krb5/Fix-vulnerabilities-in-GSS-message-token-handling.patch
Julien Rische 16ce5d4a32 krb5 1.18.2-29
- CVE-2024-37370 CVE-2024-37371
  Fix vulnerabilities in GSS message token handling
  Resolves: RHEL-45398 RHEL-45386

Signed-off-by: Julien Rische <jrische@redhat.com>
2024-07-01 12:10:03 +02:00

536 lines
18 KiB
Diff

From c73e8ed9f89fdc709d15656b6431492d43de94ce Mon Sep 17 00:00:00 2001
From: Greg Hudson <ghudson@mit.edu>
Date: Fri, 14 Jun 2024 10:56:12 -0400
Subject: [PATCH] Fix vulnerabilities in GSS message token handling
In gss_krb5int_unseal_token_v3() and gss_krb5int_unseal_v3_iov(),
verify the Extra Count field of CFX wrap tokens against the encrypted
header. Reported by Jacob Champion.
In gss_krb5int_unseal_token_v3(), check for a decrypted plaintext
length too short to contain the encrypted header and extra count
bytes. Reported by Jacob Champion.
In kg_unseal_iov_token(), separately track the header IOV length and
complete token length when parsing the token's ASN.1 wrapper. This
fix contains modified versions of functions from k5-der.h and
util_token.c; this duplication will be cleaned up in a future commit.
CVE-2024-37370:
In MIT krb5 release 1.3 and later, an attacker can modify the
plaintext Extra Count field of a confidential GSS krb5 wrap token,
causing the unwrapped token to appear truncated to the application.
CVE-2024-37371:
In MIT krb5 release 1.3 and later, an attacker can cause invalid
memory reads by sending message tokens with invalid length fields.
ticket: 9128 (new)
tags: pullup
target_version: 1.21-next
(cherry picked from commit b0a2f8a5365f2eec3e27d78907de9f9d2c80505a)
---
src/lib/gssapi/krb5/k5sealv3.c | 5 +
src/lib/gssapi/krb5/k5sealv3iov.c | 3 +-
src/lib/gssapi/krb5/k5unsealiov.c | 80 +++++++++-
src/tests/gssapi/t_invalid.c | 233 +++++++++++++++++++++++++-----
4 files changed, 275 insertions(+), 46 deletions(-)
diff --git a/src/lib/gssapi/krb5/k5sealv3.c b/src/lib/gssapi/krb5/k5sealv3.c
index e881eee835..d3210c1107 100644
--- a/src/lib/gssapi/krb5/k5sealv3.c
+++ b/src/lib/gssapi/krb5/k5sealv3.c
@@ -400,10 +400,15 @@ gss_krb5int_unseal_token_v3(krb5_context *contextptr,
/* Don't use bodysize here! Use the fact that
cipher.ciphertext.length has been adjusted to the
correct length. */
+ if (plain.length < 16 + ec) {
+ free(plain.data);
+ goto defective;
+ }
althdr = (unsigned char *)plain.data + plain.length - 16;
if (load_16_be(althdr) != KG2_TOK_WRAP_MSG
|| althdr[2] != ptr[2]
|| althdr[3] != ptr[3]
+ || load_16_be(althdr+4) != ec
|| memcmp(althdr+8, ptr+8, 8)) {
free(plain.data);
goto defective;
diff --git a/src/lib/gssapi/krb5/k5sealv3iov.c b/src/lib/gssapi/krb5/k5sealv3iov.c
index 333ee124dd..f8e90c35b4 100644
--- a/src/lib/gssapi/krb5/k5sealv3iov.c
+++ b/src/lib/gssapi/krb5/k5sealv3iov.c
@@ -402,9 +402,10 @@ gss_krb5int_unseal_v3_iov(krb5_context context,
if (load_16_be(althdr) != KG2_TOK_WRAP_MSG
|| althdr[2] != ptr[2]
|| althdr[3] != ptr[3]
+ || load_16_be(althdr + 4) != ec
|| memcmp(althdr + 8, ptr + 8, 8) != 0) {
*minor_status = 0;
- return GSS_S_BAD_SIG;
+ return GSS_S_DEFECTIVE_TOKEN;
