openflow_input/bsn_gentable - onos-loxi - Gitiles

 // Copyright 2013, Big Switch Networks, Inc.
 //
 // LoxiGen is licensed under the Eclipse Public License,
 // version 1.0 (EPL), with the following special exception:
 //
 // LOXI Exception
 //
 // As a special exception to the terms of the EPL, you may
 // distribute libraries generated by LoxiGen (LoxiGen Libraries)
 // under the terms of your choice, provided that copyright and
 // licensing notices generated by LoxiGen are not altered or removed
 // from the LoxiGen Libraries and the notice provided below is (i)
 // included in the LoxiGen Libraries, if distributed in source code
 // form and (ii) included in any documentation for the LoxiGen
 // Libraries, if distributed in binary form.
 //
 // Notice: "Copyright 2013, Big Switch Networks, Inc.
 // This library was generated by the LoxiGen Compiler."
 //
 // You may not use this file except in compliance with the EPL or
 // LOXI Exception. You may obtain a copy of the EPL at:
 //
 // http://www.eclipse.org/legal/epl-v10.html
 //
 // 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 EPL for the specific language
 // governing permissions and limitations under the EPL.

 #version 4
 #version 5

 // We have a number of switch agents that need to be configured by the
 // controller and report stats. Some of them will have large tables (1000+
 // entries) and so need an efficient synchronization mechanism (as can be
 // accomplished using the cookie field in flowtable entries). It's a
 // significant amount of work to do this from scratch for each new table.
 // This extension (and the corresponding Indigo code) provides a framework
 // to ease implementing new tables.

 // We don't plan on replacing our use of the OpenFlow flow table and group
 // table with this scheme. This is intended for controlling switch
 // functionality like the ARP and LACP agents which don't map at all to
 // flow-mods.

 // Each switch will have a number of tables indexed by a 16-bit table ID. Each
 // table has a name, id, a set of entries, and an array of checksum buckets.
 // There is no order to the entries; stats requests will return them in an
 // arbitrary order. The controller is expected to use the table name to
 // determine the semantics of a table.

 // Each entry has a key, value, stats, and checksum. The key and value are TLV
 // lists given by the controller in a gentable_entry_add message. The switch must
 // return these lists in stats replies exactly as it received them. The stats
 // are a list of TLVs controlled by the switch. The stats are expected to
 // include more than simple counters (for example, last hit time or seen TCP
 // flags). The checksum is an opaque value used for table synchronization.

 // LOXI includes a built-in type of_checksum_128_t, which is 128 bits but
 // only requires 32-bit alignment.


 // These TLV classes are used for keys, values, and stats. Like OXM, lists of
 // TLVs are tightly packed without padding. TLV lists may include duplicates
 // and the semantics of this is left to the particular table.
 //
 // If this is eventually standardized it would be good to add a "class" type
 // member as in OXM.
 struct of_bsn_tlv {
     uint16_t type == ?;
     uint16_t length;
 };


 // This message sets key=value in the given table. If key already exists in the
 // table then it modifies the value, preserving stats.
 //
 // If the switch cannot process the message then it should reply with an error
 // message. The contents of the table must not be changed in case of an error.
 struct of_bsn_gentable_entry_add : of_bsn_header {
     uint8_t version;
     uint8_t type == 4;
     uint16_t length;
     uint32_t xid;
     uint32_t experimenter == 0x5c16c7;
     uint32_t subtype == 46;
     uint16_t table_id;
     uint16_t key_length;
     of_checksum_128_t checksum;
     list(of_bsn_tlv_t) key;
     list(of_bsn_tlv_t) value;
 };


 // This message deletes the entry with the given key in the given table.
 //
 // If the switch cannot process the message then it should reply with an error
 // message. The contents of the table must not be changed in case of an error.
 // If the key does not exist in the table no error will be generated.
 struct of_bsn_gentable_entry_delete : of_bsn_header {
     uint8_t version;
     uint8_t type == 4;
     uint16_t length;
     uint32_t xid;
     uint32_t experimenter == 0x5c16c7;
     uint32_t subtype == 47;
     uint16_t table_id;
     list(of_bsn_tlv_t) key;
 };


