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/*
**************************************************************************
* Copyright (c) 2014, Qualcomm Atheros, Inc.
* Permission to use, copy, modify, and/or distribute this software for
* any purpose with or without fee is hereby granted, provided that the
* above copyright notice and this permission notice appear in all copies.
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT
* OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
**************************************************************************
*/
/*
* nss_ipv4.h
* NSS to HLOS interface definitions.
*/
/*
* TODO: Since this is the now the public header file for writting an
* IPv4 message, we need to convert the entire file to doxygen.
*/
#ifndef __NSS_IPV4_H
#define __NSS_IPV4_H
/*
* IPv4 bridge/route rule messages
*/
enum nss_ipv4_message_types {
NSS_IPV4_TX_CREATE_RULE_MSG,
NSS_IPV4_TX_DESTROY_RULE_MSG,
NSS_IPV4_RX_ESTABLISH_RULE_MSG,
NSS_IPV4_RX_CONN_STATS_SYNC_MSG,
NSS_IPV4_RX_NODE_STATS_SYNC_MSG,
NSS_IPV4_MAX_MSG_TYPES,
};
/*
* NA IPv4 rule creation flags.
*/
#define NSS_IPV4_RULE_CREATE_FLAG_NO_SEQ_CHECK 0x01
/* Do not perform sequence number checks */
#define NSS_IPV4_RULE_CREATE_FLAG_BRIDGE_FLOW 0x02
/* This is a pure bridge forwarding flow */
#define NSS_IPV4_RULE_CREATE_FLAG_ROUTED 0x04
/* Rule is for a routed connection. */
#define NSS_IPV4_RULE_CREATE_FLAG_DSCP_MARKING 0x08
/* Rule is for a DSCP marking . */
#define NSS_IPV4_RULE_CREATE_FLAG_VLAN_MARKING 0x10
/* Rule is for a VLAN marking . */
/*
* IPv4 rule creation validity flags.
*/
#define NSS_IPV4_RULE_CREATE_CONN_VALID 0x01 /* Protocol fields are valid */
#define NSS_IPV4_RULE_CREATE_TCP_VALID 0x02 /* Protocol fields are valid */
#define NSS_IPV4_RULE_CREATE_PPPOE_VALID 0x04 /* PPPoE fields are valid */
#define NSS_IPV4_RULE_CREATE_QOS_VALID 0x08 /* QoS fields are valid */
#define NSS_IPV4_RULE_CREATE_VLAN_VALID 0x10 /* VLAN fields are valid */
#define NSS_IPV4_RULE_CREATE_DSCP_MARKING_VALID 0x20 /* DSCP fields are valid */
#define NSS_IPV4_RULE_CREATE_VLAN_MARKING_VALID 0x40 /* VLAN fields are valid */
/*
* Common 5 tuple structure
*/
struct nss_ipv4_5tuple {
uint32_t flow_ip; /* Flow IP address */
uint32_t flow_ident; /* Flow ident (e.g. port) */
uint32_t return_ip; /* Return IP address */
uint32_t return_ident; /* Return ident (e.g. port) */
uint8_t protocol; /* Protocol number */
uint8_t reserved[3]; /* Padded for alignment */
};
/*
* Connection create structure
*/
struct nss_ipv4_connection_rule {
uint16_t flow_mac[3]; /* Flow MAC address */
uint16_t return_mac[3]; /* Return MAC address */
int32_t flow_interface_num; /* Flow interface number */
int32_t return_interface_num; /* Return interface number */
uint32_t flow_mtu; /* Flow interface`s MTU */
uint32_t return_mtu; /* Return interface`s MTU */
uint32_t flow_ip_xlate; /* Translated flow IP address */
uint32_t return_ip_xlate; /* Translated return IP address */
uint32_t flow_ident_xlate; /* Translated flow ident (e.g. port) */
uint32_t return_ident_xlate; /* Translated return ident (e.g. port) */
};
/*
* PPPoE connection rules structure
*/
struct nss_ipv4_pppoe_rule {
uint16_t flow_pppoe_session_id; /* Flow direction`s PPPoE session ID. */
uint16_t flow_pppoe_remote_mac[3];
/* Flow direction`s PPPoE Server MAC address */
