/*
* libifupdown/lifecycle.c
* Purpose: management of interface lifecycle (bring up, takedown, reload)
*
* Copyright (c) 2020 Ariadne Conill <ariadne@dereferenced.org>
* Copyright (c) 2020 Maximilian Wilhelm <max@sdn.clinic>
*
* 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.
*/
#include <ctype.h>
#include <string.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <unistd.h>
#include "libifupdown/environment.h"
#include "libifupdown/execute.h"
#include "libifupdown/interface.h"
#include "libifupdown/lifecycle.h"
#include "libifupdown/state.h"
#include "libifupdown/tokenize.h"
#include "libifupdown/config-file.h"
#define BUFFER_LEN 4096
static bool
handle_commands_for_phase(const struct lif_execute_opts *opts, char *const envp[], const struct lif_interface *iface, const char *phase)
{
const struct lif_node *iter;
LIF_DICT_FOREACH(iter, &iface->vars)
{
const struct lif_dict_entry *entry = iter->data;
if (strcmp(entry->key, phase))
continue;
const char *cmd = entry->data;
if (!lif_execute_fmt(opts, envp, "%s", cmd))
return false;
}
return true;
}
static inline bool
handle_single_executor_for_phase(const struct lif_dict_entry *entry, const struct lif_execute_opts *opts, char *const envp[], const char *phase, const char *lifname)
{
if (strcmp(entry->key, "use"))
return true;
const char *cmd = entry->data;
if (!lif_maybe_run_executor(opts, envp, cmd, phase, lifname))
return false;
return true;
}
static bool
handle_executors_for_phase(const struct lif_execute_opts *opts, char *const envp[], const struct lif_interface *iface, bool up, const char *phase)
{
const struct lif_node *iter;
if (up)
{
LIF_DICT_FOREACH(iter, &iface->vars)
handle_single_executor_for_phase(iter->data, opts, envp, phase, iface->ifname);
}
else
{
LIF_DICT_FOREACH_REVERSE(iter, &iface->vars)
handle_single_executor_for_phase(iter->data, opts, envp, phase, iface->ifname);
}
return true;
}
static bool
query_dependents_from_executors(const struct lif_execute_opts *opts, char *const envp[], const struct lif_interface *iface, char *buf, size_t bufsize, const char *phase)
{
const struct lif_node *iter;
LIF_DICT_FOREACH(iter, &iface->vars)
{
char resbuf[1024] = {};
const struct lif_dict_entry *entry = iter->data;
struct lif_execute_opts exec_opts = {
.verbose = opts->verbose,
.executor_path = opts->executor_path,
.interfaces_file = opts->interfaces_file
};
if (strcmp(entry->key, "use"))
continue;
const char *cmd = entry->data;
if (!lif_maybe_run_executor_with_result(&exec_opts, envp, cmd, resbuf, sizeof resbuf, phase, iface->ifname))
return false;
if (!*resbuf)
continue;
strlcat(buf, " ", bufsize);
strlcat(buf, resbuf, bufsize);
}
return true;
}
bool
append_to_buffer(char **buffer, size_t *buffer_len, char **end, const char *value)
{
size_t value_len = strlen (value);
/* Make sure there is enough room to add the value to the buffer */
if (*buffer_len < strlen (*buffer) + value_len + 2)
{
size_t end_offset = *end - *buffer;
char *tmp = realloc (*buffer, *buffer_len * 2);
if (tmp != NULL)
{
*buffer = tmp;
*end = tmp + end_offset;
*buffer_len = *buffer_len * 2;
}
else
return false;
}
/* Append value to buffer */
size_t printed = snprintf (*end, value_len + 2, "%s ", value);
if (printed < value_len + 1)
/* Here be dragons */
return false;
/* Move end pointer to last printed byte */
*end += printed;
return true;
}
static void
build_environment(char **envp[], const struct lif_execute_opts *opts, const struct lif_interface *iface, const char *lifname, const char *phase, const char *mode)
{
if (lifname == NULL)
lifname = iface->ifname;
lif_environment_push(envp, "IFACE", lifname);
lif_environment_push(envp, "PHASE", phase);
lif_environment_push(envp, "MODE", mode);
lif_environment_push(envp, "METHOD", "none");
if (opts->verbose)
lif_environment_push(envp, "VERBOSE", "1");
