third_party/grpc/src/core/tsi/fake_transport_security.c - bazel - Git at Google

 /*
  *
  * Copyright 2015, Google Inc.
  * All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions are
  * met:
  *
  *     * Redistributions of source code must retain the above copyright
  * notice, this list of conditions and the following disclaimer.
  *     * Redistributions in binary form must reproduce the above
  * copyright notice, this list of conditions and the following disclaimer
  * in the documentation and/or other materials provided with the
  * distribution.
  *     * Neither the name of Google Inc. nor the names of its
  * contributors may be used to endorse or promote products derived from
  * this software without specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
  * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
  * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
  * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
  * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
  * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
  * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  *
  */

 #include "src/core/tsi/fake_transport_security.h"

 #include <stdlib.h>
 #include <string.h>

 #include <grpc/support/log.h>
 #include <grpc/support/port_platform.h>
 #include <grpc/support/useful.h>
 #include "src/core/tsi/transport_security.h"

 /* --- Constants. ---*/
 #define TSI_FAKE_FRAME_HEADER_SIZE 4
 #define TSI_FAKE_FRAME_INITIAL_ALLOCATED_SIZE 64
 #define TSI_FAKE_DEFAULT_FRAME_SIZE 16384

 /* --- Structure definitions. ---*/

 /* a frame is encoded like this:
    | size |     data    |
    where the size field value is the size of the size field plus the size of
    the data encoded in little endian on 4 bytes.  */
 typedef struct {
   unsigned char *data;
   size_t size;
   size_t allocated_size;
   size_t offset;
   int needs_draining;
 } tsi_fake_frame;

 typedef enum {
   TSI_FAKE_CLIENT_INIT = 0,
   TSI_FAKE_SERVER_INIT = 1,
   TSI_FAKE_CLIENT_FINISHED = 2,
   TSI_FAKE_SERVER_FINISHED = 3,
   TSI_FAKE_HANDSHAKE_MESSAGE_MAX = 4
 } tsi_fake_handshake_message;

 typedef struct {
   tsi_handshaker base;
   int is_client;
   tsi_fake_handshake_message next_message_to_send;
   int needs_incoming_message;
   tsi_fake_frame incoming;
   tsi_fake_frame outgoing;
   tsi_result result;
 } tsi_fake_handshaker;

 typedef struct {
   tsi_frame_protector base;
   tsi_fake_frame protect_frame;
   tsi_fake_frame unprotect_frame;
   size_t max_frame_size;
 } tsi_fake_frame_protector;

 /* --- Utils. ---*/

 static const char *tsi_fake_handshake_message_strings[] = {
     "CLIENT_INIT", "SERVER_INIT", "CLIENT_FINISHED", "SERVER_FINISHED"};

 static const char *tsi_fake_handshake_message_to_string(int msg) {
   if (msg < 0 || msg >= TSI_FAKE_HANDSHAKE_MESSAGE_MAX) {
     gpr_log(GPR_ERROR, "Invalid message %d", msg);
     return "UNKNOWN";
   }
   return tsi_fake_handshake_message_strings[msg];
 }

 static tsi_result tsi_fake_handshake_message_from_string(
     const char *msg_string, tsi_fake_handshake_message *msg) {
   tsi_fake_handshake_message i;
   for (i = 0; i < TSI_FAKE_HANDSHAKE_MESSAGE_MAX; i++) {
     if (strncmp(msg_string, tsi_fake_handshake_message_strings[i],
                 strlen(tsi_fake_handshake_message_strings[i])) == 0) {
       *msg = i;
       return TSI_OK;
     }
   }
   gpr_log(GPR_ERROR, "Invalid handshake message.");
   return TSI_DATA_CORRUPTED;
 }

 static uint32_t load32_little_endian(const unsigned char *buf) {
   return ((uint32_t)(buf[0]) | (uint32_t)(buf[1] << 8) |
           (uint32_t)(buf[2] << 16) | (uint32_t)(buf[3] << 24));
 }

 static void store32_little_endian(uint32_t value, unsigned char *buf) {
   buf[3] = (unsigned char)((value >> 24) & 0xFF);
   buf[2] = (unsigned char)((value >> 16) & 0xFF);
   buf[1] = (unsigned char)((value >> 8) & 0xFF);
   buf[0] = (unsigned char)((value)&0xFF);
 }

 static void tsi_fake_frame_reset(tsi_fake_frame *frame, int needs_draining) {
   frame->offset = 0;
   frame->needs_draining = needs_draining;
   if (!needs_draining) frame->size = 0;
 }

 /* Returns 1 if successful, 0 otherwise. */
 static int tsi_fake_frame_ensure_size(tsi_fake_frame *frame) {
   if (frame->data == NULL) {
     frame->allocated_size = frame->size;
     frame->data = malloc(frame->allocated_size);
     if (frame->data == NULL) return 0;
   } else if (frame->size > frame->allocated_size) {
     unsigned char *new_data = realloc(frame->data, frame->size);
     if (new_data == NULL) {
       free(frame->data);
       frame->data = NULL;
       return 0;
     }
     frame->data = new_data;
     frame->allocated_size = frame->size;
   }
   return 1;
 }

