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|
/*
* Copyright (c) 2005 Massachusetts Institute of Technology
*
* Permission is hereby granted, free of charge, to any person
* obtaining a copy of this software and associated documentation
* files (the "Software"), to deal in the Software without
* restriction, including without limitation the rights to use, copy,
* modify, merge, publish, distribute, sublicense, and/or sell copies
* of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
/* $Id$ */
#include<kcreddbinternal.h>
#include<assert.h>
CRITICAL_SECTION cs_credset;
kcdb_credset * kcdb_credsets = NULL;
kcdb_credset * kcdb_root_credset = NULL;
void
kcdb_credset_init(void)
{
khm_handle rc;
InitializeCriticalSection(&cs_credset);
kcdb_credsets = NULL;
kcdb_credset_create(&rc);
kcdb_root_credset = (kcdb_credset *) rc;
kcdb_root_credset->flags |= KCDB_CREDSET_FLAG_ROOT;
}
void
kcdb_credset_exit(void)
{
/*TODO: free the credsets */
DeleteCriticalSection(&cs_credset);
}
/* called on an unreleased credset, or with credset::cs held */
void
kcdb_credset_buf_new(kcdb_credset * cs)
{
cs->clist = PMALLOC(KCDB_CREDSET_INITIAL_SIZE *
sizeof(kcdb_credset_credref));
ZeroMemory(cs->clist,
KCDB_CREDSET_INITIAL_SIZE *
sizeof(kcdb_credset_credref));
cs->nc_clist = KCDB_CREDSET_INITIAL_SIZE;
cs->nclist = 0;
}
/* called on an unreleased credset, or with credset::cs held */
void
kcdb_credset_buf_delete(kcdb_credset * cs)
{
PFREE(cs->clist);
cs->nc_clist = 0;
cs->nclist = 0;
}
void
kcdb_credset_buf_assert_size(kcdb_credset * cs, khm_int32 nclist)
{
if(cs->nc_clist < nclist) {
kcdb_credset_credref * new_clist;
/* nclist had better be greater than KCDB_CREDSET_INITIAL_SIZE */
nclist = KCDB_CREDSET_INITIAL_SIZE +
(((nclist - (KCDB_CREDSET_INITIAL_SIZE + 1)) / KCDB_CREDSET_GROWTH_FACTOR) + 1) *
KCDB_CREDSET_GROWTH_FACTOR;
new_clist = PCALLOC(nclist, sizeof(kcdb_credset_credref));
memcpy(new_clist, cs->clist, cs->nclist * sizeof(kcdb_credset_credref));
PFREE(cs->clist);
cs->clist = new_clist;
}
}
KHMEXP khm_int32 KHMAPI
kcdb_credset_create(khm_handle * result)
{
kcdb_credset * cs;
cs = PMALLOC(sizeof(kcdb_credset));
ZeroMemory(cs, sizeof(kcdb_credset));
cs->magic = KCDB_CREDSET_MAGIC;
InitializeCriticalSection(&(cs->cs));
LINIT(cs);
kcdb_credset_buf_new(cs);
cs->version = 0;
cs->seal_count = 0;
EnterCriticalSection(&cs_credset);
LPUSH(&kcdb_credsets, cs);
LeaveCriticalSection(&cs_credset);
*result = (khm_handle) cs;
return KHM_ERROR_SUCCESS;
}
KHMEXP khm_int32 KHMAPI
kcdb_credset_delete(khm_handle vcredset)
{
kcdb_credset * cs;
int i;
if(!kcdb_credset_is_credset(vcredset)) {
return KHM_ERROR_INVALID_PARAM;
}
cs = (kcdb_credset *) vcredset;
EnterCriticalSection(&cs_credset);
LDELETE(&kcdb_credsets, cs);
LeaveCriticalSection(&cs_credset);
EnterCriticalSection(&(cs->cs));
cs->magic = 0;
for(i=0;i<cs->nclist;i++) {
if(cs->clist[i].cred) {
kcdb_cred_release((khm_handle) cs->clist[i].cred);
}
}
kcdb_credset_buf_delete(cs);
LeaveCriticalSection(&(cs->cs));
DeleteCriticalSection(&(cs->cs));
PFREE(cs);
return KHM_ERROR_SUCCESS;
}
/*! \internal
Collect credentials from cs2 to cs1 which have already been selected into
cl1 and cl2.