 // This message deletes a range of table entries. The checksum_mask must be a
 // prefix mask. The checksum must be zero in the bits where the checksum_mask
 // is zero.
 //
 // The switch may fail to delete some table entries. No error messages will be
 // sent, but the error_count in the reply message will be incremented.
 struct of_bsn_gentable_clear_request : of_bsn_header {
     uint8_t version;
     uint8_t type == 4;
     uint16_t length;
     uint32_t xid;
     uint32_t experimenter == 0x5c16c7;
     uint32_t subtype == 48;
     uint16_t table_id;
     pad(2);
     of_checksum_128_t checksum;
     of_checksum_128_t checksum_mask;
 };

 struct of_bsn_gentable_clear_reply : of_bsn_header {
     uint8_t version;
     uint8_t type == 4;
     uint16_t length;
     uint32_t xid;
     uint32_t experimenter == 0x5c16c7;
     uint32_t subtype == 49;
     uint16_t table_id;
     pad(2);
     uint32_t deleted_count;
     uint32_t error_count;
 };


 // This message sets the size of the buckets array. The switch may reject this
 // message if the table has entries. buckets_size must be a power of 2.
 struct of_bsn_gentable_set_buckets_size : of_bsn_header {
     uint8_t version;
     uint8_t type == 4;
     uint16_t length;
     uint32_t xid;
     uint32_t experimenter == 0x5c16c7;
     uint32_t subtype == 50;
     uint16_t table_id;
     pad(2);
     uint32_t buckets_size;
 };


 // Retrieve the configuration state (key, value, and checksum) for each table
 // entry in a range of buckets.
 //
 // The checksum_mask must be a prefix mask. The checksum must be zero in the
 // bits where the checksum_mask is zero.
 struct of_bsn_gentable_entry_desc_stats_request : of_bsn_stats_request {
     uint8_t version;
     uint8_t type == 18;
     uint16_t length;
     uint32_t xid;
     uint16_t stats_type == 0xffff;
     enum ofp_stats_request_flags flags;
     pad(4);
     uint32_t experimenter == 0x5c16c7;
     uint32_t subtype == 2;
     uint16_t table_id;
     pad(2);
     of_checksum_128_t checksum;
     of_checksum_128_t checksum_mask;
 };

 struct of_bsn_gentable_entry_desc_stats_entry {
     uint16_t length;
     uint16_t key_length;
     of_checksum_128_t checksum;
     list(of_bsn_tlv_t) key;
     list(of_bsn_tlv_t) value;
 };

 struct of_bsn_gentable_entry_desc_stats_reply : of_bsn_stats_reply {
     uint8_t version;
     uint8_t type == 19;
     uint16_t length;
     uint32_t xid;
     uint16_t stats_type == 0xffff;
     enum ofp_stats_reply_flags flags;
     pad(4);
     uint32_t experimenter == 0x5c16c7;
     uint32_t subtype == 2;
     list(of_bsn_gentable_entry_desc_stats_entry_t) entries;
 };


 // Retrieve the runtime state (key and stats) for each table entry in a range
 // of buckets.
 //
 // The checksum_mask must be a prefix mask. The checksum must be zero in the
 // bits where the checksum_mask is zero.
 struct of_bsn_gentable_entry_stats_request : of_bsn_stats_request {
     uint8_t version;
     uint8_t type == 18;
     uint16_t length;
     uint32_t xid;
     uint16_t stats_type == 0xffff;
     enum ofp_stats_request_flags flags;
     pad(4);
     uint32_t experimenter == 0x5c16c7;
     uint32_t subtype == 3;
     uint16_t table_id;
     pad(2);
     of_checksum_128_t checksum;
     of_checksum_128_t checksum_mask;
 };

 struct of_bsn_gentable_entry_stats_entry {
     uint16_t length;
     uint16_t key_length;
     list(of_bsn_tlv_t) key;
     list(of_bsn_tlv_t) stats;
 };

 struct of_bsn_gentable_entry_stats_reply : of_bsn_stats_reply {
     uint8_t version;
     uint8_t type == 19;
     uint16_t length;
     uint32_t xid;
     uint16_t stats_type == 0xffff;
     enum ofp_stats_reply_flags flags;
     pad(4);
     uint32_t experimenter == 0x5c16c7;
     uint32_t subtype == 3;
     list(of_bsn_gentable_entry_stats_entry_t) entries;
 };