 /* This method should not be called if frame->needs_framing is not 0.  */
 static tsi_result fill_frame_from_bytes(const unsigned char *incoming_bytes,
                                         size_t *incoming_bytes_size,
                                         tsi_fake_frame *frame) {
   size_t available_size = *incoming_bytes_size;
   size_t to_read_size = 0;
   const unsigned char *bytes_cursor = incoming_bytes;

   if (frame->needs_draining) return TSI_INTERNAL_ERROR;
   if (frame->data == NULL) {
     frame->allocated_size = TSI_FAKE_FRAME_INITIAL_ALLOCATED_SIZE;
     frame->data = malloc(frame->allocated_size);
     if (frame->data == NULL) return TSI_OUT_OF_RESOURCES;
   }

   if (frame->offset < TSI_FAKE_FRAME_HEADER_SIZE) {
     to_read_size = TSI_FAKE_FRAME_HEADER_SIZE - frame->offset;
     if (to_read_size > available_size) {
       /* Just fill what we can and exit. */
       memcpy(frame->data + frame->offset, bytes_cursor, available_size);
       bytes_cursor += available_size;
       frame->offset += available_size;
       *incoming_bytes_size = (size_t)(bytes_cursor - incoming_bytes);
       return TSI_INCOMPLETE_DATA;
     }
     memcpy(frame->data + frame->offset, bytes_cursor, to_read_size);
     bytes_cursor += to_read_size;
     frame->offset += to_read_size;
     available_size -= to_read_size;
     frame->size = load32_little_endian(frame->data);
     if (!tsi_fake_frame_ensure_size(frame)) return TSI_OUT_OF_RESOURCES;
   }

   to_read_size = frame->size - frame->offset;
   if (to_read_size > available_size) {
     memcpy(frame->data + frame->offset, bytes_cursor, available_size);
     frame->offset += available_size;
     bytes_cursor += available_size;
     *incoming_bytes_size = (size_t)(bytes_cursor - incoming_bytes);
     return TSI_INCOMPLETE_DATA;
   }
   memcpy(frame->data + frame->offset, bytes_cursor, to_read_size);
   bytes_cursor += to_read_size;
   *incoming_bytes_size = (size_t)(bytes_cursor - incoming_bytes);
   tsi_fake_frame_reset(frame, 1 /* needs_draining */);
   return TSI_OK;
 }

 /* This method should not be called if frame->needs_framing is 0.  */
 static tsi_result drain_frame_to_bytes(unsigned char *outgoing_bytes,
                                        size_t *outgoing_bytes_size,
                                        tsi_fake_frame *frame) {
   size_t to_write_size = frame->size - frame->offset;
   if (!frame->needs_draining) return TSI_INTERNAL_ERROR;
   if (*outgoing_bytes_size < to_write_size) {
     memcpy(outgoing_bytes, frame->data + frame->offset, *outgoing_bytes_size);
     frame->offset += *outgoing_bytes_size;
     return TSI_INCOMPLETE_DATA;
   }
   memcpy(outgoing_bytes, frame->data + frame->offset, to_write_size);
   *outgoing_bytes_size = to_write_size;
   tsi_fake_frame_reset(frame, 0 /* needs_draining */);
   return TSI_OK;
 }

 static tsi_result bytes_to_frame(unsigned char *bytes, size_t bytes_size,
                                  tsi_fake_frame *frame) {
   frame->offset = 0;
   frame->size = bytes_size + TSI_FAKE_FRAME_HEADER_SIZE;
   if (!tsi_fake_frame_ensure_size(frame)) return TSI_OUT_OF_RESOURCES;
   store32_little_endian((uint32_t)frame->size, frame->data);
   memcpy(frame->data + TSI_FAKE_FRAME_HEADER_SIZE, bytes, bytes_size);
   tsi_fake_frame_reset(frame, 1 /* needs draining */);
   return TSI_OK;
 }

 static void tsi_fake_frame_destruct(tsi_fake_frame *frame) {
   if (frame->data != NULL) free(frame->data);
 }

 /* --- tsi_frame_protector methods implementation. ---*/

 static tsi_result fake_protector_protect(tsi_frame_protector *self,
                                          const unsigned char *unprotected_bytes,
                                          size_t *unprotected_bytes_size,
                                          unsigned char *protected_output_frames,
                                          size_t *protected_output_frames_size) {
   tsi_result result = TSI_OK;
   tsi_fake_frame_protector *impl = (tsi_fake_frame_protector *)self;
   unsigned char frame_header[TSI_FAKE_FRAME_HEADER_SIZE];
   tsi_fake_frame *frame = &impl->protect_frame;
   size_t saved_output_size = *protected_output_frames_size;
   size_t drained_size = 0;
   size_t *num_bytes_written = protected_output_frames_size;
   *num_bytes_written = 0;

   /* Try to drain first. */
   if (frame->needs_draining) {
     drained_size = saved_output_size - *num_bytes_written;
     result =
         drain_frame_to_bytes(protected_output_frames, &drained_size, frame);
     *num_bytes_written += drained_size;
     protected_output_frames += drained_size;
     if (result != TSI_OK) {
       if (result == TSI_INCOMPLETE_DATA) {
         *unprotected_bytes_size = 0;
         result = TSI_OK;
       }
       return result;
     }
   }

   /* Now process the unprotected_bytes. */
   if (frame->needs_draining) return TSI_INTERNAL_ERROR;
   if (frame->size == 0) {
     /* New frame, create a header. */
     size_t written_in_frame_size = 0;
     store32_little_endian((uint32_t)impl->max_frame_size, frame_header);
     written_in_frame_size = TSI_FAKE_FRAME_HEADER_SIZE;
     result = fill_frame_from_bytes(frame_header, &written_in_frame_size, frame);
     if (result != TSI_INCOMPLETE_DATA) {
       gpr_log(GPR_ERROR, "fill_frame_from_bytes returned %s",
               tsi_result_to_string(result));
       return result;
     }
   }
   result =
       fill_frame_from_bytes(unprotected_bytes, unprotected_bytes_size, frame);
   if (result != TSI_OK) {
     if (result == TSI_INCOMPLETE_DATA) result = TSI_OK;
     return result;
   }

