#include <sys/types.h>

#include <sys/stropts.h>

#include <sys/stream.h>

#include <sys/socket.h>

#include <sys/avl_impl.h>

#include <net/if_types.h>

#include <net/if.h>

#include <net/route.h>

#include <netinet/in.h>

#include <netinet/ip6.h>

#include <netinet/udp.h>

#include <netinet/sctp.h>

#include <inet/mib2.h>

#include <inet/common.h>

#include <inet/ip.h>

#include <inet/ip_ire.h>

#include <inet/ip6.h>

#include <inet/ipclassifier.h>

#include <inet/mi.h>

#include <sys/squeue_impl.h>

#include <sys/modhash_impl.h>

#include <inet/ip_ndp.h>

#include <inet/ip_if.h>

#include <ilb.h>

#include <ilb/ilb_impl.h>

#include <ilb/ilb_stack.h>

#include <ilb/ilb_nat.h>

#include <ilb/ilb_conn.h>

#include <sys/dlpi.h>

#include <mdb/mdb_modapi.h>

#include <mdb/mdb_ks.h>

#define ADDR_WIDTH 11

#define L2MAXADDRSTRLEN 255

#define MAX_SAP_LEN 255

#define DEFCOLS 80

typedef struct {

const char *bit_name; /* name of bit */

const char *bit_descr; /* description of bit's purpose */

} bitname_t;

static const bitname_t squeue_states[] = {

{ "SQS_PROC", "being processed" },

{ "SQS_WORKER", "... by a worker thread" },

{ "SQS_ENTER", "... by an squeue_enter() thread" },

{ "SQS_FAST", "... in fast-path mode" },

{ "SQS_USER", "A non interrupt user" },

{ "SQS_BOUND", "worker thread bound to CPU" },

{ "SQS_PROFILE", "profiling enabled" },

{ "SQS_REENTER", "re-entered thred" },

{ NULL }

};

typedef struct illif_walk_data {

ill_g_head_t ill_g_heads[MAX_G_HEADS];

int ill_list;

ill_if_t ill_if;

} illif_walk_data_t;

typedef struct nce_walk_data_s {

struct ndp_g_s nce_ip_ndp;

int nce_hash_tbl_index;

nce_t nce;

} nce_walk_data_t;

typedef struct nce_cbdata_s {

uintptr_t nce_addr;

int nce_ipversion;

} nce_cbdata_t;

typedef struct ire_cbdata_s {

int ire_ipversion;

boolean_t verbose;

} ire_cbdata_t;

typedef struct th_walk_data {

uint_t thw_non_zero_only;

boolean_t thw_match;

uintptr_t thw_matchkey;

uintptr_t thw_ipst;

clock_t thw_lbolt;

} th_walk_data_t;

typedef struct ipcl_hash_walk_data_s {

conn_t *conn;

int connf_tbl_index;

uintptr_t hash_tbl;

int hash_tbl_size;

} ipcl_hash_walk_data_t;

typedef struct ill_walk_data_s {

ill_t ill;

} ill_walk_data_t;

typedef struct ill_cbdata_s {

uintptr_t ill_addr;

int ill_ipversion;

boolean_t verbose;

} ill_cbdata_t;

typedef struct ipif_walk_data_s {

ipif_t ipif;

} ipif_walk_data_t;

typedef struct ipif_cbdata_s {

ill_t ill;

int ipif_ipversion;

boolean_t verbose;

} ipif_cbdata_t;

typedef struct hash_walk_arg_s {

off_t tbl_off;

off_t size_off;

} hash_walk_arg_t;

static hash_walk_arg_t udp_hash_arg = {

OFFSETOF(ip_stack_t, ips_ipcl_udp_fanout),

OFFSETOF(ip_stack_t, ips_ipcl_udp_fanout_size)

};

static hash_walk_arg_t conn_hash_arg = {

OFFSETOF(ip_stack_t, ips_ipcl_conn_fanout),

OFFSETOF(ip_stack_t, ips_ipcl_conn_fanout_size)

};

static hash_walk_arg_t bind_hash_arg = {

OFFSETOF(ip_stack_t, ips_ipcl_bind_fanout),

OFFSETOF(ip_stack_t, ips_ipcl_bind_fanout_size)

};

static hash_walk_arg_t proto_hash_arg = {

OFFSETOF(ip_stack_t, ips_ipcl_proto_fanout),

0

};

static hash_walk_arg_t proto_v6_hash_arg = {

OFFSETOF(ip_stack_t, ips_ipcl_proto_fanout_v6),

0

};

typedef struct ip_list_walk_data_s {

off_t nextoff;

} ip_list_walk_data_t;

typedef struct ip_list_walk_arg_s {

off_t off;

size_t size;

off_t nextp_off;

} ip_list_walk_arg_t;

static ip_list_walk_arg_t ipif_walk_arg = {

OFFSETOF(ill_t, ill_ipif),

sizeof (ipif_t),

OFFSETOF(ipif_t, ipif_next)

};

static ip_list_walk_arg_t srcid_walk_arg = {

OFFSETOF(ip_stack_t, ips_srcid_head),

sizeof (srcid_map_t),

OFFSETOF(srcid_map_t, sm_next)

};

static int iphdr(uintptr_t, uint_t, int, const mdb_arg_t *);

static int ip6hdr(uintptr_t, uint_t, int, const mdb_arg_t *);

static int ill(uintptr_t, uint_t, int, const mdb_arg_t *);

static void ill_help(void);

static int ill_walk_init(mdb_walk_state_t *);

static int ill_walk_step(mdb_walk_state_t *);

static int ill_format(uintptr_t, const void *, void *);

static void ill_header(boolean_t);

static int ipif(uintptr_t, uint_t, int, const mdb_arg_t *);

static void ipif_help(void);

static int ipif_walk_init(mdb_walk_state_t *);

static int ipif_walk_step(mdb_walk_state_t *);

static int ipif_format(uintptr_t, const void *, void *);

static void ipif_header(boolean_t);

static int ip_list_walk_init(mdb_walk_state_t *);

static int ip_list_walk_step(mdb_walk_state_t *);

static void ip_list_walk_fini(mdb_walk_state_t *);

static int srcid_walk_step(mdb_walk_state_t *);

static int ire_format(uintptr_t addr, const void *, void *);

static int nce_format(uintptr_t addr, const nce_t *nce, int ipversion);

static int nce(uintptr_t addr, uint_t flags, int argc, const mdb_arg_t *argv);

static int nce_walk_step(mdb_walk_state_t *wsp);

static int nce_stack_walk_init(mdb_walk_state_t *wsp);

static int nce_stack_walk_step(mdb_walk_state_t *wsp);

static void nce_stack_walk_fini(mdb_walk_state_t *wsp);

static int nce_cb(uintptr_t addr, const nce_walk_data_t *iw, nce_cbdata_t *id);

static int ipcl_hash_walk_init(mdb_walk_state_t *);

static int ipcl_hash_walk_step(mdb_walk_state_t *);

static void ipcl_hash_walk_fini(mdb_walk_state_t *);

static int conn_status_walk_step(mdb_walk_state_t *);

static int conn_status(uintptr_t, uint_t, int, const mdb_arg_t *);

static void conn_status_help(void);

static int srcid_status(uintptr_t, uint_t, int, const mdb_arg_t *);

static int ilb_stacks_walk_step(mdb_walk_state_t *);

static int ilb_rules_walk_init(mdb_walk_state_t *);

static int ilb_rules_walk_step(mdb_walk_state_t *);

static int ilb_servers_walk_init(mdb_walk_state_t *);

static int ilb_servers_walk_step(mdb_walk_state_t *);

static int ilb_nat_src_walk_init(mdb_walk_state_t *);

static int ilb_nat_src_walk_step(mdb_walk_state_t *);

static int ilb_conn_walk_init(mdb_walk_state_t *);

static int ilb_conn_walk_step(mdb_walk_state_t *);

static int ilb_sticky_walk_init(mdb_walk_state_t *);

static int ilb_sticky_walk_step(mdb_walk_state_t *);

static void ilb_common_walk_fini(mdb_walk_state_t *);

static int

ips_to_stackid(uintptr_t kaddr)

{

ip_stack_t ipss;

netstack_t nss;

if (mdb_vread(&ipss, sizeof (ipss), kaddr) == -1) {

mdb_warn("failed to read ip_stack_t %p", kaddr);

return (0);

}

kaddr = (uintptr_t)ipss.ips_netstack;

if (mdb_vread(&nss, sizeof (nss), kaddr) == -1) {

mdb_warn("failed to read netstack_t %p", kaddr);

return (0);

}

return (nss.netstack_stackid);

}

ip_stacks_walk_init(mdb_walk_state_t *wsp)

{

if (mdb_layered_walk("netstack", wsp) == -1) {

mdb_warn("can't walk 'netstack'");

return (WALK_ERR);

}

return (WALK_NEXT);

}

ip_stacks_walk_step(mdb_walk_state_t *wsp)

{

uintptr_t kaddr;

netstack_t nss;

if (mdb_vread(&nss, sizeof (nss), wsp->walk_addr) == -1) {

mdb_warn("can't read netstack at %p", wsp->walk_addr);

return (WALK_ERR);

}

kaddr = (uintptr_t)nss.netstack_modules[NS_IP];

return (wsp->walk_callback(kaddr, wsp->walk_layer, wsp->walk_cbdata));

}

th_hash_walk_init(mdb_walk_state_t *wsp)

{

GElf_Sym sym;

list_node_t *next;

if (wsp->walk_addr == NULL) {

if (mdb_lookup_by_obj("ip", "ip_thread_list", &sym) == 0) {

wsp->walk_addr = sym.st_value;

} else {

mdb_warn("unable to locate ip_thread_list\n");

return (WALK_ERR);

}

}

if (mdb_vread(&next, sizeof (next),

wsp->walk_addr + offsetof(list_t, list_head) +

offsetof(list_node_t, list_next)) == -1 ||

next == NULL) {

mdb_warn("non-DEBUG image; cannot walk th_hash list\n");

return (WALK_ERR);

}

if (mdb_layered_walk("list", wsp) == -1) {

mdb_warn("can't walk 'list'");

return (WALK_ERR);

} else {

return (WALK_NEXT);

}

}

th_hash_walk_step(mdb_walk_state_t *wsp)

{

return (wsp->walk_callback(wsp->walk_addr, wsp->walk_layer,

wsp->walk_cbdata));

}

illif_stack_walk_init(mdb_walk_state_t *wsp)

{

illif_walk_data_t *iw;

if (wsp->walk_addr == NULL) {

mdb_warn("illif_stack supports only local walks\n");

return (WALK_ERR);

}

iw = mdb_alloc(sizeof (illif_walk_data_t), UM_SLEEP);

if (mdb_vread(iw->ill_g_heads, MAX_G_HEADS * sizeof (ill_g_head_t),

wsp->walk_addr) == -1) {

mdb_warn("failed to read 'ips_ill_g_heads' at %p",

wsp->walk_addr);

mdb_free(iw, sizeof (illif_walk_data_t));

return (WALK_ERR);

