d5/d3d/rewrite_8h_source.html

 /*
  * 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.
  */
 /*
  * rewrite.h: packet rewrite
  *
  * Copyright (c) 2008 Eliot Dresselhaus
  *
  * Permission is hereby granted, free of charge, to any person obtaining
  * a copy of this software and associated documentation files (the
  * "Software"), to deal in the Software without restriction, including
  * without limitation the rights to use, copy, modify, merge, publish,
  * distribute, sublicense, and/or sell copies of the Software, and to
  * permit persons to whom the Software is furnished to do so, subject to
  * the following conditions:
  *
  * The above copyright notice and this permission notice shall be
  * included in all copies or substantial portions of the Software.
  *
  *  THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
  *  EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
  *  MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
  *  NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
  *  LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
  *  OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
  *  WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
  */

 #ifndef included_vnet_rewrite_h
 #define included_vnet_rewrite_h

 #include <vlib/vlib.h>
 #include <vnet/l3_types.h>

 /* Consider using vector types for speed? */
 typedef uword vnet_rewrite_data_t;

 /**
  * Flags associated with the rewrite/adjacency
  */
 typedef enum vnet_rewrite_flags_t_
 {
   /**
    * This adjacency/interface has output features configured
    */
   VNET_REWRITE_HAS_FEATURES = (1 << 0),
 } __attribute__ ((packed)) vnet_rewrite_flags_t;

 /* *INDENT-OFF* */
 typedef CLIB_PACKED (struct {
   /* Interface to mark re-written packets with. */
   u32 sw_if_index;

   /* Next node to feed after packet rewrite is done. */
   u16 next_index;

   /* Number of bytes in rewrite data. */
   u16 data_bytes;

   /* Max packet size layer 3 (MTU) for output interface.
      Used for MTU check after packet rewrite. */
   u16 max_l3_packet_bytes;

   /* Data-plane flags on the adjacency/rewrite */
   vnet_rewrite_flags_t flags;

   /* When dynamically writing a multicast destination L2 addresss
    * this is the offset from the IP address at which to write in the
    * IP->MAC address translation.
    */
   u8 dst_mcast_offset;

   /* The mask to apply to the lower 4 bytes of the IP address before ORing
    * into the destinaiton MAC address */
   u32 dst_mcast_mask;

   /* Rewrite string starting at end and going backwards. */
   u8 data[0];
 }) vnet_rewrite_header_t;
 /* *INDENT-ON* */

 /**
  * At 16 bytes of rewrite herader we have enought space left for a IPv6
  * (40 bytes) + LISP-GPE (8 bytes) in the cache line
  */
 STATIC_ASSERT (sizeof (vnet_rewrite_header_t) <= 16,
                "Rewrite header too big");

 /*
   Helper macro for declaring rewrite string w/ given max-size.

   Typical usage:
     typedef struct {
       //
       int a, b;

       // Total adjacency is 64 bytes.
       vnet_rewrite_declare(64 - 2*sizeof(int)) rw;
     } my_adjacency_t;
 */
 #define vnet_declare_rewrite(total_bytes)                               \
 struct {                                                                \
   vnet_rewrite_header_t rewrite_header;                                 \
                                                                         \
   u8 rewrite_data[(total_bytes) - sizeof (vnet_rewrite_header_t)];      \
 }

 always_inline void
 vnet_rewrite_clear_data_internal (vnet_rewrite_header_t * rw, int max_size)
 {
   /* Sanity check values carefully for this memset operation */
   ASSERT ((max_size > 0) && (max_size < VLIB_BUFFER_PRE_DATA_SIZE));

   rw->data_bytes = 0;
   memset (rw->data, 0xfe, max_size);
 }

 always_inline void
 vnet_rewrite_set_data_internal (vnet_rewrite_header_t * rw,
                                 int max_size, void *data, int data_bytes)
 {
   /* Sanity check values carefully for this memset operation */
   ASSERT ((max_size > 0) && (max_size < VLIB_BUFFER_PRE_DATA_SIZE));
   ASSERT ((data_bytes >= 0) && (data_bytes < max_size));

   rw->data_bytes = data_bytes;
   clib_memcpy (rw->data + max_size - data_bytes, data, data_bytes);
   memset (rw->data, 0xfe, max_size - data_bytes);
 }

 #define vnet_rewrite_set_data(rw,data,data_bytes)               \
   vnet_rewrite_set_data_internal (&((rw).rewrite_header),       \
                                   sizeof ((rw).rewrite_data),   \
                                   (data),                       \
                                   (data_bytes))

 always_inline void *
 vnet_rewrite_get_data_internal (vnet_rewrite_header_t * rw, int max_size)
 {
   ASSERT (rw->data_bytes <= max_size);
   return rw->data + max_size - rw->data_bytes;
 }

