inet/kssl/ksslioctl.c

c28749e9Skais/*
c28749e9Skais * CDDL HEADER START
c28749e9Skais *
c28749e9Skais * The contents of this file are subject to the terms of the
c892ebf1Skrishna * Common Development and Distribution License (the "License").
c892ebf1Skrishna * You may not use this file except in compliance with the License.
c28749e9Skais *
c28749e9Skais * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
c28749e9Skais * or http://www.opensolaris.org/os/licensing.
c28749e9Skais * See the License for the specific language governing permissions
c28749e9Skais * and limitations under the License.
c28749e9Skais *
c28749e9Skais * When distributing Covered Code, include this CDDL HEADER in each
c28749e9Skais * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
c28749e9Skais * If applicable, add the following below this CDDL HEADER, with the
c28749e9Skais * fields enclosed by brackets "[]" replaced with your own identifying
c28749e9Skais * information: Portions Copyright [yyyy] [name of copyright owner]
c28749e9Skais *
c28749e9Skais * CDDL HEADER END
c28749e9Skais */
c28749e9Skais/*
*65d18457SVladimir Kotal * Copyright 2010 Sun Microsystems, Inc.  All rights reserved.
c28749e9Skais * Use is subject to license terms.
c28749e9Skais */
c28749e9Skais
c28749e9Skais/*
c28749e9Skais * The kernel SSL module ioctls.
c28749e9Skais */
c28749e9Skais
c28749e9Skais#include <sys/types.h>
c28749e9Skais#include <sys/modctl.h>
c28749e9Skais#include <sys/conf.h>
c28749e9Skais#include <sys/ddi.h>
c28749e9Skais#include <sys/sunddi.h>
c28749e9Skais#include <sys/kmem.h>
c28749e9Skais#include <sys/errno.h>
c28749e9Skais#include <sys/file.h>
c28749e9Skais#include <sys/cred.h>
c28749e9Skais#include <sys/proc.h>
c28749e9Skais#include <sys/task.h>
c28749e9Skais#include <sys/model.h>
c28749e9Skais#include <sys/sysmacros.h>
c28749e9Skais#include <sys/policy.h>
c28749e9Skais#include <sys/crypto/common.h>
c28749e9Skais#include <sys/crypto/api.h>
c28749e9Skais#include <inet/common.h>
c28749e9Skais#include <inet/ip.h>
c28749e9Skais
c28749e9Skais#include "ksslimpl.h"
c28749e9Skais#include "kssl.h"
c28749e9Skais#include "ksslproto.h"
c28749e9Skais
c28749e9Skaiskssl_entry_t **kssl_entry_tab;
c28749e9Skaisint kssl_entry_tab_size;
c28749e9Skaisint kssl_entry_tab_nentries;
*65d18457SVladimir Kotaluint_t null_cipher_suite;	/* setable in /etc/system */
c28749e9Skaiskmutex_t kssl_tab_mutex;
c28749e9Skais
c28749e9Skaisstatic void
c28749e9Skaiscertificate_free(Certificate_t *cert)
c28749e9Skais{
c28749e9Skais	kmem_free(cert->msg, cert->len);
c28749e9Skais	kmem_free(cert, sizeof (struct Certificate));
c28749e9Skais}
c28749e9Skais
c28749e9Skaisstatic void
c28749e9SkaisprivateKey_free(crypto_key_t *privkey)
c28749e9Skais{
c28749e9Skais	int i;
c892ebf1Skrishna	size_t attrs_size;
c892ebf1Skrishna	crypto_object_attribute_t *attrs;
c28749e9Skais
c892ebf1Skrishna	attrs = privkey->ck_attrs;
c892ebf1Skrishna	attrs_size = privkey->ck_count * sizeof (crypto_object_attribute_t);
c28749e9Skais	for (i = 0; i < privkey->ck_count; i++) {
c28749e9Skais		bzero(attrs[i].oa_value, attrs[i].oa_value_len);
c28749e9Skais		kmem_free(attrs[i].oa_value, attrs[i].oa_value_len);
c28749e9Skais	}
c28749e9Skais	kmem_free(attrs, attrs_size);
c28749e9Skais	kmem_free(privkey, sizeof (crypto_key_t));
c28749e9Skais}
c28749e9Skais
c892ebf1Skrishnastatic void
c892ebf1Skrishnasess_free(kssl_session_info_t *s)
c892ebf1Skrishna{
c892ebf1Skrishna	if (s->is_valid_handle) {
c892ebf1Skrishna		(void) crypto_session_logout(s->prov, s->sid, NULL);
c892ebf1Skrishna		(void) crypto_session_close(s->prov, s->sid, NULL);
c892ebf1Skrishna		crypto_release_provider(s->prov);
c892ebf1Skrishna		s->is_valid_handle = B_FALSE;
c892ebf1Skrishna	}
c892ebf1Skrishna
c892ebf1Skrishna	if (s->evnt_handle != NULL) {
c892ebf1Skrishna		crypto_unnotify_events(s->evnt_handle);
c892ebf1Skrishna		s->evnt_handle = NULL;
c892ebf1Skrishna	}
c892ebf1Skrishna
c892ebf1Skrishna	bzero(s->tokpin, s->pinlen);
c892ebf1Skrishna	kmem_free(s, sizeof (kssl_session_info_t) + s->pinlen);
c892ebf1Skrishna}
c892ebf1Skrishna
c28749e9Skais/*
c28749e9Skais * Frees the space for the entry and the keys and certs
c28749e9Skais * it carries.
