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bird/nest/cbor_cmds.c

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#include "nest/bird.h"
#include "nest/protocol.h"
#include "nest/route.h"
#include "nest/cli.h"
#include "conf/conf.h"
#include "lib/string.h"
#include "filter/filter.h"
#include "nest/cbor_cmds.h"
#include "proto/ospf/ospf_for_cbor.c"
uint compare_str(byte *str1, uint length, const char *str2) {
if (length != strlen(str2)) {
return 0;
}
for (size_t i = 0; i < length; i++) {
if (str1[i]!=str2[i]) {
return 0;
}
}
return 1;
}
int64_t preprocess_time(btime t) {
return tm_get_real_time(t) TO_S ;
}
extern pool *rt_table_pool;
extern pool *rta_pool;
extern uint *pages_kept;
uint
cmd_show_memory_cbor(byte *tbuf, uint capacity, struct linpool *lp)
{
log("in cmd_show_memory_cbor");
struct cbor_writer *w = cbor_init(tbuf, capacity, lp);
cbor_open_block_with_length(w, 1);
cbor_add_string(w, "show_memory:message");
cbor_open_block_with_length(w, 2);
cbor_string_string(w, "header", "BIRD memory usage");
cbor_add_string(w, "body");
cbor_open_block(w);
struct resmem memory = rmemsize(rt_table_pool);
cbor_named_block_two_ints(w, "routing_tables", "effective", memory.effective, "overhead", memory.overhead);
memory = rmemsize(rta_pool);
cbor_named_block_two_ints(w, "route_attributes", "effective", memory.effective, "overhead", memory.overhead);
memory = rmemsize(proto_pool);
cbor_named_block_two_ints(w, "protocols", "effective", memory.effective, "overhead", memory.overhead);
memory = rmemsize(config_pool);
cbor_named_block_two_ints(w, "current_config", "effective", memory.effective, "overhead", memory.overhead);
memory = rmemsize(&root_pool);
#ifdef HAVE_MMAP
cbor_named_block_two_ints(w, "standby_memory", "effective", 0, "overhead", page_size * *pages_kept);
#endif
memory.overhead += page_size * *pages_kept;
cbor_named_block_two_ints(w, "total", "effective", memory.effective, "overhead", memory.overhead);
cbor_close_block_or_list(w); // we do not know for sure, that standby memory will be printed, so we do not know number of block items. If we know that, we open the block for 6 (or 5) items and we do not close anything
cbor_write_to_file(w, "show_memory.cbor");
return w->pt;
}
extern int shutting_down;
extern int configuring;
uint
cmd_show_status_cbor(byte *tbuf, uint capacity, struct linpool *lp)
{
log("show status");
struct cbor_writer *w = cbor_init(tbuf, capacity, lp);
cbor_open_block_with_length(w, 1);
cbor_add_string(w, "show_status:message");
cbor_open_block_with_length(w, 3);
cbor_string_string(w, "version", BIRD_VERSION);
cbor_add_string(w, "body");
cbor_open_block(w);
cbor_string_int(w, "router_id", config->router_id);
cbor_string_string(w, "hostname", config->hostname);
cbor_string_int(w, "server_time", preprocess_time(current_time()));
cbor_string_int(w, "last_reboot", preprocess_time(boot_time));
cbor_string_int(w, "last_reconfiguration", preprocess_time(config->load_time));
if (is_gr_active())
{
log("graceful restart");
cbor_add_string(w, "gr_restart");
cbor_open_block_with_length(w, 2);
cbor_string_int(w, "waiting_for_n_channels_to_recover", get_graceful_restart_locks_num());
cbor_add_string(w, "wait_timer");
cbor_open_block_with_length(w, 2);
cbor_string_int(w, "remains", get_tm_remains_gr_wait_timer());
cbor_string_int(w, "count_time", get_config_gr_wait());
}
cbor_close_block_or_list(w);
cbor_add_string(w, "state");
if (shutting_down)
cbor_add_string(w, "Shutdown in progress");
else if (configuring)
cbor_add_string(w, "Reconfiguration in progress");
else
cbor_add_string(w, "Daemon is up and running");
cbor_write_to_file(w, "test.cbor");
log("leaving show status");
return w->pt;
}
int parse_show_symbols_arg(struct argument *argument)
{
char *params[] = {"table", "filter", "function", "protocol", "template"};
int param_vals[] = {SYM_TABLE, SYM_FILTER, SYM_FUNCTION, SYM_PROTO, SYM_TEMPLATE}; // defined in conf.h
for (size_t j = 0; j < sizeof(params)/sizeof(char*); j++)
{
if (compare_str(argument->arg, argument->len, params[j]))
{
return param_vals[j];
}
}
return -1;
}
uint
cmd_show_symbols_cbor(byte *tbuf, uint capacity, struct arg_list *args, struct linpool *lp)
{
struct cbor_writer *w = cbor_init(tbuf, capacity, lp);
cbor_open_block_with_length(w, 1);
cbor_add_string(w, "show_symbols:message");
cbor_open_block_with_length(w, 1);
int show_type = SYM_VOID;
if (args->pt > 0)
{
show_type = parse_show_symbols_arg(&args->args[args->pt - 1]); // Takes just the last one argument. Current bird cli answers only last argument too, but can fail on previous.