}
} else {
/* Verify checksum: note EC is checksum size here, not padding */
diff --git a/src/lib/gssapi/krb5/k5unsealiov.c b/src/lib/gssapi/krb5/k5unsealiov.c
index 3ce2a90ce9..6a6585d9af 100644
--- a/src/lib/gssapi/krb5/k5unsealiov.c
+++ b/src/lib/gssapi/krb5/k5unsealiov.c
@@ -25,6 +25,7 @@
*/
#include "k5-int.h"
+#include "k5-der.h"
#include "gssapiP_krb5.h"
static OM_uint32
@@ -247,6 +248,73 @@ cleanup:
return retval;
}
+/* Similar to k5_der_get_value(), but output an unchecked content length
+ * instead of a k5input containing the contents. */
+static inline bool
+get_der_tag(struct k5input *in, uint8_t idbyte, size_t *len_out)
+{
+ uint8_t lenbyte, i;
+ size_t len;
+
+ /* Do nothing if in is empty or the next byte doesn't match idbyte. */
+ if (in->status || in->len == 0 || *in->ptr != idbyte)
+ return false;
+
+ /* Advance past the identifier byte and decode the length. */
+ (void)k5_input_get_byte(in);
+ lenbyte = k5_input_get_byte(in);
+ if (lenbyte < 128) {
+ len = lenbyte;
+ } else {
+ len = 0;
+ for (i = 0; i < (lenbyte & 0x7F); i++) {
+ if (len > (SIZE_MAX >> 8)) {
+ k5_input_set_status(in, EOVERFLOW);
+ return false;
+ }
+ len = (len << 8) | k5_input_get_byte(in);
+ }
+ }
+
+ if (in->status)
+ return false;
+
+ *len_out = len;
+ return true;
+}
+
+/*
+ * Similar to g_verify_token_header() without toktype or flags, but do not read
+ * more than *header_len bytes of ASN.1 wrapper, and on output set *header_len
+ * to the remaining number of header bytes. Verify the outer DER tag's length
+ * against token_len, which may be larger (but not smaller) than *header_len.
+ */
+static gss_int32
+verify_detached_wrapper(const gss_OID_desc *mech, size_t *header_len,
+ uint8_t **header_in, size_t token_len)
+{
+ struct k5input in, mech_der;
+ gss_OID_desc toid;
+ size_t len;
+
+ k5_input_init(&in, *header_in, *header_len);
+
+ if (get_der_tag(&in, 0x60, &len)) {
+ if (len != token_len - (in.ptr - *header_in))
+ return G_BAD_TOK_HEADER;
+ if (!k5_der_get_value(&in, 0x06, &mech_der))
+ return G_BAD_TOK_HEADER;
+ toid.elements = (uint8_t *)mech_der.ptr;
+ toid.length = mech_der.len;
+ if (!g_OID_equal(&toid, mech))
+ return G_WRONG_MECH;
+ }
+
+ *header_in = (uint8_t *)in.ptr;
+ *header_len = in.len;
+ return 0;
+}
+
/*
* Caller must provide TOKEN | DATA | PADDING | TRAILER, except
* for DCE in which case it can just provide TOKEN | DATA (must
@@ -267,8 +335,7 @@ kg_unseal_iov_token(OM_uint32 *minor_status,
gss_iov_buffer_t header;
gss_iov_buffer_t padding;
gss_iov_buffer_t trailer;
- size_t input_length;
- unsigned int bodysize;
+ size_t input_length, hlen;
int toktype2;
header = kg_locate_header_iov(iov, iov_count, toktype);
@@ -298,15 +365,14 @@ kg_unseal_iov_token(OM_uint32 *minor_status,
input_length += trailer->buffer.length;
}
- code = g_verify_token_header(ctx->mech_used,
- &bodysize, &ptr, -1,
- input_length, 0);
+ hlen = header->buffer.length;
+ code = verify_detached_wrapper(ctx->mech_used, &hlen, &ptr, input_length);
if (code != 0) {
*minor_status = code;
return GSS_S_DEFECTIVE_TOKEN;
}
- if (bodysize < 2) {
