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|
/*++
/* NAME
/* smtpd_peer 3
/* SUMMARY
/* look up peer name/address information
/* SYNOPSIS
/* #include "smtpd.h"
/*
/* void smtpd_peer_init(state)
/* SMTPD_STATE *state;
/*
/* void smtpd_peer_reset(state)
/* SMTPD_STATE *state;
/* AUXILIARY METHODS
/* void smtpd_peer_from_default(state)
/* SMTPD_STATE *state;
/* DESCRIPTION
/* The smtpd_peer_init() routine attempts to produce a printable
/* version of the peer name and address of the specified socket.
/* Where information is unavailable, the name and/or address
/* are set to "unknown".
/*
/* Alternatively, the peer address and port may be obtained
/* from a proxy server.
/*
/* This module uses the local name service via getaddrinfo()
/* and getnameinfo(). It does not query the DNS directly.
/*
/* smtpd_peer_init() updates the following fields:
/* .IP name
/* The verified client hostname. This name is represented by
/* the string "unknown" when 1) the address->name lookup failed,
/* 2) the name->address mapping fails, or 3) the name->address
/* mapping does not produce the client IP address.
/* .IP reverse_name
/* The unverified client hostname as found with address->name
/* lookup; it is not verified for consistency with the client
/* IP address result from name->address lookup.
/* .IP forward_name
/* The unverified client hostname as found with address->name
/* lookup followed by name->address lookup; it is not verified
/* for consistency with the result from address->name lookup.
/* For example, when the address->name lookup produces as
/* hostname an alias, the name->address lookup will produce
/* as hostname the expansion of that alias, so that the two
/* lookups produce different names.
/* .IP addr
/* Printable representation of the client address.
/* .IP namaddr
/* String of the form: "name[addr]:port".
/* .IP rfc_addr
/* String of the form "ipv4addr" or "ipv6:ipv6addr" for use
/* in Received: message headers.
/* .IP dest_addr
/* Server address, used by the Dovecot authentication server,
/* available as Milter {daemon_addr} macro, and as server_address
/* policy delegation attribute.
/* .IP dest_port
/* Server port, available as Milter {daemon_port} macro, and
/* as server_port policy delegation attribute.
/* .IP name_status
/* The name_status result field specifies how the name
/* information should be interpreted:
/* .RS
/* .IP 2
/* The address->name lookup and name->address lookup produced
/* the client IP address.
/* .IP 4
/* The address->name lookup or name->address lookup failed
/* with a recoverable error.
/* .IP 5
/* The address->name lookup or name->address lookup failed
/* with an unrecoverable error, or the result did not match
/* the client IP address.
/* .RE
/* .IP reverse_name_status
/* The reverse_name_status result field specifies how the
/* reverse_name information should be interpreted:
/* .RS
/* .IP 2
/* The address->name lookup succeeded.
/* .IP 4
/* The address->name lookup failed with a recoverable error.
/* .IP 5
/* The address->name lookup failed with an unrecoverable error.
/* .RE
/* .IP forward_name_status
/* The forward_name_status result field specifies how the
/* forward_name information should be interpreted:
/* .RS
/* .IP 2
/* The address->name and name->address lookup succeeded.
/* .IP 4
/* The address->name lookup or name->address failed with a
/* recoverable error.
/* .IP 5
/* The address->name lookup or name->address failed with an
/* unrecoverable error.
/* .RE
/* .PP
/* smtpd_peer_reset() releases memory allocated by smtpd_peer_init().
/*
/* smtpd_peer_from_default() looks up connection information
/* when an up-stream proxy indicates that a connection is not
/* proxied.
/* LICENSE
/* .ad
/* .fi
/* The Secure Mailer license must be distributed with this software.
/* AUTHOR(S)
/* Wietse Venema
/* IBM T.J. Watson Research
/* P.O. Box 704
/* Yorktown Heights, NY 10598, USA
/*
/* Wietse Venema
/* Google, Inc.
