/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2010 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _VNET_H #define _VNET_H #ifdef __cplusplus extern "C" { #endif #include #include #include #include #include #define VNET_SUCCESS (0) /* successful return */ #define VNET_FAILURE (-1) /* unsuccessful return */ #define KMEM_FREE(_p) kmem_free((_p), sizeof (*(_p))) #define VNET_NUM_DESCRIPTORS 512 /* power of 2 descriptors */ #define IS_BROADCAST(ehp) \ (ether_cmp(&ehp->ether_dhost, ðerbroadcastaddr) == 0) #define IS_MULTICAST(ehp) \ ((ehp->ether_dhost.ether_addr_octet[0] & 01) == 1) #define VNET_MATCH_RES(vresp, vnetp) \ (ether_cmp(vresp->local_macaddr, vnetp->curr_macaddr) == 0) /* * Flags used to indicate the state of the vnet device and its associated * resources. */ typedef enum vnet_flags { VNET_STOPPED = 0x0, VNET_STARTED = 0x1, VNET_STOPPING = 0x2 } vnet_flags_t; typedef struct vnet_hio_stats { /* Link Input/Output stats */ uint64_t ipackets; /* # rx packets */ uint64_t ierrors; /* # rx error */ uint64_t opackets; /* # tx packets */ uint64_t oerrors; /* # tx error */ /* MIB II variables */ uint64_t rbytes; /* # bytes received */ uint64_t obytes; /* # bytes transmitted */ uint32_t multircv; /* # multicast packets received */ uint32_t multixmt; /* # multicast packets for xmit */ uint32_t brdcstrcv; /* # broadcast packets received */ uint32_t brdcstxmt; /* # broadcast packets for xmit */ uint32_t norcvbuf; /* # rcv packets discarded */ uint32_t noxmtbuf; /* # xmit packets discarded */ } vnet_hio_stats_t; typedef struct vnet_hio_kstats { /* Link Input/Output stats */ kstat_named_t ipackets; kstat_named_t ipackets64; kstat_named_t ierrors; kstat_named_t opackets; kstat_named_t opackets64; kstat_named_t oerrors; /* required by kstat for MIB II objects(RFC 1213) */ kstat_named_t rbytes; /* MIB - ifInOctets */ kstat_named_t rbytes64; kstat_named_t obytes; /* MIB - ifOutOctets */ kstat_named_t obytes64; kstat_named_t multircv; /* MIB - ifInNUcastPkts */ kstat_named_t multixmt; /* MIB - ifOutNUcastPkts */ kstat_named_t brdcstrcv; /* MIB - ifInNUcastPkts */ kstat_named_t brdcstxmt; /* MIB - ifOutNUcastPkts */ kstat_named_t norcvbuf; /* MIB - ifInDiscards */ kstat_named_t noxmtbuf; /* MIB - ifOutDiscards */ } vnet_hio_kstats_t; typedef struct vnet_tx_ring_stats { uint64_t opackets; /* # tx packets */ uint64_t obytes; /* # bytes transmitted */ } vnet_tx_ring_stats_t; /* * A vnet resource structure. */ typedef struct vnet_res { struct vnet_res *nextp; /* next resource in the list */ mac_register_t macreg; /* resource's mac_reg */ vio_net_res_type_t type; /* resource type */ ether_addr_t local_macaddr; /* resource's macaddr */ ether_addr_t rem_macaddr; /* resource's remote macaddr */ vnet_flags_t flags; /* resource flags */ uint32_t refcnt; /* reference count */ struct vnet *vnetp; /* back pointer to vnet */ kstat_t *ksp; /* hio kstats */ void *rx_ringp; /* assoc pseudo rx ring */ } vnet_res_t; #define VNET_DDS_TASK_ADD_SHARE 0x01 #define VNET_DDS_TASK_DEL_SHARE 0x02 #define VNET_DDS_TASK_REL_SHARE 0x04 /* An instance specific DDS structure */ typedef struct vnet_dds_info { kmutex_t lock; /* lock for this structure */ uint8_t task_flags; /* flags for taskq */ uint8_t dds_req_id; /* DDS message request id */ vio_dds_msg_t dmsg; /* Pending DDS message */ dev_info_t *hio_dip; /* Hybrid device's dip */ uint64_t hio_cookie; /* Hybrid