diff options
author | Raimo Niskanen <[email protected]> | 2016-05-04 14:09:04 +0200 |
---|---|---|
committer | Raimo Niskanen <[email protected]> | 2016-06-01 11:00:48 +0200 |
commit | 011954e851d421b882b0b4eaeda04cfc2895d70a (patch) | |
tree | a608859fbfb83c90a736784fd7e188acc159eadf | |
parent | e293ad1b08b2f937555a102e6f3b4336574773c8 (diff) | |
download | otp-011954e851d421b882b0b4eaeda04cfc2895d70a.tar.gz otp-011954e851d421b882b0b4eaeda04cfc2895d70a.tar.bz2 otp-011954e851d421b882b0b4eaeda04cfc2895d70a.zip |
Rewrite inet_drv for AF_LOCAL
-rw-r--r-- | erts/emulator/drivers/common/inet_drv.c | 384 | ||||
-rw-r--r-- | erts/preloaded/ebin/prim_inet.beam | bin | 72716 -> 76488 bytes | |||
-rw-r--r-- | erts/preloaded/src/prim_inet.erl | 341 | ||||
-rw-r--r-- | lib/kernel/src/inet_int.hrl | 3 | ||||
-rw-r--r-- | lib/kernel/test/inet_SUITE.erl | 91 |
5 files changed, 510 insertions, 309 deletions
diff --git a/erts/emulator/drivers/common/inet_drv.c b/erts/emulator/drivers/common/inet_drv.c index bd4543f831..71e321df26 100644 --- a/erts/emulator/drivers/common/inet_drv.c +++ b/erts/emulator/drivers/common/inet_drv.c @@ -1,7 +1,7 @@ /* * %CopyrightBegin% * - * Copyright Ericsson AB 1997-2015. All Rights Reserved. + * Copyright Ericsson AB 1997-2016. All Rights Reserved. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. @@ -34,6 +34,7 @@ #include <stdio.h> #include <stdlib.h> +#include <stddef.h> #include <ctype.h> #include <sys/types.h> #include <errno.h> @@ -712,7 +713,7 @@ static int my_strncasecmp(const char *s1, const char *s2, size_t n) #ifdef HAVE_SOCKLEN_T # define SOCKLEN_T socklen_t #else -# define SOCKLEN_T int +# define SOCKLEN_T size_t #endif #include "packet_parser.h" @@ -726,6 +727,22 @@ static int my_strncasecmp(const char *s1, const char *s2, size_t n) (((unsigned char*) (s))[1] << 8) | \ (((unsigned char*) (s))[0])) +/* strnlen doesn't exist everywhere */ +static size_t my_strnlen(const char *s, size_t maxlen) +{ + size_t i = 0; + while (i < maxlen && s[i] != '\0') + i++; + return i; +} + +/* Check that some character in the buffer != '\0' */ +static int is_nonzero(const char *s, size_t n) +{ + size_t i; + for (i = 0; i < n; i++) if (s[i] != '\0') return !0; + return 0; +} #ifdef VALGRIND # include <valgrind/memcheck.h> @@ -751,6 +768,7 @@ static int my_strncasecmp(const char *s1, const char *s2, size_t n) #define INET_AF_ANY 3 /* INADDR_ANY or IN6ADDR_ANY_INIT */ #define INET_AF_LOOPBACK 4 /* INADDR_LOOPBACK or IN6ADDR_LOOPBACK_INIT */ #define INET_AF_LOCAL 5 +#define INET_AF_UNDEFINED 6 /* Unknown */ /* open and INET_REQ_GETTYPE enumeration */ #define INET_TYPE_STREAM 1 @@ -1042,23 +1060,29 @@ typedef union { } inet_address; -/* for AF_INET & AF_INET6 */ -#define inet_address_port(x) ((x)->sai.sin_port) +#define inet_address_port(x) \ + ((((x)->sai.sin_family == AF_INET) || \ + ((x)->sai.sin_family == AF_INET6)) ? \ + ((x)->sai.sin_port) : -1) #ifdef HAVE_SYS_UN_H -#define localaddrlen(family, data) \ - ((family == AF_LOCAL) ? *(unsigned char*)(data) : 0) +#define localaddrlen(data) \ + ((((unsigned char*)(data))[0] == INET_AF_LOCAL) ? \ + (1 + 1 + ((unsigned char*)(data))[1]) : 1) #else - 0 +#define localaddrlen(data) (1) #endif #if defined(HAVE_IN6) && defined(AF_INET6) -#define addrlen(family, data) \ - ((family == AF_INET) ? sizeof(struct in_addr) : \ - ((family == AF_INET6) ? sizeof(struct in6_addr) : localaddrlen(family, data))) +#define addrlen(data) \ + ((((unsigned char*)(data))[0] == INET_AF_INET) ? \ + (1 + 2 + 4) : \ + ((((unsigned char*)(data))[0] == INET_AF_INET6) ? \ + (1 + 2 + 16) : localaddrlen(data))) #else -#define addrlen(family, data) \ - ((family == AF_INET) ? sizeof(struct in_addr) : localaddrlen(family, data)) +#define addrlen(data) \ + ((((unsigned char*)(data))[0] == INET_AF_INET) ? \ + (1 + 2 + 4) : localaddrlen(data)) #endif typedef struct _multi_timer_data { @@ -1149,8 +1173,10 @@ typedef struct { inet_address peer_addr; /* fake peer address */ inet_address name_addr; /* fake local address */ - inet_address* peer_ptr; /* fake peername or NULL */ - inet_address* name_ptr; /* fake sockname or NULL */ + inet_address* peer_ptr; /* fake peername or NULL */ + inet_address* name_ptr; /* fake sockname or NULL */ + SOCKLEN_T peer_addr_len; /* fake peername size */ + SOCKLEN_T name_addr_len; /* fake sockname size */ int bufsz; /* minimum buffer constraint */ unsigned int hsz; /* the list header size, -1 is large !!! */ @@ -1489,6 +1515,7 @@ static int async_ref = 0; /* async reference id generator */ } while (0) static ErlDrvTermData am_ok; +static ErlDrvTermData am_undefined; static ErlDrvTermData am_tcp; static ErlDrvTermData am_error; static ErlDrvTermData am_einval; @@ -1505,6 +1532,7 @@ static ErlDrvTermData am_ssl_tls; static ErlDrvTermData am_udp; static ErlDrvTermData am_udp_passive; static ErlDrvTermData am_udp_error; +static ErlDrvTermData am_local; #endif #ifdef HAVE_SCTP static ErlDrvTermData am_sctp; @@ -1714,46 +1742,59 @@ static void *realloc_wrapper(void *current, ErlDrvSizeT size){ #endif #ifdef HAVE_UDP -static int load_ip_port(ErlDrvTermData* spec, int i, char* buf) -{ - spec[i++] = ERL_DRV_INT; - spec[i++] = (ErlDrvTermData) get_int16(buf); - return i; -} - -static int load_ip_address(ErlDrvTermData* spec, int i, int family, char* buf) +static int load_address(ErlDrvTermData* spec, int i, char* buf) { int n; - if (family == AF_INET) { - for (n = 0; n < 4; n++) { + switch (*buf++) { /* Family */ + case INET_AF_INET: { + for (n = 2; n < 2+4; n++) { spec[i++] = ERL_DRV_INT; spec[i++] = (ErlDrvTermData) ((unsigned char)buf[n]); } spec[i++] = ERL_DRV_TUPLE; spec[i++] = 4; + spec[i++] = ERL_DRV_INT; + spec[i++] = (ErlDrvTermData) get_int16(buf); + break; } #if defined(HAVE_IN6) && defined(AF_INET6) - else if (family == AF_INET6) { - for (n = 0; n < 16; n += 2) { + case INET_AF_INET6: { + for (n = 2; n < 2+16; n += 2) { spec[i++] = ERL_DRV_INT; spec[i++] = (ErlDrvTermData) get_int16(buf+n); } spec[i++] = ERL_DRV_TUPLE; spec[i++] = 