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gss_krb5: add support for new token formats in rfc4121 

This is a step toward support for AES encryption types which are
required to use the new token formats defined in rfc4121.

Signed-off-by: Kevin Coffman <kwc@citi.umich.edu>
[SteveD: Fixed a typo in gss_verify_mic_v2()]
Signed-off-by: Steve Dickson <steved@redhat.com>
[Trond: Got rid of the TEST_ROTATE/TEST_EXTRA_COUNT crap]
Signed-off-by: Trond Myklebust <Trond.Myklebust@netapp.com>
This commit is contained in:
Kevin Coffman 2010-03-17 13:02:59 -04:00 committed by Trond Myklebust
parent c43abaedaf
commit de9c17eb4a
5 changed files with 406 additions and 0 deletions
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28
include/linux/sunrpc/gss_krb5.h
View File

@ -53,6 +53,8 @@
/* Maximum blocksize for the supported crypto algorithms */
#define GSS_KRB5_MAX_BLOCKSIZE (16)
struct krb5_ctx;
struct gss_krb5_enctype {
const u32 etype; /* encryption (key) type */
const u32 ctype; /* checksum type */
@ -75,6 +77,12 @@ struct gss_krb5_enctype {
u32 (*mk_key) (const struct gss_krb5_enctype *gk5e,
struct xdr_netobj *in,
struct xdr_netobj *out); /* complete key generation */
u32 (*encrypt_v2) (struct krb5_ctx *kctx, u32 offset,
struct xdr_buf *buf, int ec,
struct page **pages); /* v2 encryption function */
u32 (*decrypt_v2) (struct krb5_ctx *kctx, u32 offset,
struct xdr_buf *buf, u32 *headskip,
u32 *tailskip); /* v2 decryption function */
};
/* krb5_ctx flags definitions */
@ -112,6 +120,18 @@ extern spinlock_t krb5_seq_lock;
#define KG_TOK_MIC_MSG 0x0101
#define KG_TOK_WRAP_MSG 0x0201
#define KG2_TOK_INITIAL 0x0101
#define KG2_TOK_RESPONSE 0x0202
#define KG2_TOK_MIC 0x0404
#define KG2_TOK_WRAP 0x0504
#define KG2_TOKEN_FLAG_SENTBYACCEPTOR 0x01
#define KG2_TOKEN_FLAG_SEALED 0x02
#define KG2_TOKEN_FLAG_ACCEPTORSUBKEY 0x04
#define KG2_RESP_FLAG_ERROR 0x0001
#define KG2_RESP_FLAG_DELEG_OK 0x0002
enum sgn_alg {
SGN_ALG_DES_MAC_MD5 = 0x0000,
SGN_ALG_MD2_5 = 0x0001,
@ -136,6 +156,9 @@ enum seal_alg {
#define CKSUMTYPE_RSA_MD5_DES 0x0008
#define CKSUMTYPE_NIST_SHA 0x0009
#define CKSUMTYPE_HMAC_SHA1_DES3 0x000c
#define CKSUMTYPE_HMAC_SHA1_96_AES128 0x000f
#define CKSUMTYPE_HMAC_SHA1_96_AES256 0x0010
#define CKSUMTYPE_HMAC_MD5_ARCFOUR -138 /* Microsoft md5 hmac cksumtype */
/* from gssapi_err_krb5.h */
#define KG_CCACHE_NOMATCH (39756032L)
@ -212,6 +235,11 @@ make_checksum(struct krb5_ctx *kctx, char *header, int hdrlen,
struct xdr_buf *body, int body_offset, u8 *cksumkey,
struct xdr_netobj *cksumout);
u32
make_checksum_v2(struct krb5_ctx *, char *header, int hdrlen,
struct xdr_buf *body, int body_offset, u8 *key,
struct xdr_netobj *cksum);
u32 gss_get_mic_kerberos(struct gss_ctx *, struct xdr_buf *,
struct xdr_netobj *);

