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// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab
#ifndef CEPH_MONCAP_H
#define CEPH_MONCAP_H
#include <ostream>
using std::ostream;
#include "include/types.h"
#include "common/entity_name.h"
class CephContext;
static const __u8 MON_CAP_R = (1 << 1); // read
static const __u8 MON_CAP_W = (1 << 2); // write
static const __u8 MON_CAP_X = (1 << 3); // execute
static const __u8 MON_CAP_ALL = MON_CAP_R | MON_CAP_W | MON_CAP_X;
static const __u8 MON_CAP_ANY = 0xff; // *
struct mon_rwxa_t {
__u8 val;
// cppcheck-suppress noExplicitConstructor
mon_rwxa_t(__u8 v = 0) : val(v) {}
mon_rwxa_t& operator=(__u8 v) {
val = v;
return *this;
}
operator __u8() const {
return val;
}
};
ostream& operator<<(ostream& out, const mon_rwxa_t& p);
struct StringConstraint {
enum MatchType {
MATCH_TYPE_NONE,
MATCH_TYPE_EQUAL,
MATCH_TYPE_PREFIX,
MATCH_TYPE_REGEX
};
MatchType match_type = MATCH_TYPE_NONE;
string value;
StringConstraint() {}
StringConstraint(MatchType match_type, string value)
: match_type(match_type), value(value) {
}
};
ostream& operator<<(ostream& out, const StringConstraint& c);
struct MonCapGrant {
/*
* A grant can come in one of four forms:
*
* - a blanket allow ('allow rw', 'allow *')
* - this will match against any service and the read/write/exec flags
* in the mon code. semantics of what X means are somewhat ad hoc.
*
* - a service allow ('allow service mds rw')
* - this will match against a specific service and the r/w/x flags.
*
* - a profile ('allow profile osd')
* - this will match against specific monitor-enforced semantics of what
* this type of user should need to do. examples include 'osd', 'mds',
* 'bootstrap-osd'.
*
* - a command ('allow command foo', 'allow command bar with arg1=val1 arg2 prefix val2')
* this includes the command name (the prefix string), and a set
* of key/value pairs that constrain use of that command. if no pairs
* are specified, any arguments are allowed; if a pair is specified, that
* argument must be present and equal or match a prefix.
*/
std::string service;
std::string profile;
std::string command;
map<std::string,StringConstraint> command_args;
// restrict by network
std::string network;
// these are filled in by parse_network(), called by MonCap::parse()
entity_addr_t network_parsed;
unsigned network_prefix = 0;
bool network_valid = true;
void parse_network();
mon_rwxa_t allow;
// explicit grants that a profile grant expands to; populated as
// needed by expand_profile() (via is_match()) and cached here.
mutable list<MonCapGrant> profile_grants;
void expand_profile(const EntityName& name) const;
MonCapGrant() : allow(0) {}
// cppcheck-suppress noExplicitConstructor
MonCapGrant(mon_rwxa_t a) : allow(a) {}
MonCapGrant(string s, mon_rwxa_t a) : service(std::move(s)), allow(a) {}
// cppcheck-suppress noExplicitConstructor
MonCapGrant(string c) : command(std::move(c)) {}
MonCapGrant(string c, string a, StringConstraint co) : command(std::move(c)) {
command_args[a] = co;
}
/**
* check if given request parameters match our constraints
*
* @param cct context
* @param name entity name
* @param service service (if any)
* @param command command (if any)
* @param command_args command args (if any)
* @return bits we allow
*/
mon_rwxa_t get_allowed(CephContext *cct,
EntityName name,
const std::string& service,
const std::string& command,
const map<string,string>& command_args) const;
bool is_allow_all() const {
return
allow == MON_CAP_ANY &&
service.length() == 0 &&
profile.length() == 0 &&
command.length() == 0;
}
};
ostream& operator<<(ostream& out, const MonCapGrant& g);
struct MonCap {
string text;
std::vector<MonCapGrant> grants;
MonCap() {}
explicit MonCap(const std::vector<MonCapGrant> &g) : grants(g) {}
string get_str() const {
return text;
}
bool is_allow_all() const;
void set_allow_all();
bool parse(const std::string& str, ostream *err=NULL);
/**
* check if we are capable of something
*
* This method actually checks a description of a particular operation against
* what the capability has specified.
*
* @param service service name
* @param command command id
* @param command_args
* @param op_may_read whether the operation may need to read
* @param op_may_write whether the operation may need to write
* @param op_may_exec whether the operation may exec
* @return true if the operation is allowed, false otherwise
*/
bool 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;
void encode(bufferlist& bl) const;
void decode(bufferlist::const_iterator& bl);
void dump(Formatter *f) const;
static void generate_test_instances(list<MonCap*>& ls);
};
WRITE_CLASS_ENCODER(MonCap)
ostream& operator<<(ostream& out, const MonCap& cap);
#endif
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