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|
#include <math.h>
#include <tlspicotls/certs.h>
#include <tlspicotls/tls_picotls.h>
#include <tlspicotls/pico_vpp_crypto.h>
picotls_main_t picotls_main;
#define MAX_QUEUE 12000
#define PTLS_MAX_PLAINTEXT_RECORD_SIZE 16384
static ptls_key_exchange_algorithm_t *default_key_exchange[] = {
#ifdef PTLS_OPENSSL_HAVE_X25519
&ptls_openssl_x25519,
#endif
#ifdef PTLS_OPENSSL_HAVE_SECP256R1
&ptls_openssl_secp256r1,
#endif
#ifdef PTLS_OPENSSL_HAVE_SECP384R1
&ptls_openssl_secp384r1,
#endif
#ifdef PTLS_OPENSSL_HAVE_SECP521R1
&ptls_openssl_secp521r1
#endif
};
static u32
picotls_ctx_alloc (void)
{
u8 thread_id = vlib_get_thread_index ();
picotls_main_t *pm = &picotls_main;
picotls_ctx_t **ctx;
pool_get (pm->ctx_pool[thread_id], ctx);
if (!(*ctx))
*ctx = clib_mem_alloc (sizeof (picotls_ctx_t));
clib_memset (*ctx, 0, sizeof (picotls_ctx_t));
(*ctx)->ctx.c_thread_index = thread_id;
(*ctx)->ctx.tls_ctx_engine = CRYPTO_ENGINE_PICOTLS;
(*ctx)->ctx.app_session_handle = SESSION_INVALID_HANDLE;
(*ctx)->ptls_ctx_idx = ctx - pm->ctx_pool[thread_id];
return (*ctx)->ptls_ctx_idx;
}
static void
picotls_ctx_free (tls_ctx_t * ctx)
{
picotls_ctx_t *ptls_ctx = (picotls_ctx_t *) ctx;
vec_free (ptls_ctx->rx_content);
ptls_free (ptls_ctx->tls);
pool_put_index (picotls_main.ctx_pool[ctx->c_thread_index],
ptls_ctx->ptls_ctx_idx);
}
static u32
picotls_listen_ctx_alloc (void)
{
picotls_main_t *pm = &picotls_main;
picotls_listen_ctx_t *ptls_lctx;
pool_get (pm->lctx_pool, ptls_lctx);
clib_memset (ptls_lctx, 0, sizeof (picotls_listen_ctx_t));
ptls_lctx->ptls_lctx_index = ptls_lctx - pm->lctx_pool;
return ptls_lctx->ptls_lctx_index;
}
static void
picotls_listen_ctx_free (picotls_listen_ctx_t * lctx)
{
pool_put_index (picotls_main.lctx_pool, lctx->ptls_lctx_index);
}
tls_ctx_t *
picotls_ctx_get (u32 ctx_index)
{
picotls_ctx_t **ctx;
ctx =
pool_elt_at_index (picotls_main.ctx_pool[vlib_get_thread_index ()],
ctx_index);
return &(*ctx)->ctx;
}
picotls_listen_ctx_t *
picotls_lctx_get (u32 lctx_index)
{
return pool_elt_at_index (picotls_main.lctx_pool, lctx_index);
}
static u8
picotls_handshake_is_over (tls_ctx_t * ctx)
{
picotls_ctx_t *ptls_ctx = (picotls_ctx_t *) ctx;
assert (ptls_ctx->tls);
return ptls_handshake_is_complete (ptls_ctx->tls);
}
static int
picotls_try_handshake_write (picotls_ctx_t * ptls_ctx,
session_t * tls_session, ptls_buffer_t * buf)
{
u32 enq_max, enq_now;
svm_fifo_t *f;
int write, buf_left;
if (buf->off <= 0)
return 0;
f = tls_session->tx_fifo;
buf_left = buf->off;
enq_max = svm_fifo_max_enqueue_prod (f);
if (!enq_max)
return 0;
enq_now = clib_min (svm_fifo_max_write_chunk (f), enq_max);
enq_now = clib_min (enq_now, buf_left);
write = svm_fifo_enqueue (f, enq_now, buf->base);
buf_left -= write;
tls_add_vpp_q_tx_evt (tls_session);
return write;
}
static int
picotls_start_listen (tls_ctx_t * lctx)
{
picotls_listen_ctx_t *ptls_lctx;
ptls_context_t *ptls_ctx;
u32 ptls_lctx_idx;
app_cert_key_pair_t *ckpair;
ckpair = app_cert_key_pair_get_if_valid (lctx->ckpair_index);
if (!ckpair || !ckpair->cert || !ckpair->key)
{
TLS_DBG (1, "tls cert and/or key not configured %d",
lctx->parent_app_wrk_index);
return -1;
}
ptls_lctx_idx = picotls_listen_ctx_alloc ();
ptls_lctx = picotls_lctx_get (ptls_lctx_idx);
ptls_ctx = malloc (sizeof (ptls_context_t));
ptls_lctx->ptls_ctx = ptls_ctx;
memset (ptls_ctx, 0, sizeof (ptls_context_t));
ptls_ctx->update_open_count = NULL;
/*
* Process certificate & private key.