}
if (show_type == -1)
{
cbor_add_string(w, "table");
cbor_open_list_with_length(w, 1);
cbor_open_block_with_length(w, 2);
for (const struct sym_scope *scope = config->root_scope; scope; scope = scope->next)
{
HASH_WALK(scope->hash, next, sym)
{
if (compare_str(args->args[args->pt - 1].arg, args->args[args->pt - 1].len, sym->name))
{
cbor_add_string(w, "name");
cbor_nonterminated_string(w, args->args[args->pt - 1].arg, args->args[args->pt - 1].len);
cbor_string_string(w, "type", cf_symbol_class_name(sym));
return w->pt;
}
}
HASH_WALK_END;
}
cbor_add_string(w, "name");
cbor_nonterminated_string(w, args->args[args->pt - 1].arg, args->args[args->pt - 1].len);
cbor_string_string(w, "type", "symbol not known");
return w->pt;
}
else
{
cbor_add_string(w, "table");
cbor_open_list(w);
for (const struct sym_scope *scope = config->root_scope; scope; scope = scope->next)
HASH_WALK(scope->hash, next, sym)
{
if (!sym->scope->active)
continue;
if (show_type != SYM_VOID && (sym->class != show_type))
continue;
cbor_open_block_with_length(w, 2);
cbor_string_string(w, "name", sym->name);
cbor_string_string(w, "type", cf_symbol_class_name(sym));
}
HASH_WALK_END;
cbor_close_block_or_list(w);
return w->pt;
}
}
struct proto *
cbor_get_proto_type(enum protocol_class proto_type, struct cbor_writer *w)
{
log("in type");
struct proto *p, *q;
p = NULL;
WALK_LIST(q, proto_list)
if ((q->proto->class == proto_type) && (q->proto_state != PS_DOWN))
{
if (p)
{
cbor_string_string(w, "error", "multiple protocols running");
return NULL;
}
p = q;
}
if (!p)
{
cbor_string_string(w, "error", "no such protocols running");
return NULL;
}
return p;
}
struct proto *
cbor_get_proto_name(struct argument *arg, enum protocol_class proto_type, struct cbor_writer *w)
{
log("in name");
struct proto *q;
WALK_LIST(q, proto_list)
{
log("%s %s %i %i %i", arg->arg, q->name, compare_str(arg->arg, arg->len, q->name) , (q->proto_state != PS_DOWN) , (q->proto->class == proto_type));
if (compare_str(arg->arg, arg->len, q->name) && (q->proto_state != PS_DOWN) && (q->proto->class == proto_type))
{
return q;
}
}
cbor_add_string(w, "not found");
cbor_nonterminated_string(w, arg->arg, arg->len);
return NULL;
}
uint
cmd_show_ospf_cbor(byte *tbuf, uint capacity, struct arg_list *args, struct linpool *lp)
{
log("in ospf args %i, pt %i", args, args->pt);
struct cbor_writer *w = cbor_init(tbuf, capacity, lp);
cbor_open_block_with_length(w, 1);
cbor_add_string(w, "show_ospf:message");
if (args->pt == 0)
{
cbor_open_block_with_length(w, 1);
cbor_string_string(w, "not implemented", "show everything about ospf");
return w->pt;
}
if (compare_str(args->args[0].arg, args->args[0].len, "topology"))
{
cbor_open_block(w);
struct proto *proto;
int all_ospf = (args->pt > 1) && compare_str(args->args[1].arg, args->args[1].len, "all");
if (args->pt - all_ospf > 1) // if there is protocol name
{
proto = cbor_get_proto_name(&args->args[args->pt -1], PROTOCOL_OSPF, w);
}
else {
proto = cbor_get_proto_type(PROTOCOL_OSPF, w);
}
if (proto == NULL)
{
cbor_close_block_or_list(w);
return w->pt;
}
ospf_sh_state_cbor(w, proto, 0, all_ospf);
cbor_close_block_or_list(w);
return w->pt;
} else {
cbor_open_block_with_length(w, 1);
cbor_add_string(w, "not implemented");
cbor_nonterminated_string(w, args->args[0].arg, args->args[0].len);
return w->pt;
}
}