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#include "idl_types.h"
/*
IDL structures for DNSP structures
See [MS-DNSP].pdf in MCPP for details
*/
import "misc.idl";
/*
note that this is not a real RPC interface. We are just using PIDL
to save us a lot of tedious hand parsing of the dnsRecord
attribute. The uuid is randomly generated.
*/
[
uuid("bdd66e9e-d45f-4202-85c0-6132edc4f30a"),
version(0.0),
pointer_default(unique),
helper("../librpc/ndr/ndr_dnsp.h"),
helpstring("DNSP interfaces")
]
interface dnsp
{
typedef [enum16bit,public] enum {
DNS_TYPE_TOMBSTONE = 0x0,
DNS_TYPE_A = 0x1,
DNS_TYPE_NS = 0x2,
DNS_TYPE_MD = 0x3,
DNS_TYPE_MF = 0x4,
DNS_TYPE_CNAME = 0x5,
DNS_TYPE_SOA = 0x6,
DNS_TYPE_MB = 0x7,
DNS_TYPE_MG = 0x8,
DNS_TYPE_MR = 0x9,
DNS_TYPE_NULL = 0xA,
DNS_TYPE_WKS = 0xB,
DNS_TYPE_PTR = 0xC,
DNS_TYPE_HINFO = 0xD,
DNS_TYPE_MINFO = 0xE,
DNS_TYPE_MX = 0xF,
DNS_TYPE_TXT = 0x10,
DNS_TYPE_RP = 0x11,
DNS_TYPE_AFSDB = 0x12,
DNS_TYPE_X25 = 0x13,
DNS_TYPE_ISDN = 0x14,
DNS_TYPE_RT = 0x15,
DNS_TYPE_SIG = 0x18,
DNS_TYPE_KEY = 0x19,
DNS_TYPE_AAAA = 0x1C,
DNS_TYPE_LOC = 0x1D,
DNS_TYPE_NXT = 0x1E,
DNS_TYPE_SRV = 0x21,
DNS_TYPE_ATMA = 0x22,
DNS_TYPE_NAPTR = 0x23,
DNS_TYPE_DNAME = 0x27,
DNS_TYPE_DS = 0x2B,
DNS_TYPE_RRSIG = 0x2E,
DNS_TYPE_NSEC = 0x2F,
DNS_TYPE_DNSKEY= 0x30,
DNS_TYPE_DHCID = 0x31,
DNS_TYPE_ALL = 0xFF,
DNS_TYPE_WINS = 0xFF01,
DNS_TYPE_WINSR = 0xFF02
} dns_record_type;
typedef [bitmap32bit] bitmap {
DNS_RPC_FLAG_SUPPRESS_NOTIFY = 0x00010000,
DNS_RPC_FLAG_AGING_ON = 0x00020000,
DNS_RPC_FLAG_OPEN_ACL = 0x00040000,
DNS_RPC_FLAG_NODE_COMPLETE = 0x00800000,
DNS_RPC_FLAG_NODE_STICKY = 0x01000000,
DNS_RPC_FLAG_RECORD_CREATE_PTR = 0x02000000,
DNS_RPC_FLAG_RECORD_TTL_CHANGE = 0x04000000,
DNS_RPC_FLAG_RECORD_DEFAULT_TTL = 0x08000000,
DNS_RPC_FLAG_ZONE_DELEGATION = 0x10000000,
DNS_RPC_FLAG_AUTH_ZONE_ROOT = 0x20000000,
DNS_RPC_FLAG_ZONE_ROOT = 0x40000000,
DNS_RPC_FLAG_CACHE_DATA = 0x80000000
}
dns_rpc_node_flags;
typedef [enum8bit] enum {
DNS_RANK_NONE = 0x00,
DNS_RANK_CACHE_BIT = 0x01,
DNS_RANK_ROOT_HINT = 0x08,
DNS_RANK_OUTSIDE_GLUE = 0x20,
DNS_RANK_CACHE_NA_ADDITIONAL = 0x31,
DNS_RANK_CACHE_NA_AUTHORITY = 0x41,
DNS_RANK_CACHE_A_ADDITIONAL = 0x51,
DNS_RANK_CACHE_NA_ANSWER = 0x61,
DNS_RANK_CACHE_A_AUTHORITY = 0x71,
DNS_RANK_GLUE = 0x80,
DNS_RANK_NS_GLUE = 0x82,
DNS_RANK_CACHE_A_ANSWER = 0xc1,
DNS_RANK_ZONE = 0xf0
} dns_record_rank;
typedef [v1_enum] enum {
DNS_ZONE_TYPE_CACHE = 0x00,
