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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) 2013 Inktank
*
* 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_uint.hpp>
#include <boost/spirit/include/qi.hpp>
#include <boost/fusion/include/std_pair.hpp>
#include <boost/phoenix.hpp>
#include <boost/fusion/adapted/struct/adapt_struct.hpp>
#include <boost/fusion/include/adapt_struct.hpp>
#include <boost/algorithm/string/predicate.hpp>
#include "MonCap.h"
#include "include/stringify.h"
#include "include/ipaddr.h"
#include "common/debug.h"
#include "common/Formatter.h"
#include <algorithm>
#include <regex>
#include "include/ceph_assert.h"
using std::list;
using std::map;
using std::ostream;
using std::pair;
using std::string;
using std::vector;
using ceph::bufferlist;
using ceph::Formatter;
static inline bool is_not_alnum_space(char c)
{
return !(isalpha(c) || isdigit(c) || (c == '-') || (c == '_'));
}
static std::string maybe_quote_string(const std::string& str)
{
if (find_if(str.begin(), str.end(), is_not_alnum_space) == str.end())
return str;
return string("\"") + str + string("\"");
}
#define dout_subsys ceph_subsys_mon
ostream& operator<<(ostream& out, const mon_rwxa_t& p)
{
if (p == MON_CAP_ANY)
return out << "*";
if (p & MON_CAP_R)
out << "r";
if (p & MON_CAP_W)
out << "w";
if (p & MON_CAP_X)
out << "x";
return out;
}
ostream& operator<<(ostream& out, const StringConstraint& c)
{
switch (c.match_type) {
case StringConstraint::MATCH_TYPE_EQUAL:
return out << "value " << c.value;
case StringConstraint::MATCH_TYPE_PREFIX:
return out << "prefix " << c.value;
case StringConstraint::MATCH_TYPE_REGEX:
return out << "regex " << c.value;
default:
break;
}
return out;
}
ostream& operator<<(ostream& out, const MonCapGrant& m)
{
out << "allow";
if (m.service.length()) {
out << " service " << maybe_quote_string(m.service);
}
if (m.command.length()) {
out << " command " << maybe_quote_string(m.command);
if (!m.command_args.empty()) {
out << " with";
for (auto p = m.command_args.begin();
p != m.command_args.end();
++p) {
switch (p->second.match_type) {
case StringConstraint::MATCH_TYPE_EQUAL:
out << " " << maybe_quote_string(p->first) << "="
<< maybe_quote_string(p->second.value);
break;
case StringConstraint::MATCH_TYPE_PREFIX:
out << " " << maybe_quote_string(p->first) << " prefix "
<< maybe_quote_string(p->second.value);
break;
case StringConstraint::MATCH_TYPE_REGEX:
out << " " << maybe_quote_string(p->first) << " regex "
<< maybe_quote_string(p->second.value);
break;
default:
break;
}
}
}
}
if (m.profile.length()) {
out << " profile " << maybe_quote_string(m.profile);
}
if (m.allow != 0)
out << " " << m.allow;
if (m.network.size())
out << " network " << m.network;
return out;
}
// <magic>
// fusion lets us easily populate structs via the qi parser.
typedef map<string,StringConstraint> kvmap;
BOOST_FUSION_ADAPT_STRUCT(MonCapGrant,
(std::string, service)
(std::string, profile)
(std::string, command)
(kvmap, command_args)
(mon_rwxa_t, allow)
(std::string, network)
(std::string, fs_name))
BOOST_FUSION_ADAPT_STRUCT(StringConstraint,
(StringConstraint::MatchType, match_type)
(std::string, value))
// </magic>
void MonCapGrant::parse_network()
{
network_valid = ::parse_network(network.c_str(), &network_parsed,
&network_prefix);
}
void MonCapGrant::expand_profile(const EntityName& name) const
{
// only generate this list once
if (!profile_grants.empty())
return;
if (profile == "read-only") {
// grants READ-ONLY caps monitor-wide
// 'auth' requires MON_CAP_X even for RO, which we do not grant here.
profile_grants.push_back(mon_rwxa_t(MON_CAP_R));
return;
}
if (profile == "read-write") {
// grants READ-WRITE caps monitor-wide
// 'auth' requires MON_CAP_X for all operations, which we do not grant.