 // Retrieve the description for all tables.
 struct of_bsn_gentable_desc_stats_request : of_bsn_stats_request {
     uint8_t version;
     uint8_t type == 18;
     uint16_t length;
     uint32_t xid;
     uint16_t stats_type == 0xffff;
     enum ofp_stats_request_flags flags;
     pad(4);
     uint32_t experimenter == 0x5c16c7;
     uint32_t subtype == 4;
 };

 struct of_bsn_gentable_desc_stats_entry {
     uint16_t length;
     uint16_t table_id;
     of_table_name_t name;
     uint32_t buckets_size;
     uint32_t max_entries;
     pad(4);
     /* TODO properties */
 };

 struct of_bsn_gentable_desc_stats_reply : of_bsn_stats_reply {
     uint8_t version;
     uint8_t type == 19;
     uint16_t length;
     uint32_t xid;
     uint16_t stats_type == 0xffff;
     enum ofp_stats_reply_flags flags;
     pad(4);
     uint32_t experimenter == 0x5c16c7;
     uint32_t subtype == 4;
     list(of_bsn_gentable_desc_stats_entry_t) entries;
 };


 // Retrieves stats for every table. This includes the total checksum, so the
 // controller can quickly check whether the whole table is in sync.
 //
 // The checksum of a table is the sum of the checksums of all entries in the
 // table.
 struct of_bsn_gentable_stats_request : of_bsn_stats_request {
     uint8_t version;
     uint8_t type == 18;
     uint16_t length;
     uint32_t xid;
     uint16_t stats_type == 0xffff;
     enum ofp_stats_request_flags flags;
     pad(4);
     uint32_t experimenter == 0x5c16c7;
     uint32_t subtype == 7;
 };

 struct of_bsn_gentable_stats_entry {
     uint16_t table_id;
     pad(2);
     uint32_t entry_count;
     of_checksum_128_t checksum;
 };

 struct of_bsn_gentable_stats_reply : of_bsn_stats_reply {
     uint8_t version;
     uint8_t type == 19;
     uint16_t length;
     uint32_t xid;
     uint16_t stats_type == 0xffff;
     enum ofp_stats_reply_flags flags;
     pad(4);
     uint32_t experimenter == 0x5c16c7;
     uint32_t subtype == 7;
     list(of_bsn_gentable_stats_entry_t) entries;
 };


 // Retrieves the checksum for every bucket in a table. The entries are ordered
 // by bucket index.
 //
 // The checksum of a bucket is the sum of the checksums of all entries in the
 // bucket.
 struct of_bsn_gentable_bucket_stats_request : of_bsn_stats_request {
     uint8_t version;
     uint8_t type == 18;
     uint16_t length;
     uint32_t xid;
     uint16_t stats_type == 0xffff;
     enum ofp_stats_request_flags flags;
     pad(4);
     uint32_t experimenter == 0x5c16c7;
     uint32_t subtype == 5;
     uint16_t table_id;
 };

 struct of_bsn_gentable_bucket_stats_entry {
     of_checksum_128_t checksum;
 };

 struct of_bsn_gentable_bucket_stats_reply : of_bsn_stats_reply {
     uint8_t version;
     uint8_t type == 19;
     uint16_t length;
     uint32_t xid;
     uint16_t stats_type == 0xffff;
     enum ofp_stats_reply_flags flags;
     pad(4);
     uint32_t experimenter == 0x5c16c7;
     uint32_t subtype == 5;
     list(of_bsn_gentable_bucket_stats_entry_t) entries;
 };

