github.com/metacubex/gvisor@v0.0.0-20240320004321-933faba989ec/pkg/sentry/strace/socket.go (about) 1 // Copyright 2018 The gVisor Authors. 2 // 3 // Licensed under the Apache License, Version 2.0 (the "License"); 4 // you may not use this file except in compliance with the License. 5 // You may obtain a copy of the License at 6 // 7 // http://www.apache.org/licenses/LICENSE-2.0 8 // 9 // Unless required by applicable law or agreed to in writing, software 10 // distributed under the License is distributed on an "AS IS" BASIS, 11 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 12 // See the License for the specific language governing permissions and 13 // limitations under the License. 14 15 package strace 16 17 import ( 18 "fmt" 19 "strings" 20 21 "github.com/metacubex/gvisor/pkg/abi" 22 "github.com/metacubex/gvisor/pkg/abi/linux" 23 "github.com/metacubex/gvisor/pkg/bits" 24 "github.com/metacubex/gvisor/pkg/hostarch" 25 "github.com/metacubex/gvisor/pkg/marshal/primitive" 26 "github.com/metacubex/gvisor/pkg/sentry/kernel" 27 "github.com/metacubex/gvisor/pkg/sentry/socket" 28 "github.com/metacubex/gvisor/pkg/sentry/socket/netlink" 29 slinux "github.com/metacubex/gvisor/pkg/sentry/syscalls/linux" 30 ) 31 32 // SocketFamily are the possible socket(2) families. 33 var SocketFamily = abi.ValueSet{ 34 linux.AF_UNSPEC: "AF_UNSPEC", 35 linux.AF_UNIX: "AF_UNIX", 36 linux.AF_INET: "AF_INET", 37 linux.AF_AX25: "AF_AX25", 38 linux.AF_IPX: "AF_IPX", 39 linux.AF_APPLETALK: "AF_APPLETALK", 40 linux.AF_NETROM: "AF_NETROM", 41 linux.AF_BRIDGE: "AF_BRIDGE", 42 linux.AF_ATMPVC: "AF_ATMPVC", 43 linux.AF_X25: "AF_X25", 44 linux.AF_INET6: "AF_INET6", 45 linux.AF_ROSE: "AF_ROSE", 46 linux.AF_DECnet: "AF_DECnet", 47 linux.AF_NETBEUI: "AF_NETBEUI", 48 linux.AF_SECURITY: "AF_SECURITY", 49 linux.AF_KEY: "AF_KEY", 50 linux.AF_NETLINK: "AF_NETLINK", 51 linux.AF_PACKET: "AF_PACKET", 52 linux.AF_ASH: "AF_ASH", 53 linux.AF_ECONET: "AF_ECONET", 54 linux.AF_ATMSVC: "AF_ATMSVC", 55 linux.AF_RDS: "AF_RDS", 56 linux.AF_SNA: "AF_SNA", 57 linux.AF_IRDA: "AF_IRDA", 58 linux.AF_PPPOX: "AF_PPPOX", 59 linux.AF_WANPIPE: "AF_WANPIPE", 60 linux.AF_LLC: "AF_LLC", 61 linux.AF_IB: "AF_IB", 62 linux.AF_MPLS: "AF_MPLS", 63 linux.AF_CAN: "AF_CAN", 64 linux.AF_TIPC: "AF_TIPC", 65 linux.AF_BLUETOOTH: "AF_BLUETOOTH", 66 linux.AF_IUCV: "AF_IUCV", 67 linux.AF_RXRPC: "AF_RXRPC", 68 linux.AF_ISDN: "AF_ISDN", 69 linux.AF_PHONET: "AF_PHONET", 70 linux.AF_IEEE802154: "AF_IEEE802154", 71 linux.AF_CAIF: "AF_CAIF", 72 linux.AF_ALG: "AF_ALG", 73 linux.AF_NFC: "AF_NFC", 74 linux.AF_VSOCK: "AF_VSOCK", 75 } 76 77 // SocketType are the possible socket(2) types. 