Source code
Revision control
Copy as Markdown
Other Tools
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
#include "nssrenam.h"
#include "nss.h"
#include "p12t.h"
#include "p12.h"
#include "plarena.h"
#include "secitem.h"
#include "secoid.h"
#include "seccomon.h"
#include "secport.h"
#include "cert.h"
#include "secpkcs7.h"
#include "secasn1.h"
#include "secerr.h"
#include "pk11func.h"
#include "p12plcy.h"
#include "p12local.h"
#include "secder.h"
#include "secport.h"
#include "certdb.h"
#include "prcpucfg.h"
/* This belongs in secport.h */
#define PORT_ArenaGrowArray(poolp, oldptr, type, oldnum, newnum) \
(type *)PORT_ArenaGrow((poolp), (oldptr), \
(oldnum) * sizeof(type), (newnum) * sizeof(type))
typedef struct sec_PKCS12SafeContentsContextStr sec_PKCS12SafeContentsContext;
/* Opaque structure for decoding SafeContents. These are used
* for each authenticated safe as well as any nested safe contents.
*/
struct sec_PKCS12SafeContentsContextStr {
/* the parent decoder context */
SEC_PKCS12DecoderContext *p12dcx;
/* memory arena to allocate space from */
PLArenaPool *arena;
/* decoder context and destination for decoding safe contents */
SEC_ASN1DecoderContext *safeContentsA1Dcx;
sec_PKCS12SafeContents safeContents;
/* information for decoding safe bags within the safe contents.
* these variables are updated for each safe bag decoded.
*/
SEC_ASN1DecoderContext *currentSafeBagA1Dcx;
sec_PKCS12SafeBag *currentSafeBag;
PRBool skipCurrentSafeBag;
/* if the safe contents is nested, the parent is pointed to here. */
sec_PKCS12SafeContentsContext *nestedSafeContentsCtx;
};
/* opaque decoder context structure. information for decoding a pkcs 12
* PDU are stored here as well as decoding pointers for intermediary
* structures which are part of the PKCS 12 PDU. Upon a successful
* decode, the safe bags containing certificates and keys encountered.
*/
struct SEC_PKCS12DecoderContextStr {
PLArenaPool *arena;
PK11SlotInfo *slot;
void *wincx;
PRBool error;
int errorValue;
/* password */
SECItem *pwitem;
/* used for decoding the PFX structure */
SEC_ASN1DecoderContext *pfxA1Dcx;
sec_PKCS12PFXItem pfx;
/* safe bags found during decoding */
sec_PKCS12SafeBag **safeBags;
unsigned int safeBagCount;
/* state variables for decoding authenticated safes. */
SEC_PKCS7DecoderContext *currentASafeP7Dcx;
SEC_ASN1DecoderContext *aSafeA1Dcx;
SEC_PKCS7DecoderContext *aSafeP7Dcx;
SEC_PKCS7ContentInfo *aSafeCinfo;
sec_PKCS12AuthenticatedSafe authSafe;
sec_PKCS12SafeContents safeContents;
/* safe contents info */
unsigned int safeContentsCnt;
sec_PKCS12SafeContentsContext **safeContentsList;
/* HMAC info */
sec_PKCS12MacData macData;
/* routines for reading back the data to be hmac'd */
/* They are called as follows.
*
* Stage 1: decode the aSafes cinfo into a buffer in dArg,
* which p12d.c sometimes refers to as the "temp file".
* This occurs during SEC_PKCS12DecoderUpdate calls.
*
* dOpen(dArg, PR_FALSE)
* dWrite(dArg, buf, len)
* ...
* dWrite(dArg, buf, len)
* dClose(dArg, PR_FALSE)
*
* Stage 2: verify MAC
* This occurs SEC_PKCS12DecoderVerify.
*
* dOpen(dArg, PR_TRUE)
* dRead(dArg, buf, IN_BUF_LEN)
* ...
* dRead(dArg, buf, IN_BUF_LEN)
* dClose(dArg, PR_TRUE)
*/
digestOpenFn dOpen;
digestCloseFn dClose;
digestIOFn dRead, dWrite;
void *dArg;
PRBool dIsOpen; /* is the temp file created? */
/* helper functions */
SECKEYGetPasswordKey pwfn;
void *pwfnarg;
PRBool swapUnicodeBytes;
PRBool forceUnicode;
/* import information */
PRBool bagsVerified;
/* buffer management for the default callbacks implementation */
void *buffer; /* storage area */
PRInt32 filesize; /* actual data size */
PRInt32 allocated; /* total buffer size allocated */
PRInt32 currentpos; /* position counter */
SECPKCS12TargetTokenCAs tokenCAs;
sec_PKCS12SafeBag **keyList; /* used by ...IterateNext() */
unsigned int iteration;
SEC_PKCS12DecoderItem decitem;
};
/* forward declarations of functions that are used when decoding
* safeContents bags which are nested and when decoding the
* authenticatedSafes.
*/
static SECStatus
sec_pkcs12_decoder_begin_nested_safe_contents(sec_PKCS12SafeContentsContext
*safeContentsCtx);
static SECStatus
sec_pkcs12_decoder_finish_nested_safe_contents(sec_PKCS12SafeContentsContext
*safeContentsCtx);
/* make sure that the PFX version being decoded is a version
* which we support.
*/
static PRBool
sec_pkcs12_proper_version(sec_PKCS12PFXItem *pfx)
{
/* if no version, assume it is not supported */
if (pfx->version.len == 0) {
return PR_FALSE;
}
if (DER_GetInteger(&pfx->version) > SEC_PKCS12_VERSION) {
return PR_FALSE;
}
return PR_TRUE;
}
/* retrieve the key for decrypting the safe contents */
static PK11SymKey *
sec_pkcs12_decoder_get_decrypt_key(void *arg, SECAlgorithmID *algid)
{
SEC_PKCS12DecoderContext *p12dcx = (SEC_PKCS12DecoderContext *)arg;
PK11SlotInfo *slot;
PK11SymKey *bulkKey;
SECItem pwitem = { 0 };
SECOidTag algorithm;
if (!p12dcx) {
return NULL;
}
/* if no slot specified, use the internal key slot */
if (p12dcx->slot) {
slot = PK11_ReferenceSlot(p12dcx->slot);
} else {
slot = PK11_GetInternalKeySlot();
}
algorithm = SECOID_GetAlgorithmTag(algid);
if (p12dcx->forceUnicode) {
if (SECITEM_CopyItem(NULL, &pwitem, p12dcx->pwitem) != SECSuccess) {
PK11_FreeSlot(slot);
return NULL;
}
} else {
if (!sec_pkcs12_decode_password(NULL, &pwitem, algorithm, p12dcx->pwitem)) {
PK11_FreeSlot(slot);
return NULL;
}
}
bulkKey = PK11_PBEKeyGen(slot, algid, &pwitem, PR_FALSE, p12dcx->wincx);
/* some tokens can't generate PBE keys on their own, generate the
* key in the internal slot, and let the Import code deal with it,
* (if the slot can't generate PBEs, then we need to use the internal
* slot anyway to unwrap). */
if (!bulkKey && !PK11_IsInternal(slot)) {
PK11_FreeSlot(slot);
slot = PK11_GetInternalKeySlot();
bulkKey = PK11_PBEKeyGen(slot, algid, &pwitem, PR_FALSE, p12dcx->wincx);
}
PK11_FreeSlot(slot);
/* set the password data on the key */
if (bulkKey) {
PK11_SetSymKeyUserData(bulkKey, p12dcx->pwitem, NULL);
}
if (pwitem.data) {
SECITEM_ZfreeItem(&pwitem, PR_FALSE);
}
return bulkKey;
}
/* XXX this needs to be modified to handle enveloped data. most
* likely, it should mirror the routines for SMIME in that regard.
*/
static PRBool
sec_pkcs12_decoder_decryption_allowed(SECAlgorithmID *algid,
PK11SymKey *bulkkey)
{
PRBool decryptionAllowed = SEC_PKCS12DecryptionAllowed(algid);
if (!decryptionAllowed) {
PORT_SetError(SEC_ERROR_BAD_EXPORT_ALGORITHM);
return PR_FALSE;
}
return PR_TRUE;
}
/* when we encounter a new safe bag during the decoding, we need
* to allocate space for the bag to be decoded to and set the
* state variables appropriately. all of the safe bags are allocated
* in a buffer in the outer SEC_PKCS12DecoderContext, however,
* a pointer to the safeBag is also used in the sec_PKCS12SafeContentsContext
* for the current bag.
*/
static SECStatus
sec_pkcs12_decoder_init_new_safe_bag(sec_PKCS12SafeContentsContext
*safeContentsCtx)
{
void *mark = NULL;
SEC_PKCS12DecoderContext *p12dcx;
/* make sure that the structures are defined, and there has
* not been an error in the decoding
*/
if (!safeContentsCtx || !safeContentsCtx->p12dcx || safeContentsCtx->p12dcx->error) {
return SECFailure;
}
p12dcx = safeContentsCtx->p12dcx;
mark = PORT_ArenaMark(p12dcx->arena);
/* allocate a new safe bag, if bags already exist, grow the
* list of bags, otherwise allocate a new list. the list is
* NULL terminated.
*/
p12dcx->safeBags = (!p12dcx->safeBagCount)
? PORT_ArenaZNewArray(p12dcx->arena, sec_PKCS12SafeBag *, 2)
: PORT_ArenaGrowArray(p12dcx->arena, p12dcx->safeBags,
sec_PKCS12SafeBag *, p12dcx->safeBagCount + 1,
p12dcx->safeBagCount + 2);
if (!p12dcx->safeBags) {
p12dcx->errorValue = PORT_GetError();
goto loser;
}
/* append the bag to the end of the list and update the reference
* in the safeContentsCtx.
*/
p12dcx->safeBags[p12dcx->safeBagCount] =
safeContentsCtx->currentSafeBag =
PORT_ArenaZNew(p12dcx->arena, sec_PKCS12SafeBag);
if (!safeContentsCtx->currentSafeBag) {
p12dcx->errorValue = PORT_GetError();
goto loser;
}
p12dcx->safeBags[++p12dcx->safeBagCount] = NULL;
safeContentsCtx->currentSafeBag->slot = safeContentsCtx->p12dcx->slot;
safeContentsCtx->currentSafeBag->pwitem = safeContentsCtx->p12dcx->pwitem;
safeContentsCtx->currentSafeBag->swapUnicodeBytes =
safeContentsCtx->p12dcx->swapUnicodeBytes;
safeContentsCtx->currentSafeBag->arena = safeContentsCtx->p12dcx->arena;
safeContentsCtx->currentSafeBag->tokenCAs =
safeContentsCtx->p12dcx->tokenCAs;
PORT_ArenaUnmark(p12dcx->arena, mark);
return SECSuccess;
loser:
/* if an error occurred, release the memory and set the error flag
* the only possible errors triggered by this function are memory
* related.
*/
if (mark) {
PORT_ArenaRelease(p12dcx->arena, mark);
}
p12dcx->error = PR_TRUE;
return SECFailure;
}
/* A wrapper for updating the ASN1 context in which a safeBag is
* being decoded. This function is called as a callback from
* secasn1d when decoding SafeContents structures.
*/
static void
sec_pkcs12_decoder_safe_bag_update(void *arg, const char *data,
unsigned long len, int depth,
SEC_ASN1EncodingPart data_kind)
{
sec_PKCS12SafeContentsContext *safeContentsCtx =
(sec_PKCS12SafeContentsContext *)arg;
SEC_PKCS12DecoderContext *p12dcx;
SECStatus rv;
if (!safeContentsCtx || !safeContentsCtx->p12dcx || !safeContentsCtx->currentSafeBagA1Dcx) {
return;
}
p12dcx = safeContentsCtx->p12dcx;
/* make sure that there are no errors and we are not skipping the current safeBag */
if (p12dcx->error || safeContentsCtx->skipCurrentSafeBag) {
goto loser;
}
rv = SEC_ASN1DecoderUpdate(safeContentsCtx->currentSafeBagA1Dcx, data, len);
if (rv != SECSuccess) {
p12dcx->errorValue = PORT_GetError();
p12dcx->error = PR_TRUE;
goto loser;
}
/* The update may have set safeContentsCtx->skipCurrentSafeBag, and we
* may not get another opportunity to clean up the decoder context.
*/
if (safeContentsCtx->skipCurrentSafeBag) {
goto loser;
}
return;
loser:
/* Finish the decoder context. Because there
* is not a way of returning an error message, it may be worth
* while to do a check higher up and finish any decoding contexts
* that are still open.
*/
SEC_ASN1DecoderFinish(safeContentsCtx->currentSafeBagA1Dcx);
safeContentsCtx->currentSafeBagA1Dcx = NULL;
return;
}
/* notify function for decoding safeBags. This function is
* used to filter safeBag types which are not supported,
* initiate the decoding of nested safe contents, and decode
* safeBags in general. this function is set when the decoder
* context for the safeBag is first created.
*/
static void
sec_pkcs12_decoder_safe_bag_notify(void *arg, PRBool before,
void *dest, int real_depth)
{
sec_PKCS12SafeContentsContext *safeContentsCtx =
(sec_PKCS12SafeContentsContext *)arg;
SEC_PKCS12DecoderContext *p12dcx;
sec_PKCS12SafeBag *bag;
PRBool after;
/* if an error is encountered, return */
if (!safeContentsCtx || !safeContentsCtx->p12dcx ||
safeContentsCtx->p12dcx->error) {
return;
}
p12dcx = safeContentsCtx->p12dcx;
/* to make things more readable */
if (before)
after = PR_FALSE;
else
after = PR_TRUE;
/* have we determined the safeBagType yet? */
bag = safeContentsCtx->currentSafeBag;
if (bag->bagTypeTag == NULL) {
if (after && (dest == &(bag->safeBagType))) {
bag->bagTypeTag = SECOID_FindOID(&(bag->safeBagType));
if (bag->bagTypeTag == NULL) {
p12dcx->error = PR_TRUE;
p12dcx->errorValue = SEC_ERROR_PKCS12_CORRUPT_PFX_STRUCTURE;
}
}
return;
}
/* process the safeBag depending on it's type. those
* which we do not support, are ignored. we start a decoding
* context for a nested safeContents.