/* 111 8th Avenue
/* New York, NY 10011, USA
/*--*/
/* System library. */
#include <sys_defs.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <stdio.h> /* strerror() */
#include <errno.h>
#include <netdb.h>
#include <string.h>
#include <htable.h>
/* Utility library. */
#include <msg.h>
#include <mymalloc.h>
#include <stringops.h>
#include <myaddrinfo.h>
#include <sock_addr.h>
#include <inet_proto.h>
#include <split_at.h>
/* Global library. */
#include <mail_proto.h>
#include <valid_mailhost_addr.h>
#include <mail_params.h>
#include <haproxy_srvr.h>
/* Application-specific. */
#include "smtpd.h"
static INET_PROTO_INFO *proto_info;
/*
* XXX If we make local port information available via logging, then we must
* also support these attributes with the XFORWARD command.
*
* XXX If support were to be added for Milter applications in down-stream MTAs,
* then consistency demands that we propagate a lot of Sendmail macro
* information via the XFORWARD command. Otherwise we could end up with a
* very confusing situation.
*/
/* smtpd_peer_sockaddr_to_hostaddr - client address/port to printable form */
static int smtpd_peer_sockaddr_to_hostaddr(SMTPD_STATE *state)
{
const char *myname = "smtpd_peer_sockaddr_to_hostaddr";
struct sockaddr *sa = (struct sockaddr *) &(state->sockaddr);
SOCKADDR_SIZE sa_length = state->sockaddr_len;
/*
* XXX If we're given an IPv6 (or IPv4) connection from, e.g., inetd,
* while Postfix IPv6 (or IPv4) support is turned off, don't (skip to the
* final else clause, pretend the origin is localhost[127.0.0.1], and
* become an open relay).
*/
if (sa->sa_family == AF_INET
#ifdef AF_INET6
|| sa->sa_family == AF_INET6
#endif
) {
MAI_HOSTADDR_STR client_addr;
MAI_SERVPORT_STR client_port;
MAI_HOSTADDR_STR server_addr;
MAI_SERVPORT_STR server_port;
int aierr;
char *colonp;
/*
* Sanity check: we can't use sockets that we're not configured for.
*/
if (strchr((char *) proto_info->sa_family_list, sa->sa_family) == 0)
msg_fatal("cannot handle socket type %s with \"%s = %s\"",
#ifdef AF_INET6
sa->sa_family == AF_INET6 ? "AF_INET6" :
#endif
sa->sa_family == AF_INET ? "AF_INET" :
"other", VAR_INET_PROTOCOLS, var_inet_protocols);
/*
* Sorry, but there are some things that we just cannot do while
* connected to the network.
*/
if (geteuid() != var_owner_uid || getuid() != var_owner_uid) {
msg_error("incorrect SMTP server privileges: uid=%lu euid=%lu",
(unsigned long) getuid(), (unsigned long) geteuid());
msg_fatal("the Postfix SMTP server must run with $%s privileges",
VAR_MAIL_OWNER);
}
/*
* Convert the client address to printable form.
*/
if ((aierr = sockaddr_to_hostaddr(sa, sa_length, &client_addr,
&client_port, 0)) != 0)
msg_fatal("%s: cannot convert client address/port to string: %s",
myname, MAI_STRERROR(aierr));
state->port = mystrdup(client_port.buf);
/*
* XXX Require that the infrastructure strips off the IPv6 datalink
* suffix to avoid false alarms with strict address syntax checks.
*/
#ifdef HAS_IPV6
if (strchr(client_addr.buf, '%') != 0)
msg_panic("%s: address %s has datalink suffix",
myname, client_addr.buf);
#endif
/*
* We convert IPv4-in-IPv6 address to 'true' IPv4 address early on,
* but only if IPv4 support is enabled (why would anyone want to turn
* it off)? With IPv4 support enabled we have no need for the IPv6
* form in logging, hostname verification and access checks.