 // Reference a gentable entry from an action list
 struct of_action_bsn_gentable : of_action_bsn {
     uint16_t type == 65535;
     uint16_t len;
     uint32_t experimenter == 0x5c16c7;
     uint32_t subtype == 5;
     uint32_t table_id;
     list(of_bsn_tlv_t) key;
 };
	// Copyright 2013, Big Switch Networks, Inc.
	//
	// LoxiGen is licensed under the Eclipse Public License,
	// version 1.0 (EPL), with the following special exception:
	//
	// LOXI Exception
	//
	// As a special exception to the terms of the EPL, you may
	// distribute libraries generated by LoxiGen (LoxiGen Libraries)
	// under the terms of your choice, provided that copyright and
	// licensing notices generated by LoxiGen are not altered or removed
	// from the LoxiGen Libraries and the notice provided below is (i)
	// included in the LoxiGen Libraries, if distributed in source code
	// form and (ii) included in any documentation for the LoxiGen
	// Libraries, if distributed in binary form.
	//
	// Notice: "Copyright 2013, Big Switch Networks, Inc.
	// This library was generated by the LoxiGen Compiler."
	//
	// You may not use this file except in compliance with the EPL or
	// LOXI Exception. You may obtain a copy of the EPL at:
	//
	// http://www.eclipse.org/legal/epl-v10.html
	//
	// 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 EPL for the specific language
	// governing permissions and limitations under the EPL.

	#version 4
	#version 5

	// We have a number of switch agents that need to be configured by the
	// controller and report stats. Some of them will have large tables (1000+
	// entries) and so need an efficient synchronization mechanism (as can be
	// accomplished using the cookie field in flowtable entries). It's a
	// significant amount of work to do this from scratch for each new table.
	// This extension (and the corresponding Indigo code) provides a framework
	// to ease implementing new tables.

	// We don't plan on replacing our use of the OpenFlow flow table and group
	// table with this scheme. This is intended for controlling switch
	// functionality like the ARP and LACP agents which don't map at all to
	// flow-mods.

	// Each switch will have a number of tables indexed by a 16-bit table ID. Each
	// table has a name, id, a set of entries, and an array of checksum buckets.
	// There is no order to the entries; stats requests will return them in an
	// arbitrary order. The controller is expected to use the table name to
	// determine the semantics of a table.

	// Each entry has a key, value, stats, and checksum. The key and value are TLV
	// lists given by the controller in a gentable_entry_add message. The switch must
	// return these lists in stats replies exactly as it received them. The stats
	// are a list of TLVs controlled by the switch. The stats are expected to
	// include more than simple counters (for example, last hit time or seen TCP
	// flags). The checksum is an opaque value used for table synchronization.

	// LOXI includes a built-in type of_checksum_128_t, which is 128 bits but
	// only requires 32-bit alignment.


	// These TLV classes are used for keys, values, and stats. Like OXM, lists of
	// TLVs are tightly packed without padding. TLV lists may include duplicates
	// and the semantics of this is left to the particular table.
	//
	// If this is eventually standardized it would be good to add a "class" type
	// member as in OXM.
	struct of_bsn_tlv {
	uint16_t type == ?;
	uint16_t length;
	};


	// This message sets key=value in the given table. If key already exists in the
	// table then it modifies the value, preserving stats.
	//
	// If the switch cannot process the message then it should reply with an error
	// message. The contents of the table must not be changed in case of an error.
	struct of_bsn_gentable_entry_add : of_bsn_header {
	uint8_t version;
	uint8_t type == 4;
	uint16_t length;
	uint32_t xid;
	uint32_t experimenter == 0x5c16c7;
	uint32_t subtype == 46;
	uint16_t table_id;
	uint16_t key_length;
	of_checksum_128_t checksum;
	list(of_bsn_tlv_t) key;
	list(of_bsn_tlv_t) value;
	};


	// This message deletes the entry with the given key in the given table.
	//
	// If the switch cannot process the message then it should reply with an error
	// message. The contents of the table must not be changed in case of an error.
	// If the key does not exist in the table no error will be generated.
	struct of_bsn_gentable_entry_delete : of_bsn_header {
	uint8_t version;
	uint8_t type == 4;
	uint16_t length;
	uint32_t xid;
	uint32_t experimenter == 0x5c16c7;
	uint32_t subtype == 47;
	uint16_t table_id;
	list(of_bsn_tlv_t) key;
	};


