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one/include/AddressRange.h

815 lines
27 KiB
C++

/* -------------------------------------------------------------------------- */
/* Copyright 2002-2019, OpenNebula Project, OpenNebula Systems */
/* */
/* Licensed under the Apache License, Version 2.0 (the "License"); you may */
/* not use this file except in compliance with the License. You may obtain */
/* a copy of the License at */
/* */
/* http://www.apache.org/licenses/LICENSE-2.0 */
/* */
/* Unless required by applicable law or agreed to in writing, software */
/* distributed under the License is distributed on an "AS IS" BASIS, */
/* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. */
/* See the License for the specific language governing permissions and */
/* limitations under the License. */
/* -------------------------------------------------------------------------- */
#ifndef ADDRESS_RANGE_H_
#define ADDRESS_RANGE_H_
#include <string>
#include <set>
#include <vector>
#include "PoolObjectSQL.h"
#include "AddressRangePool.h"
using namespace std;
class VectorAttribute;
/**
* The Lease class represents an address lease from a Virtual Network.
*/
class AddressRange
{
public:
virtual ~AddressRange(){};
// *************************************************************************
// Address Range types
/// *************************************************************************
/**
* Type of Addresses defined by this address range
* Constants are encoded as follows:
*
* option bits address family bits
* ---+----+----+
* ...*|0000|****|
* ----+----+||||+
* |||\___ AR with Ethernet addresses
* ||\____ AR with IPv4 addresses
* |\_____ AR with IPv6 addresses (SLAAC)
* \______ AR with IPv6 addresses (static, non-SLAAC)
*/
enum AddressType
{
NONE = 0x00000000, /** Undefined Address Type */
ETHER = 0x00000001, /** MAC address type */
IP4 = 0x00000003, /** MAC + IP4 address */
IP6 = 0x00000005, /** MAC + IP6 address */
IP6_STATIC = 0x00000009, /** MAC + IP6 (no-SLAAC) address */
IP4_6 = 0x00000007, /** MAC + IP4 + IP6 addresses */
IP4_6_STATIC = 0x0000000B, /** MAC + IP4 + IP6 (no-SLAAC) addresses */
};
/**
* Return the string representation of an AddressType
* @param ob the type
* @return the string
*/
static string type_to_str(AddressType ob);
/**
* Return the string representation of an AddressType
* @param ob the type
* @return the string
*/
static AddressType str_to_type(string& str_type);
/**
* Return true if the address range includes IPv4 addresses
*/
bool is_ipv4() const
{
return (type & 0x00000002) != 0;
}
/**
* Return true if the address range includes IPv6 addresses
*/
bool is_ipv6() const
{
return (type & 0x00000004) != 0;
}
/**
* Return true if the address range includes static IPv6 addresses (host id
* is manually defined)
*/
bool is_ipv6_static() const
{
return (type & 0x00000008) != 0;
}
bool is_ipam() const
{
return !attr->vector_value("IPAM_MAD").empty() && attr->vector_value("IPAM_MAD") != "internal";
}
// *************************************************************************
// Address Range initialization functions
// *************************************************************************
/**
* Init an Address Range based on a vector attribute the following
* attributes will be parsed (* are optional):
* - TYPE = ETHER | IP4 | IP6 | IP4_6
* - SIZE
* - MAC
* - IP
* - ULA_PREFIX
* - GLOBAL_PREFIX
*
* The following can be defined to override VNET values:
* - BRIDGE
* - VLAN_ID
* - PHYDEV
*
* Any value defined in the INHERIT_VNET_ATTR can be defined as well.
*
* Any value for context can be included in the AR.
*
* Example:
* - AR = [ TYPE = "ETHER", SIZE = 128, MAC = "00:02:01:02:03:04"]
* - AR = [ TYPE = "ETHER", SIZE = 128]
* - AR = [ TYPE = IP4,
* SIZE = 256,
* IP = 10.0.0.0,
* DNS = 10.0.0.5]
* - AR = [ TYPE = "IP6",
* SIZE = 1024,
* ULA_PREFIX = "fd00:0:0:1::",
* GLOBAL_PREFIX = "2001::"]
*
* NOTE: This function is part of the AddressRange interface. The AR
* implementation may contact an external IPAM to complete or validate
* the AR allocation request.