74
net/sunrpc/auth_gss/gss_krb5_crypto.c
View File

@ -197,6 +197,80 @@ make_checksum(struct krb5_ctx *kctx, char *header, int hdrlen,
return err ? GSS_S_FAILURE : 0;
}
/*
* checksum the plaintext data and hdrlen bytes of the token header
* Per rfc4121, sec. 4.2.4, the checksum is performed over the data
* body then over the first 16 octets of the MIC token
* Inclusion of the header data in the calculation of the
* checksum is optional.
*/
u32
make_checksum_v2(struct krb5_ctx *kctx, char *header, int hdrlen,
struct xdr_buf *body, int body_offset, u8 *cksumkey,
struct xdr_netobj *cksumout)
{
struct hash_desc desc;
struct scatterlist sg[1];
int err;
u8 checksumdata[GSS_KRB5_MAX_CKSUM_LEN];
unsigned int checksumlen;
if (kctx->gk5e->keyed_cksum == 0) {
dprintk("%s: expected keyed hash for %s\n",
__func__, kctx->gk5e->name);
return GSS_S_FAILURE;
}
if (cksumkey == NULL) {
dprintk("%s: no key supplied for %s\n",
__func__, kctx->gk5e->name);
return GSS_S_FAILURE;
}
desc.tfm = crypto_alloc_hash(kctx->gk5e->cksum_name, 0,
CRYPTO_ALG_ASYNC);
if (IS_ERR(desc.tfm))
return GSS_S_FAILURE;
checksumlen = crypto_hash_digestsize(desc.tfm);
desc.flags = CRYPTO_TFM_REQ_MAY_SLEEP;
err = crypto_hash_setkey(desc.tfm, cksumkey, kctx->gk5e->keylength);
if (err)
goto out;
err = crypto_hash_init(&desc);
if (err)
goto out;
err = xdr_process_buf(body, body_offset, body->len - body_offset,
checksummer, &desc);
if (err)
goto out;
if (header != NULL) {
sg_init_one(sg, header, hdrlen);
err = crypto_hash_update(&desc, sg, hdrlen);
if (err)
goto out;
}
err = crypto_hash_final(&desc, checksumdata);
if (err)
goto out;
cksumout->len = kctx->gk5e->cksumlength;
switch (kctx->gk5e->ctype) {
case CKSUMTYPE_HMAC_SHA1_96_AES128:
case CKSUMTYPE_HMAC_SHA1_96_AES256:
/* note that this truncates the hash */
memcpy(cksumout->data, checksumdata, kctx->gk5e->cksumlength);
break;
default:
BUG();
break;
}
out:
crypto_free_hash(desc.tfm);
return err ? GSS_S_FAILURE : 0;
}
struct encryptor_desc {
u8 iv[GSS_KRB5_MAX_BLOCKSIZE];
struct blkcipher_desc desc;

