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|
/*
* Copyright (c) 2021, 2022, 2023 Omar Polo <op@omarpolo.com>
*
* Permission to use, copy, modify, and 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.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include "gmid.h"
#include <sys/stat.h>
#include <sys/un.h>
#include <ctype.h>
#include <errno.h>
#include <event.h>
#include <fcntl.h>
#include <fnmatch.h>
#include <limits.h>
#include <string.h>
#include "log.h"
#include "proc.h"
#define MINIMUM(a, b) ((a) < (b) ? (a) : (b))
#ifndef nitems
#define nitems(_a) (sizeof((_a)) / sizeof((_a)[0]))
#endif
#ifdef SIGINFO
static struct event siginfo;
#endif
static struct event sigusr2;
int connected_clients;
/*
* This function is not publicy exported because it is a hack until libtls
* has a proper privsep setup.
*/
void tls_config_use_fake_private_key(struct tls_config *);
static inline int matches(const char*, const char*);
static void handle_handshake(int, short, void*);
static void fmtbuf(char *, size_t, const char *, struct client *,
const char *);
static int apply_block_return(struct client*);
static int check_matching_certificate(X509_STORE *, struct client *);
static int apply_reverse_proxy(struct client *);
static int apply_fastcgi(struct client*);
static int apply_require_ca(struct client*);
static void open_dir(struct client*);
static void redirect_canonical_dir(struct client*);
static void client_tls_readcb(int, short, void *);
static void client_tls_writecb(int, short, void *);
static void client_read(struct bufferevent *, void *);
void client_write(struct bufferevent *, void *);
static void client_error(struct bufferevent *, short, void *);
static void client_close_ev(int, short, void *);
static void handle_siginfo(int, short, void*);
static int server_dispatch_parent(int, struct privsep_proc *, struct imsg *);
static int server_dispatch_crypto(int, struct privsep_proc *, struct imsg *);
static int server_dispatch_logger(int, struct privsep_proc *, struct imsg *);
static ssize_t read_cb(struct tls *, void *, size_t, void *);
static ssize_t write_cb(struct tls *, const void *, size_t, void *);
static struct privsep_proc procs[] = {
{ "parent", PROC_PARENT, server_dispatch_parent },
{ "crypto", PROC_CRYPTO, server_dispatch_crypto },
{ "logger", PROC_LOGGER, server_dispatch_logger },
};
static uint32_t server_client_id;
struct client_tree_id clients;
static inline int
match_addr(struct address *target, struct address *source)
{
return (target->ai_flags == source->ai_flags &&
target->ai_family == source->ai_family &&
target->ai_socktype == source->ai_socktype &&
target->ai_protocol == source->ai_protocol &&
target->slen == source->slen &&
!memcmp(&target->ss, &source->ss, target->slen));
}
static inline int
matches(const char *pattern, const char *path)
{
if (*path == '/')
path++;
return !fnmatch(pattern, path, 0);
}
static inline int
match_host(struct vhost *v, struct client *c)
{
struct alist *a;
struct address *addr;
TAILQ_FOREACH(addr, &v->addrs, addrs)
if (match_addr(addr, c->addr))
break;
if (addr == NULL)
return 0;
if (*c->domain == '\0') {
if (strlcpy(c->domain, addr->pp, sizeof(c->domain))
>= sizeof(c->domain)) {
log_warnx("%s: domain too long: %s", __func__,
addr->pp);
*c->domain = '\0';
}
}
if (matches(v->domain, c->domain))
return 1;
TAILQ_FOREACH(a, &v->aliases, aliases)
if (matches(a->alias, c->domain))
return 1;
return 0;
}
const char *
vhost_lang(struct vhost *v, const char *path)
{
struct location *loc;
if (v == NULL || path == NULL)
return NULL;
loc = TAILQ_FIRST(&v->locations);
