/*
* Copyright (C) Igor Sysoev
* Copyright (C) NGINX, Inc.
*/
#include <nxt_router.h>
#include <nxt_http.h>
/*
* nxt_http_conn_ and nxt_h1p_conn_ prefixes are used for connection handlers.
* nxt_h1p_idle_ prefix is used for idle connection handlers.
* nxt_h1p_request_ prefix is used for HTTP/1 protocol request methods.
*/
#if (NXT_TLS)
static ssize_t nxt_http_idle_io_read_handler(nxt_conn_t *c);
static void nxt_http_conn_test(nxt_task_t *task, void *obj, void *data);
#endif
static ssize_t nxt_h1p_idle_io_read_handler(nxt_conn_t *c);
static void nxt_h1p_conn_proto_init(nxt_task_t *task, void *obj, void *data);
static void nxt_h1p_conn_request_init(nxt_task_t *task, void *obj, void *data);
static void nxt_h1p_conn_request_header_parse(nxt_task_t *task, void *obj,
void *data);
static nxt_int_t nxt_h1p_header_process(nxt_h1proto_t *h1p,
nxt_http_request_t *r);
static nxt_int_t nxt_h1p_header_buffer_test(nxt_task_t *task,
nxt_h1proto_t *h1p, nxt_conn_t *c, nxt_socket_conf_t *skcf);
static nxt_int_t nxt_h1p_connection(void *ctx, nxt_http_field_t *field,
uintptr_t data);
static nxt_int_t nxt_h1p_transfer_encoding(void *ctx, nxt_http_field_t *field,
uintptr_t data);
static void nxt_h1p_request_body_read(nxt_task_t *task, nxt_http_request_t *r);
static void nxt_h1p_conn_request_body_read(nxt_task_t *task, void *obj,
void *data);
static void nxt_h1p_request_local_addr(nxt_task_t *task, nxt_http_request_t *r);
static void nxt_h1p_request_header_send(nxt_task_t *task,
nxt_http_request_t *r);
static void nxt_h1p_request_send(nxt_task_t *task, nxt_http_request_t *r,
nxt_buf_t *out);
static nxt_buf_t *nxt_h1p_chunk_create(nxt_task_t *task, nxt_http_request_t *r,
nxt_buf_t *out);
static nxt_off_t nxt_h1p_request_body_bytes_sent(nxt_task_t *task,
nxt_http_proto_t proto);
static void nxt_h1p_request_discard(nxt_task_t *task, nxt_http_request_t *r,
nxt_buf_t *last);
static void nxt_h1p_conn_request_error(nxt_task_t *task, void *obj, void *data);
static void nxt_h1p_conn_request_timeout(nxt_task_t *task, void *obj,
void *data);
static void nxt_h1p_conn_request_send_timeout(nxt_task_t *task, void *obj,
void *data);
static nxt_msec_t nxt_h1p_conn_request_timer_value(nxt_conn_t *c,
uintptr_t data);
nxt_inline void nxt_h1p_request_error(nxt_task_t *task, nxt_h1proto_t *h1p,
nxt_http_request_t *r);
static void nxt_h1p_request_close(nxt_task_t *task, nxt_http_proto_t proto,
nxt_socket_conf_joint_t *joint);
static void nxt_h1p_conn_sent(nxt_task_t *task, void *obj, void *data);
static void nxt_h1p_conn_close(nxt_task_t *task, void *obj, void *data);
static void nxt_h1p_conn_error(nxt_task_t *task, void *obj, void *data);
static nxt_msec_t nxt_h1p_conn_timer_value(nxt_conn_t *c, uintptr_t data);
static void nxt_h1p_keepalive(nxt_task_t *task, nxt_h1proto_t *h1p,
nxt_conn_t *c);
static void nxt_h1p_idle_close(nxt_task_t *task, void *obj, void *data);
static void nxt_h1p_idle_timeout(nxt_task_t *task, void *obj, void *data);
static void nxt_h1p_idle_response(nxt_task_t *task, nxt_conn_t *c);
static void nxt_h1p_idle_response_sent(nxt_task_t *task, void *obj, void *data);
static void nxt_h1p_idle_response_timeout(nxt_task_t *task, void *obj,
void *data);
static nxt_msec_t nxt_h1p_idle_response_timer_value(nxt_conn_t *c,
uintptr_t data);
static void nxt_h1p_shutdown(nxt_task_t *task, nxt_conn_t *c);
static void nxt_h1p_conn_closing(nxt_task_t *task, void *obj, void *data);
static void nxt_h1p_conn_free(nxt_task_t *task, void *obj, void *data);
#if (NXT_TLS)
static const nxt_conn_state_t nxt_http_idle_state;
static const nxt_conn_state_t nxt_h1p_shutdown_state;
#endif
static const nxt_conn_state_t nxt_h1p_idle_state;
static const nxt_conn_state_t nxt_h1p_idle_close_state;
static const nxt_conn_state_t nxt_h1p_header_parse_state;
static const nxt_conn_state_t nxt_h1p_read_body_state;
static const nxt_conn_state_t nxt_h1p_request_send_state;
static const nxt_conn_state_t nxt_h1p_timeout_response_state;
static const nxt_conn_state_t nxt_h1p_keepalive_state;
static const nxt_conn_state_t nxt_h1p_close_state;
const nxt_http_proto_body_read_t nxt_http_proto_body_read[3] = {
nxt_h1p_request_body_read,
NULL,
NULL,
};
const nxt_http_proto_local_addr_t nxt_http_proto_local_addr[3] = {