+ if (hlen < 2) {
*minor_status = (OM_uint32)G_BAD_TOK_HEADER;
return GSS_S_DEFECTIVE_TOKEN;
}
@@ -314,7 +380,7 @@ kg_unseal_iov_token(OM_uint32 *minor_status,
toktype2 = load_16_be(ptr);
ptr += 2;
- bodysize -= 2;
+ hlen -= 2;
switch (toktype2) {
case KG2_TOK_MIC_MSG:
diff --git a/src/tests/gssapi/t_invalid.c b/src/tests/gssapi/t_invalid.c
index fb8fe55111..8192935099 100644
--- a/src/tests/gssapi/t_invalid.c
+++ b/src/tests/gssapi/t_invalid.c
@@ -36,31 +36,41 @@
*
* 1. A pre-CFX wrap or MIC token processed with a CFX-only context causes a
* null pointer dereference. (The token must use SEAL_ALG_NONE or it will
- * be rejected.)
+ * be rejected.) This vulnerability also applies to IOV unwrap.
*
- * 2. A pre-CFX wrap or MIC token with fewer than 24 bytes after the ASN.1
+ * 2. A CFX wrap token with a different value of EC between the plaintext and
+ * encrypted copies will be erroneously accepted, which allows a message
+ * truncation attack. This vulnerability also applies to IOV unwrap.
+ *
+ * 3. A CFX wrap token with a plaintext length fewer than 16 bytes causes an
+ * access before the beginning of the input buffer, possibly leading to a
+ * crash.
+ *
+ * 4. A CFX wrap token with a plaintext EC value greater than the plaintext
+ * length - 16 causes an integer underflow when computing the result length,
+ * likely causing a crash.
+ *
+ * 5. An IOV unwrap operation will overrun the header buffer if an ASN.1
+ * wrapper longer than the header buffer is present.
+ *
+ * 6. A pre-CFX wrap or MIC token with fewer than 24 bytes after the ASN.1
* header causes an input buffer overrun, usually leading to either a segv
* or a GSS_S_DEFECTIVE_TOKEN error due to garbage algorithm, filler, or
- * sequence number values.
+ * sequence number values. This vulnerability also applies to IOV unwrap.
*
- * 3. A pre-CFX wrap token with fewer than 16 + cksumlen bytes after the ASN.1
+ * 7. A pre-CFX wrap token with fewer than 16 + cksumlen bytes after the ASN.1
* header causes an integer underflow when computing the ciphertext length,
* leading to an allocation error on 32-bit platforms or a segv on 64-bit
* platforms. A pre-CFX MIC token of this size causes an input buffer
* overrun when comparing the checksum, perhaps leading to a segv.
*
- * 4. A pre-CFX wrap token with fewer than conflen + padlen bytes in the
+ * 8. A pre-CFX wrap token with fewer than conflen + padlen bytes in the
* ciphertext (where padlen is the last byte of the decrypted ciphertext)
* causes an integer underflow when computing the original message length,
* leading to an allocation error.
*
- * 5. In the mechglue, truncated encapsulation in the initial context token can
+ * 9. In the mechglue, truncated encapsulation in the initial context token can
* cause input buffer overruns in gss_accept_sec_context().
- *
- * Vulnerabilities #1 and #2 also apply to IOV unwrap, although tokens with
- * fewer than 16 bytes after the ASN.1 header will be rejected.
- * Vulnerabilities #2 and #5 can only be robustly detected using a
- * memory-checking environment such as valgrind.
