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author	Florian Fainelli <florian@openwrt.org>	2007-10-10 14:03:16 +0000
committer	Florian Fainelli <florian@openwrt.org>	2007-10-10 14:03:16 +0000
commit	2413261e97ffaa8c28b22f385a182c8626cff5c9 (patch)
tree	566355574ba0ee857b9b3aad7dc3c26b8b753b34 /scripts/metadata.pl
parent	6058b35c5f6dcc4d4521b05b6adac972767839b7 (diff)
download	upstream-2413261e97ffaa8c28b22f385a182c8626cff5c9.tar.gz upstream-2413261e97ffaa8c28b22f385a182c8626cff5c9.tar.bz2 upstream-2413261e97ffaa8c28b22f385a182c8626cff5c9.zip

Upgrade au1000 to 2.6.23

git-svn-id: svn://svn.openwrt.org/openwrt/trunk@9243 3c298f89-4303-0410-b956-a3cf2f4a3e73

Diffstat (limited to 'scripts/metadata.pl')

0 files changed, 0 insertions, 0 deletions

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/****************************************************************
 * acm_simple_type_enforcement_hooks.c
 * 
 * Copyright (C) 2005 IBM Corporation
 *
 * Author:
 * Reiner Sailer <sailer@watson.ibm.com>
 *
 * Contributors:
 * Stefan Berger <stefanb@watson.ibm.com>
 *         support for network order binary policies
 *
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License as
 * published by the Free Software Foundation, version 2 of the
 * License.
 *
 * sHype Simple Type Enforcement for Xen
 *     STE allows to control which domains can setup sharing
 *     (eventchannels right now) with which other domains. Hooks
 *     are defined and called throughout Xen when domains bind to
 *     shared resources (setup eventchannels) and a domain is allowed
 *     to setup sharing with another domain if and only if both domains
 *     share at least on common type.
 *
 */

#include <xen/lib.h>
#include <asm/types.h>
#include <asm/current.h>
#include <asm/atomic.h>
#include <xsm/acm/acm_hooks.h>
#include <xsm/acm/acm_endian.h>
#include <xsm/acm/acm_core.h>

ssidref_t dom0_ste_ssidref = 0x0001;

/* local cache structures for STE policy */
struct ste_binary_policy ste_bin_pol;

static inline int have_common_type (ssidref_t ref1, ssidref_t ref2)
{
    int i;

    if ( ref1 >= 0 && ref1 < ste_bin_pol.max_ssidrefs &&
         ref2 >= 0 && ref2 < ste_bin_pol.max_ssidrefs )
    {
        for( i = 0; i< ste_bin_pol.max_types; i++ )
            if ( ste_bin_pol.ssidrefs[ref1 * ste_bin_pol.max_types + i] &&
                 ste_bin_pol.ssidrefs[ref2 * ste_bin_pol.max_types + i])
            {
                printkd("%s: common type #%02x.\n", __func__, i);
                return 1;
            }
    }
    return 0;
}

static inline int is_superset(ssidref_t ref1, ssidref_t ref2)
{
    int i;

    if ( ref1 >= 0 && ref1 < ste_bin_pol.max_ssidrefs &&
         ref2 >= 0 && ref2 < ste_bin_pol.max_ssidrefs )
    {
        for( i = 0; i< ste_bin_pol.max_types; i++ )
            if (!ste_bin_pol.ssidrefs[ref1 * ste_bin_pol.max_types + i] &&
                 ste_bin_pol.ssidrefs[ref2 * ste_bin_pol.max_types + i])
            {
                return 0;
            }
    } else {
        return 0;
    }
    return 1;
}


/* Helper function: return = (subj and obj share a common type) */
static int share_common_type(struct domain *subj, struct domain *obj)
{
    ssidref_t ref_s, ref_o;
    int ret;

    if ( (subj == NULL) || (obj == NULL) ||
         (subj->ssid == NULL) || (obj->ssid == NULL) )
        return 0;

    read_lock(&acm_bin_pol_rwlock);