   /* Try to drain again. */
   if (!frame->needs_draining) return TSI_INTERNAL_ERROR;
   if (frame->offset != 0) return TSI_INTERNAL_ERROR;
   drained_size = saved_output_size - *num_bytes_written;
   result = drain_frame_to_bytes(protected_output_frames, &drained_size, frame);
   *num_bytes_written += drained_size;
   if (result == TSI_INCOMPLETE_DATA) result = TSI_OK;
   return result;
 }

 static tsi_result fake_protector_protect_flush(
     tsi_frame_protector *self, unsigned char *protected_output_frames,
     size_t *protected_output_frames_size, size_t *still_pending_size) {
   tsi_result result = TSI_OK;
   tsi_fake_frame_protector *impl = (tsi_fake_frame_protector *)self;
   tsi_fake_frame *frame = &impl->protect_frame;
   if (!frame->needs_draining) {
     /* Create a short frame. */
     frame->size = frame->offset;
     frame->offset = 0;
     frame->needs_draining = 1;
     store32_little_endian((uint32_t)frame->size,
                           frame->data); /* Overwrite header. */
   }
   result = drain_frame_to_bytes(protected_output_frames,
                                 protected_output_frames_size, frame);
   if (result == TSI_INCOMPLETE_DATA) result = TSI_OK;
   *still_pending_size = frame->size - frame->offset;
   return result;
 }

 static tsi_result fake_protector_unprotect(
     tsi_frame_protector *self, const unsigned char *protected_frames_bytes,
     size_t *protected_frames_bytes_size, unsigned char *unprotected_bytes,
     size_t *unprotected_bytes_size) {
   tsi_result result = TSI_OK;
   tsi_fake_frame_protector *impl = (tsi_fake_frame_protector *)self;
   tsi_fake_frame *frame = &impl->unprotect_frame;
   size_t saved_output_size = *unprotected_bytes_size;
   size_t drained_size = 0;
   size_t *num_bytes_written = unprotected_bytes_size;
   *num_bytes_written = 0;

   /* Try to drain first. */
   if (frame->needs_draining) {
     /* Go past the header if needed. */
     if (frame->offset == 0) frame->offset = TSI_FAKE_FRAME_HEADER_SIZE;
     drained_size = saved_output_size - *num_bytes_written;
     result = drain_frame_to_bytes(unprotected_bytes, &drained_size, frame);
     unprotected_bytes += drained_size;
     *num_bytes_written += drained_size;
     if (result != TSI_OK) {
       if (result == TSI_INCOMPLETE_DATA) {
         *protected_frames_bytes_size = 0;
         result = TSI_OK;
       }
       return result;
     }
   }

   /* Now process the protected_bytes. */
   if (frame->needs_draining) return TSI_INTERNAL_ERROR;
   result = fill_frame_from_bytes(protected_frames_bytes,
                                  protected_frames_bytes_size, frame);
   if (result != TSI_OK) {
     if (result == TSI_INCOMPLETE_DATA) result = TSI_OK;
     return result;
   }

   /* Try to drain again. */
   if (!frame->needs_draining) return TSI_INTERNAL_ERROR;
   if (frame->offset != 0) return TSI_INTERNAL_ERROR;
   frame->offset = TSI_FAKE_FRAME_HEADER_SIZE; /* Go past the header. */
   drained_size = saved_output_size - *num_bytes_written;
   result = drain_frame_to_bytes(unprotected_bytes, &drained_size, frame);
   *num_bytes_written += drained_size;
   if (result == TSI_INCOMPLETE_DATA) result = TSI_OK;
   return result;
 }

 static void fake_protector_destroy(tsi_frame_protector *self) {
   tsi_fake_frame_protector *impl = (tsi_fake_frame_protector *)self;
   tsi_fake_frame_destruct(&impl->protect_frame);
   tsi_fake_frame_destruct(&impl->unprotect_frame);
   free(self);
 }

 static const tsi_frame_protector_vtable frame_protector_vtable = {
     fake_protector_protect, fake_protector_protect_flush,
     fake_protector_unprotect, fake_protector_destroy,
 };

 /* --- tsi_handshaker methods implementation. ---*/

 static tsi_result fake_handshaker_get_bytes_to_send_to_peer(
     tsi_handshaker *self, unsigned char *bytes, size_t *bytes_size) {
   tsi_fake_handshaker *impl = (tsi_fake_handshaker *)self;
   tsi_result result = TSI_OK;
   if (impl->needs_incoming_message || impl->result == TSI_OK) {
     *bytes_size = 0;
     return TSI_OK;
   }
   if (!impl->outgoing.needs_draining) {
     tsi_fake_handshake_message next_message_to_send =
         impl->next_message_to_send + 2;
     const char *msg_string =
         tsi_fake_handshake_message_to_string(impl->next_message_to_send);
     result = bytes_to_frame((unsigned char *)msg_string, strlen(msg_string),
                             &impl->outgoing);
     if (result != TSI_OK) return result;
     if (next_message_to_send > TSI_FAKE_HANDSHAKE_MESSAGE_MAX) {
       next_message_to_send = TSI_FAKE_HANDSHAKE_MESSAGE_MAX;
     }
     if (tsi_tracing_enabled) {
       gpr_log(GPR_INFO, "%s prepared %s.",
               impl->is_client ? "Client" : "Server",
               tsi_fake_handshake_message_to_string(impl->next_message_to_send));
     }
     impl->next_message_to_send = next_message_to_send;
   }
   result = drain_frame_to_bytes(bytes, bytes_size, &impl->outgoing);
   if (result != TSI_OK) return result;
   if (!impl->is_client &&
       impl->next_message_to_send == TSI_FAKE_HANDSHAKE_MESSAGE_MAX) {
     /* We're done. */
     if (tsi_tracing_enabled) {
       gpr_log(GPR_INFO, "Server is done.");
     }
     impl->result = TSI_OK;
   } else {
     impl->needs_incoming_message = 1;
   }
   return TSI_OK;
 }