}

iw->ill_list = 0;

wsp->walk_addr = (uintptr_t)iw->ill_g_heads[0].ill_g_list_head;

wsp->walk_data = iw;

return (WALK_NEXT);

}

illif_stack_walk_step(mdb_walk_state_t *wsp)

{

uintptr_t addr = wsp->walk_addr;

illif_walk_data_t *iw = wsp->walk_data;

int list = iw->ill_list;

if (mdb_vread(&iw->ill_if, sizeof (ill_if_t), addr) == -1) {

mdb_warn("failed to read ill_if_t at %p", addr);

return (WALK_ERR);

}

wsp->walk_addr = (uintptr_t)iw->ill_if.illif_next;

if (wsp->walk_addr ==

(uintptr_t)iw->ill_g_heads[list].ill_g_list_head) {

if (++list >= MAX_G_HEADS)

return (WALK_DONE);

iw->ill_list = list;

wsp->walk_addr =

(uintptr_t)iw->ill_g_heads[list].ill_g_list_head;

return (WALK_NEXT);

}

return (wsp->walk_callback(addr, iw, wsp->walk_cbdata));

}

illif_stack_walk_fini(mdb_walk_state_t *wsp)

{

mdb_free(wsp->walk_data, sizeof (illif_walk_data_t));

}

typedef struct illif_cbdata {

uint_t ill_flags;

uintptr_t ill_addr;

int ill_printlist; /* list to be printed (MAX_G_HEADS for all) */

boolean_t ill_printed;

} illif_cbdata_t;

static int

illif_cb(uintptr_t addr, const illif_walk_data_t *iw, illif_cbdata_t *id)

{

const char *version;

if (id->ill_printlist < MAX_G_HEADS &&

id->ill_printlist != iw->ill_list)

return (WALK_NEXT);

if (id->ill_flags & DCMD_ADDRSPEC && id->ill_addr != addr)

return (WALK_NEXT);

if (id->ill_flags & DCMD_PIPE_OUT) {

mdb_printf("%p\n", addr);

return (WALK_NEXT);

}

switch (iw->ill_list) {

case IP_V4_G_HEAD: version = "v4"; break;

case IP_V6_G_HEAD: version = "v6"; break;

default: version = "??"; break;

}

mdb_printf("%?p %2s %?p %10d %?p %s\n",

addr, version, addr + offsetof(ill_if_t, illif_avl_by_ppa),

iw->ill_if.illif_avl_by_ppa.avl_numnodes,

iw->ill_if.illif_ppa_arena, iw->ill_if.illif_name);

id->ill_printed = TRUE;

return (WALK_NEXT);

}

ip_stacks_common_walk_init(mdb_walk_state_t *wsp)

{

if (mdb_layered_walk("ip_stacks", wsp) == -1) {

mdb_warn("can't walk 'ip_stacks'");

return (WALK_ERR);

}

return (WALK_NEXT);

}

illif_walk_step(mdb_walk_state_t *wsp)

{

uintptr_t kaddr;

kaddr = wsp->walk_addr + OFFSETOF(ip_stack_t, ips_ill_g_heads);

if (mdb_vread(&kaddr, sizeof (kaddr), kaddr) == -1) {

mdb_warn("can't read ips_ip_cache_table at %p", kaddr);

return (WALK_ERR);

}

if (mdb_pwalk("illif_stack", wsp->walk_callback,

wsp->walk_cbdata, kaddr) == -1) {

mdb_warn("couldn't walk 'illif_stack' for ips_ill_g_heads %p",

kaddr);

return (WALK_ERR);

}

return (WALK_NEXT);

}

illif(uintptr_t addr, uint_t flags, int argc, const mdb_arg_t *argv)

{

illif_cbdata_t id;

ill_if_t ill_if;

const char *opt_P = NULL;

int printlist = MAX_G_HEADS;

if (mdb_getopts(argc, argv,

'P', MDB_OPT_STR, &opt_P, NULL) != argc)

return (DCMD_USAGE);

if (opt_P != NULL) {

if (strcmp("v4", opt_P) == 0) {

printlist = IP_V4_G_HEAD;

} else if (strcmp("v6", opt_P) == 0) {

printlist = IP_V6_G_HEAD;

} else {

mdb_warn("invalid protocol '%s'\n", opt_P);

return (DCMD_USAGE);

}

}

if (DCMD_HDRSPEC(flags) && (flags & DCMD_PIPE_OUT) == 0) {

mdb_printf("%<u>%?s %2s %?s %10s %?s %-10s%</u>\n",

"ADDR", "IP", "AVLADDR", "NUMNODES", "ARENA", "NAME");

}

id.ill_flags = flags;

id.ill_addr = addr;

id.ill_printlist = printlist;

id.ill_printed = FALSE;

if (mdb_walk("illif", (mdb_walk_cb_t)illif_cb, &id) == -1) {

mdb_warn("can't walk ill_if_t structures");

return (DCMD_ERR);

}

if (!(flags & DCMD_ADDRSPEC) || opt_P != NULL || id.ill_printed)

return (DCMD_OK);

/*

if (mdb_vread(&ill_if, sizeof (ill_if_t), addr) == -1) {

mdb_warn("failed to read ill_if_t at %p", addr);

return (DCMD_ERR);

}

mdb_printf("%?p %2s %?p %10d %?p %s\n",

addr, "??", addr + offsetof(ill_if_t, illif_avl_by_ppa),

ill_if.illif_avl_by_ppa.avl_numnodes,

ill_if.illif_ppa_arena, ill_if.illif_name);

return (DCMD_OK);

}

static void

illif_help(void)

{

mdb_printf("Options:\n");

mdb_printf("\t-P v4 | v6"

"\tfilter interface structures for the specified protocol\n");

}

ire_walk_init(mdb_walk_state_t *wsp)

{

if (mdb_layered_walk("ire_cache", wsp) == -1) {

mdb_warn("can't walk 'ire_cache'");

return (WALK_ERR);

}

return (WALK_NEXT);

}

ire_walk_step(mdb_walk_state_t *wsp)

{

ire_t ire;

if (mdb_vread(&ire, sizeof (ire), wsp->walk_addr) == -1) {

mdb_warn("can't read ire at %p", wsp->walk_addr);

return (WALK_ERR);

}

return (wsp->walk_callback(wsp->walk_addr, &ire, wsp->walk_cbdata));

}

ire_ctable_walk_step(mdb_walk_state_t *wsp)

{

uintptr_t kaddr;

irb_t *irb;

uint32_t cache_table_size;

int i;

ire_cbdata_t ire_cb;

ire_cb.verbose = B_FALSE;

ire_cb.ire_ipversion = 0;

kaddr = wsp->walk_addr + OFFSETOF(ip_stack_t, ips_ip_cache_table_size);

if (mdb_vread(&cache_table_size, sizeof (uint32_t), kaddr) == -1) {

mdb_warn("can't read ips_ip_cache_table at %p", kaddr);

return (WALK_ERR);

}

kaddr = wsp->walk_addr + OFFSETOF(ip_stack_t, ips_ip_cache_table);

if (mdb_vread(&kaddr, sizeof (kaddr), kaddr) == -1) {

mdb_warn("can't read ips_ip_cache_table at %p", kaddr);

return (WALK_ERR);

}

irb = mdb_alloc(sizeof (irb_t) * cache_table_size, UM_SLEEP|UM_GC);

if (mdb_vread(irb, sizeof (irb_t) * cache_table_size, kaddr) == -1) {

mdb_warn("can't read irb at %p", kaddr);

return (WALK_ERR);

}

for (i = 0; i < cache_table_size; i++) {

kaddr = (uintptr_t)irb[i].irb_ire;

if (mdb_pwalk("ire_next", ire_format, &ire_cb,

kaddr) == -1) {

mdb_warn("can't walk 'ire_next' for ire %p", kaddr);

return (WALK_ERR);

}

}

return (WALK_NEXT);

}

ire_next_walk_init(mdb_walk_state_t *wsp)

{

return (WALK_NEXT);

}

ire_next_walk_step(mdb_walk_state_t *wsp)

{

ire_t ire;

int status;

if (wsp->walk_addr == NULL)

return (WALK_DONE);

if (mdb_vread(&ire, sizeof (ire), wsp->walk_addr) == -1) {

mdb_warn("can't read ire at %p", wsp->walk_addr);

return (WALK_ERR);

}

status = wsp->walk_callback(wsp->walk_addr, &ire,

wsp->walk_cbdata);

if (status != WALK_NEXT)

return (status);

wsp->walk_addr = (uintptr_t)ire.ire_next;

return (status);

}

static int

ire_format(uintptr_t addr, const void *ire_arg, void *ire_cb_arg)

{

const ire_t *irep = ire_arg;

ire_cbdata_t *ire_cb = ire_cb_arg;

boolean_t verbose = ire_cb->verbose;

static const mdb_bitmask_t tmasks[] = {

{ "BROADCAST", IRE_BROADCAST, IRE_BROADCAST },

{ "DEFAULT", IRE_DEFAULT, IRE_DEFAULT },

{ "LOCAL", IRE_LOCAL, IRE_LOCAL },

{ "LOOPBACK", IRE_LOOPBACK, IRE_LOOPBACK },

{ "PREFIX", IRE_PREFIX, IRE_PREFIX },

{ "CACHE", IRE_CACHE, IRE_CACHE },

{ "IF_NORESOLVER", IRE_IF_NORESOLVER, IRE_IF_NORESOLVER },

{ "IF_RESOLVER", IRE_IF_RESOLVER, IRE_IF_RESOLVER },

{ "HOST", IRE_HOST, IRE_HOST },

{ "HOST_REDIRECT", IRE_HOST_REDIRECT, IRE_HOST_REDIRECT },

{ NULL, 0, 0 }

};

static const mdb_bitmask_t mmasks[] = {

{ "CONDEMNED", IRE_MARK_CONDEMNED, IRE_MARK_CONDEMNED },

{ "TESTHIDDEN", IRE_MARK_TESTHIDDEN, IRE_MARK_TESTHIDDEN },

{ "NOADD", IRE_MARK_NOADD, IRE_MARK_NOADD },

{ "TEMPORARY", IRE_MARK_TEMPORARY, IRE_MARK_TEMPORARY },

{ "USESRC", IRE_MARK_USESRC_CHECK, IRE_MARK_USESRC_CHECK },

{ "PRIVATE", IRE_MARK_PRIVATE_ADDR, IRE_MARK_PRIVATE_ADDR },

{ "UNCACHED", IRE_MARK_UNCACHED, IRE_MARK_UNCACHED },

{ NULL, 0, 0 }

};

static const mdb_bitmask_t fmasks[] = {

{ "UP", RTF_UP, RTF_UP },

{ "GATEWAY", RTF_GATEWAY, RTF_GATEWAY },

{ "HOST", RTF_HOST, RTF_HOST },

{ "REJECT", RTF_REJECT, RTF_REJECT },

{ "DYNAMIC", RTF_DYNAMIC, RTF_DYNAMIC },

{ "MODIFIED", RTF_MODIFIED, RTF_MODIFIED },

{ "DONE", RTF_DONE, RTF_DONE },

{ "MASK", RTF_MASK, RTF_MASK },

{ "CLONING", RTF_CLONING, RTF_CLONING },

{ "XRESOLVE", RTF_XRESOLVE, RTF_XRESOLVE },

{ "LLINFO", RTF_LLINFO, RTF_LLINFO },

{ "STATIC", RTF_STATIC, RTF_STATIC },

{ "BLACKHOLE", RTF_BLACKHOLE, RTF_BLACKHOLE },

{ "PRIVATE", RTF_PRIVATE, RTF_PRIVATE },

{ "PROTO2", RTF_PROTO2, RTF_PROTO2 },

{ "PROTO1", RTF_PROTO1, RTF_PROTO1 },

{ "MULTIRT", RTF_MULTIRT, RTF_MULTIRT },

{ "SETSRC", RTF_SETSRC, RTF_SETSRC },

{ NULL, 0, 0 }

};

if (ire_cb->ire_ipversion != 0 &&

irep->ire_ipversion != ire_cb->ire_ipversion)

return (WALK_NEXT);

if (irep->ire_ipversion == IPV6_VERSION && verbose) {

mdb_printf("%<b>%?p%</b> %40N <%hb>\n"

