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/*
* Copyright (c) 2015 Cisco and/or its affiliates.
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef __ESP_H__
#define __ESP_H__
#include <vnet/ip/ip.h>
#include <vnet/crypto/crypto.h>
#include <vnet/ipsec/ipsec.h>
#include <vnet/ipsec/ipsec.api_enum.h>
typedef struct
{
union
{
u32 spi;
u8 spi_bytes[4];
};
u32 seq;
u8 data[0];
} esp_header_t;
typedef struct
{
u8 pad_length;
u8 next_header;
} esp_footer_t;
/* *INDENT-OFF* */
typedef CLIB_PACKED (struct {
ip4_header_t ip4;
esp_header_t esp;
}) ip4_and_esp_header_t;
/* *INDENT-ON* */
/* *INDENT-OFF* */
typedef CLIB_PACKED (struct {
ip4_header_t ip4;
udp_header_t udp;
esp_header_t esp;
}) ip4_and_udp_and_esp_header_t;
/* *INDENT-ON* */
/* *INDENT-OFF* */
typedef CLIB_PACKED (struct {
ip6_header_t ip6;
esp_header_t esp;
}) ip6_and_esp_header_t;
/* *INDENT-ON* */
/**
* AES counter mode nonce
*/
typedef struct
{
u32 salt;
u64 iv;
u32 ctr; /* counter: 1 in big-endian for ctr, unused for gcm */
} __clib_packed esp_ctr_nonce_t;
STATIC_ASSERT_SIZEOF (esp_ctr_nonce_t, 16);
/**
* AES GCM Additional Authentication data
*/
typedef struct esp_aead_t_
{
/**
* for GCM: when using ESN it's:
* SPI, seq-hi, seg-low
* else
* SPI, seq-low
*/
u32 data[3];
} __clib_packed esp_aead_t;
#define ESP_SEQ_MAX (4294967295UL)
u8 *format_esp_header (u8 * s, va_list * args);
/* TODO seq increment should be atomic to be accessed by multiple workers */
always_inline int
esp_seq_advance (ipsec_sa_t * sa)
{
if (PREDICT_TRUE (ipsec_sa_is_set_USE_ESN (sa)))
{
if (PREDICT_FALSE (sa->seq == ESP_SEQ_MAX))
{
if (PREDICT_FALSE (ipsec_sa_is_set_USE_ANTI_REPLAY (sa) &&
sa->seq_hi == ESP_SEQ_MAX))
return 1;
sa->seq_hi++;
}
sa->seq++;
}
else
{
if (PREDICT_FALSE (ipsec_sa_is_set_USE_ANTI_REPLAY (sa) &&
sa->seq == ESP_SEQ_MAX))
return 1;
sa->seq++;
}
return 0;
}
always_inline u16
esp_aad_fill (u8 *data, const esp_header_t *esp, const ipsec_sa_t *sa,
u32 seq_hi)
{
esp_aead_t *aad;
aad = (esp_aead_t *) data;
aad->data[0] = esp->spi;
if (ipsec_sa_is_set_USE_ESN (sa))
{
/* SPI, seq-hi, seq-low */
aad->data[1] = (u32) clib_host_to_net_u32 (seq_hi);
aad->data[2] = esp->seq;
return 12;
}
else
{
/* SPI, seq-low */
aad->data[1] = esp->seq;
return 8;
}
}
always_inline u32
esp_encrypt_err_to_sa_err (u32 err)
{
switch (err)
{
case ESP_ENCRYPT_ERROR_HANDOFF:
return IPSEC_SA_ERROR_HANDOFF;
case ESP_ENCRYPT_ERROR_SEQ_CYCLED:
return IPSEC_SA_ERROR_SEQ_CYCLED;
case ESP_ENCRYPT_ERROR_CRYPTO_ENGINE_ERROR:
return IPSEC_SA_ERROR_CRYPTO_ENGINE_ERROR;
case ESP_ENCRYPT_ERROR_CRYPTO_QUEUE_FULL:
return IPSEC_SA_ERROR_CRYPTO_QUEUE_FULL;
case ESP_ENCRYPT_ERROR_NO_BUFFERS:
return IPSEC_SA_ERROR_NO_BUFFERS;
case ESP_ENCRYPT_ERROR_NO_ENCRYPTION:
return IPSEC_SA_ERROR_NO_ENCRYPTION;
}
return ~0;
}
always_inline u32
esp_decrypt_err_to_sa_err (u32 err)
{
switch (err)
{
case ESP_DECRYPT_ERROR_HANDOFF:
return IPSEC_SA_ERROR_HANDOFF;
case ESP_DECRYPT_ERROR_DECRYPTION_FAILED:
return IPSEC_SA_ERROR_DECRYPTION_FAILED;
case ESP_DECRYPT_ERROR_INTEG_ERROR:
return IPSEC_SA_ERROR_INTEG_ERROR;
case ESP_DECRYPT_ERROR_CRYPTO_ENGINE_ERROR:
return IPSEC_SA_ERROR_CRYPTO_ENGINE_ERROR;
case ESP_DECRYPT_ERROR_REPLAY:
return IPSEC_SA_ERROR_REPLAY;
case ESP_DECRYPT_ERROR_RUNT:
return IPSEC_SA_ERROR_RUNT;
case ESP_DECRYPT_ERROR_NO_BUFFERS:
return IPSEC_SA_ERROR_NO_BUFFERS;
case ESP_DECRYPT_ERROR_OVERSIZED_HEADER:
return IPSEC_SA_ERROR_OVERSIZED_HEADER;
