コード例 #1
0
ファイル: mongoc-write-command.c プロジェクト: cran/mongolite
static void
_mongoc_write_opmsg (mongoc_write_command_t *command,
                     mongoc_client_t *client,
                     mongoc_server_stream_t *server_stream,
                     const char *database,
                     const char *collection,
                     const mongoc_write_concern_t *write_concern,
                     uint32_t index_offset,
                     mongoc_client_session_t *cs,
                     mongoc_write_result_t *result,
                     bson_error_t *error)
{
   mongoc_cmd_parts_t parts;
   bson_iter_t iter;
   bson_t cmd;
   bson_t reply;
   bool ret = false;
   int32_t max_msg_size;
   int32_t max_bson_obj_size;
   int32_t max_document_count;
   uint32_t header;
   uint32_t payload_batch_size = 0;
   uint32_t payload_total_offset = 0;
   bool ship_it = false;
   int document_count = 0;
   int32_t len;
   mongoc_server_stream_t *retry_server_stream = NULL;

   ENTRY;

   BSON_ASSERT (command);
   BSON_ASSERT (client);
   BSON_ASSERT (database);
   BSON_ASSERT (server_stream);
   BSON_ASSERT (collection);

/* MongoDB has a extra allowance to allow updating 16mb document,
 * as the update operators would otherwise overflow the 16mb object limit
 */
#define BSON_OBJECT_ALLOWANCE (16 * 1024)
   max_bson_obj_size = mongoc_server_stream_max_bson_obj_size (server_stream);
   max_msg_size = mongoc_server_stream_max_msg_size (server_stream);
   max_document_count =
      mongoc_server_stream_max_write_batch_size (server_stream);

   bson_init (&cmd);
   _mongoc_write_command_init (&cmd, command, collection);
   mongoc_cmd_parts_init (&parts, client, database, MONGOC_QUERY_NONE, &cmd);
   parts.assembled.operation_id = command->operation_id;
   parts.is_write_command = true;
   if (!mongoc_cmd_parts_set_write_concern (
          &parts, write_concern, server_stream->sd->max_wire_version, error)) {
      bson_destroy (&cmd);
      mongoc_cmd_parts_cleanup (&parts);
      EXIT;
   }

   if (parts.assembled.is_acknowledged) {
      mongoc_cmd_parts_set_session (&parts, cs);
   }

   /* Write commands that include multi-document operations are not retryable.
    * Set this explicitly so that mongoc_cmd_parts_assemble does not need to
    * inspect the command body later. */
   parts.allow_txn_number =
      (command->flags.has_multi_write || !parts.assembled.is_acknowledged)
         ? MONGOC_CMD_PARTS_ALLOW_TXN_NUMBER_NO
         : MONGOC_CMD_PARTS_ALLOW_TXN_NUMBER_YES;

   BSON_ASSERT (bson_iter_init (&iter, &command->cmd_opts));
   if (!mongoc_cmd_parts_append_opts (
          &parts, &iter, server_stream->sd->max_wire_version, error)) {
      bson_destroy (&cmd);
      mongoc_cmd_parts_cleanup (&parts);
      EXIT;
   }

   if (!mongoc_cmd_parts_assemble (&parts, server_stream, error)) {
      bson_destroy (&cmd);
      mongoc_cmd_parts_cleanup (&parts);
      EXIT;
   }

   /*
    * OP_MSG header == 16 byte
    * + 4 bytes flagBits
    * + 1 byte payload type = 1
    * + 1 byte payload type = 2
    * + 4 byte size of payload
    * == 26 bytes opcode overhead
    * + X Full command document {insert: "test", writeConcern: {...}}
    * + Y command identifier ("documents", "deletes", "updates") ( + \0)
    */

   header =
      26 + parts.assembled.command->len + gCommandFieldLens[command->type] + 1;

   do {
      memcpy (&len,
              command->payload.data + payload_batch_size + payload_total_offset,
              4);
      len = BSON_UINT32_FROM_LE (len);

      if (len > max_bson_obj_size + BSON_OBJECT_ALLOWANCE) {
         /* Quit if the document is too large */
         _mongoc_write_command_too_large_error (
            error, index_offset, len, max_bson_obj_size);
         result->failed = true;
         break;