*/
#include "k5-int.h"
@@ -97,17 +107,25 @@ struct test {
}
};
-/* Fake up enough of a CFX GSS context for gss_unwrap, using an AES key. */
+static void *
+ealloc(size_t len)
+{
+ void *ptr = calloc(len, 1);
+
+ if (ptr == NULL)
+ abort();
+ return ptr;
+}
+
+/* Fake up enough of a CFX GSS context for gss_unwrap, using an AES key.
+ * The context takes ownership of subkey. */
static gss_ctx_id_t
-make_fake_cfx_context()
+make_fake_cfx_context(krb5_key subkey)
{
gss_union_ctx_id_t uctx;
krb5_gss_ctx_id_t kgctx;
- krb5_keyblock kb;
- kgctx = calloc(1, sizeof(*kgctx));
- if (kgctx == NULL)
- abort();
+ kgctx = ealloc(sizeof(*kgctx));
kgctx->established = 1;
kgctx->proto = 1;
if (g_seqstate_init(&kgctx->seqstate, 0, 0, 0, 0) != 0)
@@ -116,15 +134,10 @@ make_fake_cfx_context()
kgctx->sealalg = -1;
kgctx->signalg = -1;
- kb.enctype = ENCTYPE_AES128_CTS_HMAC_SHA1_96;
- kb.length = 16;
- kb.contents = (unsigned char *)"1234567887654321";
- if (krb5_k_create_key(NULL, &kb, &kgctx->subkey) != 0)
- abort();
+ kgctx->subkey = subkey;
+ kgctx->cksumtype = CKSUMTYPE_HMAC_SHA1_96_AES128;
- uctx = calloc(1, sizeof(*uctx));
- if (uctx == NULL)
- abort();
+ uctx = ealloc(sizeof(*uctx));
uctx->mech_type = &mech_krb5;
uctx->internal_ctx_id = (gss_ctx_id_t)kgctx;
return (gss_ctx_id_t)uctx;
@@ -138,9 +151,7 @@ make_fake_context(const struct test *test)
krb5_gss_ctx_id_t kgctx;
krb5_keyblock kb;
- kgctx = calloc(1, sizeof(*kgctx));
- if (kgctx == NULL)
- abort();
+ kgctx = ealloc(sizeof(*kgctx));
kgctx->established = 1;
if (g_seqstate_init(&kgctx->seqstate, 0, 0, 0, 0) != 0)
abort();
@@ -162,9 +173,7 @@ make_fake_context(const struct test *test)
if (krb5_k_create_key(NULL, &kb, &kgctx->enc) != 0)
abort();
- uctx = calloc(1, sizeof(*uctx));
- if (uctx == NULL)
- abort();
+ uctx = ealloc(sizeof(*uctx));
uctx->mech_type = &mech_krb5;
uctx->internal_ctx_id = (gss_ctx_id_t)kgctx;
return (gss_ctx_id_t)uctx;
@@ -194,9 +203,7 @@ make_token(unsigned char *token, size_t len, gss_buffer_t out)
assert(mech_krb5.length == 9);
assert(len + 11 < 128);
- wrapped = malloc(len + 13);
- if (wrapped == NULL)
- abort();
+ wrapped = ealloc(len + 13);
wrapped[0] = 0x60;
wrapped[1] = len + 11;
wrapped[2] = 0x06;
@@ -207,6 +214,18 @@ make_token(unsigned char *token, size_t len, gss_buffer_t out)
out->value = wrapped;
}
+/* Create a 16-byte header for a CFX confidential wrap token to be processed by
+ * the fake CFX context. */
+static void
+write_cfx_header(uint16_t ec, uint8_t *out)
+{
+ memset(out, 0, 16);
+ store_16_be(KG2_TOK_WRAP_MSG, out);
+ out[2] = FLAG_WRAP_CONFIDENTIAL;
+ out[3] = 0xFF;
+ store_16_be(ec, out + 4);
+}
+