*/
load_bio_certificate_chain (ptls_ctx, (char *) ckpair->cert);
load_bio_private_key (ptls_ctx, (char *) ckpair->key);
/* setup protocol related functions */
ptls_ctx->key_exchanges = default_key_exchange;
ptls_ctx->random_bytes = ptls_openssl_random_bytes;
ptls_ctx->cipher_suites = ptls_vpp_crypto_cipher_suites;
ptls_ctx->get_time = &ptls_get_time;
lctx->tls_ssl_ctx = ptls_lctx_idx;
return 0;
}
static int
picotls_stop_listen (tls_ctx_t * lctx)
{
u32 ptls_lctx_index;
picotls_listen_ctx_t *ptls_lctx;
ptls_lctx_index = lctx->tls_ssl_ctx;
ptls_lctx = picotls_lctx_get (ptls_lctx_index);
picotls_listen_ctx_free (ptls_lctx);
return 0;
}
static void
picotls_handle_handshake_failure (tls_ctx_t * ctx)
{
session_free (session_get (ctx->c_s_index, ctx->c_thread_index));
ctx->no_app_session = 1;
ctx->c_s_index = SESSION_INVALID_INDEX;
tls_disconnect_transport (ctx);
}
static void
picotls_confirm_app_close (tls_ctx_t * ctx)
{
tls_disconnect_transport (ctx);
session_transport_closed_notify (&ctx->connection);
}
static int
picotls_transport_close (tls_ctx_t * ctx)
{
if (!picotls_handshake_is_over (ctx))
{
picotls_handle_handshake_failure (ctx);
return 0;
}
session_transport_closing_notify (&ctx->connection);
return 0;
}
static int
picotls_app_close (tls_ctx_t * ctx)
{
session_t *app_session;
app_session = session_get_from_handle (ctx->app_session_handle);
if (!svm_fifo_max_dequeue_cons (app_session->tx_fifo))
picotls_confirm_app_close (ctx);
else
ctx->app_closed = 1;
return 0;
}
static inline int
picotls_do_handshake (picotls_ctx_t *ptls_ctx, session_t *tcp_session)
{
int rv = PTLS_ERROR_IN_PROGRESS, write = 0, i = 0, read = 0, len;
svm_fifo_t *tcp_rx_fifo = tcp_session->rx_fifo;
ptls_buffer_t *buf = &ptls_ctx->read_buffer;
const int n_segs = 2, max_len = 16384;
ptls_t *tls = ptls_ctx->tls;
svm_fifo_seg_t fs[n_segs];
uword deq_now;
ptls_buffer_init (buf, "", 0);
len = svm_fifo_segments (tcp_rx_fifo, 0, fs, n_segs, max_len);
if (len <= 0)
return 0;
while (read < len && i < n_segs)
{
deq_now = fs[i].len;
rv = ptls_handshake (tls, buf, fs[i].data, &deq_now, NULL);
write += picotls_try_handshake_write (ptls_ctx, tcp_session, buf);
read += deq_now;
if (!(rv == 0 || rv == PTLS_ERROR_IN_PROGRESS))
{
clib_error ("unexpected error %u", rv);
break;
}
if (!rv)
break;
if (deq_now < fs[i].len)
{
fs[i].data += deq_now;
fs[i].len -= deq_now;
}
else
i++;
}
if (read)
svm_fifo_dequeue_drop (tcp_rx_fifo, read);
ptls_buffer_dispose (buf);
return write;
}
static inline int
ptls_copy_buf_to_fs (ptls_buffer_t *buf, u32 to_copy, svm_fifo_seg_t *fs,
u32 *fs_idx, u32 max_fs)
{
u32 idx = *fs_idx;
while (to_copy)
{
if (fs[idx].len <= to_copy)
{
clib_memcpy_fast (fs[idx].data, buf->base + (buf->off - to_copy),