 static tsi_result fake_handshaker_process_bytes_from_peer(
     tsi_handshaker *self, const unsigned char *bytes, size_t *bytes_size) {
   tsi_result result = TSI_OK;
   tsi_fake_handshaker *impl = (tsi_fake_handshaker *)self;
   tsi_fake_handshake_message expected_msg = impl->next_message_to_send - 1;
   tsi_fake_handshake_message received_msg;

   if (!impl->needs_incoming_message || impl->result == TSI_OK) {
     *bytes_size = 0;
     return TSI_OK;
   }
   result = fill_frame_from_bytes(bytes, bytes_size, &impl->incoming);
   if (result != TSI_OK) return result;

   /* We now have a complete frame. */
   result = tsi_fake_handshake_message_from_string(
       (const char *)impl->incoming.data + TSI_FAKE_FRAME_HEADER_SIZE,
       &received_msg);
   if (result != TSI_OK) {
     impl->result = result;
     return result;
   }
   if (received_msg != expected_msg) {
     gpr_log(GPR_ERROR, "Invalid received message (%s instead of %s)",
             tsi_fake_handshake_message_to_string(received_msg),
             tsi_fake_handshake_message_to_string(expected_msg));
   }
   if (tsi_tracing_enabled) {
     gpr_log(GPR_INFO, "%s received %s.", impl->is_client ? "Client" : "Server",
             tsi_fake_handshake_message_to_string(received_msg));
   }
   tsi_fake_frame_reset(&impl->incoming, 0 /* needs_draining */);
   impl->needs_incoming_message = 0;
   if (impl->next_message_to_send == TSI_FAKE_HANDSHAKE_MESSAGE_MAX) {
     /* We're done. */
     if (tsi_tracing_enabled) {
       gpr_log(GPR_INFO, "%s is done.", impl->is_client ? "Client" : "Server");
     }
     impl->result = TSI_OK;
   }
   return TSI_OK;
 }

 static tsi_result fake_handshaker_get_result(tsi_handshaker *self) {
   tsi_fake_handshaker *impl = (tsi_fake_handshaker *)self;
   return impl->result;
 }

 static tsi_result fake_handshaker_extract_peer(tsi_handshaker *self,
                                                tsi_peer *peer) {
   tsi_result result = tsi_construct_peer(1, peer);
   if (result != TSI_OK) return result;
   result = tsi_construct_string_peer_property_from_cstring(
       TSI_CERTIFICATE_TYPE_PEER_PROPERTY, TSI_FAKE_CERTIFICATE_TYPE,
       &peer->properties[0]);
   if (result != TSI_OK) tsi_peer_destruct(peer);
   return result;
 }

 static tsi_result fake_handshaker_create_frame_protector(
     tsi_handshaker *self, size_t *max_protected_frame_size,
     tsi_frame_protector **protector) {
   *protector = tsi_create_fake_protector(max_protected_frame_size);
   if (*protector == NULL) return TSI_OUT_OF_RESOURCES;
   return TSI_OK;
 }

 static void fake_handshaker_destroy(tsi_handshaker *self) {
   tsi_fake_handshaker *impl = (tsi_fake_handshaker *)self;
   tsi_fake_frame_destruct(&impl->incoming);
   tsi_fake_frame_destruct(&impl->outgoing);
   free(self);
 }

 static const tsi_handshaker_vtable handshaker_vtable = {
     fake_handshaker_get_bytes_to_send_to_peer,
     fake_handshaker_process_bytes_from_peer, fake_handshaker_get_result,
     fake_handshaker_extract_peer, fake_handshaker_create_frame_protector,
     fake_handshaker_destroy,
 };

 tsi_handshaker *tsi_create_fake_handshaker(int is_client) {
   tsi_fake_handshaker *impl = calloc(1, sizeof(tsi_fake_handshaker));
   impl->base.vtable = &handshaker_vtable;
   impl->is_client = is_client;
   impl->result = TSI_HANDSHAKE_IN_PROGRESS;
   if (is_client) {
     impl->needs_incoming_message = 0;
     impl->next_message_to_send = TSI_FAKE_CLIENT_INIT;
   } else {
     impl->needs_incoming_message = 1;
     impl->next_message_to_send = TSI_FAKE_SERVER_INIT;
   }
   return &impl->base;
 }

 tsi_frame_protector *tsi_create_fake_protector(
     size_t *max_protected_frame_size) {
   tsi_fake_frame_protector *impl = calloc(1, sizeof(tsi_fake_frame_protector));
   if (impl == NULL) return NULL;
   impl->max_frame_size = (max_protected_frame_size == NULL)
                              ? TSI_FAKE_DEFAULT_FRAME_SIZE
                              : *max_protected_frame_size;
   impl->base.vtable = &frame_protector_vtable;
   return &impl->base;
 }
	/*
	*
	* Copyright 2015, Google Inc.
	* All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions are
	* met:
	*
	* * Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* * Redistributions in binary form must reproduce the above
	* copyright notice, this list of conditions and the following disclaimer
	* in the documentation and/or other materials provided with the
	* distribution.
	* * Neither the name of Google Inc. nor the names of its
	* contributors may be used to endorse or promote products derived from
	* this software without specific prior written permission.
	*
	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*
	*/