c28749e9Skais */
c28749e9Skaisvoid
c28749e9Skaiskssl_free_entry(kssl_entry_t *kssl_entry)
c28749e9Skais{
c28749e9Skais	int i;
c28749e9Skais	Certificate_t *cert;
c28749e9Skais	crypto_key_t *privkey;
c892ebf1Skrishna	kssl_session_info_t *s;
c28749e9Skais
c28749e9Skais	if (kssl_entry->ke_no_freeall) {
c28749e9Skais		kmem_free(kssl_entry, sizeof (kssl_entry_t));
c28749e9Skais		return;
c28749e9Skais	}
c28749e9Skais
c28749e9Skais	if ((cert = kssl_entry->ke_server_certificate) != NULL) {
c28749e9Skais		certificate_free(cert);
c28749e9Skais	}
c28749e9Skais
c28749e9Skais	if ((privkey = kssl_entry->ke_private_key) != NULL) {
c28749e9Skais		privateKey_free(privkey);
c892ebf1Skrishna	}
c28749e9Skais
c28749e9Skais	for (i = 0; i < kssl_entry->sid_cache_nentries; i++)
c28749e9Skais		mutex_destroy(&(kssl_entry->sid_cache[i].se_lock));
c28749e9Skais
c28749e9Skais	kmem_free(kssl_entry->sid_cache,
c28749e9Skais	    kssl_entry->sid_cache_nentries * sizeof (kssl_sid_ent_t));
c28749e9Skais
c28749e9Skais	ASSERT(kssl_entry->ke_proxy_head == NULL);
c28749e9Skais	ASSERT(kssl_entry->ke_fallback_head == NULL);
c28749e9Skais
c892ebf1Skrishna	if ((s = kssl_entry->ke_sessinfo) != NULL) {
c892ebf1Skrishna		ASSERT(kssl_entry->ke_is_nxkey);
c892ebf1Skrishna		sess_free(s);
c892ebf1Skrishna	}
c892ebf1Skrishna
c28749e9Skais	kmem_free(kssl_entry, sizeof (kssl_entry_t));
c28749e9Skais}
c28749e9Skais
c28749e9Skais/*
c28749e9Skais * Returns the index of the entry in kssl_entry_tab[] that matches
c28749e9Skais * the address and port.  Returns -1 if no match is found.
c28749e9Skais */
c28749e9Skaisstatic int
2ec7cc7fSKrishna Yendurikssl_find_entry(in6_addr_t laddr, in_port_t port, int type,
c28749e9Skais    boolean_t wild_card_match)
c28749e9Skais{
c28749e9Skais	int i;
c28749e9Skais	kssl_entry_t *ep;
c28749e9Skais
c28749e9Skais	ASSERT(MUTEX_HELD(&kssl_tab_mutex));
c28749e9Skais
c28749e9Skais	for (i = 0; i < kssl_entry_tab_size; i++) {
c28749e9Skais		ep = kssl_entry_tab[i];
c28749e9Skais		if (ep == NULL)
c28749e9Skais			continue;
c28749e9Skais
c28749e9Skais		if (!((type == IS_SSL_PORT && ep->ke_ssl_port == port) ||
c28749e9Skais		    (type == IS_PROXY_PORT && ep->ke_proxy_port == port)))
c28749e9Skais			continue;
c28749e9Skais
2ec7cc7fSKrishna Yenduri		if (IN6_ARE_ADDR_EQUAL(&laddr, &ep->ke_laddr) ||
2ec7cc7fSKrishna Yenduri		    (wild_card_match && (IN6_IS_ADDR_UNSPECIFIED(&laddr) ||
2ec7cc7fSKrishna Yenduri		    IN6_IS_ADDR_UNSPECIFIED(&ep->ke_laddr))))
c28749e9Skais			break;
c28749e9Skais	}
c28749e9Skais
c28749e9Skais	if (i == kssl_entry_tab_size)
c28749e9Skais		return (-1);
c28749e9Skais
c28749e9Skais	return (i);
c28749e9Skais}
c28749e9Skais
c28749e9Skaisstatic void
c28749e9Skaiscopy_int_to_bytearray(int x, uchar_t *buf)
c28749e9Skais{
c28749e9Skais	buf[0] = (x >> 16) & 0xff;
c28749e9Skais	buf[1] = (x >> 8) & 0xff;
c28749e9Skais	buf[2] = (x) & 0xff;
c28749e9Skais}
c28749e9Skais
c28749e9Skaisstatic int
c28749e9Skaisextract_certificate(kssl_params_t *kssl_params, Certificate_t **certpp)
c28749e9Skais{
c28749e9Skais	int i, len;
c28749e9Skais	uint64_t in_size;
c28749e9Skais	uchar_t *end_pos;
c28749e9Skais	uint32_t ncert;
c28749e9Skais	uint32_t *cert_sizes;
c28749e9Skais	Certificate_t *cert;
c28749e9Skais	char *begin = (char *)kssl_params;
c28749e9Skais	uchar_t *cert_buf;
c28749e9Skais	int cert_buf_len;
c28749e9Skais	uchar_t *cert_from, *cert_to;
c28749e9Skais
c28749e9Skais	ASSERT(kssl_params);
c28749e9Skais
c28749e9Skais	in_size = kssl_params->kssl_params_size;
c28749e9Skais	end_pos = (uchar_t *)kssl_params + in_size;
c28749e9Skais
c28749e9Skais	/*
c28749e9Skais	 * Get the certs array. First the array of sizes, then the actual
c28749e9Skais	 * certs.
