client_tipc.c - trusty/app/storage - Git at Google

 /*
  * Copyright (C) 2013-2016 The Android Open Source Project
  *
  * 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.
  */

 #include "client_tipc.h"

 #include <assert.h>
 #include <errno.h>
 #include <inttypes.h>
 #include <stddef.h>
 #include <stdint.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>

 #include <interface/storage/storage.h>
 #include <lib/tipc/tipc.h>
 #include <openssl/mem.h>
 #include <uapi/err.h>

 #include "block_device_tipc.h"
 #include "client.h"
 #include "client_session.h"
 #include "client_session_tipc.h"
 #include "ipc.h"
 #include "session.h"
 #include "storage_limits.h"

 /* macros to help manage debug output */
 #define SS_ERR(args...) fprintf(stderr, "ss: " args)
 #define SS_DBG_IO(args...) \
     do {                   \
     } while (0)

 #if 0
 /* this can generate alot of spew on debug builds */
 #define SS_INFO(args...) fprintf(stderr, "ss: " args)
 #else
 #define SS_INFO(args...) \
     do {                 \
     } while (0)
 #endif

 static int client_handle_msg(struct ipc_channel_context* ctx,
                              void* msg,
                              size_t msg_size);
 static void client_disconnect(struct ipc_channel_context* context);
 static int send_response(struct storage_tipc_client_session* tipc_session,
                          enum storage_err result,
                          struct storage_msg* msg,
                          void* out,
                          size_t out_size);
 static int send_result(struct storage_tipc_client_session* tipc_session,
                        struct storage_msg* msg,
                        enum storage_err result);

 static struct storage_op_flags extract_storage_op_flags(uint32_t msg_flags) {
     return (struct storage_op_flags){
             .allow_repaired = msg_flags & STORAGE_MSG_FLAG_FS_REPAIRED_ACK,
             .complete_transaction =
                     msg_flags & STORAGE_MSG_FLAG_TRANSACT_COMPLETE,
             .update_checkpoint =
                     msg_flags & STORAGE_MSG_FLAG_TRANSACT_CHECKPOINT,
     };
 }

 static enum storage_err storage_tipc_file_delete(
         struct storage_client_session* session,
         struct storage_msg* msg,
         struct storage_file_delete_req* req,
         size_t req_size) {
     if (req_size < sizeof(*req)) {
         SS_ERR("%s: invalid request size (%zu)\n", __func__, req_size);
         return STORAGE_ERR_NOT_VALID;
     }

     if ((req->flags & ~STORAGE_FILE_DELETE_MASK) != 0) {
         SS_ERR("%s: unexpected flags (0x%" PRIx32 ")\n", __func__, req->flags);
         return STORAGE_ERR_NOT_VALID;
     }

     return storage_file_delete(session, req->name, req_size - sizeof(*req),
                                extract_storage_op_flags(msg->flags));
 }

 static enum storage_err storage_tipc_file_move(
         struct storage_client_session* session,
         struct storage_msg* msg,
         struct storage_file_move_req* req,
         size_t req_size) {
     if (req_size < sizeof(*req)) {
         SS_ERR("%s: invalid request size (%zu)\n", __func__, req_size);
         return STORAGE_ERR_NOT_VALID;
     }

     if ((req->flags & ~STORAGE_FILE_MOVE_MASK) != 0) {
         SS_ERR("invalid move flags 0x%" PRIx32 "\n", req->flags);
         return STORAGE_ERR_NOT_VALID;
     }

     size_t names_combined_len = req_size - sizeof(*req);
     size_t src_len = req->old_name_len;
     if (src_len >= names_combined_len) {
         SS_ERR("%s: invalid src filename length %zu >= %zu\n", __func__,
                src_len, names_combined_len);
         return STORAGE_ERR_NOT_VALID;
     }

     enum file_create_mode file_create_mode;
     if (req->flags & STORAGE_FILE_MOVE_CREATE) {
         file_create_mode = req->flags & STORAGE_FILE_MOVE_CREATE_EXCLUSIVE
                                    ? FILE_OPEN_CREATE_EXCLUSIVE
                                    : FILE_OPEN_CREATE;
     } else {
         file_create_mode = FILE_OPEN_NO_CREATE;
     }

     return storage_file_move(
             session, req->handle, req->flags & STORAGE_FILE_MOVE_OPEN_FILE,
             req->old_new_name, src_len, req->old_new_name + src_len,
             names_combined_len - src_len, file_create_mode,
             extract_storage_op_flags(msg->flags));
 }