"%?s %40N <%hb>\n"

"%?s %40d %4d <%hb>\n",

addr, &irep->ire_src_addr_v6, irep->ire_type, tmasks,

"", &irep->ire_addr_v6, (ushort_t)irep->ire_marks, mmasks,

"", ips_to_stackid((uintptr_t)irep->ire_ipst),

irep->ire_zoneid,

irep->ire_flags, fmasks);

} else if (irep->ire_ipversion == IPV6_VERSION) {

mdb_printf("%?p %30N %30N %5d %4d\n",

addr, &irep->ire_src_addr_v6,

&irep->ire_addr_v6,

ips_to_stackid((uintptr_t)irep->ire_ipst),

irep->ire_zoneid);

} else if (verbose) {

mdb_printf("%<b>%?p%</b> %40I <%hb>\n"

"%?s %40I <%hb>\n"

"%?s %40d %4d <%hb>\n",

addr, irep->ire_src_addr, irep->ire_type, tmasks,

"", irep->ire_addr, (ushort_t)irep->ire_marks, mmasks,

"", ips_to_stackid((uintptr_t)irep->ire_ipst),

irep->ire_zoneid, irep->ire_flags, fmasks);

} else {

mdb_printf("%?p %30I %30I %5d %4d\n", addr, irep->ire_src_addr,

irep->ire_addr, ips_to_stackid((uintptr_t)irep->ire_ipst),

irep->ire_zoneid);

}

return (WALK_NEXT);

}

static unsigned short

ipcksum(void *p, int len)

{

int32_t sum = 0;

while (len > 1) {

/* alignment */

sum += *(uint16_t *)p;

p = (char *)p + sizeof (uint16_t);

if (sum & 0x80000000)

sum = (sum & 0xFFFF) + (sum >> 16);

len -= 2;

}

if (len)

sum += (uint16_t)*(unsigned char *)p;

while (sum >> 16)

sum = (sum & 0xFFFF) + (sum >> 16);

return (~sum);

}

static const mdb_bitmask_t tcp_flags[] = {

{ "SYN", TH_SYN, TH_SYN },

{ "ACK", TH_ACK, TH_ACK },

{ "FIN", TH_FIN, TH_FIN },

{ "RST", TH_RST, TH_RST },

{ "PSH", TH_PUSH, TH_PUSH },

{ "ECE", TH_ECE, TH_ECE },

{ "CWR", TH_CWR, TH_CWR },

{ NULL, 0, 0 }

};

static void

tcphdr_print(struct tcphdr *tcph)

{

in_port_t sport, dport;

tcp_seq seq, ack;

uint16_t win, urp;

mdb_printf("%<b>TCP header%</b>\n");

mdb_nhconvert(&sport, &tcph->th_sport, sizeof (sport));

mdb_nhconvert(&dport, &tcph->th_dport, sizeof (dport));

mdb_nhconvert(&seq, &tcph->th_seq, sizeof (seq));

mdb_nhconvert(&ack, &tcph->th_ack, sizeof (ack));

mdb_nhconvert(&win, &tcph->th_win, sizeof (win));

mdb_nhconvert(&urp, &tcph->th_urp, sizeof (urp));

mdb_printf("%<u>%6s %6s %10s %10s %4s %5s %5s %5s %-15s%</u>\n",

"SPORT", "DPORT", "SEQ", "ACK", "HLEN", "WIN", "CSUM", "URP",

"FLAGS");

mdb_printf("%6hu %6hu %10u %10u %4d %5hu %5hu %5hu <%b>\n",

sport, dport, seq, ack, tcph->th_off << 2, win,

tcph->th_sum, urp, tcph->th_flags, tcp_flags);

mdb_printf("0x%04x 0x%04x 0x%08x 0x%08x\n\n",

sport, dport, seq, ack);

}

static int

tcphdr(uintptr_t addr, uint_t flags, int ac, const mdb_arg_t *av)

{

struct tcphdr tcph;

if (!(flags & DCMD_ADDRSPEC))

return (DCMD_USAGE);

if (mdb_vread(&tcph, sizeof (tcph), addr) == -1) {

mdb_warn("failed to read TCP header at %p", addr);

return (DCMD_ERR);

}

tcphdr_print(&tcph);

return (DCMD_OK);

}

static void

udphdr_print(struct udphdr *udph)

{

in_port_t sport, dport;

uint16_t hlen;

mdb_printf("%<b>UDP header%</b>\n");

mdb_nhconvert(&sport, &udph->uh_sport, sizeof (sport));

mdb_nhconvert(&dport, &udph->uh_dport, sizeof (dport));

mdb_nhconvert(&hlen, &udph->uh_ulen, sizeof (hlen));

mdb_printf("%<u>%14s %14s %5s %6s%</u>\n",

"SPORT", "DPORT", "LEN", "CSUM");

mdb_printf("%5hu (0x%04x) %5hu (0x%04x) %5hu 0x%04hx\n\n", sport, sport,

dport, dport, hlen, udph->uh_sum);

}

static int

udphdr(uintptr_t addr, uint_t flags, int ac, const mdb_arg_t *av)

{

struct udphdr udph;

if (!(flags & DCMD_ADDRSPEC))

return (DCMD_USAGE);

if (mdb_vread(&udph, sizeof (udph), addr) == -1) {

mdb_warn("failed to read UDP header at %p", addr);

return (DCMD_ERR);

}

udphdr_print(&udph);

return (DCMD_OK);

}

static void

sctphdr_print(sctp_hdr_t *sctph)

{

in_port_t sport, dport;

mdb_printf("%<b>SCTP header%</b>\n");

mdb_nhconvert(&sport, &sctph->sh_sport, sizeof (sport));

mdb_nhconvert(&dport, &sctph->sh_dport, sizeof (dport));

mdb_printf("%<u>%14s %14s %10s %10s%</u>\n",

"SPORT", "DPORT", "VTAG", "CHKSUM");

mdb_printf("%5hu (0x%04x) %5hu (0x%04x) %10u 0x%08x\n\n", sport, sport,

dport, dport, sctph->sh_verf, sctph->sh_chksum);

}

static int

sctphdr(uintptr_t addr, uint_t flags, int ac, const mdb_arg_t *av)

{

sctp_hdr_t sctph;

if (!(flags & DCMD_ADDRSPEC))

return (DCMD_USAGE);

if (mdb_vread(&sctph, sizeof (sctph), addr) == -1) {

mdb_warn("failed to read SCTP header at %p", addr);

return (DCMD_ERR);

}

sctphdr_print(&sctph);

return (DCMD_OK);

}

static int

transport_hdr(int proto, uintptr_t addr)

{

mdb_printf("\n");

switch (proto) {

case IPPROTO_TCP: {

struct tcphdr tcph;

if (mdb_vread(&tcph, sizeof (tcph), addr) == -1) {

mdb_warn("failed to read TCP header at %p", addr);

return (DCMD_ERR);

}

tcphdr_print(&tcph);

break;

}

case IPPROTO_UDP: {

struct udphdr udph;

if (mdb_vread(&udph, sizeof (udph), addr) == -1) {

mdb_warn("failed to read UDP header at %p", addr);

return (DCMD_ERR);

}

udphdr_print(&udph);

break;

}

case IPPROTO_SCTP: {

sctp_hdr_t sctph;

if (mdb_vread(&sctph, sizeof (sctph), addr) == -1) {

mdb_warn("failed to read SCTP header at %p", addr);

return (DCMD_ERR);

}

sctphdr_print(&sctph);

break;

}

default:

break;

}

return (DCMD_OK);

}

static const mdb_bitmask_t ip_flags[] = {

{ "DF", IPH_DF, IPH_DF },

{ "MF", IPH_MF, IPH_MF },

{ NULL, 0, 0 }

};

static int

iphdr(uintptr_t addr, uint_t flags, int argc, const mdb_arg_t *argv)

{

uint_t verbose = FALSE, force = FALSE;

ipha_t iph[1];

uint16_t ver, totlen, hdrlen, ipid, off, csum;

uintptr_t nxt_proto;

char exp_csum[8];

if (mdb_getopts(argc, argv,

'v', MDB_OPT_SETBITS, TRUE, &verbose,

'f', MDB_OPT_SETBITS, TRUE, &force, NULL) != argc)

return (DCMD_USAGE);

if (mdb_vread(iph, sizeof (*iph), addr) == -1) {

mdb_warn("failed to read IPv4 header at %p", addr);

return (DCMD_ERR);

}

ver = (iph->ipha_version_and_hdr_length & 0xf0) >> 4;

if (ver != IPV4_VERSION) {

if (ver == IPV6_VERSION) {

return (ip6hdr(addr, flags, argc, argv));

} else if (!force) {

mdb_warn("unknown IP version: %d\n", ver);

return (DCMD_ERR);

}

}

mdb_printf("%<b>IPv4 header%</b>\n");

mdb_printf("%-34s %-34s\n"

"%<u>%-4s %-4s %-5s %-5s %-6s %-5s %-5s %-6s %-8s %-6s%</u>\n",

"SRC", "DST",

"HLEN", "TOS", "LEN", "ID", "OFFSET", "TTL", "PROTO", "CHKSUM",

"EXP-CSUM", "FLGS");

hdrlen = (iph->ipha_version_and_hdr_length & 0x0f) << 2;

mdb_nhconvert(&totlen, &iph->ipha_length, sizeof (totlen));

mdb_nhconvert(&ipid, &iph->ipha_ident, sizeof (ipid));

mdb_nhconvert(&off, &iph->ipha_fragment_offset_and_flags, sizeof (off));

if (hdrlen == IP_SIMPLE_HDR_LENGTH) {

if ((csum = ipcksum(iph, sizeof (*iph))) != 0)

csum = ~(~csum + ~iph->ipha_hdr_checksum);

else

csum = iph->ipha_hdr_checksum;

mdb_snprintf(exp_csum, 8, "%u", csum);