8; + spec[i++] = ERL_DRV_INT; + spec[i++] = (ErlDrvTermData) get_int16(buf); + break; } #endif #ifdef HAVE_SYS_UN_H - else if (family == AF_LOCAL) { + case INET_AF_LOCAL: { int len = *(unsigned char*)buf++; - i = LOAD_STRING(spec, i, buf, len); + i = LOAD_ATOM(spec, i, am_local); + i = LOAD_BUF2BINARY(spec, i, buf, len); + spec[i++] = ERL_DRV_TUPLE; + spec[i++] = 2; + spec[i++] = ERL_DRV_INT; + spec[i++] = 0; + break; } #endif - else { + default: { /* INET_AF_UNDEFINED */ + i = LOAD_ATOM(spec, i, am_undefined); + spec[i++] = ERL_DRV_INT; + spec[i++] = 0; spec[i++] = ERL_DRV_TUPLE; + spec[i++] = 2; + spec[i++] = ERL_DRV_INT; spec[i++] = 0; + break; + } } return i; -} + } #endif @@ -1761,10 +1802,13 @@ static int load_ip_address(ErlDrvTermData* spec, int i, int family, char* buf) /* For SCTP, we often need to return {IP, Port} tuples: */ static int inet_get_address(char* dst, inet_address* src, unsigned int* len); -#define LOAD_IP_AND_PORT_CNT \ +/* Max of {{int()*8},int()} | {{int()*4},int()} | + * {{'local',binary()},int()} + */ +#define LOAD_INET_GET_ADDRESS_CNT \ (8*LOAD_INT_CNT + LOAD_TUPLE_CNT + LOAD_INT_CNT + LOAD_TUPLE_CNT) -static int load_ip_and_port +static int load_inet_get_address (ErlDrvTermData* spec, int i, inet_descriptor* desc, struct sockaddr_storage* addr) { @@ -1782,8 +1826,7 @@ static int load_ip_and_port /* NB: the following functions are safe to use, as they create tuples of copied Ints on the "spec", and do not install any String pts -- a ptr to "abuf" would be dangling upon exiting this function: */ - i = load_ip_address(spec, i, desc->sfamily, abuf+3); - i = load_ip_port (spec, i, abuf+1); + i = load_address(spec, i, abuf); /* IP,Port | Family,Addr */ i = LOAD_TUPLE (spec, i, 2); return i; } @@ -2475,7 +2518,6 @@ static ErlDrvTermData am_http_error; static ErlDrvTermData am_abs_path; static ErlDrvTermData am_absoluteURI; static ErlDrvTermData am_star; -static ErlDrvTermData am_undefined; static ErlDrvTermData am_http; static ErlDrvTermData am_https; static ErlDrvTermData am_scheme; @@ -3166,7 +3208,7 @@ static int sctp_parse_async_event ASSERT(sptr->spc_length <= sz); /* No buffer overrun */ i = LOAD_ATOM (spec, i, am_sctp_paddr_change); - i = load_ip_and_port(spec, i, desc, &sptr->spc_aaddr); + i = load_inet_get_address(spec, i, desc, &sptr->spc_aaddr); switch (sptr->spc_state) { @@ -3617,18 +3659,12 @@ static int packet_binary_message i = LOAD_ATOM(spec, i, am_udp ); /* UDP only */ # endif i = LOAD_PORT(spec, i, desc->dport); /* S */ - - alen = addrlen(desc->sfamily, data+3); - i = load_ip_address(spec, i, desc->sfamily, data+3); - i = load_ip_port(spec, i, data+1); /* IP, Port */ - -# ifdef HAVE_SYS_UN_H - /* AF_LOCAL addresses have a prefix byte containing address length */ - if (desc->sfamily == AF_LOCAL) - alen++; -# endif - offs += (alen + 3); - len -= (alen + 3); + + alen = addrlen(data); + i = load_address(spec, i, data); /* IP,Port | Family,Addr */ + + offs += alen; + len -= alen; # ifdef HAVE_SCTP if (!IS_SCTP(desc)) @@ -4015,6 +4051,7 @@ static int inet_init() # endif INIT_ATOM(ok); + INIT_ATOM(undefined); INIT_ATOM(tcp); #ifdef HAVE_UDP INIT_ATOM(udp); @@ -4031,6 +4068,7 @@ static int inet_init() #ifdef HAVE_UDP INIT_ATOM(udp_passive); INIT_ATOM(udp_error); + INIT_ATOM(local); #endif INIT_ATOM(empty_out_q); INIT_ATOM(ssl_tls); @@ -4043,7 +4081,6 @@ static int inet_init() INIT_ATOM(abs_path); INIT_ATOM(absoluteURI); am_star = driver_mk_atom("*"); - INIT_ATOM(undefined); INIT_ATOM(http); INIT_ATOM(https); INIT_ATOM(scheme); @@ -4139,7 +4176,7 @@ static int inet_init() /* -** Set a inaddr structure: +** Set an inaddr structure: ** src = [P1,P0,X1,X2,.....] ** dst points to a structure large enugh to keep any kind ** of inaddr. @@ -4180,13 +4217,15 @@ static char* inet_set_address(int family, inet_address* dst, } #endif #ifdef HAVE_SYS_UN_H - else if ((family == AF_LOCAL) && (*len >= 3+sizeof(struct sockaddr_un))) { - int n = *((unsigned char*)src+2); - dst->sal.sun_family = family; - sys_memcpy(dst->sal.sun_path, src+3, n); - dst->sal.sun_path[n-1] = '\0'; - *len = n; - return src + 3 + n; + else if ((family == AF_LOCAL) && (*len >= 1)) { + int n = *((unsigned char*)src); + if ((*len < 1+n) || (sizeof(dst->sal.sun_path) < n+1)) + return NULL; + sys_memzero((char*)dst, sizeof(struct sockaddr_un)); + dst->sal.sun_family = family; + sys_memcpy(dst->sal.sun_path, src+1, n); + *len = offsetof(struct sockaddr_un, sun_path) + n; + return src + 1 + n; } #endif return NULL; @@ -4217,17 +4256,8 @@ static char *inet_set_faddress(int family, inet_address* dst, # endif # ifdef HAVE_SYS_UN_H case INET_AF_LOCAL: { - int n; - if (*len || *len < 3) return NULL; - family = AF_LOCAL; - /* Next two bytes are the length of the local path (< 256) */ - src++; - n = *(unsigned char*)src++; - if (n+3 > *len) return NULL; - dst->sal.sun_family = family; - sys_memcpy(dst->sal.sun_path, src, n); - *len = n; - break; + family = AF_LOCAL; + break; } # endif case INET_AF_ANY: @@ -4303,6 +4333,7 @@ static char *inet_set_faddress(int family, inet_address* dst, */ static int inet_get_address(char* dst, inet_address* src, unsigned int* len) { + /* Compare the code with inet_address_to_erlang() */ int family; short port; @@ -4326,51 +4357,32 @@ static int inet_get_address(char* dst, inet_address* src, unsigned int* len) } #endif #ifdef HAVE_SYS_UN_H - else if ((family == AF_LOCAL) && *len > 0) { - int n = *len - 4; - dst[0] = INET_AF_LOCAL; - put_int16(0, dst+1); - if (n == 0 || n >= sizeof(src->sal.sun_path)) { - *(dst+3) = 0; - *len = 3+1; - } else { - *(dst+3) = n; - sys_memcpy(dst+4, src->sal.sun_path, n); - *len = 3+1+n; - } - return 0; - } + else if (family == AF_LOCAL) { + size_t n, m; + if (*len < offsetof(struct sockaddr_un, sun_path)) return -1; + n = *len - offsetof(struct sockaddr_un, sun_path); + if (255 < n) return -1; + /* Portability fix: Assume that the address is a zero terminated + * string, except when the first byte is \0 i.e the + * string length is 0. Then use the reported length instead. + * This fix handles Linux's abstract socket address + * nonportable extension. + */ + m = my_strnlen(src->sal.sun_path, n); + if ((m == 0) && is_nonzero(src->sal.sun_path, n)) + m = n; + dst[0] = INET_AF_LOCAL; + dst[1] = (char) ((unsigned char) m); + sys_memcpy(dst+2, src->sal.sun_path, m); + *len = 1 + 1 + m; + return 0; + } #endif - return -1; -} - -static int inet_family_get_address(inet_descriptor* desc, char* dst, inet_address* src, unsigned int* len) -{ -#ifdef HAVE_SYS_UN_H - if (desc->sfamily == AF_LOCAL) { - int n = *len - 4; - dst[0] = INET_AF_LOCAL; - put_int16(0, dst+1); - if (n <= 0 || n >= sizeof(src->sal.sun_path)) { - if (desc->name_ptr) { - char* p = desc->name_ptr->sal.sun_path; - n = strlen(p); - *(dst+3) = n; - sys_memcpy(dst+4, p, n); - *len = 3+1+n; - } else { - *(dst+3) = 0; - *len = 3+1; - } - } else { - *(dst+3) = n; - sys_memcpy(dst+4, src->sal.sun_path, n); - *len = 3+1+n; - } - return 0; + else { + dst[0] = INET_AF_UNDEFINED; + *len = 1; } -#endif - return inet_get_address(dst, src, len); + return -1; } /* Same as the above, but take family from the address structure, @@ -4378,7 +4390,9 @@ static int inet_family_get_address(inet_descriptor* desc, char* dst, inet_addres ** according to the size of the current, ** and return the resulting encoded size */ -static int inet_address_to_erlang(char *dst, inet_address **src) { +static int +inet_address_to_erlang(char *dst, inet_address **src, SOCKLEN_T sz) { + /* Compare the code with inet_get_address() */ short port; switch ((*src)->sa.sa_family) { @@ -4405,15 +4419,26 @@ static int inet_address_to_erlang(char *dst, inet_address **src) { #endif #ifdef HAVE_SYS_UN_H case AF_LOCAL: { - int n = strlen((*src)->sal.sun_path); + size_t n, m; + if (sz < offsetof(struct sockaddr_un, sun_path)) return -1; + n = sz - offsetof(struct sockaddr_un, sun_path); + if (255 < n) return -1; + /* Portability fix: Assume that the address is a zero terminated + * string, except when the first byte is \0 i.e the + * string length is 0. Then use the reported length instead. + * This fix handles Linux's abstract socket address + * nonportable extension. + */ + m = my_strnlen((*src)->sal.sun_path, n); + if ((m == 0) && is_nonzero((*src)->sal.sun_path, n)) + m = n; if (dst) { dst[0] = INET_AF_LOCAL; - put_int16(0, dst+1); - *(dst+3) = n; - sys_memcpy(dst+1+2+1, (*src)->sal.sun_path, n); + dst[1] = (char) ((unsigned char) m); + sys_memcpy(dst+2, (*src)->sal.sun_path, m); } (*src) = (inet_address *) (&(*src)->sal + 1); - return 1+2+1+n; + return 1 + 1 + m; } #endif default: @@ -4424,7 +4449,7 @@ static int inet_address_to_erlang(char *dst, inet_address **src) { /* Encode n encoded addresses from addrs in the result buffer */ static ErlDrvSizeT reply_inet_addrs -(int n, inet_address *addrs, char **rbuf, ErlDrvSizeT rsize) { +(int n, inet_address *addrs, char **rbuf, ErlDrvSizeT rsize, SOCKLEN_T sz) { inet_address *ia; int i, s; ErlDrvSizeT rlen; @@ -4432,11 +4457,19 @@ static ErlDrvSizeT reply_inet_addrs if (IS_SOCKET_ERROR(n)) return ctl_error(sock_errno(), rbuf, rsize); if (n == 0) return ctl_reply(INET_REP_OK, NULL, 0, rbuf, rsize); + /* The sz argument is only used when we have got an actual size + * of addrs[0] from e.g getsockname() and then n == 1 + * so we will loop over 1 element below. Otherwise sz + * would be expected to differ between addresses but that + * can only happen for AF_LOCAL and we will only be called with + * n > 1 for SCTP and that will never (?) happen with AF_LOCAL + */ + /* Calculate result length */ rlen = 1; ia = addrs; for (i = 0; i < n; i++) { - s = inet_address_to_erlang(NULL, &ia); + s = inet_address_to_erlang(NULL, &ia, sz); if (s < 0) break; rlen += s; } @@ -4447,7 +4480,7 @@ static ErlDrvSizeT reply_inet_addrs rlen = 1; ia = addrs; for (i = 0; i < n; i++) { - s = inet_address_to_erlang((*rbuf)+rlen, &ia); + s = inet_address_to_erlang((*rbuf)+rlen, &ia, sz); if (s < 0) break; rlen += s; } @@ -4511,8 +4544,7 @@ static void desc_close_read(inet_descriptor* desc) static int erl_inet_close(inet_descriptor* desc) { free_subscribers(&desc->empty_out_q_subs); - if ((desc->prebound == 0 || desc->sfamily == AF_LOCAL) && - (desc->state & INET_F_OPEN)) { + if ((desc->prebound == 0) && (desc->state & INET_F_OPEN)) { desc_close(desc); desc->state = INET_STATE_CLOSED; } else if (desc->prebound && (desc->s != INVALID_SOCKET)) { @@ -4589,6 +4621,7 @@ static ErlDrvSSizeT inet_ctl_open(inet_descriptor* desc, int domain, int type, char** rbuf, ErlDrvSizeT rsize) { int save_errno; + int protocol; #ifdef HAVE_SETNS int current_ns, new_ns; current_ns = new_ns = 0; @@ -4627,7 +4660,11 @@ static ErlDrvSSizeT inet_ctl_open(inet_descriptor* desc, int domain, int type, } } #endif - if ((desc->s = sock_open(domain, type, desc->sprotocol)) == INVALID_SOCKET) + protocol = desc->sprotocol; +#ifdef HAVE_SYS_UN_H + if (domain == AF_LOCAL) protocol = 0; +#endif + if ((desc->s = sock_open(domain, type, protocol)) == INVALID_SOCKET) save_errno = sock_errno(); #ifdef HAVE_SETNS if (desc->netns != NULL) { @@ -4692,13 +4729,6 @@ static ErlDrvSSizeT inet_ctl_fdopen(inet_descriptor* desc, int domain, int type, return ctl_error(sock_errno(), rbuf, rsize); if (name.sa.sa_family != domain) return ctl_error(EINVAL, rbuf, rsize); -#ifdef HAVE_SYS_UN_H - if (domain == AF_LOCAL) { - sys_memcpy(&desc->name_addr, &name, sizeof(desc->name_addr)); - if (desc->name_ptr == NULL) - desc->name_ptr = &desc->name_addr; - } -#endif } #ifdef __OSE__ /* for fdopen duplicating the sd will allow to uniquely identify @@ -7550,14 +7580,14 @@ static ErlDrvSSizeT inet_fill_opts(inet_descriptor* desc, #ifdef HAVE_SCTP #define LOAD_PADDRINFO_CNT \ - (2*LOAD_ATOM_CNT + LOAD_ASSOC_ID_CNT + LOAD_IP_AND_PORT_CNT + \ + (2*LOAD_ATOM_CNT + LOAD_ASSOC_ID_CNT + LOAD_INET_GET_ADDRESS_CNT + \ 4*LOAD_INT_CNT + LOAD_TUPLE_CNT) static int load_paddrinfo (ErlDrvTermData * spec, int i, inet_descriptor* desc, struct sctp_paddrinfo* pai) { i = LOAD_ATOM (spec, i, am_sctp_paddrinfo); i = LOAD_ASSOC_ID (spec, i, pai->spinfo_assoc_id); - i = load_ip_and_port(spec, i, desc, &pai->spinfo_address); + i = load_inet_get_address(spec, i, desc, &pai->spinfo_address); switch(pai->spinfo_state) { case SCTP_ACTIVE: @@ -7973,7 +8003,7 @@ static ErlDrvSSizeT sctp_fill_opts(inet_descriptor* desc, /* Fill in the response: */ PLACE_FOR(spec, i, 2*LOAD_ATOM_CNT + LOAD_ASSOC_ID_CNT + - LOAD_IP_AND_PORT_CNT + 2*LOAD_TUPLE_CNT); + LOAD_INET_GET_ADDRESS_CNT + 2*LOAD_TUPLE_CNT); switch (eopt) { case SCTP_OPT_PRIMARY_ADDR: i = LOAD_ATOM(spec, i, am_sctp_primary_addr); @@ -7987,7 +8017,7 @@ static ErlDrvSSizeT sctp_fill_opts(inet_descriptor* desc, ASSERT(0); } i = LOAD_ASSOC_ID (spec, i, sp.sspp_assoc_id); - i = load_ip_and_port(spec, i, desc, &sp.sspp_addr); + i = load_inet_get_address(spec, i, desc, &sp.sspp_addr); i = LOAD_TUPLE (spec, i, 3); i = LOAD_TUPLE (spec, i, 2); break; @@ -8034,11 +8064,11 @@ static ErlDrvSSizeT sctp_fill_opts(inet_descriptor* desc, /* Fill in the response: */ PLACE_FOR(spec, i, 2*LOAD_ATOM_CNT + LOAD_ASSOC_ID_CNT + - LOAD_IP_AND_PORT_CNT + 4*LOAD_INT_CNT); + LOAD_INET_GET_ADDRESS_CNT + 4*LOAD_INT_CNT); i = LOAD_ATOM (spec, i, am_sctp_peer_addr_params); i = LOAD_ATOM (spec, i, am_sctp_paddrparams); i = LOAD_ASSOC_ID (spec, i, ap.spp_assoc_id); - i = load_ip_and_port(spec, i, desc, &ap.spp_address); + i = load_inet_get_address(spec, i, desc, &ap.spp_address); i = LOAD_INT (spec, i, ap.spp_hbinterval); i = LOAD_INT (spec, i, ap.spp_pathmaxrxt); @@ -8752,19 +8782,19 @@ static ErlDrvSSizeT inet_ctl(inet_descriptor* desc, int cmd, char* buf, assoc_id = get_int32(buf); n = p_sctp_getpaddrs(desc->s, assoc_id, &sa); - rlen = reply_inet_addrs(n, (inet_address *) sa, rbuf, rsize); + rlen = reply_inet_addrs(n, (inet_address *) sa, rbuf, rsize, 0); if (n > 0) p_sctp_freepaddrs(sa); return rlen; } #endif { /* Fallback to sock_peer */ inet_address addr; - unsigned int sz; + SOCKLEN_T sz; int i; sz = sizeof(addr); i = sock_peer(desc->s, (struct sockaddr *) &addr, &sz); - return reply_inet_addrs(i >= 0 ? 1 : i, &addr, rbuf, rsize); + return reply_inet_addrs(i >= 0 ? 1 : i, &addr, rbuf, rsize, sz); } } @@ -8772,15 +8802,21 @@ static ErlDrvSSizeT inet_ctl(inet_descriptor* desc, int cmd, char* buf, char tbuf[sizeof(inet_address)]; inet_address peer; inet_address* ptr; - unsigned int sz = sizeof(peer); + unsigned int sz; DEBUGF(("inet_ctl(%ld): PEER\r\n", (long)desc->port)); if (!(desc->state & INET_F_ACTIVE)) return ctl_error(ENOTCONN, rbuf, rsize); - if ((ptr = desc->peer_ptr) == NULL) { + if ((ptr = desc->peer_ptr) != NULL) { + sz = desc->peer_addr_len; + } + else { ptr = &peer; - if (IS_SOCKET_ERROR(sock_peer(desc->s, (struct sockaddr*)ptr,&sz))) + sz = sizeof(peer); + if (IS_SOCKET_ERROR + (sock_peer + (desc->s, (struct sockaddr*)ptr, &sz))) return ctl_error(sock_errno(), rbuf, rsize); } if (inet_get_address(tbuf, ptr, &sz) < 0) @@ -8795,11 +8831,12 @@ static ErlDrvSSizeT inet_ctl(inet_descriptor* desc, int cmd, char* buf, } else if (len < 2) return ctl_error(EINVAL, rbuf, rsize); - else if (inet_set_address(desc->sfamily, &desc->peer_addr, - buf, &len) == NULL) + else if (inet_set_faddress + (desc->sfamily, &desc->peer_addr, buf, &len) == NULL) return ctl_error(EINVAL, rbuf, rsize); else { desc->peer_ptr = &desc->peer_addr; + desc->peer_addr_len = (SOCKLEN_T) len; return ctl_reply(INET_REP_OK, NULL, 0, rbuf, rsize); } } @@ -8821,19 +8858,19 @@ static ErlDrvSSizeT inet_ctl(inet_descriptor* desc, int cmd, char* buf, assoc_id = get_int32(buf); n = p_sctp_getladdrs(desc->s, assoc_id, &sa); - rlen = reply_inet_addrs(n, (inet_address *) sa, rbuf, rsize); + rlen = reply_inet_addrs(n, (inet_address *) sa, rbuf, rsize, 0); if (n > 0) p_sctp_freeladdrs(sa); return rlen; } #endif { /* Fallback to sock_name */ inet_address addr; - unsigned int sz; + SOCKLEN_T sz; int i; sz = sizeof(addr); i = sock_name(desc->s, (struct sockaddr *) &addr, &sz); - return reply_inet_addrs(i >= 0 ? 1 : i, &addr, rbuf, rsize); + return reply_inet_addrs(i >= 0 ? 1 : i, &addr, rbuf, rsize, sz); } } @@ -8841,16 +8878,21 @@ static ErlDrvSSizeT inet_ctl(inet_descriptor* desc, int cmd, char* buf, char tbuf[sizeof(inet_address)]; inet_address name; inet_address* ptr; - unsigned int sz = sizeof(name); + unsigned int sz; DEBUGF(("inet_ctl(%ld): NAME\r\n", (long)desc->port)); if (!IS_BOUND(desc)) return ctl_error(EINVAL, rbuf, rsize); /* address is not valid */ - if ((ptr = desc->name_ptr) == NULL) { + if ((ptr = desc->name_ptr) != NULL) { + sz = desc->name_addr_len; + } + else { ptr = &name; - if (IS_SOCKET_ERROR(sock_name(desc->s, (struct sockaddr*)ptr, &sz))) + sz = sizeof(name); + if (IS_SOCKET_ERROR + (sock_name(desc->s, (struct sockaddr*)ptr, &sz))) return ctl_error(sock_errno(), rbuf, rsize); } if (inet_get_address(tbuf, ptr, &sz) < 0) @@ -8858,18 +8900,19 @@ static ErlDrvSSizeT inet_ctl(inet_descriptor* desc, int cmd, char* buf, return ctl_reply(INET_REP_OK, tbuf, sz, rbuf, rsize); } - case INET_REQ_SETNAME: { /* set fake peername Port Address */ + case INET_REQ_SETNAME: { /* set fake sockname Port Address */ if (len == 0) { desc->name_ptr = NULL; return ctl_reply(INET_REP_OK, NULL, 0, rbuf, rsize); } else if (len < 2) return ctl_error(EINVAL, rbuf, rsize); - else if (inet_set_address(desc->sfamily, &desc->name_addr, - buf, &len) == NULL) + else if (inet_set_faddress + (desc->sfamily, &desc->name_addr, buf, &len) == NULL) return ctl_error(EINVAL, rbuf, rsize); else { desc->name_ptr = &desc->name_addr; + desc->name_addr_len = (SOCKLEN_T) len; return ctl_reply(INET_REP_OK, NULL, 0, rbuf, rsize); } } @@ -8877,7 +8920,7 @@ static ErlDrvSSizeT inet_ctl(inet_descriptor* desc, int cmd, char* buf, case INET_REQ_BIND: { /* bind socket */ char tbuf[2]; inet_address local; - short port; + int port; DEBUGF(("inet_ctl(%ld): BIND\r\n", (long)desc->port)); @@ -8894,13 +8937,14 @@ static ErlDrvSSizeT inet_ctl(inet_descriptor* desc, int cmd, char* buf, desc->state = INET_STATE_BOUND; - if ((port = inet_address_port(&local)) == 0) { + port = inet_address_port(&local); + if (port == 0) { SOCKLEN_T adrlen = sizeof(local); sock_name(desc->s, &local.sa, &adrlen); port = inet_address_port(&local); } - port = sock_ntohs(port); - put_int16(port, tbuf); + else if (port == -1) port = 0; + put_int16(sock_ntohs((Uint16) port), tbuf); return ctl_reply(INET_REP_OK, tbuf, 2, rbuf, rsize); } @@ -9469,8 +9513,8 @@ static ErlDrvSSizeT tcp_inet_ctl(ErlDrvData e, unsigned int cmd, timeout = get_int32(buf); buf += 4; len -= 4; - if (inet_set_address(desc->inet.sfamily, &desc->inet.remote, - buf, &len) == NULL) + if (inet_set_faddress + (desc->inet.sfamily, &desc->inet.remote, buf, &len) == NULL) return ctl_error(EINVAL, rbuf, rsize); code = sock_connect(desc->inet.s, @@ -11529,6 +11573,9 @@ static ErlDrvSSizeT packet_inet_ctl(ErlDrvData e, unsigned int cmd, char* buf, return ctl_xerror("eafnosupport", rbuf, rsize); break; #endif +#ifdef HAVE_SYS_UN_H + case INET_AF_LOCAL: af = AF_LOCAL; break; +#endif default: return ctl_error(EINVAL, rbuf, rsize); } @@ -11611,7 +11658,7 @@ static ErlDrvSSizeT packet_inet_ctl(ErlDrvData e, unsigned int cmd, char* buf, /* For SCTP, we do not set the peer's addr in desc->remote, as multiple peers are possible: */ - if (inet_set_address(desc->sfamily, &remote, buf, &len) == NULL) + if (inet_set_faddress(desc->sfamily, &remote, buf, &len) == NULL) return ctl_error(EINVAL, rbuf, rsize); sock_select(desc, FD_CONNECT, 1); @@ -11651,8 +11698,8 @@ static ErlDrvSSizeT packet_inet_ctl(ErlDrvData e, unsigned int cmd, char* buf, /* Ignore timeout */ buf += 4; len -= 4; - if (inet_set_address(desc->sfamily, - &desc->remote, buf, &len) == NULL) + if (inet_set_faddress + (desc->sfamily, &desc->remote, buf, &len) == NULL) return ctl_error(EINVAL, rbuf, rsize); code = sock_connect(desc->s, @@ -11832,12 +11879,12 @@ static void packet_inet_timeout(ErlDrvData e) /* THIS IS A "send*" REQUEST; on the Erlang side: "port_command". -** input should be: P1 P0 Address buffer . +** input should be: Family Address buffer . ** For UDP, buffer (after Address) is just data to be sent. ** For SCTP, buffer contains a list representing 2 items: ** (1) 6 parms for sctp_sndrcvinfo, as in sctp_get_sendparams(); ** (2) 0+ real data bytes. -** There is no destination address -- SCTYP send is performed over +** There is no destination address -- SCTP send is performed over ** an existing association, using "sctp_sndrcvinfo" specified. */ static void packet_inet_command(ErlDrvData e, char* buf, ErlDrvSizeT len) @@ -11912,7 +11959,7 @@ static void packet_inet_command(ErlDrvData e, char* buf, ErlDrvSizeT len) /* UDP socket. Even if it is connected, there is an address prefix here -- ignored for connected sockets: */ sz = len; - qtr = inet_set_address(desc->sfamily, &other, ptr, &sz); + qtr = inet_set_faddress(desc->sfamily, &other, ptr, &sz); if (qtr == NULL) { inet_reply_error(desc, EINVAL); return; @@ -12090,7 +12137,7 @@ static int packet_inet_input(udp_descriptor* udesc, HANDLE event) inet_input_count(desc, n); udesc->i_ptr += n; - inet_family_get_address(desc, abuf, &other, &len); + inet_get_address(abuf, &other, &len); /* Copy formatted address to the buffer allocated; "len" is the actual length which must be <= than the original reserved. This means that the addr + data in the buffer are contiguous, @@ -12624,9 +12671,8 @@ int erts_sock_connect(erts_sock_t socket, byte *ip_addr, int len, Uint16 port) if (!inet_set_address(AF_INET, &addr, buf, &blen)) return 0; - if (IS_SOCKET_ERROR(sock_connect(s, - (struct sockaddr *) &addr, - sizeof(struct sockaddr_in)))) + if (IS_SOCKET_ERROR + (sock_connect(s, (struct sockaddr *) &addr, blen))) return 0; return 1; } diff --git a/erts/preloaded/ebin/prim_inet.beam b/erts/preloaded/ebin/prim_inet.beam Binary files differindex 72065661c5..1e2ba02ec2 100644 --- a/erts/preloaded/ebin/prim_inet.beam +++ b/erts/preloaded/ebin/prim_inet.beam diff --git a/erts/preloaded/src/prim_inet.erl b/erts/preloaded/src/prim_inet.erl index 4659448221..c6434fd83b 100644 --- a/erts/preloaded/src/prim_inet.erl +++ b/erts/preloaded/src/prim_inet.erl @@ -1,7 +1,7 @@ %% %% %CopyrightBegin% %% -%% Copyright Ericsson AB 2000-2013. All Rights Reserved. +%% Copyright Ericsson AB 2000-2016. All Rights Reserved. %% %% Licensed under the Apache License, Version 2.0 (the "License"); %% you may not use this file except in compliance with the License. @@ -76,7 +76,7 @@ fdopen(Protocol, Family, Type, Fd) when is_integer(Fd) -> fdopen(Protocol, Family, Type, Fd, true). fdopen(Protocol, Family, Type, Fd, Bound) - when is_integer(Fd), Bound == true orelse Bound == false -> + when is_integer(Fd), is_boolean(Bound) -> open(Protocol, Family, Type, [], ?INET_REQ_FDOPEN, [?int32(Fd), enc_value_2(bool, Bound)]). @@ -192,41 +192,52 @@ close_port(S) -> %% %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% -bind(S,IP,Port) when is_port(S), is_integer(Port), Port >= 0, Port =< 65535 -> - case ctl_cmd(S,?INET_REQ_BIND,enc_value(set, addr, {IP,Port})) of - {ok, [P1,P0]} -> {ok, ?u16(P1, P0)}; - {error,_}=Error -> Error - end; - %% Multi-homed "bind": sctp_bindx(). The Op is 'add' or 'remove'. %% If no addrs are specified, it just does nothing. %% Function returns {ok, S} on success, unlike TCP/UDP "bind": -bind(S, Op, Addrs) when is_port(S), is_list(Addrs) -> - case Op of - add -> - bindx(S, 1, Addrs); - remove -> - bindx(S, 0, Addrs); - _ -> {error, einval} +bind(S, add, Addrs) when is_port(S), is_list(Addrs) -> + bindx(S, 1, Addrs); +bind(S, remove, Addrs) when is_port(S), is_list(Addrs) -> + bindx(S, 0, Addrs); +bind(S, Addr, _) when is_port(S), tuple_size(Addr) =:= 2 -> + case type_value(set, addr, Addr) of + true -> + case ctl_cmd(S,?INET_REQ_BIND,enc_value(set, addr, Addr)) of + {ok, [P1,P0]} -> {ok, ?u16(P1, P0)}; + {error, _} = Error -> Error + end; + false -> + {error, einval} end; -bind(_, _, _) -> {error, einval}. +bind(S, IP, Port) -> + bind(S, {IP, Port}, 0). bindx(S, AddFlag, Addrs) -> case getprotocol(S) of sctp -> - %% Really multi-homed "bindx". Stringified args: - %% [AddFlag, (AddrBytes see enc_value_2(addr,X))+]: - Args = - [?int8(AddFlag)| - [enc_value(set, addr, {IP,Port}) || - {IP, Port} <- Addrs]], - case