 static enum storage_err storage_tipc_file_open(
         struct storage_tipc_client_session* tipc_session,
         struct storage_msg* msg,
         struct storage_file_open_req* req,
         size_t req_size) {
     if (req_size < sizeof(*req)) {
         SS_ERR("%s: invalid request size (%zu)\n", __func__, req_size);
         return send_result(tipc_session, msg, STORAGE_ERR_NOT_VALID);
     }

     if ((req->flags & ~STORAGE_FILE_OPEN_MASK) != 0) {
         SS_ERR("%s: invalid flags 0x%" PRIx32 "\n", __func__, req->flags);
         return send_result(tipc_session, msg, STORAGE_ERR_NOT_VALID);
     }

     enum file_create_mode file_create_mode;
     if (req->flags & STORAGE_FILE_OPEN_CREATE) {
         file_create_mode = req->flags & STORAGE_FILE_OPEN_CREATE_EXCLUSIVE
                                    ? FILE_OPEN_CREATE_EXCLUSIVE
                                    : FILE_OPEN_CREATE;
     } else {
         file_create_mode = FILE_OPEN_NO_CREATE;
     }

     struct storage_file_open_resp resp;
     enum storage_err result = storage_file_open(
             &tipc_session->session, req->name, req_size - sizeof(*req),
             file_create_mode, req->flags & STORAGE_FILE_OPEN_TRUNCATE,
             extract_storage_op_flags(msg->flags), &resp.handle);
     if (result != STORAGE_NO_ERROR) {
         return send_result(tipc_session, msg, result);
     }
     return send_response(tipc_session, result, msg, &resp, sizeof(resp));
 }

 static enum storage_err storage_tipc_file_close(
         struct storage_client_session* session,
         struct storage_msg* msg,
         struct storage_file_close_req* req,
         size_t req_size) {
     if (req_size != sizeof(*req)) {
         SS_ERR("%s: invalid request size (%zu)\n", __func__, req_size);
         return STORAGE_ERR_NOT_VALID;
     }
     return storage_file_close(session, req->handle,
                               extract_storage_op_flags(msg->flags));
 }

 static enum storage_err storage_tipc_file_write(
         struct storage_client_session* session,
         struct storage_msg* msg,
         struct storage_file_write_req* req,
         size_t req_size) {
     if (req_size <= sizeof(*req)) {
         SS_ERR("%s: invalid request size (%zu)\n", __func__, req_size);
         return STORAGE_ERR_NOT_VALID;
     }
     return storage_file_write(session, req->handle, req->offset, req->data,
                               req_size - sizeof(*req),
                               extract_storage_op_flags(msg->flags));
 }

 static enum storage_err storage_tipc_file_read(
         struct storage_tipc_client_session* tipc_session,
         struct storage_msg* msg,
         struct storage_file_read_req* req,
         size_t req_size) {
     if (req_size != sizeof(*req)) {
         SS_ERR("%s: invalid request size (%zu)\n", __func__, req_size);
         return send_result(tipc_session, msg, STORAGE_ERR_NOT_VALID);
     }

     /*
      * After getting the args out of req, we still need `*msg`, but won't need
      * the rest of the buffer anymore. We can reuse that space to hold the
      * response.
      */
     uint8_t* resp = (uint8_t*)(msg + 1);
     size_t resp_len = STORAGE_MAX_BUFFER_SIZE - sizeof(*msg);

     enum storage_err result = storage_file_read(
             &tipc_session->session, req->handle, req->size, req->offset,
             extract_storage_op_flags(msg->flags), resp, &resp_len);
     if (result != STORAGE_NO_ERROR) {
         return send_result(tipc_session, msg, result);
     }
     return send_response(tipc_session, result, msg, resp, resp_len);
 }

 struct storage_tipc_file_iter_data {
     char resp_buf[1024];
     size_t buf_used;
 };

 static bool buf_has_space(void* self, size_t max_path_len) {
     struct storage_tipc_file_iter_data* this = self;
     /* One extra byte for flags plus one for the path's nul terminator */
     size_t max_resp_size = max_path_len + 2;
     return this->buf_used + max_resp_size <= sizeof(this->resp_buf);
 }

 static void write_to_buf(void* self,
                          enum storage_file_list_flag flags,
                          const char* path,
                          size_t path_len) {
     struct storage_tipc_file_iter_data* this = self;
     struct storage_file_list_resp* resp =
             (void*)(this->resp_buf + this->buf_used);