78 var SocketType = abi.ValueSet{ 79 uint64(linux.SOCK_STREAM): "SOCK_STREAM", 80 uint64(linux.SOCK_DGRAM): "SOCK_DGRAM", 81 uint64(linux.SOCK_RAW): "SOCK_RAW", 82 uint64(linux.SOCK_RDM): "SOCK_RDM", 83 uint64(linux.SOCK_SEQPACKET): "SOCK_SEQPACKET", 84 uint64(linux.SOCK_DCCP): "SOCK_DCCP", 85 uint64(linux.SOCK_PACKET): "SOCK_PACKET", 86 } 87 88 // SocketFlagSet are the possible socket(2) flags. 89 var SocketFlagSet = abi.FlagSet{ 90 { 91 Flag: linux.SOCK_CLOEXEC, 92 Name: "SOCK_CLOEXEC", 93 }, 94 { 95 Flag: linux.SOCK_NONBLOCK, 96 Name: "SOCK_NONBLOCK", 97 }, 98 } 99 100 // ipProtocol are the possible socket(2) types for INET and INET6 sockets. 101 var ipProtocol = abi.ValueSet{ 102 linux.IPPROTO_IP: "IPPROTO_IP", 103 linux.IPPROTO_ICMP: "IPPROTO_ICMP", 104 linux.IPPROTO_ICMPV6: "IPPROTO_ICMPV6", 105 linux.IPPROTO_IGMP: "IPPROTO_IGMP", 106 linux.IPPROTO_IPIP: "IPPROTO_IPIP", 107 linux.IPPROTO_TCP: "IPPROTO_TCP", 108 linux.IPPROTO_EGP: "IPPROTO_EGP", 109 linux.IPPROTO_PUP: "IPPROTO_PUP", 110 linux.IPPROTO_UDP: "IPPROTO_UDP", 111 linux.IPPROTO_IDP: "IPPROTO_IDP", 112 linux.IPPROTO_TP: "IPPROTO_TP", 113 linux.IPPROTO_DCCP: "IPPROTO_DCCP", 114 linux.IPPROTO_IPV6: "IPPROTO_IPV6", 115 linux.IPPROTO_RSVP: "IPPROTO_RSVP", 116 linux.IPPROTO_GRE: "IPPROTO_GRE", 117 linux.IPPROTO_ESP: "IPPROTO_ESP", 118 linux.IPPROTO_AH: "IPPROTO_AH", 119 linux.IPPROTO_MTP: "IPPROTO_MTP", 120 linux.IPPROTO_BEETPH: "IPPROTO_BEETPH", 121 linux.IPPROTO_ENCAP: "IPPROTO_ENCAP", 122 linux.IPPROTO_PIM: "IPPROTO_PIM", 123 linux.IPPROTO_COMP: "IPPROTO_COMP", 124 linux.IPPROTO_SCTP: "IPPROTO_SCTP", 125 linux.IPPROTO_UDPLITE: "IPPROTO_UDPLITE", 126 linux.IPPROTO_MPLS: "IPPROTO_MPLS", 127 linux.IPPROTO_RAW: "IPPROTO_RAW", 128 } 129 130 // SocketProtocol are the possible socket(2) protocols for each protocol family. 131 var SocketProtocol = map[int32]abi.ValueSet{ 132 linux.AF_INET: ipProtocol, 133 linux.AF_INET6: ipProtocol, 134 linux.AF_NETLINK: { 135 linux.NETLINK_ROUTE: "NETLINK_ROUTE", 136 linux.NETLINK_UNUSED: "NETLINK_UNUSED", 137 linux.NETLINK_USERSOCK: "NETLINK_USERSOCK", 138 linux.NETLINK_FIREWALL: "NETLINK_FIREWALL", 139 linux.NETLINK_SOCK_DIAG: "NETLINK_SOCK_DIAG", 140 linux.NETLINK_NFLOG: "NETLINK_NFLOG", 141 linux.NETLINK_XFRM: "NETLINK_XFRM", 142 linux.NETLINK_SELINUX: "NETLINK_SELINUX", 143 linux.NETLINK_ISCSI: "NETLINK_ISCSI", 144 linux.NETLINK_AUDIT: "NETLINK_AUDIT", 145 linux.NETLINK_FIB_LOOKUP: "NETLINK_FIB_LOOKUP", 146 linux.NETLINK_CONNECTOR: "NETLINK_CONNECTOR", 147 linux.NETLINK_NETFILTER: "NETLINK_NETFILTER", 148 linux.NETLINK_IP6_FW: "NETLINK_IP6_FW", 149 linux.NETLINK_DNRTMSG: "NETLINK_DNRTMSG", 150 linux.NETLINK_KOBJECT_UEVENT: "NETLINK_KOBJECT_UEVENT", 151 linux.NETLINK_GENERIC: "NETLINK_GENERIC", 152 linux.NETLINK_SCSITRANSPORT: "NETLINK_SCSITRANSPORT", 153 linux.NETLINK_ECRYPTFS: "NETLINK_ECRYPTFS", 154 linux.NETLINK_RDMA: "NETLINK_RDMA", 155 