nxt_h1p_request_local_addr,
NULL,
NULL,
};
const nxt_http_proto_header_send_t nxt_http_proto_header_send[3] = {
nxt_h1p_request_header_send,
NULL,
NULL,
};
const nxt_http_proto_send_t nxt_http_proto_send[3] = {
nxt_h1p_request_send,
NULL,
NULL,
};
const nxt_http_proto_body_bytes_sent_t nxt_http_proto_body_bytes_sent[3] = {
nxt_h1p_request_body_bytes_sent,
NULL,
NULL,
};
const nxt_http_proto_discard_t nxt_http_proto_discard[3] = {
nxt_h1p_request_discard,
NULL,
NULL,
};
const nxt_http_proto_close_t nxt_http_proto_close[3] = {
nxt_h1p_request_close,
NULL,
NULL,
};
static nxt_lvlhsh_t nxt_h1p_fields_hash;
static nxt_http_field_proc_t nxt_h1p_fields[] = {
{ nxt_string("Connection"), &nxt_h1p_connection, 0 },
{ nxt_string("Transfer-Encoding"), &nxt_h1p_transfer_encoding, 0 },
{ nxt_string("Host"), &nxt_http_request_host, 0 },
{ nxt_string("Cookie"), &nxt_http_request_field,
offsetof(nxt_http_request_t, cookie) },
{ nxt_string("Referer"), &nxt_http_request_field,
offsetof(nxt_http_request_t, referer) },
{ nxt_string("User-Agent"), &nxt_http_request_field,
offsetof(nxt_http_request_t, user_agent) },
{ nxt_string("Content-Type"), &nxt_http_request_field,
offsetof(nxt_http_request_t, content_type) },
{ nxt_string("Content-Length"), &nxt_http_request_content_length, 0 },
};
nxt_int_t
nxt_h1p_init(nxt_task_t *task, nxt_runtime_t *rt)
{
return nxt_http_fields_hash(&nxt_h1p_fields_hash, rt->mem_pool,
nxt_h1p_fields, nxt_nitems(nxt_h1p_fields));
}
void
nxt_http_conn_init(nxt_task_t *task, void *obj, void *data)
{
nxt_conn_t *c;
nxt_socket_conf_t *skcf;
nxt_event_engine_t *engine;
nxt_listen_event_t *lev;
nxt_socket_conf_joint_t *joint;
c = obj;
lev = data;
nxt_debug(task, "http conn init");
joint = lev->socket.data;
skcf = joint->socket_conf;
c->local = skcf->sockaddr;
engine = task->thread->engine;
c->read_work_queue = &engine->fast_work_queue;
c->write_work_queue = &engine->fast_work_queue;
c->read_state = &nxt_h1p_idle_state;
#if (NXT_TLS)
if (skcf->tls != NULL) {
c->read_state = &nxt_http_idle_state;
}
#endif
nxt_conn_read(engine, c);
}
#if (NXT_TLS)
static const nxt_conn_state_t nxt_http_idle_state
nxt_aligned(64) =
{
.ready_handler = nxt_http_conn_test,
.close_handler = nxt_h1p_conn_close,
.error_handler = nxt_h1p_conn_error,
.io_read_handler = nxt_http_idle_io_read_handler,
.timer_handler = nxt_h1p_idle_timeout,
.timer_value = nxt_h1p_conn_timer_value,
.timer_data = offsetof(nxt_socket_conf_t, idle_timeout),
};
static ssize_t
nxt_http_idle_io_read_handler(nxt_conn_t *c)
{
size_t size;
ssize_t n;
nxt_buf_t *b;
nxt_socket_conf_joint_t *joint;
joint = c->listen->socket.data;
if (nxt_slow_path(joint == NULL)) {
/*
* Listening socket had been closed while
* connection was in keep-alive state.
*/
c->read_state = &nxt_h1p_idle_close_state;
return 0;
}
size = joint->socket_conf->header_buffer_size;
b = nxt_buf_mem_alloc(c->mem_pool, size, 0);
if (nxt_slow_path(b == NULL)) {
c->socket.error = NXT_ENOMEM;
return NXT_ERROR;
}
/*
* 1 byte is enough to distinguish between SSLv3/TLS and plain HTTP.
* 11 bytes are enough to log supported SSLv3/TLS version.
* 16 bytes are just for more optimized kernel copy-out operation.
*/
n = c->io->recv(c, b->mem.pos, 16, MSG_PEEK);
if (n > 0) {
c->read = b;
} else {
c->read = NULL;
nxt_mp_free(c->mem_pool, b);
}
return n;
}
static void
nxt_http_conn_test(nxt_task_t *task, void *obj, void *data)
{
u_char *p;
nxt_buf_t *b;
nxt_conn_t *c;
nxt_tls_conf_t *tls;
nxt_socket_conf_joint_t *joint;
c = obj;
nxt_debug(task, "h1p conn https test");
b = c->read;
p = b->mem.pos;
c->read_state = &nxt_h1p_idle_state;
if (p[0] != 0x16) {
b->mem.free = b->mem.pos;
nxt_conn_read(task->thread->engine, c);
return;
}
/* SSLv3/TLS ClientHello message. */
#if (NXT_DEBUG)
if (nxt_buf_mem_used_size(&b->mem) >= 11) {
u_char major, minor;
const char *protocol;
major = p[9];
minor = p[10];
if (major == 3) {
if (minor == 0) {
protocol = "SSLv";
} else {
protocol = "TLSv";
major -= 2;
minor -= 1;
}
nxt_debug(task, "SSL/TLS: %s%ud.%ud", protocol, major, minor);
}
}
#endif
c->read = NULL;
nxt_mp_free(c->mem_pool, b);
joint = c->listen->socket.data;
if (nxt_slow_path(joint == NULL)) {
/*
* Listening socket had been closed while
* connection was in keep-alive state.