uint16_t return_pppoe_session_id;
/* Return direction's PPPoE session ID. */
uint16_t return_pppoe_remote_mac[3];
/* Return direction's PPPoE Server MAC address */
};
/*
* DSCP connection rule structure
*/
struct nss_ipv4_dscp_rule {
uint8_t dscp_itag; /* Input tag for DSCP marking */
uint8_t dscp_imask; /* Input mask for DSCP marking */
uint8_t dscp_omask; /* Output mask for DSCP marking */
uint8_t dscp_oval; /* Output value of DSCP marking */
};
/*
* Action types for VLAN
*/
enum nss_ipv4_vlan_action_types {
NSS_IPV4_VLAN_MATCH = 0,
NSS_IPV4_VLAN_ADD = 1,
NSS_IPV4_VLAN_REMOVE = 2,
};
/*
* VLAN connection rule structure
*/
struct nss_ipv4_vlan_rule {
uint16_t ingress_vlan_tag; /* VLAN Tag for the ingress packets */
uint16_t egress_vlan_tag; /* VLAN Tag for egress packets */
uint16_t vlan_itag; /* Input tag for VLAN marking */
uint16_t vlan_imask; /* Input mask for VLAN marking */
uint16_t vlan_omask; /* Output mask for VLAN marking */
uint16_t vlan_oval; /* Output value of VLAN marking */
uint8_t action; /* The type of action to perform */
uint8_t reserved[3]; /* Padded for alignment */
};
/*
* TCP connection rule structure
*/
struct nss_ipv4_protocol_tcp_rule {
uint32_t flow_max_window; /* Flow direction's largest seen window */
uint32_t return_max_window; /* Return direction's largest seen window */
uint32_t flow_end; /* Flow direction's largest seen sequence + segment length */
uint32_t return_end; /* Return direction's largest seen sequence + segment length */
uint32_t flow_max_end; /* Flow direction's largest seen ack + max(1, win) */
uint32_t return_max_end; /* Return direction's largest seen ack + max(1, win) */
uint8_t flow_window_scale; /* Flow direction's window scaling factor */
uint8_t return_window_scale; /* Return direction's window scaling factor */
uint16_t reserved; /* Padded for alignment */
};
/*
* QoS connection rule structure
*/
struct nss_ipv4_qos_rule {
uint32_t qos_tag; /* QoS tag associated with this rule */
};
/*
* Error types for ipv4 messages
*/
enum nss_ipv4_error_response_types {
NSS_IPV4_CR_INVALID_PNODE_ERROR = 1,
NSS_IPV4_CR_MISSING_CONNECTION_RULE_ERROR,
NSS_IPV4_CR_BUFFER_ALLOC_FAIL_ERROR,
NSS_IPV4_CR_PPPOE_SESSION_CREATION_ERROR,
NSS_IPV4_DR_NO_CONNECTION_ENTRY_ERROR,
NSS_IPV4_UNKNOWN_MSG_TYPE,
NSS_IPV4_LAST
};
/*
* The IPv4 rule create sub-message structure.
*/
struct nss_ipv4_rule_create_msg {
/* Request */
struct nss_ipv4_5tuple tuple; /* Holds values of the 5 tuple */
struct nss_ipv4_connection_rule conn_rule; /* Basic connection specific data */
struct nss_ipv4_protocol_tcp_rule tcp_rule; /* TCP related accleration parameters */
struct nss_ipv4_pppoe_rule pppoe_rule; /* PPPoE related accleration parameters */
struct nss_ipv4_qos_rule qos_rule; /* QoS related accleration parameters */
struct nss_ipv4_dscp_rule dscp_rule; /* DSCP related accleration parameters */
struct nss_ipv4_vlan_rule vlan_primary_rule; /* Primary VLAN related accleration parameters */
struct nss_ipv4_vlan_rule vlan_secondary_rule; /* Secondary VLAN related accleration parameters */
uint16_t valid_flags; /* Bit flags associated with the validity of parameters */
uint16_t rule_flags; /* Bit flags associated with the rule */
/* Response */
uint32_t index; /* Slot ID for cache stats to host OS */
};
/*
* The IPv4 rule destroy sub-message structure.
