ifupdown-ng/cmd/ifquery.c

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/*
* cmd/ifquery.c
* Purpose: look up information in /etc/network/interfaces
*
* Copyright (c) 2020 Ariadne Conill <ariadne@dereferenced.org>
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* This software is provided 'as is' and without any warranty, express or
* implied. In no event shall the authors be liable for any damages arising
* from the use of this software.
*/
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#define _GNU_SOURCE
#include <fnmatch.h>
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#include <stdio.h>
#include <string.h>
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#include <getopt.h>
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#include "libifupdown/libifupdown.h"
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#include "cmd/multicall.h"
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void
print_interface(struct lif_interface *iface)
{
if (!lif_lifecycle_query_dependents(&exec_opts, iface, iface->ifname))
return;
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if (iface->is_auto)
printf("auto %s\n", iface->ifname);
printf("iface %s\n", iface->ifname);
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struct lif_node *iter;
LIF_DICT_FOREACH(iter, &iface->vars)
{
struct lif_dict_entry *entry = iter->data;
if (!strcmp(entry->key, "address"))
{
struct lif_address *addr = entry->data;
char addr_buf[512];
if (!lif_address_unparse(addr, addr_buf, sizeof addr_buf, true))
{
printf(" # warning: failed to unparse address\n");
continue;
}
printf(" %s %s\n", entry->key, addr_buf);
}
else
printf(" %s %s\n", entry->key, (const char *) entry->data);
}
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printf("\n");
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}
void
print_interface_dot(struct lif_dict *collection, struct lif_interface *iface, struct lif_interface *parent)
{
if (!lif_lifecycle_query_dependents(&exec_opts, iface, iface->ifname))
return;
if (iface->refcount > 0)
return;
if (parent != NULL)
printf("\"%s (%zu)\" -> ", parent->ifname, parent->rdepends_count);
printf("\"%s (%zu)\"", iface->ifname, iface->rdepends_count);
printf("\n");
struct lif_dict_entry *entry = lif_dict_find(&iface->vars, "requires");
if (entry == NULL)
return;
char require_ifs[4096] = {};
strlcpy(require_ifs, entry->data, sizeof require_ifs);
char *reqp = require_ifs;
for (char *tokenp = lif_next_token(&reqp); *tokenp; tokenp = lif_next_token(&reqp))
{
struct lif_interface *child_if = lif_interface_collection_find(collection, tokenp);
print_interface_dot(collection, child_if, iface);
child_if->refcount++;
}
}
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static inline size_t
count_set_bits(const char *netmask)
{
/* netmask set to CIDR length */
if (strchr(netmask, '.') == NULL)
return strtol(netmask, NULL, 10);
size_t r = 0;
struct in_addr in;
if (inet_pton(AF_INET, netmask, &in) == 0)
return r;
/* take the IP, put it in host endian order, and
* flip it so that all the set bits are set to the right.
* then we can simply count down from 32 and right-shift
* until the bit field is all zero.
*/
unsigned int bits = htonl(in.s_addr);
for (bits = ~bits, r = 32; bits; bits >>= 1, r--)
;
return r;
}
void
print_interface_property(struct lif_interface *iface, const char *property)
{
struct lif_node *iter;
bool printing_address = !strcmp(property, "address");
LIF_DICT_FOREACH(iter, &iface->vars)
{
struct lif_dict_entry *entry = iter->data;
if (strcmp(entry->key, property))
continue;
if (printing_address)
{
struct lif_address *addr = entry->data;
size_t orig_netmask = addr->netmask;
if (!addr->netmask)
{
/* if fallback netmask is not set, default to 255.255.255.0 */
addr->netmask = 24;
struct lif_dict_entry *entry = lif_dict_find(&iface->vars, "netmask");
if (entry != NULL)
addr->netmask = count_set_bits(entry->data);
}
char addr_buf[512];
if (!lif_address_unparse(addr, addr_buf, sizeof addr_buf, true))
continue;
addr->netmask = orig_netmask;
printf("%s\n", addr_buf);
}
else
printf("%s\n", (const char *) entry->data);
}
}
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void
list_interfaces(struct lif_dict *collection, struct match_options *opts)
{
struct lif_node *iter;
if (opts->dot)
{
printf("digraph interfaces {\n");
printf("edge [color=blue fontname=Sans fontsize=10]\n");
printf("node [fontname=Sans fontsize=10]\n");
}
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LIF_DICT_FOREACH(iter, collection)
{
struct lif_dict_entry *entry = iter->data;
struct lif_interface *iface = entry->data;
if (opts->is_auto && !iface->is_auto)
continue;
if (opts->exclude_pattern != NULL &&
!fnmatch(opts->exclude_pattern, iface->ifname, 0))
continue;
if (opts->include_pattern != NULL &&
fnmatch(opts->include_pattern, iface->ifname, 0))
continue;
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if (opts->pretty_print)
print_interface(iface);
else if (opts->dot)
print_interface_dot(collection, iface, NULL);
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else
printf("%s\n", iface->ifname);
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}
if (opts->dot)
printf("}\n");
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}
