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bird/nest/cli.c

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/*
* BIRD Internet Routing Daemon -- Command-Line Interface
*
* (c) 1999--2017 Martin Mares <mj@ucw.cz>
*
* Can be freely distributed and used under the terms of the GNU GPL.
*/
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/**
* DOC: Command line interface
*
* This module takes care of the BIRD's command-line interface (CLI).
* The CLI exists to provide a way to control BIRD remotely and to inspect
* its status. It uses a very simple textual protocol over a stream
* connection provided by the platform dependent code (on UNIX systems,
* it's a UNIX domain socket).
*
* Each session of the CLI consists of a sequence of request and replies,
* slightly resembling the FTP and SMTP protocols.
* Requests are commands encoded as a single line of text, replies are
* sequences of lines starting with a four-digit code followed by either
* a space (if it's the last line of the reply) or a minus sign (when the
* reply is going to continue with the next line), the rest of the line
* contains a textual message semantics of which depends on the numeric
* code. If a reply line has the same code as the previous one and it's
* a continuation line, the whole prefix can be replaced by a single
* white space character.
*
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* Reply codes starting with 0 stand for `action successfully completed' messages,
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* 1 means `table entry', 8 `runtime error' and 9 `syntax error'.
*
* Each CLI session is internally represented by a &cli structure and a
* resource pool containing all resources associated with the connection,
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* so that it can be easily freed whenever the connection gets closed, not depending
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* on the current state of command processing. A socket is associated with
* the session, over which requests and replies are sent.
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*
* The CLI commands are declared as a part of the configuration grammar
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* by using the |CF_CLI| macro. When a command is received, it is processed
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* by the same lexical analyzer and parser as used for the configuration, but
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* it's switched to a special mode by prepending a fake token to the text,
* so that it uses only the CLI command rules. Then the parser invokes
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* an execution routine corresponding to the command, which constructs the
* reply.
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*
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* Replies are buffered in memory and then sent asynchronously. Commands
* which produce long outputs must split them to pieces and yield to other
* operations between pieces. To simplify this (and possibly also complex
* parsing of input), the CLI session runs in a coroutine with its own
* execution context. At any time, cli_yield() can be called to interrupt
* the current coroutine and have the buffered output sent.
*
* Alternatively, a long sequence of replies can be split to parts
* using the @cont hook, which translates to yielding internally.
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*
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* The @this_cli variable points to a &cli structure of the session being
* currently parsed, but it's available only before the first yield.
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*
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* A note on transmit buffer management: cli.tx_buf is a head of a list
* of TX buffers (struct cli_out). A buffer pointed to by cli.tx_write
* is the one currently written to using cli_printf() and cli_alloc_out(),
* its wpos field points to the position of the write head in that buffer.
* On the other side, cli.tx_pos is the buffer being set to the socket
* and its outpos field is the position of the read head.
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*/
#undef LOCAL_DEBUG
#include "nest/bird.h"
#include "nest/cli.h"
#include "conf/conf.h"
#include "lib/coroutine.h"
#include "lib/string.h"
pool *cli_pool;
/* Hack for scheduled undo notification */
extern cli *cmd_reconfig_stored_cli;
/*
* Output buffering
*/
static byte *
cli_alloc_out(cli *c, int size)
{
struct cli_out *o;
if (!(o = c->tx_write) || o->wpos + size > o->end)
{
if (!o && c->tx_buf)
o = c->tx_buf;
else
{
o = mb_alloc(c->pool, sizeof(struct cli_out) + CLI_TX_BUF_SIZE);
if (c->tx_write)
c->tx_write->next = o;
else
c->tx_buf = o;
o->wpos = o->outpos = o->buf;
o->end = o->buf + CLI_TX_BUF_SIZE;
}
c->tx_write = o;
if (!c->tx_pos)
c->tx_pos = o;
o->next = NULL;
}
o->wpos += size;
return o->wpos - size;
}
static void
cli_vprintf(cli *c, int code, const char *msg, va_list args)
{
byte buf[CLI_LINE_SIZE];
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int cd = code;
int errcode;
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int size, cnt;
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if (cd < 0)
{
cd = -cd;
if (cd == c->last_reply)
size = bsprintf(buf, " ");
else
size = bsprintf(buf, "%04d-", cd);
errcode = -8000;
}
else if (cd == CLI_ASYNC_CODE)
{
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size = 1; buf[0] = '+';
errcode = cd;
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}
else
{
size = bsprintf(buf, "%04d ", cd);
errcode = 8000;
}
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c->last_reply = cd;
cnt = bvsnprintf(buf+size, sizeof(buf)-size-1, msg, args);
if (cnt < 0)
{
cli_printf(c, errcode, "<line overflow>");
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return;
}
size += cnt;
buf[size++] = '\n';
memcpy(cli_alloc_out(c, size), buf, size);
}
/**
* cli_printf - send reply to a CLI connection
* @c: CLI connection
* @code: numeric code of the reply, negative for continuation lines
* @msg: a printf()-like formatting string.
*
* This function send a single line of reply to a given CLI connection.