DNS_ZONE_TYPE_PRIMARY = 0x01,
DNS_ZONE_TYPE_SECONDARY = 0x02,
DNS_ZONE_TYPE_STUB = 0x03,
DNS_ZONE_TYPE_FORWARDER = 0x04,
DNS_ZONE_TYPE_SECONDARY_CACHE = 0x05
} dns_zone_type;
typedef [public,enum8bit] enum {
DNS_ZONE_UPDATE_OFF = 0x00,
DNS_ZONE_UPDATE_UNSECURE = 0x01,
DNS_ZONE_UPDATE_SECURE = 0x02
} dns_zone_update;
typedef [v1_enum] enum {
DSPROPERTY_ZONE_EMPTY = 0x00,
DSPROPERTY_ZONE_TYPE = 0x01,
DSPROPERTY_ZONE_ALLOW_UPDATE = 0x02,
DSPROPERTY_ZONE_SECURE_TIME = 0x08,
DSPROPERTY_ZONE_NOREFRESH_INTERVAL = 0x10,
DSPROPERTY_ZONE_SCAVENGING_SERVERS = 0x11,
DSPROPERTY_ZONE_AGING_ENABLED_TIME = 0x12,
DSPROPERTY_ZONE_REFRESH_INTERVAL = 0x20,
DSPROPERTY_ZONE_AGING_STATE = 0x40,
DSPROPERTY_ZONE_DELETED_FROM_HOSTNAME = 0x80,
DSPROPERTY_ZONE_MASTER_SERVERS = 0x81,
DSPROPERTY_ZONE_AUTO_NS_SERVERS = 0x82,
DSPROPERTY_ZONE_DCPROMO_CONVERT = 0x83,
DSPROPERTY_ZONE_SCAVENGING_SERVERS_DA = 0x90,
DSPROPERTY_ZONE_MASTER_SERVERS_DA = 0x91,
DSPROPERTY_ZONE_NS_SERVERS_DA = 0x92,
DSPROPERTY_ZONE_NODE_DBFLAGS = 0x100
} dns_property_id;
typedef [enum8bit] enum {
DCPROMO_CONVERT_NONE = 0x00,
DCPROMO_CONVERT_DOMAIN = 0x01,
DCPROMO_CONVERT_FOREST = 0x02
} dns_dcpromo_flag;
typedef [public] struct {
uint32 serial;
uint32 refresh;
uint32 retry;
uint32 expire;
uint32 minimum;
dnsp_name mname;
dnsp_name rname;
} dnsp_soa;
typedef [public] struct {
uint16 wPriority;
dnsp_name nameTarget;
} dnsp_mx;
typedef [public] struct {
dnsp_string cpu;
dnsp_string os;
} dnsp_hinfo;
typedef [public] struct {
uint16 wPriority;
uint16 wWeight;
uint16 wPort;
dnsp_name nameTarget;
} dnsp_srv;
typedef struct {
uint32 addrCount;
[size_is(addrCount)] uint32 *addr;
} dnsp_ip4_array;
typedef struct {
uint16 family;
uint16 port;
ipv4address ipv4;
ipv6address ipv6;
uint8 pad[8];
uint32 unused[8];
} dnsp_dns_addr;
typedef [public] struct {
uint32 MaxCount;
uint32 AddrCount;
uint32 Tag;
uint16 Family;
uint16 Reserved0;
uint32 MatchFlag;
uint32 Reserved1;
uint32 Reserved2;
dnsp_dns_addr AddrArray[AddrCount];
} dnsp_dns_addr_array;
typedef [nodiscriminant,gensize] union {
[case(DNS_TYPE_TOMBSTONE)] NTTIME timestamp;
[case(DNS_TYPE_A)] [flag(NDR_BIG_ENDIAN)] ipv4address ipv4;
[case(DNS_TYPE_NS)] dnsp_name ns;
[case(DNS_TYPE_CNAME)] dnsp_name cname;
[case(DNS_TYPE_SOA)] [flag(NDR_BIG_ENDIAN)] dnsp_soa soa;
[case(DNS_TYPE_MX)] [flag(NDR_BIG_ENDIAN)] dnsp_mx mx;
[case(DNS_TYPE_TXT)] dnsp_string txt;
[case(DNS_TYPE_PTR)] dnsp_name ptr;