} else {

mdb_snprintf(exp_csum, 8, "<n/a>");

}

mdb_printf("%-34I %-34I%\n"

"%-4d %-4d %-5hu %-5hu %-6hu %-5hu %-5hu %-6u %-8s <%5hb>\n",

iph->ipha_src, iph->ipha_dst,

hdrlen, iph->ipha_type_of_service, totlen, ipid,

(off << 3) & 0xffff, iph->ipha_ttl, iph->ipha_protocol,

iph->ipha_hdr_checksum, exp_csum, off, ip_flags);

if (verbose) {

nxt_proto = addr + hdrlen;

return (transport_hdr(iph->ipha_protocol, nxt_proto));

} else {

return (DCMD_OK);

}

}

static int

ip6hdr(uintptr_t addr, uint_t flags, int argc, const mdb_arg_t *argv)

{

uint_t verbose = FALSE, force = FALSE;

ip6_t iph[1];

int ver, class, flow;

uint16_t plen;

uintptr_t nxt_proto;

if (mdb_getopts(argc, argv,

'v', MDB_OPT_SETBITS, TRUE, &verbose,

'f', MDB_OPT_SETBITS, TRUE, &force, NULL) != argc)

return (DCMD_USAGE);

if (mdb_vread(iph, sizeof (*iph), addr) == -1) {

mdb_warn("failed to read IPv6 header at %p", addr);

return (DCMD_ERR);

}

ver = (iph->ip6_vfc & 0xf0) >> 4;

if (ver != IPV6_VERSION) {

if (ver == IPV4_VERSION) {

return (iphdr(addr, flags, argc, argv));

} else if (!force) {

mdb_warn("unknown IP version: %d\n", ver);

return (DCMD_ERR);

}

}

mdb_printf("%<b>IPv6 header%</b>\n");

mdb_printf("%<u>%-26s %-26s %4s %7s %5s %3s %3s%</u>\n",

"SRC", "DST", "TCLS", "FLOW-ID", "PLEN", "NXT", "HOP");

class = (iph->ip6_vcf & IPV6_FLOWINFO_TCLASS) >> 20;

mdb_nhconvert(&class, &class, sizeof (class));

flow = iph->ip6_vcf & IPV6_FLOWINFO_FLOWLABEL;

mdb_nhconvert(&flow, &flow, sizeof (flow));

mdb_nhconvert(&plen, &iph->ip6_plen, sizeof (plen));

mdb_printf("%-26N %-26N %4d %7d %5hu %3d %3d\n",

&iph->ip6_src, &iph->ip6_dst,

class, flow, plen, iph->ip6_nxt, iph->ip6_hlim);

if (verbose) {

nxt_proto = addr + sizeof (ip6_t);

return (transport_hdr(iph->ip6_nxt, nxt_proto));

} else {

return (DCMD_OK);

}

}

ire(uintptr_t addr, uint_t flags, int argc, const mdb_arg_t *argv)

{

uint_t verbose = FALSE;

ire_t ire;

ire_cbdata_t ire_cb;

int ipversion = 0;

const char *opt_P = NULL;

if (mdb_getopts(argc, argv,

'v', MDB_OPT_SETBITS, TRUE, &verbose,

'P', MDB_OPT_STR, &opt_P, NULL) != argc)

return (DCMD_USAGE);

if (opt_P != NULL) {

if (strcmp("v4", opt_P) == 0) {

ipversion = IPV4_VERSION;

} else if (strcmp("v6", opt_P) == 0) {

ipversion = IPV6_VERSION;

} else {

mdb_warn("invalid protocol '%s'\n", opt_P);

return (DCMD_USAGE);

}

}

if ((flags & DCMD_LOOPFIRST) || !(flags & DCMD_LOOP)) {

if (verbose) {

mdb_printf("%?s %40s %-20s%\n"

"%?s %40s %-20s%\n"

"%<u>%?s %40s %4s %-20s%</u>\n",

"ADDR", "SRC", "TYPE",

"", "DST", "MARKS",

"", "STACK", "ZONE", "FLAGS");

} else {

mdb_printf("%<u>%?s %30s %30s %5s %4s%</u>\n",

"ADDR", "SRC", "DST", "STACK", "ZONE");

}

}

ire_cb.verbose = (verbose == TRUE);

ire_cb.ire_ipversion = ipversion;

if (flags & DCMD_ADDRSPEC) {

(void) mdb_vread(&ire, sizeof (ire_t), addr);

(void) ire_format(addr, &ire, &ire_cb);

} else if (mdb_walk("ire", (mdb_walk_cb_t)ire_format, &ire_cb) == -1) {

mdb_warn("failed to walk ire table");

return (DCMD_ERR);

}

return (DCMD_OK);

}

static size_t

mi_osize(const queue_t *q)

{

/*

struct mi_block {

size_t mi_nbytes;

struct mi_o_s mi_o;

} m;

if (mdb_vread(&m, sizeof (m), (uintptr_t)q->q_ptr -

sizeof (m)) == sizeof (m))

return (m.mi_nbytes - sizeof (m));

return (0);

}

static void

ip_ill_qinfo(const queue_t *q, char *buf, size_t nbytes)

{

char name[32];

ill_t ill;

if (mdb_vread(&ill, sizeof (ill),

(uintptr_t)q->q_ptr) == sizeof (ill) &&

mdb_readstr(name, sizeof (name), (uintptr_t)ill.ill_name) > 0)

(void) mdb_snprintf(buf, nbytes, "if: %s", name);

}

ip_qinfo(const queue_t *q, char *buf, size_t nbytes)

{

size_t size = mi_osize(q);

if (size == sizeof (ill_t))

ip_ill_qinfo(q, buf, nbytes);

}

ip_rnext(const queue_t *q)

{

size_t size = mi_osize(q);

ill_t ill;

if (size == sizeof (ill_t) && mdb_vread(&ill, sizeof (ill),

(uintptr_t)q->q_ptr) == sizeof (ill))

return ((uintptr_t)ill.ill_rq);

return (NULL);

}

ip_wnext(const queue_t *q)

{

size_t size = mi_osize(q);

ill_t ill;

if (size == sizeof (ill_t) && mdb_vread(&ill, sizeof (ill),

(uintptr_t)q->q_ptr) == sizeof (ill))

return ((uintptr_t)ill.ill_wq);

return (NULL);

}

static int

squeue(uintptr_t addr, uint_t flags, int argc, const mdb_arg_t *argv)

{

unsigned int i;

unsigned int verbose = FALSE;

const int SQUEUE_STATEDELT = (int)(sizeof (uintptr_t) + 9);

boolean_t arm;

squeue_t squeue;

if (!(flags & DCMD_ADDRSPEC)) {

if (mdb_walk_dcmd("genunix`squeue_cache", "ip`squeue",

argc, argv) == -1) {

mdb_warn("failed to walk squeue cache");

return (DCMD_ERR);

}

return (DCMD_OK);

}

if (mdb_getopts(argc, argv, 'v', MDB_OPT_SETBITS, TRUE, &verbose, NULL)

!= argc)

return (DCMD_USAGE);

if (!DCMD_HDRSPEC(flags) && verbose)

mdb_printf("\n\n");

if (DCMD_HDRSPEC(flags) || verbose) {

mdb_printf("%?s %-5s %-3s %?s %?s %?s\n",

"ADDR", "STATE", "CPU",

"FIRST", "LAST", "WORKER");

}

if (mdb_vread(&squeue, sizeof (squeue_t), addr) == -1) {

mdb_warn("cannot read squeue_t at %p", addr);

return (DCMD_ERR);

}

mdb_printf("%0?p %05x %3d %0?p %0?p %0?p\n",

addr, squeue.sq_state, squeue.sq_bind,

squeue.sq_first, squeue.sq_last, squeue.sq_worker);

if (!verbose)

return (DCMD_OK);

arm = B_TRUE;

for (i = 0; squeue_states[i].bit_name != NULL; i++) {

if (((squeue.sq_state) & (1 << i)) == 0)

continue;

if (arm) {

mdb_printf("%*s|\n", SQUEUE_STATEDELT, "");

mdb_printf("%*s+--> ", SQUEUE_STATEDELT, "");

arm = B_FALSE;

} else

mdb_printf("%*s ", SQUEUE_STATEDELT, "");

mdb_printf("%-12s %s\n", squeue_states[i].bit_name,

squeue_states[i].bit_descr);

}

return (DCMD_OK);

}

static void

ip_squeue_help(void)

{

mdb_printf("Print the core information for a given NCA squeue_t.\n\n");

mdb_printf("Options:\n");

mdb_printf("\t-v\tbe verbose (more descriptive)\n");

}

static int

modent_summary(uintptr_t addr, const void *data, void *private)

{

th_walk_data_t *thw = private;

const struct mod_hash_entry *mhe = data;

th_trace_t th;

if (mdb_vread(&th, sizeof (th), (uintptr_t)mhe->mhe_val) == -1) {

mdb_warn("failed to read th_trace_t %p", mhe->mhe_val);

return (WALK_ERR);

}

if (th.th_refcnt == 0 && thw->thw_non_zero_only)

return (WALK_NEXT);

if (!thw->thw_match) {

mdb_printf("%?p %?p %?p %8d %?p\n", thw->thw_ipst, mhe->mhe_key,

mhe->mhe_val, th.th_refcnt, th.th_id);

} else if (thw->thw_matchkey == (uintptr_t)mhe->mhe_key) {

int i, j, k;

tr_buf_t *tr;

mdb_printf("Object %p in IP stack %p:\n", mhe->mhe_key,

thw->thw_ipst);

i = th.th_trace_lastref;

mdb_printf("\tThread %p refcnt %d:\n", th.th_id,

th.th_refcnt);

for (j = TR_BUF_MAX; j > 0; j--) {

tr = th.th_trbuf + i;

if (tr->tr_depth == 0 || tr->tr_depth > TR_STACK_DEPTH)

break;

mdb_printf("\t T%+ld:\n", tr->tr_time -

thw->thw_lbolt);

for (k = 0; k < tr->tr_depth; k++)

mdb_printf("\t\t%a\n", tr->tr_stack[k]);

if (--i < 0)

i = TR_BUF_MAX - 1;

}

}

return (WALK_NEXT);

}

static int

th_hash_summary(uintptr_t addr, const void *data, void *private)

{

const th_hash_t *thh = data;

th_walk_data_t *thw = private;

thw->thw_ipst = (uintptr_t)thh->thh_ipst;

return (mdb_pwalk("modent", modent_summary, private,

(uintptr_t)thh->thh_hash));