*/
switch (bag->bagTypeTag->offset) {
case SEC_OID_PKCS12_V1_KEY_BAG_ID:
case SEC_OID_PKCS12_V1_CERT_BAG_ID:
case SEC_OID_PKCS12_V1_PKCS8_SHROUDED_KEY_BAG_ID:
break;
case SEC_OID_PKCS12_V1_SAFE_CONTENTS_BAG_ID:
/* if we are just starting to decode the safeContents, initialize
* a new safeContentsCtx to process it.
*/
if (before && (dest == &(bag->safeBagContent))) {
sec_pkcs12_decoder_begin_nested_safe_contents(safeContentsCtx);
} else if (after && (dest == &(bag->safeBagContent))) {
/* clean up the nested decoding */
sec_pkcs12_decoder_finish_nested_safe_contents(safeContentsCtx);
}
break;
case SEC_OID_PKCS12_V1_CRL_BAG_ID:
case SEC_OID_PKCS12_V1_SECRET_BAG_ID:
default:
/* skip any safe bag types we don't understand or handle */
safeContentsCtx->skipCurrentSafeBag = PR_TRUE;
break;
}
return;
}
/* notify function for decoding safe contents. each entry in the
* safe contents is a safeBag which needs to be allocated and
* the decoding context initialized at the beginning and then
* the context needs to be closed and finished at the end.
*
* this function is set when the safeContents decode context is
* initialized.
*/
static void
sec_pkcs12_decoder_safe_contents_notify(void *arg, PRBool before,
void *dest, int real_depth)
{
sec_PKCS12SafeContentsContext *safeContentsCtx =
(sec_PKCS12SafeContentsContext *)arg;
SEC_PKCS12DecoderContext *p12dcx;
SECStatus rv;
/* if there is an error we don't want to continue processing,
* just return and keep going.
*/
if (!safeContentsCtx || !safeContentsCtx->p12dcx ||
safeContentsCtx->p12dcx->error) {
return;
}
p12dcx = safeContentsCtx->p12dcx;
/* if we are done with the current safeBag, then we need to
* finish the context and set the state variables appropriately.
*/
if (!before) {
SEC_ASN1DecoderClearFilterProc(safeContentsCtx->safeContentsA1Dcx);
SEC_ASN1DecoderFinish(safeContentsCtx->currentSafeBagA1Dcx);
safeContentsCtx->currentSafeBagA1Dcx = NULL;
safeContentsCtx->skipCurrentSafeBag = PR_FALSE;
} else {
/* we are starting a new safe bag. we need to allocate space
* for the bag and initialize the decoding context.
*/
rv = sec_pkcs12_decoder_init_new_safe_bag(safeContentsCtx);
if (rv != SECSuccess) {
goto loser;
}
/* set up the decoder context */
safeContentsCtx->currentSafeBagA1Dcx =
SEC_ASN1DecoderStart(p12dcx->arena,
safeContentsCtx->currentSafeBag,
sec_PKCS12SafeBagTemplate);
if (!safeContentsCtx->currentSafeBagA1Dcx) {
p12dcx->errorValue = PORT_GetError();
goto loser;
}
/* set the notify and filter procs so that the safe bag
* data gets sent to the proper location when decoding.
*/
SEC_ASN1DecoderSetNotifyProc(safeContentsCtx->currentSafeBagA1Dcx,
sec_pkcs12_decoder_safe_bag_notify,
safeContentsCtx);
SEC_ASN1DecoderSetFilterProc(safeContentsCtx->safeContentsA1Dcx,
sec_pkcs12_decoder_safe_bag_update,
safeContentsCtx, PR_TRUE);
}
return;
loser:
/* in the event of an error, we want to close the decoding
* context and clear the filter and notify procedures.
*/
p12dcx->error = PR_TRUE;
if (safeContentsCtx->currentSafeBagA1Dcx) {
SEC_ASN1DecoderFinish(safeContentsCtx->currentSafeBagA1Dcx);
safeContentsCtx->currentSafeBagA1Dcx = NULL;
}
SEC_ASN1DecoderClearNotifyProc(safeContentsCtx->safeContentsA1Dcx);
SEC_ASN1DecoderClearFilterProc(safeContentsCtx->safeContentsA1Dcx);
return;
}
/* initialize the safeContents for decoding. this routine
* is used for authenticatedSafes as well as nested safeContents.
*/
static sec_PKCS12SafeContentsContext *
sec_pkcs12_decoder_safe_contents_init_decode(SEC_PKCS12DecoderContext *p12dcx,
PRBool nestedSafe)
{
sec_PKCS12SafeContentsContext *safeContentsCtx = NULL;
const SEC_ASN1Template *theTemplate;
if (!p12dcx || p12dcx->error) {
return NULL;
}
/* allocate a new safeContents list or grow the existing list and
* append the new safeContents onto the end.
*/
p12dcx->safeContentsList = (!p12dcx->safeContentsCnt)
? PORT_ArenaZNewArray(p12dcx->arena, sec_PKCS12SafeContentsContext *, 2)
: PORT_ArenaGrowArray(p12dcx->arena, p12dcx->safeContentsList,
sec_PKCS12SafeContentsContext *,
1 + p12dcx->safeContentsCnt,
2 + p12dcx->safeContentsCnt);
if (!p12dcx->safeContentsList) {
p12dcx->errorValue = PORT_GetError();
goto loser;
}
p12dcx->safeContentsList[p12dcx->safeContentsCnt] = safeContentsCtx =
PORT_ArenaZNew(p12dcx->arena, sec_PKCS12SafeContentsContext);
if (!p12dcx->safeContentsList[p12dcx->safeContentsCnt]) {
p12dcx->errorValue = PORT_GetError();
goto loser;
}
p12dcx->safeContentsList[++p12dcx->safeContentsCnt] = NULL;
/* set up the state variables */
safeContentsCtx->p12dcx = p12dcx;
safeContentsCtx->arena = p12dcx->arena;
/* begin the decoding -- the template is based on whether we are
* decoding a nested safeContents or not.
*/
if (nestedSafe == PR_TRUE) {
theTemplate = sec_PKCS12NestedSafeContentsDecodeTemplate;
} else {
theTemplate = sec_PKCS12SafeContentsDecodeTemplate;
}
/* start the decoder context */
safeContentsCtx->safeContentsA1Dcx = SEC_ASN1DecoderStart(p12dcx->arena,
&safeContentsCtx->safeContents,
theTemplate);
if (!safeContentsCtx->safeContentsA1Dcx) {
p12dcx->errorValue = PORT_GetError();
goto loser;
}
/* set the safeContents notify procedure to look for
* and start the decode of safeBags.
*/
SEC_ASN1DecoderSetNotifyProc(safeContentsCtx->safeContentsA1Dcx,
sec_pkcs12_decoder_safe_contents_notify,
safeContentsCtx);
return safeContentsCtx;
loser:
/* in the case of an error, we want to finish the decoder
* context and set the error flag.
*/
if (safeContentsCtx && safeContentsCtx->safeContentsA1Dcx) {
SEC_ASN1DecoderFinish(safeContentsCtx->safeContentsA1Dcx);
safeContentsCtx->safeContentsA1Dcx = NULL;
}
p12dcx->error = PR_TRUE;
return NULL;
}
/* wrapper for updating safeContents. this is set as the filter of
* safeBag when there is a nested safeContents.
*/
static void
sec_pkcs12_decoder_nested_safe_contents_update(void *arg, const char *buf,
unsigned long len, int depth,
SEC_ASN1EncodingPart data_kind)
{
sec_PKCS12SafeContentsContext *safeContentsCtx =
(sec_PKCS12SafeContentsContext *)arg;
SEC_PKCS12DecoderContext *p12dcx;
SECStatus rv;
/* check for an error */
if (!safeContentsCtx || !safeContentsCtx->p12dcx ||
safeContentsCtx->p12dcx->error || !safeContentsCtx->safeContentsA1Dcx) {
return;
}
/* no need to update if no data sent in */
if (!len || !buf) {
return;
}
/* update the decoding context */
p12dcx = safeContentsCtx->p12dcx;
rv = SEC_ASN1DecoderUpdate(safeContentsCtx->safeContentsA1Dcx, buf, len);
if (rv != SECSuccess) {
p12dcx->errorValue = PORT_GetError();
goto loser;
}
return;
loser:
/* handle any errors. If a decoding context is open, close it. */
p12dcx->error = PR_TRUE;
if (safeContentsCtx->safeContentsA1Dcx) {
SEC_ASN1DecoderFinish(safeContentsCtx->safeContentsA1Dcx);
safeContentsCtx->safeContentsA1Dcx = NULL;
}
}
/* whenever a new safeContentsSafeBag is encountered, we need
* to init a safeContentsContext.
*/
static SECStatus
sec_pkcs12_decoder_begin_nested_safe_contents(sec_PKCS12SafeContentsContext
*safeContentsCtx)
{
/* check for an error */
if (!safeContentsCtx || !safeContentsCtx->p12dcx ||
safeContentsCtx->p12dcx->error) {
return SECFailure;
}
safeContentsCtx->nestedSafeContentsCtx =
sec_pkcs12_decoder_safe_contents_init_decode(safeContentsCtx->p12dcx,
PR_TRUE);
if (!safeContentsCtx->nestedSafeContentsCtx) {
return SECFailure;
}
/* set up new filter proc */
SEC_ASN1DecoderSetNotifyProc(
safeContentsCtx->nestedSafeContentsCtx->safeContentsA1Dcx,
sec_pkcs12_decoder_safe_contents_notify,
safeContentsCtx->nestedSafeContentsCtx);
SEC_ASN1DecoderSetFilterProc(safeContentsCtx->currentSafeBagA1Dcx,
sec_pkcs12_decoder_nested_safe_contents_update,
safeContentsCtx->nestedSafeContentsCtx,
PR_TRUE);
return SECSuccess;
}
/* when the safeContents is done decoding, we need to reset the
* proper filter and notify procs and close the decoding context
*/
static SECStatus
sec_pkcs12_decoder_finish_nested_safe_contents(sec_PKCS12SafeContentsContext
*safeContentsCtx)
{
/* check for error */
if (!safeContentsCtx || !safeContentsCtx->p12dcx ||
safeContentsCtx->p12dcx->error) {
return SECFailure;
}
/* clean up */
SEC_ASN1DecoderClearFilterProc(safeContentsCtx->currentSafeBagA1Dcx);
SEC_ASN1DecoderClearNotifyProc(
safeContentsCtx->nestedSafeContentsCtx->safeContentsA1Dcx);
SEC_ASN1DecoderFinish(
safeContentsCtx->nestedSafeContentsCtx->safeContentsA1Dcx);
safeContentsCtx->nestedSafeContentsCtx->safeContentsA1Dcx = NULL;
safeContentsCtx->nestedSafeContentsCtx = NULL;
return SECSuccess;
}
/* wrapper for updating safeContents. This is used when decoding
* the nested safeContents and any authenticatedSafes.
*/
static void
sec_pkcs12_decoder_safe_contents_callback(void *arg, const char *buf,
unsigned long len)
{
SECStatus rv;
sec_PKCS12SafeContentsContext *safeContentsCtx =
(sec_PKCS12SafeContentsContext *)arg;
SEC_PKCS12DecoderContext *p12dcx;
/* check for error */
if (!safeContentsCtx || !safeContentsCtx->p12dcx ||
safeContentsCtx->p12dcx->error || !safeContentsCtx->safeContentsA1Dcx) {
return;
}
p12dcx = safeContentsCtx->p12dcx;
/* update the decoder */
rv = SEC_ASN1DecoderUpdate(safeContentsCtx->safeContentsA1Dcx, buf, len);
if (rv != SECSuccess) {
/* if we fail while trying to decode a 'safe', it's probably because
* we didn't have the correct password. */
PORT_SetError(SEC_ERROR_BAD_PASSWORD);
p12dcx->errorValue = SEC_ERROR_PKCS12_CORRUPT_PFX_STRUCTURE;
SEC_PKCS7DecoderAbort(p12dcx->currentASafeP7Dcx, SEC_ERROR_BAD_PASSWORD);
goto loser;
}
return;
loser:
/* set the error and finish the context */
p12dcx->error = PR_TRUE;
if (safeContentsCtx->safeContentsA1Dcx) {
SEC_ASN1DecoderFinish(safeContentsCtx->safeContentsA1Dcx);
safeContentsCtx->safeContentsA1Dcx = NULL;
}
return;
}
/* this is a wrapper for the ASN1 decoder to call SEC_PKCS7DecoderUpdate
*/
static void
sec_pkcs12_decoder_wrap_p7_update(void *arg, const char *data,
unsigned long len, int depth,
SEC_ASN1EncodingPart data_kind)
{
SEC_PKCS7DecoderContext *p7dcx = (SEC_PKCS7DecoderContext *)arg;
SEC_PKCS7DecoderUpdate(p7dcx, data, len);
}
/* notify function for decoding aSafes. at the beginning,
* of an authenticatedSafe, we start a decode of a safeContents.
* at the end, we clean up the safeContents decoder context and
* reset state variables
*/
static void
sec_pkcs12_decoder_asafes_notify(void *arg, PRBool before, void *dest,
int real_depth)
{
SEC_PKCS12DecoderContext *p12dcx;
sec_PKCS12SafeContentsContext *safeContentsCtx;
/* make sure no error occurred. */
p12dcx = (SEC_PKCS12DecoderContext *)arg;
if (!p12dcx || p12dcx->error) {
return;
}
if (before) {
/* init a new safeContentsContext */
safeContentsCtx = sec_pkcs12_decoder_safe_contents_init_decode(p12dcx,
PR_FALSE);
if (!safeContentsCtx) {
goto loser;
}
/* initiate the PKCS7ContentInfo decode */
p12dcx->currentASafeP7Dcx = SEC_PKCS7DecoderStart(
sec_pkcs12_decoder_safe_contents_callback,
safeContentsCtx,
p12dcx->pwfn, p12dcx->pwfnarg,
sec_pkcs12_decoder_get_decrypt_key, p12dcx,
sec_pkcs12_decoder_decryption_allowed);
if (!p12dcx->currentASafeP7Dcx) {
p12dcx->errorValue = PORT_GetError();
goto loser;
}
SEC_ASN1DecoderSetFilterProc(p12dcx->aSafeA1Dcx,
sec_pkcs12_decoder_wrap_p7_update,
p12dcx->currentASafeP7Dcx, PR_TRUE);
}
if (!before) {
/* if one is being decoded, finish the decode */
if (p12dcx->currentASafeP7Dcx != NULL) {
SEC_PKCS7ContentInfo *cinfo;
unsigned int cnt = p12dcx->safeContentsCnt - 1;
safeContentsCtx = p12dcx->safeContentsList[cnt];
if (safeContentsCtx->safeContentsA1Dcx) {
SEC_ASN1DecoderClearFilterProc(p12dcx->aSafeA1Dcx);
SEC_ASN1DecoderFinish(safeContentsCtx->safeContentsA1Dcx);
safeContentsCtx->safeContentsA1Dcx = NULL;
}
cinfo = SEC_PKCS7DecoderFinish(p12dcx->currentASafeP7Dcx);
p12dcx->currentASafeP7Dcx = NULL;
if (!cinfo) {
p12dcx->errorValue = PORT_GetError();
goto loser;
}
SEC_PKCS7DestroyContentInfo(cinfo); /* don't leak it */
}
}
return;
loser:
/* set the error flag */
p12dcx->error = PR_TRUE;
return;
}
/* wrapper for updating asafes decoding context. this function
* writes data being decoded to disk, so that a mac can be computed
* later.
