import urllib import itertools import jinja2 from sanic.exceptions import NotFound from sanic.request import RequestParameters from datasette.facets import load_facet_configs from datasette.plugins import pm from datasette.utils import ( CustomRow, InterruptedError, append_querystring, compound_keys_after_sql, detect_fts, detect_primary_keys, escape_sqlite, filters_should_redirect, get_all_foreign_keys, is_url, path_from_row_pks, path_with_added_args, path_with_removed_args, path_with_replaced_args, sqlite3, table_columns, to_css_class, urlsafe_components, value_as_boolean, ) from datasette.filters import Filters from .base import BaseView, DatasetteError, ureg LINK_WITH_LABEL = '{label} {id}' LINK_WITH_VALUE = '{id}' class RowTableShared(BaseView): async def sortable_columns_for_table(self, database, table, use_rowid): table_metadata = self.ds.table_metadata(database, table) if "sortable_columns" in table_metadata: sortable_columns = set(table_metadata["sortable_columns"]) else: sortable_columns = set(await self.ds.table_columns(database, table)) if use_rowid: sortable_columns.add("rowid") return sortable_columns async def expandable_columns(self, database, table): # Returns list of (fk_dict, label_column-or-None) pairs for that table expandables = [] for fk in await self.ds.foreign_keys_for_table(database, table): label_column = await self.ds.label_column_for_table(database, fk["other_table"]) expandables.append((fk, label_column)) return expandables async def display_columns_and_rows( self, database, table, description, rows, link_column=False, truncate_cells=0, ): "Returns columns, rows for specified table - including fancy foreign key treatment" table_metadata = self.ds.table_metadata(database, table) sortable_columns = await self.sortable_columns_for_table(database, table, True) columns = [ {"name": r[0], "sortable": r[0] in sortable_columns} for r in description ] pks = await self.ds.execute_against_connection_in_thread( database, lambda conn: detect_primary_keys(conn, table) ) column_to_foreign_key_table = { fk["column"]: fk["other_table"] for fk in await self.ds.foreign_keys_for_table(database, table) } cell_rows = [] for row in rows: cells = [] # Unless we are a view, the first column is a link - either to the rowid # or to the simple or compound primary key if link_column: cells.append( { "column": pks[0] if len(pks) == 1 else "Link", "value": jinja2.Markup( '{flat_pks}'.format( database=database, table=urllib.parse.quote_plus(table), flat_pks=str( jinja2.escape( path_from_row_pks(row, pks, not pks, False) ) ), flat_pks_quoted=path_from_row_pks(row, pks, not pks), ) ), } ) for value, column_dict in zip(row, columns): column = column_dict["name"] if link_column and len(pks) == 1 and column == pks[0]: # If there's a simple primary key, don't repeat the value as it's # already shown in the link column. continue # First let the plugins have a go # pylint: disable=no-member plugin_display_value = pm.hook.render_cell( value=value, column=column, table=table, database=database, datasette=self.ds, ) if plugin_display_value is not None: display_value = plugin_display_value elif isinstance(value, bytes): display_value = jinja2.Markup("<{} bytes>".format(len(value))) elif isinstance(value, dict): # It's an expanded foreign key - display link to other row label = value["label"] value = value["value"] # The table we link to depends on the column other_table = column_to_foreign_key_table[column] link_template = ( LINK_WITH_LABEL if (label != value) else LINK_WITH_VALUE ) display_value = jinja2.Markup(link_template.format( database=database, table=urllib.parse.quote_plus(other_table), link_id=urllib.parse.quote_plus(str(value)), id=str(jinja2.escape(value)), label=str(jinja2.escape(label)), )) elif value in ("", None): display_value = jinja2.Markup(" ") elif is_url(str(value).strip()): display_value = jinja2.Markup( '{url}'.format( url=jinja2.escape(value.strip()) ) ) elif column in table_metadata.get("units", {}) and value != "": # Interpret units using pint value = value * ureg(table_metadata["units"][column]) # Pint uses floating point which sometimes introduces errors in the compact # representation, which we have to round off to avoid ugliness. In the vast # majority of cases this rounding will be inconsequential. I hope. value = round(value.to_compact(), 6) display_value = jinja2.Markup( "{:~P}".format(value).replace(" ", " ") ) else: display_value = str(value) if truncate_cells and len(display_value) > truncate_cells: display_value = display_value[:truncate_cells] + u"\u2026" cells.append({"column": column, "value": display_value}) cell_rows.append(cells) if link_column: # Add the link column header. # If it's a simple primary key, we have to remove and re-add that column name at # the beginning of the header row. if len(pks) == 1: columns = [col for col in columns if col["name"] != pks[0]] columns = [ {"name": pks[0] if len(pks) == 1 else "Link", "sortable": len(pks) == 1} ] + columns return columns, cell_rows class TableView(RowTableShared): name = 'table' async def data(self, request, database, hash, table, default_labels=False, _next=None, _size=None): canned_query = self.ds.get_canned_query(database, table) if canned_query is not None: return await self.custom_sql( request, database, hash, canned_query["sql"], metadata=canned_query, editable=False, canned_query=table, ) is_view = bool(await self.ds.get_view_definition(database, table)) table_exists = bool(await self.ds.table_exists(database, table)) if not is_view and not table_exists: raise NotFound("Table not found: {}".format(table)) pks = await self.ds.execute_against_connection_in_thread( database, lambda conn: detect_primary_keys(conn, table) ) use_rowid = not pks and not is_view if use_rowid: select = "rowid, *" order_by = "rowid" order_by_pks = "rowid" else: select = "*" order_by_pks = ", ".join([escape_sqlite(pk) for pk in pks]) order_by = order_by_pks if is_view: order_by = "" # We roll our own query_string decoder because by default Sanic # drops anything with an empty value e.g. ?name__exact= args = RequestParameters( urllib.parse.parse_qs(request.query_string, keep_blank_values=True) ) # Special args start with _ and do not contain a __ # That's so if there is a column that starts with _ # it can still be queried using ?_col__exact=blah special_args = {} special_args_lists = {} other_args = [] for key, value in args.items(): if key.startswith("_") and "__" not in key: special_args[key] = value[0] special_args_lists[key] = value else: for v in value: other_args.append((key, v)) # Handle ?_filter_column and redirect, if present redirect_params = filters_should_redirect(special_args) if redirect_params: return self.redirect( request, path_with_added_args(request, redirect_params), forward_querystring=False, ) # Spot ?_sort_by_desc and redirect to _sort_desc=(_sort) if "_sort_by_desc" in special_args: return self.redirect( request, path_with_added_args( request, { "_sort_desc": special_args.get("_sort"), "_sort_by_desc": None, "_sort": None, }, ), forward_querystring=False, ) table_metadata = self.ds.table_metadata(database, table) units = table_metadata.get("units", {}) filters = Filters(sorted(other_args), units, ureg) where_clauses, params = filters.build_where_clauses(table) extra_wheres_for_ui = [] # Add _where= from querystring if "_where" in request.args: if not self.ds.config("allow_sql"): raise DatasetteError("_where= is not allowed", status=400) else: where_clauses.extend(request.args["_where"]) extra_wheres_for_ui = [{ "text": text, "remove_url": path_with_removed_args( request, {"_where": text} ) } for text in request.args["_where"]] # _search support: fts_table = special_args.get("_fts_table") fts_table = fts_table or table_metadata.get("fts_table") fts_table = fts_table or await self.ds.execute_against_connection_in_thread( database, lambda conn: detect_fts(conn, table) ) fts_pk = special_args.get("_fts_pk", table_metadata.get("fts_pk", "rowid")) search_args = dict( pair for pair in special_args.items() if pair[0].startswith("_search") ) search_descriptions = [] search = "" if fts_table and search_args: if "_search" in search_args: # Simple ?_search=xxx search = search_args["_search"] where_clauses.append( "{fts_pk} in (select rowid from {fts_table} where {fts_table} match :search)".format( fts_table=escape_sqlite(fts_table), fts_pk=escape_sqlite(fts_pk) ) ) search_descriptions.append('search matches "{}"'.format(search)) params["search"] = search else: # More complex: search against specific columns for i, (key, search_text) in enumerate(search_args.items()): search_col = key.split("_search_", 1)[1] if search_col not in await self.ds.table_columns(database, fts_table): raise DatasetteError("Cannot search by that column", status=400) where_clauses.append( "rowid in (select rowid from {fts_table} where {search_col} match :search_{i})".format( fts_table=escape_sqlite(fts_table), search_col=escape_sqlite(search_col), i=i ) ) search_descriptions.append( 'search column "{}" matches "{}"'.format( search_col, search_text ) ) params["search_{}".format(i)] = search_text sortable_columns = set() sortable_columns = await self.sortable_columns_for_table(database, table, use_rowid) # Allow for custom sort order sort = special_args.get("_sort") if sort: if sort not in sortable_columns: raise DatasetteError("Cannot sort table by {}".format(sort)) order_by = escape_sqlite(sort) sort_desc = special_args.get("_sort_desc") if sort_desc: if sort_desc not in sortable_columns: raise DatasetteError("Cannot sort table by {}".format(sort_desc)) if sort: raise DatasetteError("Cannot use _sort and _sort_desc at the same time") order_by = "{} desc".format(escape_sqlite(sort_desc)) from_sql = "from {table_name} {where}".format( table_name=escape_sqlite(table), where=( "where {} ".format(" and ".join(where_clauses)) ) if where_clauses else "", ) # Copy of params so we can mutate them later: from_sql_params = dict(**params) count_sql = "select count(*) {}".format(from_sql) _next = _next or special_args.get("_next") offset = "" if _next: if is_view: # _next is an offset offset = " offset {}".format(int(_next)) else: components = urlsafe_components(_next) # If a sort order is applied, the first of these is the sort value if sort or sort_desc: sort_value = components[0] # Special case for if non-urlencoded first token was $null if _next.split(",")[0] == "$null": sort_value = None components = components[1:] # Figure out the SQL for next-based-on-primary-key first next_by_pk_clauses = [] if use_rowid: next_by_pk_clauses.append("rowid > :p{}".format(len(params))) params["p{}".format(len(params))] = components[0] else: # Apply the tie-breaker based on primary keys if len(components) == len(pks): param_len = len(params) next_by_pk_clauses.append( compound_keys_after_sql(pks, param_len) ) for i, pk_value in enumerate(components): params["p{}".format(param_len + i)] = pk_value # Now add the sort SQL, which may incorporate next_by_pk_clauses if sort or sort_desc: if sort_value is None: if sort_desc: # Just items where column is null ordered by pk where_clauses.append( "({column} is null and {next_clauses})".format( column=escape_sqlite(sort_desc), next_clauses=" and ".join(next_by_pk_clauses), ) ) else: where_clauses.append( "({column} is not null or ({column} is null and {next_clauses}))".format( column=escape_sqlite(sort), next_clauses=" and ".join(next_by_pk_clauses), ) ) else: where_clauses.append( "({column} {op} :p{p}{extra_desc_only} or ({column} = :p{p} and {next_clauses}))".format( column=escape_sqlite(sort or sort_desc), op=">" if sort else "<", p=len(params), extra_desc_only="" if sort else " or {column2} is null".format( column2=escape_sqlite(sort or sort_desc) ), next_clauses=" and ".join(next_by_pk_clauses), ) ) params["p{}".format(len(params))] = sort_value order_by = "{}, {}".format(order_by, order_by_pks) else: where_clauses.extend(next_by_pk_clauses) where_clause = "" if where_clauses: where_clause = "where {} ".format(" and ".join(where_clauses)) if order_by: order_by = "order by {} ".format(order_by) # _group_count=col1&_group_count=col2 group_count = special_args_lists.get("_group_count") or [] if group_count: sql = 'select {group_cols}, count(*) as "count" from {table_name} {where} group by {group_cols} order by "count" desc limit 100'.format( group_cols=", ".join( '"{}"'.format(group_count_col) for group_count_col in group_count ), table_name=escape_sqlite(table), where=where_clause, ) return await self.custom_sql(request, database, hash, sql, editable=True) extra_args = {} # Handle ?_size=500 page_size = _size or request.raw_args.get("_size") if page_size: if page_size == "max": page_size = self.ds.max_returned_rows try: page_size = int(page_size) if page_size < 0: raise ValueError except ValueError: raise DatasetteError("_size must be a positive integer", status=400) if page_size > self.ds.max_returned_rows: raise DatasetteError( "_size must be <= {}".format(self.ds.max_returned_rows), status=400 ) extra_args["page_size"] = page_size else: page_size = self.ds.page_size sql_no_limit = "select {select} from {table_name} {where}{order_by}".format( select=select, table_name=escape_sqlite(table), where=where_clause, order_by=order_by, ) sql = "{sql_no_limit} limit {limit}{offset}".format( sql_no_limit=sql_no_limit.rstrip(), limit=page_size + 1, offset=offset, ) if request.raw_args.get("_timelimit"): extra_args["custom_time_limit"] = int(request.raw_args["_timelimit"]) results = await self.ds.execute( database, sql, params, truncate=True, **extra_args ) # Number of filtered rows in whole set: filtered_table_rows_count = None if count_sql: try: count_rows = list(await