/* Unwrap a superficially valid RFC 1964 token with a CFX-only context, with
* regular and IOV unwrap. */
static void
@@ -238,6 +257,134 @@ test_bogus_1964_token(gss_ctx_id_t ctx)
free(in.value);
}
+static void
+test_cfx_altered_ec(gss_ctx_id_t ctx, krb5_key subkey)
+{
+ OM_uint32 major, minor;
+ uint8_t tokbuf[128], plainbuf[24];
+ krb5_data plain;
+ krb5_enc_data cipher;
+ gss_buffer_desc in, out;
+ gss_iov_buffer_desc iov[2];
+
+ /* Construct a header with a plaintext EC value of 3. */
+ write_cfx_header(3, tokbuf);
+
+ /* Encrypt a plaintext and a copy of the header with the EC value 0. */
+ memcpy(plainbuf, "truncate", 8);
+ memcpy(plainbuf + 8, tokbuf, 16);
+ store_16_be(0, plainbuf + 12);
+ plain = make_data(plainbuf, 24);
+ cipher.ciphertext.data = (char *)tokbuf + 16;
+ cipher.ciphertext.length = sizeof(tokbuf) - 16;
+ cipher.enctype = subkey->keyblock.enctype;
+ if (krb5_k_encrypt(NULL, subkey, KG_USAGE_INITIATOR_SEAL, NULL,
+ &plain, &cipher) != 0)
+ abort();
+
+ /* Verify that the token is rejected by gss_unwrap(). */
+ in.value = tokbuf;
+ in.length = 16 + cipher.ciphertext.length;
+ major = gss_unwrap(&minor, ctx, &in, &out, NULL, NULL);
+ if (major != GSS_S_DEFECTIVE_TOKEN)
+ abort();
+ (void)gss_release_buffer(&minor, &out);
+
+ /* Verify that the token is rejected by gss_unwrap_iov(). */
+ iov[0].type = GSS_IOV_BUFFER_TYPE_STREAM;
+ iov[0].buffer = in;
+ iov[1].type = GSS_IOV_BUFFER_TYPE_DATA;
+ major = gss_unwrap_iov(&minor, ctx, NULL, NULL, iov, 2);
+ if (major != GSS_S_DEFECTIVE_TOKEN)
+ abort();
+}
+
+static void
+test_cfx_short_plaintext(gss_ctx_id_t ctx, krb5_key subkey)
+{
+ OM_uint32 major, minor;
+ uint8_t tokbuf[128], zerobyte = 0;
+ krb5_data plain;
+ krb5_enc_data cipher;
+ gss_buffer_desc in, out;
+
+ write_cfx_header(0, tokbuf);
+
+ /* Encrypt a single byte, with no copy of the header. */
+ plain = make_data(&zerobyte, 1);
+ cipher.ciphertext.data = (char *)tokbuf + 16;
+ cipher.ciphertext.length = sizeof(tokbuf) - 16;
+ cipher.enctype = subkey->keyblock.enctype;
+ if (krb5_k_encrypt(NULL, subkey, KG_USAGE_INITIATOR_SEAL, NULL,
+ &plain, &cipher) != 0)
+ abort();
+
+ /* Verify that the token is rejected by gss_unwrap(). */
+ in.value = tokbuf;
+ in.length = 16 + cipher.ciphertext.length;
+ major = gss_unwrap(&minor, ctx, &in, &out, NULL, NULL);
+ if (major != GSS_S_DEFECTIVE_TOKEN)
+ abort();
+ (void)gss_release_buffer(&minor, &out);
+}
+
+static void
+test_cfx_large_ec(gss_ctx_id_t ctx, krb5_key subkey)
+{
+ OM_uint32 major, minor;
+ uint8_t tokbuf[128] = { 0 }, plainbuf[20];
+ krb5_data plain;
+ krb5_enc_data cipher;
+ gss_buffer_desc in, out;
+
+ /* Construct a header with an EC value of 5. */