*/
static void
sec_pkcs12_decoder_asafes_callback(void *arg, const char *buf,
unsigned long len)
{
SEC_PKCS12DecoderContext *p12dcx = (SEC_PKCS12DecoderContext *)arg;
SECStatus rv;
if (!p12dcx || p12dcx->error) {
return;
}
/* update the context */
rv = SEC_ASN1DecoderUpdate(p12dcx->aSafeA1Dcx, buf, len);
if (rv != SECSuccess) {
p12dcx->errorValue = PORT_GetError();
p12dcx->error = PR_TRUE;
goto loser;
}
/* if we are writing to a file, write out the new information */
if (p12dcx->dWrite) {
unsigned long writeLen = (*p12dcx->dWrite)(p12dcx->dArg,
(unsigned char *)buf, len);
if (writeLen != len) {
p12dcx->errorValue = PORT_GetError();
goto loser;
}
}
return;
loser:
/* set the error flag */
p12dcx->error = PR_TRUE;
SEC_ASN1DecoderFinish(p12dcx->aSafeA1Dcx);
p12dcx->aSafeA1Dcx = NULL;
return;
}
/* start the decode of an authenticatedSafe contentInfo.
*/
static SECStatus
sec_pkcs12_decode_start_asafes_cinfo(SEC_PKCS12DecoderContext *p12dcx)
{
if (!p12dcx || p12dcx->error) {
return SECFailure;
}
/* start the decode context */
p12dcx->aSafeA1Dcx = SEC_ASN1DecoderStart(p12dcx->arena,
&p12dcx->authSafe,
sec_PKCS12AuthenticatedSafeTemplate);
if (!p12dcx->aSafeA1Dcx) {
p12dcx->errorValue = PORT_GetError();
goto loser;
}
/* set the notify function */
SEC_ASN1DecoderSetNotifyProc(p12dcx->aSafeA1Dcx,
sec_pkcs12_decoder_asafes_notify, p12dcx);
/* begin the authSafe decoder context */
p12dcx->aSafeP7Dcx = SEC_PKCS7DecoderStart(
sec_pkcs12_decoder_asafes_callback, p12dcx,
p12dcx->pwfn, p12dcx->pwfnarg, NULL, NULL, NULL);
if (!p12dcx->aSafeP7Dcx) {
p12dcx->errorValue = PORT_GetError();
goto loser;
}
/* open the temp file for writing, if the digest functions were set */
if (p12dcx->dOpen && (*p12dcx->dOpen)(p12dcx->dArg, PR_FALSE) != SECSuccess) {
p12dcx->errorValue = PORT_GetError();
goto loser;
}
/* dOpen(dArg, PR_FALSE) creates the temp file */
p12dcx->dIsOpen = PR_TRUE;
return SECSuccess;
loser:
p12dcx->error = PR_TRUE;
if (p12dcx->aSafeA1Dcx) {
SEC_ASN1DecoderFinish(p12dcx->aSafeA1Dcx);
p12dcx->aSafeA1Dcx = NULL;
}
if (p12dcx->aSafeP7Dcx) {
SEC_PKCS7DecoderFinish(p12dcx->aSafeP7Dcx);
p12dcx->aSafeP7Dcx = NULL;
}
return SECFailure;
}
/* wrapper for updating the safeContents. this function is used as
* a filter for the pfx when decoding the authenticated safes
*/
static void
sec_pkcs12_decode_asafes_cinfo_update(void *arg, const char *buf,
unsigned long len, int depth,
SEC_ASN1EncodingPart data_kind)
{
SEC_PKCS12DecoderContext *p12dcx;
SECStatus rv;
p12dcx = (SEC_PKCS12DecoderContext *)arg;
if (!p12dcx || p12dcx->error) {
return;
}
/* update the safeContents decoder */
rv = SEC_PKCS7DecoderUpdate(p12dcx->aSafeP7Dcx, buf, len);
if (rv != SECSuccess) {
p12dcx->errorValue = SEC_ERROR_PKCS12_CORRUPT_PFX_STRUCTURE;
goto loser;
}
return;
loser:
/* did we find an error? if so, close the context and set the
* error flag.
*/
SEC_PKCS7DecoderFinish(p12dcx->aSafeP7Dcx);
p12dcx->aSafeP7Dcx = NULL;
p12dcx->error = PR_TRUE;
}
/* notify procedure used while decoding the pfx. When we encounter
* the authSafes, we want to trigger the decoding of authSafes as well
* as when we encounter the macData, trigger the decoding of it. we do
* this because we we are streaming the decoder and not decoding in place.
* the pfx which is the destination, only has the version decoded into it.
*/
static void
sec_pkcs12_decoder_pfx_notify_proc(void *arg, PRBool before, void *dest,
int real_depth)
{
SECStatus rv;
SEC_PKCS12DecoderContext *p12dcx = (SEC_PKCS12DecoderContext *)arg;
/* if an error occurs, clear the notifyProc and the filterProc
* and continue.
*/
if (p12dcx->error) {
SEC_ASN1DecoderClearNotifyProc(p12dcx->pfxA1Dcx);
SEC_ASN1DecoderClearFilterProc(p12dcx->pfxA1Dcx);
return;
}
if (before && (dest == &p12dcx->pfx.encodedAuthSafe)) {
/* we want to make sure this is a version we support */
if (!sec_pkcs12_proper_version(&p12dcx->pfx)) {
p12dcx->errorValue = SEC_ERROR_PKCS12_UNSUPPORTED_VERSION;
goto loser;
}
/* start the decode of the aSafes cinfo... */
rv = sec_pkcs12_decode_start_asafes_cinfo(p12dcx);
if (rv != SECSuccess) {
goto loser;
}
/* set the filter proc to update the authenticated safes. */
SEC_ASN1DecoderSetFilterProc(p12dcx->pfxA1Dcx,
sec_pkcs12_decode_asafes_cinfo_update,
p12dcx, PR_TRUE);
}
if (!before && (dest == &p12dcx->pfx.encodedAuthSafe)) {
/* we are done decoding the authenticatedSafes, so we need to
* finish the decoderContext and clear the filter proc
* and close the hmac callback, if present
*/
p12dcx->aSafeCinfo = SEC_PKCS7DecoderFinish(p12dcx->aSafeP7Dcx);
p12dcx->aSafeP7Dcx = NULL;
if (!p12dcx->aSafeCinfo) {
p12dcx->errorValue = PORT_GetError();
goto loser;
}
SEC_ASN1DecoderClearFilterProc(p12dcx->pfxA1Dcx);
if (p12dcx->dClose && ((*p12dcx->dClose)(p12dcx->dArg, PR_FALSE) != SECSuccess)) {
p12dcx->errorValue = PORT_GetError();
goto loser;
}
}
return;
loser:
p12dcx->error = PR_TRUE;
}
/* default implementations of the open/close/read/write functions for
SEC_PKCS12DecoderStart
*/
#define DEFAULT_TEMP_SIZE 4096
static SECStatus
p12u_DigestOpen(void *arg, PRBool readData)
{
SEC_PKCS12DecoderContext *p12cxt = arg;
p12cxt->currentpos = 0;
if (PR_FALSE == readData) {
/* allocate an initial buffer */
p12cxt->filesize = 0;
p12cxt->allocated = DEFAULT_TEMP_SIZE;
p12cxt->buffer = PORT_Alloc(DEFAULT_TEMP_SIZE);
PR_ASSERT(p12cxt->buffer);
} else {
PR_ASSERT(p12cxt->buffer);
if (!p12cxt->buffer) {
return SECFailure; /* no data to read */
}
}
return SECSuccess;
}
static SECStatus
p12u_DigestClose(void *arg, PRBool removeFile)
{
SEC_PKCS12DecoderContext *p12cxt = arg;
PR_ASSERT(p12cxt);
if (!p12cxt) {
return SECFailure;
}
p12cxt->currentpos = 0;
if (PR_TRUE == removeFile) {
PR_ASSERT(p12cxt->buffer);
if (!p12cxt->buffer) {
return SECFailure;
}
if (p12cxt->buffer) {
PORT_Free(p12cxt->buffer);
p12cxt->buffer = NULL;
p12cxt->allocated = 0;
p12cxt->filesize = 0;
}
}
return SECSuccess;
}
static int
p12u_DigestRead(void *arg, unsigned char *buf, unsigned long len)
{
int toread = len;
SEC_PKCS12DecoderContext *p12cxt = arg;
if (!buf || len == 0 || !p12cxt->buffer) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return -1;
}
if ((p12cxt->filesize - p12cxt->currentpos) < (long)len) {
/* trying to read past the end of the buffer */
toread = p12cxt->filesize - p12cxt->currentpos;
}
memcpy(buf, (char *)p12cxt->buffer + p12cxt->currentpos, toread);
p12cxt->currentpos += toread;
return toread;
}
static int
p12u_DigestWrite(void *arg, unsigned char *buf, unsigned long len)
{
SEC_PKCS12DecoderContext *p12cxt = arg;
if (!buf || len == 0) {
return -1;
}
if (p12cxt->currentpos + (long)len > p12cxt->filesize) {
p12cxt->filesize = p12cxt->currentpos + len;
} else {
p12cxt->filesize += len;
}
if (p12cxt->filesize > p12cxt->allocated) {
void *newbuffer;
size_t newsize = p12cxt->filesize + DEFAULT_TEMP_SIZE;
newbuffer = PORT_Realloc(p12cxt->buffer, newsize);
if (NULL == newbuffer) {
return -1; /* can't extend the buffer */
}
p12cxt->buffer = newbuffer;
p12cxt->allocated = newsize;
}
PR_ASSERT(p12cxt->buffer);
memcpy((char *)p12cxt->buffer + p12cxt->currentpos, buf, len);
p12cxt->currentpos += len;
return len;
}
/* SEC_PKCS12DecoderStart
* Creates a decoder context for decoding a PKCS 12 PDU objct.
* This function sets up the initial decoding context for the
* PFX and sets the needed state variables.
*
* pwitem - the password for the hMac and any encoded safes.
* this should be changed to take a callback which retrieves
* the password. it may be possible for different safes to
* have different passwords. also, the password is already
* in unicode. it should probably be converted down below via
* a unicode conversion callback.
* slot - the slot to import the dataa into should multiple slots
* be supported based on key type and cert type?
* dOpen, dClose, dRead, dWrite - digest routines for writing data
* to a file so it could be read back and the hmac recomputed
* and verified. doesn't seem to be a way for both encoding
* and decoding to be single pass, thus the need for these
* routines.
* dArg - the argument for dOpen, etc.
*
* if NULL == dOpen == dClose == dRead == dWrite == dArg, then default
* implementations using a memory buffer are used
*
* This function returns the decoder context, if it was successful.
* Otherwise, null is returned.
*/
SEC_PKCS12DecoderContext *
SEC_PKCS12DecoderStart(SECItem *pwitem, PK11SlotInfo *slot, void *wincx,
digestOpenFn dOpen, digestCloseFn dClose,
digestIOFn dRead, digestIOFn dWrite, void *dArg)
{
SEC_PKCS12DecoderContext *p12dcx;
PLArenaPool *arena;
PRInt32 forceUnicode = PR_FALSE;
SECStatus rv;
arena = PORT_NewArena(2048); /* different size? */
if (!arena) {
return NULL; /* error is already set */
}
/* allocate the decoder context and set the state variables */
p12dcx = PORT_ArenaZNew(arena, SEC_PKCS12DecoderContext);
if (!p12dcx) {
goto loser; /* error is already set */
}
if (!dOpen && !dClose && !dRead && !dWrite && !dArg) {
/* use default implementations */
dOpen = p12u_DigestOpen;
dClose = p12u_DigestClose;
dRead = p12u_DigestRead;
dWrite = p12u_DigestWrite;
dArg = (void *)p12dcx;
}
p12dcx->arena = arena;
p12dcx->pwitem = pwitem;
p12dcx->slot = (slot ? PK11_ReferenceSlot(slot)
: PK11_GetInternalKeySlot());
p12dcx->wincx = wincx;
p12dcx->tokenCAs = SECPKCS12TargetTokenNoCAs;
#ifdef IS_LITTLE_ENDIAN
p12dcx->swapUnicodeBytes = PR_TRUE;
#else
p12dcx->swapUnicodeBytes = PR_FALSE;
#endif
rv = NSS_OptionGet(__NSS_PKCS12_DECODE_FORCE_UNICODE, &forceUnicode);
if (rv != SECSuccess) {
goto loser;
}
p12dcx->forceUnicode = forceUnicode;
p12dcx->errorValue = 0;
p12dcx->error = PR_FALSE;
/* start the decoding of the PFX and set the notify proc
* for the PFX item.