self.ds.execute( database, count_sql, from_sql_params )) filtered_table_rows_count = count_rows[0][0] except InterruptedError: pass # facets support if not self.ds.config("allow_facet") and any(arg.startswith("_facet") for arg in request.args): raise DatasetteError("_facet= is not allowed", status=400) # pylint: disable=no-member facet_classes = list( itertools.chain.from_iterable(pm.hook.register_facet_classes()) ) facet_results = {} facets_timed_out = [] facet_instances = [] for klass in facet_classes: facet_instances.append(klass( self.ds, request, database, sql=sql_no_limit, params=params, table=table, metadata=table_metadata, row_count=filtered_table_rows_count, )) for facet in facet_instances: instance_facet_results, instance_facets_timed_out = await facet.facet_results() facet_results.update(instance_facet_results) facets_timed_out.extend(instance_facets_timed_out) # Figure out columns and rows for the query columns = [r[0] for r in results.description] rows = list(results.rows) filter_columns = columns[:] if use_rowid and filter_columns[0] == "rowid": filter_columns = filter_columns[1:] # Expand labeled columns if requested expanded_columns = [] expandable_columns = await self.expandable_columns(database, table) columns_to_expand = None try: all_labels = value_as_boolean(special_args.get("_labels", "")) except ValueError: all_labels = default_labels # Check for explicit _label= if "_label" in request.args: columns_to_expand = request.args["_label"] if columns_to_expand is None and all_labels: # expand all columns with foreign keys columns_to_expand = [ fk["column"] for fk, _ in expandable_columns ] if columns_to_expand: expanded_labels = {} for fk, _ in expandable_columns: column = fk["column"] if column not in columns_to_expand: continue expanded_columns.append(column) # Gather the values column_index = columns.index(column) values = [row[column_index] for row in rows] # Expand them expanded_labels.update(await self.ds.expand_foreign_keys( database, table, column, values )) if expanded_labels: # Rewrite the rows new_rows = [] for row in rows: new_row = CustomRow(columns) for column in row.keys(): value = row[column] if (column, value) in expanded_labels: new_row[column] = { 'value': value, 'label': expanded_labels[(column, value)] } else: new_row[column] = value new_rows.append(new_row) rows = new_rows # Pagination next link next_value = None next_url = None if len(rows) > page_size and page_size > 0: if is_view: next_value = int(_next or 0) + page_size else: next_value = path_from_row_pks(rows[-2], pks, use_rowid) # If there's a sort or sort_desc, add that value as a prefix if (sort or sort_desc) and not is_view: prefix = rows[-2][sort or sort_desc] if prefix is None: prefix = "$null" else: prefix = urllib.parse.quote_plus(str(prefix)) next_value = "{},{}".format(prefix, next_value) added_args = {"_next": next_value} if sort: added_args["_sort"] = sort else: added_args["_sort_desc"] = sort_desc else: added_args = {"_next": next_value} next_url = self.ds.absolute_url( request, path_with_replaced_args(request, added_args) ) rows = rows[:page_size] # Detect suggested facets suggested_facets = [] if self.ds.config("suggest_facets") and self.ds.config("allow_facet") and not _next: for facet in facet_instances: # TODO: ensure facet is not suggested if it is already active # used to use 'if facet_column in facets' for this suggested_facets.extend(await facet.suggest()) # human_description_en combines filters AND search, if provided human_description_en = filters.human_description_en(extra=search_descriptions) if sort or sort_desc: sorted_by = "sorted by {}{}".format( (sort or sort_desc), " descending" if sort_desc else "" ) human_description_en = " ".join( [b for b in [human_description_en, sorted_by] if b] ) async def extra_template(): display_columns, display_rows = await self.display_columns_and_rows( database, table, results.description, rows, link_column=not is_view, truncate_cells=self.ds.config("truncate_cells_html"), ) metadata = (self.ds.metadata("databases") or {}).get(database, {}).get( "tables", {} ).get( table, {} ) self.ds.update_with_inherited_metadata(metadata) form_hidden_args = [] for arg in ("_fts_table", "_fts_pk"): if arg in special_args: form_hidden_args.append((arg, special_args[arg])) return { "supports_search": bool(fts_table), "search": search or "", "use_rowid": use_rowid, "filters": filters, "display_columns": display_columns, "filter_columns": filter_columns, "display_rows": display_rows, "facets_timed_out": facets_timed_out, "sorted_facet_results": sorted( facet_results.values(), key=lambda