	// This message deletes a range of table entries. The checksum_mask must be a
	// prefix mask. The checksum must be zero in the bits where the checksum_mask
	// is zero.
	//
	// The switch may fail to delete some table entries. No error messages will be
	// sent, but the error_count in the reply message will be incremented.
	struct of_bsn_gentable_clear_request : of_bsn_header {
	uint8_t version;
	uint8_t type == 4;
	uint16_t length;
	uint32_t xid;
	uint32_t experimenter == 0x5c16c7;
	uint32_t subtype == 48;
	uint16_t table_id;
	pad(2);
	of_checksum_128_t checksum;
	of_checksum_128_t checksum_mask;
	};

	struct of_bsn_gentable_clear_reply : of_bsn_header {
	uint8_t version;
	uint8_t type == 4;
	uint16_t length;
	uint32_t xid;
	uint32_t experimenter == 0x5c16c7;
	uint32_t subtype == 49;
	uint16_t table_id;
	pad(2);
	uint32_t deleted_count;
	uint32_t error_count;
	};


	// This message sets the size of the buckets array. The switch may reject this
	// message if the table has entries. buckets_size must be a power of 2.
	struct of_bsn_gentable_set_buckets_size : of_bsn_header {
	uint8_t version;
	uint8_t type == 4;
	uint16_t length;
	uint32_t xid;
	uint32_t experimenter == 0x5c16c7;
	uint32_t subtype == 50;
	uint16_t table_id;
	pad(2);
	uint32_t buckets_size;
	};


	// Retrieve the configuration state (key, value, and checksum) for each table
	// entry in a range of buckets.
	//
	// The checksum_mask must be a prefix mask. The checksum must be zero in the
	// bits where the checksum_mask is zero.
	struct of_bsn_gentable_entry_desc_stats_request : of_bsn_stats_request {
	uint8_t version;
	uint8_t type == 18;
	uint16_t length;
	uint32_t xid;
	uint16_t stats_type == 0xffff;
	enum ofp_stats_request_flags flags;
	pad(4);
	uint32_t experimenter == 0x5c16c7;
	uint32_t subtype == 2;
	uint16_t table_id;
	pad(2);
	of_checksum_128_t checksum;
	of_checksum_128_t checksum_mask;
	};

	struct of_bsn_gentable_entry_desc_stats_entry {
	uint16_t length;
	uint16_t key_length;
	of_checksum_128_t checksum;
	list(of_bsn_tlv_t) key;
	list(of_bsn_tlv_t) value;
	};

	struct of_bsn_gentable_entry_desc_stats_reply : of_bsn_stats_reply {
	uint8_t version;
	uint8_t type == 19;
	uint16_t length;
	uint32_t xid;
	uint16_t stats_type == 0xffff;
	enum ofp_stats_reply_flags flags;
	pad(4);
	uint32_t experimenter == 0x5c16c7;
	uint32_t subtype == 2;
	list(of_bsn_gentable_entry_desc_stats_entry_t) entries;
	};


	// Retrieve the runtime state (key and stats) for each table entry in a range
	// of buckets.
	//
	// The checksum_mask must be a prefix mask. The checksum must be zero in the
	// bits where the checksum_mask is zero.
	struct of_bsn_gentable_entry_stats_request : of_bsn_stats_request {
	uint8_t version;
	uint8_t type == 18;
	uint16_t length;
	uint32_t xid;
	uint16_t stats_type == 0xffff;
	enum ofp_stats_request_flags flags;
	pad(4);
	uint32_t experimenter == 0x5c16c7;
	uint32_t subtype == 3;
	uint16_t table_id;
	pad(2);
	of_checksum_128_t checksum;
	of_checksum_128_t checksum_mask;
	};

	struct of_bsn_gentable_entry_stats_entry {
	uint16_t length;
	uint16_t key_length;
	list(of_bsn_tlv_t) key;
	list(of_bsn_tlv_t) stats;
	};

	struct of_bsn_gentable_entry_stats_reply : of_bsn_stats_reply {
	uint8_t version;
	uint8_t type == 19;
	uint16_t length;
	uint32_t xid;
	uint16_t stats_type == 0xffff;
	enum ofp_stats_reply_flags flags;
	pad(4);
	uint32_t experimenter == 0x5c16c7;
	uint32_t subtype == 3;
	list(of_bsn_gentable_entry_stats_entry_t) entries;
	};