c28749e9Skais	 */
c28749e9Skais	ncert = kssl_params->kssl_certs.sc_count;
c28749e9Skais
c28749e9Skais	if (ncert == 0) {
c28749e9Skais		/* no certs in here! why did ya call? */
c28749e9Skais		return (EINVAL);
c28749e9Skais	}
c28749e9Skais	if (in_size < (sizeof (kssl_params_t) + ncert * sizeof (uint32_t))) {
c28749e9Skais		return (EINVAL);
c28749e9Skais	}
c28749e9Skais
c892ebf1Skrishna	/* Trusting that the system call preserved the 4-byte alignment */
c28749e9Skais	cert_sizes = (uint32_t *)(begin +
c28749e9Skais	    kssl_params->kssl_certs.sc_sizes_offset);
c28749e9Skais
c28749e9Skais	/* should this be an ASSERT()? */
c28749e9Skais	if (!IS_P2ALIGNED(cert_sizes, sizeof (uint32_t))) {
c28749e9Skais		return (EINVAL);
c28749e9Skais	}
c28749e9Skais
c28749e9Skais	len = 0;
c28749e9Skais	for (i = 0; i < ncert; i++) {
c28749e9Skais		if (cert_sizes[i] < 1) {
c28749e9Skais			return (EINVAL);
c28749e9Skais		}
c28749e9Skais		len += cert_sizes[i] + 3;
c28749e9Skais	}
c28749e9Skais
c28749e9Skais	len += 3;	/* length of certificate message without msg header */
c28749e9Skais
c28749e9Skais	cert_buf_len = len + 4 + 4;	/* add space for msg headers */
c28749e9Skais
c28749e9Skais	cert_buf = kmem_alloc(cert_buf_len, KM_SLEEP);
c28749e9Skais
c28749e9Skais	cert_buf[0] = (uchar_t)certificate;
c28749e9Skais	copy_int_to_bytearray(len, & cert_buf[1]);
c28749e9Skais	copy_int_to_bytearray(len - 3, & cert_buf[4]);
c28749e9Skais
c28749e9Skais	cert_from = (uchar_t *)(begin +
c28749e9Skais	    kssl_params->kssl_certs.sc_certs_offset);
c28749e9Skais	cert_to = &cert_buf[7];
c28749e9Skais
c28749e9Skais	for (i = 0; i < ncert; i++) {
c28749e9Skais		copy_int_to_bytearray(cert_sizes[i], cert_to);
c28749e9Skais		cert_to += 3;
c28749e9Skais
c28749e9Skais		if (cert_from + cert_sizes[i] > end_pos) {
c28749e9Skais			kmem_free(cert_buf, cert_buf_len);
c28749e9Skais			return (EINVAL);
c28749e9Skais		}
c28749e9Skais
c28749e9Skais		bcopy(cert_from, cert_to, cert_sizes[i]);
c28749e9Skais		cert_from += cert_sizes[i];
c28749e9Skais		cert_to += cert_sizes[i];
c28749e9Skais	}
c28749e9Skais
c28749e9Skais	len += 4;
c28749e9Skais	cert_buf[len] = (uchar_t)server_hello_done;
c28749e9Skais	copy_int_to_bytearray(0, & cert_buf[len + 1]);
c28749e9Skais
c28749e9Skais	cert = kmem_alloc(sizeof (Certificate_t), KM_SLEEP);
c28749e9Skais	cert->msg = cert_buf;
c28749e9Skais	cert->len = cert_buf_len;
c28749e9Skais
c28749e9Skais	*certpp = cert;
c28749e9Skais
c28749e9Skais	return (0);
c28749e9Skais}
c28749e9Skais
c28749e9Skaisstatic int
c28749e9Skaisextract_private_key(kssl_params_t *kssl_params, crypto_key_t **privkey)
c28749e9Skais{
c28749e9Skais	char *begin = (char *)kssl_params;
c28749e9Skais	char *end_pos;
c28749e9Skais	int i, j, rv;
c28749e9Skais	size_t attrs_size;
2ec7cc7fSKrishna Yenduri	crypto_object_attribute_t *newattrs;
c28749e9Skais	char *mp_attrs;
c28749e9Skais	kssl_object_attribute_t att;
c28749e9Skais	char *attval;
c28749e9Skais	uint32_t attlen;
c28749e9Skais	crypto_key_t *kssl_privkey;
c28749e9Skais
c28749e9Skais	end_pos = (char *)kssl_params + kssl_params->kssl_params_size;
c28749e9Skais
c28749e9Skais	kssl_privkey = kmem_alloc(sizeof (crypto_key_t), KM_SLEEP);
c28749e9Skais
c28749e9Skais	kssl_privkey->ck_format = kssl_params->kssl_privkey.ks_format;
c28749e9Skais	kssl_privkey->ck_count = kssl_params->kssl_privkey.ks_count;
c28749e9Skais
c28749e9Skais	switch (kssl_privkey->ck_format) {
c28749e9Skais		case CRYPTO_KEY_ATTR_LIST:
c28749e9Skais			break;
c28749e9Skais		case CRYPTO_KEY_RAW:
c28749e9Skais		case CRYPTO_KEY_REFERENCE:
c28749e9Skais		default:
c28749e9Skais			rv = EINVAL;
c28749e9Skais			goto err1;
c28749e9Skais	}
c28749e9Skais
c28749e9Skais	/* allocate the attributes */
c28749e9Skais	attrs_size = kssl_privkey->ck_count *
c28749e9Skais	    sizeof (crypto_object_attribute_t);
c28749e9Skais
c28749e9Skais	mp_attrs = begin + kssl_params->kssl_privkey.ks_attrs_offset;
c28749e9Skais	if (mp_attrs + attrs_size > end_pos) {
c28749e9Skais		rv = EINVAL;
c28749e9Skais		goto err1;
c28749e9Skais	}
c28749e9Skais