f: (len(f["results"]), f["name"]), reverse=True ), "extra_wheres_for_ui": extra_wheres_for_ui, "form_hidden_args": form_hidden_args, "is_sortable": any(c["sortable"] for c in display_columns), "path_with_replaced_args": path_with_replaced_args, "path_with_removed_args": path_with_removed_args, "append_querystring": append_querystring, "request": request, "sort": sort, "sort_desc": sort_desc, "disable_sort": is_view, "custom_rows_and_columns_templates": [ "_rows_and_columns-{}-{}.html".format( to_css_class(database), to_css_class(table) ), "_rows_and_columns-table-{}-{}.html".format( to_css_class(database), to_css_class(table) ), "_rows_and_columns.html", ], "metadata": metadata, "view_definition": await self.ds.get_view_definition(database, table), "table_definition": await self.ds.get_table_definition(database, table), } return { "database": database, "table": table, "is_view": is_view, "human_description_en": human_description_en, "rows": rows[:page_size], "truncated": results.truncated, "filtered_table_rows_count": filtered_table_rows_count, "expanded_columns": expanded_columns, "expandable_columns": expandable_columns, "columns": columns, "primary_keys": pks, "units": units, "query": {"sql": sql, "params": params}, "facet_results": facet_results, "suggested_facets": suggested_facets, "next": next_value and str(next_value) or None, "next_url": next_url, }, extra_template, ( "table-{}-{}.html".format(to_css_class(database), to_css_class(table)), "table.html", ) class RowView(RowTableShared): name = 'row' async def data(self, request, database, hash, table, pk_path, default_labels=False): pk_values = urlsafe_components(pk_path) pks = await self.ds.execute_against_connection_in_thread( database, lambda conn: detect_primary_keys(conn, table) ) use_rowid = not pks select = "*" if use_rowid: select = "rowid, *" pks = ["rowid"] wheres = ['"{}"=:p{}'.format(pk, i) for i, pk in enumerate(pks)] sql = 'select {} from {} where {}'.format( select, escape_sqlite(table), " AND ".join(wheres) ) params = {} for i, pk_value in enumerate(pk_values): params["p{}".format(i)] = pk_value results = await self.ds.execute( database, sql, params, truncate=True ) columns = [r[0] for r in results.description] rows = list(results.rows) if not rows: raise NotFound("Record not found: {}".format(pk_values)) async def template_data(): display_columns, display_rows = await self.display_columns_and_rows( database, table, results.description, rows, link_column=False, truncate_cells=0, ) for column in display_columns: column["sortable"] = False return { "foreign_key_tables": await self.foreign_key_tables( database, table, pk_values ), "display_columns": display_columns, "display_rows": display_rows, "custom_rows_and_columns_templates": [ "_rows_and_columns-{}-{}.html".format( to_css_class(database), to_css_class(table) ), "_rows_and_columns-row-{}-{}.html".format( to_css_class(database), to_css_class(table) ), "_rows_and_columns.html", ], "metadata": ( self.ds.metadata("databases") or {} ).get(database, {}).get( "tables", {} ).get( table, {} ), } data = { "database": database, "table": table, "rows": rows, "columns": columns, "primary_keys": pks, "primary_key_values": pk_values, "units": self.ds.table_metadata(database, table).get("units", {}), } if "foreign_key_tables" in (request.raw_args.get("_extras") or "").split(","): data["foreign_key_tables"] = await self.foreign_key_tables( database, table, pk_values ) return data, template_data, ( "row-{}-{}.html".format(to_css_class(database), to_css_class(table)), "row.html" ) async def foreign_key_tables(self, database, table, pk_values): if len(pk_values) != 1: return [] all_foreign_keys = await self.ds.execute_against_connection_in_thread( database, get_all_foreign_keys ) foreign_keys = all_foreign_keys[table]["incoming"] if len(foreign_keys) == 0: return [] sql = "select " + ", ".join( [ '(select count(*) from {table} where {column}=:id)'.format( table=escape_sqlite(fk["other_table"]), column=escape_sqlite(fk["other_column"]), ) for fk in foreign_keys ] ) try: rows = list(await self.ds.execute(database, sql, {"id": pk_values[0]})) except sqlite3.OperationalError: # Almost certainly hit the timeout return [] foreign_table_counts = dict( zip( [(fk["other_table"], fk["other_column"]) for fk in foreign_keys], list(rows[0]), ) ) foreign_key_tables = [] for fk in foreign_keys: count = foreign_table_counts.get( (fk["other_table"], fk["other_column"]) ) or 0 foreign_key_tables.append({**fk, **{"count": count}}) return foreign_key_tables