profile_grants.push_back(mon_rwxa_t(MON_CAP_R | MON_CAP_W));
return;
}
if (profile == "mon") {
profile_grants.push_back(MonCapGrant("mon", MON_CAP_ALL));
profile_grants.push_back(MonCapGrant("log", MON_CAP_ALL));
}
if (profile == "osd") {
profile_grants.push_back(MonCapGrant("osd", MON_CAP_ALL));
profile_grants.push_back(MonCapGrant("mon", MON_CAP_R));
profile_grants.push_back(MonCapGrant("pg", MON_CAP_R | MON_CAP_W));
profile_grants.push_back(MonCapGrant("log", MON_CAP_W));
StringConstraint constraint(StringConstraint::MATCH_TYPE_REGEX,
string("osd_mclock_max_capacity_iops_(hdd|ssd)"));
profile_grants.push_back(MonCapGrant("config set", "name", constraint));
constraint = StringConstraint(StringConstraint::MATCH_TYPE_REGEX,
string("^(osd_max_backfills|") +
string("osd_recovery_max_active(.*)|") +
string("osd_mclock_scheduler_(.*))"));
profile_grants.push_back(MonCapGrant("config rm", "name", constraint));
}
if (profile == "mds") {
profile_grants.push_back(MonCapGrant("mds", MON_CAP_ALL));
profile_grants.push_back(MonCapGrant("mon", MON_CAP_R));
profile_grants.push_back(MonCapGrant("osd", MON_CAP_R));
// This command grant is checked explicitly in MRemoveSnaps handling
profile_grants.push_back(MonCapGrant("osd pool rmsnap"));
profile_grants.push_back(MonCapGrant("osd blocklist"));
profile_grants.push_back(MonCapGrant("osd blacklist")); // for compat
profile_grants.push_back(MonCapGrant("log", MON_CAP_W));
}
if (profile == "mgr") {
profile_grants.push_back(MonCapGrant("mgr", MON_CAP_ALL));
profile_grants.push_back(MonCapGrant("log", MON_CAP_R | MON_CAP_W));
profile_grants.push_back(MonCapGrant("mon", MON_CAP_R | MON_CAP_W));
profile_grants.push_back(MonCapGrant("mds", MON_CAP_R | MON_CAP_W));
profile_grants.push_back(MonCapGrant("fs", MON_CAP_R | MON_CAP_W));
profile_grants.push_back(MonCapGrant("osd", MON_CAP_R | MON_CAP_W));
profile_grants.push_back(MonCapGrant("auth", MON_CAP_R | MON_CAP_W | MON_CAP_X));
profile_grants.push_back(MonCapGrant("config-key", MON_CAP_R | MON_CAP_W));
profile_grants.push_back(MonCapGrant("config", MON_CAP_R | MON_CAP_W));
// cephadm orchestrator provisions new daemon keys and updates caps
profile_grants.push_back(MonCapGrant("auth get-or-create"));
profile_grants.push_back(MonCapGrant("auth caps"));
profile_grants.push_back(MonCapGrant("auth rm"));
// tell commands (this is a bit of a kludge)
profile_grants.push_back(MonCapGrant("smart"));
// allow the Telemetry module to gather heap and mempool metrics
profile_grants.push_back(MonCapGrant("heap"));
profile_grants.push_back(MonCapGrant("dump_mempools"));
}
if (profile == "osd" || profile == "mds" || profile == "mon" ||
profile == "mgr") {
StringConstraint constraint(StringConstraint::MATCH_TYPE_PREFIX,
string("daemon-private/") + stringify(name) +
string("/"));
std::string prefix = string("daemon-private/") + stringify(name) + string("/");
profile_grants.push_back(MonCapGrant("config-key get", "key", constraint));
profile_grants.push_back(MonCapGrant("config-key put", "key", constraint));
profile_grants.push_back(MonCapGrant("config-key set", "key", constraint));
profile_grants.push_back(MonCapGrant("config-key exists", "key", constraint));
profile_grants.push_back(MonCapGrant("config-key delete", "key", constraint));
}
if (profile == "bootstrap-osd") {
profile_grants.push_back(MonCapGrant("mon", MON_CAP_R)); // read monmap
profile_grants.push_back(MonCapGrant("osd", MON_CAP_R)); // read osdmap
profile_grants.push_back(MonCapGrant("mon getmap"));
profile_grants.push_back(MonCapGrant("osd new"));
profile_grants.push_back(MonCapGrant("osd purge-new"));
}
if (profile == "bootstrap-mds") {
profile_grants.push_back(MonCapGrant("mon", MON_CAP_R)); // read monmap