- Credentials in cl2 that are not in cl1 will get added to cs1
- Credentials in cl1 that are not in cl2 will get removed from cs1
- Credentials in cl1 and cl2 will be updated in cs1
cl1 and cl2 will be modified.
*/
khm_int32
kcdb_credset_collect_core(kcdb_credset * cs1,
kcdb_cred ** cl1,
khm_int32 ncl1,
kcdb_credset * cs2,
kcdb_cred ** cl2,
khm_int32 ncl2,
khm_int32 * delta)
{
int i, j;
int ldelta = 0;
khm_int32 rv;
/* find matching creds and update them */
for(i=0; i<ncl1; i++)
if(cl1[i]) {
for(j=0; j<ncl2; j++)
if(cl2[j] && kcdb_creds_is_equal((khm_handle) cl1[i], (khm_handle) cl2[j])) {
/* they are equivalent. make them equal */
/* depending on whether any changes were made,
update ldelta with the proper bit flag */
rv = kcdb_cred_update(cl1[i], cl2[j]);
if (rv == KHM_ERROR_SUCCESS) {
kcdb_credset_update_cred_ref((khm_handle) cs1, (khm_handle) cl1[i]);
ldelta |= KCDB_DELTA_MODIFY;
}
cl2[j] = NULL;
cl1[i] = NULL;
break;
}
}
/* all the creds that are left in cl1 need to be removed */
for(i=0; i<ncl1; i++)
if(cl1[i]) {
kcdb_credset_del_cred_ref((khm_handle) cs1, (khm_handle) cl1[i]);
cl1[i] = NULL;
ldelta |= KCDB_DELTA_DEL;
}
/* all the creds in cl2 need to be added to cs1 */
for(j=0; j<ncl2; j++)
if(cl2[j]) {
/* duplicate the credential and add it if we are adding it to the
root credential store. */
if(cs1 == kcdb_root_credset) {
khm_handle h;
if(KHM_SUCCEEDED(kcdb_cred_dup((khm_handle) cl2[j], &h))) {
kcdb_credset_add_cred((khm_handle) cs1, h, -1);
kcdb_cred_release(h);
}
} else
kcdb_credset_add_cred((khm_handle) cs1, cl2[j], -1);
cl2[j] = NULL;
ldelta |= KCDB_DELTA_ADD;
}
if(delta)
*delta = ldelta;
if((cs1 == kcdb_root_credset) && ldelta) {
/* something changed in the root credential set */
kmq_post_message(KMSG_CRED,KMSG_CRED_ROOTDELTA,ldelta,NULL);
}
return KHM_ERROR_SUCCESS;
}
KHMEXP khm_int32 KHMAPI
kcdb_credset_collect(khm_handle cs_dest,
khm_handle cs_src,
khm_handle identity,
khm_int32 type,
khm_int32 * delta)
{
kcdb_credset * cs;
kcdb_credset * rcs;
khm_int32 code = KHM_ERROR_SUCCESS;
kcdb_cred ** r_sel = NULL;
kcdb_cred ** c_sel = NULL;
int nr_sel, nc_sel;
int i;
if((cs_src && !kcdb_credset_is_credset(cs_src)) ||
(cs_dest && !kcdb_credset_is_credset(cs_dest)) ||
(cs_src == cs_dest)) /* works because credsets use shared
handles */
return KHM_ERROR_INVALID_PARAM;
if(identity && !kcdb_is_active_identity(identity))
return KHM_ERROR_INVALID_PARAM;
if(cs_src)
cs = (kcdb_credset *) cs_src;
else
cs = kcdb_root_credset;
if(cs_dest)
rcs = (kcdb_credset *) cs_dest;
else
rcs = kcdb_root_credset;
if (kcdb_credset_is_sealed(rcs))
return KHM_ERROR_INVALID_OPERATION;
EnterCriticalSection(&(cs->cs));
EnterCriticalSection(&(rcs->cs));
/* enumerate through the root and given credential sets and select
the ones we want */