*/
struct nss_ipv4_rule_destroy_msg {
struct nss_ipv4_5tuple tuple; /* Holds values of the 5 tuple */
};
/*
* The NSS IPv4 rule establish structure.
*/
struct nss_ipv4_rule_establish {
uint32_t index; /* Slot ID for cache stats to host OS */
uint32_t protocol; /* Protocol number */
int32_t flow_interface; /* Flow interface number */
uint32_t flow_mtu; /* MTU for flow interface */
uint32_t flow_ip; /* Flow IP address */
uint32_t flow_ip_xlate; /* Translated flow IP address */
uint32_t flow_ident; /* Flow ident (e.g. port) */
uint32_t flow_ident_xlate; /* Translated flow ident (e.g. port) */
uint16_t flow_mac[3]; /* Flow direction source MAC address */
uint16_t flow_pppoe_session_id; /* Flow direction`s PPPoE session ID. */
uint16_t flow_pppoe_remote_mac[3]; /* Flow direction`s PPPoE Server MAC address */
uint16_t ingress_vlan_tag; /* Ingress VLAN tag */
int32_t return_interface; /* Return interface number */
uint32_t return_mtu; /* MTU for return interface */
uint32_t return_ip; /* Return IP address */
uint32_t return_ip_xlate; /* Translated return IP address */
uint32_t return_ident; /* Return ident (e.g. port) */
uint32_t return_ident_xlate; /* Translated return ident (e.g. port) */
uint16_t return_mac[3]; /* Return direction source MAC address */
uint16_t return_pppoe_session_id; /* Return direction's PPPoE session ID. */
uint16_t return_pppoe_remote_mac[3]; /* Return direction's PPPoE Server MAC address */
uint16_t egress_vlan_tag; /* Egress VLAN tag */
uint32_t flags; /* Bit flags associated with the rule */
uint32_t qos_tag; /* Qos Tag */
};
/*
* IPv4 rule sync reasons.
*/
#define NSS_IPV4_RULE_SYNC_REASON_STATS 0
/* Sync is to synchronize stats */
#define NSS_IPV4_RULE_SYNC_REASON_FLUSH 1
/* Sync is to flush a cache entry */
#define NSS_IPV4_RULE_SYNC_REASON_EVICT 2
/* Sync is to evict a cache entry */
#define NSS_IPV4_RULE_SYNC_REASON_DESTROY 3
/* Sync is to destroy a cache entry (requested by host OS) */
#define NSS_IPV4_RULE_SYNC_REASON_PPPOE_DESTROY 4
/* Sync is to destroy a cache entry which belongs to a particular PPPoE session */
/*
* The NSS IPv4 rule sync structure.