profile_grants.push_back(MonCapGrant("osd", MON_CAP_R)); // read osdmap
profile_grants.push_back(MonCapGrant("mon getmap"));
profile_grants.push_back(MonCapGrant("auth get-or-create")); // FIXME: this can expose other mds keys
profile_grants.back().command_args["entity"] = StringConstraint(
StringConstraint::MATCH_TYPE_PREFIX, "mds.");
profile_grants.back().command_args["caps_mon"] = StringConstraint(
StringConstraint::MATCH_TYPE_EQUAL, "allow profile mds");
profile_grants.back().command_args["caps_osd"] = StringConstraint(
StringConstraint::MATCH_TYPE_EQUAL, "allow rwx");
profile_grants.back().command_args["caps_mds"] = StringConstraint(
StringConstraint::MATCH_TYPE_EQUAL, "allow");
}
if (profile == "bootstrap-mgr") {
profile_grants.push_back(MonCapGrant("mon", MON_CAP_R)); // read monmap
profile_grants.push_back(MonCapGrant("osd", MON_CAP_R)); // read osdmap
profile_grants.push_back(MonCapGrant("mon getmap"));
profile_grants.push_back(MonCapGrant("auth get-or-create")); // FIXME: this can expose other mgr keys
profile_grants.back().command_args["entity"] = StringConstraint(
StringConstraint::MATCH_TYPE_PREFIX, "mgr.");
profile_grants.back().command_args["caps_mon"] = StringConstraint(
StringConstraint::MATCH_TYPE_EQUAL, "allow profile mgr");
}
if (profile == "bootstrap-rgw") {
profile_grants.push_back(MonCapGrant("mon", MON_CAP_R)); // read monmap
profile_grants.push_back(MonCapGrant("osd", MON_CAP_R)); // read osdmap
profile_grants.push_back(MonCapGrant("mon getmap"));
profile_grants.push_back(MonCapGrant("auth get-or-create")); // FIXME: this can expose other mds keys
profile_grants.back().command_args["entity"] = StringConstraint(
StringConstraint::MATCH_TYPE_PREFIX, "client.rgw.");
profile_grants.back().command_args["caps_mon"] = StringConstraint(
StringConstraint::MATCH_TYPE_EQUAL, "allow rw");
profile_grants.back().command_args["caps_osd"] = StringConstraint(
StringConstraint::MATCH_TYPE_EQUAL, "allow rwx");
}
if (profile == "bootstrap-rbd" || profile == "bootstrap-rbd-mirror") {
profile_grants.push_back(MonCapGrant("mon", MON_CAP_R)); // read monmap
profile_grants.push_back(MonCapGrant("auth get-or-create")); // FIXME: this can expose other rbd keys
profile_grants.back().command_args["entity"] = StringConstraint(
StringConstraint::MATCH_TYPE_PREFIX, "client.");
profile_grants.back().command_args["caps_mon"] = StringConstraint(
StringConstraint::MATCH_TYPE_EQUAL,
(profile == "bootstrap-rbd-mirror" ? "profile rbd-mirror" :
"profile rbd"));
profile_grants.back().command_args["caps_osd"] = StringConstraint(
StringConstraint::MATCH_TYPE_REGEX,
"^([ ,]*profile(=|[ ]+)['\"]?rbd[^ ,'\"]*['\"]?([ ]+pool(=|[ ]+)['\"]?[^,'\"]+['\"]?)?)+$");
}
if (profile == "fs-client") {
profile_grants.push_back(MonCapGrant("mon", MON_CAP_R));
profile_grants.push_back(MonCapGrant("mds", MON_CAP_R));
profile_grants.push_back(MonCapGrant("osd", MON_CAP_R));
profile_grants.push_back(MonCapGrant("pg", MON_CAP_R));
}
if (profile == "simple-rados-client") {
profile_grants.push_back(MonCapGrant("mon", MON_CAP_R));
profile_grants.push_back(MonCapGrant("osd", MON_CAP_R));
profile_grants.push_back(MonCapGrant("pg", MON_CAP_R));
}
if (profile == "simple-rados-client-with-blocklist") {
profile_grants.push_back(MonCapGrant("mon", MON_CAP_R));
profile_grants.push_back(MonCapGrant("osd", MON_CAP_R));
profile_grants.push_back(MonCapGrant("pg", MON_CAP_R));
profile_grants.push_back(MonCapGrant("osd blocklist"));
profile_grants.back().command_args["blocklistop"] = StringConstraint(
StringConstraint::MATCH_TYPE_EQUAL, "add");
profile_grants.back().command_args["addr"] = StringConstraint(