c892ebf1Skrishna	newattrs = kmem_alloc(attrs_size, KM_SLEEP);
c892ebf1Skrishna
c28749e9Skais	/* Now the individual attributes */
c28749e9Skais	for (i = 0; i < kssl_privkey->ck_count; i++) {
c28749e9Skais		bcopy(mp_attrs, &att, sizeof (kssl_object_attribute_t));
c28749e9Skais
c28749e9Skais		mp_attrs += sizeof (kssl_object_attribute_t);
c28749e9Skais
c28749e9Skais		attval = begin + att.ka_value_offset;
c28749e9Skais		attlen = att.ka_value_len;
c28749e9Skais
c28749e9Skais		if (attval + attlen > end_pos) {
c28749e9Skais			rv = EINVAL;
c28749e9Skais			goto err2;
c28749e9Skais		}
c28749e9Skais
c28749e9Skais		newattrs[i].oa_type = att.ka_type;
c28749e9Skais		newattrs[i].oa_value_len = attlen;
c892ebf1Skrishna		newattrs[i].oa_value = kmem_alloc(attlen, KM_SLEEP);
c28749e9Skais
c28749e9Skais		bcopy(attval, newattrs[i].oa_value, attlen);
c28749e9Skais	}
c28749e9Skais
c28749e9Skais	kssl_privkey->ck_attrs = newattrs;
c28749e9Skais
c28749e9Skais	*privkey = kssl_privkey;
c28749e9Skais
c28749e9Skais	return (0);
c28749e9Skais
c28749e9Skaiserr2:
c28749e9Skais	for (j = 0; j < i; j++) {
c892ebf1Skrishna		bzero(newattrs[j].oa_value, newattrs[j].oa_value_len);
c28749e9Skais		kmem_free(newattrs[j].oa_value, newattrs[j].oa_value_len);
c28749e9Skais	}
c28749e9Skais	kmem_free(newattrs, attrs_size);
c28749e9Skaiserr1:
c28749e9Skais	kmem_free(kssl_privkey, sizeof (crypto_key_t));
c28749e9Skais	return (rv);
c28749e9Skais}
c28749e9Skais
c892ebf1Skrishnastatic int
c892ebf1Skrishnacreate_sessinfo(kssl_params_t *kssl_params, kssl_entry_t *kssl_entry)
c892ebf1Skrishna{
c892ebf1Skrishna	int rv;
c892ebf1Skrishna	char *p;
c892ebf1Skrishna	kssl_session_info_t *s;
c892ebf1Skrishna	kssl_tokinfo_t *t;
c892ebf1Skrishna
c892ebf1Skrishna	t =  &kssl_params->kssl_token;
c892ebf1Skrishna	/* Do a sanity check */
c892ebf1Skrishna	if (t->pinlen > MAX_PIN_LENGTH) {
c892ebf1Skrishna		return (EINVAL);
c892ebf1Skrishna	}
c892ebf1Skrishna
c892ebf1Skrishna	s = kmem_zalloc(sizeof (kssl_session_info_t) + t->pinlen, KM_SLEEP);
c892ebf1Skrishna	s->pinlen = t->pinlen;
c892ebf1Skrishna	bcopy(t->toklabel, s->toklabel, CRYPTO_EXT_SIZE_LABEL);
c892ebf1Skrishna	p = (char *)kssl_params + t->tokpin_offset;
c892ebf1Skrishna	bcopy(p, s->tokpin, s->pinlen);
c892ebf1Skrishna	ASSERT(kssl_entry->ke_sessinfo == NULL);
c892ebf1Skrishna	kssl_entry->ke_sessinfo = s;
c892ebf1Skrishna
c892ebf1Skrishna	/* Get the handle to the non extractable key */
c892ebf1Skrishna	rv = kssl_get_obj_handle(kssl_entry);
c892ebf1Skrishna	kssl_params->kssl_token.ck_rv = rv;
c892ebf1Skrishna	if (rv != CRYPTO_SUCCESS) {
c892ebf1Skrishna		sess_free(s);
c892ebf1Skrishna		kssl_entry->ke_sessinfo = NULL;
c892ebf1Skrishna		return (EINVAL);
c892ebf1Skrishna	}
c892ebf1Skrishna
c892ebf1Skrishna	kssl_entry->ke_sessinfo->is_valid_handle = B_TRUE;
c892ebf1Skrishna	kssl_entry->ke_sessinfo->do_reauth = B_FALSE;
c892ebf1Skrishna	kssl_entry->ke_sessinfo->evnt_handle =
c892ebf1Skrishna	    crypto_notify_events(kssl_prov_evnt,
c892ebf1Skrishna	    CRYPTO_EVENT_PROVIDER_REGISTERED |
c892ebf1Skrishna	    CRYPTO_EVENT_PROVIDER_UNREGISTERED);
c892ebf1Skrishna
c892ebf1Skrishna	return (0);
c892ebf1Skrishna}
c892ebf1Skrishna
c28749e9Skaisstatic kssl_entry_t *
c28749e9Skaiscreate_kssl_entry(kssl_params_t *kssl_params, Certificate_t *cert,
c28749e9Skais    crypto_key_t *privkey)
c28749e9Skais{
c28749e9Skais	int i;
c28749e9Skais	uint16_t s;
2bd70d4bSkrishna	kssl_entry_t *kssl_entry, *ep;
c28749e9Skais	uint_t cnt, mech_count;
c28749e9Skais	crypto_mech_name_t *mechs;
c28749e9Skais	boolean_t got_rsa, got_md5, got_sha1, got_rc4, got_des, got_3des;
2bd70d4bSkrishna	boolean_t got_aes;
c28749e9Skais
c28749e9Skais	kssl_entry = kmem_zalloc(sizeof (kssl_entry_t), KM_SLEEP);
c28749e9Skais
2ec7cc7fSKrishna Yenduri	kssl_entry->ke_laddr = kssl_params->kssl_addr.sin6_addr;
2ec7cc7fSKrishna Yenduri	kssl_entry->ke_ssl_port = kssl_params->kssl_addr.sin6_port;
c28749e9Skais	kssl_entry->ke_proxy_port = kssl_params->kssl_proxy_port;
c28749e9Skais	if (kssl_params->kssl_session_cache_timeout == 0)