if (opts->interfaces_file)
lif_environment_push(envp, "INTERFACES_FILE", opts->interfaces_file);
const struct lif_node *iter;
bool did_address = false, did_gateway = false;
/* Allocate a buffer for all possible addresses, if any */
char *addresses = calloc (BUFFER_LEN, 1);
size_t addresses_size = BUFFER_LEN;
char *addresses_end = addresses;
/* Allocate a buffer for all possible gateways, if any */
char *gateways = calloc (BUFFER_LEN, 1);
size_t gateways_size = BUFFER_LEN;
char *gateways_end = gateways;
LIF_DICT_FOREACH(iter, &iface->vars)
{
struct lif_dict_entry *entry = iter->data;
if (!strcmp(entry->key, "address"))
{
char addrbuf[4096];
if (!lif_address_format_cidr(iface, entry, addrbuf, sizeof(addrbuf)))
continue;
/* Append address to buffer */
append_to_buffer(&addresses, &addresses_size, &addresses_end, addrbuf);
/* Only print IF_ADDRESS once */
if (did_address)
continue;
lif_environment_push(envp, "IF_ADDRESS", addrbuf);
did_address = true;
continue;
}
else if (!strcmp(entry->key, "gateway"))
{
/* Append address to buffer */
append_to_buffer(&gateways, &gateways_size, &gateways_end, entry->data);
if (did_gateway)
continue;
did_gateway = true;
}
else if (!strcmp(entry->key, "requires"))
{
if (iface->is_bridge)
lif_environment_push(envp, "IF_BRIDGE_PORTS", (const char *) entry->data);
}
char envkey[4096] = "IF_";
strlcat(envkey, entry->key, sizeof envkey);
char *ep = envkey + 2;
while (*ep++)
{
*ep = toupper(*ep);
if (*ep == '-')
*ep = '_';
}
lif_environment_push(envp, envkey, (const char *) entry->data);
}
if (addresses != NULL)
lif_environment_push(envp, "IF_ADDRESSES", addresses);
if (gateways != NULL)
lif_environment_push(envp, "IF_GATEWAYS", gateways);
/* Clean up */
free (addresses);
free (gateways);
}
bool
lif_lifecycle_query_dependents(const struct lif_execute_opts *opts, struct lif_interface *iface, const char *lifname)
{
char deps[4096] = {};
char final_deps[4096] = {};
if (lifname == NULL)
lifname = iface->ifname;
char **envp = NULL;
build_environment(&envp, opts, iface, lifname, "depend", "depend");
struct lif_dict_entry *entry = lif_dict_find(&iface->vars, "requires");
if (entry != NULL)
strlcpy(deps, entry->data, sizeof deps);
if (!query_dependents_from_executors(opts, envp, iface, deps, sizeof deps, "depend"))
return false;
char *p = deps;
while (*p)
{
char *token = lif_next_token(&p);
if (strstr(final_deps, token) != NULL)
continue;
strlcat(final_deps, token, sizeof final_deps);
strlcat(final_deps, " ", sizeof final_deps);
}
if (entry != NULL)
{
free(entry->data);
entry->data = strdup(final_deps);
}
else if (*final_deps)
lif_dict_add(&iface->vars, "requires", strdup(final_deps));
lif_environment_free(&envp);
return true;
}
bool
lif_lifecycle_run_phase(const struct lif_execute_opts *opts, struct lif_interface *iface, const char *phase, const char *lifname, bool up)
{
char **envp = NULL;
build_environment(&envp, opts, iface, lifname, phase, up ? "start" : "stop");
if (!handle_executors_for_phase(opts, envp, iface, up, phase))
goto handle_error;
if (!handle_commands_for_phase(opts, envp, iface, phase))
goto handle_error;
/* if we don't need to support /etc/if-X.d we're done here */
if (!lif_config.allow_addon_scripts)
goto out_free;
/* Check if scripts dir for this phase is present and bail out if it isn't */
struct stat dir_stat;
char dir_path[4096];
snprintf (dir_path, 4096, "/etc/network/if-%s.d", phase);
if (stat (dir_path, &dir_stat) != 0 || S_ISDIR (dir_stat.st_mode) == 0) {
goto out_free;
}
/* we should do error handling here, but ifupdown1 doesn't */
lif_execute_fmt(opts, envp, "/bin/run-parts %s", dir_path);
out_free:
lif_environment_free(&envp);
return true;
handle_error:
lif_environment_free(&envp);
return false;
}
/* this function returns true if we can skip processing the interface for now,
* otherwise false.