69
net/sunrpc/auth_gss/gss_krb5_seal.c
View File

@ -91,6 +91,33 @@ setup_token(struct krb5_ctx *ctx, struct xdr_netobj *token)
return (char *)krb5_hdr;
}
static void *
setup_token_v2(struct krb5_ctx *ctx, struct xdr_netobj *token)
{
__be16 *ptr, *krb5_hdr;
u8 *p, flags = 0x00;
if ((ctx->flags & KRB5_CTX_FLAG_INITIATOR) == 0)
flags |= 0x01;
if (ctx->flags & KRB5_CTX_FLAG_ACCEPTOR_SUBKEY)
flags |= 0x04;
/* Per rfc 4121, sec 4.2.6.1, there is no header,
* just start the token */
krb5_hdr = ptr = (__be16 *)token->data;
*ptr++ = KG2_TOK_MIC;
p = (u8 *)ptr;
*p++ = flags;
*p++ = 0xff;
ptr = (__be16 *)p;
*ptr++ = 0xffff;
*ptr++ = 0xffff;
token->len = GSS_KRB5_TOK_HDR_LEN + ctx->gk5e->cksumlength;
return krb5_hdr;
}
static u32
gss_get_mic_v1(struct krb5_ctx *ctx, struct xdr_buf *text,
struct xdr_netobj *token)
@ -132,6 +159,45 @@ gss_get_mic_v1(struct krb5_ctx *ctx, struct xdr_buf *text,
return (ctx->endtime < now) ? GSS_S_CONTEXT_EXPIRED : GSS_S_COMPLETE;
}
u32
gss_get_mic_v2(struct krb5_ctx *ctx, struct xdr_buf *text,
struct xdr_netobj *token)
{
char cksumdata[GSS_KRB5_MAX_CKSUM_LEN];
struct xdr_netobj cksumobj = { .len = sizeof(cksumdata),
.data = cksumdata};
void *krb5_hdr;
s32 now;
u64 seq_send;
u8 *cksumkey;
dprintk("RPC: %s\n", __func__);
krb5_hdr = setup_token_v2(ctx, token);
/* Set up the sequence number. Now 64-bits in clear
* text and w/o direction indicator */
spin_lock(&krb5_seq_lock);
seq_send = ctx->seq_send64++;
spin_unlock(&krb5_seq_lock);
*((u64 *)(krb5_hdr + 8)) = cpu_to_be64(seq_send);
if (ctx->initiate)
cksumkey = ctx->initiator_sign;
else
cksumkey = ctx->acceptor_sign;
if (make_checksum_v2(ctx, krb5_hdr, GSS_KRB5_TOK_HDR_LEN,
text, 0, cksumkey, &cksumobj))
return GSS_S_FAILURE;
memcpy(krb5_hdr + GSS_KRB5_TOK_HDR_LEN, cksumobj.data, cksumobj.len);
now = get_seconds();
return (ctx->endtime < now) ? GSS_S_CONTEXT_EXPIRED : GSS_S_COMPLETE;
}
u32
gss_get_mic_kerberos(struct gss_ctx *gss_ctx, struct xdr_buf *text,
struct xdr_netobj *token)
@ -144,6 +210,9 @@ gss_get_mic_kerberos(struct gss_ctx *gss_ctx, struct xdr_buf *text,
case ENCTYPE_DES_CBC_RAW:
case ENCTYPE_DES3_CBC_RAW:
return gss_get_mic_v1(ctx, text, token);
case ENCTYPE_AES128_CTS_HMAC_SHA1_96:
case ENCTYPE_AES256_CTS_HMAC_SHA1_96:
return gss_get_mic_v2(ctx, text, token);
}
}

61
net/sunrpc/auth_gss/gss_krb5_unseal.c
View File

@ -141,6 +141,64 @@ gss_verify_mic_v1(struct krb5_ctx *ctx,
return GSS_S_COMPLETE;
}
static u32
gss_verify_mic_v2(struct krb5_ctx *ctx,
struct xdr_buf *message_buffer, struct xdr_netobj *read_token)
{
char cksumdata[GSS_KRB5_MAX_CKSUM_LEN];
struct xdr_netobj cksumobj = {.len = sizeof(cksumdata),
.data = cksumdata};
s32 now;
u64 seqnum;
u8 *ptr = read_token->data;
u8 *cksumkey;
u8 flags;
int i;
dprintk("RPC: %s\n", __func__);
if (be16_to_cpu(*((__be16 *)ptr)) != KG2_TOK_MIC)
return GSS_S_DEFECTIVE_TOKEN;
flags = ptr[2];
if ((!ctx->initiate && (flags & KG2_TOKEN_FLAG_SENTBYACCEPTOR)) ||
(ctx->initiate && !(flags & KG2_TOKEN_FLAG_SENTBYACCEPTOR)))
return GSS_S_BAD_SIG;
if (flags & KG2_TOKEN_FLAG_SEALED) {
dprintk("%s: token has unexpected sealed flag\n", __func__);
return GSS_S_FAILURE;
}
for (i = 3; i < 8; i++)
if (ptr[i] != 0xff)
return GSS_S_DEFECTIVE_TOKEN;
if (ctx->initiate)
cksumkey = ctx->acceptor_sign;
else
cksumkey = ctx->initiator_sign;
if (make_checksum_v2(ctx, ptr, GSS_KRB5_TOK_HDR_LEN, message_buffer, 0,
cksumkey, &cksumobj))
return GSS_S_FAILURE;
if (memcmp(cksumobj.data, ptr + GSS_KRB5_TOK_HDR_LEN,
ctx->gk5e->cksumlength))
return GSS_S_BAD_SIG;
/* it got through unscathed. Make sure the context is unexpired */
now = get_seconds();
if (now > ctx->endtime)
return GSS_S_CONTEXT_EXPIRED;
/* do sequencing checks */
seqnum = be64_to_cpup((__be64 *)ptr + 8);
return GSS_S_COMPLETE;
}
u32
gss_verify_mic_kerberos(struct gss_ctx *gss_ctx,
struct xdr_buf *message_buffer,
@ -154,6 +212,9 @@ gss_verify_mic_kerberos(struct gss_ctx *gss_ctx,
case ENCTYPE_DES_CBC_RAW:
case ENCTYPE_DES3_CBC_RAW:
return gss_verify_mic_v1(ctx, message_buffer, read_token);
case ENCTYPE_AES128_CTS_HMAC_SHA1_96:
case ENCTYPE_AES256_CTS_HMAC_SHA1_96:
return gss_verify_mic_v2(ctx, message_buffer, read_token);
}
}