StringConstraint::MATCH_TYPE_REGEX, "^[^/]+/[0-9]+$");
}
if (boost::starts_with(profile, "rbd")) {
profile_grants.push_back(MonCapGrant("mon", MON_CAP_R));
profile_grants.push_back(MonCapGrant("osd", MON_CAP_R));
profile_grants.push_back(MonCapGrant("pg", MON_CAP_R));
// exclusive lock dead-client blocklisting (IP+nonce required)
profile_grants.push_back(MonCapGrant("osd blocklist"));
profile_grants.back().command_args["blocklistop"] = StringConstraint(
StringConstraint::MATCH_TYPE_EQUAL, "add");
profile_grants.back().command_args["addr"] = StringConstraint(
StringConstraint::MATCH_TYPE_REGEX, "^[^/]+/[0-9]+$");
// for compat,
profile_grants.push_back(MonCapGrant("osd blacklist"));
profile_grants.back().command_args["blacklistop"] = StringConstraint(
StringConstraint::MATCH_TYPE_EQUAL, "add");
profile_grants.back().command_args["addr"] = StringConstraint(
StringConstraint::MATCH_TYPE_REGEX, "^[^/]+/[0-9]+$");
}
if (profile == "rbd-mirror") {
StringConstraint constraint(StringConstraint::MATCH_TYPE_PREFIX,
"rbd/mirror/");
profile_grants.push_back(MonCapGrant("config-key get", "key", constraint));
} else if (profile == "rbd-mirror-peer") {
StringConstraint constraint(StringConstraint::MATCH_TYPE_REGEX,
"rbd/mirror/[^/]+");
profile_grants.push_back(MonCapGrant("config-key get", "key", constraint));
constraint = StringConstraint(StringConstraint::MATCH_TYPE_PREFIX,
"rbd/mirror/peer/");
profile_grants.push_back(MonCapGrant("config-key set", "key", constraint));
}
else if (profile == "crash") {
// TODO: we could limit this to getting the monmap and mgrmap...
profile_grants.push_back(MonCapGrant("mon", MON_CAP_R));
}
if (profile == "cephfs-mirror") {
profile_grants.push_back(MonCapGrant("mon", MON_CAP_R));
profile_grants.push_back(MonCapGrant("mds", MON_CAP_R));
profile_grants.push_back(MonCapGrant("osd", MON_CAP_R));
profile_grants.push_back(MonCapGrant("pg", MON_CAP_R));
StringConstraint constraint(StringConstraint::MATCH_TYPE_PREFIX,
"cephfs/mirror/peer/");
profile_grants.push_back(MonCapGrant("config-key get", "key", constraint));
}
if (profile == "role-definer") {
// grants ALL caps to the auth subsystem, read-only on the
// monitor subsystem and nothing else.
profile_grants.push_back(MonCapGrant("mon", MON_CAP_R));
profile_grants.push_back(MonCapGrant("auth", MON_CAP_ALL));
}
}
mon_rwxa_t MonCapGrant::get_allowed(CephContext *cct,
EntityName name,
const std::string& s, const std::string& c,
const map<string,string>& c_args) const
{
if (profile.length()) {
expand_profile(name);
mon_rwxa_t a;
for (auto p = profile_grants.begin();
p != profile_grants.end(); ++p)
a = a | p->get_allowed(cct, name, s, c, c_args);
return a;
}
if (service.length()) {
if (service != s)
return 0;
return allow;
}
if (command.length()) {
if (command != c)
return 0;
for (map<string,StringConstraint>::const_iterator p = command_args.begin(); p != command_args.end(); ++p) {
map<string,string>::const_iterator q = c_args.find(p->first);
// argument must be present if a constraint exists
if (q == c_args.end())
return 0;
switch (p->second.match_type) {
case StringConstraint::MATCH_TYPE_EQUAL:
if (p->second.value != q->second)
return 0;
break;
case StringConstraint::MATCH_TYPE_PREFIX:
if (q->second.find(p->second.value) != 0)
return 0;
break;
case StringConstraint::MATCH_TYPE_REGEX:
try {
std::regex pattern(
p->second.value, std::regex::extended);
if (!std::regex_match(q->second, pattern))
return 0;
} catch(const std::regex_error&) {
return 0;
}
break;
default:
break;
}
}
return MON_CAP_ALL;
}
// we don't allow config-key service to be accessed with blanket caps other
// than '*' (i.e., 'any'), and that should have been checked by the caller
// via 'is_allow_all()'.