}

static int

th_trace(uintptr_t addr, uint_t flags, int argc, const mdb_arg_t *argv)

{

th_walk_data_t thw;

(void) memset(&thw, 0, sizeof (thw));

if (mdb_getopts(argc, argv,

'n', MDB_OPT_SETBITS, TRUE, &thw.thw_non_zero_only,

NULL) != argc)

return (DCMD_USAGE);

if (!(flags & DCMD_ADDRSPEC)) {

/*

mdb_printf("%?s %?s %?s %8s %?s\n",

"IPSTACK", "OBJECT", "TRACE", "REFCNT", "THREAD");

thw.thw_match = B_FALSE;

} else {

thw.thw_match = B_TRUE;

thw.thw_matchkey = addr;

if (mdb_readvar(&thw.thw_lbolt,

mdb_prop_postmortem ? "panic_lbolt" : "lbolt") == -1) {

mdb_warn("failed to read lbolt");

return (DCMD_ERR);

}

}

if (mdb_pwalk("th_hash", th_hash_summary, &thw, NULL) == -1) {

mdb_warn("can't walk th_hash entries");

return (DCMD_ERR);

}

return (DCMD_OK);

}

static void

th_trace_help(void)

{

mdb_printf("If given an address of an ill_t, ipif_t, ire_t, or nce_t, "

"print the\n"

"corresponding th_trace_t structure in detail. Otherwise, if no "

"address is\n"

"given, then summarize all th_trace_t structures.\n\n");

mdb_printf("Options:\n"

"\t-n\tdisplay only entries with non-zero th_refcnt\n");

}

static const mdb_dcmd_t dcmds[] = {

{ "conn_status", ":",

"display connection structures from ipcl hash tables",

conn_status, conn_status_help },

{ "srcid_status", ":",

"display connection structures from ipcl hash tables",

srcid_status },

{ "ill", "?[-v] [-P v4 | v6]", "display ill_t structures",

ill, ill_help },

{ "illif", "?[-P v4 | v6]",

"display or filter IP Lower Level InterFace structures", illif,

illif_help },

{ "iphdr", ":[-vf]", "display an IPv4 header", iphdr },

{ "ip6hdr", ":[-vf]", "display an IPv6 header", ip6hdr },

{ "ipif", "?[-v] [-P v4 | v6]", "display ipif structures",

ipif, ipif_help },

{ "ire", "?[-v] [-P v4|v6]",

"display Internet Route Entry structures", ire },

{ "nce", "?[-P v4 | v6]", "display Neighbor Cache Entry structures",

nce },

{ "squeue", ":[-v]", "print core squeue_t info", squeue,

ip_squeue_help },

{ "tcphdr", ":", "display a TCP header", tcphdr },

{ "udphdr", ":", "display an UDP header", udphdr },

{ "sctphdr", ":", "display an SCTP header", sctphdr },

{ "th_trace", "?[-n]", "display th_trace_t structures", th_trace,

th_trace_help },

{ NULL }

};

static const mdb_walker_t walkers[] = {

{ "conn_status", "walk list of conn_t structures",

ip_stacks_common_walk_init, conn_status_walk_step, NULL },

{ "illif", "walk list of ill interface types for all stacks",

ip_stacks_common_walk_init, illif_walk_step, NULL },

{ "illif_stack", "walk list of ill interface types",

illif_stack_walk_init, illif_stack_walk_step,

illif_stack_walk_fini },

{ "ill", "walk list of nce structures for all stacks",

ill_walk_init, ill_walk_step, NULL },

{ "ipif", "walk list of ipif structures for all stacks",

ipif_walk_init, ipif_walk_step, NULL },

{ "ipif_list", "walk the linked list of ipif structures "

"for a given ill",

ip_list_walk_init, ip_list_walk_step,

ip_list_walk_fini, &ipif_walk_arg },

{ "srcid", "walk list of srcid_map structures for all stacks",

ip_stacks_common_walk_init, srcid_walk_step, NULL },

{ "srcid_list", "walk list of srcid_map structures for a stack",

ip_list_walk_init, ip_list_walk_step, ip_list_walk_fini,

&srcid_walk_arg },

{ "ire", "walk active ire_t structures",

ire_walk_init, ire_walk_step, NULL },

{ "ire_ctable", "walk ire_t structures in the ctable",

ip_stacks_common_walk_init, ire_ctable_walk_step, NULL },

{ "ire_next", "walk ire_t structures in the ctable",

ire_next_walk_init, ire_next_walk_step, NULL },

{ "ip_stacks", "walk all the ip_stack_t",

ip_stacks_walk_init, ip_stacks_walk_step, NULL },

{ "th_hash", "walk all the th_hash_t entries",

th_hash_walk_init, th_hash_walk_step, NULL },

{ "nce", "walk list of nce structures for all stacks",

ip_stacks_common_walk_init, nce_walk_step, NULL },

{ "nce_stack", "walk list of nce structures",

nce_stack_walk_init, nce_stack_walk_step,

nce_stack_walk_fini},

{ "udp_hash", "walk list of conn_t structures in ips_ipcl_udp_fanout",

ipcl_hash_walk_init, ipcl_hash_walk_step,

ipcl_hash_walk_fini, &udp_hash_arg},

{ "conn_hash", "walk list of conn_t structures in ips_ipcl_conn_fanout",

ipcl_hash_walk_init, ipcl_hash_walk_step,

ipcl_hash_walk_fini, &conn_hash_arg},

{ "bind_hash", "walk list of conn_t structures in ips_ipcl_bind_fanout",

ipcl_hash_walk_init, ipcl_hash_walk_step,

ipcl_hash_walk_fini, &bind_hash_arg},

{ "proto_hash", "walk list of conn_t structures in "

"ips_ipcl_proto_fanout",

ipcl_hash_walk_init, ipcl_hash_walk_step,

ipcl_hash_walk_fini, &proto_hash_arg},

{ "proto_v6_hash", "walk list of conn_t structures in "

"ips_ipcl_proto_fanout_v6",

ipcl_hash_walk_init, ipcl_hash_walk_step,

ipcl_hash_walk_fini, &proto_v6_hash_arg},

{ "ilb_stacks", "walk ilb_stack_t",

ip_stacks_walk_init, ilb_stacks_walk_step, NULL },

{ "ilb_rules", "walk ilb rules in a given ilb_stack_t",

ilb_rules_walk_init, ilb_rules_walk_step, NULL },

{ "ilb_servers", "walk server in a given ilb_rule_t",

ilb_servers_walk_init, ilb_servers_walk_step, NULL },

{ "ilb_nat_src", "walk NAT source table of a given ilb_stack_t",

ilb_nat_src_walk_init, ilb_nat_src_walk_step,

ilb_common_walk_fini },

{ "ilb_conns", "walk NAT table of a given ilb_stack_t",

ilb_conn_walk_init, ilb_conn_walk_step, ilb_common_walk_fini },

{ "ilb_stickys", "walk sticky table of a given ilb_stack_t",

ilb_sticky_walk_init, ilb_sticky_walk_step,

ilb_common_walk_fini },

{ NULL }

};

static const mdb_qops_t ip_qops = { ip_qinfo, ip_rnext, ip_wnext };

static const mdb_modinfo_t modinfo = { MDB_API_VERSION, dcmds, walkers };

const mdb_modinfo_t *

_mdb_init(void)

{

GElf_Sym sym;

if (mdb_lookup_by_obj("ip", "ipwinit", &sym) == 0)

mdb_qops_install(&ip_qops, (uintptr_t)sym.st_value);

return (&modinfo);

}

_mdb_fini(void)

{

GElf_Sym sym;

if (mdb_lookup_by_obj("ip", "ipwinit", &sym) == 0)

mdb_qops_remove(&ip_qops, (uintptr_t)sym.st_value);

}

static char *

nce_state(int nce_state)

{

switch (nce_state) {

case ND_UNCHANGED:

return ("unchanged");

case ND_INCOMPLETE:

return ("incomplete");

case ND_REACHABLE:

return ("reachable");

case ND_STALE:

return ("stale");

case ND_DELAY:

return ("delay");

case ND_PROBE:

return ("probe");

case ND_UNREACHABLE:

return ("unreach");

case ND_INITIAL:

return ("initial");

default:

return ("??");

}

}

static char *

nce_l2_addr(const nce_t *nce, const ill_t *ill)

{

uchar_t *h;

static char addr_buf[L2MAXADDRSTRLEN];

mblk_t mp;

size_t mblen;

if (ill->ill_flags & ILLF_XRESOLV) {

return ("XRESOLV");

}

if (nce->nce_res_mp == NULL) {

return ("None");

}

if (ill->ill_net_type == IRE_IF_RESOLVER) {

if (mdb_vread(&mp, sizeof (mblk_t),

(uintptr_t)nce->nce_res_mp) == -1) {

mdb_warn("failed to read nce_res_mp at %p",

nce->nce_res_mp);

}

if (ill->ill_nd_lla_len == 0)

return ("None");

mblen = mp.b_wptr - mp.b_rptr;

if (mblen > (sizeof (dl_unitdata_req_t) + MAX_SAP_LEN) ||

ill->ill_nd_lla_len > MAX_SAP_LEN ||

NCE_LL_ADDR_OFFSET(ill) + ill->ill_nd_lla_len > mblen) {

return ("Truncated");

}

h = mdb_zalloc(mblen, UM_SLEEP);

if (mdb_vread(h, mblen, (uintptr_t)(mp.b_rptr)) == -1) {

mdb_warn("failed to read hwaddr at %p",

mp.b_rptr + NCE_LL_ADDR_OFFSET(ill));

return ("Unknown");

}

mdb_mac_addr(h + NCE_LL_ADDR_OFFSET(ill), ill->ill_nd_lla_len,

addr_buf, sizeof (addr_buf));

} else {

return ("None");

}

mdb_free(h, mblen);

return (addr_buf);

}

static void

nce_header(uint_t flags)

{

if ((flags & DCMD_LOOPFIRST) || !(flags & DCMD_LOOP)) {

mdb_printf("%<u>%?s %-20s %-10s %-8s %-5s %s%</u>\n",

"ADDR", "HW_ADDR", "STATE", "FLAGS", "ILL", "IP ADDR");

}

}

nce(uintptr_t addr, uint_t flags, int argc, const mdb_arg_t *argv)

{

nce_t nce;

nce_cbdata_t id;

int ipversion = 0;

const char *opt_P = NULL;

if (mdb_getopts(argc, argv,

'P', MDB_OPT_STR, &opt_P, NULL) != argc)

return (DCMD_USAGE);

if (opt_P != NULL) {

if (strcmp("v4", opt_P) == 0) {

ipversion = IPV4_VERSION;

} else if (strcmp("v6", opt_P) == 0) {

ipversion = IPV6_VERSION;