fs[idx].len);
to_copy -= fs[idx].len;
idx += 1;
/* no more space in the app's rx fifo */
if (idx == max_fs)
break;
}
else
{
clib_memcpy_fast (fs[idx].data, buf->base + (buf->off - to_copy),
to_copy);
fs[idx].len -= to_copy;
fs[idx].data += to_copy;
to_copy = 0;
}
}
*fs_idx = idx;
return to_copy;
}
static inline int
picotls_ctx_read (tls_ctx_t *ctx, session_t *tcp_session)
{
picotls_ctx_t *ptls_ctx = (picotls_ctx_t *) ctx;
ptls_buffer_t *buf = &ptls_ctx->read_buffer;
int off = 0, ret, i = 0, read = 0, len;
const int n_segs = 4, max_len = 32768;
svm_fifo_t *tcp_rx_fifo, *app_rx_fifo;
picotls_main_t *pm = &picotls_main;
svm_fifo_seg_t fs[n_segs];
session_t *app_session;
u32 thread_index;
uword deq_now;
if (PREDICT_FALSE (!ptls_handshake_is_complete (ptls_ctx->tls)))
{
picotls_do_handshake (ptls_ctx, tcp_session);
if (picotls_handshake_is_over (ctx))
{
if (ptls_is_server (ptls_ctx->tls))
{
if (tls_notify_app_accept (ctx))
{
ctx->c_s_index = SESSION_INVALID_INDEX;
tls_disconnect_transport (ctx);
return -1;
}
}
else
{
tls_notify_app_connected (ctx, SESSION_E_NONE);
}
}
if (!svm_fifo_max_dequeue (tcp_session->rx_fifo))
return 0;
}
tcp_rx_fifo = tcp_session->rx_fifo;
app_session = session_get_from_handle (ctx->app_session_handle);
app_rx_fifo = app_session->rx_fifo;
if (TLS_READ_IS_LEFT (ptls_ctx))
goto do_enq;
len = svm_fifo_segments (tcp_rx_fifo, 0, fs, n_segs, max_len);
if (len <= 0)
goto final_checks;
thread_index = ptls_ctx->ctx.c_thread_index;
vec_validate (pm->rx_bufs[thread_index], 2 * max_len);
ptls_buffer_init (buf, pm->rx_bufs[thread_index], 2 * max_len);
ptls_ctx->read_buffer_offset = 0;
while (read < len && i < n_segs)
{
deq_now = fs[i].len;
ret = ptls_receive (ptls_ctx->tls, buf, fs[i].data, &deq_now);
ASSERT (ret == 0 || ret == PTLS_ERROR_IN_PROGRESS);
read += deq_now;
if (deq_now < fs[i].len)
{
fs[i].data += deq_now;
fs[i].len -= deq_now;
}
else
i++;
}
if (read)
svm_fifo_dequeue_drop (tcp_rx_fifo, read);
if (!TLS_READ_LEFT_LEN (ptls_ctx))
{
ptls_buffer_dispose (buf);
goto final_checks;
}
do_enq:
len = TLS_READ_LEFT_LEN (ptls_ctx);
off = svm_fifo_enqueue (app_rx_fifo, len, TLS_READ_OFFSET (ptls_ctx));
if (off != len)
{
if (off < 0)
{
off = 0;
goto final_checks;
}
ptls_ctx->read_buffer_offset += off;
}
else
{
buf->off = 0;
ptls_ctx->read_buffer_offset = 0;
}
if (app_session->session_state >= SESSION_STATE_READY)
tls_notify_app_enqueue (ctx, app_session);
final_checks:
if (TLS_READ_IS_LEFT (ptls_ctx) || svm_fifo_max_dequeue (tcp_rx_fifo))
tls_add_vpp_q_builtin_rx_evt (tcp_session);
return off;
}
static inline u32
ptls_compute_deq_len (picotls_ctx_t *ptls_ctx, u32 dst_chunk, u32 src_chunk,
u32 dst_space, u8 *is_nocopy)
{
int record_overhead = ptls_get_record_overhead (ptls_ctx->tls);