if(rcs->nclist > 0)
r_sel = PMALLOC(sizeof(kcdb_cred *) * rcs->nclist);
if(cs->nclist > 0)
c_sel = PMALLOC(sizeof(kcdb_cred *) * cs->nclist);
nr_sel = 0;
nc_sel = 0;
for(i=0; i<rcs->nclist; i++) {
if(rcs->clist[i].cred &&
(!identity || rcs->clist[i].cred->identity == identity) &&
(type==KCDB_CREDTYPE_ALL || rcs->clist[i].cred->type == type))
{
r_sel[nr_sel++] = rcs->clist[i].cred;
}
}
for(i=0; i<cs->nclist; i++) {
if(cs->clist[i].cred &&
(!identity || cs->clist[i].cred->identity == identity) &&
(type==KCDB_CREDTYPE_ALL || cs->clist[i].cred->type == type))
{
c_sel[nc_sel++] = cs->clist[i].cred;
}
}
rcs->version++;
code = kcdb_credset_collect_core(
rcs,
r_sel,
nr_sel,
cs,
c_sel,
nc_sel,
delta);
LeaveCriticalSection(&(rcs->cs));
LeaveCriticalSection(&(cs->cs));
if(r_sel)
PFREE(r_sel);
if(c_sel)
PFREE(c_sel);
if (cs_dest == NULL) {
kcdb_identity_refresh_all();
}
return code;
}
KHMEXP khm_int32 KHMAPI
kcdb_credset_collect_filtered(khm_handle cs_dest,
khm_handle cs_src,
kcdb_cred_filter_func filter,
void * rock,
khm_int32 * delta)
{
kcdb_credset * cs;
kcdb_credset * rcs;
khm_int32 code = KHM_ERROR_SUCCESS;
kcdb_cred ** r_sel = NULL;
kcdb_cred ** c_sel = NULL;
int nr_sel, nc_sel;
int i;
khm_int32 cs_f = 0;
khm_int32 rcs_f = 0;
if((cs_src && !kcdb_credset_is_credset(cs_src)) ||
(cs_dest && !kcdb_credset_is_credset(cs_dest)) ||
(cs_src == cs_dest)) /* works because credsets use shared
handles */
return KHM_ERROR_INVALID_PARAM;
if(cs_src)
cs = (kcdb_credset *) cs_src;
else {
cs = kcdb_root_credset;
cs_f = KCDB_CREDCOLL_FILTER_ROOT;
}
if(cs_dest)
rcs = (kcdb_credset *) cs_dest;
else {
rcs = kcdb_root_credset;
rcs_f = KCDB_CREDCOLL_FILTER_ROOT;
}
if (kcdb_credset_is_sealed(rcs))
return KHM_ERROR_INVALID_OPERATION;
EnterCriticalSection(&(cs->cs));
EnterCriticalSection(&(rcs->cs));
#ifdef DEBUG
assert(!(rcs->flags & KCDB_CREDSET_FLAG_ENUM));
assert(!(cs->flags & KCDB_CREDSET_FLAG_ENUM));
#endif
if(rcs->nclist)
r_sel = PMALLOC(sizeof(kcdb_cred *) * rcs->nclist);
if(cs->nclist)
c_sel = PMALLOC(sizeof(kcdb_cred *) * cs->nclist);
nr_sel = 0;
nc_sel = 0;
rcs->flags |= KCDB_CREDSET_FLAG_ENUM;
for(i=0; i<rcs->nclist; i++) {
if(rcs->clist[i].cred &&
(*filter)((khm_handle)rcs->clist[i].cred,
KCDB_CREDCOLL_FILTER_DEST | rcs_f,
rock))
{
r_sel[nr_sel++] = rcs->clist[i].cred;
}
}
rcs->flags &= ~KCDB_CREDSET_FLAG_ENUM;
cs->flags |= KCDB_CREDSET_FLAG_ENUM;
for(i=0; i<cs->nclist; i++) {
if(cs->clist[i].cred && filter((khm_handle)rcs->clist[i].cred, KCDB_CREDCOLL_FILTER_SRC | cs_f, rock))
{
c_sel[nc_sel++] = cs->clist[i].cred;
}
}
cs->flags &= ~KCDB_CREDSET_FLAG_ENUM;
rcs->version++;
code = kcdb_credset_collect_core(
rcs,
r_sel,
nr_sel,
cs,
c_sel,
nc_sel,
delta);
LeaveCriticalSection(&(rcs->cs));
LeaveCriticalSection(&(cs->cs));
if(r_sel)
PFREE(r_sel);
if(c_sel)