} else {

mdb_warn("invalid protocol '%s'\n", opt_P);

return (DCMD_USAGE);

}

}

if (flags & DCMD_ADDRSPEC) {

if (mdb_vread(&nce, sizeof (nce_t), addr) == -1) {

mdb_warn("failed to read nce at %p\n", addr);

return (DCMD_ERR);

}

if (ipversion != 0 && nce.nce_ipversion != ipversion) {

mdb_printf("IP Version mismatch\n");

return (DCMD_ERR);

}

nce_header(flags);

return (nce_format(addr, &nce, ipversion));

} else {

id.nce_addr = addr;

id.nce_ipversion = ipversion;

nce_header(flags);

if (mdb_walk("nce", (mdb_walk_cb_t)nce_cb, &id) == -1) {

mdb_warn("failed to walk nce table\n");

return (DCMD_ERR);

}

}

return (DCMD_OK);

}

static int

nce_format(uintptr_t addr, const nce_t *nce, int ipversion)

{

static const mdb_bitmask_t nce_flags[] = {

{ "P", NCE_F_PERMANENT, NCE_F_PERMANENT },

{ "R", NCE_F_ISROUTER, NCE_F_ISROUTER },

{ "N", NCE_F_NONUD, NCE_F_NONUD },

{ "A", NCE_F_ANYCAST, NCE_F_ANYCAST },

{ "C", NCE_F_CONDEMNED, NCE_F_CONDEMNED },

{ "U", NCE_F_UNSOL_ADV, NCE_F_UNSOL_ADV },

{ "B", NCE_F_BCAST, NCE_F_BCAST },

{ NULL, 0, 0 }

};

#define NCE_MAX_FLAGS (sizeof (nce_flags) / sizeof (mdb_bitmask_t))

struct in_addr nceaddr;

ill_t ill;

char ill_name[LIFNAMSIZ];

char flagsbuf[NCE_MAX_FLAGS];

if (mdb_vread(&ill, sizeof (ill), (uintptr_t)nce->nce_ill) == -1) {

mdb_warn("failed to read nce_ill at %p",

nce->nce_ill);

return (DCMD_ERR);

}

(void) mdb_readstr(ill_name, MIN(LIFNAMSIZ, ill.ill_name_length),

(uintptr_t)ill.ill_name);

mdb_snprintf(flagsbuf, sizeof (flagsbuf), "%hb",

nce->nce_flags, nce_flags);

if (ipversion != 0 && nce->nce_ipversion != ipversion)

return (DCMD_OK);

if (nce->nce_ipversion == IPV4_VERSION) {

IN6_V4MAPPED_TO_INADDR(&nce->nce_addr, &nceaddr);

mdb_printf("%?p %-20s %-10s "

"%-8s "

"%-5s %I\n",

addr, nce_l2_addr(nce, &ill),

nce_state(nce->nce_state),

flagsbuf,

ill_name, nceaddr.s_addr);

} else {

mdb_printf("%?p %-20s %-10s %-8s %-5s %N\n",

addr, nce_l2_addr(nce, &ill),

nce_state(nce->nce_state),

flagsbuf,

ill_name, &nce->nce_addr);

}

return (DCMD_OK);

}

static uintptr_t

nce_get_next_hash_tbl(uintptr_t start, int *index, struct ndp_g_s ndp)

{

uintptr_t addr = start;

int i = *index;

while (addr == NULL) {

if (++i >= NCE_TABLE_SIZE)

break;

addr = (uintptr_t)ndp.nce_hash_tbl[i];

}

*index = i;

return (addr);

}

static int

nce_walk_step(mdb_walk_state_t *wsp)

{

uintptr_t kaddr4, kaddr6;

kaddr4 = wsp->walk_addr + OFFSETOF(ip_stack_t, ips_ndp4);

kaddr6 = wsp->walk_addr + OFFSETOF(ip_stack_t, ips_ndp6);

if (mdb_vread(&kaddr4, sizeof (kaddr4), kaddr4) == -1) {

mdb_warn("can't read ips_ip_cache_table at %p", kaddr4);

return (WALK_ERR);

}

if (mdb_vread(&kaddr6, sizeof (kaddr6), kaddr6) == -1) {

mdb_warn("can't read ips_ip_cache_table at %p", kaddr6);

return (WALK_ERR);

}

if (mdb_pwalk("nce_stack", wsp->walk_callback, wsp->walk_cbdata,

kaddr4) == -1) {

mdb_warn("couldn't walk 'nce_stack' for ips_ndp4 %p",

kaddr4);

return (WALK_ERR);

}

if (mdb_pwalk("nce_stack", wsp->walk_callback,

wsp->walk_cbdata, kaddr6) == -1) {

mdb_warn("couldn't walk 'nce_stack' for ips_ndp6 %p",

kaddr6);

return (WALK_ERR);

}

return (WALK_NEXT);

}

static uintptr_t

ipcl_hash_get_next_connf_tbl(ipcl_hash_walk_data_t *iw)

{

struct connf_s connf;

uintptr_t addr = NULL, next;

int index = iw->connf_tbl_index;

do {

next = iw->hash_tbl + index * sizeof (struct connf_s);

if (++index >= iw->hash_tbl_size) {

addr = NULL;

break;

}

if (mdb_vread(&connf, sizeof (struct connf_s), next) == -1) {

mdb_warn("failed to read conn_t at %p", next);

return (NULL);

}

addr = (uintptr_t)connf.connf_head;

} while (addr == NULL);

iw->connf_tbl_index = index;

return (addr);

}

static int

ipcl_hash_walk_init(mdb_walk_state_t *wsp)

{

const hash_walk_arg_t *arg = wsp->walk_arg;

ipcl_hash_walk_data_t *iw;

uintptr_t tbladdr;

uintptr_t sizeaddr;

iw = mdb_alloc(sizeof (ipcl_hash_walk_data_t), UM_SLEEP);

iw->conn = mdb_alloc(sizeof (conn_t), UM_SLEEP);

tbladdr = wsp->walk_addr + arg->tbl_off;

sizeaddr = wsp->walk_addr + arg->size_off;

if (mdb_vread(&iw->hash_tbl, sizeof (uintptr_t), tbladdr) == -1) {

mdb_warn("can't read fanout table addr at %p", tbladdr);

mdb_free(iw->conn, sizeof (conn_t));

mdb_free(iw, sizeof (ipcl_hash_walk_data_t));

return (WALK_ERR);

}

if (arg->tbl_off == OFFSETOF(ip_stack_t, ips_ipcl_proto_fanout) ||

arg->tbl_off == OFFSETOF(ip_stack_t, ips_ipcl_proto_fanout_v6)) {

iw->hash_tbl_size = IPPROTO_MAX;

} else {

if (mdb_vread(&iw->hash_tbl_size, sizeof (int),

sizeaddr) == -1) {

mdb_warn("can't read fanout table size addr at %p",

sizeaddr);

mdb_free(iw->conn, sizeof (conn_t));

mdb_free(iw, sizeof (ipcl_hash_walk_data_t));

return (WALK_ERR);

}

}

iw->connf_tbl_index = 0;

wsp->walk_addr = ipcl_hash_get_next_connf_tbl(iw);

wsp->walk_data = iw;

if (wsp->walk_addr != NULL)

return (WALK_NEXT);

else

return (WALK_DONE);

}

static int

ipcl_hash_walk_step(mdb_walk_state_t *wsp)

{

uintptr_t addr = wsp->walk_addr;

ipcl_hash_walk_data_t *iw = wsp->walk_data;

conn_t *conn = iw->conn;

int ret = WALK_DONE;

while (addr != NULL) {

if (mdb_vread(conn, sizeof (conn_t), addr) == -1) {

mdb_warn("failed to read conn_t at %p", addr);

return (WALK_ERR);

}

ret = wsp->walk_callback(addr, iw, wsp->walk_cbdata);

if (ret != WALK_NEXT)

break;

addr = (uintptr_t)conn->conn_next;

}

if (ret == WALK_NEXT) {

wsp->walk_addr = ipcl_hash_get_next_connf_tbl(iw);

if (wsp->walk_addr != NULL)

return (WALK_NEXT);

else

return (WALK_DONE);

}

return (ret);

}

static void

ipcl_hash_walk_fini(mdb_walk_state_t *wsp)

{

ipcl_hash_walk_data_t *iw = wsp->walk_data;

mdb_free(iw->conn, sizeof (conn_t));

mdb_free(iw, sizeof (ipcl_hash_walk_data_t));

}

static int

nce_stack_walk_init(mdb_walk_state_t *wsp)

{

nce_walk_data_t *nw;

if (wsp->walk_addr == NULL) {

mdb_warn("nce_stack requires ndp_g_s address\n");

return (WALK_ERR);

}

nw = mdb_alloc(sizeof (nce_walk_data_t), UM_SLEEP);

if (mdb_vread(&nw->nce_ip_ndp, sizeof (struct ndp_g_s),

wsp->walk_addr) == -1) {

mdb_warn("failed to read 'ip_ndp' at %p",

wsp->walk_addr);

mdb_free(nw, sizeof (nce_walk_data_t));

return (WALK_ERR);

}

nw->nce_hash_tbl_index = 0;

wsp->walk_addr = nce_get_next_hash_tbl(NULL,

&nw->nce_hash_tbl_index, nw->nce_ip_ndp);

wsp->walk_data = nw;

return (WALK_NEXT);

}

static int

nce_stack_walk_step(mdb_walk_state_t *wsp)

{

uintptr_t addr = wsp->walk_addr;

nce_walk_data_t *nw = wsp->walk_data;

if (addr == NULL)

return (WALK_DONE);

if (mdb_vread(&nw->nce, sizeof (nce_t), addr) == -1) {

mdb_warn("failed to read nce_t at %p", addr);

return (WALK_ERR);

}

wsp->walk_addr = (uintptr_t)nw->nce.nce_next;

wsp->walk_addr = nce_get_next_hash_tbl(wsp->walk_addr,

&nw->nce_hash_tbl_index, nw->nce_ip_ndp);

return (wsp->walk_callback(addr, nw, wsp->walk_cbdata));

}

static void

nce_stack_walk_fini(mdb_walk_state_t *wsp)

{

mdb_free(wsp->walk_data, sizeof (nce_walk_data_t));

}

static int

nce_cb(uintptr_t addr, const nce_walk_data_t *iw, nce_cbdata_t *id)

{

nce_t nce;

if (mdb_vread(&nce, sizeof (nce_t), addr) == -1) {

mdb_warn("failed to read nce at %p", addr);

return (WALK_NEXT);

}

(void) nce_format(addr, &nce, id->nce_ipversion);

return (WALK_NEXT);

}

static int

ill_walk_init(mdb_walk_state_t *wsp)

{

if (mdb_layered_walk("illif", wsp) == -1) {

mdb_warn("can't walk 'illif'");

return (WALK_ERR);

}

return (WALK_NEXT);

}

static int

ill_walk_step(mdb_walk_state_t *wsp)