int num_records;
u32 deq_len, total_overhead;
if (dst_chunk >= clib_min (8192, src_chunk + record_overhead))
{
*is_nocopy = 1;
deq_len = clib_min (src_chunk, dst_chunk);
num_records = ceil ((f64) deq_len / PTLS_MAX_PLAINTEXT_RECORD_SIZE);
total_overhead = num_records * record_overhead;
if (deq_len + total_overhead > dst_chunk)
deq_len = dst_chunk - total_overhead;
}
else
{
deq_len = clib_min (src_chunk, dst_space);
num_records = ceil ((f64) deq_len / PTLS_MAX_PLAINTEXT_RECORD_SIZE);
total_overhead = num_records * record_overhead;
if (deq_len + total_overhead > dst_space)
deq_len = dst_space - total_overhead;
}
return deq_len;
}
static u32
ptls_app_to_tcp_write (picotls_ctx_t *ptls_ctx, session_t *app_session,
svm_fifo_t *tcp_tx_fifo, u32 max_len)
{
u32 wrote = 0, max_enq, thread_index, app_buf_len, left, ti = 0;
int read = 0, rv, i = 0, len, n_tcp_segs = 4, deq_len;
const int n_app_segs = 2, min_chunk = 2048;
svm_fifo_seg_t app_fs[n_app_segs], tcp_fs[n_tcp_segs];
picotls_main_t *pm = &picotls_main;
ptls_buffer_t _buf, *buf = &_buf;
svm_fifo_t *app_tx_fifo;
u8 is_nocopy, *app_buf;
u32 first_chunk_len;
thread_index = app_session->thread_index;
app_tx_fifo = app_session->tx_fifo;
len = svm_fifo_segments (app_tx_fifo, 0, app_fs, n_app_segs, max_len);
if (len <= 0)
return 0;
n_tcp_segs = svm_fifo_provision_chunks (tcp_tx_fifo, tcp_fs, n_tcp_segs,
1000 + max_len);
if (n_tcp_segs <= 0)
return 0;
while ((left = len - read) && ti < n_tcp_segs)
{
/* If we wrote something and are left with few bytes, postpone write
* as we may be able to encrypt a bigger chunk next time */
if (wrote && left < min_chunk)
break;
/* Avoid short records if possible */
if (app_fs[i].len < min_chunk && min_chunk < left)
{
app_buf_len = app_fs[i].len + app_fs[i + 1].len;
app_buf = pm->rx_bufs[thread_index];
vec_validate (pm->rx_bufs[thread_index], app_buf_len);
clib_memcpy_fast (pm->rx_bufs[thread_index], app_fs[i].data,
app_fs[i].len);
clib_memcpy_fast (pm->rx_bufs[thread_index] + app_fs[i].len,
app_fs[i + 1].data, app_buf_len - app_fs[i].len);
first_chunk_len = app_fs[i].len;
i += 1;
}
else
{
app_buf = app_fs[i].data;
app_buf_len = app_fs[i].len;
first_chunk_len = 0;
}
is_nocopy = 0;
max_enq = tcp_fs[ti].len;
max_enq += ti < (n_tcp_segs - 1) ? tcp_fs[ti + 1].len : 0;
deq_len = ptls_compute_deq_len (ptls_ctx, tcp_fs[ti].len, app_buf_len,
max_enq, &is_nocopy);
if (is_nocopy)
{
ptls_buffer_init (buf, tcp_fs[ti].data, tcp_fs[ti].len);
rv = ptls_send (ptls_ctx->tls, buf, app_buf, deq_len);
assert (rv == 0);
wrote += buf->off;
tcp_fs[ti].len -= buf->off;
tcp_fs[ti].data += buf->off;
if (!tcp_fs[ti].len)
ti += 1;
}
else
{
vec_validate (pm->tx_bufs[thread_index], max_enq);