* In works in all aspects like bsprintf() except that it automatically
* prepends the reply line prefix.
*
* Please note that if the connection can be already busy sending some
* data in which case cli_printf() stores the output to a temporary buffer,
* so please avoid sending a large batch of replies without waiting
* for the buffers to be flushed.
*
* If you want to write to the current CLI output, you can use the cli_msg()
* macro instead.
*
* If you want to pass a va_list, use cli_vprintf().
*/
void
cli_printf(cli *c, int code, char *msg, ...)
{
va_list args;
va_start(args, msg);
cli_vprintf(c, code, msg, args);
va_end(args);
}
static void
cli_copy_message(cli *c)
{
byte *p, *q;
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uint cnt = 2;
if (c->ring_overflow)
{
byte buf[64];
int n = bsprintf(buf, "<%d messages lost>\n", c->ring_overflow);
c->ring_overflow = 0;
memcpy(cli_alloc_out(c, n), buf, n);
}
p = c->ring_read;
while (*p)
{
cnt++;
p++;
if (p == c->ring_end)
p = c->ring_buf;
ASSERT(p != c->ring_write);
}
c->async_msg_size += cnt;
q = cli_alloc_out(c, cnt);
*q++ = '+';
p = c->ring_read;
do
{
*q = *p++;
if (p == c->ring_end)
p = c->ring_buf;
}
while (*q++);
c->ring_read = p;
q[-1] = '\n';
}
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static void
cli_hello(cli *c)
{
cli_printf(c, 1, "BIRD " BIRD_VERSION " ready.");
c->cont = NULL;
}
static void
cli_free_out(cli *c)
{
struct cli_out *o, *p;
if (o = c->tx_buf)
{
o->wpos = o->outpos = o->buf;
while (p = o->next)
{
o->next = p->next;
mb_free(p);
}
}
c->tx_write = c->tx_pos = NULL;
c->async_msg_size = 0;
}
static void
cli_write(cli *c)
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{
DBG("CLI write begin\n");
sock *s = c->socket;
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while (c->tx_pos)
{
struct cli_out *o = c->tx_pos;
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int len = o->wpos - o->outpos;
s->tbuf = o->outpos;
o->outpos = o->wpos;
coro_sk_write(s, len);
c->tx_pos = o->next;
}
/* Everything is written */
s->tbuf = NULL;
cli_free_out(c);
DBG("CLI write done\n");
}
void
cli_write_trigger(cli *c)
{
if (c->tx_pos && c->socket->tbuf == NULL)
cli_write(c);
}
static void
cli_err_hook(sock *s, int err)
{
if (config->cli_debug)
{
if (err)
log(L_INFO "CLI connection dropped: %s", strerror(err));
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else
log(L_INFO "CLI connection closed");
}
cli_free(s->data);
}
/*
* Echoing of asynchronous messages
*/
static list cli_log_hooks;
static int cli_log_inited;
void
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cli_set_log_echo(cli *c, uint mask, uint size)
{
if (c->ring_buf)
{
mb_free(c->ring_buf);
c->ring_buf = c->ring_end = c->ring_read = c->ring_write = NULL;
rem_node(&c->n);
}
c->log_mask = mask;
if (mask && size)
{
c->ring_buf = mb_alloc(c->pool, size);
c->ring_end = c->ring_buf + size;
c->ring_read = c->ring_write = c->ring_buf;
add_tail(&cli_log_hooks, &c->n);
c->log_threshold = size / 8;
}
c->ring_overflow = 0;
}
void
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cli_echo(uint class, byte *msg)
{
unsigned len, free, i, l;
cli *c;
byte *m;
if (!cli_log_inited || EMPTY_LIST(cli_log_hooks))
return;
len = strlen(msg) + 1;
WALK_LIST(c, cli_log_hooks)
{
if (!(c->log_mask & (1 << class)))
continue;
if (c->ring_read <= c->ring_write)
free = (c->ring_end - c->ring_buf) - (c->ring_write - c->ring_read + 1);
else
free = c->ring_read - c->ring_write - 1;
if ((len > free) ||
(free < c->log_threshold && class < (unsigned) L_INFO[0]))
{
c->ring_overflow++;
continue;
}
if (c->ring_read == c->ring_write)
ev_schedule(c->event);
m = msg;
l = len;
while (l)
{
if (c->ring_read <= c->ring_write)
i = c->ring_end - c->ring_write;
else
i = c->ring_read - c->ring_write;
if (i > l)
i = l;
memcpy(c->ring_write, m, i);
m += i;
l -= i;
c->ring_write += i;
if (c->ring_write == c->ring_end)
c->ring_write = c->ring_buf;
}
}
}
/*