*/
virtual int from_vattr(VectorAttribute * attr, string& error_msg) = 0;
/**
* Builds an Address Range from a vector attribute stored in the DB
* @param vattr the VectorAttribute stored in a ADDRESS_RANGE template
*/
int from_vattr_db(VectorAttribute *vattr);
/**
* Builds an extended XML representation of the AR to send it back to
* clients
* @param oss stream to write the XML
* @param vm_ids list of VM the user can access VNET usage info from.
* A vector containing just -1 means all VMs.
* @param vnet_ids list of VNET the user can access reservation info from.
* A vector containing just -1 means all VNETs.
* @param vrs list of VRouter the user can access VNET usage info from.
* A vector containing just -1 means all VRouters.
*/
void to_xml(ostringstream &oss, const vector<int>& vms,
const vector<int>& vnets, const vector<int>& vrs) const;
/**
* Same as above but without the LEASES section
*/
void to_xml(ostringstream &oss) const;
// *************************************************************************
// Address allocation functions
// *************************************************************************
/**
* Returns an unused address, which becomes used and fills a NIC attribute
* with the configuration parameters from the address range.
* @param ot the type of the object allocating the address
* @param obid the id of the object
* @param nic the VM NIC attribute
* @param inherit attributes to be added to the NIC attribute
* @return 0 if success
*/
int allocate_addr(PoolObjectSQL::ObjectType ot, int obid,
VectorAttribute * nic, const vector<string> &inherit);
/**
* Returns the specific address by mac/ip if is not allocated. The NIC attr
* is filled with the configuration parameters from the address range.
* @param mac the mac address
* @param ot the type of the object allocating the address
* @param obid the id of the object
* @param nic the VM NIC attribute
* @param inherit attributes to be added to the NIC attribute
* @return 0 if success
*/
int allocate_by_mac(const string& mac, PoolObjectSQL::ObjectType ot,
int obid, VectorAttribute * nic, const vector<string> &inherit);
int allocate_by_ip(const string& ip, PoolObjectSQL::ObjectType ot,
int obid, VectorAttribute * nic, const vector<string> &inherit);
int allocate_by_ip6(const string& ip6, PoolObjectSQL::ObjectType ot,
int obid, VectorAttribute * nic, const vector<string> &inherit);
/**
* Sets the given ip/mac on hold, the address is associated to a VM of
* id -1.
* @param ip/mac the ip to hold
*/
int hold_by_mac(const string& mac);
int hold_by_ip(const string& ip);
int hold_by_ip6(const string& ip);
/**
* Frees a previous allocated address, referenced by its MAC/IP address
* @param ot the object type of the owner of the address
* @param obid the id of the owner of the address
* @param mac/ip the MAC/IP address in string form
* @return 0 if the address was freed
*/
int free_addr(PoolObjectSQL::ObjectType ot, int obid, const string& mac);
int free_addr_by_ip(PoolObjectSQL::ObjectType ot, int id, const string& ip);
int free_addr_by_ip6(PoolObjectSQL::ObjectType ot, int id,const string& ip);
/**
* Frees all previous allocated address to the given object
* @param ot the object type of the owner of the address
* @param obid the id of the owner of the address
* @return the number of addresses freed
*/
int free_addr_by_owner(PoolObjectSQL::ObjectType ot, int obid);
/**
* Frees a previous allocated address range, referenced by its MAC address
* and size
* @param ot the object type of the owner of the address
* @param obid the id of the owner of the address
* @param mac the first MAC address in string form
* @param rsize the size of the range
* @return the number of addresses freed
*/
int free_addr_by_range(PoolObjectSQL::ObjectType ot, int obid,
const string& mac, unsigned int rsize);
/**
* Adds the relevant AR definition attributes to the Security Group rule
*
* @param rule rule to modify
*/
void process_security_rule(VectorAttribute * rule);
// *************************************************************************
// Address Reservation
// *************************************************************************
/**
* Reserve a given number of addresses from this address range
* @param vid the id of the VNET making the reservation
* @param size number of addresses to reserve
* @param rar a new address range to place the reservation
* @return 0 on success
*/
int reserve_addr(int vid, unsigned int rsize, AddressRange *rar);
/**
* Reserve a given number of addresses from this address range
* @param vid the id of the VNET making the reservation
* @param size number of addresses to reserve
* @param rar a new address range to place the reservation
* @param ip/mac the firs ip in the Reservation
* @return 0 on success
*/
int reserve_addr_by_mac(int vid, unsigned int rsize, const string& mac,
AddressRange *rar);
int reserve_addr_by_ip(int vid, unsigned int rsize, const string& ip,
AddressRange *rar);
int reserve_addr_by_ip6(int vid, unsigned int rsize, const string& ip,
AddressRange *rar);
// *************************************************************************
// Helpers
// *************************************************************************
/**
* Return the id for this address range
*/
unsigned int ar_id() const
{
return id;
}
/**
* Return the number of used addresses
*/
unsigned int get_used_addr() const
{
return allocated.size();
}
/**
* Return the number of free addresses
*/
unsigned int get_free_addr() const
{
return size - allocated.size();
}
/**
* Return the total number of addresses
*/
unsigned int get_size() const
{
return size;
}
/**
* Returns the string value of an Address Range Attribute
* @param name of the attribute
* @return the value of the attribute if found, empty otherwise
*/
string get_attribute(const string& name) const
{
return attr->vector_value(name);
}
/**
* Returns the int value of an Address Range Attribute
* @param name of the attribute
* @param value of the attribute
* @return 0 on success
*/
int get_attribute(const string& name, int& value) const
{
return attr->vector_value(name, value);
}
/**
* Updates the Address Range with the attributes provided. The following
* CANNOT be updated: TYPE, SIZE, IP, MAC (plus the internal AR_ID and
* ALLOCATED)
* @param vup the new vector attributes for the address range
* @param error_msg If the action fails, this message contains
* the reason.