 #define vnet_rewrite_get_data(rw) \
   vnet_rewrite_get_data_internal (&((rw).rewrite_header), sizeof ((rw).rewrite_data))

 always_inline void
 vnet_rewrite_copy_one (vnet_rewrite_data_t * p0, vnet_rewrite_data_t * rw0,
                        int i)
 {
   p0[-i] = rw0[-i];
 }

 void vnet_rewrite_copy_slow_path (vnet_rewrite_data_t * p0,
                                   vnet_rewrite_data_t * rw0,
                                   word n_left, uword most_likely_size);

 /* *INDENT-OFF* */
 typedef CLIB_PACKED (struct {
   u64 a;
   u32 b;
   u16 c;
 }) eh_copy_t;
 /* *INDENT-ON* */

 always_inline void
 _vnet_rewrite_one_header (vnet_rewrite_header_t * h0,
                           void *packet0, int max_size, int most_likely_size)
 {
   vnet_rewrite_data_t *p0 = packet0;
   vnet_rewrite_data_t *rw0 = (vnet_rewrite_data_t *) (h0->data + max_size);
   word n_left0;

   /* 0xfefe => poisoned adjacency => crash */
   ASSERT (h0->data_bytes != 0xfefe);

   if (PREDICT_TRUE (h0->data_bytes == sizeof (eh_copy_t)))
     {
       eh_copy_t *s, *d;
       s = (eh_copy_t *) (h0->data + max_size - sizeof (eh_copy_t));
       d = (eh_copy_t *) (((u8 *) packet0) - sizeof (eh_copy_t));
       clib_memcpy (d, s, sizeof (eh_copy_t));
       return;
     }


 #define _(i)                                                            \
   do {                                                                  \
     if (most_likely_size > ((i)-1)*sizeof (vnet_rewrite_data_t))        \
       vnet_rewrite_copy_one (p0, rw0, (i));                             \
   } while (0)

   _(4);
   _(3);
   _(2);
   _(1);

 #undef _

   n_left0 = (int)
     (((int) h0->data_bytes - most_likely_size) + (sizeof (rw0[0]) - 1))
     / (int) sizeof (rw0[0]);
   if (PREDICT_FALSE (n_left0 > 0))
     vnet_rewrite_copy_slow_path (p0, rw0, n_left0, most_likely_size);
 }

 always_inline void
 _vnet_rewrite_two_headers (vnet_rewrite_header_t * h0,
                            vnet_rewrite_header_t * h1,
                            void *packet0,
                            void *packet1, int max_size, int most_likely_size)
 {
   vnet_rewrite_data_t *p0 = packet0;
   vnet_rewrite_data_t *p1 = packet1;
   vnet_rewrite_data_t *rw0 = (vnet_rewrite_data_t *) (h0->data + max_size);
   vnet_rewrite_data_t *rw1 = (vnet_rewrite_data_t *) (h1->data + max_size);
   word n_left0, n_left1;
   int slow_path;

   /* 0xfefe => poisoned adjacency => crash */
   ASSERT (h0->data_bytes != 0xfefe);
   ASSERT (h1->data_bytes != 0xfefe);

   /* Arithmetic calculation: bytes0 == bytes1 == 14 */
   slow_path = h0->data_bytes ^ h1->data_bytes;
   slow_path += h0->data_bytes ^ sizeof (eh_copy_t);

   if (PREDICT_TRUE (slow_path == 0))
     {
       eh_copy_t *s0, *d0, *s1, *d1;
       s0 = (eh_copy_t *) (h0->data + max_size - sizeof (eh_copy_t));
       d0 = (eh_copy_t *) (((u8 *) packet0) - sizeof (eh_copy_t));
       clib_memcpy (d0, s0, sizeof (eh_copy_t));
       s1 = (eh_copy_t *) (h1->data + max_size - sizeof (eh_copy_t));
       d1 = (eh_copy_t *) (((u8 *) packet1) - sizeof (eh_copy_t));
       clib_memcpy (d1, s1, sizeof (eh_copy_t));
       return;
     }

 #define _(i)                                                            \
   do {                                                                  \
     if (most_likely_size > ((i)-1)*sizeof (vnet_rewrite_data_t))        \
       {                                                                 \
         vnet_rewrite_copy_one (p0, rw0, (i));                           \
         vnet_rewrite_copy_one (p1, rw1, (i));                           \
       }                                                                 \
   } while (0)