while ((loc = TAILQ_NEXT(loc, locations)) != NULL) {
if (*loc->lang != '\0') {
if (matches(loc->match, path))
return loc->lang;
}
}
loc = TAILQ_FIRST(&v->locations);
if (*loc->lang == '\0')
return NULL;
return loc->lang;
}
const char *
vhost_default_mime(struct vhost *v, const char *path)
{
struct location *loc;
const char *default_mime = "application/octet-stream";
if (v == NULL || path == NULL)
return default_mime;
loc = TAILQ_FIRST(&v->locations);
while ((loc = TAILQ_NEXT(loc, locations)) != NULL) {
if (*loc->default_mime != '\0') {
if (matches(loc->match, path))
return loc->default_mime;
}
}
loc = TAILQ_FIRST(&v->locations);
if (*loc->default_mime != '\0')
return loc->default_mime;
return default_mime;
}
const char *
vhost_index(struct vhost *v, const char *path)
{
struct location *loc;
const char *index = "index.gmi";
if (v == NULL || path == NULL)
return index;
loc = TAILQ_FIRST(&v->locations);
while ((loc = TAILQ_NEXT(loc, locations)) != NULL) {
if (*loc->index != '\0') {
if (matches(loc->match, path))
return loc->index;
}
}
loc = TAILQ_FIRST(&v->locations);
if (*loc->index != '\0')
return loc->index;
return index;
}
int
vhost_auto_index(struct vhost *v, const char *path)
{
struct location *loc;
if (v == NULL || path == NULL)
return 0;
loc = TAILQ_FIRST(&v->locations);
while ((loc = TAILQ_NEXT(loc, locations)) != NULL) {
if (loc->auto_index != 0) {
if (matches(loc->match, path))
return loc->auto_index == 1;
}
}
loc = TAILQ_FIRST(&v->locations);
return loc->auto_index == 1;
}
int
vhost_block_return(struct vhost *v, const char *path, int *code, const char **fmt)
{
struct location *loc;
if (v == NULL || path == NULL)
return 0;
loc = TAILQ_FIRST(&v->locations);
while ((loc = TAILQ_NEXT(loc, locations)) != NULL) {
if (loc->block_code != 0) {
if (matches(loc->match, path)) {
*code = loc->block_code;
*fmt = loc->block_fmt;
return 1;
}
}
}
loc = TAILQ_FIRST(&v->locations);
*code = loc->block_code;
*fmt = loc->block_fmt;
return loc->block_code != 0;
}
struct location *
vhost_fastcgi(struct vhost *v, const char *path)
{
struct location *loc;
if (v == NULL || path == NULL)
return NULL;
loc = TAILQ_FIRST(&v->locations);
while ((loc = TAILQ_NEXT(loc, locations)) != NULL) {
if (loc->fcgi != -1)
if (matches(loc->match, path))
return loc;
if (loc->nofcgi && matches(loc->match, path))
return NULL;
}
loc = TAILQ_FIRST(&v->locations);
return loc->fcgi == -1 ? NULL : loc;
}
int
vhost_dirfd(struct vhost *v, const char *path, size_t *retloc)
{
struct location *loc;
size_t l = 0;
if (v == NULL || path == NULL)
return -1;
loc = TAILQ_FIRST(&v->locations);
while ((loc = TAILQ_NEXT(loc, locations)) != NULL) {
l++;
if (loc->dirfd != -1)
if (matches(loc->match, path)) {
*retloc = l;
return loc->dirfd;
}
}
*retloc = 0;
loc = TAILQ_FIRST(&v->locations);
return loc->dirfd;
}
int
vhost_strip(struct vhost *v, const char *path)
{
struct location *loc;
if (v == NULL || path == NULL)
return 0;
loc = TAILQ_FIRST(&v->locations);
while ((loc = TAILQ_NEXT(loc, locations)) != NULL) {
if (loc->strip != 0) {
if (matches(loc->match, path))
return loc->strip;
}
}
loc = TAILQ_FIRST(&v->locations);
return loc->strip;
}
X509_STORE *
vhost_require_ca(struct vhost *v, const char *path)
{
struct location *loc;
if (v == NULL || path == NULL)
return NULL;
loc = TAILQ_FIRST(&v->locations);
while ((loc = TAILQ_NEXT(loc, locations)) != NULL) {
if (loc->reqca != NULL) {
if (matches(loc->match, path))
return loc->reqca;
}
}
loc = TAILQ_FIRST(&v->locations);
return loc->reqca;
}
int
vhost_disable_log(struct vhost *v, const char *path)