linux.NETLINK_CRYPTO: "NETLINK_CRYPTO", 156 }, 157 } 158 159 var controlMessageType = map[int32]string{ 160 linux.SCM_RIGHTS: "SCM_RIGHTS", 161 linux.SCM_CREDENTIALS: "SCM_CREDENTIALS", 162 linux.SO_TIMESTAMP: "SO_TIMESTAMP", 163 } 164 165 func unmarshalControlMessageRights(src []byte) []primitive.Int32 { 166 count := len(src) / linux.SizeOfControlMessageRight 167 cmr := make([]primitive.Int32, count) 168 primitive.UnmarshalUnsafeInt32Slice(cmr, src) 169 return cmr 170 } 171 172 func cmsghdr(t *kernel.Task, addr hostarch.Addr, length uint64, maxBytes uint64) string { 173 if length > maxBytes { 174 return fmt.Sprintf("%#x (error decoding control: invalid length (%d))", addr, length) 175 } 176 177 buf := make([]byte, length) 178 if _, err := t.CopyInBytes(addr, buf); err != nil { 179 return fmt.Sprintf("%#x (error decoding control: %v)", addr, err) 180 } 181 182 var strs []string 183 184 for len(buf) > 0 { 185 if linux.SizeOfControlMessageHeader > len(buf) { 186 strs = append(strs, "{invalid control message (too short)}") 187 break 188 } 189 190 var h linux.ControlMessageHeader 191 buf = h.UnmarshalUnsafe(buf) 192 193 var skipData bool 194 level := "SOL_SOCKET" 195 if h.Level != linux.SOL_SOCKET { 196 skipData = true 197 level = fmt.Sprint(h.Level) 198 } 199 200 typ, ok := controlMessageType[h.Type] 201 if !ok { 202 skipData = true 203 typ = fmt.Sprint(h.Type) 204 } 205 206 width := t.Arch().Width() 207 length := int(h.Length) - linux.SizeOfControlMessageHeader 208 if length > len(buf) { 209 strs = append(strs, fmt.Sprintf( 210 "{level=%s, type=%s, length=%d, content extends beyond buffer}", 211 level, 212 typ, 213 h.Length, 214 )) 215 break 216 } 217 218 if length < 0 { 219 strs = append(strs, fmt.Sprintf( 220 "{level=%s, type=%s, length=%d, content too short}", 221 level, 222 typ, 223 h.Length, 224 )) 225 break 226 } 227 228 if skipData { 229 strs = append(strs, fmt.Sprintf("{level=%s, type=%s, length=%d}", level, typ, h.Length)) 230 } else { 231 switch h.Type { 232 case linux.SCM_RIGHTS: 233 rightsSize := bits.AlignDown(length, linux.SizeOfControlMessageRight) 234 fds := unmarshalControlMessageRights(buf[:rightsSize]) 235 rights := make([]string, 0, len(fds)) 236 for _, fd := range fds { 237 rights = append(rights, fmt.Sprint(fd)) 238 } 239 240 strs = append(strs, fmt.Sprintf( 241 "{level=%s, type=%s, length=%d, content: %s}", 242 level, 243 typ, 244 h.Length, 245 strings.Join(rights, ","), 246 )) 247 248 case linux.SCM_CREDENTIALS: 249 if length < linux.SizeOfControlMessageCredentials { 250 strs = append(strs, fmt.Sprintf( 251 "{level=%s, type=%s, length=%d, content too short}", 252 level, 253 typ, 254 h.Length, 255 )) 256 break 257 } 258 259 var creds linux.ControlMessageCredentials 260 creds.UnmarshalUnsafe(buf) 