PFREE(c_sel);
if (cs_dest == NULL) {
kcdb_identity_refresh_all();
}
return code;
}
KHMEXP khm_int32 KHMAPI
kcdb_credset_flush(khm_handle vcredset)
{
int i;
kcdb_credset * cs;
if(!kcdb_credset_is_credset(vcredset))
return KHM_ERROR_INVALID_PARAM;
cs = (kcdb_credset *) vcredset;
if (kcdb_credset_is_sealed(cs))
return KHM_ERROR_INVALID_OPERATION;
EnterCriticalSection(&(cs->cs));
#ifdef DEBUG
assert(!(cs->flags & KCDB_CREDSET_FLAG_ENUM));
#endif
for(i=0;i<cs->nclist;i++) {
if(cs->clist[i].cred) {
kcdb_cred_release((khm_handle) cs->clist[i].cred);
}
}
cs->nclist = 0;
LeaveCriticalSection(&(cs->cs));
return KHM_ERROR_SUCCESS;
}
KHMEXP khm_int32 KHMAPI
kcdb_credset_extract(khm_handle destcredset,
khm_handle sourcecredset,
khm_handle identity,
khm_int32 type)
{
khm_int32 code = KHM_ERROR_SUCCESS;
kcdb_credset * dest;
kcdb_credset * src;
int isRoot = 0;
khm_size srcSize = 0;
int i;
if(!kcdb_credset_is_credset(destcredset))
return KHM_ERROR_INVALID_PARAM;
if(sourcecredset) {
if(!kcdb_credset_is_credset(sourcecredset))
return KHM_ERROR_INVALID_PARAM;
} else {
sourcecredset = kcdb_root_credset;
}
if (sourcecredset == kcdb_root_credset)
isRoot = 1;
src = (kcdb_credset *) sourcecredset;
dest = (kcdb_credset *) destcredset;
if (kcdb_credset_is_sealed(dest))
return KHM_ERROR_INVALID_OPERATION;
EnterCriticalSection(&(src->cs));
EnterCriticalSection(&(dest->cs));
#ifdef DEBUG
assert(!(dest->flags & KCDB_CREDSET_FLAG_ENUM));
#endif
if(KHM_FAILED(kcdb_credset_get_size(sourcecredset, &srcSize))) {
code = KHM_ERROR_UNKNOWN;
goto _exit;
}
kcdb_cred_lock_read();
for(i=0; i < (int) srcSize; i++) {
kcdb_cred * c;
c = src->clist[i].cred;
if(kcdb_cred_is_active_cred((khm_handle) c) &&
(!identity || c->identity == identity) &&
(type < 0 || c->type == type))
{
if(isRoot) {
khm_handle newcred;
kcdb_cred_unlock_read();
kcdb_cred_dup((khm_handle) c, &newcred);
kcdb_credset_add_cred(destcredset, newcred, -1);
kcdb_cred_release(newcred);
kcdb_cred_lock_read();
} else {
kcdb_cred_unlock_read();
kcdb_credset_add_cred(destcredset, (khm_handle) c, -1);
kcdb_cred_lock_read();
}
}
}
kcdb_cred_unlock_read();
_exit:
LeaveCriticalSection(&(dest->cs));
LeaveCriticalSection(&(src->cs));
return code;
}
KHMEXP khm_int32 KHMAPI
kcdb_credset_extract_filtered(khm_handle destcredset,
khm_handle sourcecredset,
kcdb_cred_filter_func filter,
void * rock)
{
khm_int32 code = KHM_ERROR_SUCCESS;
kcdb_credset * dest;
kcdb_credset * src;
int isRoot = 0;
khm_size srcSize = 0;
int i;
if(!kcdb_credset_is_credset(destcredset))
return KHM_ERROR_INVALID_PARAM;
if(sourcecredset) {
if(!kcdb_credset_is_credset(sourcecredset))
return KHM_ERROR_INVALID_PARAM;
} else {
sourcecredset = kcdb_root_credset;
isRoot = 1;
}
src = (kcdb_credset *) sourcecredset;
dest = (kcdb_credset *) destcredset;