*/
#ifdef HAS_IPV6
if (sa->sa_family == AF_INET6) {
if (strchr((char *) proto_info->sa_family_list, AF_INET) != 0
&& IN6_IS_ADDR_V4MAPPED(&SOCK_ADDR_IN6_ADDR(sa))
&& (colonp = strrchr(client_addr.buf, ':')) != 0) {
struct addrinfo *res0;
if (msg_verbose > 1)
msg_info("%s: rewriting V4-mapped address \"%s\" to \"%s\"",
myname, client_addr.buf, colonp + 1);
state->addr = mystrdup(colonp + 1);
state->rfc_addr = mystrdup(colonp + 1);
state->addr_family = AF_INET;
aierr = hostaddr_to_sockaddr(state->addr, (char *) 0, 0, &res0);
if (aierr)
msg_fatal("%s: cannot convert %s from string to binary: %s",
myname, state->addr, MAI_STRERROR(aierr));
sa_length = res0->ai_addrlen;
if (sa_length > sizeof(state->sockaddr))
sa_length = sizeof(state->sockaddr);
memcpy((void *) sa, res0->ai_addr, sa_length);
freeaddrinfo(res0); /* 200412 */
}
/*
* Following RFC 2821 section 4.1.3, an IPv6 address literal gets
* a prefix of 'IPv6:'. We do this consistently for all IPv6
* addresses that that appear in headers or envelopes. The fact
* that valid_mailhost_addr() enforces the form helps of course.
* We use the form without IPV6: prefix when doing access
* control, or when accessing the connection cache.
*/
else {
state->addr = mystrdup(client_addr.buf);
state->rfc_addr =
concatenate(IPV6_COL, client_addr.buf, (char *) 0);
state->addr_family = sa->sa_family;
}
}
/*
* An IPv4 address is in dotted quad decimal form.
*/
else
#endif
{
state->addr = mystrdup(client_addr.buf);
state->rfc_addr = mystrdup(client_addr.buf);
state->addr_family = sa->sa_family;
}
/*
* Convert the server address/port to printable form.
*/
if ((aierr = sockaddr_to_hostaddr((struct sockaddr *)
&state->dest_sockaddr,
state->dest_sockaddr_len,
&server_addr,
&server_port, 0)) != 0)
msg_fatal("%s: cannot convert server address/port to string: %s",
myname, MAI_STRERROR(aierr));
/* TODO: convert IPv4-in-IPv6 to IPv4 form. */
state->dest_addr = mystrdup(server_addr.buf);
state->dest_port = mystrdup(server_port.buf);
return (0);
}
/*
* It's not Internet.
*/
else {
return (-1);
}
}
/* smtpd_peer_sockaddr_to_hostname - client hostname lookup */
static void smtpd_peer_sockaddr_to_hostname(SMTPD_STATE *state)
{
struct sockaddr *sa = (struct sockaddr *) &(state->sockaddr);
SOCKADDR_SIZE sa_length = state->sockaddr_len;
MAI_HOSTNAME_STR client_name;
int aierr;
/*
* Look up and sanity check the client hostname.
*
* It is unsafe to allow numeric hostnames, especially because there exists
* pressure to turn off the name->addr double check. In that case an
* attacker could trivally bypass access restrictions.
*
* sockaddr_to_hostname() already rejects malformed or numeric names.
*/
#define TEMP_AI_ERROR(e) \
((e) == EAI_AGAIN || (e) == EAI_MEMORY || (e) == EAI_SYSTEM)
#define REJECT_PEER_NAME(state, code) { \
myfree(state->name); \
state->name = mystrdup(CLIENT_NAME_UNKNOWN); \
state->name_status = code; \
}
if (var_smtpd_peername_lookup == 0) {
state->name = mystrdup(CLIENT_NAME_UNKNOWN);
state->reverse_name = mystrdup(CLIENT_NAME_UNKNOWN);
state->name_status = SMTPD_PEER_CODE_PERM;
state->reverse_name_status = SMTPD_PEER_CODE_PERM;
} else if ((aierr = sockaddr_to_hostname(sa, sa_length, &client_name,
(MAI_SERVNAME_STR *) 0, 0)) != 0) {
state->name = mystrdup(CLIENT_NAME_UNKNOWN);
state->reverse_name = mystrdup(CLIENT_NAME_UNKNOWN);
state->name_status = (TEMP_AI_ERROR(aierr) ?
