# SPDX-License-Identifier: GPL-2.0-or-later # FRR xref vtysh command extraction # # Copyright (C) 2022 David Lamparter for NetDEF, Inc. """ Generate vtysh_cmd.c from frr .xref file(s). This can run either standalone or as part of xrelfo. The latter saves a non-negligible amount of time (0.5s on average systems, more on e.g. slow ARMs) since serializing and deserializing JSON is a significant bottleneck in this. """ import argparse import difflib import json import os import pathlib import re import sys from collections import defaultdict try: import ujson as json # type: ignore except ImportError: pass import _clippy frr_top_src = os.path.dirname(os.path.dirname(os.path.abspath(__file__))) # vtysh needs to know which daemon(s) to send commands to. For lib/, this is # not quite obvious... daemon_flags = { "lib/libagentx.c": "VTYSH_ISISD|VTYSH_RIPD|VTYSH_OSPFD|VTYSH_OSPF6D|VTYSH_BGPD|VTYSH_ZEBRA", "lib/filter.c": "VTYSH_ACL_SHOW", "lib/filter_cli.c": "VTYSH_ACL_CONFIG", "lib/host_cli.c": "VTYSH_NON_MGMTD", "lib/if.c": "VTYSH_INTERFACE", "lib/keychain_cli.c": "VTYSH_KEYS", "lib/mgmt_be_client.c": "VTYSH_MGMT_BACKEND", "lib/mgmt_fe_client.c": "VTYSH_MGMT_FRONTEND", "lib/lib_vty.c": "VTYSH_ALL", "lib/log_cli.c": "VTYSH_NON_MGMTD", "lib/log_vty.c": "VTYSH_ALL", "lib/nexthop_group.c": "VTYSH_NH_GROUP", "lib/resolver.c": "VTYSH_NHRPD|VTYSH_BGPD", "lib/routemap.c": "VTYSH_RMAP_SHOW", "lib/routemap_cli.c": "VTYSH_RMAP_CONFIG", "lib/spf_backoff.c": "VTYSH_ISISD", "lib/event.c": "VTYSH_ALL", "lib/vrf.c": "VTYSH_VRF", "lib/vty.c": "VTYSH_ALL", } vtysh_cmd_head = """/* autogenerated file, DO NOT EDIT! */ #include #include "command.h" #include "linklist.h" #include "vtysh/vtysh.h" #pragma GCC visibility push(internal) #define MAKE_VECTOR(name, len, ...) \\ static void * name ## _vitems[] = { __VA_ARGS__ }; \\ static struct _vector name = { \\ .active = len, \\ .count = len, \\ .index = name ## _vitems, \\ } """ if sys.stderr.isatty(): _fmt_red = "\033[31m" _fmt_green = "\033[32m" _fmt_clear = "\033[m" else: _fmt_red = _fmt_green = _fmt_clear = "" def c_escape(text: str) -> str: """ Escape string for output into C source code. Handles only what's needed here. CLI strings and help text don't contain weird special characters. """ return text.replace("\\", "\\\\").replace('"', '\\"').replace("\n", "\\n") class NodeDict(defaultdict): """ CLI node ID (integer) -> dict of commands in that node. """ nodenames = {} # Dict[int, str] def __init__(self): super().__init__(dict) def items_named(self): for k, v in self.items(): yield self.nodename(k), v @classmethod def nodename(cls, nodeid: int) -> str: return cls.nodenames.get(nodeid, str(nodeid)) @classmethod def load_nodenames(cls): with open(os.path.join(frr_top_src, "lib", "command.h"), "r") as fd: command_h = fd.read() nodes = re.search(r"enum\s+node_type\s+\{(.*?)\}", command_h, re.S) if nodes is None: raise RuntimeError( "regex failed to match on lib/command.h (to get CLI node names)" ) text = nodes.group(1) text = re.sub(r"/\*.*?\*/", "", text, flags=re.S) text = re.sub(r"//.*?