{
struct location *loc;
if (v == NULL || path == NULL)
return 0;
loc = TAILQ_FIRST(&v->locations);
while ((loc = TAILQ_NEXT(loc, locations)) != NULL) {
if (loc->disable_log && matches(loc->match, path))
return 1;
}
loc = TAILQ_FIRST(&v->locations);
return loc->disable_log;
}
void
mark_nonblock(int fd)
{
int flags;
if ((flags = fcntl(fd, F_GETFL)) == -1)
fatal("fcntl(F_GETFL)");
if (fcntl(fd, F_SETFL, flags | O_NONBLOCK) == -1)
fatal("fcntl(F_SETFL)");
}
static void
handle_handshake(int fd, short ev, void *d)
{
struct client *c = d;
struct conf *conf = c->conf;
struct vhost *h;
const char *servname;
const char *parse_err = "unknown error";
switch (tls_handshake(c->ctx)) {
case 0: /* success */
break;
case -1:
log_warnx("(%s:%s) tls_handshake failed: %s",
c->rhost, c->rserv, tls_error(c->ctx));
client_close(c);
return;
case TLS_WANT_POLLIN:
event_once(c->fd, EV_READ, handle_handshake, c, NULL);
return;
case TLS_WANT_POLLOUT:
event_once(c->fd, EV_WRITE, handle_handshake, c, NULL);
return;
default:
/* unreachable */
fatalx("unexpected return value from tls_handshake");
}
c->bev = bufferevent_new(fd, client_read, client_write,
client_error, c);
if (c->bev == NULL)
fatal("%s: failed to allocate client buffer", __func__);
event_set(&c->bev->ev_read, c->fd, EV_READ,
client_tls_readcb, c->bev);
event_set(&c->bev->ev_write, c->fd, EV_WRITE,
client_tls_writecb, c->bev);
#if HAVE_LIBEVENT2
evbuffer_unfreeze(c->bev->input, 0);
evbuffer_unfreeze(c->bev->output, 1);
#endif
if ((servname = tls_conn_servername(c->ctx)) == NULL)
log_debug("handshake: missing SNI");
if (!puny_decode(servname, c->domain, sizeof(c->domain), &parse_err)) {
log_info("puny_decode: %s", parse_err);
start_reply(c, BAD_REQUEST, "Wrong/malformed host");
return;
}
/*
* match_addr will serialize the (matching) address if c->domain
* is empty, so that we can support requests for raw IPv6 address
* that can't have a SNI.
*/
TAILQ_FOREACH(h, &conf->hosts, vhosts)
if (match_host(h, c))
break;
log_debug("handshake: SNI: \"%s\"; decoded: \"%s\"; matched: \"%s\"",
servname != NULL ? servname : "(null)",
c->domain,
h != NULL ? h->domain : "(null)");
if (h != NULL) {
c->host = h;
bufferevent_enable(c->bev, EV_READ);
return;
}
start_reply(c, BAD_REQUEST, "Wrong/malformed host");
}
static void
fmtbuf(char *buf, size_t buflen, const char *fmt, struct client *c,
const char *path)
{
size_t i;
char tmp[32];
*buf = '\0';
memset(tmp, 0, sizeof(tmp));
for (i = 0; *fmt; ++fmt) {
if (i == sizeof(tmp)-1 || *fmt == '%') {
strlcat(buf, tmp, buflen);
memset(tmp, 0, sizeof(tmp));
i = 0;
}
if (*fmt != '%') {
tmp[i++] = *fmt;
continue;
}
switch (*++fmt) {
case '%':
strlcat(buf, "%", buflen);
break;
case 'p':
if (*path != '/')
strlcat(buf, "/", buflen);
strlcat(buf, path, buflen);
break;
case 'q':
strlcat(buf, c->iri.query, buflen);
break;
case 'P':
snprintf(tmp, sizeof(tmp), "%d", c->addr->port);
strlcat(buf, tmp, buflen);
memset(tmp, 0, sizeof(tmp));
break;
case 'N':
strlcat(buf, c->domain, buflen);
break;
default:
log_warnx("%s: unknown fmt specifier %c",
__func__, *fmt);
}
}
if (i != 0)
strlcat(buf, tmp, buflen);
}
/* 1 if a matching `block return' (and apply it), 0 otherwise */
static int
apply_block_return(struct client *c)
{
char buf[GEMINI_URL_LEN];
const char *fmt, *path;
int code;
if (!vhost_block_return(c->host, c->iri.path, &code, &fmt))
return 0;
path = strip_path(c->iri.path, vhost_strip(c->host, c->iri.path));
fmtbuf(buf, sizeof(buf), fmt, c, path);
start_reply(c, code, buf);
return 1;
}
static struct proxy *
matched_proxy(struct client *c)
{