174
net/sunrpc/auth_gss/gss_krb5_wrap.c
View File

@ -340,6 +340,174 @@ gss_unwrap_kerberos_v1(struct krb5_ctx *kctx, int offset, struct xdr_buf *buf)
return GSS_S_COMPLETE;
}
/*
* We cannot currently handle tokens with rotated data. We need a
* generalized routine to rotate the data in place. It is anticipated
* that we won't encounter rotated data in the general case.
*/
static u32
rotate_left(struct krb5_ctx *kctx, u32 offset, struct xdr_buf *buf, u16 rrc)
{
unsigned int realrrc = rrc % (buf->len - offset - GSS_KRB5_TOK_HDR_LEN);
if (realrrc == 0)
return 0;
dprintk("%s: cannot process token with rotated data: "
"rrc %u, realrrc %u\n", __func__, rrc, realrrc);
return 1;
}
static u32
gss_wrap_kerberos_v2(struct krb5_ctx *kctx, u32 offset,
struct xdr_buf *buf, struct page **pages)
{
int blocksize;
u8 *ptr, *plainhdr;
s32 now;
u8 flags = 0x00;
__be16 *be16ptr, ec = 0;
__be64 *be64ptr;
u32 err;
dprintk("RPC: %s\n", __func__);
if (kctx->gk5e->encrypt_v2 == NULL)
return GSS_S_FAILURE;
/* make room for gss token header */
if (xdr_extend_head(buf, offset, GSS_KRB5_TOK_HDR_LEN))
return GSS_S_FAILURE;
/* construct gss token header */
ptr = plainhdr = buf->head[0].iov_base + offset;
*ptr++ = (unsigned char) ((KG2_TOK_WRAP>>8) & 0xff);
*ptr++ = (unsigned char) (KG2_TOK_WRAP & 0xff);
if ((kctx->flags & KRB5_CTX_FLAG_INITIATOR) == 0)
flags |= KG2_TOKEN_FLAG_SENTBYACCEPTOR;
if ((kctx->flags & KRB5_CTX_FLAG_ACCEPTOR_SUBKEY) != 0)
flags |= KG2_TOKEN_FLAG_ACCEPTORSUBKEY;
/* We always do confidentiality in wrap tokens */
flags |= KG2_TOKEN_FLAG_SEALED;
*ptr++ = flags;
*ptr++ = 0xff;
be16ptr = (__be16 *)ptr;
blocksize = crypto_blkcipher_blocksize(kctx->acceptor_enc);
*be16ptr++ = cpu_to_be16(ec);
/* "inner" token header always uses 0 for RRC */
*be16ptr++ = cpu_to_be16(0);
be64ptr = (__be64 *)be16ptr;
spin_lock(&krb5_seq_lock);
*be64ptr = cpu_to_be64(kctx->seq_send64++);
spin_unlock(&krb5_seq_lock);
err = (*kctx->gk5e->encrypt_v2)(kctx, offset, buf, ec, pages);
if (err)
return err;
now = get_seconds();
return (kctx->endtime < now) ? GSS_S_CONTEXT_EXPIRED : GSS_S_COMPLETE;
}
static u32
gss_unwrap_kerberos_v2(struct krb5_ctx *kctx, int offset, struct xdr_buf *buf)
{
s32 now;
u64 seqnum;
u8 *ptr;
u8 flags = 0x00;
u16 ec, rrc;
int err;
u32 headskip, tailskip;
u8 decrypted_hdr[GSS_KRB5_TOK_HDR_LEN];
unsigned int movelen;
dprintk("RPC: %s\n", __func__);
if (kctx->gk5e->decrypt_v2 == NULL)
return GSS_S_FAILURE;
ptr = buf->head[0].iov_base + offset;
if (be16_to_cpu(*((__be16 *)ptr)) != KG2_TOK_WRAP)
return GSS_S_DEFECTIVE_TOKEN;
flags = ptr[2];
if ((!kctx->initiate && (flags & KG2_TOKEN_FLAG_SENTBYACCEPTOR)) ||