{

ill_if_t ill_if;

if (mdb_vread(&ill_if, sizeof (ill_if_t), wsp->walk_addr) == -1) {

mdb_warn("can't read ill_if_t at %p", wsp->walk_addr);

return (WALK_ERR);

}

wsp->walk_addr = (uintptr_t)(wsp->walk_addr +

offsetof(ill_if_t, illif_avl_by_ppa));

if (mdb_pwalk("avl", wsp->walk_callback, wsp->walk_cbdata,

wsp->walk_addr) == -1) {

mdb_warn("can't walk 'avl'");

return (WALK_ERR);

}

return (WALK_NEXT);

}

static int

ill_cb(uintptr_t addr, const ill_walk_data_t *iw, ill_cbdata_t *id)

{

ill_t ill;

if (mdb_vread(&ill, sizeof (ill_t), (uintptr_t)addr) == -1) {

mdb_warn("failed to read ill at %p", addr);

return (WALK_NEXT);

}

return (ill_format((uintptr_t)addr, &ill, id));

}

static void

ill_header(boolean_t verbose)

{

if (verbose) {

mdb_printf("%-?s %-8s %3s %-10s %-?s %-?s %-10s%</u>\n",

"ADDR", "NAME", "VER", "TYPE", "WQ", "IPST", "FLAGS");

mdb_printf("%-?s %4s%4s %-?s\n",

"PHYINT", "CNT", "", "GROUP");

mdb_printf("%<u>%80s%</u>\n", "");

} else {

mdb_printf("%<u>%-?s %-8s %-3s %-10s %4s %-?s %-10s%</u>\n",

"ADDR", "NAME", "VER", "TYPE", "CNT", "WQ", "FLAGS");

}

}

static int

ill_format(uintptr_t addr, const void *illptr, void *ill_cb_arg)

{

ill_t *ill = (ill_t *)illptr;

ill_cbdata_t *illcb = ill_cb_arg;

boolean_t verbose = illcb->verbose;

phyint_t phyi;

static const mdb_bitmask_t fmasks[] = {

{ "R", PHYI_RUNNING, PHYI_RUNNING },

{ "P", PHYI_PROMISC, PHYI_PROMISC },

{ "V", PHYI_VIRTUAL, PHYI_VIRTUAL },

{ "I", PHYI_IPMP, PHYI_IPMP },

{ "f", PHYI_FAILED, PHYI_FAILED },

{ "S", PHYI_STANDBY, PHYI_STANDBY },

{ "i", PHYI_INACTIVE, PHYI_INACTIVE },

{ "O", PHYI_OFFLINE, PHYI_OFFLINE },

{ "T", ILLF_NOTRAILERS, ILLF_NOTRAILERS },

{ "A", ILLF_NOARP, ILLF_NOARP },

{ "M", ILLF_MULTICAST, ILLF_MULTICAST },

{ "F", ILLF_ROUTER, ILLF_ROUTER },

{ "D", ILLF_NONUD, ILLF_NONUD },

{ "X", ILLF_NORTEXCH, ILLF_NORTEXCH },

{ NULL, 0, 0 }

};

static const mdb_bitmask_t v_fmasks[] = {

{ "RUNNING", PHYI_RUNNING, PHYI_RUNNING },

{ "PROMISC", PHYI_PROMISC, PHYI_PROMISC },

{ "VIRTUAL", PHYI_VIRTUAL, PHYI_VIRTUAL },

{ "IPMP", PHYI_IPMP, PHYI_IPMP },

{ "FAILED", PHYI_FAILED, PHYI_FAILED },

{ "STANDBY", PHYI_STANDBY, PHYI_STANDBY },

{ "INACTIVE", PHYI_INACTIVE, PHYI_INACTIVE },

{ "OFFLINE", PHYI_OFFLINE, PHYI_OFFLINE },

{ "NOTRAILER", ILLF_NOTRAILERS, ILLF_NOTRAILERS },

{ "NOARP", ILLF_NOARP, ILLF_NOARP },

{ "MULTICAST", ILLF_MULTICAST, ILLF_MULTICAST },

{ "ROUTER", ILLF_ROUTER, ILLF_ROUTER },

{ "NONUD", ILLF_NONUD, ILLF_NONUD },

{ "NORTEXCH", ILLF_NORTEXCH, ILLF_NORTEXCH },

{ NULL, 0, 0 }

};

char ill_name[LIFNAMSIZ];

int cnt;

char *typebuf;

char sbuf[DEFCOLS];

int ipver = illcb->ill_ipversion;

if (ipver != 0) {

if ((ipver == IPV4_VERSION && ill->ill_isv6) ||

(ipver == IPV6_VERSION && !ill->ill_isv6)) {

return (WALK_NEXT);

}

}

if (mdb_vread(&phyi, sizeof (phyint_t),

(uintptr_t)ill->ill_phyint) == -1) {

mdb_warn("failed to read ill_phyint at %p",

(uintptr_t)ill->ill_phyint);

return (WALK_NEXT);

}

(void) mdb_readstr(ill_name, MIN(LIFNAMSIZ, ill->ill_name_length),

(uintptr_t)ill->ill_name);

switch (ill->ill_type) {

case 0:

typebuf = "LOOPBACK";

break;

case IFT_ETHER:

typebuf = "ETHER";

break;

case IFT_OTHER:

typebuf = "OTHER";

break;

default:

typebuf = NULL;

break;

}

cnt = ill->ill_refcnt + ill->ill_ire_cnt + ill->ill_nce_cnt +

ill->ill_ilm_walker_cnt + ill->ill_ilm_cnt;

mdb_printf("%-?p %-8s %-3s ",

addr, ill_name, ill->ill_isv6 ? "v6" : "v4");

if (typebuf != NULL)

mdb_printf("%-10s ", typebuf);

else

mdb_printf("%-10x ", ill->ill_type);

if (verbose) {

mdb_printf("%-?p %-?p %-llb\n",

ill->ill_wq, ill->ill_ipst,

ill->ill_flags | phyi.phyint_flags, v_fmasks);

mdb_printf("%-?p %4d%4s %-?p\n",

ill->ill_phyint, cnt, "", ill->ill_grp);

mdb_snprintf(sbuf, sizeof (sbuf), "%*s %3s",

sizeof (uintptr_t) * 2, "", "");

mdb_printf("%s|\n%s+--> %3d %-18s "

"references from active threads\n",

sbuf, sbuf, ill->ill_refcnt, "ill_refcnt");

mdb_printf("%*s %7d %-18s ires referencing this ill\n",

strlen(sbuf), "", ill->ill_ire_cnt, "ill_ire_cnt");

mdb_printf("%*s %7d %-18s nces referencing this ill\n",

strlen(sbuf), "", ill->ill_nce_cnt, "ill_nce_cnt");

mdb_printf("%*s %7d %-18s ilms referencing this ill\n",

strlen(sbuf), "", ill->ill_ilm_cnt, "ill_ilm_cnt");

mdb_printf("%*s %7d %-18s active ilm walkers\n\n",

strlen(sbuf), "", ill->ill_ilm_walker_cnt,

"ill_ilm_walker_cnt");

} else {

mdb_printf("%4d %-?p %-llb\n",

cnt, ill->ill_wq,

ill->ill_flags | phyi.phyint_flags, fmasks);

}

return (WALK_NEXT);

}

static int

ill(uintptr_t addr, uint_t flags, int argc, const mdb_arg_t *argv)

{

ill_t ill_data;

ill_cbdata_t id;

int ipversion = 0;

const char *opt_P = NULL;

uint_t verbose = FALSE;

if (mdb_getopts(argc, argv,

'v', MDB_OPT_SETBITS, TRUE, &verbose,

'P', MDB_OPT_STR, &opt_P, NULL) != argc)

return (DCMD_USAGE);

if (opt_P != NULL) {

if (strcmp("v4", opt_P) == 0) {

ipversion = IPV4_VERSION;

} else if (strcmp("v6", opt_P) == 0) {

ipversion = IPV6_VERSION;

} else {

mdb_warn("invalid protocol '%s'\n", opt_P);

return (DCMD_USAGE);

}

}

id.verbose = verbose;

id.ill_addr = addr;

id.ill_ipversion = ipversion;

ill_header(verbose);

if (flags & DCMD_ADDRSPEC) {

if (mdb_vread(&ill_data, sizeof (ill_t), addr) == -1) {

mdb_warn("failed to read ill at %p\n", addr);

return (DCMD_ERR);

}

(void) ill_format(addr, &ill_data, &id);

} else {

if (mdb_walk("ill", (mdb_walk_cb_t)ill_cb, &id) == -1) {

mdb_warn("failed to walk ills\n");

return (DCMD_ERR);

}

}

return (DCMD_OK);

}

static void

ill_help(void)

{

mdb_printf("Prints the following fields: ill ptr, name, "

"IP version, count, ill type and ill flags.\n"

"The count field is a sum of individual refcnts and is expanded "

"with the -v option.\n\n");

mdb_printf("Options:\n");

mdb_printf("\t-P v4 | v6"

"\tfilter ill structures for the specified protocol\n");

}

static int

ip_list_walk_init(mdb_walk_state_t *wsp)

{

const ip_list_walk_arg_t *arg = wsp->walk_arg;

ip_list_walk_data_t *iw;

uintptr_t addr = (uintptr_t)(wsp->walk_addr + arg->off);

if (wsp->walk_addr == NULL) {

mdb_warn("only local walks supported\n");

return (WALK_ERR);

}

if (mdb_vread(&wsp->walk_addr, sizeof (uintptr_t),

addr) == -1) {

mdb_warn("failed to read list head at %p", addr);

return (WALK_ERR);

}

iw = mdb_alloc(sizeof (ip_list_walk_data_t), UM_SLEEP);

iw->nextoff = arg->nextp_off;

wsp->walk_data = iw;

return (WALK_NEXT);

}

static int

ip_list_walk_step(mdb_walk_state_t *wsp)

{

ip_list_walk_data_t *iw = wsp->walk_data;

uintptr_t addr = wsp->walk_addr;

if (addr == NULL)

return (WALK_DONE);

wsp->walk_addr = addr + iw->nextoff;

if (mdb_vread(&wsp->walk_addr, sizeof (uintptr_t),

wsp->walk_addr) == -1) {

mdb_warn("failed to read list node at %p", addr);

return (WALK_ERR);

}

return (wsp->walk_callback(addr, iw, wsp->walk_cbdata));

}

static void

ip_list_walk_fini(mdb_walk_state_t *wsp)

{

mdb_free(wsp->walk_data, sizeof (ip_list_walk_data_t));

}

static int

ipif_walk_init(mdb_walk_state_t *wsp)

{

if (mdb_layered_walk("ill", wsp) == -1) {

mdb_warn("can't walk 'ills'");

return (WALK_ERR);

}

return (WALK_NEXT);

}

static int

ipif_walk_step(mdb_walk_state_t *wsp)

