclude_dependent && file_spec.is_dependent())
	return false;
	return true;
	}

	return false;
	}


	/**
	* Print a warning message if we detect any sample buffer overflows
	* occurred in the kernel driver.
	*/
	void warn_if_kern_buffs_overflow(string const & session_samples_dir)
	{
	DIR * dir;
	struct dirent * dirent;
	string stats_path;
	int ret = 0;

	stats_path = session_samples_dir + "stats/";
	ret = op_read_int_from_file((stats_path + "event_lost_overflow").
	c_str(), 0);

	if (!(dir = opendir(stats_path.c_str()))) {
	ret = -1;
	goto done;
	}

	while ((dirent = readdir(dir)) && !ret) {
	int cpu_nr;
	string path;
	if (sscanf(dirent->d_name, "cpu%d", &cpu_nr) != 1)
	continue;
	path = stats_path + dirent->d_name + "/";
	ret = op_read_int_from_file((path + "sample_lost_overflow").
	c_str(), 0);
	}
	closedir(dir);

	done:
	if (ret > 0) {
	cerr << "WARNING! The OProfile kernel driver reports sample "
	<< "buffer overflows." << endl;
	cerr << "Such overflows can result in incorrect sample attribution"
	<< ", invalid sample" << endl
	<< "files and other symptoms. "
	<< "See the oprofiled.log for details." << endl;
	cerr << "You should adjust your sampling frequency to eliminate"
	<< " (or at least minimize)" << endl
	<< "these overflows." << endl;
	}
	}


	} // anonymous namespace


	list<string> profile_spec::generate_file_list(bool exclude_dependent,
	bool exclude_cg) const
	{
	// FIXME: isn't remove_duplicates faster than doing this, then copy() ?
	set<string> unique_files;

	vector<string> sessions = filter_session(session, session_exclude);

	if (sessions.empty()) {
	ostringstream os;
	os << "No session given\n"
	<< "included session was:\n";
	copy(session.begin(), session.end(),
	ostream_iterator<string>(os, "\n"));
	os << "excluded session was:\n";
	copy(session_exclude.begin(), session_exclude.end(),
	ostream_iterator<string>(os, "\n"));
	throw invalid_argument(os.str());
	}

	bool found_file = false;

	vector<string>::const_iterator cit = sessions.begin();
	vector<string>::const_iterator end = sessions.end();

	for (; cit != end; ++cit) {
	if (cit->empty())
	continue;

	string base_dir;
	invalid_sample_file = false;
	if ((cit)[0] != '.' && (cit)[0] != '/')
	base_dir = archive_path + op_samples_dir;
	base_dir += *cit;

	base_dir = op_realpath(base_dir);

	list<string> files;
	create_file_list(files, base_dir, "*", true);

	if (!files.empty()) {
	found_file = true;
	warn_if_kern_buffs_overflow(base_dir + "/");
	}

	list<string>::const_iterator it = files.begin();
	list<string>::const_iterator fend = files.end();
	for (; it != fend; ++it) {
	if (valid_candidate(base_dir, it, this,
	exclude_dependent, exclude_cg)) {
	unique_files.insert(*it);
	}
	}
	if (invalid_sample_file) {
	cerr << "Warning: Invalid sample files found in "
	<< base_dir << endl;
	cerr << "This problem can be caused by too high of a sampling rate."
	<< endl;
	}
	}

	if (!found_file) {
	ostringstream os;
	os << "No sample file found: try running opcontrol --dump\n"
	<< "or specify a session containing sample files\n";
	throw op_fatal_error(os.str());
	}

	list<string> result;
	copy(unique_files.begin(), unique_files.end(), back_inserter(result));

	return result;
	}