      } else if ((payload_batch_size + header) + len <= max_msg_size) {
         /* The current batch is still under max batch size in bytes */
         payload_batch_size += len;

         /* If this document filled the maximum document count */
         if (++document_count == max_document_count) {
            ship_it = true;
            /* If this document is the last document we have */
         } else if (payload_batch_size + payload_total_offset ==
                    command->payload.len) {
            ship_it = true;
         } else {
            ship_it = false;
         }
      } else {
         ship_it = true;
      }

      if (ship_it) {
         bool is_retryable = parts.is_retryable_write;
         mongoc_write_err_type_t error_type;

         /* Seek past the document offset we have already sent */
         parts.assembled.payload = command->payload.data + payload_total_offset;
         /* Only send the documents up to this size */
         parts.assembled.payload_size = payload_batch_size;
         parts.assembled.payload_identifier = gCommandFields[command->type];

         /* increment the transaction number for the first attempt of each
          * retryable write command */
         if (is_retryable) {
            bson_iter_t txn_number_iter;
            BSON_ASSERT (bson_iter_init_find (
               &txn_number_iter, parts.assembled.command, "txnNumber"));
            bson_iter_overwrite_int64 (
               &txn_number_iter,
               ++parts.assembled.session->server_session->txn_number);
         }
      retry:
         ret = mongoc_cluster_run_command_monitored (
            &client->cluster, &parts.assembled, &reply, error);

         /* Add this batch size so we skip these documents next time */
         payload_total_offset += payload_batch_size;
         payload_batch_size = 0;

         /* If a retryable error is encountered and the write is retryable,
          * select a new writable stream and retry. If server selection fails or
          * the selected server does not support retryable writes, fall through
          * and allow the original error to be reported. */
         error_type = _mongoc_write_error_get_type (ret, error, &reply);
         if (is_retryable && error_type == MONGOC_WRITE_ERR_RETRY) {
            bson_error_t ignored_error;

            /* each write command may be retried at most once */
            is_retryable = false;

            if (retry_server_stream) {
               mongoc_server_stream_cleanup (retry_server_stream);
            }

            retry_server_stream = mongoc_cluster_stream_for_writes (
               &client->cluster, cs, NULL, &ignored_error);

            if (retry_server_stream &&
                retry_server_stream->sd->max_wire_version >=
                   WIRE_VERSION_RETRY_WRITES) {
               parts.assembled.server_stream = retry_server_stream;
               bson_destroy (&reply);
               GOTO (retry);
            }
         }

         if (!ret) {
            result->failed = true;
            result->must_stop = true;
         }

         /* Result merge needs to know the absolute index for a document
          * so it can rewrite the error message which contains the relative
          * document index per batch
          */
         _mongoc_write_result_merge (result, command, &reply, index_offset);
         index_offset += document_count;
         document_count = 0;
         bson_destroy (&reply);
      }
      /* While we have more documents to write */
   } while (payload_total_offset < command->payload.len);

   bson_destroy (&cmd);
   mongoc_cmd_parts_cleanup (&parts);

   if (retry_server_stream) {
      mongoc_server_stream_cleanup (retry_server_stream);
   }

   if (ret) {
      /* if a retry succeeded, clear the initial error */
      memset (&result->error, 0, sizeof (bson_error_t));
   }

   EXIT;
}
コード例 #2
0
ファイル: mongoc-write-command.c プロジェクト: cran/mongolite
static void
_mongoc_write_opquery (mongoc_write_command_t *command,
                       mongoc_client_t *client,
                       mongoc_server_stream_t *server_stream,
                       const char *database,
                       const char *collection,
                       const mongoc_write_concern_t *write_concern,
                       uint32_t offset,
                       mongoc_write_result_t *result,
                       bson_error_t *error)
{
   mongoc_cmd_parts_t parts;
   bson_iter_t iter;
   const char *key;
   uint32_t len = 0;
   bson_t ar;
   bson_t cmd;
   bson_t reply;
   char str[16];
   bool has_more;
   bool ret = false;
   uint32_t i;
   int32_t max_bson_obj_size;
   int32_t max_write_batch_size;
   uint32_t overhead;
   uint32_t key_len;
   int data_offset = 0;
   bson_reader_t *reader;
   const bson_t *bson;
   bool eof;