* @return 0 on success
*/
int update_attributes(
VectorAttribute * vup,
bool keep_restricted,
string& error_msg);
/**
* Helper function to initialize restricte attributes of an AddressRange
*/
static void set_restricted_attributes(vector<const SingleAttribute *>& ras);
/**
* Get the security groups for this AR.
* @return a reference to the security group set
*/
const set<int>& get_security_groups() const
{
return security_groups;
}
/**
* Copy security groups into set
*/
void get_security_groups(set<int>& sgs)
{
std::set<int>::const_iterator it;
for (it = security_groups.begin(); it != security_groups.end(); ++it)
{
sgs.insert(*it);
}
}
/*
* Decrypts the address range attributes
*/
void decrypt();
/*
* add_ar from AddressRangePool needs to access the internal representation
* of the AR to include it in the ARPool template.
*/
friend int AddressRangePool::add_ar(AddressRange * ar);
/*
* rm_ar from AddressRangePool needs to access the internal representation
* of the AR to remove it from the ARPool template.
*/
friend int AddressRangePool::rm_ar(unsigned int ar_id, string& error_msg);
/*
* rm_ars from AddressRangePool needs to access the internal representation
* of the AR to remove it from the ARPool template.
*/
friend int AddressRangePool::rm_ars(string& error_msg);
protected:
/**
* Base constructor it cannot be called directly but from the
* AddressRange factory constructor.
*/
AddressRange(unsigned int _id):id(_id){};
/* ---------------------------------------------------------------------- */
/* Address/AR helper functions to build/parse driver messages */
/* ---------------------------------------------------------------------- */
/**
* Builds the AddressRange from its vector attribute representation
*/
int from_attr(VectorAttribute * attr, string& error_msg);
/**
* Builds an address request representation in XML form:
* <ADDRESS>
* <IP>
* <MAC>
* <IP6_ULA>
* <IP6_GLOBAL>
* <IP6>
* <SIZE>
*
* @param index for the address
* @param size number of addresses in this request
* @param oss string stream to write the request to
*/
void addr_to_xml(unsigned int index, unsigned int size,
ostringstream& oss) const;
/**
* Check if the given MAC is valid for this address range by verifying:
* - Correct : notation
* - Part of the AR
*
* @param index of the MAC in the AR
* @param mac_s string representation of the MAC in : notation
* @param check_free apart from previous checks
*
* @return true if the MAC is valid
*/
bool is_valid_mac(unsigned int& index, const string& mac_s, bool check_free);
/**
* Check if the given IP is valid for this address range by verifying:
* - AR is of type IP4 or IP4_6
* - Correct . notation
* - Part of the AR
*
* @param index of the IP in the AR
* @param ip_s string representation of the IP in . notation
* @param check_free apart from previous checks
*
* @return true if the IP is valid
*/
bool is_valid_ip(unsigned int& index, const string& ip_s, bool check_free);
/**
* Check if the given IP is valid for this address range by verifying:
* - AR is of type IP6_STATIC or IP4_6_STATIC
* - Correct : notation
* - Part of the AR
*
* @param index of the IP in the AR
* @param ip6_s string representation of the IP in : notation
* @param check_free apart from previous checks
*
* @return true if the IP is valid
*/
bool is_valid_ip6(unsigned int& index, const string& ip_s, bool check_free);
/* ---------------------------------------------------------------------- */
/* Implementation specific address management interface */
/* ---------------------------------------------------------------------- */
/**
* Sets the given range of addresses (by index) as used
* @param ix the first address to set as used
* @param sz number of addresses to set
* @param mg describing the error if any
*
* @return 0 if success
*/
virtual int allocate_addr(unsigned int ix, unsigned int sz, string& mg) = 0;
/**
* Gets a range of free addresses
* @param index the first address in the range
* @param size number of addresses requested in the range
* @param msg describing the error if any
*
* @return 0 if success
*/
virtual int get_addr(unsigned int& index, unsigned int sz, string& msg) = 0;
/**
* Sets the given address (by index) as free
* @param index of the address
* @param msg describing the error if any
*
* @return 0 if success
*/
virtual int free_addr(unsigned int index, string& msg) = 0;
/* ---------------------------------------------------------------------- */
/* Allocated addresses */
/* ---------------------------------------------------------------------- */
/**
* Map to store the allocated address indexed by the address index relative
* to the mac/ip values. It contains also the type and id of the object
* owning the address.