$", "", text, flags=re.M) text = text.replace(",", " ") text = text.split() for i, name in enumerate(text): cls.nodenames[i] = name class CommandEntry: """ CLI command definition. - one DEFUN creates at most one of these, even if the same command is installed in multiple CLI nodes (e.g. BGP address-family nodes) - for each CLI node, commands with the same CLI string are merged. This is *almost* irrelevant - ospfd & ospf6d define some identical commands in the route-map node. Those must be merged for things to work correctly. """ all_defs = [] # List[CommandEntry] warn_counter = 0 def __init__(self, origin, name, spec): self.origin = origin self.name = name self._spec = spec self._registered = False self.cmd = spec["string"] self._cmd_normalized = self.normalize_cmd(self.cmd) self.hidden = "hidden" in spec.get("attrs", []) self.daemons = self._get_daemons() self.doclines = self._spec["doc"].splitlines(keepends=True) if not self.doclines[-1].endswith("\n"): self.warn_loc("docstring does not end with \\n") @staticmethod def _warn_loc(name, spec, wtext, nodename=None): """ Print warning with parseable (compiler style) location Matching the way compilers emit file/lineno means editors/IDE can identify / jump to the error location. """ if nodename: prefix = ": [%s] %s:" % (nodename, name) else: prefix = ": %s:" % (name,) for line in wtext.rstrip("\n").split("\n"): sys.stderr.write( "%s:%d%s %s\n" % ( spec["defun"]["file"], spec["defun"]["line"], prefix, line, ) ) prefix = "- " CommandEntry.warn_counter += 1 def warn_loc(self, wtext, nodename=None): self._warn_loc(self.name, self._spec, wtext, nodename) def _get_daemons(self): path = pathlib.Path(self.origin) if path.name == "vtysh": return {} defun_file = os.path.relpath(self._spec["defun"]["file"], frr_top_src) defun_path = pathlib.Path(defun_file) if defun_path.parts[0] != "lib": if "." not in path.name: # daemons don't have dots in their filename return {"VTYSH_" + path.name.upper()} # loadable modules - use directory name to determine daemon return {"VTYSH_" + path.parts[-2].upper()} if defun_file in daemon_flags: return {daemon_flags[defun_file]} v6_cmd = "ipv6" in self.name if defun_file == "lib/plist.c": if v6_cmd: return { "VTYSH_RIPNGD|VTYSH_OSPF6D|VTYSH_BGPD|VTYSH_ZEBRA|VTYSH_PIM6D|VTYSH_BABELD|VTYSH_ISISD|VTYSH_FABRICD" } else: return { "VTYSH_RIPD|VTYSH_OSPFD|VTYSH_BGPD|VTYSH_ZEBRA|VTYSH_PIMD|VTYSH_EIGRPD|VTYSH_BABELD|VTYSH_ISISD|VTYSH_FABRICD" } if defun_file == "lib/if_rmap.c": return {"VTYSH_MGMTD"} return {} def __repr__(self): return "" % (self.name, self.cmd) def register(self): """Track DEFUNs so each is only output once.""" if not self._registered: self.all_defs.append(self) self._registered = True return self def merge(self, other, nodename): if self._cmd_normalized != other._cmd_normalized: self.warn_loc( "command definition mismatch, first definied as:\n%r" % (self.cmd,), nodename=nodename, ) other.warn_loc("later defined as:\n%r" % (other.cmd,), nodename=nodename) if self._spec["doc"] != other._spec["doc"]: self.warn_loc( "help string mismatch, first defined here (-)", nodename=nodename ) other.warn_loc( "later defined here (+)\nnote: both commands define %r in same node (%s)" % (self.cmd, nodename), nodename=nodename, ) d = difflib.Differ() for diffline in d.compare(self.doclines, other.doclines): if diffline.startswith(" "): continue if diffline.startswith("+ "): diffline = _fmt_green + diffline elif diffline.startswith("- "): diffline = _fmt_red + diffline sys.stderr.write("\t" + diffline.rstrip("\n") + _fmt_clear + "\n") if self.hidden != other.hidden: self.warn_loc( "hidden flag mismatch, first %r here" % (self.hidden,), nodename=nodename, ) other.warn_loc( "later %r here (+)\nnote: both commands define %r in same node (%s)" % (other.hidden, self.cmd, nodename), nodename=nodename, ) # ensure name is deterministic regardless of input DEFUN order self.name = min([self.name, other.name], key=lambda i: (len(i), i)) self.daemons.update(other.daemons) def get_def(self): doc = "\n".join(['\t"%s"' % c_escape(line) for line in self.doclines]) defsh = "DEFSH_HIDDEN" if self.hidden else "DEFSH" # make daemon list deterministic daemons = set() for daemon in self.daemons: daemons.update(daemon.split("|")) daemon_str = "|".join(sorted(daemons)) return """ %s (%s, %s_vtysh, \t"%s", %s) """ % ( defsh, daemon_str, self.name, c_escape(self.cmd), doc, ) # accept slightly different command definitions that result in the same command re_collapse_ws = re.compile(r"\s+") re_remove_varnames = re.compile(r"\$[a-z][a-z0-9_]*") @classmethod def normalize_cmd(cls, cmd): cmd = cmd.strip() cmd = cls.re_collapse_ws.sub(" ", cmd) cmd = cls.re_remove_varnames.sub("", cmd) return cmd @classmethod def process(cls, nodes, name, origin, spec): if "nosh" in spec.get("attrs", []): return if origin == "vtysh/vtysh": return if origin == "isisd/fabricd": # dirty workaround :( name = "fabricd_" + name entry = cls(origin, name, spec) if not entry.daemons: return for nodedata in spec.get("nodes", []): node = nodes[nodedata["node"]] if entry._cmd_normalized not in node: node[entry._cmd_normalized] = entry.register() else: node[entry._cmd_normalized].merge( entry, nodes.nodename(nodedata["node"]) ) @classmethod def load(cls, xref): nodes = NodeDict() for cmd_name, origins in xref.get("cli", {}).items(): for origin, spec in origins.items(): CommandEntry.process(nodes, cmd_name, origin, spec) return nodes @classmethod def output_defs(cls, ofd): for entry in sorted(cls.all_defs, key=lambda i: i.name): ofd.write(entry.get_def()) parser_warnings = [ ( _clippy.CMD_GRAPH_PARSE_DOCSTRING_MISSING, "CLI docstring missing help text for one or more tokens", ), ( _clippy.CMD_GRAPH_PARSE_DOCSTRING_EXTRA, "CLI docstring has help text for non-existent tokens", ), ] @classmethod def output_node_graph(cls, ofd, node, cmds, splitfile): graph = _clippy.Graph(None) for _, cmd in sorted(cmds.items()): cg = _clippy.Graph(cmd.cmd, cmd._spec["doc"], cmd.name) if cg.errors: e = cg.errors for flag, text in cls.parser_warnings: if e & flag: cls._warn_loc(cmd.name, cmd._spec, text) e &= ~flag if e: cls._warn_loc( cmd.name, cmd._spec, "unknown warning from CLI parser" ) graph.merge(cg) if len(graph) <= 2: return [] ofd.write("\n") ofd.write(f"static struct cmd_token ctkn_{node}[];\n") ofd.write(f"static struct graph_node gn_{node}[];\n") ofd.write("\n") vectors = [] cmdels = set() ofd.write(f"static struct cmd_token ctkn_{node}[] = {'{'}\n") for i, token in enumerate(graph): vectors.append( ( list(i.idx for i in token.next()), list(i.idx for i in token.prev()), ) ) if token.type == "CMD_ELEMENT_TKN": ofd.write(f"\t{'{'} /* [{i}] = {token.text} */ {'}'},\n") cmdels.add(token.text) continue ofd.write(f"\t{'{'} /* [{i}] */\n\t\t.type = {token.type},\n") if token.attr: ofd.write(f"\t\t.attr = {token.attr},\n") if token.allowrepeat: ofd.write(f"\t\t.allowrepeat = true,\n") if token.varname_src: ofd.write(f"\t\t.varname_src = {token.varname_src},\n") if token.text: ofd.write(f'\t\t.text = (char *)"{c_escape(token.text)}",\n') if token.desc: ofd.write(f'\t\t.desc = (char *)"{c_escape(token.desc)}",\n') if token.min: ofd.write(f"\t\t.min = {token.min},\n") if token.max: ofd.write(f"\t\t.max = {token.max},\n") if token.varname: ofd.write(f'\t\t.varname = (char *)"{c_escape(token.varname)}",\n') if token.type == "FORK_TKN": fj = token.join() ofd.write(f"\t\t.forkjoin = &gn_{node}[{fj.idx}],\n") if token.type == "JOIN_TKN": fj = token.fork() ofd.write(f"\t\t.forkjoin = &gn_{node}[{fj.idx}],\n") ofd.write(f"\t{'}'},\n") ofd.write("};\n\n") if splitfile: for cmdel in sorted(cmdels): ofd.write(f"extern struct cmd_element {cmdel}_vtysh;\n") ofd.write("\n") for i, next_prev in enumerate(vectors): n, p = next_prev items = ", ".join(f"&gn_{node}[{i}]" for i in n) ofd.write(f"MAKE_VECTOR(gn_{node}_{i}_next, {len(n)}, {items});\n") items = ", ".join(f"&gn_{node}[{i}]" for i in p) ofd.write(f"MAKE_VECTOR(gn_{node}_{i}_prev, {len(p)}, {items});\n") ofd.write(f"\nstatic struct graph_node gn_{node}[] = {'{'}\n") for i, token in enumerate(graph): ofd.write("\t{\n") ofd.write(f"\t\t.from = &gn_{node}_{i}_prev,\n") ofd.write(f"\t\t.to = &gn_{node}_{i}_next,\n") if token.type == "CMD_ELEMENT_TKN": ofd.write(f"\t\t.data = (void *)&{token.text}_vtysh,\n") else: ofd.write(f"\t\t.data = &ctkn_{node}[{i}],\n") ofd.write("\t},\n") ofd.write("};\n") items = ", ".join(f"&gn_{node}[{i}]" for i in range(0, len(graph))) ofd.write(f"MAKE_VECTOR(gvec_{node}, {len(graph)}, {items});\n") ofd.write( f""" {"extern " if splitfile else "static "}void install_{node}(void);\n {"" if splitfile else "static "}void install_{node}(void)\n {'{'} unsigned node_id = {node}; struct cmd_node *node; assert(node_id < vector_active(cmdvec)); node = vector_slot(cmdvec, node_id); assert(node); assert(vector_active(node->cmdgraph->nodes) == 1); graph_delete_node(node->cmdgraph, vector_slot(node->cmdgraph->nodes, 0)); vector_free(node->cmdgraph->nodes); node->cmdgraph->nodes = &gvec_{node}; """ ) for cmdel in sorted(cmdels): ofd.write(f"\tvector_set(node->cmd_vector, &{cmdel}_vtysh);\n") ofd.write("}\n") return [node] @classmethod def run(cls, xref, ofds): for ofd in ofds: ofd.write(vtysh_cmd_head) ofd = ofds.pop(0) NodeDict.load_nodenames() nodes = cls.load(xref) cls.output_defs(ofd) out_nodes = [] for nodeid, cmds in nodes.items(): node = nodes.nodename(nodeid) if ofds: gfd, splitfile = ofds[nodeid % len(ofds)], True else: gfd, splitfile = ofd, False # install_element(VIEW_NODE, x) implies install_element(ENABLE_NODE, x) # this needs to be handled here. if node == "ENABLE_NODE": nodeid_view = list( k for k, v in nodes.nodenames.items() if v == "VIEW_NODE" ) assert len(nodeid_view) == 1 cmds.update(nodes[nodeid_view[0]]) out_nodes.extend(cls.output_node_graph(gfd, node, cmds, splitfile)) out_nodes.sort() if ofds: ofd.write("\n") for name in out_nodes: ofd.write(f"extern void install_{name}(void);\n") ofd.write("\nvoid vtysh_init_cmd(void)\n{\n") for name in out_nodes: ofd.write(f"\tinstall_{name}();\n") ofd.write("}\n") def main(): argp = argparse.ArgumentParser(description="FRR xref to vtysh defs") argp.add_argument( "xreffile", metavar="XREFFILE", type=str, help=".xref file to read" ) argp.add_argument("-Werror", action="store_const", const=True) args = argp.parse_args() with open(args.xreffile, "r") as fd: data = json.load(fd) CommandEntry.run(data, sys.stdout) if args.Werror and CommandEntry.warn_counter: sys.exit(1) if __name__ == "__main__": main()