c28749e9Skais		kssl_entry->sid_cache_timeout = DEFAULT_SID_TIMEOUT;
c28749e9Skais	else
c28749e9Skais		kssl_entry->sid_cache_timeout =
c28749e9Skais		    kssl_params->kssl_session_cache_timeout;
c28749e9Skais	if (kssl_params->kssl_session_cache_size == 0)
c28749e9Skais		kssl_entry->sid_cache_nentries = DEFAULT_SID_CACHE_NENTRIES;
c28749e9Skais	else
c28749e9Skais		kssl_entry->sid_cache_nentries =
c28749e9Skais		    kssl_params->kssl_session_cache_size;
c28749e9Skais	kssl_entry->ke_private_key = privkey;
c28749e9Skais	kssl_entry->ke_server_certificate = cert;
c28749e9Skais
c892ebf1Skrishna	kssl_entry->ke_is_nxkey = kssl_params->kssl_is_nxkey;
c892ebf1Skrishna	if (kssl_entry->ke_is_nxkey) {
c892ebf1Skrishna		if (create_sessinfo(kssl_params, kssl_entry) != 0) {
c892ebf1Skrishna			kmem_free(kssl_entry, sizeof (kssl_entry_t));
c892ebf1Skrishna			return (NULL);
c892ebf1Skrishna		}
c892ebf1Skrishna	}
c892ebf1Skrishna
c28749e9Skais	mechs = crypto_get_mech_list(&mech_count, KM_SLEEP);
c28749e9Skais	if (mechs != NULL) {
c28749e9Skais		got_rsa = got_md5 = got_sha1 = got_rc4 =
2bd70d4bSkrishna		    got_des = got_3des = got_aes = B_FALSE;
c28749e9Skais		for (i = 0; i < mech_count; i++) {
c28749e9Skais			if (strncmp(SUN_CKM_RSA_X_509, mechs[i],
c28749e9Skais			    CRYPTO_MAX_MECH_NAME) == 0)
c28749e9Skais				got_rsa = B_TRUE;
c28749e9Skais			else if (strncmp(SUN_CKM_MD5_HMAC, mechs[i],
c28749e9Skais			    CRYPTO_MAX_MECH_NAME) == 0)
c28749e9Skais				got_md5 = B_TRUE;
c28749e9Skais			else if (strncmp(SUN_CKM_SHA1_HMAC, mechs[i],
c28749e9Skais			    CRYPTO_MAX_MECH_NAME) == 0)
c28749e9Skais				got_sha1 = B_TRUE;
c28749e9Skais			else if (strncmp(SUN_CKM_RC4, mechs[i],
c28749e9Skais			    CRYPTO_MAX_MECH_NAME) == 0)
c28749e9Skais				got_rc4 = B_TRUE;
c28749e9Skais			else if (strncmp(SUN_CKM_DES_CBC, mechs[i],
c28749e9Skais			    CRYPTO_MAX_MECH_NAME) == 0)
c28749e9Skais				got_des = B_TRUE;
c28749e9Skais			else if (strncmp(SUN_CKM_DES3_CBC, mechs[i],
c28749e9Skais			    CRYPTO_MAX_MECH_NAME) == 0)
c28749e9Skais				got_3des = B_TRUE;
2bd70d4bSkrishna			else if (strncmp(SUN_CKM_AES_CBC, mechs[i],
2bd70d4bSkrishna			    CRYPTO_MAX_MECH_NAME) == 0)
2bd70d4bSkrishna				got_aes = B_TRUE;
c28749e9Skais		}
c28749e9Skais
c28749e9Skais		cnt = 0;
2bd70d4bSkrishna		ep = kssl_entry;
c28749e9Skais		for (i = 0; i < CIPHER_SUITE_COUNT - 1; i++) {
c28749e9Skais			switch (s = kssl_params->kssl_suites[i]) {
c28749e9Skais			case SSL_RSA_WITH_RC4_128_MD5:
c28749e9Skais				if (got_rsa && got_rc4 && got_md5)
2bd70d4bSkrishna					ep->kssl_cipherSuites[cnt++] = s;
c28749e9Skais				break;
c28749e9Skais			case SSL_RSA_WITH_RC4_128_SHA:
c28749e9Skais				if (got_rsa && got_rc4 && got_sha1)
2bd70d4bSkrishna					ep->kssl_cipherSuites[cnt++] = s;
c28749e9Skais				break;
c28749e9Skais			case SSL_RSA_WITH_DES_CBC_SHA:
c28749e9Skais				if (got_rsa && got_des && got_sha1)
2bd70d4bSkrishna					ep->kssl_cipherSuites[cnt++] = s;
c28749e9Skais				break;
c28749e9Skais			case SSL_RSA_WITH_3DES_EDE_CBC_SHA:
c28749e9Skais				if (got_rsa && got_3des && got_sha1)
2bd70d4bSkrishna					ep->kssl_cipherSuites[cnt++] = s;
2bd70d4bSkrishna				break;
2bd70d4bSkrishna			case TLS_RSA_WITH_AES_128_CBC_SHA:
2bd70d4bSkrishna				if (got_rsa && got_aes && got_sha1)
2bd70d4bSkrishna					ep->kssl_cipherSuites[cnt++] = s;
2bd70d4bSkrishna				break;
2bd70d4bSkrishna			case TLS_RSA_WITH_AES_256_CBC_SHA:
2bd70d4bSkrishna				if (got_rsa && got_aes && got_sha1)
2bd70d4bSkrishna					ep->kssl_cipherSuites[cnt++] = s;
c28749e9Skais				break;
c28749e9Skais			case CIPHER_NOTSET:
c28749e9Skais			default:
c28749e9Skais				break;
c28749e9Skais			}
c28749e9Skais		}
c28749e9Skais
c28749e9Skais		crypto_free_mech_list(mechs, mech_count);
c28749e9Skais	}
c28749e9Skais
*65d18457SVladimir Kotal	/*
*65d18457SVladimir Kotal	 * Add the no encryption suite to the end if requested by the
*65d18457SVladimir Kotal	 * kssl:null_cipher_suite /etc/system tunable since we do not want
*65d18457SVladimir Kotal	 * to be running with it by default.