if (s == "config-key") {
return 0;
}
return allow;
}
ostream& operator<<(ostream&out, const MonCap& m)
{
for (vector<MonCapGrant>::const_iterator p = m.grants.begin(); p != m.grants.end(); ++p) {
if (p != m.grants.begin())
out << ", ";
out << *p;
}
return out;
}
bool MonCap::is_allow_all() const
{
for (vector<MonCapGrant>::const_iterator p = grants.begin(); p != grants.end(); ++p)
if (p->is_allow_all())
return true;
return false;
}
void MonCap::set_allow_all()
{
grants.clear();
grants.push_back(MonCapGrant(MON_CAP_ANY));
text = "allow *";
}
bool MonCap::is_capable(
CephContext *cct,
EntityName name,
const string& service,
const string& command, const map<string,string>& command_args,
bool op_may_read, bool op_may_write, bool op_may_exec,
const entity_addr_t& addr) const
{
if (cct)
ldout(cct, 20) << "is_capable service=" << service << " command=" << command
<< (op_may_read ? " read":"")
<< (op_may_write ? " write":"")
<< (op_may_exec ? " exec":"")
<< " addr " << addr
<< " on cap " << *this
<< dendl;
mon_rwxa_t allow = 0;
for (vector<MonCapGrant>::const_iterator p = grants.begin();
p != grants.end(); ++p) {
if (cct)
ldout(cct, 20) << " allow so far " << allow << ", doing grant " << *p
<< dendl;
if (p->network.size() &&
(!p->network_valid ||
!network_contains(p->network_parsed,
p->network_prefix,
addr))) {
continue;
}
if (p->is_allow_all()) {
if (cct)
ldout(cct, 20) << " allow all" << dendl;
return true;
}
// check enumerated caps
allow = allow | p->get_allowed(cct, name, service, command, command_args);
if ((!op_may_read || (allow & MON_CAP_R)) &&
(!op_may_write || (allow & MON_CAP_W)) &&
(!op_may_exec || (allow & MON_CAP_X))) {
if (cct)
ldout(cct, 20) << " match" << dendl;
return true;
}
}
return false;
}
void MonCap::encode(bufferlist& bl) const
{
ENCODE_START(4, 4, bl); // legacy MonCaps was 3, 3
encode(text, bl);
ENCODE_FINISH(bl);
}
void MonCap::decode(bufferlist::const_iterator& bl)
{
std::string s;
DECODE_START(4, bl);
decode(s, bl);
DECODE_FINISH(bl);
parse(s, NULL);
}
void MonCap::dump(Formatter *f) const
{
f->dump_string("text", text);
}
void MonCap::generate_test_instances(list<MonCap*>& ls)
{
ls.push_back(new MonCap);
ls.push_back(new MonCap);
ls.back()->parse("allow *");
ls.push_back(new MonCap);
ls.back()->parse("allow rwx");
ls.push_back(new MonCap);
ls.back()->parse("allow service foo x");
ls.push_back(new MonCap);
ls.back()->parse("allow command bar x");
ls.push_back(new MonCap);
ls.back()->parse("allow service foo r, allow command bar x");
ls.push_back(new MonCap);
ls.back()->parse("allow command bar with k1=v1 x");
ls.push_back(new MonCap);
ls.back()->parse("allow command bar with k1=v1 k2=v2 x");
}
// grammar
namespace qi = boost::spirit::qi;
namespace ascii = boost::spirit::ascii;
namespace phoenix = boost::phoenix;
template <typename Iterator>
struct MonCapParser : qi::grammar<Iterator, MonCap()>
{
MonCapParser() : MonCapParser::base_type(moncap)
{
using qi::char_;
using qi::int_;
using qi::ulong_long;
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_ - '\'') >> '\''];
unquoted_word %= +char_("a-zA-Z0-9_./-");
str %= quoted_string | unquoted_word;
network_str %= +char_("/.:a-fA-F0-9][");
fs_name_str %= +char_("a-zA-Z0-9_.-");
spaces = +(lit(' ') | lit('\n') | lit('\t'));
// command := command[=]cmd [k1=v1 k2=v2 ...]