*/
p12dcx->pfxA1Dcx = SEC_ASN1DecoderStart(p12dcx->arena, &p12dcx->pfx,
sec_PKCS12PFXItemTemplate);
if (!p12dcx->pfxA1Dcx) {
PK11_FreeSlot(p12dcx->slot);
goto loser;
}
SEC_ASN1DecoderSetNotifyProc(p12dcx->pfxA1Dcx,
sec_pkcs12_decoder_pfx_notify_proc,
p12dcx);
/* set up digest functions */
p12dcx->dOpen = dOpen;
p12dcx->dWrite = dWrite;
p12dcx->dClose = dClose;
p12dcx->dRead = dRead;
p12dcx->dArg = dArg;
p12dcx->dIsOpen = PR_FALSE;
p12dcx->keyList = NULL;
p12dcx->decitem.type = 0;
p12dcx->decitem.der = NULL;
p12dcx->decitem.hasKey = PR_FALSE;
p12dcx->decitem.friendlyName = NULL;
p12dcx->iteration = 0;
return p12dcx;
loser:
PORT_FreeArena(arena, PR_TRUE);
return NULL;
}
SECStatus
SEC_PKCS12DecoderSetTargetTokenCAs(SEC_PKCS12DecoderContext *p12dcx,
SECPKCS12TargetTokenCAs tokenCAs)
{
if (!p12dcx || p12dcx->error) {
return SECFailure;
}
p12dcx->tokenCAs = tokenCAs;
return SECSuccess;
}
/* SEC_PKCS12DecoderUpdate
* Streaming update sending more data to the decoder. If
* an error occurs, SECFailure is returned.
*
* p12dcx - the decoder context
* data, len - the data buffer and length of data to send to
* the update functions.
*/
SECStatus
SEC_PKCS12DecoderUpdate(SEC_PKCS12DecoderContext *p12dcx,
unsigned char *data, unsigned long len)
{
SECStatus rv;
if (!p12dcx || p12dcx->error) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
/* update the PFX decoder context */
rv = SEC_ASN1DecoderUpdate(p12dcx->pfxA1Dcx, (const char *)data, len);
if (rv != SECSuccess) {
p12dcx->errorValue = SEC_ERROR_PKCS12_CORRUPT_PFX_STRUCTURE;
goto loser;
}
return SECSuccess;
loser:
p12dcx->error = PR_TRUE;
return SECFailure;
}
/* This should be a nice sized buffer for reading in data (potentially large
** amounts) to be MACed. It should be MUCH larger than HASH_LENGTH_MAX.
*/
#define IN_BUF_LEN 1024
#ifdef DEBUG
static const char bufferEnd[] = { "BufferEnd" };
#endif
#define FUDGE 128 /* must be as large as bufferEnd or more. */
/* verify the hmac by reading the data from the temporary file
* using the routines specified when the decodingContext was
* created and return SECSuccess if the hmac matches.
*/
static SECStatus
sec_pkcs12_decoder_verify_mac(SEC_PKCS12DecoderContext *p12dcx)
{
PK11Context *pk11cx = NULL;
PK11SymKey *symKey = NULL;
unsigned char *buf;
SECStatus rv = SECFailure;
SECStatus lrv;
unsigned int bufLen;
int bytesRead;
SECItem hmacRes;
SECItem ignore = { 0 };
CK_MECHANISM_TYPE hmacMech;
if (!p12dcx || p12dcx->error) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
buf = (unsigned char *)PORT_Alloc(IN_BUF_LEN + FUDGE);
if (!buf)
return SECFailure; /* error code has been set. */
#ifdef DEBUG
memcpy(buf + IN_BUF_LEN, bufferEnd, sizeof bufferEnd);
#endif
/* generate hmac key */
symKey = sec_pkcs12_integrity_key(p12dcx->slot, &p12dcx->macData,
p12dcx->pwitem, &hmacMech, PR_TRUE,
p12dcx->wincx);
if (symKey == NULL) {
goto loser;
}
/* init hmac */
pk11cx = PK11_CreateContextBySymKey(hmacMech, CKA_SIGN, symKey, &ignore);
if (!pk11cx) {
goto loser;
}
lrv = PK11_DigestBegin(pk11cx);
if (lrv == SECFailure) {
goto loser;
}
/* try to open the data for readback */
if (p12dcx->dOpen && ((*p12dcx->dOpen)(p12dcx->dArg, PR_TRUE) != SECSuccess)) {
goto loser;
}
/* read the data back IN_BUF_LEN bytes at a time and recompute
* the hmac. if fewer bytes are read than are requested, it is
* assumed that the end of file has been reached. if bytesRead
* is returned as -1, then an error occurred reading from the
* file.
*/
do {
bytesRead = (*p12dcx->dRead)(p12dcx->dArg, buf, IN_BUF_LEN);
if (bytesRead < 0) {
PORT_SetError(SEC_ERROR_PKCS12_UNABLE_TO_READ);
goto loser;
}
PORT_Assert(bytesRead <= IN_BUF_LEN);
PORT_Assert(!memcmp(buf + IN_BUF_LEN, bufferEnd, sizeof bufferEnd));
if (bytesRead > IN_BUF_LEN) {
/* dRead callback overflowed buffer. */
PORT_SetError(SEC_ERROR_INPUT_LEN);
goto loser;
}
if (bytesRead) {
lrv = PK11_DigestOp(pk11cx, buf, bytesRead);
if (lrv == SECFailure) {
goto loser;
}
}
} while (bytesRead == IN_BUF_LEN);
/* finish the hmac context */
lrv = PK11_DigestFinal(pk11cx, buf, &bufLen, IN_BUF_LEN);
if (lrv == SECFailure) {
goto loser;
}
hmacRes.data = buf;
hmacRes.len = bufLen;
/* is the hmac computed the same as the hmac which was decoded? */
rv = SECSuccess;
if (SECITEM_CompareItem(&hmacRes, &p12dcx->macData.safeMac.digest) != SECEqual) {
PORT_SetError(SEC_ERROR_PKCS12_INVALID_MAC);
rv = SECFailure;
}
loser:
/* close the file and remove it */
if (p12dcx->dClose) {
(*p12dcx->dClose)(p12dcx->dArg, PR_TRUE);
p12dcx->dIsOpen = PR_FALSE;
}
if (pk11cx) {
PK11_DestroyContext(pk11cx, PR_TRUE);
}
if (symKey) {
PK11_FreeSymKey(symKey);
}
PORT_ZFree(buf, IN_BUF_LEN + FUDGE);
return rv;
}
/* SEC_PKCS12DecoderVerify
* Verify the macData or the signature of the decoded PKCS 12 PDU.
* If the signature or the macData do not match, SECFailure is
* returned.
*
* p12dcx - the decoder context
*/
SECStatus
SEC_PKCS12DecoderVerify(SEC_PKCS12DecoderContext *p12dcx)
{
SECStatus rv = SECSuccess;
/* make sure that no errors have occurred... */
if (!p12dcx) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
if (p12dcx->error) {
/* error code is already set! PORT_SetError(p12dcx->errorValue); */
return SECFailure;
}
rv = SEC_ASN1DecoderFinish(p12dcx->pfxA1Dcx);
p12dcx->pfxA1Dcx = NULL;
if (rv != SECSuccess) {
return rv;
}
/* check the signature or the mac depending on the type of
* integrity used.
*/
if (p12dcx->pfx.encodedMacData.len) {
rv = SEC_ASN1DecodeItem(p12dcx->arena, &p12dcx->macData,
sec_PKCS12MacDataTemplate,
&p12dcx->pfx.encodedMacData);
if (rv == SECSuccess) {
return sec_pkcs12_decoder_verify_mac(p12dcx);
}
return rv;
}
if (SEC_PKCS7VerifySignature(p12dcx->aSafeCinfo, certUsageEmailSigner,
PR_FALSE)) {
return SECSuccess;
}
PORT_SetError(SEC_ERROR_PKCS12_INVALID_MAC);
return SECFailure;
}
/* SEC_PKCS12DecoderFinish
* Free any open ASN1 or PKCS7 decoder contexts and then
* free the arena pool which everything should be allocated
* from. This function should be called upon completion of
* decoding and installing of a pfx pdu. This should be
* called even if an error occurs.
*
* p12dcx - the decoder context
*/
void
SEC_PKCS12DecoderFinish(SEC_PKCS12DecoderContext *p12dcx)
{
unsigned int i;
if (!p12dcx) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return;
}
if (p12dcx->pfxA1Dcx) {
SEC_ASN1DecoderFinish(p12dcx->pfxA1Dcx);
p12dcx->pfxA1Dcx = NULL;
}
if (p12dcx->aSafeA1Dcx) {
SEC_ASN1DecoderFinish(p12dcx->aSafeA1Dcx);
p12dcx->aSafeA1Dcx = NULL;
}
/* cleanup any old ASN1 decoder contexts */
for (i = 0; i < p12dcx->safeContentsCnt; ++i) {
sec_PKCS12SafeContentsContext *safeContentsCtx, *nested;
safeContentsCtx = p12dcx->safeContentsList[i];
if (safeContentsCtx) {
nested = safeContentsCtx->nestedSafeContentsCtx;
while (nested) {
if (nested->safeContentsA1Dcx) {
SEC_ASN1DecoderFinish(nested->safeContentsA1Dcx);
nested->safeContentsA1Dcx = NULL;
}
nested = nested->nestedSafeContentsCtx;
}
if (safeContentsCtx->safeContentsA1Dcx) {
SEC_ASN1DecoderFinish(safeContentsCtx->safeContentsA1Dcx);
safeContentsCtx->safeContentsA1Dcx = NULL;
}
}
}
if (p12dcx->currentASafeP7Dcx &&
p12dcx->currentASafeP7Dcx != p12dcx->aSafeP7Dcx) {
SEC_PKCS7ContentInfo *cinfo;
cinfo = SEC_PKCS7DecoderFinish(p12dcx->currentASafeP7Dcx);
if (cinfo) {
SEC_PKCS7DestroyContentInfo(cinfo); /* don't leak it */
}
}
p12dcx->currentASafeP7Dcx = NULL;
if (p12dcx->aSafeP7Dcx) {
SEC_PKCS7ContentInfo *cinfo;
cinfo = SEC_PKCS7DecoderFinish(p12dcx->aSafeP7Dcx);
if (cinfo) {
SEC_PKCS7DestroyContentInfo(cinfo);
}
p12dcx->aSafeP7Dcx = NULL;
}
if (p12dcx->aSafeCinfo) {
SEC_PKCS7DestroyContentInfo(p12dcx->aSafeCinfo);
p12dcx->aSafeCinfo = NULL;
}
if (p12dcx->decitem.type != 0 && p12dcx->decitem.der != NULL) {
SECITEM_FreeItem(p12dcx->decitem.der, PR_TRUE);
}
if (p12dcx->decitem.friendlyName != NULL) {
SECITEM_FreeItem(p12dcx->decitem.friendlyName, PR_TRUE);
}
if (p12dcx->slot) {
PK11_FreeSlot(p12dcx->slot);
p12dcx->slot = NULL;
}
if (p12dcx->dIsOpen && p12dcx->dClose) {
(*p12dcx->dClose)(p12dcx->dArg, PR_TRUE);
p12dcx->dIsOpen = PR_FALSE;
}
if (p12dcx->arena) {
PORT_FreeArena(p12dcx->arena, PR_TRUE);
}
}
static SECStatus
sec_pkcs12_decoder_set_attribute_value(sec_PKCS12SafeBag *bag,
SECOidTag attributeType,
SECItem *attrValue)
{
int i = 0;
SECOidData *oid;
if (!bag || !attrValue) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
oid = SECOID_FindOIDByTag(attributeType);
if (!oid) {
return SECFailure;
}
if (!bag->attribs) {
bag->attribs =
PORT_ArenaZNewArray(bag->arena, sec_PKCS12Attribute *, 2);
} else {
while (bag->attribs[i])
i++;
bag->attribs = PORT_ArenaGrowArray(bag->arena, bag->attribs,
sec_PKCS12Attribute *, i + 1, i + 2);
}
if (!bag->attribs) {
return SECFailure;
}
bag->attribs[i] = PORT_ArenaZNew(bag->arena, sec_PKCS12Attribute);
if (!bag->attribs[i]) {
return SECFailure;
}
bag->attribs[i]->attrValue = PORT_ArenaZNewArray(bag->arena, SECItem *, 2);
if (!bag->attribs[i]->attrValue) {
return SECFailure;
}
bag->attribs[i + 1] = NULL;
bag->attribs[i]->attrValue[0] = attrValue;
bag->attribs[i]->attrValue[1] = NULL;
return SECITEM_CopyItem(bag->arena, &bag->attribs[i]->attrType, &oid->oid);
}
static SECItem *
sec_pkcs12_get_attribute_value(sec_PKCS12SafeBag *bag,
SECOidTag attributeType)
{
int i;
if (!bag->attribs) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return NULL;
}
for (i = 0; bag->attribs[i] != NULL; i++) {
if (SECOID_FindOIDTag(&bag->attribs[i]->attrType) == attributeType) {
return bag->attribs[i]->attrValue[0];
}
}
return NULL;
}
/* For now, this function will merely remove any ":"
* in the nickname which the PK11 functions may have
* placed there. This will keep dual certs from appearing
* twice under "Your" certificates when imported onto smart
* cards. Once with the name "Slot:Cert" and another with
* the nickname "Slot:Slot:Cert"
*/
static void
sec_pkcs12_sanitize_nickname(PK11SlotInfo *slot, SECItem *nick)
{
char *nickname;
char *delimit;
int delimitlen;
nickname = (char *)nick->data;
if ((delimit = PORT_Strchr(nickname, ':')) != NULL) {
char *slotName;
int slotNameLen;
slotNameLen = delimit - nickname;
slotName = PORT_NewArray(char, (slotNameLen + 1));
PORT_Assert(slotName);
if (slotName == NULL) {
/* What else can we do?*/
return;
}
PORT_Memcpy(slotName, nickname, slotNameLen);
slotName[slotNameLen] = '\0';
if (PORT_Strcmp(PK11_GetTokenName(slot), slotName) == 0) {
delimitlen = PORT_Strlen(delimit + 1);
PORT_Memmove(nickname, delimit + 1, delimitlen + 1);
nick->len = delimitlen;
}
PORT_Free(slotName);
}
}
static SECItem *
sec_pkcs12_get_nickname(sec_PKCS12SafeBag *bag)
{
SECItem *src, *dest;
if (!bag) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return NULL;
}
src = sec_pkcs12_get_attribute_value(bag, SEC_OID_PKCS9_FRIENDLY_NAME);
/* The return value src is 16-bit Unicode characters, in big-endian format.
* Check if it is NULL or empty name.