*/
nxt_h1p_shutdown(task, c);
return;
}
tls = joint->socket_conf->tls;
tls->conn_init(task, tls, c);
}
#endif
static const nxt_conn_state_t nxt_h1p_idle_state
nxt_aligned(64) =
{
.ready_handler = nxt_h1p_conn_proto_init,
.close_handler = nxt_h1p_conn_close,
.error_handler = nxt_h1p_conn_error,
.io_read_handler = nxt_h1p_idle_io_read_handler,
.timer_handler = nxt_h1p_idle_timeout,
.timer_value = nxt_h1p_conn_timer_value,
.timer_data = offsetof(nxt_socket_conf_t, idle_timeout),
.timer_autoreset = 1,
};
static ssize_t
nxt_h1p_idle_io_read_handler(nxt_conn_t *c)
{
size_t size;
ssize_t n;
nxt_buf_t *b;
nxt_socket_conf_joint_t *joint;
joint = c->listen->socket.data;
if (nxt_slow_path(joint == NULL)) {
/*
* Listening socket had been closed while
* connection was in keep-alive state.
*/
c->read_state = &nxt_h1p_idle_close_state;
return 0;
}
b = c->read;
if (b == NULL) {
size = joint->socket_conf->header_buffer_size;
b = nxt_buf_mem_alloc(c->mem_pool, size, 0);
if (nxt_slow_path(b == NULL)) {
c->socket.error = NXT_ENOMEM;
return NXT_ERROR;
}
}
n = c->io->recvbuf(c, b);
if (n > 0) {
c->read = b;
} else {
c->read = NULL;
nxt_mp_free(c->mem_pool, b);
}
return n;
}
static void
nxt_h1p_conn_proto_init(nxt_task_t *task, void *obj, void *data)
{
nxt_conn_t *c;
nxt_h1proto_t *h1p;
c = obj;
nxt_debug(task, "h1p conn proto init");
h1p = nxt_mp_zget(c->mem_pool, sizeof(nxt_h1proto_t));
if (nxt_slow_path(h1p == NULL)) {
nxt_h1p_shutdown(task, c);
return;
}
c->socket.data = h1p;
h1p->conn = c;
nxt_h1p_conn_request_init(task, c, h1p);
}
static void
nxt_h1p_conn_request_init(nxt_task_t *task, void *obj, void *data)
{
nxt_int_t ret;
nxt_conn_t *c;
nxt_h1proto_t *h1p;
nxt_http_request_t *r;
nxt_socket_conf_joint_t *joint;
c = obj;
h1p = data;
nxt_debug(task, "h1p conn request init");
r = nxt_http_request_create(task);
if (nxt_fast_path(r != NULL)) {
h1p->request = r;
r->proto.h1 = h1p;
r->remote = c->remote;
ret = nxt_http_parse_request_init(&h1p->parser, r->mem_pool);
if (nxt_fast_path(ret == NXT_OK)) {
joint = c->listen->socket.data;
joint->count++;
r->conf = joint;
c->local = joint->socket_conf->sockaddr;
nxt_h1p_conn_request_header_parse(task, c, h1p);
return;
}
/*
* The request is very incomplete here,
* so "internal server error" useless here.
*/
nxt_mp_release(r->mem_pool);
}
nxt_h1p_shutdown(task, c);
}
static const nxt_conn_state_t nxt_h1p_header_parse_state
nxt_aligned(64) =
{
.ready_handler = nxt_h1p_conn_request_header_parse,
.close_handler = nxt_h1p_conn_request_error,
.error_handler = nxt_h1p_conn_request_error,
.timer_handler = nxt_h1p_conn_request_timeout,
.timer_value = nxt_h1p_conn_request_timer_value,
.timer_data = offsetof(nxt_socket_conf_t, header_read_timeout),
};
static void
nxt_h1p_conn_request_header_parse(nxt_task_t *task, void *obj, void *data)
{
nxt_int_t ret;
nxt_conn_t *c;
nxt_h1proto_t *h1p;
nxt_http_status_t status;
nxt_http_request_t *r;
c = obj;
h1p = data;
nxt_debug(task, "h1p conn header parse");
ret = nxt_http_parse_request(&h1p->parser, &c->read->mem);
ret = nxt_expect(NXT_DONE, ret);
if (ret != NXT_AGAIN) {
nxt_timer_disable(task->thread->engine, &c->read_timer);
}
r = h1p->request;
switch (ret) {
case NXT_DONE:
/*
* By default the keepalive mode is disabled in HTTP/1.0 and
* enabled in HTTP/1.1. The mode can be overridden later by
* the "Connection" field processed in nxt_h1p_connection().
*/
h1p->keepalive = (h1p->parser.version.s.minor != '0');
ret = nxt_h1p_header_process(h1p, r);
if (nxt_fast_path(ret == NXT_OK)) {
#if (NXT_TLS)
if (c->u.tls == NULL && r->conf->socket_conf->tls != NULL) {
status = NXT_HTTP_TO_HTTPS;
goto error;
}
#endif
r->state->ready_handler(task, r, NULL);
return;
}
status = ret;
goto error;
case NXT_AGAIN:
status = nxt_h1p_header_buffer_test(task, h1p, c, r->conf->socket_conf);
if (nxt_fast_path(status == NXT_OK)) {
c->read_state = &nxt_h1p_header_parse_state;
nxt_conn_read(task->thread->engine, c);
return;
}
break;
case NXT_HTTP_PARSE_INVALID:
status = NXT_HTTP_BAD_REQUEST;
break;
case NXT_HTTP_PARSE_UNSUPPORTED_VERSION:
status = NXT_HTTP_VERSION_NOT_SUPPORTED;
break;
case NXT_HTTP_PARSE_TOO_LARGE_FIELD:
status = NXT_HTTP_REQUEST_HEADER_FIELDS_TOO_LARGE;