*/
static bool
handle_refcounting(struct lif_dict *state, struct lif_interface *iface, bool up)
{
size_t orig_refcount = iface->refcount;
if (up)
lif_state_ref_if(state, iface->ifname, iface);
else
lif_state_unref_if(state, iface->ifname, iface);
#ifdef DEBUG_REFCOUNTING
fprintf(stderr, "handle_refcounting(): orig_refcount=%zu, refcount=%zu, direction=%s\n",
orig_refcount, iface->refcount, up ? "UP" : "DOWN");
#endif
/* if going up and orig_refcount > 0 -- we're already configured. */
if (up && orig_refcount > 0)
return true;
/* if going down and iface->refcount > 1 -- we still have other dependents. */
if (!up && iface->refcount > 1)
return true;
/* we can change this interface -- no blocking dependents. */
return false;
}
static bool
handle_dependents(const struct lif_execute_opts *opts, struct lif_interface *parent, struct lif_dict *collection, struct lif_dict *state, bool up)
{
struct lif_dict_entry *requires = lif_dict_find(&parent->vars, "requires");
/* no dependents, nothing to worry about */
if (requires == NULL)
return true;
/* set the parent's pending flag to break dependency cycles */
parent->is_pending = true;
char require_ifs[4096] = {};
strlcpy(require_ifs, requires->data, sizeof require_ifs);
char *bufp = require_ifs;
for (char *tokenp = lif_next_token(&bufp); *tokenp; tokenp = lif_next_token(&bufp))
{
struct lif_interface *iface = lif_interface_collection_find(collection, tokenp);
if (iface->has_config_error)
{
if (opts->force)
fprintf (stderr, "ifupdown: (de)configuring dependent interface %s (of %s) despite config errors\n",
iface->ifname, parent->ifname);
else
{
fprintf (stderr, "ifupdown: skipping dependent interface %s (of %s) as it has config errors\n",
iface->ifname, parent->ifname);
continue;
}
}
/* if handle_refcounting returns true, it means we've already
* configured the interface, or it is too soon to deconfigure
* the interface.
*/
if (handle_refcounting(state, iface, up))
{
if (opts->verbose)
fprintf(stderr, "ifupdown: skipping dependent interface %s (of %s) -- %s\n",
iface->ifname, parent->ifname,
up ? "already configured" : "transient dependencies still exist");
continue;
}
if (!up && iface->is_explicit)
{
if (opts->verbose)
fprintf(stderr, "ifupdown: skipping dependent interface %s (of %s) -- interface is marked as explicitly configured\n",
iface->ifname, parent->ifname);
continue;
}
if (opts->verbose)
fprintf(stderr, "ifupdown: changing state of dependent interface %s (of %s) to %s\n",
iface->ifname, parent->ifname, up ? "up" : "down");
if (!lif_lifecycle_run(opts, iface, collection, state, iface->ifname, up))
{
parent->is_pending = false;
return false;
}
}
parent->is_pending = false;
return true;
}
bool
lif_lifecycle_run(const struct lif_execute_opts *opts, struct lif_interface *iface, struct lif_dict *collection, struct lif_dict *state, const char *lifname, bool up)
{
/* if we're already pending, exit */
if (iface->is_pending)
return true;
if (iface->is_template)
return false;
if (lifname == NULL)
lifname = iface->ifname;
if (up)
{
/* when going up, dependents go up first. */
if (!handle_dependents(opts, iface, collection, state, up))
return false;
/* XXX: we should try to recover (take the iface down) if bringing it up fails.
* but, right now neither debian ifupdown or busybox ifupdown do any recovery,
* so we wont right now.