     resp->flags = flags;
     this->buf_used++;

     if (path) {
         strncpy(resp->name, path, path_len);
         resp->name[path_len] = '\0';
         this->buf_used += path_len + 1;
     }
 }

 static enum storage_err storage_tipc_file_list(
         struct storage_tipc_client_session* tipc_session,
         struct storage_msg* msg,
         struct storage_file_list_req* req,
         size_t req_size) {
     if (req_size < sizeof(*req)) {
         SS_ERR("%s: invalid request size (%zu)\n", __func__, req_size);
         return send_result(tipc_session, msg, STORAGE_ERR_NOT_VALID);
     }

     struct storage_tipc_file_iter_data callback_data = {
             .buf_used = 0,
     };

     enum storage_err result = storage_file_list(
             &tipc_session->session, req->max_count,
             req->flags & STORAGE_FILE_LIST_STATE_MASK, req->name,
             req_size - sizeof(*req), extract_storage_op_flags(msg->flags),
             buf_has_space, write_to_buf, &callback_data);
     if (result != STORAGE_NO_ERROR) {
         return send_result(tipc_session, msg, result);
     }
     return send_response(tipc_session, result, msg, callback_data.resp_buf,
                          callback_data.buf_used);
 }

 static enum storage_err storage_tipc_file_get_size(
         struct storage_tipc_client_session* tipc_session,
         struct storage_msg* msg,
         struct storage_file_get_size_req* req,
         size_t req_size) {
     if (req_size != sizeof(*req)) {
         SS_ERR("%s: invalid request size (%zu)\n", __func__, req_size);
         return send_result(tipc_session, msg, STORAGE_ERR_NOT_VALID);
     }

     struct storage_file_get_size_resp resp;
     enum storage_err result = storage_file_get_size(
             &tipc_session->session, req->handle,
             extract_storage_op_flags(msg->flags), &resp.size);
     if (result != STORAGE_NO_ERROR) {
         return send_result(tipc_session, msg, result);
     }
     return send_response(tipc_session, result, msg, &resp, sizeof(resp));
 }

 static enum storage_err storage_tipc_file_set_size(
         struct storage_client_session* session,
         struct storage_msg* msg,
         struct storage_file_set_size_req* req,
         size_t req_size) {
     if (req_size != sizeof(*req)) {
         SS_ERR("%s: invalid request size (%zu)\n", __func__, req_size);
         return STORAGE_ERR_NOT_VALID;
     }
     return storage_file_set_size(session, req->handle, req->size,
                                  extract_storage_op_flags(msg->flags));
 }

 static struct storage_tipc_client_session* chan_context_to_client_session(
         struct ipc_channel_context* ctx) {
     assert(ctx != NULL);
     struct storage_tipc_client_session* tipc_session;

     tipc_session =
             containerof(ctx, struct storage_tipc_client_session, chan_ctx);
     assert(tipc_session->session.magic == STORAGE_CLIENT_SESSION_MAGIC);
     return tipc_session;
 }

 static struct client_port_context* port_context_to_client_port_context(
         struct ipc_port_context* context) {
     assert(context != NULL);

     return containerof(context, struct client_port_context, client_ctx);
 }

 static void client_channel_ops_init(struct ipc_channel_ops* ops) {
     ops->on_handle_msg = client_handle_msg;
     ops->on_disconnect = client_disconnect;
 }

 static struct ipc_channel_context* client_connect(
         struct ipc_port_context* parent_ctx,
         const uuid_t* peer_uuid,
         handle_t chan_handle) {
     struct client_port_context* client_port_context;
     struct storage_tipc_client_session* client_tipc_session;

     client_port_context = port_context_to_client_port_context(parent_ctx);

     client_tipc_session = calloc(1, sizeof(*client_tipc_session));
     if (client_tipc_session == NULL) {
         SS_ERR("out of memory allocating client session\n");
         return NULL;
     }

     struct storage_client_session* client_session =
             &client_tipc_session->session;
     storage_client_session_init(client_session, client_port_context->tr_state,
                                 peer_uuid);

     client_channel_ops_init(&client_tipc_session->chan_ctx.ops);
     return &client_tipc_session->chan_ctx;
 }

 static void client_disconnect(struct ipc_channel_context* context) {
     struct storage_tipc_client_session* tipc_session =
             chan_context_to_client_session(context);

     storage_client_session_destroy(&tipc_session->session);
     OPENSSL_cleanse(tipc_session, sizeof(struct storage_tipc_client_session));
     free(tipc_session);
 }