if (kcdb_credset_is_sealed(dest))
return KHM_ERROR_INVALID_OPERATION;
EnterCriticalSection(&(src->cs));
EnterCriticalSection(&(dest->cs));
#ifdef DEBUG
assert(!(dest->flags & KCDB_CREDSET_FLAG_ENUM));
#endif
if(KHM_FAILED(kcdb_credset_get_size(sourcecredset, &srcSize))) {
code = KHM_ERROR_UNKNOWN;
goto _exit;
}
kcdb_cred_lock_read();
dest->flags |= KCDB_CREDSET_FLAG_ENUM;
for(i=0; i < (int) srcSize; i++) {
kcdb_cred * c;
c = src->clist[i].cred;
if(kcdb_cred_is_active_cred((khm_handle) c) &&
filter(c, 0, rock))
{
if(isRoot) {
khm_handle newcred;
kcdb_cred_unlock_read();
kcdb_cred_dup((khm_handle) c, &newcred);
kcdb_credset_add_cred(destcredset, newcred, -1);
kcdb_cred_release(newcred);
kcdb_cred_lock_read();
} else {
kcdb_cred_unlock_read();
kcdb_credset_add_cred(destcredset, (khm_handle) c, -1);
kcdb_cred_lock_read();
}
}
}
dest->flags &= ~KCDB_CREDSET_FLAG_ENUM;
kcdb_cred_unlock_read();
_exit:
LeaveCriticalSection(&(dest->cs));
LeaveCriticalSection(&(src->cs));
return code;
}
KHMEXP khm_int32 KHMAPI
kcdb_credset_apply(khm_handle vcredset, kcdb_cred_apply_func f,
void * rock)
{
kcdb_credset * cs;
khm_int32 rv = KHM_ERROR_SUCCESS;
int i;
if(vcredset != NULL && !kcdb_credset_is_credset(vcredset))
return KHM_ERROR_INVALID_PARAM;
if(vcredset == NULL) {
cs = kcdb_root_credset;
} else {
cs = (kcdb_credset *) vcredset;
}
EnterCriticalSection(&cs->cs);
#ifdef DEBUG
assert(!(cs->flags & KCDB_CREDSET_FLAG_ENUM));
#endif
cs->flags |= KCDB_CREDSET_FLAG_ENUM;
for(i=0; i<cs->nclist; i++) {
if(!kcdb_cred_is_active_cred(cs->clist[i].cred))
continue;
if(KHM_FAILED(f((khm_handle) cs->clist[i].cred, rock)))
break;
}
cs->flags &= ~KCDB_CREDSET_FLAG_ENUM;
LeaveCriticalSection(&cs->cs);
if(i<cs->nclist)
rv = KHM_ERROR_EXIT;
return rv;
}
KHMEXP khm_int32 KHMAPI
kcdb_credset_get_cred(khm_handle vcredset,
khm_int32 idx,
khm_handle * cred)
{
kcdb_credset * cs;
khm_int32 code = KHM_ERROR_SUCCESS;
if(!kcdb_credset_is_credset(vcredset))
return KHM_ERROR_INVALID_PARAM;
cs = (kcdb_credset *) vcredset;
*cred = NULL;
EnterCriticalSection(&(cs->cs));
if(idx < 0 || idx >= cs->nclist)
code = KHM_ERROR_OUT_OF_BOUNDS;
else if(!cs->clist[idx].cred || !kcdb_cred_is_active_cred((khm_handle) cs->clist[idx].cred)) {
code = KHM_ERROR_DELETED;
if(cs->clist[idx].cred) {
kcdb_cred_release((khm_handle) cs->clist[idx].cred);
cs->clist[idx].cred = NULL;
}
}
else {
kcdb_cred_hold((khm_handle) cs->clist[idx].cred);
*cred = cs->clist[idx].cred;
}
LeaveCriticalSection(&(cs->cs));
return code;
}
KHMEXP khm_int32 KHMAPI
kcdb_credset_find_filtered(khm_handle credset,
khm_int32 idx_start,
kcdb_cred_filter_func f,
void * rock,
khm_handle * cred,
khm_int32 * idx)
{
kcdb_credset * cs;
khm_int32 rv = KHM_ERROR_SUCCESS;
int i;
if((credset && !kcdb_credset_is_credset(credset)) || !f)