*/
if (!src || !src->data || src->len < 2 || (!src->data[0] && !src->data[1])) {
return NULL;
}
dest = (SECItem *)PORT_ZAlloc(sizeof(SECItem));
if (!dest) {
goto loser;
}
if (!sec_pkcs12_convert_item_to_unicode(NULL, dest, src, PR_FALSE,
PR_FALSE, PR_FALSE)) {
goto loser;
}
sec_pkcs12_sanitize_nickname(bag->slot, dest);
return dest;
loser:
if (dest) {
SECITEM_ZfreeItem(dest, PR_TRUE);
}
bag->problem = PR_TRUE;
bag->error = PORT_GetError();
return NULL;
}
static SECStatus
sec_pkcs12_set_nickname(sec_PKCS12SafeBag *bag, SECItem *name)
{
sec_PKCS12Attribute *attr = NULL;
SECOidData *oid = SECOID_FindOIDByTag(SEC_OID_PKCS9_FRIENDLY_NAME);
if (!bag || !bag->arena || !name) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
if (!bag->attribs) {
if (!oid) {
goto loser;
}
bag->attribs =
PORT_ArenaZNewArray(bag->arena, sec_PKCS12Attribute *, 2);
if (!bag->attribs) {
goto loser;
}
bag->attribs[0] = PORT_ArenaZNew(bag->arena, sec_PKCS12Attribute);
if (!bag->attribs[0]) {
goto loser;
}
bag->attribs[1] = NULL;
attr = bag->attribs[0];
if (SECITEM_CopyItem(bag->arena, &attr->attrType, &oid->oid) != SECSuccess) {
goto loser;
}
} else {
int i;
for (i = 0; bag->attribs[i]; i++) {
if (SECOID_FindOIDTag(&bag->attribs[i]->attrType) == SEC_OID_PKCS9_FRIENDLY_NAME) {
attr = bag->attribs[i];
break;
}
}
if (!attr) {
if (!oid) {
goto loser;
}
bag->attribs = PORT_ArenaGrowArray(bag->arena, bag->attribs,
sec_PKCS12Attribute *, i + 1, i + 2);
if (!bag->attribs) {
goto loser;
}
bag->attribs[i] = PORT_ArenaZNew(bag->arena, sec_PKCS12Attribute);
if (!bag->attribs[i]) {
goto loser;
}
bag->attribs[i + 1] = NULL;
attr = bag->attribs[i];
if (SECITEM_CopyItem(bag->arena, &attr->attrType, &oid->oid) != SECSuccess) {
goto loser;
}
}
}
PORT_Assert(attr);
if (!attr->attrValue) {
attr->attrValue = PORT_ArenaZNewArray(bag->arena, SECItem *, 2);
if (!attr->attrValue) {
goto loser;
}
attr->attrValue[0] = PORT_ArenaZNew(bag->arena, SECItem);
if (!attr->attrValue[0]) {
goto loser;
}
attr->attrValue[1] = NULL;
}
name->len = PORT_Strlen((char *)name->data);
if (!sec_pkcs12_convert_item_to_unicode(bag->arena, attr->attrValue[0],
name, PR_FALSE, PR_FALSE, PR_TRUE)) {
goto loser;
}
return SECSuccess;
loser:
bag->problem = PR_TRUE;
bag->error = PORT_GetError();
return SECFailure;
}
static SECStatus
sec_pkcs12_get_key_info(sec_PKCS12SafeBag *key)
{
int i = 0;
SECKEYPrivateKeyInfo *pki = NULL;
if (!key) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
/* if the bag does *not* contain an unencrypted PrivateKeyInfo
* then we cannot convert the attributes. We are propagating
* attributes within the PrivateKeyInfo to the SafeBag level.
*/
if (SECOID_FindOIDTag(&(key->safeBagType)) !=
SEC_OID_PKCS12_V1_KEY_BAG_ID) {
return SECSuccess;
}
pki = key->safeBagContent.pkcs8KeyBag;
if (!pki || !pki->attributes) {
return SECSuccess;
}
while (pki->attributes[i]) {
SECOidTag tag = SECOID_FindOIDTag(&pki->attributes[i]->attrType);
if (tag == SEC_OID_PKCS9_LOCAL_KEY_ID ||
tag == SEC_OID_PKCS9_FRIENDLY_NAME) {
SECItem *attrValue = sec_pkcs12_get_attribute_value(key, tag);
if (!attrValue) {
if (sec_pkcs12_decoder_set_attribute_value(key, tag,
pki->attributes[i]->attrValue[0]) != SECSuccess) {
key->problem = PR_TRUE;
key->error = PORT_GetError();
return SECFailure;
}
}
}
i++;
}
return SECSuccess;
}
/* retrieve the nickname for the certificate bag. first look
* in the cert bag, otherwise get it from the key.
*/
static SECItem *
sec_pkcs12_get_nickname_for_cert(sec_PKCS12SafeBag *cert,
sec_PKCS12SafeBag *key)
{
SECItem *nickname;
if (!cert) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return NULL;
}
nickname = sec_pkcs12_get_nickname(cert);
if (nickname) {
return nickname;
}
if (key) {
nickname = sec_pkcs12_get_nickname(key);
if (nickname && sec_pkcs12_set_nickname(cert, nickname) != SECSuccess) {
SECITEM_ZfreeItem(nickname, PR_TRUE);
return NULL;
}
}
return nickname;
}
/* set the nickname for the certificate */
static SECStatus
sec_pkcs12_set_nickname_for_cert(sec_PKCS12SafeBag *cert,
sec_PKCS12SafeBag *key,
SECItem *nickname)
{
if (!nickname || !cert) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
if (sec_pkcs12_set_nickname(cert, nickname) != SECSuccess) {
return SECFailure;
}
if (key) {
if (sec_pkcs12_set_nickname(key, nickname) != SECSuccess) {
cert->problem = PR_TRUE;
cert->error = key->error;
return SECFailure;
}
}
return SECSuccess;
}
/* retrieve the DER cert from the cert bag */
static SECItem *
sec_pkcs12_get_der_cert(sec_PKCS12SafeBag *cert)
{
if (!cert) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return NULL;
}
if (SECOID_FindOIDTag(&cert->safeBagType) != SEC_OID_PKCS12_V1_CERT_BAG_ID) {
return NULL;
}
/* only support X509 certs not SDSI */
if (SECOID_FindOIDTag(&cert->safeBagContent.certBag->bagID) != SEC_OID_PKCS9_X509_CERT) {
return NULL;
}
return SECITEM_DupItem(&(cert->safeBagContent.certBag->value.x509Cert));
}
struct certNickInfo {
PLArenaPool *arena;
unsigned int nNicks;
SECItem **nickList;
unsigned int error;
};
/* callback for traversing certificates to gather the nicknames
* used in a particular traversal. for instance, when using
* CERT_TraversePermCertsForSubject, gather the nicknames and
* store them in the certNickInfo for a particular DN.
*
* this handles the case where multiple nicknames are allowed
* for the same dn, which is not currently allowed, but may be
* in the future.
*/
static SECStatus
gatherNicknames(CERTCertificate *cert, void *arg)
{
struct certNickInfo *nickArg = (struct certNickInfo *)arg;
SECItem tempNick;
unsigned int i;
if (!cert || !nickArg || nickArg->error) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
if (!cert->nickname) {
return SECSuccess;
}
tempNick.data = (unsigned char *)cert->nickname;
tempNick.len = PORT_Strlen(cert->nickname) + 1;
tempNick.type = siAsciiString;
/* do we already have the nickname in the list? */
if (nickArg->nNicks > 0) {
/* nicknames have been encountered, but there is no list -- bad */
if (!nickArg->nickList) {
nickArg->error = SEC_ERROR_INVALID_ARGS;
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
for (i = 0; i < nickArg->nNicks; i++) {
if (SECITEM_CompareItem(nickArg->nickList[i], &tempNick) == SECEqual) {
return SECSuccess;
}
}
}
/* add the nickname to the list */
nickArg->nickList = (nickArg->nNicks == 0)
? PORT_ArenaZNewArray(nickArg->arena, SECItem *, 2)
: PORT_ArenaGrowArray(nickArg->arena, nickArg->nickList, SECItem *,
nickArg->nNicks + 1, nickArg->nNicks + 2);
if (!nickArg->nickList) {
nickArg->error = SEC_ERROR_NO_MEMORY;
return SECFailure;
}
nickArg->nickList[nickArg->nNicks] =
PORT_ArenaZNew(nickArg->arena, SECItem);
if (!nickArg->nickList[nickArg->nNicks]) {
nickArg->error = PORT_GetError();
return SECFailure;
}
if (SECITEM_CopyItem(nickArg->arena, nickArg->nickList[nickArg->nNicks],
&tempNick) != SECSuccess) {
nickArg->error = PORT_GetError();
return SECFailure;
}
nickArg->nNicks++;
return SECSuccess;
}
/* traverses the certs in the data base or in the token for the
* DN to see if any certs currently have a nickname set.
* If so, return it.
*/
static SECItem *
sec_pkcs12_get_existing_nick_for_dn(sec_PKCS12SafeBag *cert)
{
struct certNickInfo *nickArg = NULL;
SECItem *derCert, *returnDn = NULL;
PLArenaPool *arena = NULL;
CERTCertificate *tempCert;
if (!cert) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return NULL;
}
derCert = sec_pkcs12_get_der_cert(cert);
if (!derCert) {
return NULL;
}
tempCert = CERT_DecodeDERCertificate(derCert, PR_FALSE, NULL);
if (!tempCert) {
returnDn = NULL;
goto loser;
}
arena = PORT_NewArena(1024);
if (!arena) {
returnDn = NULL;
goto loser;
}
nickArg = PORT_ArenaZNew(arena, struct certNickInfo);
if (!nickArg) {
returnDn = NULL;
goto loser;
}
nickArg->error = 0;
nickArg->nNicks = 0;
nickArg->nickList = NULL;
nickArg->arena = arena;
/* if the token is local, first traverse the cert database
* then traverse the token.
*/
if (PK11_TraverseCertsForSubjectInSlot(tempCert, cert->slot, gatherNicknames,
(void *)nickArg) != SECSuccess) {
returnDn = NULL;
goto loser;
}
if (nickArg->error) {
/* XXX do we want to set the error? */
returnDn = NULL;
goto loser;
}
if (nickArg->nNicks == 0) {
returnDn = NULL;
goto loser;
}
/* set it to the first name, for now. handle multiple names? */
returnDn = SECITEM_DupItem(nickArg->nickList[0]);
loser:
if (arena) {
PORT_FreeArena(arena, PR_TRUE);
}
if (tempCert) {
CERT_DestroyCertificate(tempCert);
}
if (derCert) {
SECITEM_FreeItem(derCert, PR_TRUE);
}
return (returnDn);
}
/* counts certificates found for a given traversal function */
static SECStatus
countCertificate(CERTCertificate *cert, void *arg)
{
unsigned int *nCerts = (unsigned int *)arg;
if (!cert || !arg) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
(*nCerts)++;
return SECSuccess;
}
static PRBool
sec_pkcs12_certs_for_nickname_exist(SECItem *nickname, PK11SlotInfo *slot)
{
unsigned int nCerts = 0;
if (!nickname || !slot) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return PR_TRUE;
}
/* we want to check the local database first if we are importing to it */
PK11_TraverseCertsForNicknameInSlot(nickname, slot, countCertificate,
(void *)&nCerts);
return (PRBool)(nCerts != 0);
}
/* validate cert nickname such that there is a one-to-one relation
* between nicknames and dn's. we want to enforce the case that the
* nickname is non-NULL and that there is only one nickname per DN.
*
* if there is a problem with a nickname or the nickname is not present,
* the user will be prompted for it.
*/
static void
sec_pkcs12_validate_cert_nickname(sec_PKCS12SafeBag *cert,
sec_PKCS12SafeBag *key,
SEC_PKCS12NicknameCollisionCallback nicknameCb,
CERTCertificate *leafCert)
{
SECItem *certNickname, *existingDNNick;
PRBool setNickname = PR_FALSE, cancel = PR_FALSE;
SECItem *newNickname = NULL;
if (!cert || !cert->hasKey) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return;
}
if (!nicknameCb) {
cert->problem = PR_TRUE;
cert->error = SEC_ERROR_INVALID_ARGS;
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return;
}
if (cert->hasKey && !key) {
cert->problem = PR_TRUE;
cert->error = SEC_ERROR_INVALID_ARGS;
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return;
}
certNickname = sec_pkcs12_get_nickname_for_cert(cert, key);
existingDNNick = sec_pkcs12_get_existing_nick_for_dn(cert);
/* nickname is already used w/ this dn, so it is safe to return */
if (certNickname && existingDNNick &&
SECITEM_CompareItem(certNickname, existingDNNick) == SECEqual) {
goto loser;
}
/* nickname not set in pkcs 12 bags, but a nick is already used for
* this dn. set the nicks in the p12 bags and finish.
*/
if (existingDNNick) {
sec_pkcs12_set_nickname_for_cert(cert, key, existingDNNick);
goto loser;
}
/* at this point, we have a certificate for which the DN is not located
* on the token. the nickname specified may or may not be NULL. if it
* is not null, we need to make sure that there are no other certificates
* with this nickname in the token for it to be valid. this imposes a
* one to one relationship between DN and nickname.
*
* if the nickname is null, we need the user to enter a nickname for
* the certificate.
*
* once we have a nickname, we make sure that the nickname is unique
* for the DN. if it is not, the user is reprompted to enter a new
* nickname.
*
* in order to exit this loop, the nickname entered is either unique
* or the user hits cancel and the certificate is not imported.
*/
setNickname = PR_FALSE;
while (1) {
/* we will use the nickname so long as no other certs have the
* same nickname. and the nickname is not NULL.
*/
if (certNickname && certNickname->data &&
!sec_pkcs12_certs_for_nickname_exist(certNickname, cert->slot)) {
if (setNickname) {
sec_pkcs12_set_nickname_for_cert(cert, key, certNickname);
}
break;
}
setNickname = PR_FALSE;
newNickname = (*nicknameCb)(certNickname, &cancel, leafCert);
if (cancel) {
cert->problem = PR_TRUE;
cert->error = SEC_ERROR_USER_CANCELLED;
break;
}
if (!newNickname) {
cert->problem = PR_TRUE;
cert->error = PORT_GetError();
break;
}
/* at this point we have a new nickname, if we have an existing
* certNickname, we need to free it and assign the new nickname
* to it to avoid a memory leak. happy?