   _(4);
   _(3);
   _(2);
   _(1);

 #undef _

   n_left0 = (int)
     (((int) h0->data_bytes - most_likely_size) + (sizeof (rw0[0]) - 1))
     / (int) sizeof (rw0[0]);
   n_left1 = (int)
     (((int) h1->data_bytes - most_likely_size) + (sizeof (rw1[0]) - 1))
     / (int) sizeof (rw1[0]);

   if (PREDICT_FALSE (n_left0 > 0 || n_left1 > 0))
     {
       vnet_rewrite_copy_slow_path (p0, rw0, n_left0, most_likely_size);
       vnet_rewrite_copy_slow_path (p1, rw1, n_left1, most_likely_size);
     }
 }

 #define vnet_rewrite_one_header(rw0,p0,most_likely_size)        \
   _vnet_rewrite_one_header (&((rw0).rewrite_header), (p0),      \
                             sizeof ((rw0).rewrite_data),        \
                             (most_likely_size))

 #define vnet_rewrite_two_headers(rw0,rw1,p0,p1,most_likely_size)        \
   _vnet_rewrite_two_headers (&((rw0).rewrite_header), &((rw1).rewrite_header), \
                              (p0), (p1),                                \
                              sizeof ((rw0).rewrite_data),               \
                              (most_likely_size))

 always_inline void
 _vnet_fixup_one_header (vnet_rewrite_header_t * h0,
                         u8 * addr, u32 addr_len, u8 * packet0)
 {
   if (PREDICT_TRUE (h0->dst_mcast_mask))
     {
       /* location to write to in the packet */
       u8 *p0 = packet0 - h0->dst_mcast_offset;
       u32 *p1 = (u32 *) p0;
       /* location to copy from in the L3 dest address */
       u32 *a0 = (u32 *) (addr + addr_len - sizeof (h0->dst_mcast_mask));

       *p1 |= (*a0 & h0->dst_mcast_mask);
     }
 }

 #define vnet_fixup_one_header(rw0,addr,p0)              \
   _vnet_fixup_one_header (&((rw0).rewrite_header),                      \
                           (u8*)(addr), sizeof((*addr)),                 \
                           (u8*)(p0))

 #define VNET_REWRITE_FOR_SW_INTERFACE_ADDRESS_BROADCAST ((void *) 0)
 /** Deprecated */
 void vnet_rewrite_for_sw_interface (struct vnet_main_t *vnm,
                                     vnet_link_t packet_type,
                                     u32 sw_if_index,
                                     u32 node_index,
                                     void *dst_address,
                                     vnet_rewrite_header_t * rw,
                                     u32 max_rewrite_bytes);

 u32 vnet_tx_node_index_for_sw_interface (struct vnet_main_t *vnm,
                                          u32 sw_if_index);

 void vnet_rewrite_init (struct vnet_main_t *vnm,
                         u32 sw_if_index,
                         u32 this_node,
                         u32 next_node, vnet_rewrite_header_t * rw);

 u8 *vnet_build_rewrite_for_sw_interface (struct vnet_main_t *vnm,
                                          u32 sw_if_index,
                                          vnet_link_t packet_type,
                                          const void *dst_address);
 void vnet_update_adjacency_for_sw_interface (struct vnet_main_t *vnm,
                                              u32 sw_if_index, u32 ai);

 format_function_t format_vnet_rewrite;

 serialize_function_t serialize_vnet_rewrite, unserialize_vnet_rewrite;

 #endif /* included_vnet_rewrite_h */

 /*
  * fd.io coding-style-patch-verification: ON
  *
  * Local Variables:
  * eval: (c-set-style "gnu")
  * End:
  */
vnet_build_rewrite_for_sw_interface
u8 * vnet_build_rewrite_for_sw_interface(struct vnet_main_t *vnm, u32 sw_if_index, vnet_link_t packet_type, const void *dst_address)
Definition: rewrite.c:202

i
sll srl srl sll sra u16x4 i
Definition: vector_sse2.h:337

vnet_update_adjacency_for_sw_interface
void vnet_update_adjacency_for_sw_interface(struct vnet_main_t *vnm, u32 sw_if_index, u32 ai)
Definition: rewrite.c:217

a
a
Definition: bitmap.h:516

unserialize_vnet_rewrite
serialize_function_t unserialize_vnet_rewrite
Definition: rewrite.h:340

PREDICT_TRUE
#define PREDICT_TRUE(x)
Definition: clib.h:106

vnet_rewrite_data_t
uword vnet_rewrite_data_t
Definition: rewrite.h:47

VLIB_BUFFER_PRE_DATA_SIZE
#define VLIB_BUFFER_PRE_DATA_SIZE
Definition: buffer.h:52