*/
struct nss_ipv4_conn_sync {
uint32_t index; /* Slot ID for cache stats to host OS */
uint32_t flow_max_window; /* Flow direction's largest seen window */
uint32_t flow_end; /* Flow direction's largest seen sequence + segment length */
uint32_t flow_max_end; /* Flow direction's largest seen ack + max(1, win) */
uint32_t flow_rx_packet_count; /* Flow interface's RX packet count */
uint32_t flow_rx_byte_count; /* Flow interface's RX byte count */
uint32_t flow_tx_packet_count; /* Flow interface's TX packet count */
uint32_t flow_tx_byte_count; /* Flow interface's TX byte count */
uint16_t flow_pppoe_session_id; /* Flow interface`s PPPoE session ID. */
uint16_t flow_pppoe_remote_mac[3];
/* Flow interface's PPPoE remote server MAC address if there is any */
uint32_t return_max_window; /* Return direction's largest seen window */
uint32_t return_end; /* Return direction's largest seen sequence + segment length */
uint32_t return_max_end; /* Return direction's largest seen ack + max(1, win) */
uint32_t return_rx_packet_count;
/* Return interface's RX packet count */
uint32_t return_rx_byte_count; /* Return interface's RX byte count */
uint32_t return_tx_packet_count;
/* Return interface's TX packet count */
uint32_t return_tx_byte_count; /* Return interface's TX byte count */
uint16_t return_pppoe_session_id;
/* Return interface`s PPPoE session ID. */
uint16_t return_pppoe_remote_mac[3];
/* Return interface's PPPoE remote server MAC address if there is any */
uint32_t inc_ticks; /* Number of ticks since the last sync */
uint32_t reason; /* Reason for the sync */
uint8_t flags; /* Bit flags associated with the rule */
uint32_t qos_tag; /* Qos Tag */
};
/*
* Exception events from bridge/route handler
*/
enum exception_events_ipv4 {
NSS_EXCEPTION_EVENT_IPV4_ICMP_HEADER_INCOMPLETE,
NSS_EXCEPTION_EVENT_IPV4_ICMP_UNHANDLED_TYPE,
NSS_EXCEPTION_EVENT_IPV4_ICMP_IPV4_HEADER_INCOMPLETE,
NSS_EXCEPTION_EVENT_IPV4_ICMP_IPV4_UDP_HEADER_INCOMPLETE,
NSS_EXCEPTION_EVENT_IPV4_ICMP_IPV4_TCP_HEADER_INCOMPLETE,
NSS_EXCEPTION_EVENT_IPV4_ICMP_IPV4_UNKNOWN_PROTOCOL,
NSS_EXCEPTION_EVENT_IPV4_ICMP_NO_ICME,
NSS_EXCEPTION_EVENT_IPV4_ICMP_FLUSH_TO_HOST,
NSS_EXCEPTION_EVENT_IPV4_TCP_HEADER_INCOMPLETE,
NSS_EXCEPTION_EVENT_IPV4_TCP_NO_ICME,
NSS_EXCEPTION_EVENT_IPV4_TCP_IP_OPTION,
NSS_EXCEPTION_EVENT_IPV4_TCP_IP_FRAGMENT,
NSS_EXCEPTION_EVENT_IPV4_TCP_SMALL_TTL,
NSS_EXCEPTION_EVENT_IPV4_TCP_NEEDS_FRAGMENTATION,
NSS_EXCEPTION_EVENT_IPV4_TCP_FLAGS,
NSS_EXCEPTION_EVENT_IPV4_TCP_SEQ_EXCEEDS_RIGHT_EDGE,
NSS_EXCEPTION_EVENT_IPV4_TCP_SMALL_DATA_OFFS,
NSS_EXCEPTION_EVENT_IPV4_TCP_BAD_SACK,
NSS_EXCEPTION_EVENT_IPV4_TCP_BIG_DATA_OFFS,
NSS_EXCEPTION_EVENT_IPV4_TCP_SEQ_BEFORE_LEFT_EDGE,
NSS_EXCEPTION_EVENT_IPV4_TCP_ACK_EXCEEDS_RIGHT_EDGE,
NSS_EXCEPTION_EVENT_IPV4_TCP_ACK_BEFORE_LEFT_EDGE,
NSS_EXCEPTION_EVENT_IPV4_UDP_HEADER_INCOMPLETE,
NSS_EXCEPTION_EVENT_IPV4_UDP_NO_ICME,
NSS_EXCEPTION_EVENT_IPV4_UDP_IP_OPTION,
NSS_EXCEPTION_EVENT_IPV4_UDP_IP_FRAGMENT,
NSS_EXCEPTION_EVENT_IPV4_UDP_SMALL_TTL,
NSS_EXCEPTION_EVENT_IPV4_UDP_NEEDS_FRAGMENTATION,