*/
if (!lif_lifecycle_run_phase(opts, iface, "create", lifname, up))
return false;
if (!lif_lifecycle_run_phase(opts, iface, "pre-up", lifname, up))
return false;
if (!lif_lifecycle_run_phase(opts, iface, "up", lifname, up))
return false;
if (!lif_lifecycle_run_phase(opts, iface, "post-up", lifname, up))
return false;
lif_state_ref_if(state, lifname, iface);
}
else
{
if (!lif_lifecycle_run_phase(opts, iface, "pre-down", lifname, up))
return false;
if (!lif_lifecycle_run_phase(opts, iface, "down", lifname, up))
return false;
if (!lif_lifecycle_run_phase(opts, iface, "post-down", lifname, up))
return false;
if (!lif_lifecycle_run_phase(opts, iface, "destroy", lifname, up))
return false;
/* when going up, dependents go down last. */
if (!handle_dependents(opts, iface, collection, state, up))
return false;
lif_state_unref_if(state, lifname, iface);
}
return true;
}
static bool
count_interface_rdepends(const struct lif_execute_opts *opts, struct lif_dict *collection, struct lif_interface *parent, size_t depth)
{
/* if we have looped, return true immediately to break the loop. */
if (parent->is_pending)
return true;
/* query our dependents if we don't have them already */
if (!lif_lifecycle_query_dependents(opts, parent, parent->ifname))
return false;
/* set rdepends_count to depth, dependents will be depth + 1 */
parent->is_pending = true;
parent->rdepends_count = depth;
struct lif_dict_entry *requires = lif_dict_find(&parent->vars, "requires");
/* no dependents, nothing to worry about */
if (requires == NULL)
{
parent->is_pending = false;
return true;
}
/* walk any dependents */
char require_ifs[4096] = {};
strlcpy(require_ifs, requires->data, sizeof require_ifs);
char *bufp = require_ifs;
for (char *tokenp = lif_next_token(&bufp); *tokenp; tokenp = lif_next_token(&bufp))
{
struct lif_interface *iface = lif_interface_collection_find(collection, tokenp);
if (!count_interface_rdepends(opts, collection, iface, depth + 1))
{
parent->is_pending = false;
return false;
}
}
parent->is_pending = false;
return true;
}
ssize_t
lif_lifecycle_count_rdepends(const struct lif_execute_opts *opts, struct lif_dict *collection)
{
struct lif_node *iter;
LIF_DICT_FOREACH(iter, collection)
{
struct lif_dict_entry *entry = iter->data;
struct lif_interface *iface = entry->data;
/* start depth at interface's rdepends_count, which will be 0 for the root,
* but will be more if additional rdepends are found...
*/
if (!count_interface_rdepends(opts, collection, iface, iface->rdepends_count))
{
fprintf(stderr, "ifupdown: dependency graph is broken for interface %s\n", iface->ifname);
return -1;
}
}
/* figure out the max depth */
size_t maxdepth = 0;
LIF_DICT_FOREACH(iter, collection)
{
struct lif_dict_entry *entry = iter->data;
struct lif_interface *iface = entry->data;
if (iface->rdepends_count > maxdepth)
maxdepth = iface->rdepends_count;
}
/* move the collection to a temporary list so we can reorder it */
struct lif_list temp_list = {};
struct lif_node *iter_next;
LIF_LIST_FOREACH_SAFE(iter, iter_next, collection->list.head)
{
void *data = iter->data;
lif_node_delete(iter, &collection->list);
memset(iter, 0, sizeof *iter);
lif_node_insert(iter, data, &temp_list);
}
/* walk backwards from maxdepth to 0, readding nodes */
for (ssize_t curdepth = maxdepth; curdepth > -1; curdepth--)
{
LIF_LIST_FOREACH_SAFE(iter, iter_next, temp_list.head)
{
struct lif_dict_entry *entry = iter->data;
struct lif_interface *iface = entry->data;
if ((ssize_t) iface->rdepends_count != curdepth)
continue;
lif_node_delete(iter, &temp_list);
memset(iter, 0, sizeof *iter);
lif_node_insert(iter, entry, &collection->list);
}
}
return maxdepth;
}