*65d18457SVladimir Kotal	 */
*65d18457SVladimir Kotal	if (null_cipher_suite && got_rsa && got_sha1)
c28749e9Skais		kssl_entry->kssl_cipherSuites[cnt++] = SSL_RSA_WITH_NULL_SHA;
c28749e9Skais	kssl_entry->kssl_cipherSuites_nentries = cnt;
c28749e9Skais	for (i = 0; i < cnt; i++)
c28749e9Skais		kssl_entry->kssl_saved_Suites[i] =
c28749e9Skais		    kssl_entry->kssl_cipherSuites[i];
c28749e9Skais
c28749e9Skais	kssl_entry->sid_cache = kmem_alloc(
c28749e9Skais	    kssl_entry->sid_cache_nentries * sizeof (kssl_sid_ent_t), KM_SLEEP);
c28749e9Skais
c28749e9Skais	for (i = 0; i < kssl_entry->sid_cache_nentries; i++) {
c28749e9Skais		mutex_init(&(kssl_entry->sid_cache[i].se_lock), NULL,
c28749e9Skais		    MUTEX_DEFAULT, NULL);
c28749e9Skais		kssl_entry->sid_cache[i].se_used = 0;
c28749e9Skais		kssl_entry->sid_cache[i].se_sid.cached = B_FALSE;
c28749e9Skais	}
c28749e9Skais
c28749e9Skais	KSSL_ENTRY_REFHOLD(kssl_entry);
c28749e9Skais
c28749e9Skais	return (kssl_entry);
c28749e9Skais}
c28749e9Skais
c28749e9Skaisint
c28749e9Skaiskssl_add_entry(kssl_params_t *kssl_params)
c28749e9Skais{
c28749e9Skais	int rv, index, i;
c28749e9Skais	Certificate_t *cert;
c28749e9Skais	crypto_key_t *privkey;
c28749e9Skais	kssl_entry_t *kssl_entry;
2ec7cc7fSKrishna Yenduri	in6_addr_t laddr;
c28749e9Skais
c28749e9Skais	if ((rv = extract_certificate(kssl_params, &cert)) != 0) {
c28749e9Skais		return (rv);
c28749e9Skais	}
c28749e9Skais
c28749e9Skais	if ((rv = extract_private_key(kssl_params, &privkey)) != 0) {
c28749e9Skais		certificate_free(cert);
c28749e9Skais		return (rv);
c28749e9Skais	}
c28749e9Skais
c28749e9Skais	kssl_entry = create_kssl_entry(kssl_params, cert, privkey);
c892ebf1Skrishna	if (kssl_entry == NULL) {
c892ebf1Skrishna		certificate_free(cert);
c892ebf1Skrishna		privateKey_free(privkey);
c892ebf1Skrishna		return (EINVAL);
c892ebf1Skrishna	}
c28749e9Skais
2ec7cc7fSKrishna Yenduri	laddr = kssl_params->kssl_addr.sin6_addr;
c28749e9Skais
c28749e9Skaisretry:
c28749e9Skais	mutex_enter(&kssl_tab_mutex);
c28749e9Skais	/* Allocate the array first time here */
c28749e9Skais	if (kssl_entry_tab == NULL) {
c28749e9Skais		size_t allocsize;
c28749e9Skais		kssl_entry_t **tmp_tab;
c28749e9Skais		int tmp_size;
c28749e9Skais
c28749e9Skais		tmp_size = KSSL_TAB_INITSIZE;
c28749e9Skais		allocsize = tmp_size * sizeof (kssl_entry_t *);
c28749e9Skais		mutex_exit(&kssl_tab_mutex);
c28749e9Skais		tmp_tab = kmem_zalloc(allocsize, KM_SLEEP);
c28749e9Skais		mutex_enter(&kssl_tab_mutex);
c28749e9Skais		if (kssl_entry_tab != NULL) {
c28749e9Skais			mutex_exit(&kssl_tab_mutex);
c28749e9Skais			kmem_free(tmp_tab, allocsize);
c28749e9Skais			goto retry;
c28749e9Skais		}
c28749e9Skais		kssl_entry_tab_size = tmp_size;
c28749e9Skais		kssl_entry_tab = tmp_tab;
c28749e9Skais		index = 0;
c28749e9Skais	} else {
c28749e9Skais		/* Check if a matching entry exists already */
c28749e9Skais		index = kssl_find_entry(laddr,
2ec7cc7fSKrishna Yenduri		    kssl_params->kssl_addr.sin6_port, IS_SSL_PORT, B_TRUE);
c28749e9Skais
c28749e9Skais		if (index == -1) {
c28749e9Skais			/* Check if an entry with the same proxy port exists */
c28749e9Skais			if (kssl_find_entry(laddr, kssl_params->kssl_proxy_port,
c28749e9Skais			    IS_PROXY_PORT, B_TRUE) != -1) {
c28749e9Skais				mutex_exit(&kssl_tab_mutex);
c28749e9Skais				kssl_free_entry(kssl_entry);
c28749e9Skais				return (EADDRINUSE);
c28749e9Skais			}
c28749e9Skais
c28749e9Skais			/* No matching entry, find an empty spot */
c28749e9Skais			for (i = 0; i < kssl_entry_tab_size; i++) {
c28749e9Skais				if (kssl_entry_tab[i] == NULL)