break;
default:
case NXT_ERROR:
status = NXT_HTTP_INTERNAL_SERVER_ERROR;
break;
}
(void) nxt_h1p_header_process(h1p, r);
error:
h1p->keepalive = 0;
nxt_http_request_error(task, r, status);
}
static nxt_int_t
nxt_h1p_header_process(nxt_h1proto_t *h1p, nxt_http_request_t *r)
{
r->target.start = h1p->parser.target_start;
r->target.length = h1p->parser.target_end - h1p->parser.target_start;
if (h1p->parser.version.ui64 != 0) {
r->version.start = h1p->parser.version.str;
r->version.length = sizeof(h1p->parser.version.str);
}
r->method = &h1p->parser.method;
r->path = &h1p->parser.path;
r->args = &h1p->parser.args;
r->fields = h1p->parser.fields;
return nxt_http_fields_process(r->fields, &nxt_h1p_fields_hash, r);
}
static nxt_int_t
nxt_h1p_header_buffer_test(nxt_task_t *task, nxt_h1proto_t *h1p, nxt_conn_t *c,
nxt_socket_conf_t *skcf)
{
size_t size, used;
nxt_buf_t *in, *b;
in = c->read;
if (nxt_buf_mem_free_size(&in->mem) == 0) {
size = skcf->large_header_buffer_size;
used = nxt_buf_mem_used_size(&in->mem);
if (size <= used || h1p->nbuffers >= skcf->large_header_buffers) {
return NXT_HTTP_REQUEST_HEADER_FIELDS_TOO_LARGE;
}
b = nxt_buf_mem_alloc(c->mem_pool, size, 0);
if (nxt_slow_path(b == NULL)) {
return NXT_HTTP_INTERNAL_SERVER_ERROR;
}
b->mem.free = nxt_cpymem(b->mem.pos, in->mem.pos, used);
in->next = h1p->buffers;
h1p->buffers = in;
h1p->nbuffers++;
c->read = b;
}
return NXT_OK;
}
static nxt_int_t
nxt_h1p_connection(void *ctx, nxt_http_field_t *field, uintptr_t data)
{
nxt_http_request_t *r;
r = ctx;
if (field->value_length == 5 && nxt_memcmp(field->value, "close", 5) == 0) {
r->proto.h1->keepalive = 0;
}
return NXT_OK;
}
static nxt_int_t
nxt_h1p_transfer_encoding(void *ctx, nxt_http_field_t *field, uintptr_t data)
{
nxt_http_te_t te;
nxt_http_request_t *r;
r = ctx;
if (field->value_length == 7
&& nxt_memcmp(field->value, "chunked", 7) == 0)
{
te = NXT_HTTP_TE_CHUNKED;
} else {
te = NXT_HTTP_TE_UNSUPPORTED;
}
r->proto.h1->transfer_encoding = te;
return NXT_OK;
}
static void
nxt_h1p_request_body_read(nxt_task_t *task, nxt_http_request_t *r)
{
size_t size, body_length;
nxt_buf_t *in, *b;
nxt_conn_t *c;
nxt_h1proto_t *h1p;
nxt_http_status_t status;
h1p = r->proto.h1;
nxt_debug(task, "h1p request body read %O te:%d",
r->content_length_n, h1p->transfer_encoding);
switch (h1p->transfer_encoding) {
case NXT_HTTP_TE_CHUNKED:
status = NXT_HTTP_LENGTH_REQUIRED;
goto error;
case NXT_HTTP_TE_UNSUPPORTED:
status = NXT_HTTP_NOT_IMPLEMENTED;
goto error;
default:
case NXT_HTTP_TE_NONE:
break;
}
if (r->content_length_n == -1 || r->content_length_n == 0) {
goto ready;
}
if (r->content_length_n > (nxt_off_t) r->conf->socket_conf->max_body_size) {
status = NXT_HTTP_PAYLOAD_TOO_LARGE;
goto error;
}
body_length = (size_t) r->content_length_n;
b = r->body;
if (b == NULL) {
b = nxt_buf_mem_alloc(r->mem_pool, body_length, 0);
if (nxt_slow_path(b == NULL)) {
status = NXT_HTTP_INTERNAL_SERVER_ERROR;
goto error;
}
r->body = b;
}
in = h1p->conn->read;
size = nxt_buf_mem_used_size(&in->mem);
if (size != 0) {
if (size > body_length) {
size = body_length;
}
b->mem.free = nxt_cpymem(b->mem.free, in->mem.pos, size);
in->mem.pos += size;
}
size = nxt_buf_mem_free_size(&b->mem);
nxt_debug(task, "h1p body rest: %uz", size);
if (size != 0) {
in->next = h1p->buffers;
h1p->buffers = in;
c = h1p->conn;
c->read = b;
c->read_state = &nxt_h1p_read_body_state;
nxt_conn_read(task->thread->engine, c);
return;
}
ready:
nxt_work_queue_add(&task->thread->engine->fast_work_queue,
r->state->ready_handler, task, r, NULL);
return;
error:
h1p->keepalive = 0;
nxt_http_request_error(task, r, status);
}
static const nxt_conn_state_t nxt_h1p_read_body_state
nxt_aligned(64) =
{
.ready_handler = nxt_h1p_conn_request_body_read,
.close_handler = nxt_h1p_conn_request_error,
.error_handler = nxt_h1p_conn_request_error,
.timer_handler = nxt_h1p_conn_request_timeout,
.timer_value = nxt_h1p_conn_request_timer_value,
.timer_data = offsetof(nxt_socket_conf_t, body_read_timeout),
.timer_autoreset = 1,
};
static void
nxt_h1p_conn_request_body_read(nxt_task_t *task, void *obj, void *data)
{
size_t size;
nxt_conn_t *c;