*
* +--------------------+--------------------+
* index ----> | ObjectType(32bits) | Object ID (32bits) |
* +--------------------+--------------------+
*
* Address = First Address + index
*/
map<unsigned int, long long> allocated;
private:
/* ---------------------------------------------------------------------- */
/* String to binary conversion functions for different address types */
/* ---------------------------------------------------------------------- */
/**
* MAC to binary (48 bits)
* @param mac in string form 00:02:01:02:03:04
* @return 0 on success
*/
int mac_to_i(string mac, unsigned int i_mac[]) const;
/**
* MAC to string
* @param mac in array form
*/
string mac_to_s(const unsigned int mac[]) const;
/**
* IP version 4 to binary (32 bits)
* @param ip in string form 192.168.0.2
* @return 0 on success
*/
int ip_to_i(const string& _ip, unsigned int& i_ip) const;
/**
* IP version 6 to binary (32 bits)
* @param ip string form 2a00:1bc0:b001:A::3
* @return 0 on success
*/
int ip6_to_i(const string& _ip, unsigned int i_ip[]) const;
/**
* IP version 4 to dot notation
*
* @param i_ip Numeric (32 bits) IP
* @return dot notation
*/
string ip_to_s(unsigned int i_ip) const;
/**
* IPv6 64bits prefix conversion
* @param prefix in string form 2a00:1bc0:b001:A::
* @return 0 on success
*/
int prefix6_to_i(const string& prefix, unsigned int ip[]) const;
/**
* IPv6 to string
* @param prefix Numeric IPv6 prefix
* @param mac Numeric (48 bits) mac address
* @param ip6_s Will contain the resulting IPv6 string
* @return 0 on success
*/
int ip6_to_s(const unsigned int prefix[], const unsigned int mac[],
string& ip6_s) const;
int ip6_to_s(const unsigned int ip6_i[], string& ip6_s) const;
/* ---------------------------------------------------------------------- */
/* NIC setup functions */
/* ---------------------------------------------------------------------- */
/**
* Writes MAC address to the given NIC attribute
* @param addr_index internal index for the lease
* @param nic attribute of a VMTemplate
*/
void set_mac(unsigned int addr_index, VectorAttribute * nic) const;
/**
* Writes IP address to the given NIC attribute
* @param addr_index internal index for the lease
* @param nic attribute of a VMTemplate
*/
void set_ip(unsigned int addr_index, VectorAttribute * nic) const;
/**
* Writes IPv6 address to the given NIC attribute
* @param addr_index internal index for the lease
* @param nic attribute of a VMTemplate
*/
void set_ip6(unsigned int addr_index, VectorAttribute * nic) const;
/**
* Writes IPv6 address (no-slaac) to the given NIC attribute
* @param addr_index internal index for the lease
* @param nic attribute of a VMTemplate
*/
void set_ip6_static(unsigned int addr_index, VectorAttribute * nic) const;
/**
* Writes VNET configuration attributes to the given NIC attribute. It
* includes: BRIDGE, VLAN_ID, PHYDEV and INHERIT_VNET_ATTR in oned.conf
* @param addr_index internal index for the lease
* @param nic attribute of a VMTemplate
*/
void set_vnet(VectorAttribute *nic, const vector<string> &inherit) const;
/* ---------------------------------------------------------------------- */
/* Address index map helper functions */
/* ---------------------------------------------------------------------- */
/**
* This function generates a string representation of the in-memory allocated
* addresses. It'll be stored along side the AR vector attribute in the
* ADDRESS_RANGE template.