return KHM_ERROR_INVALID_PARAM;
if(credset)
cs = (kcdb_credset *) credset;
else
cs = kcdb_root_credset;
EnterCriticalSection(&cs->cs);
if(idx_start < 0)
i = 0;
else
i = idx_start + 1;
#ifdef DEBUG
assert(!(cs->flags & KCDB_CREDSET_FLAG_ENUM));
#endif
cs->flags |= KCDB_CREDSET_FLAG_ENUM;
for(; i < cs->nclist; i++) {
if(kcdb_cred_is_active_cred(cs->clist[i].cred) &&
(*f)((khm_handle) cs->clist[i].cred, 0, rock) != 0)
break;
}
cs->flags &= ~KCDB_CREDSET_FLAG_ENUM;
if(i < cs->nclist) {
if (cred) {
*cred = (khm_handle) cs->clist[i].cred;
kcdb_cred_hold(*cred);
}
if(idx) {
*idx = i;
}
} else {
rv = KHM_ERROR_NOT_FOUND;
}
LeaveCriticalSection(&cs->cs);
return rv;
}
KHMEXP khm_int32 KHMAPI
kcdb_credset_find_cred(khm_handle vcredset,
khm_handle vcred_src,
khm_handle *cred_dest) {
kcdb_credset * cs;
khm_handle cred = NULL;
int idx;
if (!kcdb_credset_is_credset(vcredset))
return KHM_ERROR_INVALID_PARAM;
if (!kcdb_cred_is_active_cred(vcred_src))
return KHM_ERROR_INVALID_PARAM;
cs = (kcdb_credset *) vcredset;
EnterCriticalSection(&cs->cs);
for (idx = 0; idx < cs->nclist; idx++) {
if (cs->clist[idx].cred &&
kcdb_creds_is_equal(vcred_src, cs->clist[idx].cred)) {
cred = cs->clist[idx].cred;
break;
}
}
if (cred)
kcdb_cred_hold(cred);
LeaveCriticalSection(&cs->cs);
if (cred) {
if (cred_dest)
*cred_dest = cred;
else
kcdb_cred_release(cred);
return KHM_ERROR_SUCCESS;
} else {
return KHM_ERROR_NOT_FOUND;
}
}
KHMEXP khm_int32 KHMAPI
kcdb_credset_del_cred(khm_handle vcredset,
khm_int32 idx)
{
kcdb_credset * cs;
khm_int32 code = KHM_ERROR_SUCCESS;
if(!kcdb_credset_is_credset(vcredset))
return KHM_ERROR_INVALID_PARAM;
cs = (kcdb_credset *) vcredset;
if (kcdb_credset_is_sealed(cs))
return KHM_ERROR_INVALID_OPERATION;
EnterCriticalSection(&(cs->cs));
if(idx < 0 || idx >= cs->nclist) {
code = KHM_ERROR_INVALID_PARAM;
goto _exit;
}
if(cs->clist[idx].cred)
kcdb_cred_release((khm_handle) cs->clist[idx].cred);
if (!(cs->flags & KCDB_CREDSET_FLAG_ENUM)) {
if(idx + 1 < cs->nclist)
memmove(&(cs->clist[idx]),
&(cs->clist[idx+1]),
sizeof(kcdb_credset_credref) *
(cs->nclist - (idx + 1)));
cs->nclist--;
} else {
cs->clist[idx].cred = NULL;
}
_exit:
LeaveCriticalSection(&(cs->cs));
return code;
}
khm_int32
kcdb_credset_update_cred_ref(khm_handle credset,
khm_handle cred)
{
kcdb_credset * cs;
khm_int32 code = KHM_ERROR_SUCCESS;
int i;
if(!kcdb_credset_is_credset(credset))
return KHM_ERROR_INVALID_PARAM;
cs = (kcdb_credset *) credset;
EnterCriticalSection(&(cs->cs));
for(i=0; i<cs->nclist; i++) {
if(cs->clist[i].cred == cred)
break;
}
if(i<cs->nclist) {
cs->clist[i].version = cs->version;
} else {
code = KHM_ERROR_NOT_FOUND;
}
LeaveCriticalSection(&(cs->cs));
return code;
}
KHMEXP khm_int32 KHMAPI
kcdb_credset_del_cred_ref(khm_handle credset,
khm_handle cred)
{