nxt_h1proto_t *h1p;
nxt_http_request_t *r;
nxt_event_engine_t *engine;
c = obj;
h1p = data;
nxt_debug(task, "h1p conn request body read");
size = nxt_buf_mem_free_size(&c->read->mem);
nxt_debug(task, "h1p body rest: %uz", size);
engine = task->thread->engine;
if (size != 0) {
nxt_conn_read(engine, c);
} else {
c->read = NULL;
r = h1p->request;
nxt_work_queue_add(&engine->fast_work_queue, r->state->ready_handler,
task, r, NULL);
}
}
static void
nxt_h1p_request_local_addr(nxt_task_t *task, nxt_http_request_t *r)
{
r->local = nxt_conn_local_addr(task, r->proto.h1->conn);
}
#define NXT_HTTP_LAST_SUCCESS \
(NXT_HTTP_OK + nxt_nitems(nxt_http_success) - 1)
static const nxt_str_t nxt_http_success[] = {
nxt_string("HTTP/1.1 200 OK\r\n"),
nxt_string("HTTP/1.1 201 Created\r\n"),
nxt_string("HTTP/1.1 202 Accepted\r\n"),
nxt_string("HTTP/1.1 203 Non-Authoritative Information\r\n"),
nxt_string("HTTP/1.1 204 No Content\r\n"),
nxt_string("HTTP/1.1 205 Reset Content\r\n"),
nxt_string("HTTP/1.1 206 Partial Content\r\n"),
};
#define NXT_HTTP_LAST_REDIRECTION \
(NXT_HTTP_MULTIPLE_CHOICES + nxt_nitems(nxt_http_redirection) - 1)
static const nxt_str_t nxt_http_redirection[] = {
nxt_string("HTTP/1.1 300 Multiple Choices\r\n"),
nxt_string("HTTP/1.1 301 Moved Permanently\r\n"),
nxt_string("HTTP/1.1 302 Found\r\n"),
nxt_string("HTTP/1.1 303 See Other\r\n"),
nxt_string("HTTP/1.1 304 Not Modified\r\n"),
};
#define NXT_HTTP_LAST_CLIENT_ERROR \
(NXT_HTTP_BAD_REQUEST + nxt_nitems(nxt_http_client_error) - 1)
static const nxt_str_t nxt_http_client_error[] = {
nxt_string("HTTP/1.1 400 Bad Request\r\n"),
nxt_string("HTTP/1.1 401 Unauthorized\r\n"),
nxt_string("HTTP/1.1 402 Payment Required\r\n"),
nxt_string("HTTP/1.1 403 Forbidden\r\n"),
nxt_string("HTTP/1.1 404 Not Found\r\n"),
nxt_string("HTTP/1.1 405 Method Not Allowed\r\n"),
nxt_string("HTTP/1.1 406 Not Acceptable\r\n"),
nxt_string("HTTP/1.1 407 Proxy Authentication Required\r\n"),
nxt_string("HTTP/1.1 408 Request Timeout\r\n"),
nxt_string("HTTP/1.1 409 Conflict\r\n"),
nxt_string("HTTP/1.1 410 Gone\r\n"),
nxt_string("HTTP/1.1 411 Length Required\r\n"),
nxt_string("HTTP/1.1 412 Precondition Failed\r\n"),
nxt_string("HTTP/1.1 413 Payload Too Large\r\n"),
nxt_string("HTTP/1.1 414 URI Too Long\r\n"),
nxt_string("HTTP/1.1 415 Unsupported Media Type\r\n"),
nxt_string("HTTP/1.1 416 Range Not Satisfiable\r\n"),
nxt_string("HTTP/1.1 417 Expectation Failed\r\n"),
nxt_string("HTTP/1.1 418\r\n"),
nxt_string("HTTP/1.1 419\r\n"),
nxt_string("HTTP/1.1 420\r\n"),
nxt_string("HTTP/1.1 421\r\n"),
nxt_string("HTTP/1.1 422\r\n"),
nxt_string("HTTP/1.1 423\r\n"),
nxt_string("HTTP/1.1 424\r\n"),
nxt_string("HTTP/1.1 425\r\n"),
nxt_string("HTTP/1.1 426\r\n"),
nxt_string("HTTP/1.1 427\r\n"),
nxt_string("HTTP/1.1 428\r\n"),
nxt_string("HTTP/1.1 429\r\n"),
nxt_string("HTTP/1.1 430\r\n"),
nxt_string("HTTP/1.1 431 Request Header Fields Too Large\r\n"),
};
#define NXT_HTTP_LAST_NGINX_ERROR \
(NXT_HTTP_TO_HTTPS + nxt_nitems(nxt_http_nginx_error) - 1)
static const nxt_str_t nxt_http_nginx_error[] = {
nxt_string("HTTP/1.1 400 "
"The plain HTTP request was sent to HTTPS port\r\n"),
};
#define NXT_HTTP_LAST_SERVER_ERROR \
(NXT_HTTP_INTERNAL_SERVER_ERROR + nxt_nitems(nxt_http_server_error) - 1)
static const nxt_str_t nxt_http_server_error[] = {
nxt_string("HTTP/1.1 500 Internal Server Error\r\n"),
nxt_string("HTTP/1.1 501 Not Implemented\r\n"),
nxt_string("HTTP/1.1 502 Bad Gateway\r\n"),
nxt_string("HTTP/1.1 503 Service Unavailable\r\n"),
nxt_string("HTTP/1.1 504 Gateway Timeout\r\n"),
nxt_string("HTTP/1.1 505 HTTP Version Not Supported\r\n"),
};
#define UNKNOWN_STATUS_LENGTH nxt_length("HTTP/1.1 65536\r\n")
static void
nxt_h1p_request_header_send(nxt_task_t *task, nxt_http_request_t *r)
{
u_char *p;
size_t size;
nxt_buf_t *header;
nxt_str_t unknown_status;
nxt_int_t conn;
nxt_uint_t n;
nxt_bool_t http11;
nxt_conn_t *c;
nxt_h1proto_t *h1p;
const nxt_str_t *status;
nxt_http_field_t *field;
nxt_event_engine_t *engine;
u_char buf[UNKNOWN_STATUS_LENGTH];
static const char chunked[] = "Transfer-Encoding: chunked\r\n";
static const nxt_str_t connection[2] = {
nxt_string("Connection: close\r\n"),
