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// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab
/*
* Ceph - scalable distributed file system
*
* Copyright (C) 2009-2011 New Dream Network
*
* This is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License version 2.1, as published by the Free Software
* Foundation. See file COPYING.
*
*/
#include <boost/config/warning_disable.hpp>
#include <boost/spirit/include/qi.hpp>
#include <boost/spirit/include/phoenix_operator.hpp>
#include <boost/spirit/include/phoenix.hpp>
#include <boost/algorithm/string/predicate.hpp>
#include "OSDCap.h"
#include "common/config.h"
#include "common/debug.h"
#include "include/ipaddr.h"
using std::ostream;
using std::vector;
ostream& operator<<(ostream& out, const osd_rwxa_t& p)
{
if (p == OSD_CAP_ANY)
return out << "*";
if (p & OSD_CAP_R)
out << "r";
if (p & OSD_CAP_W)
out << "w";
if ((p & OSD_CAP_X) == OSD_CAP_X) {
out << "x";
} else {
if (p & OSD_CAP_CLS_R)
out << " class-read";
if (p & OSD_CAP_CLS_W)
out << " class-write";
}
return out;
}
ostream& operator<<(ostream& out, const OSDCapSpec& s)
{
if (s.allow)
return out << s.allow;
if (s.class_name.length()) {
out << "class '" << s.class_name << "'";
if (!s.method_name.empty()) {
out << " '" << s.method_name << "'";
}
}
return out;
}
ostream& operator<<(ostream& out, const OSDCapPoolNamespace& pns)
{
if (!pns.pool_name.empty()) {
out << "pool " << pns.pool_name << " ";
}
if (pns.nspace) {
out << "namespace ";
if (pns.nspace->empty()) {
out << "\"\"";
} else {
out << *pns.nspace;
}
out << " ";
}
return out;
}
ostream& operator<<(ostream &out, const OSDCapPoolTag &pt)
{
out << "app " << pt.application << " key " << pt.key << " val " << pt.value
<< " ";
return out;
}
ostream& operator<<(ostream& out, const OSDCapMatch& m)
{
if (!m.pool_namespace.pool_name.empty() || m.pool_namespace.nspace) {
out << m.pool_namespace;
}
if (!m.pool_tag.application.empty()) {
out << m.pool_tag;
}
if (m.object_prefix.length()) {
out << "object_prefix " << m.object_prefix << " ";
}
return out;
}
ostream& operator<<(ostream& out, const OSDCapProfile& m)
{
out << "profile " << m.name;
out << m.pool_namespace;
return out;
}
bool OSDCapPoolNamespace::is_match(const std::string& pn,
const std::string& ns) const
{
if (!pool_name.empty()) {
if (pool_name != pn) {
return false;
}
}
if (nspace) {
if (!nspace->empty() && nspace->back() == '*' &&
boost::starts_with(ns, nspace->substr(0, nspace->length() - 1))) {
return true;
}
if (*nspace != ns) {
return false;
}
}
return true;
}
bool OSDCapPoolNamespace::is_match_all() const
{
if (!pool_name.empty())
return false;
if (nspace)
return false;
return true;
}
bool OSDCapPoolTag::is_match(const app_map_t& app_map) const
{
if (application.empty()) {
return true;
}
auto kv_map = app_map.find(application);
if (kv_map == app_map.end()) {
return false;
}
if (!key.compare("*") && !value.compare("*")) {
return true;
}
if (!key.compare("*")) {
for (auto it : kv_map->second) {
if (it.second == value) {
return true;
}
}
return false;
}
auto kv_val = kv_map->second.find(key);
if (kv_val == kv_map->second.end()) {
return false;
}
if (!value.compare("*")) {
return true;
}
return kv_val->second == value;
}
bool OSDCapPoolTag::is_match_all() const {
return application.empty();