    /* lookup the policy-local ssids */
    ref_s = ((struct ste_ssid *)(GET_SSIDP(ACM_SIMPLE_TYPE_ENFORCEMENT_POLICY,
                       (struct acm_ssid_domain *)subj->ssid)))->ste_ssidref;
    ref_o = ((struct ste_ssid *)(GET_SSIDP(ACM_SIMPLE_TYPE_ENFORCEMENT_POLICY, 
                       (struct acm_ssid_domain *)obj->ssid)))->ste_ssidref;
    /* check whether subj and obj share a common ste type */
    ret = have_common_type(ref_s, ref_o);

    read_unlock(&acm_bin_pol_rwlock);

    return ret;
}

/*
 * Initializing STE policy (will be filled by policy partition
 * using setpolicy command)
 */
int acm_init_ste_policy(void)
{
    /* minimal startup policy; policy write-locked already */
    ste_bin_pol.max_types = 1;
    ste_bin_pol.max_ssidrefs = 1 + dom0_ste_ssidref;
    ste_bin_pol.ssidrefs =
            (domaintype_t *)xmalloc_array(domaintype_t,
                                          ste_bin_pol.max_types *
                                          ste_bin_pol.max_ssidrefs);

    if (ste_bin_pol.ssidrefs == NULL)
        return ACM_INIT_SSID_ERROR;

    memset(ste_bin_pol.ssidrefs, 0, sizeof(domaintype_t) *
                                    ste_bin_pol.max_types *
                                    ste_bin_pol.max_ssidrefs);

    /* initialize state so that dom0 can start up and communicate with itself */
    ste_bin_pol.ssidrefs[ste_bin_pol.max_types * dom0_ste_ssidref] = 1;

    /* init stats */
    atomic_set(&(ste_bin_pol.ec_eval_count), 0);
    atomic_set(&(ste_bin_pol.ec_denied_count), 0);
    atomic_set(&(ste_bin_pol.ec_cachehit_count), 0);
    atomic_set(&(ste_bin_pol.gt_eval_count), 0);
    atomic_set(&(ste_bin_pol.gt_denied_count), 0);
    atomic_set(&(ste_bin_pol.gt_cachehit_count), 0);

    return ACM_OK;
}


/* ste initialization function hooks */
static int
ste_init_domain_ssid(void **ste_ssid, ssidref_t ssidref)
{
    int i;
    struct ste_ssid *ste_ssidp = xmalloc(struct ste_ssid);

    if ( ste_ssidp == NULL )
        return ACM_INIT_SSID_ERROR;

    /* get policy-local ssid reference */
    ste_ssidp->ste_ssidref = GET_SSIDREF(ACM_SIMPLE_TYPE_ENFORCEMENT_POLICY,
                                         ssidref);

    if ( (ste_ssidp->ste_ssidref >= ste_bin_pol.max_ssidrefs) )
    {
        printkd("%s: ERROR ste_ssidref (%x) undefined or unset (0).\n",
                __func__, ste_ssidp->ste_ssidref);
        xfree(ste_ssidp);
        return ACM_INIT_SSID_ERROR;
    }
    /* clean ste cache */
    for ( i = 0; i < ACM_TE_CACHE_SIZE; i++ )
        ste_ssidp->ste_cache[i].valid = ACM_STE_free;

    (*ste_ssid) = ste_ssidp;
    printkd("%s: determined ste_ssidref to %x.\n", 
            __func__, ste_ssidp->ste_ssidref);

    return ACM_OK;
}


static void
ste_free_domain_ssid(void *ste_ssid)
{
    xfree(ste_ssid);
    return;
}

/* dump type enforcement cache; policy read-locked already */
static int 
ste_dump_policy(u8 *buf, u32 buf_size) {
    struct acm_ste_policy_buffer *ste_buf =
                                  (struct acm_ste_policy_buffer *)buf;
    int ret = 0;

    if ( buf_size < sizeof(struct acm_ste_policy_buffer) )
        return -EINVAL;

    ste_buf->ste_max_types = cpu_to_be32(ste_bin_pol.max_types);
    ste_buf->ste_max_ssidrefs = cpu_to_be32(ste_bin_pol.max_ssidrefs);
    ste_buf->policy_code = cpu_to_be32(ACM_SIMPLE_TYPE_ENFORCEMENT_POLICY);
    ste_buf->ste_ssid_offset =
                           cpu_to_be32(sizeof(struct acm_ste_policy_buffer));
    ret = be32_to_cpu(ste_buf->ste_ssid_offset) +
        sizeof(domaintype_t)*ste_bin_pol.max_ssidrefs*ste_bin_pol.max_types;

    ret = (ret + 7) & ~7;

    if (buf_size < ret)
        return -EINVAL;