 static int send_response(struct storage_tipc_client_session* tipc_session,
                          enum storage_err result,
                          struct storage_msg* msg,
                          void* out,
                          size_t out_size) {
     size_t resp_buf_count = 1;
     if (result == STORAGE_NO_ERROR && out != NULL && out_size != 0) {
         ++resp_buf_count;
     }

     struct iovec resp_bufs[2];

     msg->cmd |= STORAGE_RESP_BIT;
     msg->flags = 0;
     msg->size = sizeof(struct storage_msg) + out_size;
     msg->result = result;

     resp_bufs[0].iov_base = msg;
     resp_bufs[0].iov_len = sizeof(struct storage_msg);

     if (resp_buf_count == 2) {
         resp_bufs[1].iov_base = out;
         resp_bufs[1].iov_len = out_size;
     }

     struct ipc_msg resp_ipc_msg = {
             .iov = resp_bufs,
             .num_iov = resp_buf_count,
     };

     return send_msg(tipc_session->chan_ctx.common.handle, &resp_ipc_msg);
 }

 static int send_result(struct storage_tipc_client_session* tipc_session,
                        struct storage_msg* msg,
                        enum storage_err result) {
     return send_response(tipc_session, result, msg, NULL, 0);
 }

 static int client_handle_msg(struct ipc_channel_context* ctx,
                              void* msg_buf,
                              size_t msg_size) {
     struct storage_tipc_client_session* tipc_session;
     struct storage_client_session* session;
     struct storage_msg* msg = msg_buf;
     size_t payload_len;
     enum storage_err result;
     void* payload;

     tipc_session = chan_context_to_client_session(ctx);
     session = &tipc_session->session;

     if (msg_size < sizeof(struct storage_msg)) {
         SS_ERR("%s: invalid message of size (%zu)\n", __func__, msg_size);
         struct storage_msg err_msg = {.cmd = STORAGE_RESP_MSG_ERR};
         send_result(tipc_session, &err_msg, STORAGE_ERR_NOT_VALID);
         return ERR_NOT_VALID; /* would force to close connection */
     }

     payload_len = msg_size - sizeof(struct storage_msg);
     payload = msg->payload;

     switch (msg->cmd) {
     case STORAGE_FILE_DELETE:
         result = storage_tipc_file_delete(session, msg, payload, payload_len);
         break;
     case STORAGE_FILE_MOVE:
         result = storage_tipc_file_move(session, msg, payload, payload_len);
         break;
     case STORAGE_FILE_OPEN:
         return storage_tipc_file_open(tipc_session, msg, payload, payload_len);
     case STORAGE_FILE_CLOSE:
         result = storage_tipc_file_close(session, msg, payload, payload_len);
         break;
     case STORAGE_FILE_WRITE:
         result = storage_tipc_file_write(session, msg, payload, payload_len);
         break;
     case STORAGE_FILE_READ:
         return storage_tipc_file_read(tipc_session, msg, payload, payload_len);
     case STORAGE_FILE_LIST:
         return storage_tipc_file_list(tipc_session, msg, payload, payload_len);
     case STORAGE_FILE_GET_SIZE:
         return storage_tipc_file_get_size(tipc_session, msg, payload,
                                           payload_len);
     case STORAGE_FILE_SET_SIZE:
         result = storage_tipc_file_set_size(session, msg, payload, payload_len);
         break;
     case STORAGE_END_TRANSACTION:
         result = storage_transaction_end(session,
                                          extract_storage_op_flags(msg->flags));
         break;
     default:
         SS_ERR("%s: unsupported command 0x%" PRIx32 "\n", __func__, msg->cmd);
         result = STORAGE_ERR_UNIMPLEMENTED;
         break;
     }

     return send_result(tipc_session, msg, result);
 }

 int client_create_port(struct tipc_hset* hset,
                        struct ipc_port_context* client_ctx,
                        const char* port_name) {
     int ret;
     uint32_t flags = IPC_PORT_ALLOW_TA_CONNECT;
 #if TEST_BUILD
     flags |= IPC_PORT_ALLOW_NS_CONNECT;
 #endif

     /* start accepting client connections */
     client_ctx->ops.on_connect = client_connect;
     ret = ipc_port_create(hset, client_ctx, port_name, 1,
                           STORAGE_MAX_BUFFER_SIZE, flags);
     if (ret < 0) {
         SS_ERR("%s: failure initializing client port (%d)\n", __func__, ret);
         return ret;
     }
     return 0;
 }
	/*
	* Copyright (C) 2013-2016 The Android Open Source Project
	*
	* 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.
	*/