	#include "src/core/tsi/fake_transport_security.h"

	#include <stdlib.h>
	#include <string.h>

	#include <grpc/support/log.h>
	#include <grpc/support/port_platform.h>
	#include <grpc/support/useful.h>
	#include "src/core/tsi/transport_security.h"

	/* --- Constants. ---*/
	#define TSI_FAKE_FRAME_HEADER_SIZE 4
	#define TSI_FAKE_FRAME_INITIAL_ALLOCATED_SIZE 64
	#define TSI_FAKE_DEFAULT_FRAME_SIZE 16384

	/* --- Structure definitions. ---*/

	/* a frame is encoded like this:
	\| size \| data \|
	where the size field value is the size of the size field plus the size of
	the data encoded in little endian on 4 bytes. */
	typedef struct {
	unsigned char *data;
	size_t size;
	size_t allocated_size;
	size_t offset;
	int needs_draining;
	} tsi_fake_frame;

	typedef enum {
	TSI_FAKE_CLIENT_INIT = 0,
	TSI_FAKE_SERVER_INIT = 1,
	TSI_FAKE_CLIENT_FINISHED = 2,
	TSI_FAKE_SERVER_FINISHED = 3,
	TSI_FAKE_HANDSHAKE_MESSAGE_MAX = 4
	} tsi_fake_handshake_message;

	typedef struct {
	tsi_handshaker base;
	int is_client;
	tsi_fake_handshake_message next_message_to_send;
	int needs_incoming_message;
	tsi_fake_frame incoming;
	tsi_fake_frame outgoing;
	tsi_result result;
	} tsi_fake_handshaker;

	typedef struct {
	tsi_frame_protector base;
	tsi_fake_frame protect_frame;
	tsi_fake_frame unprotect_frame;
	size_t max_frame_size;
	} tsi_fake_frame_protector;

	/* --- Utils. ---*/

	static const char *tsi_fake_handshake_message_strings[] = {
	"CLIENT_INIT", "SERVER_INIT", "CLIENT_FINISHED", "SERVER_FINISHED"};

	static const char *tsi_fake_handshake_message_to_string(int msg) {
	if (msg < 0 \|\| msg >= TSI_FAKE_HANDSHAKE_MESSAGE_MAX) {
	gpr_log(GPR_ERROR, "Invalid message %d", msg);
	return "UNKNOWN";
	}
	return tsi_fake_handshake_message_strings[msg];
	}

	static tsi_result tsi_fake_handshake_message_from_string(
	const char msg_string, tsi_fake_handshake_message msg) {
	tsi_fake_handshake_message i;
	for (i = 0; i < TSI_FAKE_HANDSHAKE_MESSAGE_MAX; i++) {
	if (strncmp(msg_string, tsi_fake_handshake_message_strings[i],
	strlen(tsi_fake_handshake_message_strings[i])) == 0) {
	*msg = i;
	return TSI_OK;
	}
	}
	gpr_log(GPR_ERROR, "Invalid handshake message.");
	return TSI_DATA_CORRUPTED;
	}

	static uint32_t load32_little_endian(const unsigned char *buf) {
	return ((uint32_t)(buf[0]) \| (uint32_t)(buf[1] << 8) \|
	(uint32_t)(buf[2] << 16) \| (uint32_t)(buf[3] << 24));
	}

	static void store32_little_endian(uint32_t value, unsigned char *buf) {
	buf[3] = (unsigned char)((value >> 24) & 0xFF);
	buf[2] = (unsigned char)((value >> 16) & 0xFF);
	buf[1] = (unsigned char)((value >> 8) & 0xFF);
	buf[0] = (unsigned char)((value)&0xFF);
	}

	static void tsi_fake_frame_reset(tsi_fake_frame *frame, int needs_draining) {
	frame->offset = 0;
	frame->needs_draining = needs_draining;
	if (!needs_draining) frame->size = 0;
	}

	/* Returns 1 if successful, 0 otherwise. */
	static int tsi_fake_frame_ensure_size(tsi_fake_frame *frame) {
	if (frame->data == NULL) {
	frame->allocated_size = frame->size;
	frame->data = malloc(frame->allocated_size);
	if (frame->data == NULL) return 0;
	} else if (frame->size > frame->allocated_size) {
	unsigned char *new_data = realloc(frame->data, frame->size);
	if (new_data == NULL) {
	free(frame->data);
	frame->data = NULL;
	return 0;
	}
	frame->data = new_data;
	frame->allocated_size = frame->size;
	}
	return 1;
	}