*/
if (certNickname) {
SECITEM_ZfreeItem(certNickname, PR_TRUE);
certNickname = NULL;
}
certNickname = newNickname;
setNickname = PR_TRUE;
/* go back and recheck the new nickname */
}
loser:
if (certNickname) {
SECITEM_ZfreeItem(certNickname, PR_TRUE);
}
if (existingDNNick) {
SECITEM_ZfreeItem(existingDNNick, PR_TRUE);
}
}
static void
sec_pkcs12_validate_cert(sec_PKCS12SafeBag *cert,
sec_PKCS12SafeBag *key,
SEC_PKCS12NicknameCollisionCallback nicknameCb)
{
CERTCertificate *leafCert;
if (!cert) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return;
}
cert->validated = PR_TRUE;
if (!nicknameCb) {
cert->noInstall = PR_TRUE;
cert->problem = PR_TRUE;
cert->error = SEC_ERROR_INVALID_ARGS;
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return;
}
if (!cert->safeBagContent.certBag) {
cert->noInstall = PR_TRUE;
cert->problem = PR_TRUE;
cert->error = SEC_ERROR_PKCS12_CORRUPT_PFX_STRUCTURE;
return;
}
cert->noInstall = PR_FALSE;
cert->unused = PR_FALSE;
cert->problem = PR_FALSE;
cert->error = 0;
leafCert = CERT_DecodeDERCertificate(
&cert->safeBagContent.certBag->value.x509Cert, PR_FALSE, NULL);
if (!leafCert) {
cert->noInstall = PR_TRUE;
cert->problem = PR_TRUE;
cert->error = PORT_GetError();
return;
}
sec_pkcs12_validate_cert_nickname(cert, key, nicknameCb, leafCert);
CERT_DestroyCertificate(leafCert);
}
static void
sec_pkcs12_validate_key_by_cert(sec_PKCS12SafeBag *cert, sec_PKCS12SafeBag *key,
void *wincx)
{
CERTCertificate *leafCert;
SECKEYPrivateKey *privk;
if (!key) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return;
}
key->validated = PR_TRUE;
if (!cert) {
key->problem = PR_TRUE;
key->noInstall = PR_TRUE;
key->error = SEC_ERROR_PKCS12_UNABLE_TO_IMPORT_KEY;
return;
}
leafCert = CERT_DecodeDERCertificate(
&(cert->safeBagContent.certBag->value.x509Cert), PR_FALSE, NULL);
if (!leafCert) {
key->problem = PR_TRUE;
key->noInstall = PR_TRUE;
key->error = PORT_GetError();
return;
}
privk = PK11_FindPrivateKeyFromCert(key->slot, leafCert, wincx);
if (!privk) {
privk = PK11_FindKeyByDERCert(key->slot, leafCert, wincx);
}
if (privk) {
SECKEY_DestroyPrivateKey(privk);
key->noInstall = PR_TRUE;
}
CERT_DestroyCertificate(leafCert);
}
static SECStatus
sec_pkcs12_add_cert(sec_PKCS12SafeBag *cert, PRBool keyExists, void *wincx)
{
SECItem *derCert, *nickName;
char *nickData = NULL;
PRBool isIntermediateCA;
SECStatus rv;
if (!cert) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
if (cert->problem || cert->noInstall || cert->installed) {
return SECSuccess;
}
derCert = &cert->safeBagContent.certBag->value.x509Cert;
PORT_Assert(!cert->problem && !cert->noInstall);
nickName = sec_pkcs12_get_nickname(cert);
if (nickName) {
nickData = (char *)nickName->data;
}
isIntermediateCA = CERT_IsCADERCert(derCert, NULL) &&
!CERT_IsRootDERCert(derCert);
if (keyExists) {
CERTCertificate *newCert;
newCert = CERT_NewTempCertificate(CERT_GetDefaultCertDB(),
derCert, NULL, PR_FALSE, PR_FALSE);
if (!newCert) {
if (nickName)
SECITEM_ZfreeItem(nickName, PR_TRUE);
cert->error = PORT_GetError();
cert->problem = PR_TRUE;
return SECFailure;
}
rv = PK11_ImportCertForKeyToSlot(cert->slot, newCert, nickData,
PR_TRUE, wincx);
CERT_DestroyCertificate(newCert);
} else if ((cert->tokenCAs == SECPKCS12TargetTokenNoCAs) ||
((cert->tokenCAs == SECPKCS12TargetTokenIntermediateCAs) &&
!isIntermediateCA)) {
SECItem *certList[2];
certList[0] = derCert;
certList[1] = NULL;
rv = CERT_ImportCerts(CERT_GetDefaultCertDB(), certUsageUserCertImport,
1, certList, NULL, PR_TRUE, PR_FALSE, nickData);
} else {
rv = PK11_ImportDERCert(cert->slot, derCert, CK_INVALID_HANDLE,
nickData, PR_FALSE);
}
if (rv) {
cert->problem = 1;
cert->error = PORT_GetError();
}
cert->installed = PR_TRUE;
if (nickName)
SECITEM_ZfreeItem(nickName, PR_TRUE);
return rv;
}
static SECItem *
sec_pkcs12_get_public_value_and_type(SECKEYPublicKey *pubKey, KeyType *type);
static SECStatus
sec_pkcs12_add_key(sec_PKCS12SafeBag *key, SECKEYPublicKey *pubKey,
unsigned int keyUsage,
SECItem *nickName, PRBool forceUnicode, void *wincx)
{
SECStatus rv;
SECItem *publicValue = NULL;
KeyType keyType;
/* We should always have values for "key" and "pubKey"
so they can be dereferenced later. */
if (!key || !pubKey) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
if (key->problem || key->noInstall) {
return SECSuccess;
}
/* get the value and type from the public key */
publicValue = sec_pkcs12_get_public_value_and_type(pubKey, &keyType);
if (!publicValue) {
key->error = SEC_ERROR_PKCS12_UNABLE_TO_IMPORT_KEY;
key->problem = PR_TRUE;
return SECFailure;
}
switch (SECOID_FindOIDTag(&key->safeBagType)) {
case SEC_OID_PKCS12_V1_KEY_BAG_ID:
rv = PK11_ImportPrivateKeyInfo(key->slot,
key->safeBagContent.pkcs8KeyBag,
nickName, publicValue, PR_TRUE, PR_TRUE,
keyUsage, wincx);
break;
case SEC_OID_PKCS12_V1_PKCS8_SHROUDED_KEY_BAG_ID: {
SECItem pwitem = { 0 };
SECAlgorithmID *algid =
&key->safeBagContent.pkcs8ShroudedKeyBag->algorithm;
SECOidTag algorithm = SECOID_GetAlgorithmTag(algid);
if (!SEC_PKCS12DecryptionAllowed(algid)) {
key->error = SEC_ERROR_BAD_EXPORT_ALGORITHM;
key->problem = PR_TRUE;
return SECFailure;
}
if (forceUnicode) {
if (SECITEM_CopyItem(NULL, &pwitem, key->pwitem) != SECSuccess) {
key->error = SEC_ERROR_PKCS12_UNABLE_TO_IMPORT_KEY;
key->problem = PR_TRUE;
return SECFailure;
}
} else {
if (!sec_pkcs12_decode_password(NULL, &pwitem, algorithm,
key->pwitem)) {
key->error = SEC_ERROR_PKCS12_UNABLE_TO_IMPORT_KEY;
key->problem = PR_TRUE;
return SECFailure;
}
}
rv = PK11_ImportEncryptedPrivateKeyInfo(key->slot,
key->safeBagContent.pkcs8ShroudedKeyBag,
&pwitem, nickName, publicValue,
PR_TRUE, PR_TRUE, keyType, keyUsage,
wincx);
if (pwitem.data) {
SECITEM_ZfreeItem(&pwitem, PR_FALSE);
}
break;
}
default:
key->error = SEC_ERROR_PKCS12_UNSUPPORTED_VERSION;
key->problem = PR_TRUE;
if (nickName) {
SECITEM_ZfreeItem(nickName, PR_TRUE);
}
return SECFailure;
}
if (rv != SECSuccess) {
key->error = SEC_ERROR_PKCS12_UNABLE_TO_IMPORT_KEY;
key->problem = PR_TRUE;
} else {
/* try to import the public key. Failure to do so is not fatal,
* not all tokens can store the public key */
if (pubKey) {
PK11_ImportPublicKey(key->slot, pubKey, PR_TRUE);
}
key->installed = PR_TRUE;
}
return rv;
}
/*
* The correctness of the code in this file ABSOLUTELY REQUIRES
* that ALL BAGs share a single common arena.
*
* This function allocates the bag list from the arena of whatever bag
* happens to be passed to it. Each time a new bag is handed to it,
* it grows (resizes) the arena of the bag that was handed to it.
* If the bags have different arenas, it will grow the wrong arena.
*
* Worse, if the bags had separate arenas, then while destroying the bags
* in a bag list, when the bag whose arena contained the bag list was
* destroyed, the baglist itself would be destroyed, making it difficult
* or impossible to continue to destroy the bags in the destroyed list.
*/
static SECStatus
sec_pkcs12_add_item_to_bag_list(sec_PKCS12SafeBag ***bagList,
sec_PKCS12SafeBag *bag)
{
sec_PKCS12SafeBag **newBagList = NULL;
int i = 0;
if (!bagList || !bag) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
if (!(*bagList)) {
newBagList = PORT_ArenaZNewArray(bag->arena, sec_PKCS12SafeBag *, 2);
} else {
while ((*bagList)[i])
i++;
newBagList = PORT_ArenaGrowArray(bag->arena, *bagList,
sec_PKCS12SafeBag *, i + 1, i + 2);
}
if (!newBagList) {
PORT_SetError(SEC_ERROR_NO_MEMORY);
return SECFailure;
}
newBagList[i] = bag;
newBagList[i + 1] = NULL;
*bagList = newBagList;
return SECSuccess;
}
static sec_PKCS12SafeBag **
sec_pkcs12_find_certs_for_key(sec_PKCS12SafeBag **safeBags,
sec_PKCS12SafeBag *key)
{
sec_PKCS12SafeBag **certList = NULL;
SECItem *keyId;
int i;
if (!safeBags || !safeBags[0]) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return NULL;
}
keyId = sec_pkcs12_get_attribute_value(key, SEC_OID_PKCS9_LOCAL_KEY_ID);
if (!keyId) {
return NULL;
}
for (i = 0; safeBags[i]; i++) {
if (SECOID_FindOIDTag(&(safeBags[i]->safeBagType)) == SEC_OID_PKCS12_V1_CERT_BAG_ID) {
SECItem *certKeyId = sec_pkcs12_get_attribute_value(safeBags[i],
SEC_OID_PKCS9_LOCAL_KEY_ID);
if (certKeyId && (SECITEM_CompareItem(certKeyId, keyId) == SECEqual)) {
if (sec_pkcs12_add_item_to_bag_list(&certList, safeBags[i]) != SECSuccess) {
/* This would leak the partial list of safeBags,
* but that list is allocated from the arena of
* one of the safebags, and will be destroyed when
* that arena is destroyed. So this is not a real leak.
*/
return NULL;
}
}
}
}
return certList;
}
CERTCertList *
SEC_PKCS12DecoderGetCerts(SEC_PKCS12DecoderContext *p12dcx)
{
CERTCertList *certList = NULL;
sec_PKCS12SafeBag **safeBags;
int i;
if (!p12dcx || !p12dcx->safeBags || !p12dcx->safeBags[0]) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return NULL;
}
safeBags = p12dcx->safeBags;
certList = CERT_NewCertList();
if (certList == NULL) {
return NULL;
}
for (i = 0; safeBags[i]; i++) {
if (SECOID_FindOIDTag(&(safeBags[i]->safeBagType)) == SEC_OID_PKCS12_V1_CERT_BAG_ID) {
SECItem *derCert = sec_pkcs12_get_der_cert(safeBags[i]);
CERTCertificate *tempCert = NULL;
if (derCert == NULL)
continue;
tempCert = CERT_NewTempCertificate(CERT_GetDefaultCertDB(),
derCert, NULL,
PR_FALSE, PR_TRUE);
if (tempCert) {
CERT_AddCertToListTail(certList, tempCert);
}
SECITEM_FreeItem(derCert, PR_TRUE);
}
/* fixed an infinite loop here, by ensuring that i gets incremented
* if derCert is NULL above.
*/
}
return certList;
}
static sec_PKCS12SafeBag **
sec_pkcs12_get_key_bags(sec_PKCS12SafeBag **safeBags)
{
int i;
sec_PKCS12SafeBag **keyList = NULL;
SECOidTag bagType;
if (!safeBags || !safeBags[0]) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return NULL;
}
for (i = 0; safeBags[i]; i++) {
bagType = SECOID_FindOIDTag(&(safeBags[i]->safeBagType));
switch (bagType) {
case SEC_OID_PKCS12_V1_KEY_BAG_ID:
case SEC_OID_PKCS12_V1_PKCS8_SHROUDED_KEY_BAG_ID:
if (sec_pkcs12_add_item_to_bag_list(&keyList, safeBags[i]) != SECSuccess) {
/* This would leak, except that keyList is allocated
* from the arena shared by all the safeBags.
*/
return NULL;
}
break;
default:
break;
}
}
return keyList;
}
/* This function takes two passes over the bags, validating them
* The two passes are intended to mirror exactly the two passes in
* sec_pkcs12_install_bags. But they don't. :(
*/
static SECStatus
sec_pkcs12_validate_bags(sec_PKCS12SafeBag **safeBags,
SEC_PKCS12NicknameCollisionCallback nicknameCb,
void *wincx)
{
sec_PKCS12SafeBag **keyList;
int i;
if (!safeBags || !nicknameCb) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
if (!safeBags[0]) {
return SECSuccess;
}
/* First pass. Find all the key bags.
* Find the matching cert(s) for each key.