	#include "client_tipc.h"

	#include <assert.h>
	#include <errno.h>
	#include <inttypes.h>
	#include <stddef.h>
	#include <stdint.h>
	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>

	#include <interface/storage/storage.h>
	#include <lib/tipc/tipc.h>
	#include <openssl/mem.h>
	#include <uapi/err.h>

	#include "block_device_tipc.h"
	#include "client.h"
	#include "client_session.h"
	#include "client_session_tipc.h"
	#include "ipc.h"
	#include "session.h"
	#include "storage_limits.h"

	/* macros to help manage debug output */
	#define SS_ERR(args...) fprintf(stderr, "ss: " args)
	#define SS_DBG_IO(args...) \
	do { \
	} while (0)

	#if 0
	/* this can generate alot of spew on debug builds */
	#define SS_INFO(args...) fprintf(stderr, "ss: " args)
	#else
	#define SS_INFO(args...) \
	do { \
	} while (0)
	#endif

	static int client_handle_msg(struct ipc_channel_context* ctx,
	void* msg,
	size_t msg_size);
	static void client_disconnect(struct ipc_channel_context* context);
	static int send_response(struct storage_tipc_client_session* tipc_session,
	enum storage_err result,
	struct storage_msg* msg,
	void* out,
	size_t out_size);
	static int send_result(struct storage_tipc_client_session* tipc_session,
	struct storage_msg* msg,
	enum storage_err result);

	static struct storage_op_flags extract_storage_op_flags(uint32_t msg_flags) {
	return (struct storage_op_flags){
	.allow_repaired = msg_flags & STORAGE_MSG_FLAG_FS_REPAIRED_ACK,
	.complete_transaction =
	msg_flags & STORAGE_MSG_FLAG_TRANSACT_COMPLETE,
	.update_checkpoint =
	msg_flags & STORAGE_MSG_FLAG_TRANSACT_CHECKPOINT,
	};
	}

	static enum storage_err storage_tipc_file_delete(
	struct storage_client_session* session,
	struct storage_msg* msg,
	struct storage_file_delete_req* req,
	size_t req_size) {
	if (req_size < sizeof(*req)) {
	SS_ERR("%s: invalid request size (%zu)\n", __func__, req_size);
	return STORAGE_ERR_NOT_VALID;
	}

	if ((req->flags & ~STORAGE_FILE_DELETE_MASK) != 0) {
	SS_ERR("%s: unexpected flags (0x%" PRIx32 ")\n", __func__, req->flags);
	return STORAGE_ERR_NOT_VALID;
	}

	return storage_file_delete(session, req->name, req_size - sizeof(*req),
	extract_storage_op_flags(msg->flags));
	}

	static enum storage_err storage_tipc_file_move(
	struct storage_client_session* session,
	struct storage_msg* msg,
	struct storage_file_move_req* req,
	size_t req_size) {
	if (req_size < sizeof(*req)) {
	SS_ERR("%s: invalid request size (%zu)\n", __func__, req_size);
	return STORAGE_ERR_NOT_VALID;
	}

	if ((req->flags & ~STORAGE_FILE_MOVE_MASK) != 0) {
	SS_ERR("invalid move flags 0x%" PRIx32 "\n", req->flags);
	return STORAGE_ERR_NOT_VALID;
	}

	size_t names_combined_len = req_size - sizeof(*req);
	size_t src_len = req->old_name_len;
	if (src_len >= names_combined_len) {
	SS_ERR("%s: invalid src filename length %zu >= %zu\n", __func__,
	src_len, names_combined_len);
	return STORAGE_ERR_NOT_VALID;
	}

	enum file_create_mode file_create_mode;
	if (req->flags & STORAGE_FILE_MOVE_CREATE) {
	file_create_mode = req->flags & STORAGE_FILE_MOVE_CREATE_EXCLUSIVE
	? FILE_OPEN_CREATE_EXCLUSIVE
	: FILE_OPEN_CREATE;
	} else {
	file_create_mode = FILE_OPEN_NO_CREATE;
	}

	return storage_file_move(
	session, req->handle, req->flags & STORAGE_FILE_MOVE_OPEN_FILE,
	req->old_new_name, src_len, req->old_new_name + src_len,
	names_combined_len - src_len, file_create_mode,
	extract_storage_op_flags(msg->flags));
	}