ptls_buffer_init (buf, pm->tx_bufs[thread_index], max_enq);
rv = ptls_send (ptls_ctx->tls, buf, app_buf, deq_len);
assert (rv == 0);
wrote += buf->off;
left = ptls_copy_buf_to_fs (buf, buf->off, tcp_fs, &ti, n_tcp_segs);
assert (left == 0);
}
read += deq_len;
ASSERT (deq_len >= first_chunk_len);
if (deq_len == app_buf_len)
{
i += 1;
}
else
{
app_fs[i].len -= deq_len - first_chunk_len;
app_fs[i].data += deq_len - first_chunk_len;
}
}
if (read)
{
svm_fifo_dequeue_drop (app_tx_fifo, read);
if (svm_fifo_needs_deq_ntf (app_tx_fifo, read))
session_dequeue_notify (app_session);
}
if (wrote)
{
svm_fifo_enqueue_nocopy (tcp_tx_fifo, wrote);
if (svm_fifo_set_event (tcp_tx_fifo))
session_send_io_evt_to_thread (tcp_tx_fifo, SESSION_IO_EVT_TX);
}
return wrote;
}
static inline int
picotls_ctx_write (tls_ctx_t *ctx, session_t *app_session,
transport_send_params_t *sp)
{
picotls_ctx_t *ptls_ctx = (picotls_ctx_t *) ctx;
u32 deq_max, deq_now, enq_max, enq_buf, wrote = 0;
svm_fifo_t *tcp_tx_fifo;
session_t *tcp_session;
tcp_session = session_get_from_handle (ctx->tls_session_handle);
tcp_tx_fifo = tcp_session->tx_fifo;
enq_max = svm_fifo_max_enqueue_prod (tcp_tx_fifo);
if (enq_max < 2048)
goto check_tls_fifo;
deq_max = svm_fifo_max_dequeue_cons (app_session->tx_fifo);
deq_max = clib_min (deq_max, enq_max);
if (!deq_max)
goto check_tls_fifo;
deq_now = clib_min (deq_max, sp->max_burst_size);
wrote = ptls_app_to_tcp_write (ptls_ctx, app_session, tcp_tx_fifo, deq_now);
check_tls_fifo:
if (ctx->app_closed)
picotls_app_close (ctx);
/* Deschedule and wait for deq notification if fifo is almost full */
enq_buf = clib_min (svm_fifo_size (tcp_tx_fifo) / 2, TLSP_MIN_ENQ_SPACE);
if (enq_max < wrote + enq_buf)
{
svm_fifo_add_want_deq_ntf (tcp_tx_fifo, SVM_FIFO_WANT_DEQ_NOTIF);
transport_connection_deschedule (&ctx->connection);
sp->flags |= TRANSPORT_SND_F_DESCHED;
}
else
/* Request tx reschedule of the app session */
app_session->flags |= SESSION_F_CUSTOM_TX;
return wrote;
}
static int
picotls_ctx_init_server (tls_ctx_t * ctx)
{
picotls_ctx_t *ptls_ctx = (picotls_ctx_t *) ctx;
u32 ptls_lctx_idx = ctx->tls_ssl_ctx;
picotls_listen_ctx_t *ptls_lctx;
ptls_lctx = picotls_lctx_get (ptls_lctx_idx);
ptls_ctx->tls = ptls_new (ptls_lctx->ptls_ctx, 1);
if (ptls_ctx->tls == NULL)
{
TLS_DBG (1, "Failed to initialize ptls_ssl structure");
return -1;
}
ptls_ctx->rx_len = 0;
ptls_ctx->rx_offset = 0;
return 0;
}
static int
picotls_ctx_init_client (tls_ctx_t *ctx)
{
picotls_ctx_t *ptls_ctx = (picotls_ctx_t *) ctx;
picotls_main_t *pm = &picotls_main;
ptls_context_t *client_ptls_ctx = pm->client_ptls_ctx;
ptls_handshake_properties_t hsprop = { { { { NULL } } } };
session_t *tls_session = session_get_from_handle (ctx->tls_session_handle);