struct proxy *p;
const char *proto;
const char *host;
const char *port;
TAILQ_FOREACH(p, &c->host->proxies, proxies) {
if (*(proto = p->match_proto) == '\0')
proto = "gemini";
if (*(host = p->match_host) == '\0')
host = "*";
if (*(port = p->match_port) == '\0')
port = "*";
if (matches(proto, c->iri.schema) &&
matches(host, c->domain) &&
matches(port, c->iri.port))
return p;
}
return NULL;
}
static int
check_matching_certificate(X509_STORE *store, struct client *c)
{
const uint8_t *cert;
size_t len;
if (!tls_peer_cert_provided(c->ctx)) {
start_reply(c, CLIENT_CERT_REQ, "client certificate required");
return 1;
}
cert = tls_peer_cert_chain_pem(c->ctx, &len);
if (!validate_against_ca(store, cert, len)) {
start_reply(c, CERT_NOT_AUTH, "certificate not authorised");
return 1;
}
return 0;
}
static int
proxy_socket(struct client *c, const char *host, const char *port)
{
struct addrinfo hints, *res, *res0;
int r, sock, save_errno;
const char *cause = NULL;
memset(&hints, 0, sizeof(hints));
hints.ai_family = AF_UNSPEC;
hints.ai_socktype = SOCK_STREAM;
/* XXX: asr_run? :> */
r = getaddrinfo(host, port, &hints, &res0);
if (r != 0) {
log_warnx("getaddrinfo(\"%s\", \"%s\"): %s",
host, port, gai_strerror(r));
return -1;
}
for (res = res0; res; res = res->ai_next) {
sock = socket(res->ai_family, res->ai_socktype,
res->ai_protocol);
if (sock == -1) {
cause = "socket";
continue;
}
if (connect(sock, res->ai_addr, res->ai_addrlen) == -1) {
cause = "connect";
save_errno = errno;
close(sock);
errno = save_errno;
sock = -1;
continue;
}
break;
}
if (sock == -1)
log_warn("can't connect to %s:%s: %s", host, port, cause);
freeaddrinfo(res0);
return sock;
}
/* 1 if matching a proxy relay-to (and apply it), 0 otherwise */
static int
apply_reverse_proxy(struct client *c)
{
struct proxy *p;
if ((p = matched_proxy(c)) == NULL)
return 0;
c->proxy = p;
if (p->reqca != NULL && check_matching_certificate(p->reqca, c))
return 1;
log_debug("opening proxy connection for %s:%s", p->host, p->port);
if ((c->pfd = proxy_socket(c, p->host, p->port)) == -1) {
start_reply(c, PROXY_ERROR, "proxy error");
return 1;
}
mark_nonblock(c->pfd);
if (proxy_init(c) == -1)
start_reply(c, PROXY_ERROR, "proxy error");
return 1;
}
static int
fcgi_open_sock(struct fcgi *f)
{
struct sockaddr_un addr;
int fd;
if ((fd = socket(AF_UNIX, SOCK_STREAM, 0)) == -1) {
log_warn("socket");
return -1;
}
memset(&addr, 0, sizeof(addr));
addr.sun_family = AF_UNIX;
strlcpy(addr.sun_path, f->path, sizeof(addr.sun_path));
if (connect(fd, (struct sockaddr*)&addr, sizeof(addr)) == -1) {
log_warn("failed to connect to %s", f->path);
close(fd);
return -1;
}
return fd;
}
static int
fcgi_open_conn(struct fcgi *f)
{
struct addrinfo hints, *servinfo, *p;
int r, sock, save_errno;
const char *cause = NULL;
memset(&hints, 0, sizeof(hints));
hints.ai_family = AF_UNSPEC;
hints.ai_socktype = SOCK_STREAM;
hints.ai_flags = AI_ADDRCONFIG;
if ((r = getaddrinfo(f->path, f->port, &hints, &servinfo)) != 0) {
log_warnx("getaddrinfo %s:%s: %s", f->path, f->port,
gai_strerror(r));
return -1;
}
for (p = servinfo; p != NULL; p = p->ai_next) {
sock = socket(p->ai_family, p->ai_socktype, p->ai_protocol);
if (sock == -1) {
cause = "socket";
continue;
}
if (connect(sock, p->ai_addr, p->ai_addrlen) == -1) {
cause = "connect";
save_errno = errno;
close(sock);
errno = save_errno;
continue;
}
break;
}
if (p == NULL) {
log_warn("couldn't connect to %s:%s: %s", f->path, f->port,
cause);
sock = -1;
}
freeaddrinfo(servinfo);
return sock;
}
/* 1 if matching `fcgi' (and apply it), 0 otherwise */
static int