261 262 strs = append(strs, fmt.Sprintf( 263 "{level=%s, type=%s, length=%d, pid: %d, uid: %d, gid: %d}", 264 level, 265 typ, 266 h.Length, 267 creds.PID, 268 creds.UID, 269 creds.GID, 270 )) 271 272 case linux.SO_TIMESTAMP: 273 if length < linux.SizeOfTimeval { 274 strs = append(strs, fmt.Sprintf( 275 "{level=%s, type=%s, length=%d, content too short}", 276 level, 277 typ, 278 h.Length, 279 )) 280 break 281 } 282 283 var tv linux.Timeval 284 tv.UnmarshalUnsafe(buf) 285 286 strs = append(strs, fmt.Sprintf( 287 "{level=%s, type=%s, length=%d, Sec: %d, Usec: %d}", 288 level, 289 typ, 290 h.Length, 291 tv.Sec, 292 tv.Usec, 293 )) 294 295 default: 296 panic("unreachable") 297 } 298 } 299 if shift := bits.AlignUp(length, width); shift > len(buf) { 300 buf = buf[:0] 301 } else { 302 buf = buf[shift:] 303 } 304 } 305 306 return fmt.Sprintf("%#x %s", addr, strings.Join(strs, ", ")) 307 } 308 309 func msghdr(t *kernel.Task, addr hostarch.Addr, printContent bool, maxBytes uint64) string { 310 var msg slinux.MessageHeader64 311 if _, err := msg.CopyIn(t, addr); err != nil { 312 return fmt.Sprintf("%#x (error decoding msghdr: %v)", addr, err) 313 } 314 s := fmt.Sprintf( 315 "%#x {name=%#x, namelen=%d, iovecs=%s", 316 addr, 317 msg.Name, 318 msg.NameLen, 319 iovecs(t, hostarch.Addr(msg.Iov), int(msg.IovLen), printContent, maxBytes), 320 ) 321 if printContent { 322 s = fmt.Sprintf("%s, control={%s}", s, cmsghdr(t, hostarch.Addr(msg.Control), msg.ControlLen, maxBytes)) 323 } else { 324 s = fmt.Sprintf("%s, control=%#x, control_len=%d", s, msg.Control, msg.ControlLen) 325 } 326 return fmt.Sprintf("%s, flags=%d}", s, msg.Flags) 327 } 328 329 func sockAddr(t *kernel.Task, addr hostarch.Addr, length uint32) string { 330 if addr == 0 { 331 return "null" 332 } 333 334 b, err := slinux.CaptureAddress(t, addr, length) 335 if err != nil { 336 return fmt.Sprintf("%#x {error reading address: %v}", addr, err) 337 } 338 339 // Extract address family. 340 if len(b) < 2 { 341 return fmt.Sprintf("%#x {address too short: %d bytes}", addr, len(b)) 342 } 343 family := hostarch.ByteOrder.Uint16(b) 344 345 familyStr := SocketFamily.Parse(uint64(family)) 346 347 switch family { 348 case linux.AF_INET, linux.AF_INET6, linux.AF_UNIX: 349 fa, _, err := socket.AddressAndFamily(b) 350 if err != nil { 351 return fmt.Sprintf("%#x {Family: %s, error extracting address: %v}", addr, familyStr, err) 352 } 353 354 if family == linux.AF_UNIX { 355 return fmt.Sprintf("%#x {Family: %s, Addr: %q}", addr, familyStr, string(fa.Addr.AsSlice())) 356 } 357 358 return fmt.Sprintf("%#x {Family: %s, Addr: %v, Port: %d}", addr, familyStr, fa.Addr, fa.Port) 359 case linux.AF_NETLINK: 360 sa, err := netlink.ExtractSockAddr(b) 361 if err != nil { 362 return fmt.Sprintf("%#x {Family: %s, error extracting address: %v}", addr, familyStr, err) 363 } 364 return fmt.Sprintf("%#x {Family: %s, PortID: %d, Groups: %d}", addr, familyStr, sa.PortID, sa.Groups) 365 default: 366 return fmt.Sprintf("%#x {Family: %s, family addr format unknown}", addr, familyStr) 367 } 368 } 369 370 func postSockAddr(t *kernel.Task, addr hostarch.Addr, lengthPtr hostarch.Addr) string { 371 if addr == 0 { 372 return "null" 373 } 374 375 if lengthPtr == 0 { 376 return fmt.Sprintf("%#x {length null}", addr) 377 } 378 379 l, err := copySockLen(t, lengthPtr) 380 if err != nil { 381 return fmt.Sprintf("%#x {error reading length: %v}", addr, err) 382 } 383 384 return sockAddr(t, addr, l) 385 } 386 387 func copySockLen(t *kernel.Task, addr hostarch.Addr) (uint32, error) { 388 // socklen_t is 32-bits. 389 var l primitive.Uint32 390 _, err := l.CopyIn(t, addr) 391 return uint32(l), err 392 } 393 394 func sockLenPointer(t *kernel.Task, addr hostarch.Addr) string { 395 if addr == 0 { 396 return "null" 397 } 398 l, err := copySockLen(t, addr) 399 if err != nil { 400 return fmt.Sprintf("%#x {error reading length: %v}", addr, err) 401 } 402 return fmt.Sprintf("%#x {length=%v}", addr, l) 403 } 404 405 func sockType(stype int32) string { 406 s := SocketType.Parse(uint64(stype & linux.SOCK_TYPE_MASK)) 407 if flags := SocketFlagSet.Parse(uint64(stype &^ linux.SOCK_TYPE_MASK)); flags != "" { 408 s += "|" + flags 409 } 410 return s 411 } 412 413 func sockProtocol(family, protocol int32) string { 414 protocols, ok := SocketProtocol[family] 415 if !ok { 416 return fmt.Sprintf("%#x", protocol) 417 } 418 return protocols.Parse(uint64(protocol)) 419 } 420 421 func sockFlags(flags int32) string { 422 if flags == 0 { 423 return "0" 424 } 425 return SocketFlagSet.Parse(uint64(flags)) 426 } 427 428 func getSockOptVal(t *kernel.Task, level, optname uint64, optVal hostarch.Addr, optLen hostarch.Addr, maximumBlobSize uint, rval uintptr) string { 429 if int(rval) < 0 { 430 return hexNum(uint64(optVal)) 431 } 432 if optVal == 0 { 433 return "null" 434 } 435 l, err := copySockLen(t, optLen) 436 if err != nil { 437 return fmt.Sprintf("%#x {error reading length: %v}", optLen, err) 438 } 439 return sockOptVal(t, level, optname, optVal, uint64(l), maximumBlobSize) 440 } 441 442 func sockOptVal(t *kernel.Task, level, optname uint64, optVal hostarch.Addr, optLen uint64, maximumBlobSize uint) string { 443 switch optLen { 444 case 1: 445 var v primitive.Uint8 446 _, err := v.CopyIn(t, optVal) 447 if err != nil { 448 return fmt.Sprintf("%#x {error reading optval: %v}", optVal, err) 449 } 450 return fmt.Sprintf("%#x {value=%v}", optVal, v) 451 case 2: 452 var v primitive.Uint16 453 _, err := v.CopyIn(t, optVal) 454 if err != nil { 455 return fmt.Sprintf("%#x {error reading optval: %v}", optVal, err) 456 } 457 return fmt.Sprintf("%#x {value=%v}", optVal, v) 458 case 4: 459 var v primitive.Uint32 460 _, err := v.CopyIn(t, optVal) 461 if err != nil { 462 return fmt.Sprintf("%#x {error reading optval: %v}", optVal, err) 463 } 464 return fmt.Sprintf("%#x {value=%v}", optVal, v) 465 default: 466 return dump(t, optVal, uint(optLen), maximumBlobSize, true /* content */) 467 } 468 } 469 470 var sockOptLevels = abi.ValueSet{ 471 linux.SOL_IP: "SOL_IP", 472 linux.SOL_SOCKET: "SOL_SOCKET", 473 linux.SOL_TCP: "SOL_TCP", 474 linux.SOL_UDP: "SOL_UDP", 475 linux.SOL_IPV6: "SOL_IPV6", 476 linux.SOL_ICMPV6: "SOL_ICMPV6", 477 linux.SOL_RAW: "SOL_RAW", 478 linux.SOL_PACKET: "SOL_PACKET", 479 linux.SOL_NETLINK: "SOL_NETLINK", 480 } 481 482 var sockOptNames = map[uint64]abi.ValueSet{ 483 linux.SOL_IP: { 484 linux.IP_TTL: "IP_TTL", 485 linux.IP_MULTICAST_TTL: "IP_MULTICAST_TTL", 486 linux.IP_MULTICAST_IF: "IP_MULTICAST_IF", 487 linux.IP_MULTICAST_LOOP: "IP_MULTICAST_LOOP", 488 linux.IP_TOS: "IP_TOS", 489 linux.IP_RECVTOS: "IP_RECVTOS", 490 linux.IPT_SO_GET_INFO: "IPT_SO_GET_INFO", 491 linux.IPT_SO_GET_ENTRIES: "IPT_SO_GET_ENTRIES", 492 linux.IP_ADD_MEMBERSHIP: "IP_ADD_MEMBERSHIP", 493 linux.IP_DROP_MEMBERSHIP: "IP_DROP_MEMBERSHIP", 494 linux.MCAST_JOIN_GROUP: "MCAST_JOIN_GROUP", 495 linux.IP_ADD_SOURCE_MEMBERSHIP: "IP_ADD_SOURCE_MEMBERSHIP", 496 linux.IP_BIND_ADDRESS_NO_PORT: "IP_BIND_ADDRESS_NO_PORT", 497 linux.IP_BLOCK_SOURCE: "IP_BLOCK_SOURCE", 498 linux.IP_CHECKSUM: "IP_CHECKSUM", 499 linux.IP_DROP_SOURCE_MEMBERSHIP: "IP_DROP_SOURCE_MEMBERSHIP", 500 linux.IP_FREEBIND: "IP_FREEBIND", 501 linux.IP_HDRINCL: "IP_HDRINCL", 502 linux.IP_IPSEC_POLICY: "IP_IPSEC_POLICY", 503 linux.IP_MINTTL: "IP_MINTTL", 504 linux.IP_MSFILTER: "IP_MSFILTER", 505 linux.IP_MTU_DISCOVER: "IP_MTU_DISCOVER", 506 linux.IP_MULTICAST_ALL: "IP_MULTICAST_ALL", 507 linux.IP_NODEFRAG: "IP_NODEFRAG", 508 linux.IP_OPTIONS: "IP_OPTIONS", 509 linux.IP_PASSSEC: "IP_PASSSEC", 510 linux.IP_PKTINFO: "IP_PKTINFO", 511 linux.IP_RECVERR: "IP_RECVERR", 512 linux.IP_RECVFRAGSIZE: "IP_RECVFRAGSIZE", 513 linux.IP_RECVOPTS: "IP_RECVOPTS", 514 linux.IP_RECVORIGDSTADDR: "IP_RECVORIGDSTADDR", 515 linux.IP_RECVTTL: "IP_RECVTTL", 516 linux.IP_RETOPTS: "IP_RETOPTS", 517 linux.IP_TRANSPARENT: "IP_TRANSPARENT", 518 linux.IP_UNBLOCK_SOURCE: "IP_UNBLOCK_SOURCE", 519 linux.IP_UNICAST_IF: "IP_UNICAST_IF", 520 linux.IP_XFRM_POLICY: "IP_XFRM_POLICY", 521 linux.MCAST_BLOCK_SOURCE: "MCAST_BLOCK_SOURCE", 522 linux.MCAST_JOIN_SOURCE_GROUP: "MCAST_JOIN_SOURCE_GROUP", 523 linux.MCAST_LEAVE_GROUP: "MCAST_LEAVE_GROUP", 524 linux.MCAST_LEAVE_SOURCE_GROUP: "MCAST_LEAVE_SOURCE_GROUP", 525 linux.MCAST_MSFILTER: "MCAST_MSFILTER", 526 linux.MCAST_UNBLOCK_SOURCE: "MCAST_UNBLOCK_SOURCE", 527 linux.IP_ROUTER_ALERT: "IP_ROUTER_ALERT", 528 linux.IP_PKTOPTIONS: "IP_PKTOPTIONS", 529 linux.IP_MTU: "IP_MTU", 530 linux.SO_ORIGINAL_DST: "SO_ORIGINAL_DST", 531 }, 532 linux.SOL_SOCKET: { 533 linux.SO_ERROR: "SO_ERROR", 534 linux.SO_PEERCRED: "SO_PEERCRED", 535 linux.SO_PASSCRED: "SO_PASSCRED", 536 linux.SO_SNDBUF: "SO_SNDBUF", 537 linux.SO_RCVBUF: "SO_RCVBUF", 538 linux.SO_REUSEADDR: "SO_REUSEADDR", 539 linux.SO_REUSEPORT: "SO_REUSEPORT", 540 linux.SO_BINDTODEVICE: "SO_BINDTODEVICE", 541 linux.SO_BROADCAST: "SO_BROADCAST", 542 linux.SO_KEEPALIVE: "SO_KEEPALIVE", 543 linux.SO_LINGER: "SO_LINGER", 544 linux.SO_SNDTIMEO: "SO_SNDTIMEO", 545 linux.SO_RCVTIMEO: "SO_RCVTIMEO", 546 linux.SO_OOBINLINE: "SO_OOBINLINE", 547 linux.SO_TIMESTAMP: "SO_TIMESTAMP", 548 linux.SO_ACCEPTCONN: "SO_ACCEPTCONN", 549 }, 550 linux.SOL_TCP: { 551 linux.TCP_NODELAY: "TCP_NODELAY", 552 linux.TCP_CORK: "TCP_CORK", 553 linux.TCP_QUICKACK: "TCP_QUICKACK", 554 linux.TCP_MAXSEG: "TCP_MAXSEG", 555 linux.TCP_KEEPIDLE: "TCP_KEEPIDLE", 556 linux.TCP_KEEPINTVL: "TCP_KEEPINTVL", 557 linux.TCP_USER_TIMEOUT: "TCP_USER_TIMEOUT", 558 linux.TCP_INFO: "TCP_INFO", 559 linux.TCP_CC_INFO: "TCP_CC_INFO", 560 linux.TCP_NOTSENT_LOWAT: "TCP_NOTSENT_LOWAT", 561 linux.TCP_ZEROCOPY_RECEIVE: "TCP_ZEROCOPY_RECEIVE", 562 linux.TCP_CONGESTION: "TCP_CONGESTION", 563 linux.TCP_LINGER2: "TCP_LINGER2", 564 linux.TCP_DEFER_ACCEPT: "TCP_DEFER_ACCEPT", 565 linux.TCP_REPAIR_OPTIONS: "TCP_REPAIR_OPTIONS", 566 linux.TCP_INQ: "TCP_INQ", 567 linux.TCP_FASTOPEN: "TCP_FASTOPEN", 568 linux.TCP_FASTOPEN_CONNECT: "TCP_FASTOPEN_CONNECT", 569 linux.TCP_FASTOPEN_KEY: "TCP_FASTOPEN_KEY", 570 linux.TCP_FASTOPEN_NO_COOKIE: "TCP_FASTOPEN_NO_COOKIE", 571 linux.TCP_KEEPCNT: "TCP_KEEPCNT", 572 linux.TCP_QUEUE_SEQ: "TCP_QUEUE_SEQ", 573 linux.TCP_REPAIR: "TCP_REPAIR", 574 linux.TCP_REPAIR_QUEUE: "TCP_REPAIR_QUEUE", 575 linux.TCP_REPAIR_WINDOW: "TCP_REPAIR_WINDOW", 576 linux.TCP_SAVED_SYN: "TCP_SAVED_SYN", 577 linux.TCP_SAVE_SYN: "TCP_SAVE_SYN", 578 linux.TCP_SYNCNT: "TCP_SYNCNT", 579 linux.TCP_THIN_DUPACK: "TCP_THIN_DUPACK", 580 linux.TCP_THIN_LINEAR_TIMEOUTS: "TCP_THIN_LINEAR_TIMEOUTS", 581 linux.TCP_TIMESTAMP: "TCP_TIMESTAMP", 582 linux.TCP_ULP: "TCP_ULP", 583 linux.TCP_WINDOW_CLAMP: "TCP_WINDOW_CLAMP", 584 }, 585 linux.SOL_IPV6: { 586 linux.IPV6_V6ONLY: "IPV6_V6ONLY", 587 linux.IPV6_PATHMTU: "IPV6_PATHMTU", 588 linux.IPV6_TCLASS: "IPV6_TCLASS", 589 linux.IPV6_ADD_MEMBERSHIP: "IPV6_ADD_MEMBERSHIP", 590 linux.IPV6_DROP_MEMBERSHIP: "IPV6_DROP_MEMBERSHIP", 591 linux.IPV6_IPSEC_POLICY: "IPV6_IPSEC_POLICY", 592 linux.IPV6_JOIN_ANYCAST: "IPV6_JOIN_ANYCAST", 593 linux.IPV6_LEAVE_ANYCAST: "IPV6_LEAVE_ANYCAST", 594 linux.IPV6_PKTINFO: "IPV6_PKTINFO", 595 linux.IPV6_ROUTER_ALERT: "IPV6_ROUTER_ALERT", 596 linux.IPV6_XFRM_POLICY: "IPV6_XFRM_POLICY", 597 linux.MCAST_BLOCK_SOURCE: "MCAST_BLOCK_SOURCE", 598 linux.MCAST_JOIN_GROUP: "MCAST_JOIN_GROUP", 599 linux.MCAST_JOIN_SOURCE_GROUP: "MCAST_JOIN_SOURCE_GROUP", 600 linux.MCAST_LEAVE_GROUP: "MCAST_LEAVE_GROUP", 601 linux.MCAST_LEAVE_SOURCE_GROUP: "MCAST_LEAVE_SOURCE_GROUP", 602 linux.MCAST_UNBLOCK_SOURCE: "MCAST_UNBLOCK_SOURCE", 603 linux.IPV6_2292DSTOPTS: "IPV6_2292DSTOPTS", 604 linux.IPV6_2292HOPLIMIT: "IPV6_2292HOPLIMIT", 605 linux.IPV6_2292HOPOPTS: "IPV6_2292HOPOPTS", 606 linux.IPV6_2292PKTINFO: "IPV6_2292PKTINFO", 607 linux.IPV6_2292PKTOPTIONS: "IPV6_2292PKTOPTIONS", 608 linux.IPV6_2292RTHDR: "IPV6_2292RTHDR", 609 linux.IPV6_ADDR_PREFERENCES: "IPV6_ADDR_PREFERENCES", 610 linux.IPV6_AUTOFLOWLABEL: "IPV6_AUTOFLOWLABEL", 611 linux.IPV6_DONTFRAG: "IPV6_DONTFRAG", 612 linux.IPV6_DSTOPTS: "IPV6_DSTOPTS", 613 linux.IPV6_FLOWINFO: "IPV6_FLOWINFO", 614 linux.IPV6_FLOWINFO_SEND: "IPV6_FLOWINFO_SEND", 615 linux.IPV6_FLOWLABEL_MGR: "IPV6_FLOWLABEL_MGR", 616 linux.IPV6_FREEBIND: "IPV6_FREEBIND", 617 linux.IPV6_HOPOPTS: "IPV6_HOPOPTS", 618 linux.IPV6_MINHOPCOUNT: "IPV6_MINHOPCOUNT", 619 linux.IPV6_MTU: "IPV6_MTU", 620 linux.IPV6_MTU_DISCOVER: "IPV6_MTU_DISCOVER", 621 linux.IPV6_MULTICAST_ALL: "IPV6_MULTICAST_ALL", 622 linux.IPV6_MULTICAST_HOPS: "IPV6_MULTICAST_HOPS", 623 linux.IPV6_MULTICAST_IF: "IPV6_MULTICAST_IF", 624 linux.IPV6_MULTICAST_LOOP: "IPV6_MULTICAST_LOOP", 625 linux.IPV6_RECVDSTOPTS: "IPV6_RECVDSTOPTS", 626 linux.IPV6_RECVERR: "IPV6_RECVERR", 627 linux.IPV6_RECVFRAGSIZE: "IPV6_RECVFRAGSIZE", 628 linux.IPV6_RECVHOPLIMIT: "IPV6_RECVHOPLIMIT", 629 linux.IPV6_RECVHOPOPTS: "IPV6_RECVHOPOPTS", 630 linux.IPV6_RECVORIGDSTADDR: "IPV6_RECVORIGDSTADDR", 631 linux.IPV6_RECVPATHMTU: "IPV6_RECVPATHMTU", 632 linux.IPV6_RECVPKTINFO: "IPV6_RECVPKTINFO", 633 linux.IPV6_RECVRTHDR: "IPV6_RECVRTHDR", 634 linux.IPV6_RECVTCLASS: "IPV6_RECVTCLASS", 635 linux.IPV6_RTHDR: "IPV6_RTHDR", 636 linux.IPV6_RTHDRDSTOPTS: "IPV6_RTHDRDSTOPTS", 637 linux.IPV6_TRANSPARENT: "IPV6_TRANSPARENT", 638 linux.IPV6_UNICAST_HOPS: "IPV6_UNICAST_HOPS", 639 linux.IPV6_UNICAST_IF: "IPV6_UNICAST_IF", 640 linux.MCAST_MSFILTER: "MCAST_MSFILTER", 641 linux.IPV6_ADDRFORM: "IPV6_ADDRFORM", 642 linux.IP6T_SO_GET_INFO: "IP6T_SO_GET_INFO", 643 linux.IP6T_SO_GET_ENTRIES: "IP6T_SO_GET_ENTRIES", 644 }, 645 linux.SOL_NETLINK: { 646 linux.NETLINK_BROADCAST_ERROR: "NETLINK_BROADCAST_ERROR", 647 linux.NETLINK_CAP_ACK: "NETLINK_CAP_ACK", 648 linux.NETLINK_DUMP_STRICT_CHK: "NETLINK_DUMP_STRICT_CHK", 649 linux.NETLINK_EXT_ACK: "NETLINK_EXT_ACK", 650 linux.NETLINK_LIST_MEMBERSHIPS: "NETLINK_LIST_MEMBERSHIPS", 651 linux.NETLINK_NO_ENOBUFS: "NETLINK_NO_ENOBUFS", 652 linux.NETLINK_PKTINFO: "NETLINK_PKTINFO", 653 }, 654 }