case ESP_DECRYPT_ERROR_NO_TAIL_SPACE:
return IPSEC_SA_ERROR_NO_TAIL_SPACE;
case ESP_DECRYPT_ERROR_TUN_NO_PROTO:
return IPSEC_SA_ERROR_TUN_NO_PROTO;
case ESP_DECRYPT_ERROR_UNSUP_PAYLOAD:
return IPSEC_SA_ERROR_UNSUP_PAYLOAD;
}
return ~0;
}
always_inline void
esp_encrypt_set_next_index (vlib_buffer_t *b, vlib_node_runtime_t *node,
u32 thread_index, u32 err, u16 index, u16 *nexts,
u16 drop_next, u32 sa_index)
{
ipsec_set_next_index (b, node, thread_index, err,
esp_encrypt_err_to_sa_err (err), index, nexts,
drop_next, sa_index);
}
always_inline void
esp_decrypt_set_next_index (vlib_buffer_t *b, vlib_node_runtime_t *node,
u32 thread_index, u32 err, u16 index, u16 *nexts,
u16 drop_next, u32 sa_index)
{
ipsec_set_next_index (b, node, thread_index, err,
esp_decrypt_err_to_sa_err (err), index, nexts,
drop_next, sa_index);
}
/**
* The post data structure to for esp_encrypt/decrypt_inline to write to
* vib_buffer_t opaque unused field, and for post nodes to pick up after
* dequeue.
**/
typedef struct
{
union
{
struct
{
u8 icv_sz;
u8 iv_sz;
ipsec_sa_flags_t flags;
u32 sa_index;
};
u64 sa_data;
};
u32 seq;
i16 current_data;
i16 current_length;
u16 hdr_sz;
u16 is_chain;
u32 seq_hi;
} esp_decrypt_packet_data_t;
STATIC_ASSERT_SIZEOF (esp_decrypt_packet_data_t, 3 * sizeof (u64));
STATIC_ASSERT_OFFSET_OF (esp_decrypt_packet_data_t, seq, sizeof (u64));
/* we are forced to store the decrypt post data into 2 separate places -
vlib_opaque and opaque2. */
typedef struct
{
vlib_buffer_t *lb;
u32 free_buffer_index;
u8 icv_removed;
} esp_decrypt_packet_data2_t;
typedef union
{
u16 next_index;
esp_decrypt_packet_data_t decrypt_data;
} esp_post_data_t;
STATIC_ASSERT (sizeof (esp_post_data_t) <=
STRUCT_SIZE_OF (vnet_buffer_opaque_t, unused),
"Custom meta-data too large for vnet_buffer_opaque_t");
#define esp_post_data(b) \
((esp_post_data_t *)((u8 *)((b)->opaque) \
+ STRUCT_OFFSET_OF (vnet_buffer_opaque_t, unused)))
STATIC_ASSERT (sizeof (esp_decrypt_packet_data2_t) <=
STRUCT_SIZE_OF (vnet_buffer_opaque2_t, unused),
"Custom meta-data too large for vnet_buffer_opaque2_t");
#define esp_post_data2(b) \
((esp_decrypt_packet_data2_t *)((u8 *)((b)->opaque2) \
+ STRUCT_OFFSET_OF (vnet_buffer_opaque2_t, unused)))
typedef struct
{
/* esp post node index for async crypto */
u32 esp4_post_next;
u32 esp6_post_next;
u32 esp4_tun_post_next;
u32 esp6_tun_post_next;
u32 esp_mpls_tun_post_next;
} esp_async_post_next_t;
extern esp_async_post_next_t esp_encrypt_async_next;
extern esp_async_post_next_t esp_decrypt_async_next;
/* when submitting a frame is failed, drop all buffers in the frame */
always_inline u32
esp_async_recycle_failed_submit (vlib_main_t *vm, vnet_crypto_async_frame_t *f,
vlib_node_runtime_t *node, u32 err,
u32 ipsec_sa_err, u16 index, u32 *from,
u16 *nexts, u16 drop_next_index,
bool is_encrypt)
{
vlib_buffer_t *b;
u32 n_drop = f->n_elts;
u32 *bi = f->buffer_indices;
while (n_drop--)
{
u32 sa_index;
from[index] = bi[0];
b = vlib_get_buffer (vm, bi[0]);
if (is_encrypt)
{
sa_index = vnet_buffer (b)->ipsec.sad_index;
}
else
{
sa_index = esp_post_data (b)->decrypt_data.sa_index;
}
ipsec_set_next_index (b, node, vm->thread_index, err, ipsec_sa_err,
index, nexts, drop_next_index, sa_index);
bi++;
index++;
}
return (f->n_elts);
}
#endif /* __ESP_H__ */
/*
* fd.io coding-style-patch-verification: ON
*
* Local Variables:
* eval: (c-set-style "gnu")
* End:
*/
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