nxt_string("Connection: keep-alive\r\n"),
};
nxt_debug(task, "h1p request header send");
r->header_sent = 1;
h1p = r->proto.h1;
n = r->status;
if (n >= NXT_HTTP_OK && n <= NXT_HTTP_LAST_SUCCESS) {
status = &nxt_http_success[n - NXT_HTTP_OK];
} else if (n >= NXT_HTTP_MULTIPLE_CHOICES
&& n <= NXT_HTTP_LAST_REDIRECTION)
{
status = &nxt_http_redirection[n - NXT_HTTP_MULTIPLE_CHOICES];
} else if (n >= NXT_HTTP_BAD_REQUEST && n <= NXT_HTTP_LAST_CLIENT_ERROR) {
status = &nxt_http_client_error[n - NXT_HTTP_BAD_REQUEST];
} else if (n >= NXT_HTTP_TO_HTTPS && n <= NXT_HTTP_LAST_NGINX_ERROR) {
status = &nxt_http_nginx_error[n - NXT_HTTP_TO_HTTPS];
} else if (n >= NXT_HTTP_INTERNAL_SERVER_ERROR
&& n <= NXT_HTTP_LAST_SERVER_ERROR)
{
status = &nxt_http_server_error[n - NXT_HTTP_INTERNAL_SERVER_ERROR];
} else {
p = nxt_sprintf(buf, buf + UNKNOWN_STATUS_LENGTH,
"HTTP/1.1 %03d\r\n", n);
unknown_status.length = p - buf;
unknown_status.start = buf;
status = &unknown_status;
}
size = status->length;
/* Trailing CRLF at the end of header. */
size += nxt_length("\r\n");
http11 = (h1p->parser.version.s.minor != '0');
if (r->resp.content_length == NULL || r->resp.content_length->skip) {
if (http11) {
if (n != NXT_HTTP_NOT_MODIFIED && n != NXT_HTTP_NO_CONTENT) {
h1p->chunked = 1;
size += nxt_length(chunked);
/* Trailing CRLF will be added by the first chunk header. */
size -= nxt_length("\r\n");
}
} else {
h1p->keepalive = 0;
}
}
conn = -1;
if (http11 ^ h1p->keepalive) {
conn = h1p->keepalive;
size += connection[conn].length;
}
nxt_list_each(field, r->resp.fields) {
if (!field->skip) {
size += field->name_length + field->value_length;
size += nxt_length(": \r\n");
}
} nxt_list_loop;
header = nxt_http_buf_mem(task, r, size);
if (nxt_slow_path(header == NULL)) {
nxt_h1p_request_error(task, h1p, r);
return;
}
p = header->mem.free;
p = nxt_cpymem(p, status->start, status->length);
nxt_list_each(field, r->resp.fields) {
if (!field->skip) {
p = nxt_cpymem(p, field->name, field->name_length);
*p++ = ':'; *p++ = ' ';
p = nxt_cpymem(p, field->value, field->value_length);
*p++ = '\r'; *p++ = '\n';
}
} nxt_list_loop;
if (conn >= 0) {
p = nxt_cpymem(p, connection[conn].start, connection[conn].length);
}
if (h1p->chunked) {
p = nxt_cpymem(p, chunked, nxt_length(chunked));
/* Trailing CRLF will be added by the first chunk header. */
} else {
*p++ = '\r'; *p++ = '\n';
}
header->mem.free = p;
h1p->header_size = nxt_buf_mem_used_size(&header->mem);
c = h1p->conn;
c->write = header;
c->write_state = &nxt_h1p_request_send_state;
engine = task->thread->engine;
nxt_work_queue_add(&engine->fast_work_queue, r->state->ready_handler,
task, r, NULL);
nxt_conn_write(engine, c);
}
static const nxt_conn_state_t nxt_h1p_request_send_state
nxt_aligned(64) =
{
.ready_handler = nxt_h1p_conn_sent,
.error_handler = nxt_h1p_conn_request_error,
.timer_handler = nxt_h1p_conn_request_send_timeout,
.timer_value = nxt_h1p_conn_request_timer_value,
.timer_data = offsetof(nxt_socket_conf_t, send_timeout),
.timer_autoreset = 1,
};
static void
nxt_h1p_request_send(nxt_task_t *task, nxt_http_request_t *r, nxt_buf_t *out)
{
nxt_conn_t *c;
nxt_h1proto_t *h1p;
nxt_debug(task, "h1p request send");
h1p = r->proto.h1;
c = h1p->conn;
if (h1p->chunked) {
out = nxt_h1p_chunk_create(task, r, out);
if (nxt_slow_path(out == NULL)) {
nxt_h1p_request_error(task, h1p, r);
return;
}
}
if (c->write == NULL) {
c->write = out;
c->write_state = &nxt_h1p_request_send_state;
nxt_conn_write(task->thread->engine, c);
} else {
nxt_buf_chain_add(&c->write, out);
}
}
static nxt_buf_t *
nxt_h1p_chunk_create(nxt_task_t *task, nxt_http_request_t *r, nxt_buf_t *out)
{
nxt_off_t size;
nxt_buf_t *b, **prev, *header, *tail;
const size_t chunk_size = 2 * nxt_length("\r\n") + NXT_OFF_T_HEXLEN;
static const char tail_chunk[] = "\r\n0\r\n\r\n";
size = 0;
prev = &out;
for (b = out; b != NULL; b = b->next) {
if (nxt_buf_is_last(b)) {
tail = nxt_http_buf_mem(task, r, chunk_size);
if (nxt_slow_path(tail == NULL)) {
return NULL;
}
*prev = tail;
tail->next = b;
/*
* The tail_chunk size with trailing zero is 8 bytes, so
* memcpy may be inlined with just single 8 byte move operation.