device's cookie */ char hio_ifname[LIFNAMSIZ]; /* Hybrid interface name */ ddi_taskq_t *dds_taskqp; /* Taskq's used for DDS */ struct vnet *vnetp; /* Back pointer to vnetp */ } vnet_dds_info_t; #define VNET_NFDB_HASH 64 #define KEY_HASH(key, addr) \ (key = (((uint64_t)(addr[0])) << 40) | \ (((uint64_t)(addr[1])) << 32) | \ (((uint64_t)(addr[2])) << 24) | \ (((uint64_t)(addr[3])) << 16) | \ (((uint64_t)(addr[4])) << 8) | \ ((uint64_t)(addr[5]))); /* rwlock macros */ #define READ_ENTER(x) rw_enter(x, RW_READER) #define WRITE_ENTER(x) rw_enter(x, RW_WRITER) #define RW_EXIT(x) rw_exit(x) #define VLAN_ID_KEY(key) ((mod_hash_key_t)(uintptr_t)(key)) typedef enum { AST_init = 0x0, AST_vnet_alloc = 0x1, AST_ring_init = 0x2, AST_vdds_init = 0x4, AST_read_macaddr = 0x8, AST_fdbh_alloc = 0x10, AST_taskq_create = 0x20, AST_vnet_list = 0x40, AST_vgen_init = 0x80, AST_macreg = 0x100, AST_init_mdeg = 0x200 } vnet_attach_progress_t; #define VNET_NUM_PSEUDO_GROUPS 1 /* # of pseudo ring grps */ #define VNET_NUM_HYBRID_RINGS 2 /* # of Hybrid tx/rx rings */ #define VNET_HYBRID_RXRING_INDEX 1 /* Hybrid rx ring start index */ /* * # of Pseudo TX Rings is defined based on the possible * # of TX Hardware Rings from a Hybrid resource. */ #define VNET_NUM_PSEUDO_TXRINGS VNET_NUM_HYBRID_RINGS /* * # of Pseudo RX Rings that are reserved and exposed by default. * 1 for LDC resource to vsw + 2 for RX rings of Hybrid resource. */ #define VNET_NUM_PSEUDO_RXRINGS_DEFAULT (VNET_NUM_HYBRID_RINGS + 1) /* Pseudo RX Ring States */ typedef enum { VNET_RXRING_FREE = 0x0, /* Free */ VNET_RXRING_INUSE = 0x1, /* In use */ VNET_RXRING_LDC_SERVICE = 0x2, /* Mapped to vswitch */ VNET_RXRING_LDC_GUEST = 0x4, /* Mapped to a peer vnet */ VNET_RXRING_HYBRID = 0x8, /* Mapped to Hybrid resource */ VNET_RXRING_STARTED = 0x10 /* Started */ } vnet_rxring_state_t; /* Pseudo TX Ring States */ typedef enum { VNET_TXRING_FREE = 0x0, /* Free */ VNET_TXRING_INUSE = 0x1, /* In use */ VNET_TXRING_SHARED = 0x2, /* Shared among LDCs */ VNET_TXRING_HYBRID = 0x4, /* Shared among LDCs, Hybrid resource */ VNET_TXRING_STARTED = 0x8 /* Started */ } vnet_txring_state_t; /* * Psuedo TX Ring */ typedef struct vnet_pseudo_tx_ring { uint_t index; /* ring index */ vnet_txring_state_t state; /* ring state */ void *grp; /* grp associated */ void *vnetp; /* vnet associated */ mac_ring_handle_t handle; /* ring handle in mac layer */ mac_ring_handle_t hw_rh; /* Resource type dependent, internal */ /* ring handle. Hybrid res: ring hdl */ /* of hardware rx ring; LDC res: hdl */ /* to the res itself (vnet_res_t) */ boolean_t woken_up; vnet_tx_ring_stats_t tx_ring_stats; /* ring statistics */ } vnet_pseudo_tx_ring_t; /* * Psuedo RX Ring */ typedef struct vnet_pseudo_rx_ring { uint_t index; /* ring index */ vnet_rxring_state_t state; /* ring state */ void *grp; /* grp associated */ void *vnetp; /* vnet associated */ mac_ring_handle_t handle; /* ring handle in mac layer */ mac_ring_handle_t hw_rh; /* Resource type dependent, internal */ /* ring handle. Hybrid res: ring hdl */ /* of hardware tx ring; otherwise */ /* NULL */ uint64_t gen_num; /* Mac layer gen_num */ } vnet_pseudo_rx_ring_t; /* * Psuedo TX Ring Group */ typedef struct vnet_pseudo_tx_group { uint_t index; /* group index */ void *vnetp; /* vnet associated */ mac_group_handle_t handle; /* grp handle in mac layer */ uint_t ring_cnt; /* total # of rings in grp */ vnet_pseudo_tx_ring_t *rings; /* array of rings */ kmutex_t flowctl_lock; /* flow control lock */ kcondvar_t flowctl_cv; kthread_t *flowctl_thread; boolean_t flowctl_done; void *tx_notify_handle; /* Tx ring notification */ } vnet_pseudo_tx_group_t; /* * Psuedo RX Ring Group */ typedef struct vnet_pseudo_rx_group { krwlock_t lock; /* sync rings access in grp */ int index; /* group index */ void *vnetp; /* vnet this grp belongs to */ mac_group_handle_t handle; /* grp handle in mac layer */ uint_t max_ring_cnt; /* total # of rings in grp */ uint_t ring_cnt; /* # of rings in use */ vnet_pseudo_rx_ring_t *rings; /* array of rings */ } vnet_pseudo_rx_group_t; /* * vnet instance state information */ typedef struct vnet { int instance; /* instance # */ dev_info_t *dip; /* dev_info */ uint64_t reg; /* reg prop value */ vnet_attach_progress_t attach_progress; /* attach progress flags */ struct vnet *nextp; /* next in list */ mac_handle_t mh; /* handle to GLDv3 mac module */ uchar_t vendor_addr[ETHERADDRL]; /* orig macadr */ uchar_t curr_macaddr[ETHERADDRL]; /* current macadr */ void *vgenhdl; /* Handle for vgen */ uint32_t fdb_nchains; /* # of hash chains in fdbtbl */ mod_hash_t *fdb_hashp; /* forwarding database */ vnet_res_t *vsw_fp; /* cached fdb entry of vsw */ krwlock_t vsw_fp_rw; /* lock to protect vsw_fp */ uint32_t mtu; /* mtu of the device */ uint16_t default_vlan_id; /* default vlan id */ uint16_t pvid; /* port vlan id (untagged) */ uint16_t *vids; /* vlan ids (tagged) */ uint16_t nvids; /* # of vids */ link_state_t link_state; /* link status */ boolean_t pls_update; /* phys link state update ? */ vnet_flags_t flags; /* interface flags */ vnet_res_t *hio_fp; /* Hybrid IO resource */ vnet_res_t *vres_list; /* Resource list */ vnet_dds_info_t vdds_info; /* DDS related info */ krwlock_t vrwlock; /* Resource list lock */ ddi_taskq_t *taskqp; /* Resource taskq */ /* pseudo ring groups */ vnet_pseudo_rx_group_t rx_grp[VNET_NUM_PSEUDO_GROUPS]; vnet_pseudo_tx_group_t tx_grp[VNET_NUM_PSEUDO_GROUPS]; vio_net_handle_t hio_vhp; /* HIO resource hdl */ mac_handle_t hio_mh; /* HIO mac hdl */ mac_client_handle_t hio_mch; /* HIO mac client hdl */ mac_unicast_handle_t hio_muh; /* HIO mac unicst hdl */ mac_group_handle_t rx_hwgh; /* HIO rx ring-group hdl */ mac_group_handle_t tx_hwgh; /* HIO tx ring-group hdl */ } vnet_t; #ifdef DEBUG /* * debug levels: * DBG_LEVEL1: Function entry/exit tracing * DBG_LEVEL2: Info messages * DBG_LEVEL3: Warning messages * DBG_LEVEL4: Error messages */ enum { DBG_LEVEL1 = 0x01, DBG_LEVEL2 = 0x02, DBG_WARN = 0x04, DBG_ERR = 0x08 }; #define DBG1(...) do { \ if ((vnet_dbglevel & DBG_LEVEL1) != 0) { \ DEBUG_PRINTF(__func__, __VA_ARGS__); \ } \ _NOTE(CONSTCOND) } while (0) #define DBG2(...) do { \ if ((vnet_dbglevel & DBG_LEVEL2) != 0) { \ DEBUG_PRINTF(__func__, __VA_ARGS__); \ } \ _NOTE(CONSTCOND) } while (0) #define DWARN(...) do { \ if ((vnet_dbglevel & DBG_WARN) != 0) { \ DEBUG_PRINTF(__func__, __VA_ARGS__); \ } \ _NOTE(CONSTCOND) } while (0) #define DERR(...) do { \ if ((vnet_dbglevel & DBG_ERR) != 0) { \ DEBUG_PRINTF(__func__, __VA_ARGS__); \ } \ _NOTE(CONSTCOND) } while (0) #else #define DBG1(...) #define DBG2(...) #define DWARN(...) #define DERR(...) #endif #ifdef VNET_IOC_DEBUG /* Debug ioctls */ #define VNET_FORCE_LINK_DOWN 0x1 #define VNET_FORCE_LINK_UP 0x2 #endif #ifdef __cplusplus } #endif #endif /* _VNET_H */