   ENTRY;

   BSON_ASSERT (command);
   BSON_ASSERT (client);
   BSON_ASSERT (database);
   BSON_ASSERT (server_stream);
   BSON_ASSERT (collection);

   bson_init (&cmd);
   max_bson_obj_size = mongoc_server_stream_max_bson_obj_size (server_stream);
   max_write_batch_size =
      mongoc_server_stream_max_write_batch_size (server_stream);

again:
   has_more = false;
   i = 0;

   _mongoc_write_command_init (&cmd, command, collection);

   /* 1 byte to specify array type, 1 byte for field name's null terminator */
   overhead = cmd.len + 2 + gCommandFieldLens[command->type];


   reader = bson_reader_new_from_data (command->payload.data + data_offset,
                                       command->payload.len - data_offset);

   bson_append_array_begin (&cmd,
                            gCommandFields[command->type],
                            gCommandFieldLens[command->type],
                            &ar);

   while ((bson = bson_reader_read (reader, &eof))) {
      key_len = (uint32_t) bson_uint32_to_string (i, &key, str, sizeof str);
      len = bson->len;
      /* 1 byte to specify document type, 1 byte for key's null terminator */
      if (_mongoc_write_command_will_overflow (overhead,
                                               key_len + len + 2 + ar.len,
                                               i,
                                               max_bson_obj_size,
                                               max_write_batch_size)) {
         has_more = true;
         break;
      }
      BSON_APPEND_DOCUMENT (&ar, key, bson);
      data_offset += len;
      i++;
   }

   bson_append_array_end (&cmd, &ar);

   if (!i) {
      _mongoc_write_command_too_large_error (error, i, len, max_bson_obj_size);
      result->failed = true;
      result->must_stop = true;
      ret = false;
      if (bson) {
         data_offset += len;
      }
   } else {
      mongoc_cmd_parts_init (&parts, client, database, MONGOC_QUERY_NONE, &cmd);
      parts.is_write_command = true;
      parts.assembled.operation_id = command->operation_id;
      if (!mongoc_cmd_parts_set_write_concern (
             &parts,
             write_concern,
             server_stream->sd->max_wire_version,
             error)) {
         bson_reader_destroy (reader);
         bson_destroy (&cmd);
         mongoc_cmd_parts_cleanup (&parts);
         EXIT;
      }

      BSON_ASSERT (bson_iter_init (&iter, &command->cmd_opts));
      if (!mongoc_cmd_parts_append_opts (
             &parts, &iter, server_stream->sd->max_wire_version, error)) {
         bson_reader_destroy (reader);
         bson_destroy (&cmd);
         mongoc_cmd_parts_cleanup (&parts);
         EXIT;
      }

      ret = mongoc_cmd_parts_assemble (&parts, server_stream, error);
      if (ret) {
         ret = mongoc_cluster_run_command_monitored (
            &client->cluster, &parts.assembled, &reply, error);
      } else {
         /* assembling failed */
         result->must_stop = true;
         bson_init (&reply);
      }

      if (!ret) {
         result->failed = true;
         if (bson_empty (&reply)) {
            /* assembling failed, or a network error running the command */
            result->must_stop = true;
         }
      }

      _mongoc_write_result_merge (result, command, &reply, offset);
      offset += i;
      bson_destroy (&reply);
      mongoc_cmd_parts_cleanup (&parts);
   }
   bson_reader_destroy (reader);

   if (has_more && (ret || !command->flags.ordered) && !result->must_stop) {
      bson_reinit (&cmd);
      GOTO (again);
   }

   bson_destroy (&cmd);
   EXIT;
}
コード例 #3
0
static void
_mongoc_write_command(mongoc_write_command_t       *command,
                      mongoc_client_t              *client,
                      mongoc_server_stream_t       *server_stream,
                      const char                   *database,
                      const char                   *collection,
                      const mongoc_write_concern_t *write_concern,
                      uint32_t                      offset,
                      mongoc_write_result_t        *result,
                      bson_error_t                 *error)
{
   const uint8_t *data;
   bson_iter_t iter;
   const char *key;
   uint32_t len = 0;
   bson_t tmp;
   bson_t ar;
   bson_t cmd;
   bson_t reply;
   char str [16];
   bool has_more;
   bool ret = false;
   uint32_t i;
   int32_t max_bson_obj_size;
   int32_t max_write_batch_size;
   int32_t min_wire_version;
   uint32_t key_len;