	/* This method should not be called if frame->needs_framing is not 0. */
	static tsi_result fill_frame_from_bytes(const unsigned char *incoming_bytes,
	size_t *incoming_bytes_size,
	tsi_fake_frame *frame) {
	size_t available_size = *incoming_bytes_size;
	size_t to_read_size = 0;
	const unsigned char *bytes_cursor = incoming_bytes;

	if (frame->needs_draining) return TSI_INTERNAL_ERROR;
	if (frame->data == NULL) {
	frame->allocated_size = TSI_FAKE_FRAME_INITIAL_ALLOCATED_SIZE;
	frame->data = malloc(frame->allocated_size);
	if (frame->data == NULL) return TSI_OUT_OF_RESOURCES;
	}

	if (frame->offset < TSI_FAKE_FRAME_HEADER_SIZE) {
	to_read_size = TSI_FAKE_FRAME_HEADER_SIZE - frame->offset;
	if (to_read_size > available_size) {
	/* Just fill what we can and exit. */
	memcpy(frame->data + frame->offset, bytes_cursor, available_size);
	bytes_cursor += available_size;
	frame->offset += available_size;
	*incoming_bytes_size = (size_t)(bytes_cursor - incoming_bytes);
	return TSI_INCOMPLETE_DATA;
	}
	memcpy(frame->data + frame->offset, bytes_cursor, to_read_size);
	bytes_cursor += to_read_size;
	frame->offset += to_read_size;
	available_size -= to_read_size;
	frame->size = load32_little_endian(frame->data);
	if (!tsi_fake_frame_ensure_size(frame)) return TSI_OUT_OF_RESOURCES;
	}

	to_read_size = frame->size - frame->offset;
	if (to_read_size > available_size) {
	memcpy(frame->data + frame->offset, bytes_cursor, available_size);
	frame->offset += available_size;
	bytes_cursor += available_size;
	*incoming_bytes_size = (size_t)(bytes_cursor - incoming_bytes);
	return TSI_INCOMPLETE_DATA;
	}
	memcpy(frame->data + frame->offset, bytes_cursor, to_read_size);
	bytes_cursor += to_read_size;
	*incoming_bytes_size = (size_t)(bytes_cursor - incoming_bytes);
	tsi_fake_frame_reset(frame, 1 /* needs_draining */);
	return TSI_OK;
	}

	/* This method should not be called if frame->needs_framing is 0. */
	static tsi_result drain_frame_to_bytes(unsigned char *outgoing_bytes,
	size_t *outgoing_bytes_size,
	tsi_fake_frame *frame) {
	size_t to_write_size = frame->size - frame->offset;
	if (!frame->needs_draining) return TSI_INTERNAL_ERROR;
	if (*outgoing_bytes_size < to_write_size) {
	memcpy(outgoing_bytes, frame->data + frame->offset, *outgoing_bytes_size);
	frame->offset += *outgoing_bytes_size;
	return TSI_INCOMPLETE_DATA;
	}
	memcpy(outgoing_bytes, frame->data + frame->offset, to_write_size);
	*outgoing_bytes_size = to_write_size;
	tsi_fake_frame_reset(frame, 0 /* needs_draining */);
	return TSI_OK;
	}

	static tsi_result bytes_to_frame(unsigned char *bytes, size_t bytes_size,
	tsi_fake_frame *frame) {
	frame->offset = 0;
	frame->size = bytes_size + TSI_FAKE_FRAME_HEADER_SIZE;
	if (!tsi_fake_frame_ensure_size(frame)) return TSI_OUT_OF_RESOURCES;
	store32_little_endian((uint32_t)frame->size, frame->data);
	memcpy(frame->data + TSI_FAKE_FRAME_HEADER_SIZE, bytes, bytes_size);
	tsi_fake_frame_reset(frame, 1 /* needs draining */);
	return TSI_OK;
	}

	static void tsi_fake_frame_destruct(tsi_fake_frame *frame) {
	if (frame->data != NULL) free(frame->data);
	}

	/* --- tsi_frame_protector methods implementation. ---*/

	static tsi_result fake_protector_protect(tsi_frame_protector *self,
	const unsigned char *unprotected_bytes,
	size_t *unprotected_bytes_size,
	unsigned char *protected_output_frames,
	size_t *protected_output_frames_size) {
	tsi_result result = TSI_OK;
	tsi_fake_frame_protector impl = (tsi_fake_frame_protector )self;
	unsigned char frame_header[TSI_FAKE_FRAME_HEADER_SIZE];
	tsi_fake_frame *frame = &impl->protect_frame;
	size_t saved_output_size = *protected_output_frames_size;
	size_t drained_size = 0;
	size_t *num_bytes_written = protected_output_frames_size;
	*num_bytes_written = 0;

	/* Try to drain first. */
	if (frame->needs_draining) {
	drained_size = saved_output_size - *num_bytes_written;
	result =
	drain_frame_to_bytes(protected_output_frames, &drained_size, frame);
	*num_bytes_written += drained_size;
	protected_output_frames += drained_size;
	if (result != TSI_OK) {
	if (result == TSI_INCOMPLETE_DATA) {
	*unprotected_bytes_size = 0;
	result = TSI_OK;
	}
	return result;
	}
	}

	/* Now process the unprotected_bytes. */
	if (frame->needs_draining) return TSI_INTERNAL_ERROR;
	if (frame->size == 0) {
	/* New frame, create a header. */
	size_t written_in_frame_size = 0;
	store32_little_endian((uint32_t)impl->max_frame_size, frame_header);
	written_in_frame_size = TSI_FAKE_FRAME_HEADER_SIZE;
	result = fill_frame_from_bytes(frame_header, &written_in_frame_size, frame);
	if (result != TSI_INCOMPLETE_DATA) {
	gpr_log(GPR_ERROR, "fill_frame_from_bytes returned %s",
	tsi_result_to_string(result));
	return result;
	}
	}
	result =
	fill_frame_from_bytes(unprotected_bytes, unprotected_bytes_size, frame);
	if (result != TSI_OK) {
	if (result == TSI_INCOMPLETE_DATA) result = TSI_OK;
	return result;
	}