+ write_cfx_header(5, tokbuf);
+
+ /* Encrypt a 4-byte plaintext plus the header. */
+ memcpy(plainbuf, "abcd", 4);
+ memcpy(plainbuf + 4, tokbuf, 16);
+ plain = make_data(plainbuf, 20);
+ cipher.ciphertext.data = (char *)tokbuf + 16;
+ cipher.ciphertext.length = sizeof(tokbuf) - 16;
+ cipher.enctype = subkey->keyblock.enctype;
+ if (krb5_k_encrypt(NULL, subkey, KG_USAGE_INITIATOR_SEAL, NULL,
+ &plain, &cipher) != 0)
+ abort();
+
+ /* Verify that the token is rejected by gss_unwrap(). */
+ in.value = tokbuf;
+ in.length = 16 + cipher.ciphertext.length;
+ major = gss_unwrap(&minor, ctx, &in, &out, NULL, NULL);
+ if (major != GSS_S_DEFECTIVE_TOKEN)
+ abort();
+ (void)gss_release_buffer(&minor, &out);
+}
+
+static void
+test_iov_large_asn1_wrapper(gss_ctx_id_t ctx)
+{
+ OM_uint32 minor, major;
+ uint8_t databuf[10] = { 0 };
+ gss_iov_buffer_desc iov[2];
+
+ /*
+ * In this IOV array, the header contains a DER tag with a dangling eight
+ * bytes of length field. The data IOV indicates a total token length
+ * sufficient to contain the length bytes.
+ */
+ iov[0].type = GSS_IOV_BUFFER_TYPE_HEADER;
+ iov[0].buffer.value = ealloc(2);
+ iov[0].buffer.length = 2;
+ memcpy(iov[0].buffer.value, "\x60\x88", 2);
+ iov[1].type = GSS_IOV_BUFFER_TYPE_DATA;
+ iov[1].buffer.value = databuf;
+ iov[1].buffer.length = 10;
+ major = gss_unwrap_iov(&minor, ctx, NULL, NULL, iov, 2);
+ if (major != GSS_S_DEFECTIVE_TOKEN)
+ abort();
+ free(iov[0].buffer.value);
+}
+
/* Process wrap and MIC tokens with incomplete headers. */
static void
test_short_header(gss_ctx_id_t ctx)
@@ -387,9 +534,7 @@ try_accept(void *value, size_t len)
gss_ctx_id_t ctx = GSS_C_NO_CONTEXT;
/* Copy the provided value to make input overruns more obvious. */
- in.value = malloc(len);
- if (in.value == NULL)
- abort();
+ in.value = ealloc(len);
memcpy(in.value, value, len);
in.length = len;
(void)gss_accept_sec_context(&minor, &ctx, GSS_C_NO_CREDENTIAL, &in,
@@ -424,11 +569,23 @@ test_short_encapsulation()
int
main(int argc, char **argv)
{
+ krb5_keyblock kb;
+ krb5_key cfx_subkey;
gss_ctx_id_t ctx;
size_t i;
- ctx = make_fake_cfx_context();
+ kb.enctype = ENCTYPE_AES128_CTS_HMAC_SHA1_96;
+ kb.length = 16;
+ kb.contents = (unsigned char *)"1234567887654321";
+ if (krb5_k_create_key(NULL, &kb, &cfx_subkey) != 0)
+ abort();
+
+ ctx = make_fake_cfx_context(cfx_subkey);
test_bogus_1964_token(ctx);
+ test_cfx_altered_ec(ctx, cfx_subkey);
+ test_cfx_short_plaintext(ctx, cfx_subkey);
+ test_cfx_large_ec(ctx, cfx_subkey);
+ test_iov_large_asn1_wrapper(ctx);
free_fake_context(ctx);
for (i = 0; i < sizeof(tests) / sizeof(*tests); i++) {
--
2.45.1