   ENTRY;

   BSON_ASSERT (command);
   BSON_ASSERT (client);
   BSON_ASSERT (database);
   BSON_ASSERT (server_stream);
   BSON_ASSERT (collection);

   max_bson_obj_size = mongoc_server_stream_max_bson_obj_size (server_stream);
   max_write_batch_size = mongoc_server_stream_max_write_batch_size (server_stream);

   /*
    * If we have an unacknowledged write and the server supports the legacy
    * opcodes, then submit the legacy opcode so we don't need to wait for
    * a response from the server.
    */

   min_wire_version = server_stream->sd->min_wire_version;
   if ((min_wire_version == 0) &&
       !_mongoc_write_concern_needs_gle (write_concern)) {
      if (command->flags.bypass_document_validation != MONGOC_BYPASS_DOCUMENT_VALIDATION_DEFAULT) {
         bson_set_error (error,
                         MONGOC_ERROR_COMMAND,
                         MONGOC_ERROR_COMMAND_INVALID_ARG,
                         "Cannot set bypassDocumentValidation for unacknowledged writes");
         EXIT;
      }
      gLegacyWriteOps[command->type] (command, client, server_stream, database,
                                      collection, write_concern, offset,
                                      result, error);
      EXIT;
   }

   if (!command->n_documents ||
       !bson_iter_init (&iter, command->documents) ||
       !bson_iter_next (&iter)) {
      _empty_error (command, error);
      result->failed = true;
      EXIT;
   }

again:
   bson_init (&cmd);
   has_more = false;
   i = 0;

   BSON_APPEND_UTF8 (&cmd, gCommandNames[command->type], collection);
   BSON_APPEND_DOCUMENT (&cmd, "writeConcern",
                         WRITE_CONCERN_DOC (write_concern));
   BSON_APPEND_BOOL (&cmd, "ordered", command->flags.ordered);
   if (command->flags.bypass_document_validation != MONGOC_BYPASS_DOCUMENT_VALIDATION_DEFAULT) {
      BSON_APPEND_BOOL (&cmd, "bypassDocumentValidation",
                        !!command->flags.bypass_document_validation);
   }

   if (!_mongoc_write_command_will_overflow (0,
                                             command->documents->len,
                                             command->n_documents,
                                             max_bson_obj_size,
                                             max_write_batch_size)) {
      /* copy the whole documents buffer as e.g. "updates": [...] */
      BSON_APPEND_ARRAY (&cmd,
                         gCommandFields[command->type],
                         command->documents);
      i = command->n_documents;
   } else {
      bson_append_array_begin (&cmd, gCommandFields[command->type], -1, &ar);

      do {
         if (!BSON_ITER_HOLDS_DOCUMENT (&iter)) {
            BSON_ASSERT (false);
         }

         bson_iter_document (&iter, &len, &data);
         key_len = (uint32_t) bson_uint32_to_string (i, &key, str, sizeof str);

         if (_mongoc_write_command_will_overflow (ar.len,
                                                  key_len + len + 2,
                                                  i,
                                                  max_bson_obj_size,
                                                  max_write_batch_size)) {
            has_more = true;
            break;
         }

         if (!bson_init_static (&tmp, data, len)) {
            BSON_ASSERT (false);
         }

         BSON_APPEND_DOCUMENT (&ar, key, &tmp);

         bson_destroy (&tmp);

         i++;
      } while (bson_iter_next (&iter));

      bson_append_array_end (&cmd, &ar);
   }

   if (!i) {
      too_large_error (error, i, len, max_bson_obj_size, NULL);
      result->failed = true;
      ret = false;
   } else {
      ret = mongoc_cluster_run_command (&client->cluster, server_stream->stream,
                                        MONGOC_QUERY_NONE, database, &cmd,
                                        &reply, error);

      if (!ret) {
         result->failed = true;
      }

      _mongoc_write_result_merge (result, command, &reply, offset);
      offset += i;
      bson_destroy (&reply);
   }

   bson_destroy (&cmd);

   if (has_more && (ret || !command->flags.ordered)) {
      GOTO (again);
   }

   EXIT;
}