c28749e9Skais					break;
c28749e9Skais			}
c28749e9Skais			/* Table full. Gotta grow it */
c28749e9Skais			if (i == kssl_entry_tab_size) {
c28749e9Skais				kssl_entry_t **new_tab, **old_tab;
c28749e9Skais				size_t allocsize;
c28749e9Skais				size_t oldtabsize = kssl_entry_tab_size *
c28749e9Skais				    sizeof (kssl_entry_t *);
c28749e9Skais				int tmp_size, old_size;
c28749e9Skais
c28749e9Skais				tmp_size = old_size = kssl_entry_tab_size;
c28749e9Skais				tmp_size += KSSL_TAB_INITSIZE;
c28749e9Skais				allocsize = tmp_size * sizeof (kssl_entry_t *);
c28749e9Skais				mutex_exit(&kssl_tab_mutex);
c28749e9Skais				new_tab = kmem_zalloc(allocsize, KM_SLEEP);
c28749e9Skais				mutex_enter(&kssl_tab_mutex);
c28749e9Skais				if (kssl_entry_tab_size > old_size) {
c28749e9Skais					mutex_exit(&kssl_tab_mutex);
c28749e9Skais					kmem_free(new_tab, allocsize);
c28749e9Skais					goto retry;
c28749e9Skais				}
c28749e9Skais
c28749e9Skais				kssl_entry_tab_size = tmp_size;
c28749e9Skais				bcopy(kssl_entry_tab, new_tab, oldtabsize);
c28749e9Skais
c28749e9Skais				old_tab = kssl_entry_tab;
c28749e9Skais				kssl_entry_tab = new_tab;
c28749e9Skais
c28749e9Skais				kmem_free(old_tab, oldtabsize);
c28749e9Skais			}
c28749e9Skais			index = i;
c28749e9Skais		} else {
2ec7cc7fSKrishna Yenduri			kssl_entry_t *ep;
2ec7cc7fSKrishna Yenduri
c28749e9Skais			/*
c28749e9Skais			 * We do not want an entry with a specific address and
c28749e9Skais			 * an entry with IN_ADDR_ANY to coexist. We could
c28749e9Skais			 * replace the existing entry. But, most likely this
c28749e9Skais			 * is misconfiguration. Better bail out with an error.
c28749e9Skais			 */
2ec7cc7fSKrishna Yenduri			ep = kssl_entry_tab[index];
2ec7cc7fSKrishna Yenduri
2ec7cc7fSKrishna Yenduri			if ((IN6_IS_ADDR_UNSPECIFIED(&laddr) &&
2ec7cc7fSKrishna Yenduri			    !IN6_IS_ADDR_UNSPECIFIED(&ep->ke_laddr)) ||
2ec7cc7fSKrishna Yenduri			    (!IN6_IS_ADDR_UNSPECIFIED(&laddr) &&
2ec7cc7fSKrishna Yenduri			    IN6_IS_ADDR_UNSPECIFIED(&ep->ke_laddr))) {
c28749e9Skais				mutex_exit(&kssl_tab_mutex);
c28749e9Skais				kssl_free_entry(kssl_entry);
c28749e9Skais				return (EEXIST);
c28749e9Skais			}
c28749e9Skais
c28749e9Skais			/* Replace the existing entry */
c28749e9Skais			KSSL_ENTRY_REFRELE(kssl_entry_tab[index]);
c28749e9Skais			kssl_entry_tab[index] = NULL;
c28749e9Skais			kssl_entry_tab_nentries--;
c28749e9Skais		}
c28749e9Skais	}
c28749e9Skais
c28749e9Skais	kssl_entry_tab[index] = kssl_entry;
c28749e9Skais	kssl_entry_tab_nentries++;
c28749e9Skais	mutex_exit(&kssl_tab_mutex);
c28749e9Skais
c28749e9Skais	return (0);
c28749e9Skais}
c28749e9Skais
c28749e9Skaisint
2ec7cc7fSKrishna Yendurikssl_delete_entry(struct sockaddr_in6 *kssl_addr)
c28749e9Skais{
2ec7cc7fSKrishna Yenduri	in6_addr_t laddr;
c28749e9Skais	int index;
c28749e9Skais
2ec7cc7fSKrishna Yenduri	laddr = kssl_addr->sin6_addr;
c28749e9Skais
c28749e9Skais	mutex_enter(&kssl_tab_mutex);
2ec7cc7fSKrishna Yenduri	index = kssl_find_entry(laddr, kssl_addr->sin6_port,
c28749e9Skais	    IS_SSL_PORT, B_FALSE);
c28749e9Skais
c28749e9Skais	if (index == -1) {
c28749e9Skais		mutex_exit(&kssl_tab_mutex);
c28749e9Skais		return (ENOENT);
c28749e9Skais	}
c28749e9Skais
c28749e9Skais	KSSL_ENTRY_REFRELE(kssl_entry_tab[index]);
c28749e9Skais	kssl_entry_tab[index] = NULL;
c28749e9Skais	kssl_entry_tab_nentries--;
c28749e9Skais
c28749e9Skais	mutex_exit(&kssl_tab_mutex);
c28749e9Skais
c28749e9Skais	return (0);
c28749e9Skais}
c892ebf1Skrishna
c892ebf1Skrishna/*
c892ebf1Skrishna * We care about only one private key object.