}
bool OSDCapMatch::is_match(const string& pn, const string& ns,
const OSDCapPoolTag::app_map_t& app_map,
const string& object) const
{
if (!pool_namespace.is_match(pn, ns)) {
return false;
} else if (!pool_tag.is_match(app_map)) {
return false;
}
if (object_prefix.length()) {
if (object.find(object_prefix) != 0)
return false;
}
return true;
}
bool OSDCapMatch::is_match_all() const
{
if (!pool_namespace.is_match_all()) {
return false;
} else if (!pool_tag.is_match_all()) {
return false;
}
if (object_prefix.length()) {
return false;
}
return true;
}
ostream& operator<<(ostream& out, const OSDCapGrant& g)
{
out << "grant(";
if (g.profile.is_valid()) {
out << g.profile << " [";
for (auto it = g.profile_grants.cbegin();
it != g.profile_grants.cend(); ++it) {
if (it != g.profile_grants.cbegin()) {
out << ",";
}
out << *it;
}
out << "]";
} else {
out << g.match << g.spec;
}
if (g.network.size()) {
out << " network " << g.network;
}
out << ")";
return out;
}
void OSDCapGrant::set_network(const string& n)
{
network = n;
network_valid = ::parse_network(n.c_str(), &network_parsed, &network_prefix);
}
bool OSDCapGrant::allow_all() const
{
if (profile.is_valid()) {
return std::any_of(profile_grants.cbegin(), profile_grants.cend(),
[](const OSDCapGrant& grant) {
return grant.allow_all();
});
}
return (match.is_match_all() && spec.allow_all());
}
bool OSDCapGrant::is_capable(
const string& pool_name,
const string& ns,
const OSDCapPoolTag::app_map_t& application_metadata,
const string& object,
bool op_may_read,
bool op_may_write,
const std::vector<OpRequest::ClassInfo>& classes,
const entity_addr_t& addr,
std::vector<bool>* class_allowed) const
{
osd_rwxa_t allow = 0;
if (network.size() &&
(!network_valid ||
!network_contains(network_parsed,
network_prefix,
addr))) {
return false;
}
if (profile.is_valid()) {
return std::any_of(profile_grants.cbegin(), profile_grants.cend(),
[&](const OSDCapGrant& grant) {
return grant.is_capable(pool_name, ns,
application_metadata,
object, op_may_read,
op_may_write, classes, addr,
class_allowed);
});
} else {
if (match.is_match(pool_name, ns, application_metadata, object)) {
allow = allow | spec.allow;
if ((op_may_read && !(allow & OSD_CAP_R)) ||
(op_may_write && !(allow & OSD_CAP_W))) {
return false;
}
if (!classes.empty()) {
// check 'allow *'
if (spec.allow_all()) {
return true;
}
// compare this grant to each class in the operation
for (size_t i = 0; i < classes.size(); ++i) {
// check 'allow class foo [method_name]'
if (!spec.class_name.empty() &&
classes[i].class_name == spec.class_name &&
(spec.method_name.empty() ||
classes[i].method_name == spec.method_name)) {
(*class_allowed)[i] = true;
continue;
}
// check 'allow x | class-{rw}': must be on whitelist
if (!classes[i].whitelisted) {
continue;
}
if ((classes[i].read && !(allow & OSD_CAP_CLS_R)) ||
(classes[i].write && !(allow & OSD_CAP_CLS_W))) {
continue;
}
(*class_allowed)[i] = true;
}
if (!std::all_of(class_allowed->cbegin(), class_allowed->cend(),
[](bool v) { return v; })) {
return false;
}
}
return true;
}
}
return false;
}
void OSDCapGrant::expand_profile()
{
if (profile.name == "read-only") {
// grants READ-ONLY caps to the OSD
profile_grants.emplace_back(OSDCapMatch(profile.pool_namespace),
OSDCapSpec(osd_rwxa_t(OSD_CAP_R)));