SMTPD_PEER_CODE_TEMP : SMTPD_PEER_CODE_PERM);
state->reverse_name_status = (TEMP_AI_ERROR(aierr) ?
SMTPD_PEER_CODE_TEMP : SMTPD_PEER_CODE_PERM);
} else {
struct addrinfo *res0;
struct addrinfo *res;
state->name = mystrdup(client_name.buf);
state->reverse_name = mystrdup(client_name.buf);
state->name_status = SMTPD_PEER_CODE_OK;
state->reverse_name_status = SMTPD_PEER_CODE_OK;
/*
* Reject the hostname if it does not list the peer address. Without
* further validation or qualification, such information must not be
* allowed to enter the audit trail, as people would draw false
* conclusions.
*/
aierr = hostname_to_sockaddr_pf(state->name, state->addr_family,
(char *) 0, 0, &res0);
if (aierr) {
msg_warn("hostname %s does not resolve to address %s: %s",
state->name, state->addr, MAI_STRERROR(aierr));
REJECT_PEER_NAME(state, (TEMP_AI_ERROR(aierr) ?
SMTPD_PEER_CODE_TEMP : SMTPD_PEER_CODE_FORGED));
} else {
for (res = res0; /* void */ ; res = res->ai_next) {
if (res == 0) {
msg_warn("hostname %s does not resolve to address %s",
state->name, state->addr);
REJECT_PEER_NAME(state, SMTPD_PEER_CODE_FORGED);
break;
}
if (strchr((char *) proto_info->sa_family_list, res->ai_family) == 0) {
msg_info("skipping address family %d for host %s",
res->ai_family, state->name);
continue;
}
if (sock_addr_cmp_addr(res->ai_addr, sa) == 0)
break; /* keep peer name */
}
freeaddrinfo(res0);
}
}
}
/* smtpd_peer_hostaddr_to_sockaddr - convert numeric string to binary */
static void smtpd_peer_hostaddr_to_sockaddr(SMTPD_STATE *state)
{
const char *myname = "smtpd_peer_hostaddr_to_sockaddr";
struct addrinfo *res;
int aierr;
if ((aierr = hostaddr_to_sockaddr(state->addr, state->port,
SOCK_STREAM, &res)) != 0)
msg_fatal("%s: cannot convert client address/port to string: %s",
myname, MAI_STRERROR(aierr));
if (res->ai_addrlen > sizeof(state->sockaddr))
msg_panic("%s: address length > struct sockaddr_storage", myname);
memcpy((void *) &(state->sockaddr), res->ai_addr, res->ai_addrlen);
state->sockaddr_len = res->ai_addrlen;
freeaddrinfo(res);
}
/* smtpd_peer_not_inet - non-socket or non-Internet endpoint */
static void smtpd_peer_not_inet(SMTPD_STATE *state)
{
/*
* If it's not Internet, assume the client is local, and avoid using the
* naming service because that can hang when the machine is disconnected.