*/
nxt_memcpy(tail->mem.free, tail_chunk, sizeof(tail_chunk));
tail->mem.free += nxt_length(tail_chunk);
break;
}
size += nxt_buf_used_size(b);
prev = &b->next;
}
if (size == 0) {
return out;
}
header = nxt_http_buf_mem(task, r, chunk_size);
if (nxt_slow_path(header == NULL)) {
return NULL;
}
header->next = out;
header->mem.free = nxt_sprintf(header->mem.free, header->mem.end,
"\r\n%xO\r\n", size);
return header;
}
static nxt_off_t
nxt_h1p_request_body_bytes_sent(nxt_task_t *task, nxt_http_proto_t proto)
{
nxt_off_t sent;
nxt_h1proto_t *h1p;
h1p = proto.h1;
sent = h1p->conn->sent - h1p->header_size;
return (sent > 0) ? sent : 0;
}
static void
nxt_h1p_request_discard(nxt_task_t *task, nxt_http_request_t *r,
nxt_buf_t *last)
{
nxt_buf_t *b;
nxt_conn_t *c;
nxt_h1proto_t *h1p;
nxt_work_queue_t *wq;
nxt_debug(task, "h1p request discard");
h1p = r->proto.h1;
h1p->keepalive = 0;
c = h1p->conn;
b = c->write;
c->write = NULL;
wq = &task->thread->engine->fast_work_queue;
nxt_sendbuf_drain(task, wq, b);
nxt_sendbuf_drain(task, wq, last);
}
static void
nxt_h1p_conn_request_error(nxt_task_t *task, void *obj, void *data)
{
nxt_h1proto_t *h1p;
nxt_http_request_t *r;
h1p = data;
nxt_debug(task, "h1p conn request error");
r = h1p->request;
if (r->fields == NULL) {
(void) nxt_h1p_header_process(h1p, r);
}
if (r->status == 0) {
r->status = NXT_HTTP_BAD_REQUEST;
}
nxt_h1p_request_error(task, h1p, r);
}
static void
nxt_h1p_conn_request_timeout(nxt_task_t *task, void *obj, void *data)
{
nxt_conn_t *c;
nxt_timer_t *timer;
nxt_h1proto_t *h1p;
nxt_http_request_t *r;
timer = obj;
nxt_debug(task, "h1p conn request timeout");
c = nxt_read_timer_conn(timer);
/*
* Disable SO_LINGER off during socket closing
* to send "408 Request Timeout" error response.
*/
c->socket.timedout = 0;
h1p = c->socket.data;
h1p->keepalive = 0;
r = h1p->request;
if (r->fields == NULL) {
(void) nxt_h1p_header_process(h1p, r);
}
nxt_http_request_error(task, r, NXT_HTTP_REQUEST_TIMEOUT);
}
static void
nxt_h1p_conn_request_send_timeout(nxt_task_t *task, void *obj, void *data)
{
nxt_conn_t *c;
nxt_timer_t *timer;
nxt_h1proto_t *h1p;
timer = obj;
nxt_debug(task, "h1p conn request send timeout");
c = nxt_write_timer_conn(timer);
h1p = c->socket.data;
nxt_h1p_request_error(task, h1p, h1p->request);
}
static nxt_msec_t
nxt_h1p_conn_request_timer_value(nxt_conn_t *c, uintptr_t data)
{
nxt_h1proto_t *h1p;
h1p = c->socket.data;
return nxt_value_at(nxt_msec_t, h1p->request->conf->socket_conf, data);
}
nxt_inline void
nxt_h1p_request_error(nxt_task_t *task, nxt_h1proto_t *h1p,
nxt_http_request_t *r)
{
h1p->keepalive = 0;
r->state->error_handler(task, r, h1p);
}
static void
nxt_h1p_request_close(nxt_task_t *task, nxt_http_proto_t proto,
nxt_socket_conf_joint_t *joint)
{
nxt_conn_t *c;
nxt_h1proto_t *h1p;
nxt_debug(task, "h1p request close");
h1p = proto.h1;
h1p->request = NULL;
nxt_router_conf_release(task, joint);
c = h1p->conn;
if (h1p->keepalive) {
nxt_h1p_keepalive(task, h1p, c);
} else {
nxt_h1p_shutdown(task, c);
}
}
static void
nxt_h1p_conn_sent(nxt_task_t *task, void *obj, void *data)
{
nxt_conn_t *c;
nxt_event_engine_t *engine;
c = obj;
nxt_debug(task, "h1p conn sent");
engine = task->thread->engine;
c->write = nxt_sendbuf_completion(task, &engine->fast_work_queue, c->write);
if (c->write != NULL) {
nxt_conn_write(engine, c);
}
}
static void
nxt_h1p_conn_close(nxt_task_t *task, void *obj, void *data)
{
nxt_conn_t *c;
c = obj;
nxt_debug(task, "h1p conn close");
nxt_h1p_shutdown(task, c);
}
static void
nxt_h1p_conn_error(nxt_task_t *task, void *obj, void *data)
{
nxt_conn_t *c;
c = obj;
nxt_debug(task, "h1p conn error");
nxt_h1p_shutdown(task, c);
}
static nxt_msec_t
nxt_h1p_conn_timer_value(nxt_conn_t *c, uintptr_t data)
{
nxt_socket_conf_joint_t *joint;
joint = c->listen->socket.data;
return nxt_value_at(nxt_msec_t, joint->socket_conf, data);
}
static void
nxt_h1p_keepalive(nxt_task_t *task, nxt_h1proto_t *h1p, nxt_conn_t *c)
{
size_t size;
nxt_buf_t *in, *b, *next;
nxt_debug(task, "h1p keepalive");
if (!c->tcp_nodelay) {
nxt_conn_tcp_nodelay_on(task, c);
}
b = h1p->buffers;
nxt_memzero(h1p, offsetof(nxt_h1proto_t, conn));
c->sent = 0;
in = c->read;
if (in == NULL) {
/* A request with large body. */
in = b;
c->read = in;
b = in->next;
in->next = NULL;
}
while (b != NULL) {
next = b->next;
nxt_mp_free(c->mem_pool, b);
b = next;
}