return;
}
if (profile.name == "read-write") {
// grants READ-WRITE caps to the OSD
profile_grants.emplace_back(OSDCapMatch(profile.pool_namespace),
OSDCapSpec(osd_rwxa_t(OSD_CAP_R | OSD_CAP_W)));
}
if (profile.name == "rbd") {
// RBD read-write grant
profile_grants.emplace_back(OSDCapMatch(string(), "rbd_info"),
OSDCapSpec(osd_rwxa_t(OSD_CAP_R)));
profile_grants.emplace_back(OSDCapMatch(string(), "rbd_children"),
OSDCapSpec(osd_rwxa_t(OSD_CAP_CLS_R)));
profile_grants.emplace_back(OSDCapMatch(string(), "rbd_mirroring"),
OSDCapSpec(osd_rwxa_t(OSD_CAP_CLS_R)));
profile_grants.emplace_back(OSDCapMatch(profile.pool_namespace.pool_name),
OSDCapSpec("rbd", "metadata_list"));
profile_grants.emplace_back(OSDCapMatch(profile.pool_namespace),
OSDCapSpec(osd_rwxa_t(OSD_CAP_R |
OSD_CAP_W |
OSD_CAP_X)));
}
if (profile.name == "rbd-read-only") {
// RBD read-only grant
profile_grants.emplace_back(OSDCapMatch(profile.pool_namespace),
OSDCapSpec(osd_rwxa_t(OSD_CAP_R |
OSD_CAP_CLS_R)));
profile_grants.emplace_back(OSDCapMatch(profile.pool_namespace,
"rbd_header."),
OSDCapSpec("rbd", "child_attach"));
profile_grants.emplace_back(OSDCapMatch(profile.pool_namespace,
"rbd_header."),
OSDCapSpec("rbd", "child_detach"));
}
}
bool OSDCap::allow_all() const
{
for (auto &grant : grants) {
if (grant.allow_all()) {
return true;
}
}
return false;
}
void OSDCap::set_allow_all()
{
grants.clear();
grants.push_back(OSDCapGrant(OSDCapMatch(), OSDCapSpec(OSD_CAP_ANY)));
}
bool OSDCap::is_capable(const string& pool_name, const string& ns,
const OSDCapPoolTag::app_map_t& application_metadata,
const string& object,
bool op_may_read, bool op_may_write,
const std::vector<OpRequest::ClassInfo>& classes,
const entity_addr_t& addr) const
{
std::vector<bool> class_allowed(classes.size(), false);
for (auto &grant : grants) {
if (grant.is_capable(pool_name, ns, application_metadata,
object, op_may_read, op_may_write, classes, addr,
&class_allowed)) {
return true;
}
}
return false;
}
// grammar
namespace qi = boost::spirit::qi;
namespace ascii = boost::spirit::ascii;
namespace phoenix = boost::phoenix;
template <typename Iterator>
struct OSDCapParser : qi::grammar<Iterator, OSDCap()>
{
OSDCapParser() : OSDCapParser::base_type(osdcap)
{
using qi::char_;
using qi::int_;
using qi::lexeme;
using qi::alnum;
using qi::_val;
using qi::_1;
using qi::_2;
using qi::_3;
using qi::eps;
using qi::lit;
quoted_string %=
lexeme['"' >> +(char_ - '"') >> '"'] |
lexeme['\'' >> +(char_ - '\'') >> '\''];
equoted_string %=
lexeme['"' >> *(char_ - '"') >> '"'] |
lexeme['\'' >> *(char_ - '\'') >> '\''];
unquoted_word %= +char_("a-zA-Z0-9_./-");
str %= quoted_string | unquoted_word;
estr %= equoted_string | unquoted_word;
network_str %= +char_("/.:a-fA-F0-9][");
spaces = +ascii::space;
wildcard = (lit('*') | lit("all")) [_val = "*"];
pool_name %= -(spaces >> lit("pool") >> (lit('=') | spaces) >> str);
nspace %= (spaces >> lit("namespace")
>> (lit('=') | spaces)
>> estr >> -char_('*'));
// match := [pool[=]<poolname> [namespace[=]<namespace>]] [object_prefix <prefix>]
object_prefix %= -(spaces >> lit("object_prefix") >> spaces >> str);
pooltag %= (spaces >> lit("tag")
>> spaces >> str // application
>> spaces >> (wildcard | str) // key