*/
void allocated_to_attr();
/**
* Generates a memory map for the addresses.
* @param allocated_s the string representation of the allocated addresses
* generated by allocated_to_attr()
* @return 0 on success
*/
int attr_to_allocated(const string& allocated_s);
/**
* Adds a new allocated address to the map. Updates the ALLOCATED attribute
*/
void set_allocated_addr(PoolObjectSQL::ObjectType ot, int obid,
unsigned int addr_index);
/**
* Sets the address lease as used and fills a NIC attribute with the
* configuration parameters from the address range.
* @param index of the lease in the address range
* @param ot the type of the object allocating the address
* @param obid the id of the object
* @param nic the VM NIC attribute
* @param inherit attributes to be added to the NIC attribute
* @return 0 if success
*/
void allocate_by_index(unsigned int index,
PoolObjectSQL::ObjectType ot,
int obid,
VectorAttribute* nic,
const vector<string>& inherit);
/**
* Frees an address from the map. Updates the ALLOCATED attribute
*/
int free_allocated_addr(PoolObjectSQL::ObjectType ot, int obid,
unsigned int addr_index);
/**
* Reserve a set of addresses from an starting one
* @param vid the id of the VNET making the reservation
* @param rsize number of addresses to reserve
* @param sindex the first index to start the reservation
* @param rar a new address range to place the reservation
* @return 0 on success
*/
int reserve_addr_by_index(int vid, unsigned int rsize, unsigned int sindex,
AddressRange *rar);
/* ---------------------------------------------------------------------- */
/* Restricted Attributes functions */
/* ---------------------------------------------------------------------- */
/**
* Function to parse the IPv4 attribute ("IP") for IP4 and IP4_6 ARs
* @param error_msg if any
* @return 0 on success
*/
int init_ipv4(string& error_msg);
/**
* Function to parse the IPv6 attributes ("GLOBAL_PREFIX" and "ULA_PREFIX")
* for IP6 and IP4_6 ARs
* @param error_msg if any
* @return 0 on success
*/
int init_ipv6(string& error_msg);
/**
* Function to parse the IPv6 attributes no slaac ("IP6") for IP6_STATIC
* and IP4_6_STATIC ARs
* @param error_msg if any
* @return 0 on success
*/
int init_ipv6_static(string& error_msg);
/**
* Function to parse the MAC attributes ("MAC") for all AR types
* @param error_msg if any
* @return 0 on success
*/
int init_mac(string& error_msg);
/**
* Checks for restricted attributes, returns the first one found
*/
bool check(string& rs_attr) const;
/**
* Deletes all restricted attributes
*/
void remove_restricted(VectorAttribute* va);
/**
* Deletes all the attributes, except the restricted ones
*/
void remove_all_except_restricted(VectorAttribute* va);
/* ---------------------------------------------------------------------- */
/* Address Range data */
/* ---------------------------------------------------------------------- */
/**
* The type of addresses defined in the range
*/
AddressType type;
/**
* ID for this range, unique within the Virtual Network
*/
unsigned int id;
/**
* Number of addresses in the range
*/
unsigned int size;
/**
* First IP4 in the range
*/
unsigned int ip;
/**
* First MAC in the range
*/
unsigned int mac[2];
/**
* Binary representation of the IPv6 address global unicast prefix
*/
unsigned int global6[2];
/**
* Binary representation of the IPv6 address site unicast prefix
*/
unsigned int ula6[2];
/**
* Binary representation of the first IPv6 address in the AR. No SLAAC ARs
*/
unsigned int ip6[4];
/**
* Security Group IDs for this Address Range
*/
set<int> security_groups;
/**
* The Address Range attributes as a Template VectorAttribute. This is
* used to generate XML or a template representation of the AR.
*/
VectorAttribute * attr;
/* ---------------------------------------------------------------------- */
/* Restricted Attributes */
/* ---------------------------------------------------------------------- */
/**
* TRUE if restricted attributes have been defined for Address Ranges
*/
static bool restricted_set;
/**
* The restricted attributes from oned.conf
*/
static set<string> restricted_attributes;
/**
* Attributes to be process for Security Group rules
*/
const static char * SG_RULE_ATTRIBUTES[];
const static int NUM_SG_RULE_ATTRIBUTES;
};
#endif