* Reading of input
*/
static int
cli_getchar(cli *c)
{
sock *s = c->socket;
if (c->rx_aux == s->rpos)
{
DBG("CLI: Waiting on read\n");
c->rx_aux = s->rpos = s->rbuf;
c->state = CLI_STATE_WAIT_RX;
int n = coro_sk_read(s);
c->state = CLI_STATE_RUN;
DBG("CLI: Read returned %d bytes\n", n);
ASSERT(n);
}
return *c->rx_aux++;
}
static int
cli_read_line(cli *c)
{
byte *d = c->rx_buf;
byte *dend = c->rx_buf + CLI_RX_BUF_SIZE - 2;
for (;;)
{
int ch = cli_getchar(c);
if (ch == '\r')
;
else if (ch == '\n')
break;
else if (d < dend)
*d++ = ch;
}
if (d >= dend)
return 0;
*d = 0;
return 1;
}
/*
* Execution of commands
*/
struct cli *this_cli;
struct cli_conf_order {
struct conf_order co;
struct cli *cli;
};
static void
cli_cmd_error(struct conf_order *co, const char *msg, va_list args)
{
struct cli_conf_order *cco = (struct cli_conf_order *) co;
cli_vprintf(cco->cli, 9001, msg, args);
}
static void
cli_command(struct cli *c)
{
struct conf_state state = {
.name = "",
.lino = 1
};
struct cli_conf_order o = {
.co = {
.ctx = NULL,
.state = &state,
.buf = c->rx_buf,
.len = strlen(c->rx_buf),
.cf_include = NULL,
.cf_outclude = NULL,
.cf_error = cli_cmd_error,
.lp = c->parser_pool,
.pool = c->pool,
},
.cli = c,
};
if (config->cli_debug > 1)
log(L_TRACE "CLI: %s", c->rx_buf);
lp_flush(c->parser_pool);
this_cli = c;
cli_parse(&(o.co));
}
/*
* Session control
*/
static void
cli_event(void *data)
{
cli *c = data;
DBG("CLI: Event in state %u\n", (int) c->state);
while (c->ring_read != c->ring_write &&
c->async_msg_size < CLI_MAX_ASYNC_QUEUE)
cli_copy_message(c);
cli_write_trigger(c);
if (c->state == CLI_STATE_YIELD ||
c->state == CLI_STATE_WAIT_TX && !c->tx_pos)
coro_resume(c->coro);
}
void
cli_yield(cli *c)
{
c->state = CLI_STATE_YIELD;
DBG("CLI: Yielding\n");
ev_schedule(c->event);
coro_suspend();
c->state = CLI_STATE_RUN;
DBG("CLI: Yield resumed\n");
}
void
cli_sleep(cli *c)
{
c->state = CLI_STATE_SLEEP;
DBG("CLI: Sleeping\n");
coro_suspend();
c->state = CLI_STATE_RUN;
DBG("CLI: Woken up\n");
}
void
cli_wakeup(cli *c)
{
ASSERT(c->state == CLI_STATE_SLEEP);
c->state = CLI_STATE_YIELD;
ev_schedule(c->event);
}
static void
cli_coroutine(void *_c)
{
cli *c = _c;
sock *s = c->socket;
DBG("CLI: Coroutine started\n");
c->rx_aux = s->rbuf;
for (;;)
{
while (c->tx_pos)
{
DBG("CLI: Sleeping on write\n");
c->state = CLI_STATE_WAIT_TX;
coro_suspend();
c->state = CLI_STATE_RUN;
DBG("CLI: Woke up on write\n");
}
if (c->cont)
{
c->cont(c);
cli_write_trigger(c);
cli_yield(c);
continue;
}
if (!cli_read_line(c))
cli_printf(c, 9000, "Command too long");
else
cli_command(c);
cli_write_trigger(c);
}
}
cli *
cli_new(sock *s)
{
pool *p = rp_new(cli_pool, "CLI session");
cli *c = mb_alloc(p, sizeof(cli));
DBG("CLI: Created new session\n");
bzero(c, sizeof(cli));
c->pool = p;
c->socket = s;
c->event = ev_new(p);
c->event->hook = cli_event;
c->event->data = c;
c->cont = cli_hello;
c->parser_pool = lp_new_default(c->pool);
c->show_pool = lp_new_default(c->pool);
c->rx_buf = mb_alloc(c->pool, CLI_RX_BUF_SIZE);
s->pool = c->pool; /* We need to have all the socket buffers allocated in the cli pool */
rmove(s, c->pool);
s->err_hook = cli_err_hook;
s->data = c;
return c;
}
void
cli_run(cli *c)
{
DBG("CLI: Running\n");
c->state = CLI_STATE_RUN;
c->rx_pos = c->rx_buf;
c->rx_aux = NULL;
c->coro = coro_new(c->pool, cli_coroutine, c);
coro_resume(c->coro);
}
void
cli_free(cli *c)
{
DBG("CLI: Destroying session\n");
cli_set_log_echo(c, 0, 0);
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if (c->cleanup)
c->cleanup(c);
if (c == cmd_reconfig_stored_cli)
cmd_reconfig_stored_cli = NULL;
rfree(c->pool);
}
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/**
* cli_init - initialize the CLI module
*
* This function is called during BIRD startup to initialize
* the internal data structures of the CLI module.
*/
void
cli_init(void)
{
cli_pool = rp_new(&root_pool, "CLI");
init_list(&cli_log_hooks);
cli_log_inited = 1;
}