CLIB_PACKED
typedef CLIB_PACKED(struct{u32 sw_if_index;u16 next_index;u16 data_bytes;u16 max_l3_packet_bytes;vnet_rewrite_flags_t flags;u8 dst_mcast_offset;u32 dst_mcast_mask;u8 data[0];}) vnet_rewrite_header_t

vnet_rewrite_init
void vnet_rewrite_init(struct vnet_main_t *vnm, u32 sw_if_index, u32 this_node, u32 next_node, vnet_rewrite_header_t *rw)
Definition: rewrite.c:103

format_function_t
u8 *( format_function_t)(u8 *s, va_list *args)
Definition: format.h:48

slow_path
static u32 slow_path(dslite_main_t *dm, dslite_session_key_t *in2out_key, dslite_session_t **sp, u32 next, u8 *error, u32 thread_index)
Definition: dslite_in2out.c:36

always_inline
#define always_inline
Definition: clib.h:92

vnet_rewrite_clear_data_internal
static void vnet_rewrite_clear_data_internal(vnet_rewrite_header_t *rw, int max_size)
Definition: rewrite.h:120

l3_types.h

vnet_rewrite_copy_one
static void vnet_rewrite_copy_one(vnet_rewrite_data_t *p0, vnet_rewrite_data_t *rw0, int i)
Definition: rewrite.h:159

u64
unsigned long u64
Definition: types.h:89

format_vnet_rewrite
format_function_t format_vnet_rewrite
Definition: rewrite.h:338

serialize_vnet_rewrite
serialize_function_t serialize_vnet_rewrite
Definition: rewrite.h:340

vnet_rewrite_get_data_internal
static void * vnet_rewrite_get_data_internal(vnet_rewrite_header_t *rw, int max_size)
Definition: rewrite.h:149

PREDICT_FALSE
#define PREDICT_FALSE(x)
Definition: clib.h:105

vnet_rewrite_copy_slow_path
void vnet_rewrite_copy_slow_path(vnet_rewrite_data_t *p0, vnet_rewrite_data_t *rw0, word n_left, uword most_likely_size)
Definition: rewrite.c:44

c
svmdb_client_t * c
Definition: vpp_get_metrics.c:49

STATIC_ASSERT
STATIC_ASSERT(sizeof(vnet_rewrite_header_t)<=16,"Rewrite header too big")
At 16 bytes of rewrite herader we have enought space left for a IPv6 (40 bytes) + LISP-GPE (8 bytes) ...

vnet_tx_node_index_for_sw_interface
u32 vnet_tx_node_index_for_sw_interface(struct vnet_main_t *vnm, u32 sw_if_index)
Definition: rewrite.c:96

vnet_rewrite_set_data_internal
static void vnet_rewrite_set_data_internal(vnet_rewrite_header_t *rw, int max_size, void *data, int data_bytes)
Definition: rewrite.h:130

clib_memcpy
#define clib_memcpy(a, b, c)
Definition: string.h:75

vlib.h

vnet_main_t
Definition: vnet.h:51

ASSERT
#define ASSERT(truth)
Definition: error_bootstrap.h:69

u32
unsigned int u32
Definition: types.h:88

vnet_link_t
enum vnet_link_t_ vnet_link_t
Link Type: A description of the protocol of packets on the link.

vnet_rewrite_for_sw_interface
void vnet_rewrite_for_sw_interface(struct vnet_main_t *vnm, vnet_link_t packet_type, u32 sw_if_index, u32 node_index, void *dst_address, vnet_rewrite_header_t *rw, u32 max_rewrite_bytes)
Deprecated.
Definition: rewrite.c:114

uword
u64 uword
Definition: types.h:112

u16
unsigned short u16
Definition: types.h:57

word
i64 word
Definition: types.h:111

serialize_function_t
void( serialize_function_t)(serialize_main_t *m, va_list *va)
Definition: serialize.h:168

u8
unsigned char u8
Definition: types.h:56

vnet_rewrite_flags_t
enum vnet_rewrite_flags_t_ vnet_rewrite_flags_t
Flags associated with the rewrite/adjacency.

addr
vhost_vring_addr_t addr
Definition: vhost-user.h:83

vnet_rewrite_flags_t_
vnet_rewrite_flags_t_
Flags associated with the rewrite/adjacency.
Definition: rewrite.h:52

flags
u32 flags
Definition: vhost-user.h:77

VNET_REWRITE_HAS_FEATURES
This adjacency/interface has output features configured.
Definition: rewrite.h:57