kcdb_credset * cs;
khm_int32 code = KHM_ERROR_SUCCESS;
int i;
if(!kcdb_credset_is_credset(credset))
return KHM_ERROR_INVALID_PARAM;
cs = (kcdb_credset *) credset;
if (kcdb_credset_is_sealed(cs))
return KHM_ERROR_INVALID_OPERATION;
EnterCriticalSection(&(cs->cs));
for(i=0; i<cs->nclist; i++) {
if(cs->clist[i].cred == cred)
break;
}
if(i<cs->nclist) {
code = kcdb_credset_del_cred(credset, i);
} else {
code = KHM_ERROR_NOT_FOUND;
}
LeaveCriticalSection(&(cs->cs));
return code;
}
KHMEXP khm_int32 KHMAPI
kcdb_credset_add_cred(khm_handle credset,
khm_handle cred,
khm_int32 idx)
{
int new_idx;
kcdb_credset * cs;
khm_int32 code = KHM_ERROR_SUCCESS;
if(!kcdb_credset_is_credset(credset))
return KHM_ERROR_INVALID_PARAM;
cs = (kcdb_credset *) credset;
if (kcdb_credset_is_sealed(cs))
return KHM_ERROR_INVALID_OPERATION;
EnterCriticalSection(&(cs->cs));
kcdb_credset_buf_assert_size(cs, cs->nclist + 1);
if(idx < 0 || idx > cs->nclist)
new_idx = cs->nclist;
else if(idx < cs->nclist){
#ifdef DEBUG
assert(!(cs->flags & KCDB_CREDSET_FLAG_ENUM));
#endif
memmove(&(cs->clist[idx+1]), &(cs->clist[idx]), (cs->nclist - idx)*sizeof(cs->clist[0]));
new_idx = idx;
} else
new_idx = idx;
kcdb_cred_hold(cred);
cs->clist[new_idx].cred = (kcdb_cred *) cred;
cs->clist[new_idx].version = cs->version;
cs->nclist++;
LeaveCriticalSection(&(cs->cs));
return code;
}
KHMEXP khm_int32 KHMAPI
kcdb_credset_get_size(khm_handle credset,
khm_size * size)
{
kcdb_credset * cs;
*size = 0;
/* we don't rely on this working, since we can't purge a sealed
credset, although we can measure its size. */
kcdb_credset_purge(credset);
if (credset == NULL)
cs = kcdb_root_credset;
else
cs = (kcdb_credset *) credset;
EnterCriticalSection(&(cs->cs));
/* while it may seem a bit redundant to get a lock, it ensures that
that the size that we return is consistent with the current state
of the credential set */
*size = cs->nclist;
LeaveCriticalSection(&(cs->cs));
return KHM_ERROR_SUCCESS;
}
KHMEXP khm_int32 KHMAPI
kcdb_credset_purge(khm_handle credset)
{
khm_int32 code = KHM_ERROR_SUCCESS;
kcdb_credset * cs;
int i,j;
if(!kcdb_credset_is_credset(credset))
return KHM_ERROR_INVALID_PARAM;
cs = (kcdb_credset *) credset;
if (kcdb_credset_is_sealed(cs))
return KHM_ERROR_INVALID_OPERATION;
EnterCriticalSection(&(cs->cs));
/* we can't purge a credset while an enumeration operation is in
progress. */
if (cs->flags & KCDB_CREDSET_FLAG_ENUM) {
code = KHM_ERROR_INVALID_OPERATION;
goto _exit;
}
for(i=0,j=0; i < cs->nclist; i++) {
if(cs->clist[i].cred) {
if(!kcdb_cred_is_active_cred((khm_handle) cs->clist[i].cred)) {
kcdb_cred_release((khm_handle) cs->clist[i].cred);
} else if(i != j) {
cs->clist[j++] = cs->clist[i];
} else
j++;
}
}
cs->nclist = j;
_exit:
LeaveCriticalSection(&(cs->cs));
return code;
}