apply_fastcgi(struct client *c)
{
int i = 0;
struct fcgi *f;
struct location *loc;
if ((loc = vhost_fastcgi(c->host, c->iri.path)) == NULL)
return 0;
TAILQ_FOREACH(f, &c->conf->fcgi, fcgi) {
if (i == loc->fcgi)
break;
++i;
}
if (f == NULL) {
log_warnx("can't find fcgi #%d", loc->fcgi);
return 0;
}
log_debug("opening fastcgi connection for (%s,%s)", f->path, f->port);
if (*f->port == '\0')
c->pfd = fcgi_open_sock(f);
else
c->pfd = fcgi_open_conn(f);
if (c->pfd == -1) {
start_reply(c, CGI_ERROR, "CGI error");
return 1;
}
mark_nonblock(c->pfd);
c->cgibev = bufferevent_new(c->pfd, fcgi_read, fcgi_write,
fcgi_error, c);
if (c->cgibev == NULL) {
start_reply(c, TEMP_FAILURE, "internal server error");
return 1;
}
bufferevent_enable(c->cgibev, EV_READ|EV_WRITE);
fcgi_req(c, loc);
return 1;
}
/* 1 if matching `require client ca' fails (and apply it), 0 otherwise */
static int
apply_require_ca(struct client *c)
{
X509_STORE *store;
if ((store = vhost_require_ca(c->host, c->iri.path)) == NULL)
return 0;
return check_matching_certificate(store, c);
}
static void
server_dir_listing(struct client *c)
{
int root;
root = !strcmp(c->iri.path, "/") || *c->iri.path == '\0';
if (!vhost_auto_index(c->host, c->iri.path)) {
start_reply(c, NOT_FOUND, "not found");
return;
}
c->dirlen = scandir_fd(c->pfd, &c->dir,
root ? select_non_dotdot : select_non_dot,
alphasort);
if (c->dirlen == -1) {
log_warn("scandir_fd(%d) (vhost:%s) %s",
c->pfd, c->host->domain, c->iri.path);
start_reply(c, TEMP_FAILURE, "internal server error");
return;
}
c->type = REQUEST_DIR;
start_reply(c, SUCCESS, "text/gemini");
evbuffer_add_printf(EVBUFFER_OUTPUT(c->bev),
"# Index of /%s\n\n", c->iri.path);
}
static void
open_dir(struct client *c)
{
struct stat sb;
const char *index;
char path[PATH_MAX];
int fd = -1;
if (*c->iri.path != '\0' && !ends_with(c->iri.path, "/")) {
redirect_canonical_dir(c);
return;
}
index = vhost_index(c->host, c->iri.path);
fd = openat(c->pfd, index, O_RDONLY);
if (fd == -1) {
server_dir_listing(c);
return;
}
if (fstat(fd, &sb) == -1) {
log_warn("fstat");
close(fd);
start_reply(c, TEMP_FAILURE, "internal server error");
return;
}
if (!S_ISREG(sb.st_mode)) {
close(fd);
server_dir_listing(c);
return;
}
snprintf(path, sizeof(path), "%s%s", c->iri.path, index);
close(c->pfd);
c->pfd = fd;
c->type = REQUEST_FILE;
start_reply(c, SUCCESS, mime(c->conf, c->host, path));
}
static void
redirect_canonical_dir(struct client *c)
{
char buf[GEMINI_URL_LEN];
int r;
r = snprintf(buf, sizeof(buf), "/%s/", c->iri.path);
if (r < 0 || (size_t)r >= sizeof(buf)) {
start_reply(c, TEMP_FAILURE, "internal server error");
return;
}
start_reply(c, TEMP_REDIRECT, buf);
}
static void
client_tls_readcb(int fd, short event, void *d)
{
struct bufferevent *bufev = d;
struct client *client = bufev->cbarg;
ssize_t ret;
size_t len;
int what = EVBUFFER_READ;
int howmuch = IBUF_READ_SIZE;
char buf[IBUF_READ_SIZE];
if (event == EV_TIMEOUT) {
what |= EVBUFFER_TIMEOUT;
goto err;
}
if (bufev->wm_read.high != 0)
howmuch = MINIMUM(sizeof(buf), bufev->wm_read.high);
switch (ret = tls_read(client->ctx, buf, howmuch)) {
case TLS_WANT_POLLIN:
case TLS_WANT_POLLOUT:
goto retry;
case -1:
what |= EVBUFFER_ERROR;
goto err;
}
len = ret;
if (len == 0) {
what |= EVBUFFER_EOF;
goto err;
}
if (evbuffer_add(bufev->input, buf, len) == -1) {
what |= EVBUFFER_ERROR;
goto err;
}
event_add(&bufev->ev_read, NULL);
if (bufev->wm_read.low != 0 && len < bufev->wm_read.low)
return;
if (bufev->wm_read.high != 0 && len > bufev->wm_read.high) {
/*
* here we could implement a read pressure policy.