{

if (mdb_pwalk("ipif_list", wsp->walk_callback, wsp->walk_cbdata,

wsp->walk_addr) == -1) {

mdb_warn("can't walk 'ipif_list'");

return (WALK_ERR);

}

return (WALK_NEXT);

}

static int

ipif_cb(uintptr_t addr, const ipif_walk_data_t *iw, ipif_cbdata_t *id)

{

ipif_t ipif;

if (mdb_vread(&ipif, sizeof (ipif_t), (uintptr_t)addr) == -1) {

mdb_warn("failed to read ipif at %p", addr);

return (WALK_NEXT);

}

if (mdb_vread(&id->ill, sizeof (ill_t),

(uintptr_t)ipif.ipif_ill) == -1) {

mdb_warn("failed to read ill at %p", ipif.ipif_ill);

return (WALK_NEXT);

}

(void) ipif_format((uintptr_t)addr, &ipif, id);

return (WALK_NEXT);

}

static void

ipif_header(boolean_t verbose)

{

if (verbose) {

mdb_printf("%-?s %-10s %-3s %-?s %-8s %-30s\n",

"ADDR", "NAME", "CNT", "ILL", "STFLAGS", "FLAGS");

mdb_printf("%s\n%s\n",

"LCLADDR", "BROADCAST");

mdb_printf("%<u>%80s%</u>\n", "");

} else {

mdb_printf("%-?s %-10s %6s %-?s %-8s %-30s\n",

"ADDR", "NAME", "CNT", "ILL", "STFLAGS", "FLAGS");

mdb_printf("%s\n%<u>%80s%</u>\n", "LCLADDR", "");

}

}

#ifdef _BIG_ENDIAN

#define ip_ntohl_32(x) ((x) & 0xffffffff)

#else

#define ip_ntohl_32(x) (((uint32_t)(x) << 24) | \

(((uint32_t)(x) << 8) & 0xff0000) | \

(((uint32_t)(x) >> 8) & 0xff00) | \

((uint32_t)(x) >> 24))

#endif

mask_to_prefixlen(int af, const in6_addr_t *addr)

{

int len = 0;

int i;

uint_t mask = 0;

if (af == AF_INET6) {

for (i = 0; i < 4; i++) {

if (addr->s6_addr32[i] == 0xffffffff) {

len += 32;

} else {

mask = addr->s6_addr32[i];

break;

}

}

} else {

mask = V4_PART_OF_V6((*addr));

}

if (mask > 0)

len += (33 - mdb_ffs(ip_ntohl_32(mask)));

return (len);

}

static int

ipif_format(uintptr_t addr, const void *ipifptr, void *ipif_cb_arg)

{

const ipif_t *ipif = ipifptr;

ipif_cbdata_t *ipifcb = ipif_cb_arg;

boolean_t verbose = ipifcb->verbose;

char ill_name[LIFNAMSIZ];

char buf[LIFNAMSIZ];

int cnt;

static const mdb_bitmask_t sfmasks[] = {

{ "CO", IPIF_CONDEMNED, IPIF_CONDEMNED},

{ "CH", IPIF_CHANGING, IPIF_CHANGING},

{ "SL", IPIF_SET_LINKLOCAL, IPIF_SET_LINKLOCAL},

{ "ZS", IPIF_ZERO_SOURCE, IPIF_ZERO_SOURCE},

{ NULL, 0, 0 }

};

static const mdb_bitmask_t fmasks[] = {

{ "UP", IPIF_UP, IPIF_UP },

{ "UNN", IPIF_UNNUMBERED, IPIF_UNNUMBERED},

{ "DHCP", IPIF_DHCPRUNNING, IPIF_DHCPRUNNING},

{ "PRIV", IPIF_PRIVATE, IPIF_PRIVATE},

{ "NOXMT", IPIF_NOXMIT, IPIF_NOXMIT},

{ "NOLCL", IPIF_NOLOCAL, IPIF_NOLOCAL},

{ "DEPR", IPIF_DEPRECATED, IPIF_DEPRECATED},

{ "PREF", IPIF_PREFERRED, IPIF_PREFERRED},

{ "TEMP", IPIF_TEMPORARY, IPIF_TEMPORARY},

{ "ACONF", IPIF_ADDRCONF, IPIF_ADDRCONF},

{ "ANY", IPIF_ANYCAST, IPIF_ANYCAST},

{ "NFAIL", IPIF_NOFAILOVER, IPIF_NOFAILOVER},

{ NULL, 0, 0 }

};

char flagsbuf[2 * A_CNT(fmasks)];

char bitfields[A_CNT(fmasks)];

char sflagsbuf[A_CNT(sfmasks)];

char sbuf[DEFCOLS], addrstr[INET6_ADDRSTRLEN];

int ipver = ipifcb->ipif_ipversion;

int af;

if (ipver != 0) {

if ((ipver == IPV4_VERSION && ipifcb->ill.ill_isv6) ||

(ipver == IPV6_VERSION && !ipifcb->ill.ill_isv6)) {

return (WALK_NEXT);

}

}

if ((mdb_readstr(ill_name, MIN(LIFNAMSIZ,

ipifcb->ill.ill_name_length),

(uintptr_t)ipifcb->ill.ill_name)) == -1) {

mdb_warn("failed to read ill_name of ill %p\n", ipifcb->ill);

return (WALK_NEXT);

}

if (ipif->ipif_id != 0) {

mdb_snprintf(buf, LIFNAMSIZ, "%s:%d",

ill_name, ipif->ipif_id);

} else {

mdb_snprintf(buf, LIFNAMSIZ, "%s", ill_name);

}

mdb_snprintf(bitfields, sizeof (bitfields), "%s",

ipif->ipif_addr_ready ? ",ADR" : "",

ipif->ipif_multicast_up ? ",MU" : "",

ipif->ipif_was_up ? ",WU" : "",

ipif->ipif_was_dup ? ",WD" : "",

ipif->ipif_joined_allhosts ? ",JA" : "");

mdb_snprintf(flagsbuf, sizeof (flagsbuf), "%llb%s",

ipif->ipif_flags, fmasks, bitfields);

mdb_snprintf(sflagsbuf, sizeof (sflagsbuf), "%b",

ipif->ipif_state_flags, sfmasks);

cnt = ipif->ipif_refcnt + ipif->ipif_ire_cnt + ipif->ipif_ilm_cnt;

if (ipifcb->ill.ill_isv6) {

mdb_snprintf(addrstr, sizeof (addrstr), "%N",

&ipif->ipif_v6lcl_addr);

af = AF_INET6;

} else {

mdb_snprintf(addrstr, sizeof (addrstr), "%I",

V4_PART_OF_V6((ipif->ipif_v6lcl_addr)));

af = AF_INET;

}

if (verbose) {

mdb_printf("%-?p %-10s %3d %-?p %-8s %-30s\n",

addr, buf, cnt, ipif->ipif_ill,

sflagsbuf, flagsbuf);

mdb_snprintf(sbuf, sizeof (sbuf), "%*s %12s",

sizeof (uintptr_t) * 2, "", "");

mdb_printf("%s |\n%s +---> %4d %-15s "

"Active consistent reader cnt\n",

sbuf, sbuf, ipif->ipif_refcnt, "ipif_refcnt");

mdb_printf("%*s %10d %-15s "

"Number of ire's referencing this ipif\n",

strlen(sbuf), "", ipif->ipif_ire_cnt, "ipif_ire_cnt");

mdb_printf("%*s %10d %-15s "

"Number of ilm's referencing this ipif\n\n",

strlen(sbuf), "", ipif->ipif_ilm_cnt, "ipif_ilm_cnt");

mdb_printf("%-s/%d\n",

addrstr, mask_to_prefixlen(af, &ipif->ipif_v6net_mask));

if (ipifcb->ill.ill_isv6) {

mdb_printf("%-N\n", &ipif->ipif_v6brd_addr);

} else {

mdb_printf("%-I\n",

V4_PART_OF_V6((ipif->ipif_v6brd_addr)));

}

} else {

mdb_printf("%-?p %-10s %6d %-?p %-8s %-30s\n",

addr, buf, cnt, ipif->ipif_ill,

sflagsbuf, flagsbuf);

mdb_printf("%-s/%d\n",

addrstr, mask_to_prefixlen(af, &ipif->ipif_v6net_mask));

}

return (WALK_NEXT);

}

static int

ipif(uintptr_t addr, uint_t flags, int argc, const mdb_arg_t *argv)

{

ipif_t ipif;

ipif_cbdata_t id;

int ipversion = 0;

const char *opt_P = NULL;

uint_t verbose = FALSE;

if (mdb_getopts(argc, argv,

'v', MDB_OPT_SETBITS, TRUE, &verbose,

'P', MDB_OPT_STR, &opt_P, NULL) != argc)

return (DCMD_USAGE);

if (opt_P != NULL) {

if (strcmp("v4", opt_P) == 0) {

ipversion = IPV4_VERSION;

} else if (strcmp("v6", opt_P) == 0) {

ipversion = IPV6_VERSION;

} else {

mdb_warn("invalid protocol '%s'\n", opt_P);

return (DCMD_USAGE);

}

}

id.verbose = verbose;

id.ipif_ipversion = ipversion;

if (flags & DCMD_ADDRSPEC) {

if (mdb_vread(&ipif, sizeof (ipif_t), addr) == -1) {

mdb_warn("failed to read ipif at %p\n", addr);

return (DCMD_ERR);

}

ipif_header(verbose);

if (mdb_vread(&id.ill, sizeof (ill_t),

(uintptr_t)ipif.ipif_ill) == -1) {

mdb_warn("failed to read ill at %p", ipif.ipif_ill);

return (WALK_NEXT);

}

return (ipif_format(addr, &ipif, &id));

} else {

ipif_header(verbose);

if (mdb_walk("ipif", (mdb_walk_cb_t)ipif_cb, &id) == -1) {

mdb_warn("failed to walk ipifs\n");

return (DCMD_ERR);

}

}

return (DCMD_OK);

}

static void

ipif_help(void)

{

mdb_printf("Prints the following fields: ipif ptr, name, "

"count, ill ptr, state flags and ipif flags.\n"

"The count field is a sum of individual refcnts and is expanded "

"with the -v option.\n"

"The flags field shows the following:"

"\n\tUNN -> UNNUMBERED, DHCP -> DHCPRUNNING, PRIV -> PRIVATE, "

"\n\tNOXMT -> NOXMIT, NOLCL -> NOLOCAL, DEPR -> DEPRECATED, "

"\n\tPREF -> PREFERRED, TEMP -> TEMPORARY, ACONF -> ADDRCONF, "

"\n\tANY -> ANYCAST, NFAIL -> NOFAILOVER, "

"\n\tADR -> ipif_addr_ready, MU -> ipif_multicast_up, "

"\n\tWU -> ipif_was_up, WD -> ipif_was_dup, "

"JA -> ipif_joined_allhosts.\n\n");