	/* Try to drain again. */
	if (!frame->needs_draining) return TSI_INTERNAL_ERROR;
	if (frame->offset != 0) return TSI_INTERNAL_ERROR;
	drained_size = saved_output_size - *num_bytes_written;
	result = drain_frame_to_bytes(protected_output_frames, &drained_size, frame);
	*num_bytes_written += drained_size;
	if (result == TSI_INCOMPLETE_DATA) result = TSI_OK;
	return result;
	}

	static tsi_result fake_protector_protect_flush(
	tsi_frame_protector self, unsigned char protected_output_frames,
	size_t protected_output_frames_size, size_t still_pending_size) {
	tsi_result result = TSI_OK;
	tsi_fake_frame_protector impl = (tsi_fake_frame_protector )self;
	tsi_fake_frame *frame = &impl->protect_frame;
	if (!frame->needs_draining) {
	/* Create a short frame. */
	frame->size = frame->offset;
	frame->offset = 0;
	frame->needs_draining = 1;
	store32_little_endian((uint32_t)frame->size,
	frame->data); /* Overwrite header. */
	}
	result = drain_frame_to_bytes(protected_output_frames,
	protected_output_frames_size, frame);
	if (result == TSI_INCOMPLETE_DATA) result = TSI_OK;
	*still_pending_size = frame->size - frame->offset;
	return result;
	}

	static tsi_result fake_protector_unprotect(
	tsi_frame_protector self, const unsigned char protected_frames_bytes,
	size_t protected_frames_bytes_size, unsigned char unprotected_bytes,
	size_t *unprotected_bytes_size) {
	tsi_result result = TSI_OK;
	tsi_fake_frame_protector impl = (tsi_fake_frame_protector )self;
	tsi_fake_frame *frame = &impl->unprotect_frame;
	size_t saved_output_size = *unprotected_bytes_size;
	size_t drained_size = 0;
	size_t *num_bytes_written = unprotected_bytes_size;
	*num_bytes_written = 0;

	/* Try to drain first. */
	if (frame->needs_draining) {
	/* Go past the header if needed. */
	if (frame->offset == 0) frame->offset = TSI_FAKE_FRAME_HEADER_SIZE;
	drained_size = saved_output_size - *num_bytes_written;
	result = drain_frame_to_bytes(unprotected_bytes, &drained_size, frame);
	unprotected_bytes += drained_size;
	*num_bytes_written += drained_size;
	if (result != TSI_OK) {
	if (result == TSI_INCOMPLETE_DATA) {
	*protected_frames_bytes_size = 0;
	result = TSI_OK;
	}
	return result;
	}
	}

	/* Now process the protected_bytes. */
	if (frame->needs_draining) return TSI_INTERNAL_ERROR;
	result = fill_frame_from_bytes(protected_frames_bytes,
	protected_frames_bytes_size, frame);
	if (result != TSI_OK) {
	if (result == TSI_INCOMPLETE_DATA) result = TSI_OK;
	return result;
	}

	/* Try to drain again. */
	if (!frame->needs_draining) return TSI_INTERNAL_ERROR;
	if (frame->offset != 0) return TSI_INTERNAL_ERROR;
	frame->offset = TSI_FAKE_FRAME_HEADER_SIZE; /* Go past the header. */
	drained_size = saved_output_size - *num_bytes_written;
	result = drain_frame_to_bytes(unprotected_bytes, &drained_size, frame);
	*num_bytes_written += drained_size;
	if (result == TSI_INCOMPLETE_DATA) result = TSI_OK;
	return result;
	}

	static void fake_protector_destroy(tsi_frame_protector *self) {
	tsi_fake_frame_protector impl = (tsi_fake_frame_protector )self;
	tsi_fake_frame_destruct(&impl->protect_frame);
	tsi_fake_frame_destruct(&impl->unprotect_frame);
	free(self);
	}

	static const tsi_frame_protector_vtable frame_protector_vtable = {
	fake_protector_protect, fake_protector_protect_flush,
	fake_protector_unprotect, fake_protector_destroy,
	};

	/* --- tsi_handshaker methods implementation. ---*/

	static tsi_result fake_handshaker_get_bytes_to_send_to_peer(
	tsi_handshaker self, unsigned char bytes, size_t *bytes_size) {
	tsi_fake_handshaker impl = (tsi_fake_handshaker )self;
	tsi_result result = TSI_OK;
	if (impl->needs_incoming_message \|\| impl->result == TSI_OK) {
	*bytes_size = 0;
	return TSI_OK;
	}
	if (!impl->outgoing.needs_draining) {
	tsi_fake_handshake_message next_message_to_send =
	impl->next_message_to_send + 2;
	const char *msg_string =
	tsi_fake_handshake_message_to_string(impl->next_message_to_send);
	result = bytes_to_frame((unsigned char *)msg_string, strlen(msg_string),
	&impl->outgoing);
	if (result != TSI_OK) return result;
	if (next_message_to_send > TSI_FAKE_HANDSHAKE_MESSAGE_MAX) {
	next_message_to_send = TSI_FAKE_HANDSHAKE_MESSAGE_MAX;
	}
	if (tsi_tracing_enabled) {
	gpr_log(GPR_INFO, "%s prepared %s.",
	impl->is_client ? "Client" : "Server",
	tsi_fake_handshake_message_to_string(impl->next_message_to_send));
	}
	impl->next_message_to_send = next_message_to_send;
	}
	result = drain_frame_to_bytes(bytes, bytes_size, &impl->outgoing);
	if (result != TSI_OK) return result;
	if (!impl->is_client &&
	impl->next_message_to_send == TSI_FAKE_HANDSHAKE_MESSAGE_MAX) {
	/* We're done. */
	if (tsi_tracing_enabled) {
	gpr_log(GPR_INFO, "Server is done.");
	}
	impl->result = TSI_OK;
	} else {
	impl->needs_incoming_message = 1;
	}
	return TSI_OK;
	}