>> -spaces >> lit('=') >> -spaces >> (wildcard | str)); // value
match = (
pooltag [_val = phoenix::construct<OSDCapMatch>(_1)] |
(nspace >> pooltag) [_val = phoenix::construct<OSDCapMatch>(_1, _2)] |
(pool_name >> nspace >> object_prefix) [_val = phoenix::construct<OSDCapMatch>(_1, _2, _3)] |
(pool_name >> object_prefix) [_val = phoenix::construct<OSDCapMatch>(_1, _2)]
);
// rwxa := * | [r][w][x] [class-read] [class-write]
rwxa =
(spaces >> wildcard[_val = OSD_CAP_ANY]) |
( eps[_val = 0] >>
(
spaces >>
( lit('r')[_val |= OSD_CAP_R] ||
lit('w')[_val |= OSD_CAP_W] ||
lit('x')[_val |= OSD_CAP_X] )) ||
( (spaces >> lit("class-read")[_val |= OSD_CAP_CLS_R]) ||
(spaces >> lit("class-write")[_val |= OSD_CAP_CLS_W]) ));
// capspec := * | rwx | class <name> [<method name>]
class_name %= (spaces >> lit("class") >> spaces >> str);
method_name %= -(spaces >> str);
capspec = (
(rwxa) [_val = phoenix::construct<OSDCapSpec>(_1)] |
(class_name >> method_name) [_val = phoenix::construct<OSDCapSpec>(_1, _2)]);
// profile := profile <name> [pool[=]<pool> [namespace[=]<namespace>]]
profile_name %= (lit("profile") >> (lit('=') | spaces) >> str);
profile = (
(profile_name >> pool_name >> nspace) [_val = phoenix::construct<OSDCapProfile>(_1, _2, _3)] |
(profile_name >> pool_name) [_val = phoenix::construct<OSDCapProfile>(_1, _2)]);
// grant := allow match capspec
grant = (*ascii::blank >>
((lit("allow") >> capspec >> match >>
-(spaces >> lit("network") >> spaces >> network_str))
[_val = phoenix::construct<OSDCapGrant>(_2, _1, _3)] |
(lit("allow") >> match >> capspec >>
-(spaces >> lit("network") >> spaces >> network_str))
[_val = phoenix::construct<OSDCapGrant>(_1, _2, _3)] |
(profile >> -(spaces >> lit("network") >> spaces >> network_str))
[_val = phoenix::construct<OSDCapGrant>(_1, _2)]
) >> *ascii::blank);
// osdcap := grant [grant ...]
grants %= (grant % (lit(';') | lit(',')));
osdcap = grants [_val = phoenix::construct<OSDCap>(_1)];
}
qi::rule<Iterator> spaces;
qi::rule<Iterator, unsigned()> rwxa;
qi::rule<Iterator, string()> quoted_string, equoted_string;
qi::rule<Iterator, string()> unquoted_word;
qi::rule<Iterator, string()> str, estr, network_str;
qi::rule<Iterator, string()> wildcard;
qi::rule<Iterator, string()> class_name;
qi::rule<Iterator, string()> method_name;
qi::rule<Iterator, OSDCapSpec()> capspec;
qi::rule<Iterator, string()> pool_name;
qi::rule<Iterator, string()> nspace;
qi::rule<Iterator, string()> object_prefix;
qi::rule<Iterator, OSDCapPoolTag()> pooltag;
qi::rule<Iterator, OSDCapMatch()> match;
qi::rule<Iterator, string()> profile_name;
qi::rule<Iterator, OSDCapProfile()> profile;
qi::rule<Iterator, OSDCapGrant()> grant;
qi::rule<Iterator, std::vector<OSDCapGrant>()> grants;
qi::rule<Iterator, OSDCap()> osdcap;
};
bool OSDCap::parse(const string& str, ostream *err)
{
OSDCapParser<string::const_iterator> g;
string::const_iterator iter = str.begin();
string::const_iterator end = str.end();
bool r = qi::phrase_parse(iter, end, g, ascii::space, *this);
if (r && iter == end)
return true;
// Make sure no grants are kept after parsing failed!
grants.clear();
if (err)
*err << "osd capability parse failed, stopped at '" << std::string(iter, end)
<< "' of '" << str << "'";
return false;
}
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