	// Retrieve the description for all tables.
	struct of_bsn_gentable_desc_stats_request : of_bsn_stats_request {
	uint8_t version;
	uint8_t type == 18;
	uint16_t length;
	uint32_t xid;
	uint16_t stats_type == 0xffff;
	enum ofp_stats_request_flags flags;
	pad(4);
	uint32_t experimenter == 0x5c16c7;
	uint32_t subtype == 4;
	};

	struct of_bsn_gentable_desc_stats_entry {
	uint16_t length;
	uint16_t table_id;
	of_table_name_t name;
	uint32_t buckets_size;
	uint32_t max_entries;
	pad(4);
	/* TODO properties */
	};

	struct of_bsn_gentable_desc_stats_reply : of_bsn_stats_reply {
	uint8_t version;
	uint8_t type == 19;
	uint16_t length;
	uint32_t xid;
	uint16_t stats_type == 0xffff;
	enum ofp_stats_reply_flags flags;
	pad(4);
	uint32_t experimenter == 0x5c16c7;
	uint32_t subtype == 4;
	list(of_bsn_gentable_desc_stats_entry_t) entries;
	};


	// Retrieves stats for every table. This includes the total checksum, so the
	// controller can quickly check whether the whole table is in sync.
	//
	// The checksum of a table is the sum of the checksums of all entries in the
	// table.
	struct of_bsn_gentable_stats_request : of_bsn_stats_request {
	uint8_t version;
	uint8_t type == 18;
	uint16_t length;
	uint32_t xid;
	uint16_t stats_type == 0xffff;
	enum ofp_stats_request_flags flags;
	pad(4);
	uint32_t experimenter == 0x5c16c7;
	uint32_t subtype == 7;
	};

	struct of_bsn_gentable_stats_entry {
	uint16_t table_id;
	pad(2);
	uint32_t entry_count;
	of_checksum_128_t checksum;
	};

	struct of_bsn_gentable_stats_reply : of_bsn_stats_reply {
	uint8_t version;
	uint8_t type == 19;
	uint16_t length;
	uint32_t xid;
	uint16_t stats_type == 0xffff;
	enum ofp_stats_reply_flags flags;
	pad(4);
	uint32_t experimenter == 0x5c16c7;
	uint32_t subtype == 7;
	list(of_bsn_gentable_stats_entry_t) entries;
	};


	// Retrieves the checksum for every bucket in a table. The entries are ordered
	// by bucket index.
	//
	// The checksum of a bucket is the sum of the checksums of all entries in the
	// bucket.
	struct of_bsn_gentable_bucket_stats_request : of_bsn_stats_request {
	uint8_t version;
	uint8_t type == 18;
	uint16_t length;
	uint32_t xid;
	uint16_t stats_type == 0xffff;
	enum ofp_stats_request_flags flags;
	pad(4);
	uint32_t experimenter == 0x5c16c7;
	uint32_t subtype == 5;
	uint16_t table_id;
	};

	struct of_bsn_gentable_bucket_stats_entry {
	of_checksum_128_t checksum;
	};

	struct of_bsn_gentable_bucket_stats_reply : of_bsn_stats_reply {
	uint8_t version;
	uint8_t type == 19;
	uint16_t length;
	uint32_t xid;
	uint16_t stats_type == 0xffff;
	enum ofp_stats_reply_flags flags;
	pad(4);
	uint32_t experimenter == 0x5c16c7;
	uint32_t subtype == 5;
	list(of_bsn_gentable_bucket_stats_entry_t) entries;
	};

	// Reference a gentable entry from an action list
	struct of_action_bsn_gentable : of_action_bsn {
	uint16_t type == 65535;
	uint16_t len;
	uint32_t experimenter == 0x5c16c7;
	uint32_t subtype == 5;
	uint32_t table_id;
	list(of_bsn_tlv_t) key;
	};