c892ebf1Skrishna * So, set the max count to only 1.
c892ebf1Skrishna */
c892ebf1Skrishna#define	MAX_OBJECT_COUNT	1
c892ebf1Skrishna
c892ebf1Skrishna/*
c892ebf1Skrishna * Open a session to the provider specified by the label and
c892ebf1Skrishna * authenticate to it. Find the private key object with the
c892ebf1Skrishna * specified  attributes and save the handle. The userland component
c892ebf1Skrishna * must set all the attributes in the template so as to uniquely
c892ebf1Skrishna * identify the object.
c892ebf1Skrishna *
c892ebf1Skrishna * Note that the handle will be invalid if we logout or close
c892ebf1Skrishna * the session to the provider.
c892ebf1Skrishna */
c892ebf1Skrishnaint
c892ebf1Skrishnakssl_get_obj_handle(kssl_entry_t *kp)
c892ebf1Skrishna{
c892ebf1Skrishna	int rv;
c892ebf1Skrishna	unsigned int count;
c892ebf1Skrishna	void *cookie = NULL;
c892ebf1Skrishna	crypto_provider_t prov;
c892ebf1Skrishna	kssl_session_info_t *s;
c892ebf1Skrishna	crypto_session_id_t sid;
c892ebf1Skrishna	crypto_object_attribute_t *attrs;
c892ebf1Skrishna	crypto_object_id_t ohndl[MAX_OBJECT_COUNT];
c892ebf1Skrishna	char label[CRYPTO_EXT_SIZE_LABEL + 1];
c892ebf1Skrishna
c892ebf1Skrishna	ASSERT(kp->ke_is_nxkey);
c892ebf1Skrishna	s = kp->ke_sessinfo;
c892ebf1Skrishna
c892ebf1Skrishna	bcopy(s->toklabel, label, CRYPTO_EXT_SIZE_LABEL);
c892ebf1Skrishna	label[CRYPTO_EXT_SIZE_LABEL] = '\0';
c892ebf1Skrishna	prov = crypto_get_provider(label, NULL, NULL);
c892ebf1Skrishna	if (prov == NULL)
c892ebf1Skrishna		return (CRYPTO_UNKNOWN_PROVIDER);
c892ebf1Skrishna
c892ebf1Skrishna	rv = crypto_session_open(prov, &sid, NULL);
c892ebf1Skrishna	if (rv != CRYPTO_SUCCESS) {
c892ebf1Skrishna		goto err1;
c892ebf1Skrishna	}
c892ebf1Skrishna
c892ebf1Skrishna	rv = crypto_session_login(prov, sid, CRYPTO_USER,
c892ebf1Skrishna	    s->tokpin, s->pinlen, NULL);
c892ebf1Skrishna	if (rv != CRYPTO_SUCCESS) {
c892ebf1Skrishna		goto err2;
c892ebf1Skrishna	}
c892ebf1Skrishna
c892ebf1Skrishna	count = kp->ke_private_key->ck_count;
c892ebf1Skrishna	attrs = kp->ke_private_key->ck_attrs;
c892ebf1Skrishna
c892ebf1Skrishna	rv = crypto_object_find_init(prov, sid, attrs, count, &cookie, NULL);
c892ebf1Skrishna	if (rv != CRYPTO_SUCCESS) {
c892ebf1Skrishna		goto err3;
c892ebf1Skrishna	}
c892ebf1Skrishna
c892ebf1Skrishna	rv = crypto_object_find(prov, cookie, ohndl, &count,
c892ebf1Skrishna	    MAX_OBJECT_COUNT, NULL);
c892ebf1Skrishna	if (rv != CRYPTO_SUCCESS || count == 0) {
c892ebf1Skrishna		if (count == 0)
c892ebf1Skrishna			rv = CRYPTO_FAILED;
c892ebf1Skrishna		goto err3;
c892ebf1Skrishna	}
c892ebf1Skrishna
c892ebf1Skrishna	(void) crypto_object_find_final(prov, cookie, NULL);
c892ebf1Skrishna
c892ebf1Skrishna	s->sid = sid;
c892ebf1Skrishna	s->prov = prov;
c892ebf1Skrishna	s->key.ck_format = CRYPTO_KEY_REFERENCE;
c892ebf1Skrishna	/* Keep the handle around for later use */
c892ebf1Skrishna	s->key.ck_obj_id = ohndl[0];
c892ebf1Skrishna
c892ebf1Skrishna	return (CRYPTO_SUCCESS);
c892ebf1Skrishna
c892ebf1Skrishnaerr3:
c892ebf1Skrishna	(void) crypto_session_logout(prov, sid, NULL);
c892ebf1Skrishnaerr2:
c892ebf1Skrishna	(void) crypto_session_close(prov, sid, NULL);
c892ebf1Skrishnaerr1:
c892ebf1Skrishna	crypto_release_provider(prov);
c892ebf1Skrishna	return (rv);
c892ebf1Skrishna}