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void
list_state(struct lif_dict *state, struct match_options *opts)
{
struct lif_node *iter;
LIF_DICT_FOREACH(iter, state)
{
struct lif_dict_entry *entry = iter->data;
if (opts->exclude_pattern != NULL &&
!fnmatch(opts->exclude_pattern, entry->key, 0))
continue;
if (opts->include_pattern != NULL &&
fnmatch(opts->include_pattern, entry->key, 0))
continue;
struct lif_state_record *rec = entry->data;
printf("%s=%s %zu\n", entry->key, rec->mapped_if, rec->refcount);
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}
}
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static bool listing = false, listing_stat = false;
static void
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set_listing(const char *opt_arg)
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{
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(void) opt_arg;
listing = true;
}
static void
set_show_state(const char *opt_arg)
{
(void) opt_arg;
listing_stat = true;
}
static void
set_pretty_print(const char *opt_arg)
{
(void) opt_arg;
match_opts.pretty_print = true;
}
static void
set_output_dot(const char *opt_arg)
{
(void) opt_arg;
match_opts.dot = true;
}
static void
set_property(const char *opt_arg)
{
match_opts.property = opt_arg;
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}
static struct if_option local_options[] = {
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{'s', "state", NULL, "show configured state", false, set_show_state},
{'p', "property", "property PROPERTY", "print values of properties matching PROPERTY", true, set_property},
{'D', "dot", NULL, "generate a dependency graph", false, set_output_dot},
{'L', "list", NULL, "list matching interfaces", false, set_listing},
{'P', "pretty-print", NULL, "pretty print the interfaces instead of just listing", false, set_pretty_print},
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};
static struct if_option_group local_option_group = {
.desc = "Program-specific options",
.group_size = ARRAY_SIZE(local_options),
.group = local_options
};
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int
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ifquery_main(int argc, char *argv[])
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{
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struct lif_dict state = {};
struct lif_dict collection = {};
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lif_interface_collection_init(&collection);
if (!lif_state_read_path(&state, exec_opts.state_file))
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{
fprintf(stderr, "%s: could not parse %s\n", argv0, exec_opts.state_file);
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return EXIT_FAILURE;
}
if (!lif_interface_file_parse(&collection, exec_opts.interfaces_file))
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{
fprintf(stderr, "%s: could not parse %s\n", argv0, exec_opts.interfaces_file);
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return EXIT_FAILURE;
}
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if (lif_lifecycle_count_rdepends(&exec_opts, &collection) == -1)
{
fprintf(stderr, "%s: could not validate dependency tree\n", argv0);
return EXIT_FAILURE;
}
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/* --list --state is not allowed */
if (listing && listing_stat)
generic_usage(self_applet, EXIT_FAILURE);
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if (listing)
{
list_interfaces(&collection, &match_opts);
return EXIT_SUCCESS;
}
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else if (listing_stat)
{
list_state(&state, &match_opts);
return EXIT_SUCCESS;
}
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if (optind >= argc)
generic_usage(self_applet, EXIT_FAILURE);
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int idx = optind;
for (; idx < argc; idx++)
{
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struct lif_interface *iface = lif_state_lookup(&state, &collection, argv[idx]);
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if (iface == NULL)
{
struct lif_dict_entry *entry = lif_dict_find(&collection, argv[idx]);
if (entry != NULL)
iface = entry->data;
}
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if (iface == NULL)
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{
fprintf(stderr, "%s: unknown interface %s\n", argv0, argv[idx]);
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return EXIT_FAILURE;
}
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if (match_opts.property != NULL)
print_interface_property(iface, match_opts.property);
else
print_interface(iface);
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}
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return EXIT_SUCCESS;
}
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struct if_applet ifquery_applet = {
.name = "ifquery",
.desc = "query interface configuration",
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.main = ifquery_main,
.usage = "ifquery [options] <interfaces>\n ifquery [options] --list",
.manpage = "8 ifquery",
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.groups = { &global_option_group, &match_option_group, &exec_option_group, &local_option_group },
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};