	static tsi_result fake_handshaker_process_bytes_from_peer(
	tsi_handshaker self, const unsigned char bytes, size_t *bytes_size) {
	tsi_result result = TSI_OK;
	tsi_fake_handshaker impl = (tsi_fake_handshaker )self;
	tsi_fake_handshake_message expected_msg = impl->next_message_to_send - 1;
	tsi_fake_handshake_message received_msg;

	if (!impl->needs_incoming_message \|\| impl->result == TSI_OK) {
	*bytes_size = 0;
	return TSI_OK;
	}
	result = fill_frame_from_bytes(bytes, bytes_size, &impl->incoming);
	if (result != TSI_OK) return result;

	/* We now have a complete frame. */
	result = tsi_fake_handshake_message_from_string(
	(const char *)impl->incoming.data + TSI_FAKE_FRAME_HEADER_SIZE,
	&received_msg);
	if (result != TSI_OK) {
	impl->result = result;
	return result;
	}
	if (received_msg != expected_msg) {
	gpr_log(GPR_ERROR, "Invalid received message (%s instead of %s)",
	tsi_fake_handshake_message_to_string(received_msg),
	tsi_fake_handshake_message_to_string(expected_msg));
	}
	if (tsi_tracing_enabled) {
	gpr_log(GPR_INFO, "%s received %s.", impl->is_client ? "Client" : "Server",
	tsi_fake_handshake_message_to_string(received_msg));
	}
	tsi_fake_frame_reset(&impl->incoming, 0 /* needs_draining */);
	impl->needs_incoming_message = 0;
	if (impl->next_message_to_send == TSI_FAKE_HANDSHAKE_MESSAGE_MAX) {
	/* We're done. */
	if (tsi_tracing_enabled) {
	gpr_log(GPR_INFO, "%s is done.", impl->is_client ? "Client" : "Server");
	}
	impl->result = TSI_OK;
	}
	return TSI_OK;
	}

	static tsi_result fake_handshaker_get_result(tsi_handshaker *self) {
	tsi_fake_handshaker impl = (tsi_fake_handshaker )self;
	return impl->result;
	}

	static tsi_result fake_handshaker_extract_peer(tsi_handshaker *self,
	tsi_peer *peer) {
	tsi_result result = tsi_construct_peer(1, peer);
	if (result != TSI_OK) return result;
	result = tsi_construct_string_peer_property_from_cstring(
	TSI_CERTIFICATE_TYPE_PEER_PROPERTY, TSI_FAKE_CERTIFICATE_TYPE,
	&peer->properties[0]);
	if (result != TSI_OK) tsi_peer_destruct(peer);
	return result;
	}

	static tsi_result fake_handshaker_create_frame_protector(
	tsi_handshaker self, size_t max_protected_frame_size,
	tsi_frame_protector **protector) {
	*protector = tsi_create_fake_protector(max_protected_frame_size);
	if (*protector == NULL) return TSI_OUT_OF_RESOURCES;
	return TSI_OK;
	}

	static void fake_handshaker_destroy(tsi_handshaker *self) {
	tsi_fake_handshaker impl = (tsi_fake_handshaker )self;
	tsi_fake_frame_destruct(&impl->incoming);
	tsi_fake_frame_destruct(&impl->outgoing);
	free(self);
	}

	static const tsi_handshaker_vtable handshaker_vtable = {
	fake_handshaker_get_bytes_to_send_to_peer,
	fake_handshaker_process_bytes_from_peer, fake_handshaker_get_result,
	fake_handshaker_extract_peer, fake_handshaker_create_frame_protector,
	fake_handshaker_destroy,
	};

	tsi_handshaker *tsi_create_fake_handshaker(int is_client) {
	tsi_fake_handshaker *impl = calloc(1, sizeof(tsi_fake_handshaker));
	impl->base.vtable = &handshaker_vtable;
	impl->is_client = is_client;
	impl->result = TSI_HANDSHAKE_IN_PROGRESS;
	if (is_client) {
	impl->needs_incoming_message = 0;
	impl->next_message_to_send = TSI_FAKE_CLIENT_INIT;
	} else {
	impl->needs_incoming_message = 1;
	impl->next_message_to_send = TSI_FAKE_SERVER_INIT;
	}
	return &impl->base;
	}

	tsi_frame_protector *tsi_create_fake_protector(
	size_t *max_protected_frame_size) {
	tsi_fake_frame_protector *impl = calloc(1, sizeof(tsi_fake_frame_protector));
	if (impl == NULL) return NULL;
	impl->max_frame_size = (max_protected_frame_size == NULL)
	? TSI_FAKE_DEFAULT_FRAME_SIZE
	: *max_protected_frame_size;
	impl->base.vtable = &frame_protector_vtable;
	return &impl->base;
	}