	static enum storage_err storage_tipc_file_open(
	struct storage_tipc_client_session* tipc_session,
	struct storage_msg* msg,
	struct storage_file_open_req* req,
	size_t req_size) {
	if (req_size < sizeof(*req)) {
	SS_ERR("%s: invalid request size (%zu)\n", __func__, req_size);
	return send_result(tipc_session, msg, STORAGE_ERR_NOT_VALID);
	}

	if ((req->flags & ~STORAGE_FILE_OPEN_MASK) != 0) {
	SS_ERR("%s: invalid flags 0x%" PRIx32 "\n", __func__, req->flags);
	return send_result(tipc_session, msg, STORAGE_ERR_NOT_VALID);
	}

	enum file_create_mode file_create_mode;
	if (req->flags & STORAGE_FILE_OPEN_CREATE) {
	file_create_mode = req->flags & STORAGE_FILE_OPEN_CREATE_EXCLUSIVE
	? FILE_OPEN_CREATE_EXCLUSIVE
	: FILE_OPEN_CREATE;
	} else {
	file_create_mode = FILE_OPEN_NO_CREATE;
	}

	struct storage_file_open_resp resp;
	enum storage_err result = storage_file_open(
	&tipc_session->session, req->name, req_size - sizeof(*req),
	file_create_mode, req->flags & STORAGE_FILE_OPEN_TRUNCATE,
	extract_storage_op_flags(msg->flags), &resp.handle);
	if (result != STORAGE_NO_ERROR) {
	return send_result(tipc_session, msg, result);
	}
	return send_response(tipc_session, result, msg, &resp, sizeof(resp));
	}

	static enum storage_err storage_tipc_file_close(
	struct storage_client_session* session,
	struct storage_msg* msg,
	struct storage_file_close_req* req,
	size_t req_size) {
	if (req_size != sizeof(*req)) {
	SS_ERR("%s: invalid request size (%zu)\n", __func__, req_size);
	return STORAGE_ERR_NOT_VALID;
	}
	return storage_file_close(session, req->handle,
	extract_storage_op_flags(msg->flags));
	}

	static enum storage_err storage_tipc_file_write(
	struct storage_client_session* session,
	struct storage_msg* msg,
	struct storage_file_write_req* req,
	size_t req_size) {
	if (req_size <= sizeof(*req)) {
	SS_ERR("%s: invalid request size (%zu)\n", __func__, req_size);
	return STORAGE_ERR_NOT_VALID;
	}
	return storage_file_write(session, req->handle, req->offset, req->data,
	req_size - sizeof(*req),
	extract_storage_op_flags(msg->flags));
	}

	static enum storage_err storage_tipc_file_read(
	struct storage_tipc_client_session* tipc_session,
	struct storage_msg* msg,
	struct storage_file_read_req* req,
	size_t req_size) {
	if (req_size != sizeof(*req)) {
	SS_ERR("%s: invalid request size (%zu)\n", __func__, req_size);
	return send_result(tipc_session, msg, STORAGE_ERR_NOT_VALID);
	}

	/*
	* After getting the args out of req, we still need `*msg`, but won't need
	* the rest of the buffer anymore. We can reuse that space to hold the
	* response.
	*/
	uint8_t* resp = (uint8_t*)(msg + 1);
	size_t resp_len = STORAGE_MAX_BUFFER_SIZE - sizeof(*msg);

	enum storage_err result = storage_file_read(
	&tipc_session->session, req->handle, req->size, req->offset,
	extract_storage_op_flags(msg->flags), resp, &resp_len);
	if (result != STORAGE_NO_ERROR) {
	return send_result(tipc_session, msg, result);
	}
	return send_response(tipc_session, result, msg, resp, resp_len);
	}

	struct storage_tipc_file_iter_data {
	char resp_buf[1024];
	size_t buf_used;
	};

	static bool buf_has_space(void* self, size_t max_path_len) {
	struct storage_tipc_file_iter_data* this = self;
	/* One extra byte for flags plus one for the path's nul terminator */
	size_t max_resp_size = max_path_len + 2;
	return this->buf_used + max_resp_size <= sizeof(this->resp_buf);
	}

	static void write_to_buf(void* self,
	enum storage_file_list_flag flags,
	const char* path,
	size_t path_len) {
	struct storage_tipc_file_iter_data* this = self;
	struct storage_file_list_resp* resp =
	(void*)(this->resp_buf + this->buf_used);