    /* now copy buffer over */
    arrcpy(buf + be32_to_cpu(ste_buf->ste_ssid_offset),
           ste_bin_pol.ssidrefs,
           sizeof(domaintype_t),
           ste_bin_pol.max_ssidrefs*ste_bin_pol.max_types);

    return ret;
}

/*
 * ste_init_state is called when a policy is changed to detect violations
 * (return != 0). from a security point of view, we simulate that all
 * running domains are re-started and all sharing decisions are replayed
 * to detect violations or current sharing behavior (right now:
 * event_channels, future: also grant_tables)
 */ 
static int
ste_init_state(struct acm_sized_buffer *errors)
{
    int violation = 1;
    struct ste_ssid *ste_ssid, *ste_rssid;
    ssidref_t ste_ssidref, ste_rssidref;
    struct domain *d, *rdom;
    domid_t rdomid;
    struct active_grant_entry *act;
    int port, i;

    rcu_read_lock(&domlist_read_lock);
    read_lock(&ssid_list_rwlock);

    /* go through all domains and adjust policy as if this domain was
       started now */

    for_each_domain ( d )
    {
        struct evtchn *ports;
        unsigned int bucket;

        ste_ssid = GET_SSIDP(ACM_SIMPLE_TYPE_ENFORCEMENT_POLICY, 
                             (struct acm_ssid_domain *)d->ssid);
        ste_ssidref = ste_ssid->ste_ssidref;
        traceprintk("%s: validating policy for eventch domain %x (ste-Ref=%x).\n",
                    __func__, d->domain_id, ste_ssidref);
        /* a) check for event channel conflicts */
        for ( bucket = 0; bucket < NR_EVTCHN_BUCKETS; bucket++ )
        {
            spin_lock(&d->evtchn_lock);
            ports = d->evtchn[bucket];
            if ( ports == NULL)
            {
                spin_unlock(&d->evtchn_lock);
                break;
            }

            for ( port = 0; port < EVTCHNS_PER_BUCKET; port++ )
            {
                if ( ports[port].state == ECS_INTERDOMAIN )
                {
                    rdom = ports[port].u.interdomain.remote_dom;
                    rdomid = rdom->domain_id;
                } else {
                    continue; /* port unused */
                }

                /* rdom now has remote domain */
                ste_rssid = GET_SSIDP(ACM_SIMPLE_TYPE_ENFORCEMENT_POLICY,
                                      (struct acm_ssid_domain *)(rdom->ssid));
                ste_rssidref = ste_rssid->ste_ssidref;
                traceprintk("%s: eventch: domain %x (ssidref %x) --> "
                            "domain %x (rssidref %x) used (port %x).\n",
                            __func__, d->domain_id, ste_ssidref,
                            rdom->domain_id, ste_rssidref, port);
                /* check whether on subj->ssid, obj->ssid share a common type*/
                if ( ! have_common_type(ste_ssidref, ste_rssidref) )
                {
                    printkd("%s: Policy violation in event channel domain "
                            "%x -> domain %x.\n",
                            __func__, d->domain_id, rdomid);
                    spin_unlock(&d->evtchn_lock);

                    acm_array_append_tuple(errors,
                                           ACM_EVTCHN_SHARING_VIOLATION,
                                           d->domain_id << 16 | rdomid);
                    goto out;
                }
            }
            spin_unlock(&d->evtchn_lock);
        } 


        /* b) check for grant table conflicts on shared pages */
        spin_lock(&d->grant_table->lock);
        for ( i = 0; i < nr_active_grant_frames(d->grant_table); i++ )
        {
#define APP (PAGE_SIZE / sizeof(struct active_grant_entry))
            act = &d->grant_table->active[i/APP][i%APP];
            if ( act->pin != 0 ) {
                printkd("%s: grant dom (%hu) SHARED (%d) pin (%d)  "
                        "dom:(%hu) frame:(%lx)\n",
                        __func__, d->domain_id, i, act->pin,
                        act->domid, (unsigned long)act->frame);
                rdomid = act->domid;
                if ( (rdom = rcu_lock_domain_by_id(rdomid)) == NULL )
                {
                    spin_unlock(&d->grant_table->lock);
                    printkd("%s: domain not found ERROR!\n", __func__);