(kctx->initiate && !(flags & KG2_TOKEN_FLAG_SENTBYACCEPTOR)))
return GSS_S_BAD_SIG;
if ((flags & KG2_TOKEN_FLAG_SEALED) == 0) {
dprintk("%s: token missing expected sealed flag\n", __func__);
return GSS_S_DEFECTIVE_TOKEN;
}
if (ptr[3] != 0xff)
return GSS_S_DEFECTIVE_TOKEN;
ec = be16_to_cpup((__be16 *)(ptr + 4));
rrc = be16_to_cpup((__be16 *)(ptr + 6));
seqnum = be64_to_cpup((__be64 *)(ptr + 8));
if (rrc != 0) {
err = rotate_left(kctx, offset, buf, rrc);
if (err)
return GSS_S_FAILURE;
}
err = (*kctx->gk5e->decrypt_v2)(kctx, offset, buf,
&headskip, &tailskip);
if (err)
return GSS_S_FAILURE;
/*
* Retrieve the decrypted gss token header and verify
* it against the original
*/
err = read_bytes_from_xdr_buf(buf,
buf->len - GSS_KRB5_TOK_HDR_LEN - tailskip,
decrypted_hdr, GSS_KRB5_TOK_HDR_LEN);
if (err) {
dprintk("%s: error %u getting decrypted_hdr\n", __func__, err);
return GSS_S_FAILURE;
}
if (memcmp(ptr, decrypted_hdr, 6)
|| memcmp(ptr + 8, decrypted_hdr + 8, 8)) {
dprintk("%s: token hdr, plaintext hdr mismatch!\n", __func__);
return GSS_S_FAILURE;
}
/* do sequencing checks */
/* it got through unscathed. Make sure the context is unexpired */
now = get_seconds();
if (now > kctx->endtime)
return GSS_S_CONTEXT_EXPIRED;
/*
* Move the head data back to the right position in xdr_buf.
* We ignore any "ec" data since it might be in the head or
* the tail, and we really don't need to deal with it.
* Note that buf->head[0].iov_len may indicate the available
* head buffer space rather than that actually occupied.
*/
movelen = min_t(unsigned int, buf->head[0].iov_len, buf->len);
movelen -= offset + GSS_KRB5_TOK_HDR_LEN + headskip;
BUG_ON(offset + GSS_KRB5_TOK_HDR_LEN + headskip + movelen >
buf->head[0].iov_len);
memmove(ptr, ptr + GSS_KRB5_TOK_HDR_LEN + headskip, movelen);
buf->head[0].iov_len -= GSS_KRB5_TOK_HDR_LEN + headskip;
buf->len -= GSS_KRB5_TOK_HDR_LEN + headskip;
return GSS_S_COMPLETE;
}
u32
gss_wrap_kerberos(struct gss_ctx *gctx, int offset,
struct xdr_buf *buf, struct page **pages)
@ -352,6 +520,9 @@ gss_wrap_kerberos(struct gss_ctx *gctx, int offset,
case ENCTYPE_DES_CBC_RAW:
case ENCTYPE_DES3_CBC_RAW:
return gss_wrap_kerberos_v1(kctx, offset, buf, pages);
case ENCTYPE_AES128_CTS_HMAC_SHA1_96:
case ENCTYPE_AES256_CTS_HMAC_SHA1_96:
return gss_wrap_kerberos_v2(kctx, offset, buf, pages);
}
}
@ -366,6 +537,9 @@ gss_unwrap_kerberos(struct gss_ctx *gctx, int offset, struct xdr_buf *buf)
case ENCTYPE_DES_CBC_RAW:
case ENCTYPE_DES3_CBC_RAW:
return gss_unwrap_kerberos_v1(kctx, offset, buf);
case ENCTYPE_AES128_CTS_HMAC_SHA1_96:
case ENCTYPE_AES256_CTS_HMAC_SHA1_96:
return gss_unwrap_kerberos_v2(kctx, offset, buf);
}
}