ptls_buffer_t hs_buf;
ptls_ctx->tls = ptls_new (client_ptls_ctx, 0);
if (ptls_ctx->tls == NULL)
{
TLS_DBG (1, "Failed to initialize ptls_ssl structure");
return -1;
}
ptls_ctx->rx_len = 0;
ptls_ctx->rx_offset = 0;
ptls_buffer_init (&hs_buf, "", 0);
if (ptls_handshake (ptls_ctx->tls, &hs_buf, NULL, NULL, &hsprop) !=
PTLS_ERROR_IN_PROGRESS)
{
TLS_DBG (1, "Failed to initialize tls connection");
}
picotls_try_handshake_write (ptls_ctx, tls_session, &hs_buf);
ptls_buffer_dispose (&hs_buf);
return 0;
}
tls_ctx_t *
picotls_ctx_get_w_thread (u32 ctx_index, u8 thread_index)
{
picotls_ctx_t **ctx;
ctx = pool_elt_at_index (picotls_main.ctx_pool[thread_index], ctx_index);
return &(*ctx)->ctx;
}
int
picotls_init_client_ptls_ctx (ptls_context_t **client_ptls_ctx)
{
*client_ptls_ctx = clib_mem_alloc (sizeof (ptls_context_t));
memset (*client_ptls_ctx, 0, sizeof (ptls_context_t));
(*client_ptls_ctx)->update_open_count = NULL;
(*client_ptls_ctx)->key_exchanges = default_key_exchange;
(*client_ptls_ctx)->random_bytes = ptls_openssl_random_bytes;
(*client_ptls_ctx)->cipher_suites = ptls_vpp_crypto_cipher_suites;
(*client_ptls_ctx)->get_time = &ptls_get_time;
return 0;
}
const static tls_engine_vft_t picotls_engine = {
.ctx_alloc = picotls_ctx_alloc,
.ctx_free = picotls_ctx_free,
.ctx_get = picotls_ctx_get,
.ctx_get_w_thread = picotls_ctx_get_w_thread,
.ctx_handshake_is_over = picotls_handshake_is_over,
.ctx_start_listen = picotls_start_listen,
.ctx_stop_listen = picotls_stop_listen,
.ctx_init_server = picotls_ctx_init_server,
.ctx_init_client = picotls_ctx_init_client,
.ctx_read = picotls_ctx_read,
.ctx_write = picotls_ctx_write,
.ctx_transport_close = picotls_transport_close,
.ctx_app_close = picotls_app_close,
};
static clib_error_t *
tls_picotls_init (vlib_main_t * vm)
{
vlib_thread_main_t *vtm = vlib_get_thread_main ();
picotls_main_t *pm = &picotls_main;
clib_error_t *error = 0;
u32 num_threads;
num_threads = 1 + vtm->n_threads;
vec_validate (pm->ctx_pool, num_threads - 1);
vec_validate (pm->rx_bufs, num_threads - 1);
vec_validate (pm->tx_bufs, num_threads - 1);
clib_rwlock_init (&picotls_main.crypto_keys_rw_lock);
tls_register_engine (&picotls_engine, CRYPTO_ENGINE_PICOTLS);
picotls_init_client_ptls_ctx (&pm->client_ptls_ctx);
return error;
}
/* *INDENT-OFF* */
VLIB_INIT_FUNCTION (tls_picotls_init) = {
.runs_after = VLIB_INITS ("tls_init"),
};
/* *INDENT-ON* */
/* *INDENT-OFF* */
VLIB_PLUGIN_REGISTER () = {
.version = VPP_BUILD_VER,
.description = "Transport Layer Security (TLS) Engine, Picotls Based",
};
/* *INDENT-ON* */
/*
* fd.io coding-style-patch-verification: ON
*
* Local Variables:
* eval: (c-set-style "gnu")
* End:
*/
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