                    acm_array_append_tuple(errors,
                                           ACM_DOMAIN_LOOKUP,
                                           rdomid);
                    goto out;
                }
                /* rdom now has remote domain */
                ste_rssid = GET_SSIDP(ACM_SIMPLE_TYPE_ENFORCEMENT_POLICY,
                                      (struct acm_ssid_domain *)(rdom->ssid));
                ste_rssidref = ste_rssid->ste_ssidref;
                rcu_unlock_domain(rdom);
                if ( ! have_common_type(ste_ssidref, ste_rssidref) )
                {
                    spin_unlock(&d->grant_table->lock);
                    printkd("%s: Policy violation in grant table "
                            "sharing domain %x -> domain %x.\n",
                            __func__, d->domain_id, rdomid);

                    acm_array_append_tuple(errors,
                                           ACM_GNTTAB_SHARING_VIOLATION,
                                           d->domain_id << 16 | rdomid);
                    goto out;
                }
            }
        }
        spin_unlock(&d->grant_table->lock);
    }
    violation = 0;
 out:
    read_unlock(&ssid_list_rwlock);
    rcu_read_unlock(&domlist_read_lock);
    return violation;
    /*
       returning "violation != 0" means that existing sharing between domains
       would not have been allowed if the new policy had been enforced before
       the sharing; for ste, this means that there are at least 2 domains
       that have established sharing through event-channels or grant-tables
       but these two domains don't have no longer a common type in their
       typesets referenced by their ssidrefs
      */
}


/*
 * Call ste_init_state with the current policy.
 */
int
do_ste_init_state_curr(struct acm_sized_buffer *errors)
{
    return ste_init_state(errors);
}


/* set new policy; policy write-locked already */
static int
_ste_update_policy(u8 *buf, u32 buf_size, int test_only,
                   struct acm_sized_buffer *errors)
{
    int rc = -EFAULT;
    struct acm_ste_policy_buffer *ste_buf =
                                 (struct acm_ste_policy_buffer *)buf;
    void *ssidrefsbuf;
    struct ste_ssid *ste_ssid;
    struct acm_ssid_domain *rawssid;
    int i;


    /* 1. create and copy-in new ssidrefs buffer */
    ssidrefsbuf = xmalloc_array(u8,
                                sizeof(domaintype_t) *
                                 ste_buf->ste_max_types *
                                 ste_buf->ste_max_ssidrefs);
    if ( ssidrefsbuf == NULL ) {
        return -ENOMEM;
    }
    if ( ste_buf->ste_ssid_offset +
         sizeof(domaintype_t) *
         ste_buf->ste_max_ssidrefs *
         ste_buf->ste_max_types > buf_size )
        goto error_free;

    arrcpy(ssidrefsbuf, 
           buf + ste_buf->ste_ssid_offset,
           sizeof(domaintype_t),
           ste_buf->ste_max_ssidrefs*ste_buf->ste_max_types);


    /*
     * 3. in test mode: re-calculate sharing decisions based on running
     *    domains; this can fail if new policy is conflicting with sharing
     *    of running domains
     *    now: reject violating new policy; future: adjust sharing through
     *    revoking sharing
     */

    if ( test_only ) {
        /* temporarily replace old policy with new one for the testing */
        struct ste_binary_policy orig_ste_bin_pol = ste_bin_pol;
        ste_bin_pol.max_types = ste_buf->ste_max_types;
        ste_bin_pol.max_ssidrefs = ste_buf->ste_max_ssidrefs;
        ste_bin_pol.ssidrefs = (domaintype_t *)ssidrefsbuf;

        if ( ste_init_state(errors) )
        {
            /* new policy conflicts with sharing of running domains */
            printk("%s: New policy conflicts with running domains. "
                   "Policy load aborted.\n", __func__);
        } else {
            rc = ACM_OK;
        }
        /* revert changes, no matter whether testing was successful or not */
        ste_bin_pol = orig_ste_bin_pol;
        goto error_free;
    }

    /* 3. replace old policy (activate new policy) */
    ste_bin_pol.max_types = ste_buf->ste_max_types;
    ste_bin_pol.max_ssidrefs = ste_buf->ste_max_ssidrefs;
    xfree(ste_bin_pol.ssidrefs);
    ste_bin_pol.ssidrefs = (domaintype_t *)ssidrefsbuf;