str_match = '=' >> qi::attr(StringConstraint::MATCH_TYPE_EQUAL) >> str;
str_prefix = spaces >> lit("prefix") >> spaces >>
qi::attr(StringConstraint::MATCH_TYPE_PREFIX) >> str;
str_regex = spaces >> lit("regex") >> spaces >>
qi::attr(StringConstraint::MATCH_TYPE_REGEX) >> str;
kv_pair = str >> (str_match | str_prefix | str_regex);
kv_map %= kv_pair >> *(spaces >> kv_pair);
command_match = -spaces >> lit("allow") >> spaces >> lit("command") >> (lit('=') | spaces)
>> qi::attr(string()) >> qi::attr(string())
>> str
>> -(spaces >> lit("with") >> spaces >> kv_map)
>> qi::attr(0)
>> -(spaces >> lit("network") >> spaces >> network_str);
// service foo rwxa
service_match %= -spaces >> lit("allow") >> spaces >> lit("service") >> (lit('=') | spaces)
>> str >> qi::attr(string()) >> qi::attr(string())
>> qi::attr(map<string,StringConstraint>())
>> spaces >> rwxa
>> -(spaces >> lit("network") >> spaces >> network_str);
// profile foo
profile_match %= -spaces >> -(lit("allow") >> spaces)
>> lit("profile") >> (lit('=') | spaces)
>> qi::attr(string())
>> str
>> qi::attr(string())
>> qi::attr(map<string,StringConstraint>())
>> qi::attr(0)
>> -(spaces >> lit("network") >> spaces >> network_str);
// rwxa
rwxa_match %= -spaces >> lit("allow") >> spaces
>> qi::attr(string()) >> qi::attr(string()) >> qi::attr(string())
>> qi::attr(map<string,StringConstraint>())
>> rwxa
>> -(spaces >> lit("network") >> spaces >> network_str)
>> -(spaces >> lit("fsname") >> (lit('=') | spaces) >> fs_name_str);
// rwxa := * | [r][w][x]
rwxa =
(lit("*")[_val = MON_CAP_ANY]) |
(lit("all")[_val = MON_CAP_ANY]) |
( eps[_val = 0] >>
( lit('r')[_val |= MON_CAP_R] ||
lit('w')[_val |= MON_CAP_W] ||
lit('x')[_val |= MON_CAP_X]
)
);
// grant := allow ...
grant = -spaces >> (rwxa_match | profile_match | service_match | command_match) >> -spaces;
// moncap := grant [grant ...]
grants %= (grant % (*lit(' ') >> (lit(';') | lit(',')) >> *lit(' ')));
moncap = grants [_val = phoenix::construct<MonCap>(_1)];
}
qi::rule<Iterator> spaces;
qi::rule<Iterator, unsigned()> rwxa;
qi::rule<Iterator, string()> quoted_string;
qi::rule<Iterator, string()> unquoted_word;
qi::rule<Iterator, string()> str, network_str;
qi::rule<Iterator, string()> fs_name_str;
qi::rule<Iterator, StringConstraint()> str_match, str_prefix, str_regex;
qi::rule<Iterator, pair<string, StringConstraint>()> kv_pair;
qi::rule<Iterator, map<string, StringConstraint>()> kv_map;
qi::rule<Iterator, MonCapGrant()> rwxa_match;
qi::rule<Iterator, MonCapGrant()> command_match;
qi::rule<Iterator, MonCapGrant()> service_match;
qi::rule<Iterator, MonCapGrant()> profile_match;
qi::rule<Iterator, MonCapGrant()> grant;
qi::rule<Iterator, std::vector<MonCapGrant>()> grants;
qi::rule<Iterator, MonCap()> moncap;
};
bool MonCap::parse(const string& str, ostream *err)
{
auto iter = str.begin();
auto end = str.end();
MonCapParser<string::const_iterator> exp;
bool r = qi::parse(iter, end, exp, *this);
if (r && iter == end) {
text = str;
for (auto& g : grants) {
g.parse_network();
}
return true;
}
// Make sure no grants are kept after parsing failed!
grants.clear();
if (err) {
if (iter != end)
*err << "mon capability parse failed, stopped at '"
<< std::string(iter, end)
<< "' of '" << str << "'";
else
*err << "mon capability parse failed, stopped at end of '" << str << "'";
}
return false;
}
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