*/
state->name = mystrdup("localhost");
state->reverse_name = mystrdup("localhost");
#ifdef AF_INET6
if (proto_info->sa_family_list[0] == PF_INET6) {
state->addr = mystrdup("::1"); /* XXX bogus. */
state->rfc_addr = mystrdup(IPV6_COL "::1"); /* XXX bogus. */
} else
#endif
{
state->addr = mystrdup("127.0.0.1"); /* XXX bogus. */
state->rfc_addr = mystrdup("127.0.0.1");/* XXX bogus. */
}
state->addr_family = AF_UNSPEC;
state->name_status = SMTPD_PEER_CODE_OK;
state->reverse_name_status = SMTPD_PEER_CODE_OK;
state->port = mystrdup("0"); /* XXX bogus. */
state->dest_addr = mystrdup(state->addr); /* XXX bogus. */
state->dest_port = mystrdup(state->port); /* XXX bogus. */
}
/* smtpd_peer_no_client - peer went away, or peer info unavailable */
static void smtpd_peer_no_client(SMTPD_STATE *state)
{
smtpd_peer_reset(state);
state->name = mystrdup(CLIENT_NAME_UNKNOWN);
state->reverse_name = mystrdup(CLIENT_NAME_UNKNOWN);
state->addr = mystrdup(CLIENT_ADDR_UNKNOWN);
state->rfc_addr = mystrdup(CLIENT_ADDR_UNKNOWN);
state->addr_family = AF_UNSPEC;
state->name_status = SMTPD_PEER_CODE_PERM;
state->reverse_name_status = SMTPD_PEER_CODE_PERM;
state->port = mystrdup(CLIENT_PORT_UNKNOWN);
state->dest_addr = mystrdup(SERVER_ADDR_UNKNOWN);
state->dest_port = mystrdup(SERVER_PORT_UNKNOWN);
}
/* smtpd_peer_from_pass_attr - initialize from attribute hash */
static void smtpd_peer_from_pass_attr(SMTPD_STATE *state)
{
HTABLE *attr = (HTABLE *) vstream_context(state->client);
const char *cp;
/*
* Extract the client endpoint information from the attribute hash.
*/
if ((cp = htable_find(attr, MAIL_ATTR_ACT_CLIENT_ADDR)) == 0)
msg_fatal("missing client address from proxy");
if (strrchr(cp, ':') != 0) {
if (valid_ipv6_hostaddr(cp, DO_GRIPE) == 0)
msg_fatal("bad IPv6 client address syntax from proxy: %s", cp);
state->addr = mystrdup(cp);
state->rfc_addr = concatenate(IPV6_COL, cp, (char *) 0);
state->addr_family = AF_INET6;
} else {
if (valid_ipv4_hostaddr(cp, DO_GRIPE) == 0)
msg_fatal("bad IPv4 client address syntax from proxy: %s", cp);
state->addr = mystrdup(cp);
state->rfc_addr = mystrdup(cp);
state->addr_family = AF_INET;
}
if ((cp = htable_find(attr, MAIL_ATTR_ACT_CLIENT_PORT)) == 0)
msg_fatal("missing client port from proxy");
if (valid_hostport(cp, DO_GRIPE) == 0)
msg_fatal("bad TCP client port number syntax from proxy: %s", cp);
state->port = mystrdup(cp);
/*
* The Dovecot authentication server needs the server IP address.
*/
if ((cp = htable_find(attr, MAIL_ATTR_ACT_SERVER_ADDR)) == 0)
msg_fatal("missing server address from proxy");
if (valid_hostaddr(cp, DO_GRIPE) == 0)
msg_fatal("bad IPv6 server address syntax from proxy: %s", cp);
state->dest_addr = mystrdup(cp);
if ((cp = htable_find(attr, MAIL_ATTR_ACT_SERVER_PORT)) == 0)
msg_fatal("missing server port from proxy");
if (valid_hostport(cp, DO_GRIPE) == 0)
msg_fatal("bad TCP server port number syntax from proxy: %s", cp);
state->dest_port = mystrdup(cp);
/*
* Convert the client address from string to binary form.
*/
smtpd_peer_hostaddr_to_sockaddr(state);
}
/* smtpd_peer_from_default - try to initialize peer information from socket */
void smtpd_peer_from_default(SMTPD_STATE *state)
{
/*
* The "no client" routine provides surrogate information so that the
* application can produce sensible logging when a client disconnects
* before the server wakes up. The "not inet" routine provides surrogate
* state for (presumably) local IPC channels.