    /* clear all ste caches */
    read_lock(&ssid_list_rwlock);

    for_each_acmssid( rawssid )
    {
        ste_ssid = GET_SSIDP(ACM_SIMPLE_TYPE_ENFORCEMENT_POLICY, rawssid);
        for ( i = 0; i < ACM_TE_CACHE_SIZE; i++ )
            ste_ssid->ste_cache[i].valid = ACM_STE_free;
    }

    read_unlock(&ssid_list_rwlock);

    return ACM_OK;

 error_free:
    if ( !test_only )
        printk("%s: ERROR setting policy.\n", __func__);
    xfree(ssidrefsbuf);
    return rc;
}

static int
ste_test_policy(u8 *buf, u32 buf_size, int is_bootpolicy,
                struct acm_sized_buffer *errors)
{
    struct acm_ste_policy_buffer *ste_buf =
             (struct acm_ste_policy_buffer *)buf;

    if ( buf_size < sizeof(struct acm_ste_policy_buffer) )
        return -EINVAL;

    /* Convert endianess of policy */
    ste_buf->policy_code = be32_to_cpu(ste_buf->policy_code);
    ste_buf->policy_version = be32_to_cpu(ste_buf->policy_version);
    ste_buf->ste_max_types = be32_to_cpu(ste_buf->ste_max_types);
    ste_buf->ste_max_ssidrefs = be32_to_cpu(ste_buf->ste_max_ssidrefs);
    ste_buf->ste_ssid_offset = be32_to_cpu(ste_buf->ste_ssid_offset);

    /* policy type and version checks */
    if ( (ste_buf->policy_code != ACM_SIMPLE_TYPE_ENFORCEMENT_POLICY) ||
         (ste_buf->policy_version != ACM_STE_VERSION) )
        return -EINVAL;

    /* during boot dom0_chwall_ssidref is set */
    if ( is_bootpolicy && (dom0_ste_ssidref >= ste_buf->ste_max_ssidrefs) )
        return -EINVAL;

    return _ste_update_policy(buf, buf_size, 1, errors);
}

static int
ste_set_policy(u8 *buf, u32 buf_size)
{
    return _ste_update_policy(buf, buf_size, 0, NULL);
}

static int 
ste_dump_stats(u8 *buf, u16 buf_len)
{
    struct acm_ste_stats_buffer stats;

    /* now send the hook counts to user space */
    stats.ec_eval_count =
                    cpu_to_be32(atomic_read(&ste_bin_pol.ec_eval_count));
    stats.gt_eval_count =
                    cpu_to_be32(atomic_read(&ste_bin_pol.gt_eval_count));
    stats.ec_denied_count =
                    cpu_to_be32(atomic_read(&ste_bin_pol.ec_denied_count));
    stats.gt_denied_count =
                    cpu_to_be32(atomic_read(&ste_bin_pol.gt_denied_count));
    stats.ec_cachehit_count =
                    cpu_to_be32(atomic_read(&ste_bin_pol.ec_cachehit_count));
    stats.gt_cachehit_count =
                    cpu_to_be32(atomic_read(&ste_bin_pol.gt_cachehit_count));

    if ( buf_len < sizeof(struct acm_ste_stats_buffer) )
        return -ENOMEM;

    memcpy(buf, &stats, sizeof(struct acm_ste_stats_buffer));

    return sizeof(struct acm_ste_stats_buffer);
}

static int
ste_dump_ssid_types(ssidref_t ssidref, u8 *buf, u16 len)
{
    int i;

    /* fill in buffer */
    if ( ste_bin_pol.max_types > len )
        return -EFAULT;

    if ( ssidref >= ste_bin_pol.max_ssidrefs )
        return -EFAULT;

    /* read types for chwall ssidref */
    for( i = 0; i< ste_bin_pol.max_types; i++ )
    {
        if (ste_bin_pol.ssidrefs[ssidref * ste_bin_pol.max_types + i])
            buf[i] = 1;
        else
            buf[i] = 0;
    }
    return ste_bin_pol.max_types;
}

/* we need to go through this before calling the hooks,
 * returns 1 == cache hit */
static int inline
check_cache(struct domain *dom, domid_t rdom)
{
    struct ste_ssid *ste_ssid;
    int i;

    printkd("checking cache: %x --> %x.\n", dom->domain_id, rdom);


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