	resp->flags = flags;
	this->buf_used++;

	if (path) {
	strncpy(resp->name, path, path_len);
	resp->name[path_len] = '\0';
	this->buf_used += path_len + 1;
	}
	}

	static enum storage_err storage_tipc_file_list(
	struct storage_tipc_client_session* tipc_session,
	struct storage_msg* msg,
	struct storage_file_list_req* req,
	size_t req_size) {
	if (req_size < sizeof(*req)) {
	SS_ERR("%s: invalid request size (%zu)\n", __func__, req_size);
	return send_result(tipc_session, msg, STORAGE_ERR_NOT_VALID);
	}

	struct storage_tipc_file_iter_data callback_data = {
	.buf_used = 0,
	};

	enum storage_err result = storage_file_list(
	&tipc_session->session, req->max_count,
	req->flags & STORAGE_FILE_LIST_STATE_MASK, req->name,
	req_size - sizeof(*req), extract_storage_op_flags(msg->flags),
	buf_has_space, write_to_buf, &callback_data);
	if (result != STORAGE_NO_ERROR) {
	return send_result(tipc_session, msg, result);
	}
	return send_response(tipc_session, result, msg, callback_data.resp_buf,
	callback_data.buf_used);
	}

	static enum storage_err storage_tipc_file_get_size(
	struct storage_tipc_client_session* tipc_session,
	struct storage_msg* msg,
	struct storage_file_get_size_req* req,
	size_t req_size) {
	if (req_size != sizeof(*req)) {
	SS_ERR("%s: invalid request size (%zu)\n", __func__, req_size);
	return send_result(tipc_session, msg, STORAGE_ERR_NOT_VALID);
	}

	struct storage_file_get_size_resp resp;
	enum storage_err result = storage_file_get_size(
	&tipc_session->session, req->handle,
	extract_storage_op_flags(msg->flags), &resp.size);
	if (result != STORAGE_NO_ERROR) {
	return send_result(tipc_session, msg, result);
	}
	return send_response(tipc_session, result, msg, &resp, sizeof(resp));
	}

	static enum storage_err storage_tipc_file_set_size(
	struct storage_client_session* session,
	struct storage_msg* msg,
	struct storage_file_set_size_req* req,
	size_t req_size) {
	if (req_size != sizeof(*req)) {
	SS_ERR("%s: invalid request size (%zu)\n", __func__, req_size);
	return STORAGE_ERR_NOT_VALID;
	}
	return storage_file_set_size(session, req->handle, req->size,
	extract_storage_op_flags(msg->flags));
	}

	static struct storage_tipc_client_session* chan_context_to_client_session(
	struct ipc_channel_context* ctx) {
	assert(ctx != NULL);
	struct storage_tipc_client_session* tipc_session;

	tipc_session =
	containerof(ctx, struct storage_tipc_client_session, chan_ctx);
	assert(tipc_session->session.magic == STORAGE_CLIENT_SESSION_MAGIC);
	return tipc_session;
	}

	static struct client_port_context* port_context_to_client_port_context(
	struct ipc_port_context* context) {
	assert(context != NULL);

	return containerof(context, struct client_port_context, client_ctx);
	}

	static void client_channel_ops_init(struct ipc_channel_ops* ops) {
	ops->on_handle_msg = client_handle_msg;
	ops->on_disconnect = client_disconnect;
	}

	static struct ipc_channel_context* client_connect(
	struct ipc_port_context* parent_ctx,
	const uuid_t* peer_uuid,
	handle_t chan_handle) {
	struct client_port_context* client_port_context;
	struct storage_tipc_client_session* client_tipc_session;

	client_port_context = port_context_to_client_port_context(parent_ctx);

	client_tipc_session = calloc(1, sizeof(*client_tipc_session));
	if (client_tipc_session == NULL) {
	SS_ERR("out of memory allocating client session\n");
	return NULL;
	}

	struct storage_client_session* client_session =
	&client_tipc_session->session;
	storage_client_session_init(client_session, client_port_context->tr_state,
	peer_uuid);

	client_channel_ops_init(&client_tipc_session->chan_ctx.ops);
	return &client_tipc_session->chan_ctx;
	}

	static void client_disconnect(struct ipc_channel_context* context) {
	struct storage_tipc_client_session* tipc_session =
	chan_context_to_client_session(context);

	storage_client_session_destroy(&tipc_session->session);
	OPENSSL_cleanse(tipc_session, sizeof(struct storage_tipc_client_session));
	free(tipc_session);
	}