*/
keyList = sec_pkcs12_get_key_bags(safeBags);
if (keyList) {
for (i = 0; keyList[i]; ++i) {
sec_PKCS12SafeBag *key = keyList[i];
sec_PKCS12SafeBag **certList =
sec_pkcs12_find_certs_for_key(safeBags, key);
if (certList) {
int j;
if (SECOID_FindOIDTag(&(key->safeBagType)) ==
SEC_OID_PKCS12_V1_KEY_BAG_ID) {
/* if it is an unencrypted private key then make sure
* the attributes are propageted to the appropriate
* level
*/
if (sec_pkcs12_get_key_info(key) != SECSuccess) {
return SECFailure;
}
}
sec_pkcs12_validate_key_by_cert(certList[0], key, wincx);
for (j = 0; certList[j]; ++j) {
sec_PKCS12SafeBag *cert = certList[j];
cert->hasKey = PR_TRUE;
if (key->problem) {
cert->problem = PR_TRUE;
cert->error = key->error;
continue;
}
sec_pkcs12_validate_cert(cert, key, nicknameCb);
if (cert->problem) {
key->problem = cert->problem;
key->error = cert->error;
}
}
}
}
}
/* Now take a second pass over the safebags and mark for installation any
* certs that were neither installed nor disqualified by the first pass.
*/
for (i = 0; safeBags[i]; ++i) {
sec_PKCS12SafeBag *bag = safeBags[i];
if (!bag->validated) {
SECOidTag bagType = SECOID_FindOIDTag(&bag->safeBagType);
switch (bagType) {
case SEC_OID_PKCS12_V1_CERT_BAG_ID:
sec_pkcs12_validate_cert(bag, NULL, nicknameCb);
break;
case SEC_OID_PKCS12_V1_KEY_BAG_ID:
case SEC_OID_PKCS12_V1_PKCS8_SHROUDED_KEY_BAG_ID:
bag->noInstall = PR_TRUE;
bag->problem = PR_TRUE;
bag->error = SEC_ERROR_PKCS12_UNABLE_TO_IMPORT_KEY;
break;
default:
bag->noInstall = PR_TRUE;
}
}
}
return SECSuccess;
}
SECStatus
SEC_PKCS12DecoderValidateBags(SEC_PKCS12DecoderContext *p12dcx,
SEC_PKCS12NicknameCollisionCallback nicknameCb)
{
SECStatus rv;
int i, probCnt, errorVal = 0;
if (!p12dcx || p12dcx->error || !p12dcx->safeBags) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
rv = sec_pkcs12_validate_bags(p12dcx->safeBags, nicknameCb, p12dcx->wincx);
if (rv == SECSuccess) {
p12dcx->bagsVerified = PR_TRUE;
}
probCnt = 0;
i = 0;
while (p12dcx->safeBags[i]) {
if (p12dcx->safeBags[i]->problem) {
probCnt++;
errorVal = p12dcx->safeBags[i]->error;
}
i++;
}
if (probCnt) {
PORT_SetError(errorVal);
return SECFailure;
}
return rv;
}
SECStatus
SEC_PKCS12DecoderRenameCertNicknames(SEC_PKCS12DecoderContext *p12dcx,
SEC_PKCS12NicknameRenameCallback nicknameCb,
void *arg)
{
int i;
sec_PKCS12SafeBag *safeBag;
CERTCertificate *cert;
SECStatus srv;
if (!p12dcx || p12dcx->error || !p12dcx->safeBags || !nicknameCb) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
for (i = 0; (safeBag = p12dcx->safeBags[i]); i++) {
SECItem *newNickname = NULL;
SECItem *defaultNickname = NULL;
SECStatus rename_rv;
if (SECOID_FindOIDTag(&(safeBag->safeBagType)) !=
SEC_OID_PKCS12_V1_CERT_BAG_ID) {
continue;
}
cert = CERT_DecodeDERCertificate(
&safeBag->safeBagContent.certBag->value.x509Cert,
PR_FALSE, NULL);
if (!cert) {
return SECFailure;
}
defaultNickname = sec_pkcs12_get_nickname(safeBag);
rename_rv = (*nicknameCb)(cert, defaultNickname, &newNickname, arg);
CERT_DestroyCertificate(cert);
if (defaultNickname) {
SECITEM_ZfreeItem(defaultNickname, PR_TRUE);
defaultNickname = NULL;
}
if (rename_rv != SECSuccess) {
return rename_rv;
}
if (newNickname) {
srv = sec_pkcs12_set_nickname(safeBag, newNickname);
SECITEM_ZfreeItem(newNickname, PR_TRUE);
newNickname = NULL;
if (srv != SECSuccess) {
return SECFailure;
}
}
}
return SECSuccess;
}
static SECKEYPublicKey *
sec_pkcs12_get_public_key_and_usage(sec_PKCS12SafeBag *certBag,
unsigned int *usage)
{
SECKEYPublicKey *pubKey = NULL;
CERTCertificate *cert = NULL;
if (!certBag || !usage) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return NULL;
}
*usage = 0;
cert = CERT_DecodeDERCertificate(
&certBag->safeBagContent.certBag->value.x509Cert, PR_FALSE, NULL);
if (!cert) {
return NULL;
}
*usage = cert->keyUsage;
pubKey = CERT_ExtractPublicKey(cert);
CERT_DestroyCertificate(cert);
return pubKey;
}
static SECItem *
sec_pkcs12_get_public_value_and_type(SECKEYPublicKey *pubKey,
KeyType *type)
{
SECItem *pubValue = NULL;
if (!type || !pubKey) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return NULL;
}
*type = pubKey->keyType;
switch (pubKey->keyType) {
case dsaKey:
pubValue = &pubKey->u.dsa.publicValue;
break;
case dhKey:
pubValue = &pubKey->u.dh.publicValue;
break;
case rsaKey:
pubValue = &pubKey->u.rsa.modulus;
break;
case ecKey:
pubValue = &pubKey->u.ec.publicValue;
break;
default:
pubValue = NULL;
}
return pubValue;
}
/* This function takes two passes over the bags, installing them in the
* desired slot. The two passes are intended to mirror exactly the
* two passes in sec_pkcs12_validate_bags.
*/
static SECStatus
sec_pkcs12_install_bags(sec_PKCS12SafeBag **safeBags, PRBool forceUnicode,
void *wincx)
{
sec_PKCS12SafeBag **keyList;
int i;
int failedKeys = 0;
if (!safeBags) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
if (!safeBags[0]) {
return SECSuccess;
}
/* First pass. Find all the key bags.
* Try to install them, and any certs associated with them.
*/
keyList = sec_pkcs12_get_key_bags(safeBags);
if (keyList) {
for (i = 0; keyList[i]; i++) {
SECStatus rv;
SECKEYPublicKey *pubKey = NULL;
SECItem *nickName = NULL;
sec_PKCS12SafeBag *key = keyList[i];
sec_PKCS12SafeBag **certList;
unsigned int keyUsage;
if (key->problem) {
++failedKeys;
continue;
}
certList = sec_pkcs12_find_certs_for_key(safeBags, key);
if (certList && certList[0]) {
pubKey = sec_pkcs12_get_public_key_and_usage(certList[0],
&keyUsage);
/* use the cert's nickname, if it has one, else use the
* key's nickname, else fail.
*/
nickName = sec_pkcs12_get_nickname_for_cert(certList[0], key);
} else {
nickName = sec_pkcs12_get_nickname(key);
}
if (!nickName) {
key->error = SEC_ERROR_BAD_NICKNAME;
key->problem = PR_TRUE;
rv = SECFailure;
} else if (!pubKey) {
key->error = SEC_ERROR_PKCS12_UNABLE_TO_IMPORT_KEY;
key->problem = PR_TRUE;
rv = SECFailure;
} else {
rv = sec_pkcs12_add_key(key, pubKey, keyUsage, nickName,
forceUnicode, wincx);
}
if (pubKey) {
SECKEY_DestroyPublicKey(pubKey);
pubKey = NULL;
}
if (nickName) {
SECITEM_FreeItem(nickName, PR_TRUE);
nickName = NULL;
}
if (rv != SECSuccess) {
PORT_SetError(key->error);
++failedKeys;
}
if (certList) {
int j;
for (j = 0; certList[j]; j++) {
sec_PKCS12SafeBag *cert = certList[j];
SECStatus certRv;
if (!cert)
continue;
if (rv != SECSuccess) {
cert->problem = key->problem;
cert->error = key->error;
cert->noInstall = PR_TRUE;
continue;
}
certRv = sec_pkcs12_add_cert(cert, cert->hasKey, wincx);
if (certRv != SECSuccess) {
key->problem = cert->problem;
key->error = cert->error;
PORT_SetError(cert->error);
return SECFailure;
}
}
}
}
}
if (failedKeys)
return SECFailure;
/* Now take a second pass over the safebags and install any certs
* that were neither installed nor disqualified by the first pass.
*/
for (i = 0; safeBags[i]; i++) {
sec_PKCS12SafeBag *bag = safeBags[i];
if (!bag->installed && !bag->problem && !bag->noInstall) {
SECStatus rv;
SECOidTag bagType = SECOID_FindOIDTag(&(bag->safeBagType));
switch (bagType) {
case SEC_OID_PKCS12_V1_CERT_BAG_ID:
rv = sec_pkcs12_add_cert(bag, bag->hasKey, wincx);
if (rv != SECSuccess) {
PORT_SetError(bag->error);
return SECFailure;
}
break;
case SEC_OID_PKCS12_V1_KEY_BAG_ID:
case SEC_OID_PKCS12_V1_PKCS8_SHROUDED_KEY_BAG_ID:
default:
break;
}
}
}
return SECSuccess;
}
SECStatus
SEC_PKCS12DecoderImportBags(SEC_PKCS12DecoderContext *p12dcx)
{
PRBool forceUnicode = PR_FALSE;
SECStatus rv;
if (!p12dcx || p12dcx->error) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
if (!p12dcx->bagsVerified) {
return SECFailure;
}
/* We need to check the option here as well as in
* SEC_PKCS12DecoderStart, because different PBE's could be used
* for PKCS #7 and PKCS #8 */
rv = NSS_OptionGet(__NSS_PKCS12_DECODE_FORCE_UNICODE, &forceUnicode);
if (rv != SECSuccess) {
return SECFailure;
}
return sec_pkcs12_install_bags(p12dcx->safeBags, forceUnicode,
p12dcx->wincx);
}
PRBool
sec_pkcs12_bagHasKey(SEC_PKCS12DecoderContext *p12dcx, sec_PKCS12SafeBag *bag)
{
int i;
SECItem *keyId;
SECItem *certKeyId;
certKeyId = sec_pkcs12_get_attribute_value(bag, SEC_OID_PKCS9_LOCAL_KEY_ID);
if (certKeyId == NULL) {
return PR_FALSE;
}
for (i = 0; p12dcx->keyList && p12dcx->keyList[i]; i++) {
keyId = sec_pkcs12_get_attribute_value(p12dcx->keyList[i],
SEC_OID_PKCS9_LOCAL_KEY_ID);
if (!keyId) {
continue;
}
if (SECITEM_CompareItem(certKeyId, keyId) == SECEqual) {
return PR_TRUE;
}
}
return PR_FALSE;
}
SECItem *
sec_pkcs12_get_friendlyName(sec_PKCS12SafeBag *bag)
{
SECItem *friendlyName;
SECItem *tempnm;
tempnm = sec_pkcs12_get_attribute_value(bag, SEC_OID_PKCS9_FRIENDLY_NAME);
friendlyName = (SECItem *)PORT_ZAlloc(sizeof(SECItem));
if (friendlyName) {
if (!sec_pkcs12_convert_item_to_unicode(NULL, friendlyName,
tempnm, PR_TRUE, PR_FALSE, PR_FALSE)) {
SECITEM_FreeItem(friendlyName, PR_TRUE);
friendlyName = NULL;
}
}
return friendlyName;
}
/* Following two functions provide access to selected portions of the safe bags.
* Iteration is implemented per decoder context and may be accessed after
* SEC_PKCS12DecoderVerify() returns success.
* When ...DecoderIterateNext() returns SUCCESS a decoder item has been returned
* where item.type is always set; item.friendlyName is set if it is non-null;
* item.der, item.hasKey are set only for SEC_OID_PKCS12_V1_CERT_BAG_ID items.
* ...DecoderIterateNext() returns FAILURE when the list is exhausted or when
* arguments are invalid; PORT_GetError() is 0 at end-of-list.
* Caller has read-only access to decoder items. Any SECItems generated are
* owned by the decoder context and are freed by ...DecoderFinish().