size = nxt_buf_mem_used_size(&in->mem);
if (size == 0) {
nxt_mp_free(c->mem_pool, in);
c->read = NULL;
c->read_state = &nxt_h1p_keepalive_state;
nxt_conn_read(task->thread->engine, c);
} else {
nxt_debug(task, "h1p pipelining");
nxt_memmove(in->mem.start, in->mem.pos, size);
in->mem.pos = in->mem.start;
in->mem.free = in->mem.start + size;
nxt_h1p_conn_request_init(task, c, c->socket.data);
}
}
static const nxt_conn_state_t nxt_h1p_keepalive_state
nxt_aligned(64) =
{
.ready_handler = nxt_h1p_conn_request_init,
.close_handler = nxt_h1p_conn_close,
.error_handler = nxt_h1p_conn_error,
.io_read_handler = nxt_h1p_idle_io_read_handler,
.timer_handler = nxt_h1p_idle_timeout,
.timer_value = nxt_h1p_conn_timer_value,
.timer_data = offsetof(nxt_socket_conf_t, idle_timeout),
.timer_autoreset = 1,
};
static const nxt_conn_state_t nxt_h1p_idle_close_state
nxt_aligned(64) =
{
.close_handler = nxt_h1p_idle_close,
};
static void
nxt_h1p_idle_close(nxt_task_t *task, void *obj, void *data)
{
nxt_conn_t *c;
c = obj;
nxt_debug(task, "h1p idle close");
nxt_h1p_idle_response(task, c);
}
static void
nxt_h1p_idle_timeout(nxt_task_t *task, void *obj, void *data)
{
nxt_conn_t *c;
nxt_timer_t *timer;
timer = obj;
nxt_debug(task, "h1p idle timeout");
c = nxt_read_timer_conn(timer);
nxt_h1p_idle_response(task, c);
}
#define NXT_H1P_IDLE_TIMEOUT \
"HTTP/1.1 408 Request Timeout\r\n" \
"Server: " NXT_SERVER "\r\n" \
"Connection: close\r\n" \
"Content-Length: 0\r\n" \
"Date: "
static void
nxt_h1p_idle_response(nxt_task_t *task, nxt_conn_t *c)
{
u_char *p;
size_t size;
nxt_buf_t *out, *last;
size = nxt_length(NXT_H1P_IDLE_TIMEOUT)
+ nxt_http_date_cache.size
+ nxt_length("\r\n\r\n");
out = nxt_buf_mem_alloc(c->mem_pool, size, 0);
if (nxt_slow_path(out == NULL)) {
goto fail;
}
p = nxt_cpymem(out->mem.free, NXT_H1P_IDLE_TIMEOUT,
nxt_length(NXT_H1P_IDLE_TIMEOUT));
p = nxt_thread_time_string(task->thread, &nxt_http_date_cache, p);
out->mem.free = nxt_cpymem(p, "\r\n\r\n", 4);
last = nxt_mp_zget(c->mem_pool, NXT_BUF_SYNC_SIZE);
if (nxt_slow_path(last == NULL)) {
goto fail;
}
out->next = last;
nxt_buf_set_sync(last);
nxt_buf_set_last(last);
last->completion_handler = nxt_h1p_idle_response_sent;
last->parent = c;
c->write = out;
c->write_state = &nxt_h1p_timeout_response_state;
nxt_conn_write(task->thread->engine, c);
return;
fail:
nxt_h1p_shutdown(task, c);
}
static const nxt_conn_state_t nxt_h1p_timeout_response_state
nxt_aligned(64) =
{
.ready_handler = nxt_h1p_conn_sent,
.error_handler = nxt_h1p_conn_error,
.timer_handler = nxt_h1p_idle_response_timeout,
.timer_value = nxt_h1p_idle_response_timer_value,
};
static void
nxt_h1p_idle_response_sent(nxt_task_t *task, void *obj, void *data)
{
nxt_conn_t *c;
c = data;
nxt_debug(task, "h1p idle timeout response sent");
nxt_h1p_shutdown(task, c);
}
static void
nxt_h1p_idle_response_timeout(nxt_task_t *task, void *obj, void *data)
{
nxt_conn_t *c;
nxt_timer_t *timer;
timer = obj;
nxt_debug(task, "h1p idle timeout response timeout");
c = nxt_read_timer_conn(timer);
nxt_h1p_shutdown(task, c);
}
static nxt_msec_t
nxt_h1p_idle_response_timer_value(nxt_conn_t *c, uintptr_t data)
{
return 10 * 1000;
}
static void
nxt_h1p_shutdown(nxt_task_t *task, nxt_conn_t *c)
{
nxt_debug(task, "h1p shutdown");
c->socket.data = NULL;
#if (NXT_TLS)
if (c->u.tls != NULL) {
c->write_state = &nxt_h1p_shutdown_state;
c->io->shutdown(task, c, NULL);
return;
}
#endif
nxt_h1p_conn_closing(task, c, NULL);
}
#if (NXT_TLS)
static const nxt_conn_state_t nxt_h1p_shutdown_state
nxt_aligned(64) =
{
.ready_handler = nxt_h1p_conn_closing,
.close_handler = nxt_h1p_conn_closing,
.error_handler = nxt_h1p_conn_closing,
};
#endif
static void
nxt_h1p_conn_closing(nxt_task_t *task, void *obj, void *data)
{
nxt_conn_t *c;
c = obj;
nxt_debug(task, "h1p conn closing");
c->write_state = &nxt_h1p_close_state;
nxt_conn_close(task->thread->engine, c);
}
static const nxt_conn_state_t nxt_h1p_close_state
nxt_aligned(64) =
{
.ready_handler = nxt_h1p_conn_free,
};
static void
nxt_h1p_conn_free(nxt_task_t *task, void *obj, void *data)
{
nxt_conn_t *c;
nxt_listen_event_t *lev;
nxt_event_engine_t *engine;
c = obj;
nxt_debug(task, "h1p conn free");
nxt_queue_remove(&c->link);
engine = task->thread->engine;
nxt_sockaddr_cache_free(engine, c);
lev = c->listen;
nxt_conn_free(task, c);
nxt_router_listen_event_release(&engine->task, lev, NULL);
}