	static int send_response(struct storage_tipc_client_session* tipc_session,
	enum storage_err result,
	struct storage_msg* msg,
	void* out,
	size_t out_size) {
	size_t resp_buf_count = 1;
	if (result == STORAGE_NO_ERROR && out != NULL && out_size != 0) {
	++resp_buf_count;
	}

	struct iovec resp_bufs[2];

	msg->cmd \|= STORAGE_RESP_BIT;
	msg->flags = 0;
	msg->size = sizeof(struct storage_msg) + out_size;
	msg->result = result;

	resp_bufs[0].iov_base = msg;
	resp_bufs[0].iov_len = sizeof(struct storage_msg);

	if (resp_buf_count == 2) {
	resp_bufs[1].iov_base = out;
	resp_bufs[1].iov_len = out_size;
	}

	struct ipc_msg resp_ipc_msg = {
	.iov = resp_bufs,
	.num_iov = resp_buf_count,
	};

	return send_msg(tipc_session->chan_ctx.common.handle, &resp_ipc_msg);
	}

	static int send_result(struct storage_tipc_client_session* tipc_session,
	struct storage_msg* msg,
	enum storage_err result) {
	return send_response(tipc_session, result, msg, NULL, 0);
	}

	static int client_handle_msg(struct ipc_channel_context* ctx,
	void* msg_buf,
	size_t msg_size) {
	struct storage_tipc_client_session* tipc_session;
	struct storage_client_session* session;
	struct storage_msg* msg = msg_buf;
	size_t payload_len;
	enum storage_err result;
	void* payload;

	tipc_session = chan_context_to_client_session(ctx);
	session = &tipc_session->session;

	if (msg_size < sizeof(struct storage_msg)) {
	SS_ERR("%s: invalid message of size (%zu)\n", __func__, msg_size);
	struct storage_msg err_msg = {.cmd = STORAGE_RESP_MSG_ERR};
	send_result(tipc_session, &err_msg, STORAGE_ERR_NOT_VALID);
	return ERR_NOT_VALID; /* would force to close connection */
	}

	payload_len = msg_size - sizeof(struct storage_msg);
	payload = msg->payload;

	switch (msg->cmd) {
	case STORAGE_FILE_DELETE:
	result = storage_tipc_file_delete(session, msg, payload, payload_len);
	break;
	case STORAGE_FILE_MOVE:
	result = storage_tipc_file_move(session, msg, payload, payload_len);
	break;
	case STORAGE_FILE_OPEN:
	return storage_tipc_file_open(tipc_session, msg, payload, payload_len);
	case STORAGE_FILE_CLOSE:
	result = storage_tipc_file_close(session, msg, payload, payload_len);
	break;
	case STORAGE_FILE_WRITE:
	result = storage_tipc_file_write(session, msg, payload, payload_len);
	break;
	case STORAGE_FILE_READ:
	return storage_tipc_file_read(tipc_session, msg, payload, payload_len);
	case STORAGE_FILE_LIST:
	return storage_tipc_file_list(tipc_session, msg, payload, payload_len);
	case STORAGE_FILE_GET_SIZE:
	return storage_tipc_file_get_size(tipc_session, msg, payload,
	payload_len);
	case STORAGE_FILE_SET_SIZE:
	result = storage_tipc_file_set_size(session, msg, payload, payload_len);
	break;
	case STORAGE_END_TRANSACTION:
	result = storage_transaction_end(session,
	extract_storage_op_flags(msg->flags));
	break;
	default:
	SS_ERR("%s: unsupported command 0x%" PRIx32 "\n", __func__, msg->cmd);
	result = STORAGE_ERR_UNIMPLEMENTED;
	break;
	}

	return send_result(tipc_session, msg, result);
	}

	int client_create_port(struct tipc_hset* hset,
	struct ipc_port_context* client_ctx,
	const char* port_name) {
	int ret;
	uint32_t flags = IPC_PORT_ALLOW_TA_CONNECT;
	#if TEST_BUILD
	flags \|= IPC_PORT_ALLOW_NS_CONNECT;
	#endif

	/* start accepting client connections */
	client_ctx->ops.on_connect = client_connect;
	ret = ipc_port_create(hset, client_ctx, port_name, 1,
	STORAGE_MAX_BUFFER_SIZE, flags);
	if (ret < 0) {
	SS_ERR("%s: failure initializing client port (%d)\n", __func__, ret);
	return ret;
	}
	return 0;
	}