[case(DNS_TYPE_HINFO)] dnsp_hinfo hinfo;
[case(DNS_TYPE_AAAA)] ipv6address ipv6;
[case(DNS_TYPE_SRV)] [flag(NDR_BIG_ENDIAN)] dnsp_srv srv;
[default] [flag(NDR_REMAINING)] DATA_BLOB data;
} dnsRecordData;
/* this is the format for the dnsRecord attribute in the DNS
partitions in AD */
typedef [public] struct {
[value(ndr_size_dnsRecordData(&data,wType,ndr->flags))] uint16 wDataLength;
dns_record_type wType;
[value(5)] uint8 version;
dns_record_rank rank;
uint16 flags;
uint32 dwSerial;
[flag(NDR_BIG_ENDIAN)] uint32 dwTtlSeconds;
uint32 dwReserved;
uint32 dwTimeStamp;
[switch_is(wType)] dnsRecordData data;
} dnsp_DnssrvRpcRecord;
typedef [nodiscriminant,gensize] union {
[case(DSPROPERTY_ZONE_EMPTY)] ;
[case(DSPROPERTY_ZONE_TYPE)] dns_zone_type zone_type;
[case(DSPROPERTY_ZONE_ALLOW_UPDATE)] dns_zone_update allow_update_flag;
[case(DSPROPERTY_ZONE_SECURE_TIME)] NTTIME zone_secure_time;
[case(DSPROPERTY_ZONE_NOREFRESH_INTERVAL)] uint32 norefresh_hours;
[case(DSPROPERTY_ZONE_REFRESH_INTERVAL)] uint32 refresh_hours;
[case(DSPROPERTY_ZONE_AGING_STATE)] uint32 aging_enabled;
[case(DSPROPERTY_ZONE_SCAVENGING_SERVERS)] dnsp_ip4_array servers;
[case(DSPROPERTY_ZONE_AGING_ENABLED_TIME)] uint32 next_scavenging_cycle_hours;
[case(DSPROPERTY_ZONE_DELETED_FROM_HOSTNAME)] utf8string deleted_by_hostname;
[case(DSPROPERTY_ZONE_MASTER_SERVERS)] dnsp_ip4_array master_servers;
[case(DSPROPERTY_ZONE_AUTO_NS_SERVERS)] dnsp_ip4_array ns_servers;
[case(DSPROPERTY_ZONE_DCPROMO_CONVERT)] dns_dcpromo_flag dcpromo_flag;
[case(DSPROPERTY_ZONE_SCAVENGING_SERVERS_DA)] dnsp_dns_addr_array s_ns_servers;
[case(DSPROPERTY_ZONE_MASTER_SERVERS_DA)] dnsp_dns_addr_array z_master_servers;
[case(DSPROPERTY_ZONE_NS_SERVERS_DA)] dnsp_dns_addr_array d_ns_servers;
[case(DSPROPERTY_ZONE_NODE_DBFLAGS)] dns_rpc_node_flags flags;
} dnsPropertyData;
/* this is the format for the dnsProperty attribute in the DNS
partitions in AD */
typedef [flag(NDR_NOALIGN),public] struct {
[value(ndr_size_dnsPropertyData(&data,id,ndr->flags))] uint32 wDataLength;
uint32 namelength;
[value(0)] uint32 flag;
[value(1)] uint32 version;
dns_property_id id;
[switch_is(wDataLength?id:DSPROPERTY_ZONE_EMPTY)] dnsPropertyData data;
uint32 name;
} dnsp_DnsProperty;
/*
these are convenience hooks for ndrdump
*/
void decode_DnssrvRpcRecord(
[in] dnsp_DnssrvRpcRecord blob
);
void decode_DnsProperty(
[in] dnsp_DnsProperty blob
);
}
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