NSS_EXCEPTION_EVENT_IPV4_WRONG_TARGET_MAC,
NSS_EXCEPTION_EVENT_IPV4_HEADER_INCOMPLETE,
NSS_EXCEPTION_EVENT_IPV4_BAD_TOTAL_LENGTH,
NSS_EXCEPTION_EVENT_IPV4_BAD_CHECKSUM,
NSS_EXCEPTION_EVENT_IPV4_NON_INITIAL_FRAGMENT,
NSS_EXCEPTION_EVENT_IPV4_DATAGRAM_INCOMPLETE,
NSS_EXCEPTION_EVENT_IPV4_OPTIONS_INCOMPLETE,
NSS_EXCEPTION_EVENT_IPV4_UNKNOWN_PROTOCOL,
NSS_EXCEPTION_EVENT_IPV4_ESP_HEADER_INCOMPLETE,
NSS_EXCEPTION_EVENT_IPV4_ESP_NO_ICME,
NSS_EXCEPTION_EVENT_IPV4_ESP_IP_OPTION,
NSS_EXCEPTION_EVENT_IPV4_ESP_IP_FRAGMENT,
NSS_EXCEPTION_EVENT_IPV4_ESP_SMALL_TTL,
NSS_EXCEPTION_EVENT_IPV4_ESP_NEEDS_FRAGMENTATION,
NSS_EXCEPTION_EVENT_IPV4_IVID_MISMATCH,
NSS_EXCEPTION_EVENT_IPV4_6RD_NO_ICME,
NSS_EXCEPTION_EVENT_IPV4_6RD_IP_OPTION,
NSS_EXCEPTION_EVENT_IPV4_6RD_IP_FRAGMENT,
NSS_EXCEPTION_EVENT_IPV4_6RD_NEEDS_FRAGMENTATION,
NSS_EXCEPTION_EVENT_IPV4_DSCP_MARKING_MISMATCH,
NSS_EXCEPTION_EVENT_IPV4_VLAN_MARKING_MISMATCH,
NSS_EXCEPTION_EVENT_IPV4_MAX
};
/*
* IPv4 node statistics structure
*/
struct nss_ipv4_node_sync {
struct nss_cmn_node_stats node_stats;
/* Common node stats for IPv4 */
uint32_t ipv4_connection_create_requests;
/* Number of IPv4 connection create requests */
uint32_t ipv4_connection_create_collisions;
/* Number of IPv4 connection create requests that collided with existing entries */
uint32_t ipv4_connection_create_invalid_interface;
/* Number of IPv4 connection create requests that had invalid interface */
uint32_t ipv4_connection_destroy_requests;
/* Number of IPv4 connection destroy requests */
uint32_t ipv4_connection_destroy_misses;
/* Number of IPv4 connection destroy requests that missed the cache */
uint32_t ipv4_connection_hash_hits;
/* Number of IPv4 connection hash hits */
uint32_t ipv4_connection_hash_reorders;
/* Number of IPv4 connection hash reorders */
uint32_t ipv4_connection_flushes;
/* Number of IPv4 connection flushes */
uint32_t ipv4_connection_evictions;
/* Number of IPv4 connection evictions */
uint32_t exception_events[NSS_EXCEPTION_EVENT_IPV4_MAX];
/* Number of IPv4 exception events */
};
/*
* Message structure to send/receive IPv4 bridge/route commands
*/
struct nss_ipv4_msg {
struct nss_cmn_msg cm; /* Message Header */
union {
struct nss_ipv4_rule_create_msg rule_create; /* Message: rule create */
struct nss_ipv4_rule_destroy_msg rule_destroy; /* Message: rule destroy */
struct nss_ipv4_rule_establish rule_establish; /* Message: rule establish confirmation */
struct nss_ipv4_conn_sync conn_stats; /* Message: connection stats sync */
struct nss_ipv4_node_sync node_stats; /* Message: node stats sync */
} msg;
};
typedef void (*nss_ipv4_msg_callback_t)(void *app_data, struct nss_ipv4_msg *msg);
extern nss_tx_status_t nss_ipv4_tx(struct nss_ctx_instance *nss_ctx, struct nss_ipv4_msg *msg);
extern struct nss_ctx_instance *nss_ipv4_notify_register(nss_ipv4_msg_callback_t cb, void *app_data);
extern void nss_ipv4_notify_unregister(void);
extern struct nss_ctx_instance *nss_ipv4_get_mgr(void);
extern void nss_ipv4_register_handler(void);
#endif /* __NSS_IPV4_H */