ctl_cmd(S, ?SCTP_REQ_BINDX, Args) of - {ok,_} -> {ok, S}; - {error,_}=Error -> Error + case bindx_check_addrs(Addrs) of + true -> + %% Really multi-homed "bindx". Stringified args: + %% [AddFlag, (AddrBytes see enc_value_2(addr,X))+]: + Args = + [?int8(AddFlag)| + [enc_value(set, addr, Addr) || Addr <- Addrs]], + case ctl_cmd(S, ?SCTP_REQ_BINDX, Args) of + {ok, _} -> {ok, S}; + {error, _}=Error -> Error + end; + false -> + {error, einval} end; - _ -> {error, einval} + _ -> + {error, einval} end. +bindx_check_addrs([Addr|Addrs]) -> + type_value(set, addr, Addr) andalso bindx_check_addrs(Addrs); +bindx_check_addrs([]) -> + true. + %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% %% CONNECT(insock(), IP, Port [,Timeout]) -> ok | {error, Reason} @@ -245,14 +256,24 @@ bindx(S, AddFlag, Addrs) -> %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% For TCP, UDP or SCTP sockets. %% -connect(S, IP, Port) -> connect0(S, IP, Port, -1). -connect(S, IP, Port, infinity) -> connect0(S, IP, Port, -1); -connect(S, IP, Port, Time) -> connect0(S, IP, Port, Time). +connect(S, IP, Port) -> + connect(S, IP, Port, infinity). +%% +connect(S, Addr, _, Time) when is_port(S), tuple_size(Addr) =:= 2 -> + case type_value(set, addr, Addr) of + true when Time =:= infinity -> + connect0(S, Addr, -1); + true when is_integer(Time) -> + connect0(S, Addr, Time); + false -> + {error, einval} + end; +connect(S, IP, Port, Time) -> + connect(S, {IP, Port}, 0, Time). -connect0(S, IP, Port, Time) when is_port(S), Port > 0, Port =< 65535, - is_integer(Time) -> - case async_connect(S, IP, Port, Time) of +connect0(S, Addr, Time) -> + case async_connect0(S, Addr, Time) of {ok, S, Ref} -> receive {inet_async, S, Ref, Status} -> @@ -261,11 +282,27 @@ connect0(S, IP, Port, Time) when is_port(S), Port > 0, Port =< 65535, Error -> Error end. + +async_connect(S, Addr, _, Time) when is_port(S), tuple_size(Addr) =:= 2 -> + case type_value(set, addr, Addr) of + true when Time =:= infinity -> + async_connect0(S, Addr, -1); + true when is_integer(Time) -> + async_connect0(S, Addr, Time); + false -> + {error, einval} + end; +%% async_connect(S, IP, Port, Time) -> - case ctl_cmd(S, ?INET_REQ_CONNECT, - [enc_time(Time),?int16(Port),ip_to_bytes(IP)]) of + async_connect(S, {IP, Port}, 0, Time). + +async_connect0(S, Addr, Time) -> + case ctl_cmd( + S, ?INET_REQ_CONNECT, + [enc_time(Time),enc_value(set, addr, Addr)]) + of {ok, [R1,R0]} -> {ok, S, ?u16(R1,R0)}; - {error,_}=Error -> Error + {error, _}=Error -> Error end. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% @@ -403,20 +440,34 @@ send(S, Data) -> %% "sendto" is for UDP. IP and Port are set by the caller to 0 if the socket %% is known to be connected. -sendto(S, IP, Port, Data) when is_port(S), Port >= 0, Port =< 65535 -> - ?DBG_FORMAT("prim_inet:sendto(~p, ~p, ~p, ~p)~n", [S,IP,Port,Data]), - try erlang:port_command(S, [?int16(Port),ip_to_bytes(IP),Data]) of - true -> - receive - {inet_reply,S,Reply} -> - ?DBG_FORMAT("prim_inet:sendto() -> ~p~n", [Reply]), - Reply - end - catch - error:_ -> - ?DBG_FORMAT("prim_inet:sendto() -> {error,einval}~n", []), - {error,einval} - end. +sendto(S, Addr, _, Data) when is_port(S), tuple_size(Addr) =:= 2 -> + case type_value(set, addr, Addr) of + true -> + ?DBG_FORMAT("prim_inet:sendto(~p, ~p, ~p)~n", [S,Addr,Data]), + try + erlang:port_command(S, [enc_value(set, addr, Addr),Data]) + of + true -> + receive + {inet_reply,S,Reply} -> + ?DBG_FORMAT( + "prim_inet:sendto() -> ~p~n", [Reply]), + Reply + end + catch + error:_ -> + ?DBG_FORMAT( + "prim_inet:sendto() -> {error,einval}~n", []), + {error,einval} + end; + false -> + ?DBG_FORMAT( + "prim_inet:sendto() -> {error,einval}~n", []), + {error,einval} + end; +sendto(S, IP, Port, Data) -> + sendto(S, {IP, Port}, 0, Data). + %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %% @@ -487,29 +538,37 @@ async_recv(S, Length, Time) -> %% oriented: preserved here only for API compatibility. %% recvfrom(S, Length) -> - recvfrom0(S, Length, -1). + recvfrom(S, Length, infinity). -recvfrom(S, Length, infinity) -> +recvfrom(S, Length, infinity) when is_port(S) -> recvfrom0(S, Length, -1); -recvfrom(S, Length, Time) when is_integer(Time), Time < 16#ffffffff -> - recvfrom0(S, Length, Time); -recvfrom(_, _, _) -> {error,einval}. +recvfrom(S, Length, Time) when is_port(S) -> + if + is_integer(Time), 0 =< Time, Time < 16#ffffffff -> + recvfrom0(S, Length, Time); + true -> + {error, einval} + end. recvfrom0(S, Length, Time) - when is_port(S), is_integer(Length), Length >= 0, Length =< 16#ffffffff -> + when is_integer(Length), 0 =< Length, Length =< 16#ffffffff -> case ctl_cmd(S, ?PACKET_REQ_RECV,[enc_time(Time),?int32(Length)]) of {ok,[R1,R0]} -> Ref = ?u16(R1,R0), receive % Success, UDP: - {inet_async, S, Ref, {ok, [F,P1,P0 | AddrData]}} -> - {IP,Data} = get_ip(F, AddrData), - {ok, {IP, ?u16(P1,P0), Data}}; + {inet_async, S, Ref, {ok, [F | AddrData]}} -> + case get_addr(F, AddrData) of + {{Family, _} = Addr, Data} when is_atom(Family) -> + {ok, {Addr, 0, Data}}; + {{IP, Port}, Data} -> + {ok, {IP, Port, Data}} + end; % Success, SCTP: {inet_async, S, Ref, {ok, {[F,P1,P0 | Addr], AncData, DE}}} -> - {IP, _} = get_ip(F, Addr), - {ok, {IP, ?u16(P1,P0), AncData, DE}}; + {IP, _} = get_ip(F, Addr), + {ok, {IP, ?u16(P1, P0), AncData, DE}}; % Back-end error: {inet_async, S, Ref, Error={error, _}} -> @@ -528,21 +587,26 @@ recvfrom0(_, _, _) -> {error,einval}. peername(S) when is_port(S) -> case ctl_cmd(S, ?INET_REQ_PEER, []) of - {ok, [F, P1,P0 | Addr]} -> - {IP, _} = get_ip(F, Addr), - {ok, { IP, ?u16(P1, P0) }}; - {error,_}=Error -> Error + {ok, [F | Addr]} -> + {A, _} = get_addr(F, Addr), + {ok, A}; + {error, _} = Error -> Error end. -setpeername(S, {IP,Port}) when is_port(S) -> - case ctl_cmd(S, ?INET_REQ_SETPEER, [?int16(Port),ip_to_bytes(IP)]) of - {ok,[]} -> ok; - {error,_}=Error -> Error - end; setpeername(S, undefined) when is_port(S) -> case ctl_cmd(S, ?INET_REQ_SETPEER, []) of - {ok,[]} -> ok; - {error,_}=Error -> Error + {ok, []} -> ok; + {error, _} = Error -> Error + end; +setpeername(S, Addr) when is_port(S) -> + case type_value(set, addr, Addr) of + true -> + case ctl_cmd(S, ?INET_REQ_SETPEER, enc_value(set, addr, Addr)) of + {ok, []} -> ok; + {error, _} = Error -> Error + end; + false -> + {error, einval} end. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% @@ -583,21 +647,28 @@ peernames(S, AssocId) sockname(S) when is_port(S) -> case ctl_cmd(S, ?INET_REQ_NAME, []) of - {ok, [F, P1, P0 | Addr]} -> - {IP, _} = get_ip(F, Addr), - {ok, { IP, ?u16(P1, P0) }}; - {error,_}=Error -> Error + {ok, [F | Addr]} -> + {A, _} = get_addr(F, Addr), + {ok, A}; + {error, _} = Error -> Error end. -setsockname(S, {IP,Port}) when is_port(S) -> - case ctl_cmd(S, ?INET_REQ_SETNAME, [?int16(Port),ip_to_bytes(IP)]) of - {ok,[]} -> ok; - {error,_}=Error -> Error - end; setsockname(S, undefined) when is_port(S) -> case ctl_cmd(S, ?INET_REQ_SETNAME, []) of - {ok,[]} -> ok; - {error,_}=Error -> Error + {ok, []} -> ok; + {error, _} = Error -> Error + end; +setsockname(S, Addr) when is_port(S) -> + case type_value(set, addr, Addr) of + true -> + case + ctl_cmd(S, ?INET_REQ_SETNAME, enc_value(set, addr, Addr)) + of + {ok, []} -> ok; + {error, _} = Error -> Error + end; + false -> + {error, einval} end. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% @@ -1499,14 +1570,49 @@ type_value_2(uint8, X) when X band 16#ff =:= X -> true; type_value_2(time, infinity) -> true; type_value_2(time, X) when is_integer(X), X >= 0 -> true; type_value_2(ip,{A,B,C,D}) when ?ip(A,B,C,D) -> true; +%% type_value_2(addr, {any,Port}) -> type_value_2(uint16, Port); type_value_2(addr, {loopback,Port}) -> type_value_2(uint16, Port); -type_value_2(addr, {{A,B,C,D},Port}) when ?ip(A,B,C,D) -> +type_value_2(addr, {IP,_} = Addr) when tuple_size(IP) =:= 4 -> + type_value_2(addr, {inet,Addr}); +type_value_2(addr, {IP,_} = Addr) when tuple_size(IP) =:= 8 -> + type_value_2(addr, {inet6,Addr}); +type_value_2(addr, {Local,_}) when is_list(Local); is_binary(Local) -> + type_value_2(addr, {local,Local}); +%% +type_value_2(addr, {Family,{Tag,Port}}) + when (Family =:= inet orelse Family =:= inet6) andalso + (Tag =:= any orelse Tag =:= loopback) -> + type_value_2(uint16, Port); +type_value_2(addr, {inet,{{A,B,C,D},Port}}) + when ?ip(A,B,C,D) -> type_value_2(uint16, Port); -type_value_2(addr, {{A,B,C,D,E,F,G,H},Port}) when ?ip6(A,B,C,D,E,F,G,H) -> +type_value_2(addr, {inet6,{{A,B,C,D,E,F,G,H},Port}}) + when ?ip6(A,B,C,D,E,F,G,H) -> type_value_2(uint16, Port); +type_value_2(addr, {local,Addr}) -> + if + is_binary(Addr) -> + byte_size(Addr) =< 255; + true -> + try + %% We either get a badarg from byte_size + %% or from characters_to_binary + byte_size( + unicode:characters_to_binary( + Addr, file:native_name_encoding())) + of + N when N =< 255 -> + true; + _ -> + false + catch error:badarg -> + false + end + end; +%% type_value_2(ether,[X1,X2,X3,X4,X5,X6]) when ?ether(X1,X2,X3,X4,X5,X6) -> true; type_value_2({enum,List}, Enum) -> @@ -1614,6 +1720,7 @@ enc_value_2(time, Val) -> ?int32(Val); enc_value_2(ip,{A,B,C,D}) -> [A,B,C,D]; enc_value_2(ip, any) -> [0,0,0,0]; enc_value_2(ip, loopback) -> [127,0,0,1]; +%% enc_value_2(addr, {any,Port}) -> [?INET_AF_ANY|?int16(Port)]; enc_value_2(addr, {loopback,Port}) -> @@ -1622,8 +1729,35 @@ enc_value_2(addr, {IP,Port}) when tuple_size(IP) =:= 4 -> [?INET_AF_INET,?int16(Port)|ip4_to_bytes(IP)]; enc_value_2(addr, {IP,Port}) when tuple_size(IP) =:= 8 -> [?INET_AF_INET6,?int16(Port)|ip6_to_bytes(IP)]; -enc_value_2(addr, {File,0}) when is_list(File) -> - [?INET_AF_LOCAL,0,0,length(File)|File]; +enc_value_2(addr, {File,_}) when is_list(File); is_binary(File) -> + [?INET_AF_LOCAL,iolist_size(File)|File]; +%% +enc_value_2(addr, {inet,{any,Port}}) -> + [?INET_AF_INET,?int16(Port),0,0,0,0]; +enc_value_2(addr, {inet,{loopback,Port}}) -> + [?INET_AF_INET,?int16(Port),127,0,0,1]; +enc_value_2(addr, {inet,{IP,Port}}) -> + [?INET_AF_INET,?int16(Port)|ip4_to_bytes(IP)]; +enc_value_2(addr, {inet6,{any,Port}}) -> + [?INET_AF_INET6,?int16(Port),0,0,0,0,0,0,0,0]; +enc_value_2(addr, {inet6,{loopback,Port}}) -> + [?INET_AF_INET6,?int16(Port),0,0,0,0,0,0,0,1]; +enc_value_2(addr, {inet6,{IP,Port}}) -> + [?INET_AF_INET6,?int16(Port)|ip6_to_bytes(IP)]; +enc_value_2(addr, {local,Addr}) -> + %% A binary is passed as is, but anything else will be + %% regarded as a filename and therefore UTF-8 encoded + %% if the system filename encoding flag so dictates. + Bin = + if + is_binary(Addr) -> + Addr; + true -> + unicode:characters_to_binary( + Addr, file:native_name_encoding()) + end, + [?INET_AF_LOCAL,byte_size(Bin)|Bin]; +%% enc_value_2(ether, [_,_,_,_,_,_]=Xs) -> Xs; enc_value_2(sockaddr, any) -> [?INET_AF_ANY]; @@ -1633,8 +1767,6 @@ enc_value_2(sockaddr, IP) when tuple_size(IP) =:= 4 -> [?INET_AF_INET|ip4_to_bytes(IP)]; enc_value_2(sockaddr, IP) when tuple_size(IP) =:= 8 -> [?INET_AF_INET6|ip6_to_bytes(IP)]; -enc_value_2(sockaddr, File) when is_list(File) -> - [?INET_AF_LOCAL,0,0,length(File)|File]; enc_value_2(linkaddr, Linkaddr) -> [?int16(length(Linkaddr)),Linkaddr]; enc_value_2(sctp_assoc_id, Val) -> ?int32(Val); @@ -2256,9 +2388,6 @@ utf8_to_characters(Bs, U, 0) -> utf8_to_characters([B|Bs], U, N) when ((B band 16#3F) bor 16#80) =:= B -> utf8_to_characters(Bs, (U bsl 6) bor (B band 16#3F), N-1). -ip_to_bytes(IP) when tuple_size(IP) =:= 4 -> ip4_to_bytes(IP); -ip_to_bytes(IP) when tuple_size(IP) =:= 8 -> ip6_to_bytes(IP). - ip4_to_bytes({A,B,C,D}) -> [A band 16#ff, B band 16#ff, C band 16#ff, D band 16#ff]. @@ -2268,20 +2397,32 @@ ip6_to_bytes({A,B,C,D,E,F,G,H}) -> get_addrs([]) -> []; -get_addrs([F,P1,P0|Addr]) -> - {IP,Addrs} = get_ip(F, Addr), - [{IP,?u16(P1, P0)}|get_addrs(Addrs)]. - -get_ip(?INET_AF_INET, Addr) -> get_ip4(Addr); -get_ip(?INET_AF_INET6, Addr) -> get_ip6(Addr); -get_ip(?INET_AF_LOCAL, [0]) -> {[], []}; -get_ip(?INET_AF_LOCAL, [N | Addr]) -> lists:split(N, Addr). +get_addrs([F|Addrs]) -> + {Addr,Rest} = get_addr(F, Addrs), + [Addr|get_addrs(Rest)]. + +get_addr(?INET_AF_LOCAL, [0]) -> + {{local,<<>>},[]}; +get_addr(?INET_AF_LOCAL, [N|Addr]) -> + {A,Rest} = lists:split(N, Addr), + {{local,iolist_to_binary(A)},Rest}; +get_addr(?INET_AF_UNDEFINED, Rest) -> + {{undefined,0},Rest}; +get_addr(Family, [P1,P0|Addr]) -> + {IP,Rest} = get_ip(Family, Addr), + {{IP,?u16(P1, P0)},Rest}. + +get_ip(?INET_AF_INET, Addr) -> + get_ip4(Addr); +get_ip(?INET_AF_INET6, Addr) -> + get_ip6(Addr). get_ip4([A,B,C,D | T]) -> {{A,B,C,D},T}. get_ip6([X1,X2,X3,X4,X5,X6,X7,X8,X9,X10,X11,X12,X13,X14,X15,X16 | T]) -> { { ?u16(X1,X2),?u16(X3,X4),?u16(X5,X6),?u16(X7,X8), - ?u16(X9,X10),?u16(X11,X12),?u16(X13,X14),?u16(X15,X16)}, T}. + ?u16(X9,X10),?u16(X11,X12),?u16(X13,X14),?u16(X15,X16)}, + T }. %% Control command diff --git a/lib/kernel/src/inet_int.hrl b/lib/kernel/src/inet_int.hrl index 0a2201298a..6c9a23ff82 100644 --- a/lib/kernel/src/inet_int.hrl +++ b/lib/kernel/src/inet_int.hrl @@ -1,7 +1,7 @@ %% %% %CopyrightBegin% %% -%% Copyright Ericsson AB 1997-2013. All Rights Reserved. +%% Copyright Ericsson AB 1997-2016. All Rights Reserved. %% %% Licensed under the Apache License, Version 2.0 (the "License"); %% you may not use this file except in compliance with the License. @@ -30,6 +30,7 @@ -define(INET_AF_ANY, 3). % Fake for ANY in any address family -define(INET_AF_LOOPBACK, 4). % Fake for LOOPBACK in any address family -define(INET_AF_LOCAL, 5). % For Unix Domain address family +-define(INET_AF_UNDEFINED, 6). % For any unknown address family %% type codes to open and gettype - INET_REQ_GETTYPE -define(INET_TYPE_STREAM, 1). diff --git a/lib/kernel/test/inet_SUITE.erl b/lib/kernel/test/inet_SUITE.erl index 5ba06bb032..ccea6b2af4 100644 --- a/lib/kernel/test/inet_SUITE.erl +++ b/lib/kernel/test/inet_SUITE.erl @@ -1,7 +1,7 @@ %% %% %CopyrightBegin% %% -%% Copyright Ericsson AB 1997-2015. All Rights Reserved. +%% Copyright Ericsson AB 1997-2016. All Rights Reserved. %% %% Licensed under the Apache License, Version 2.0 (the "License"); %% you may not use this file except in compliance with the License. @@ -1036,12 +1036,12 @@ getifaddrs(Config) when is_list (Config) -> ?line [check_addr(Addr) || Addr <- Addrs], ok. -check_addr(Addr) +check_addr({addr,Addr}) when tuple_size(Addr) =:= 8, element(1, Addr) band 16#FFC0 =:= 16#FE80 -> ?line ?t:format("Addr: ~p link local; SKIPPED!~n", [Addr]), ok; -check_addr(Addr) -> +check_addr({addr,Addr}) -> ?line ?t:format("Addr: ~p.~n", [Addr]), ?line Ping = "ping", ?line Pong = "pong", @@ -1062,63 +1062,76 @@ check_addr(Addr) -> ifaddrs([]) -> []; ifaddrs([{If,Opts}|IOs]) -> - ?line #ifopts{flags=Flags} = Ifopts = - check_ifopts(Opts, #ifopts{name=If}), - ?line case Flags =/= undefined andalso lists:member(up, Flags) of - true -> + #ifopts{flags=F} = Ifopts = check_ifopts(Opts, #ifopts{name=If}), + case F of + {flags,Flags} -> + case lists:member(up, Flags) of + true -> Ifopts#ifopts.addrs; - false -> - [] - end++ifaddrs(IOs). + false -> + [] + end ++ ifaddrs(IOs); + undefined -> + ifaddrs(IOs) + end. -check_ifopts([], #ifopts{name=If,flags=Flags,addrs=Raddrs}=Ifopts) -> +check_ifopts([], #ifopts{flags=F,addrs=Raddrs}=Ifopts) -> Addrs = lists:reverse(Raddrs), R = Ifopts#ifopts{addrs=Addrs}, ?t:format("~p.~n", [R]), %% See how we did... - if is_list(Flags) -> ok; - true -> - ?t:fail({flags_undefined,If}) - end, + {flags,Flags} = F, case lists:member(broadcast, Flags) of true -> [case A of - {_,_,_} -> A; - {T,_} when tuple_size(T) =:= 8 -> A; - _ -> - ?t:fail({broaddr_missing,If,A}) + {{addr,_},{netmask,_},{broadaddr,_}} -> + A; + {{addr,T},{netmask,_}} when tuple_size(T) =:= 8 -> + A end || A <- Addrs]; false -> - [case A of {_,_} -> A; - _ -> - ?t:fail({should_have_netmask,If,A}) - end || A <- Addrs] + case lists:member(pointtopoint, Flags) of + true -> + [case A of + {{addr,_},{netmask,_},{dstaddr,_}} -> + A + end || A <- Addrs]; + false -> + [case A of + {{addr,_},{netmask,_}} -> + A + end || A <- Addrs] + end end, R; -check_ifopts([{flags,Flags}|Opts], #ifopts{flags=undefined}=Ifopts) -> - check_ifopts(Opts, Ifopts#ifopts{flags=Flags}); -check_ifopts([{flags,Fs}|Opts], #ifopts{flags=Flags}=Ifopts) -> - case Fs of +check_ifopts([{flags,_}=F|Opts], #ifopts{flags=undefined}=Ifopts) -> + check_ifopts(Opts, Ifopts#ifopts{flags=F}); +check_ifopts([{flags,_}=F|Opts], #ifopts{flags=Flags}=Ifopts) -> + case F of Flags -> - check_ifopts(Opts, Ifopts#ifopts{}); + check_ifopts(Opts, Ifopts); _ -> - ?t:fail({multiple_flags,Fs,Ifopts}) + ?t:fail({multiple_flags,F,Ifopts}) end; check_ifopts( - [{addr,Addr},{netmask,Netmask},{broadaddr,Broadaddr}|Opts], + [{addr,_}=A,{netmask,_}=N,{dstaddr,_}=D|Opts], + #ifopts{addrs=Addrs}=Ifopts) -> + check_ifopts(Opts, Ifopts#ifopts{addrs=[{A,N,D}|Addrs]}); +check_ifopts( + [{addr,_}=A,{netmask,_}=N,{broadaddr,_}=B|Opts], #ifopts{addrs=Addrs}=Ifopts) -> - check_ifopts(Opts, Ifopts#ifopts{addrs=[{Addr,Netmask,Broadaddr}|Addrs]}); + check_ifopts(Opts, Ifopts#ifopts{addrs=[{A,N,B}|Addrs]}); check_ifopts( - [{addr,Addr},{netmask,Netmask}|Opts], + [{addr,_}=A,{netmask,_}=N|Opts], #ifopts{addrs=Addrs}=Ifopts) -> - check_ifopts(Opts, Ifopts#ifopts{addrs=[{Addr,Netmask}|Addrs]}); -check_ifopts([{addr,Addr}|Opts], #ifopts{addrs=Addrs}=Ifopts) -> - check_ifopts(Opts, Ifopts#ifopts{addrs=[{Addr}|Addrs]}); -check_ifopts([{hwaddr,Hwaddr}|Opts], #ifopts{hwaddr=undefined}=Ifopts) + check_ifopts(Opts, Ifopts#ifopts{addrs=[{A,N}|Addrs]}); +check_ifopts([{addr,_}=A|Opts], #ifopts{addrs=Addrs}=Ifopts) -> + check_ifopts(Opts, Ifopts#ifopts{addrs=[{A}|Addrs]}); +check_ifopts([{hwaddr,Hwaddr}=H|Opts], #ifopts{hwaddr=undefined}=Ifopts) when is_list(Hwaddr) -> - check_ifopts(Opts, Ifopts#ifopts{hwaddr=Hwaddr}); -check_ifopts([{hwaddr,HwAddr}|_], #ifopts{}=Ifopts) -> - ?t:fail({multiple_hwaddrs,HwAddr,Ifopts}). + check_ifopts(Opts, Ifopts#ifopts{hwaddr=H}); +check_ifopts([{hwaddr,_}=H|_], #ifopts{}=Ifopts) -> + ?t:fail({multiple_hwaddrs,H,Ifopts}). %% Works just like lists:member/2, except that any {127,_,_,_} tuple %% matches any other {127,_,_,_}. We do this to handle Linux systems |