*/
SECStatus
SEC_PKCS12DecoderIterateInit(SEC_PKCS12DecoderContext *p12dcx)
{
if (!p12dcx || p12dcx->error) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
p12dcx->iteration = 0;
return SECSuccess;
}
SECStatus
SEC_PKCS12DecoderIterateNext(SEC_PKCS12DecoderContext *p12dcx,
const SEC_PKCS12DecoderItem **ipp)
{
sec_PKCS12SafeBag *bag;
if (!p12dcx || p12dcx->error) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
if (p12dcx->decitem.type != 0 && p12dcx->decitem.der != NULL) {
SECITEM_FreeItem(p12dcx->decitem.der, PR_TRUE);
}
if (p12dcx->decitem.shroudAlg != NULL) {
SECOID_DestroyAlgorithmID(p12dcx->decitem.shroudAlg, PR_TRUE);
}
if (p12dcx->decitem.friendlyName != NULL) {
SECITEM_FreeItem(p12dcx->decitem.friendlyName, PR_TRUE);
}
p12dcx->decitem.type = 0;
p12dcx->decitem.der = NULL;
p12dcx->decitem.shroudAlg = NULL;
p12dcx->decitem.friendlyName = NULL;
p12dcx->decitem.hasKey = PR_FALSE;
*ipp = NULL;
if (p12dcx->keyList == NULL) {
p12dcx->keyList = sec_pkcs12_get_key_bags(p12dcx->safeBags);
}
for (; p12dcx->iteration < p12dcx->safeBagCount; p12dcx->iteration++) {
bag = p12dcx->safeBags[p12dcx->iteration];
if (bag == NULL || bag->problem) {
continue;
}
p12dcx->decitem.type = SECOID_FindOIDTag(&(bag->safeBagType));
switch (p12dcx->decitem.type) {
case SEC_OID_PKCS12_V1_CERT_BAG_ID:
p12dcx->decitem.der = sec_pkcs12_get_der_cert(bag);
p12dcx->decitem.friendlyName = sec_pkcs12_get_friendlyName(bag);
p12dcx->decitem.hasKey = sec_pkcs12_bagHasKey(p12dcx, bag);
break;
case SEC_OID_PKCS12_V1_PKCS8_SHROUDED_KEY_BAG_ID:
p12dcx->decitem.shroudAlg = PORT_ZNew(SECAlgorithmID);
if (p12dcx->decitem.shroudAlg) {
SECOID_CopyAlgorithmID(NULL, p12dcx->decitem.shroudAlg,
&bag->safeBagContent.pkcs8ShroudedKeyBag->algorithm);
}
/* fall through */
case SEC_OID_PKCS12_V1_KEY_BAG_ID:
p12dcx->decitem.friendlyName = sec_pkcs12_get_friendlyName(bag);
break;
default:
/* return these even though we don't expect them */
break;
case SEC_OID_UNKNOWN:
/* ignore these */
continue;
}
*ipp = &p12dcx->decitem;
p12dcx->iteration++;
break; /* end for() */
}
PORT_SetError(0); /* end-of-list is SECFailure with no PORT error */
return ((p12dcx->decitem.type == 0) ? SECFailure : SECSuccess);
}
static SECStatus
sec_pkcs12_decoder_append_bag_to_context(SEC_PKCS12DecoderContext *p12dcx,
sec_PKCS12SafeBag *bag)
{
if (!p12dcx || p12dcx->error) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
p12dcx->safeBags = !p12dcx->safeBagCount
? PORT_ArenaZNewArray(p12dcx->arena, sec_PKCS12SafeBag *, 2)
: PORT_ArenaGrowArray(p12dcx->arena, p12dcx->safeBags,
sec_PKCS12SafeBag *, p12dcx->safeBagCount + 1,
p12dcx->safeBagCount + 2);
if (!p12dcx->safeBags) {
PORT_SetError(SEC_ERROR_NO_MEMORY);
return SECFailure;
}
p12dcx->safeBags[p12dcx->safeBagCount] = bag;
p12dcx->safeBags[p12dcx->safeBagCount + 1] = NULL;
p12dcx->safeBagCount++;
return SECSuccess;
}
static sec_PKCS12SafeBag *
sec_pkcs12_decoder_convert_old_key(SEC_PKCS12DecoderContext *p12dcx,
void *key, PRBool isEspvk)
{
sec_PKCS12SafeBag *keyBag;
SECOidData *oid;
SECOidTag keyTag;
SECItem *keyID, *nickName, *newNickName;
if (!p12dcx || p12dcx->error || !key) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return NULL;
}
newNickName = PORT_ArenaZNew(p12dcx->arena, SECItem);
keyBag = PORT_ArenaZNew(p12dcx->arena, sec_PKCS12SafeBag);
if (!keyBag || !newNickName) {
return NULL;
}
keyBag->swapUnicodeBytes = p12dcx->swapUnicodeBytes;
keyBag->slot = p12dcx->slot;
keyBag->arena = p12dcx->arena;
keyBag->pwitem = p12dcx->pwitem;
keyBag->tokenCAs = p12dcx->tokenCAs;
keyBag->oldBagType = PR_TRUE;
keyTag = (isEspvk) ? SEC_OID_PKCS12_V1_PKCS8_SHROUDED_KEY_BAG_ID : SEC_OID_PKCS12_V1_KEY_BAG_ID;
oid = SECOID_FindOIDByTag(keyTag);
if (!oid) {
return NULL;
}
if (SECITEM_CopyItem(p12dcx->arena, &keyBag->safeBagType, &oid->oid) != SECSuccess) {
return NULL;
}
if (isEspvk) {
SEC_PKCS12ESPVKItem *espvk = (SEC_PKCS12ESPVKItem *)key;
keyBag->safeBagContent.pkcs8ShroudedKeyBag =
espvk->espvkCipherText.pkcs8KeyShroud;
nickName = &(espvk->espvkData.uniNickName);
if (!espvk->espvkData.assocCerts || !espvk->espvkData.assocCerts[0]) {
PORT_SetError(SEC_ERROR_PKCS12_CORRUPT_PFX_STRUCTURE);
return NULL;
}
keyID = &espvk->espvkData.assocCerts[0]->digest;
} else {
SEC_PKCS12PrivateKey *pk = (SEC_PKCS12PrivateKey *)key;
keyBag->safeBagContent.pkcs8KeyBag = &pk->pkcs8data;
nickName = &(pk->pvkData.uniNickName);
if (!pk->pvkData.assocCerts || !pk->pvkData.assocCerts[0]) {
PORT_SetError(SEC_ERROR_PKCS12_CORRUPT_PFX_STRUCTURE);
return NULL;
}
keyID = &pk->pvkData.assocCerts[0]->digest;
}
if (nickName->len) {
if (nickName->len >= 2) {
if (nickName->data[0] && nickName->data[1]) {
if (!sec_pkcs12_convert_item_to_unicode(p12dcx->arena, newNickName,
nickName, PR_FALSE, PR_FALSE, PR_TRUE)) {
return NULL;
}
nickName = newNickName;
} else if (nickName->data[0] && !nickName->data[1]) {
unsigned int j = 0;
unsigned char t;
for (j = 0; j < nickName->len; j += 2) {
t = nickName->data[j + 1];
nickName->data[j + 1] = nickName->data[j];
nickName->data[j] = t;
}
}
} else {
if (!sec_pkcs12_convert_item_to_unicode(p12dcx->arena, newNickName,
nickName, PR_FALSE, PR_FALSE, PR_TRUE)) {
return NULL;
}
nickName = newNickName;
}
}
if (sec_pkcs12_decoder_set_attribute_value(keyBag,
SEC_OID_PKCS9_FRIENDLY_NAME,
nickName) != SECSuccess) {
return NULL;
}
if (sec_pkcs12_decoder_set_attribute_value(keyBag, SEC_OID_PKCS9_LOCAL_KEY_ID,
keyID) != SECSuccess) {
return NULL;
}
return keyBag;
}
static sec_PKCS12SafeBag *
sec_pkcs12_decoder_create_cert(SEC_PKCS12DecoderContext *p12dcx,
SECItem *derCert)
{
sec_PKCS12SafeBag *certBag;
SECOidData *oid;
SGNDigestInfo *digest;
SECItem *keyId;
SECStatus rv;
if (!p12dcx || p12dcx->error || !derCert) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return NULL;
}
keyId = PORT_ArenaZNew(p12dcx->arena, SECItem);
if (!keyId) {
return NULL;
}
digest = sec_pkcs12_compute_thumbprint(derCert);
if (!digest) {
return NULL;
}
rv = SECITEM_CopyItem(p12dcx->arena, keyId, &digest->digest);
SGN_DestroyDigestInfo(digest);
if (rv != SECSuccess) {
PORT_SetError(SEC_ERROR_NO_MEMORY);
return NULL;
}
oid = SECOID_FindOIDByTag(SEC_OID_PKCS12_V1_CERT_BAG_ID);
certBag = PORT_ArenaZNew(p12dcx->arena, sec_PKCS12SafeBag);
if (!certBag || !oid || (SECITEM_CopyItem(p12dcx->arena, &certBag->safeBagType, &oid->oid) != SECSuccess)) {
return NULL;
}
certBag->slot = p12dcx->slot;
certBag->pwitem = p12dcx->pwitem;
certBag->swapUnicodeBytes = p12dcx->swapUnicodeBytes;
certBag->arena = p12dcx->arena;
certBag->tokenCAs = p12dcx->tokenCAs;
oid = SECOID_FindOIDByTag(SEC_OID_PKCS9_X509_CERT);
certBag->safeBagContent.certBag =
PORT_ArenaZNew(p12dcx->arena, sec_PKCS12CertBag);
if (!certBag->safeBagContent.certBag || !oid ||
(SECITEM_CopyItem(p12dcx->arena,
&certBag->safeBagContent.certBag->bagID,
&oid->oid) != SECSuccess)) {
return NULL;
}
if (SECITEM_CopyItem(p12dcx->arena,
&(certBag->safeBagContent.certBag->value.x509Cert),
derCert) != SECSuccess) {
return NULL;
}
if (sec_pkcs12_decoder_set_attribute_value(certBag, SEC_OID_PKCS9_LOCAL_KEY_ID,
keyId) != SECSuccess) {
return NULL;
}
return certBag;
}
static sec_PKCS12SafeBag **
sec_pkcs12_decoder_convert_old_cert(SEC_PKCS12DecoderContext *p12dcx,
SEC_PKCS12CertAndCRL *oldCert)
{
sec_PKCS12SafeBag **certList;
SECItem **derCertList;
int i, j;
if (!p12dcx || p12dcx->error || !oldCert) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return NULL;
}
derCertList = SEC_PKCS7GetCertificateList(&oldCert->value.x509->certOrCRL);
if (!derCertList) {
return NULL;
}
i = 0;
while (derCertList[i])
i++;
certList = PORT_ArenaZNewArray(p12dcx->arena, sec_PKCS12SafeBag *, (i + 1));
if (!certList) {
return NULL;
}
for (j = 0; j < i; j++) {
certList[j] = sec_pkcs12_decoder_create_cert(p12dcx, derCertList[j]);
if (!certList[j]) {
return NULL;
}
}
return certList;
}
static SECStatus
sec_pkcs12_decoder_convert_old_key_and_certs(SEC_PKCS12DecoderContext *p12dcx,
void *oldKey, PRBool isEspvk,
SEC_PKCS12SafeContents *safe,
SEC_PKCS12Baggage *baggage)
{
sec_PKCS12SafeBag *key, **certList;
SEC_PKCS12CertAndCRL *oldCert;
SEC_PKCS12PVKSupportingData *pvkData;
int i;
SECItem *keyName;
if (!p12dcx || !oldKey) {
return SECFailure;
}
if (isEspvk) {
pvkData = &((SEC_PKCS12ESPVKItem *)(oldKey))->espvkData;
} else {
pvkData = &((SEC_PKCS12PrivateKey *)(oldKey))->pvkData;
}
if (!pvkData->assocCerts || !pvkData->assocCerts[0]) {
PORT_SetError(SEC_ERROR_PKCS12_CORRUPT_PFX_STRUCTURE);
return SECFailure;
}
oldCert = (SEC_PKCS12CertAndCRL *)sec_pkcs12_find_object(safe, baggage,
SEC_OID_PKCS12_CERT_AND_CRL_BAG_ID, NULL,
pvkData->assocCerts[0]);
if (!oldCert) {
PORT_SetError(SEC_ERROR_PKCS12_CORRUPT_PFX_STRUCTURE);
return SECFailure;
}
key = sec_pkcs12_decoder_convert_old_key(p12dcx, oldKey, isEspvk);
certList = sec_pkcs12_decoder_convert_old_cert(p12dcx, oldCert);
if (!key || !certList) {
return SECFailure;
}
if (sec_pkcs12_decoder_append_bag_to_context(p12dcx, key) != SECSuccess) {
return SECFailure;
}
keyName = sec_pkcs12_get_nickname(key);
if (!keyName) {
return SECFailure;
}
i = 0;
while (certList[i]) {
if (sec_pkcs12_decoder_append_bag_to_context(p12dcx, certList[i]) != SECSuccess) {
return SECFailure;
}
i++;
}
certList = sec_pkcs12_find_certs_for_key(p12dcx->safeBags, key);
if (!certList) {
return SECFailure;
}
i = 0;
while (certList[i] != 0) {
if (sec_pkcs12_set_nickname(certList[i], keyName) != SECSuccess) {
return SECFailure;
}
i++;
}
return SECSuccess;
}
static SECStatus
sec_pkcs12_decoder_convert_old_safe_to_bags(SEC_PKCS12DecoderContext *p12dcx,
SEC_PKCS12SafeContents *safe,
SEC_PKCS12Baggage *baggage)
{
SECStatus rv;
if (!p12dcx || p12dcx->error) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return SECFailure;
}
if (safe && safe->contents) {
int i = 0;
while (safe->contents[i] != NULL) {
if (SECOID_FindOIDTag(&safe->contents[i]->safeBagType) == SEC_OID_PKCS12_KEY_BAG_ID) {
int j = 0;
SEC_PKCS12PrivateKeyBag *privBag =
safe->contents[i]->safeContent.keyBag;
while (privBag->privateKeys[j] != NULL) {
SEC_PKCS12PrivateKey *pk = privBag->privateKeys[j];
rv = sec_pkcs12_decoder_convert_old_key_and_certs(p12dcx, pk,
PR_FALSE, safe, baggage);
if (rv != SECSuccess) {
goto loser;
}
j++;
}
}
i++;
}
}
if (baggage && baggage->bags) {
int i = 0;
while (baggage->bags[i] != NULL) {
SEC_PKCS12BaggageItem *bag = baggage->bags[i];
int j = 0;
if (!bag->espvks) {
i++;
continue;
}
while (bag->espvks[j] != NULL) {
SEC_PKCS12ESPVKItem *espvk = bag->espvks[j];
rv = sec_pkcs12_decoder_convert_old_key_and_certs(p12dcx, espvk,
PR_TRUE, safe, baggage);
if (rv != SECSuccess) {
goto loser;
}
j++;
}
i++;
}
}
return SECSuccess;
loser:
return SECFailure;
}
SEC_PKCS12DecoderContext *
sec_PKCS12ConvertOldSafeToNew(PLArenaPool *arena, PK11SlotInfo *slot,
PRBool swapUnicode, SECItem *pwitem,
void *wincx, SEC_PKCS12SafeContents *safe,
SEC_PKCS12Baggage *baggage)
{
SEC_PKCS12DecoderContext *p12dcx;
if (!arena || !slot || !pwitem) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return NULL;
}
if (!safe && !baggage) {
PORT_SetError(SEC_ERROR_INVALID_ARGS);
return NULL;
}
p12dcx = PORT_ArenaZNew(arena, SEC_PKCS12DecoderContext);
if (!p12dcx) {
return NULL;
}
p12dcx->arena = arena;
p12dcx->slot = PK11_ReferenceSlot(slot);
p12dcx->wincx = wincx;
p12dcx->error = PR_FALSE;
p12dcx->swapUnicodeBytes = swapUnicode;
p12dcx->pwitem = pwitem;
p12dcx->tokenCAs = SECPKCS12TargetTokenNoCAs;
if (sec_pkcs12_decoder_convert_old_safe_to_bags(p12dcx, safe, baggage) != SECSuccess) {
p12dcx->error = PR_TRUE;
return NULL;
}
return p12dcx;
}