*/
state->sockaddr_len = sizeof(state->sockaddr);
state->dest_sockaddr_len = sizeof(state->dest_sockaddr);
if (getpeername(vstream_fileno(state->client),
(struct sockaddr *) &state->sockaddr,
&state->sockaddr_len) <0
|| getsockname(vstream_fileno(state->client),
(struct sockaddr *) &state->dest_sockaddr,
&state->dest_sockaddr_len) < 0) {
if (errno == ENOTSOCK)
smtpd_peer_not_inet(state);
else
smtpd_peer_no_client(state);
} else {
if (smtpd_peer_sockaddr_to_hostaddr(state) < 0)
smtpd_peer_not_inet(state);
}
}
/* smtpd_peer_from_proxy - get endpoint info from proxy agent */
static void smtpd_peer_from_proxy(SMTPD_STATE *state)
{
typedef struct {
const char *name;
int (*endpt_lookup) (SMTPD_STATE *);
} SMTPD_ENDPT_LOOKUP_INFO;
static const SMTPD_ENDPT_LOOKUP_INFO smtpd_endpt_lookup_info[] = {
HAPROXY_PROTO_NAME, smtpd_peer_from_haproxy,
0,
};
const SMTPD_ENDPT_LOOKUP_INFO *pp;
/*
* When the proxy information is unavailable, we can't maintain an audit
* trail or enforce access control, therefore we forcibly hang up.
*/
for (pp = smtpd_endpt_lookup_info; /* see below */ ; pp++) {
if (pp->name == 0)
msg_fatal("unsupported %s value: %s",
VAR_SMTPD_UPROXY_PROTO, var_smtpd_uproxy_proto);
if (strcmp(var_smtpd_uproxy_proto, pp->name) == 0)
break;
}
if (pp->endpt_lookup(state) < 0) {
smtpd_peer_from_default(state);
state->flags |= SMTPD_FLAG_HANGUP;
} else {
smtpd_peer_hostaddr_to_sockaddr(state);
}
}
/* smtpd_peer_init - initialize peer information */
void smtpd_peer_init(SMTPD_STATE *state)
{
/*
* Initialize.
*/
if (proto_info == 0)
proto_info = inet_proto_info();
/*
* Prepare for partial initialization after error.
*/
memset((void *) &(state->sockaddr), 0, sizeof(state->sockaddr));
state->sockaddr_len = 0;
state->name = 0;
state->reverse_name = 0;
state->addr = 0;
state->namaddr = 0;
state->rfc_addr = 0;
state->port = 0;
state->dest_addr = 0;
state->dest_port = 0;
/*
* Determine the remote SMTP client address and port.
*
* XXX In stand-alone mode, don't assume that the peer will be a local
* process. That could introduce a gaping hole when the SMTP daemon is
* hooked up to the network via inetd or some other super-server.
*/
if (vstream_context(state->client) != 0) {
smtpd_peer_from_pass_attr(state);
if (*var_smtpd_uproxy_proto != 0)
msg_warn("ignoring non-empty %s setting behind postscreen",
VAR_SMTPD_UPROXY_PROTO);
} else if (SMTPD_STAND_ALONE(state) || *var_smtpd_uproxy_proto == 0) {
smtpd_peer_from_default(state);
} else {
smtpd_peer_from_proxy(state);
}
/*
* Determine the remote SMTP client hostname. Note: some of the handlers
* above provide surrogate endpoint information in case of error. In that
* case, leave the surrogate information alone.
*/
if (state->name == 0)
smtpd_peer_sockaddr_to_hostname(state);
/*
* Do the name[addr]:port formatting for pretty reports.
*/
state->namaddr = SMTPD_BUILD_NAMADDRPORT(state->name, state->addr,
state->port);
}
/* smtpd_peer_reset - destroy peer information */
void smtpd_peer_reset(SMTPD_STATE *state)
{
if (state->name)
myfree(state->name);
if (state->reverse_name)
myfree(state->reverse_name);
if (state->addr)
myfree(state->addr);
if (state->namaddr)
myfree(state->namaddr);
if (state->rfc_addr)
myfree(state->rfc_addr);
if (state->port)
myfree(state->port);
if (state->dest_addr)
myfree(state->dest_addr);
if (state->dest_port)
myfree(state->dest_port);
}
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