KHMEXP khm_int32 KHMAPI
kcdb_credset_seal(khm_handle credset) {
kcdb_credset * cs;
if (!kcdb_credset_is_credset(credset))
return KHM_ERROR_INVALID_PARAM;
cs = (kcdb_credset *) credset;
EnterCriticalSection(&cs->cs);
cs->seal_count++;
LeaveCriticalSection(&cs->cs);
return KHM_ERROR_SUCCESS;
}
KHMEXP khm_int32 KHMAPI
kcdb_credset_unseal(khm_handle credset) {
kcdb_credset * cs;
khm_int32 rv;
if (!kcdb_credset_is_credset(credset))
return KHM_ERROR_INVALID_PARAM;
cs = (kcdb_credset *) credset;
EnterCriticalSection(&cs->cs);
if (cs->seal_count > 0) {
cs->seal_count--;
rv = KHM_ERROR_SUCCESS;
} else {
rv = KHM_ERROR_INVALID_OPERATION;
}
LeaveCriticalSection(&cs->cs);
return rv;
}
/* These are protected with cs_credset */
static void * _creds_comp_rock = NULL;
static kcdb_cred_comp_func _creds_comp_func = NULL;
/* Need cs_credset when calling this function. */
int __cdecl
kcdb_creds_comp_wrapper(const void * a, const void * b)
{
return (*_creds_comp_func)((khm_handle) ((kcdb_credset_credref *)a)->cred,
(khm_handle) ((kcdb_credset_credref *)b)->cred,
_creds_comp_rock);
}
KHMEXP khm_int32 KHMAPI
kcdb_credset_sort(khm_handle credset,
kcdb_cred_comp_func comp,
void * rock)
{
khm_int32 code = KHM_ERROR_SUCCESS;
kcdb_credset * cs;
if(!kcdb_credset_is_credset(credset))
return KHM_ERROR_INVALID_PARAM;
cs = (kcdb_credset *) credset;
if (kcdb_credset_is_sealed(cs))
return KHM_ERROR_INVALID_OPERATION;
EnterCriticalSection(&(cs->cs));
#ifdef DEBUG
assert(!(cs->flags & KCDB_CREDSET_FLAG_ENUM));
#endif
EnterCriticalSection(&cs_credset);
_creds_comp_rock = rock;
_creds_comp_func = comp;
qsort(cs->clist, cs->nclist,
sizeof(kcdb_credset_credref), kcdb_creds_comp_wrapper);
LeaveCriticalSection(&cs_credset);
LeaveCriticalSection(&(cs->cs));
return code;
}
KHMEXP khm_int32 KHMAPI
kcdb_cred_comp_generic(khm_handle cred1,
khm_handle cred2,
void * rock)
{
kcdb_cred_comp_order * o = (kcdb_cred_comp_order *) rock;
int i;
khm_int32 r = 0;
khm_int32 f1, f2;
khm_int32 t1, t2;
khm_int32 pt;
for(i=0; i<o->nFields; i++) {
if (o->fields[i].order & KCDB_CRED_COMP_INITIAL_FIRST) {
if (o->fields[i].attrib == KCDB_ATTR_TYPE_NAME ||
o->fields[i].attrib == KCDB_ATTR_TYPE) {
kcdb_cred_get_type(cred1, &t1);
kcdb_cred_get_type(cred2, &t2);
kcdb_identity_get_type(&pt);
if (t1 == t2)
r = 0;
else if (t1 == pt)
r = -1;
else if (t2 == pt)
r = 1;
else
r = 0;
} else {
kcdb_cred_get_flags(cred1, &f1);
kcdb_cred_get_flags(cred2, &f2);
if (((f1 ^ f2) & KCDB_CRED_FLAG_INITIAL) == 0)
r = 0;
else if (f1 & KCDB_CRED_FLAG_INITIAL)
r = -1;
else
r = 1;
}
} else {
r = 0;
}
if (r == 0)
r = kcdb_creds_comp_attr(cred1,cred2,o->fields[i].attrib);
if(r != 0) {
if(o->fields[i].order & KCDB_CRED_COMP_DECREASING)
r = -r;
break;
}
}
return r;
}
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