*/
}
if (bufev->readcb != NULL)
(*bufev->readcb)(bufev, bufev->cbarg);
return;
retry:
event_add(&bufev->ev_read, NULL);
return;
err:
(*bufev->errorcb)(bufev, what, bufev->cbarg);
}
static void
client_tls_writecb(int fd, short event, void *d)
{
struct bufferevent *bufev = d;
struct client *client = bufev->cbarg;
ssize_t ret;
size_t len;
short what = EVBUFFER_WRITE;
if (event == EV_TIMEOUT) {
what |= EVBUFFER_TIMEOUT;
goto err;
}
if (EVBUFFER_LENGTH(bufev->output) != 0) {
ret = tls_write(client->ctx,
EVBUFFER_DATA(bufev->output),
EVBUFFER_LENGTH(bufev->output));
switch (ret) {
case TLS_WANT_POLLIN:
case TLS_WANT_POLLOUT:
goto retry;
case -1:
what |= EVBUFFER_ERROR;
goto err;
}
len = ret;
evbuffer_drain(bufev->output, len);
}
if (EVBUFFER_LENGTH(bufev->output) != 0)
event_add(&bufev->ev_write, NULL);
if (bufev->writecb != NULL &&
EVBUFFER_LENGTH(bufev->output) <= bufev->wm_write.low)
(*bufev->writecb)(bufev, bufev->cbarg);
return;
retry:
event_add(&bufev->ev_write, NULL);
return;
err:
log_warnx("tls error: %s", tls_error(client->ctx));
(*bufev->errorcb)(bufev, what, bufev->cbarg);
}
static void
client_read(struct bufferevent *bev, void *d)
{
struct stat sb;
struct client *c = d;
struct evbuffer *src = EVBUFFER_INPUT(bev);
const char *path, *p, *parse_err = "invalid request";
char decoded[DOMAIN_NAME_LEN];
char *nul;
size_t len;
bufferevent_disable(bev, EVBUFFER_READ);
/*
* libevent2 can still somehow call this function, even
* though I never enable EV_READ in the bufferevent. If
* that's the case, bail out.
*/
if (c->type != REQUEST_UNDECIDED)
return;
/* max url len + \r\n */
if (EVBUFFER_LENGTH(src) > 1024 + 2) {
log_debug("too much data received");
start_reply(c, BAD_REQUEST, "bad request");
return;
}
c->req = evbuffer_readln(src, &c->reqlen, EVBUFFER_EOL_CRLF_STRICT);
if (c->req == NULL) {
/* not enough data yet. */
bufferevent_enable(bev, EVBUFFER_READ);
return;
}
if (c->reqlen > 1024+2) {
log_debug("URL too long");
start_reply(c, BAD_REQUEST, "bad request");
return;
}
nul = strchr(c->req, '\0');
len = nul - c->req;
if (len != c->reqlen) {
log_debug("NUL inside the request IRI");
start_reply(c, BAD_REQUEST, "bad request");
return;
}
if (!parse_iri(c->req, &c->iri, &parse_err) ||
!puny_decode(c->iri.host, decoded, sizeof(decoded), &parse_err)) {
log_debug("IRI parse error: %s", parse_err);
start_reply(c, BAD_REQUEST, "bad request");
return;
}
if (apply_reverse_proxy(c))
return;
/* ignore the port number */
if (strcmp(c->iri.schema, "gemini") ||
strcmp(decoded, c->domain)) {
start_reply(c, PROXY_REFUSED, "won't proxy request");
return;
}
if (apply_require_ca(c) ||
apply_block_return(c)||
apply_fastcgi(c))
return;
path = c->iri.path;
p = strip_path(path, vhost_strip(c->host, path));
while (*p == '/')
p++;
if (*p == '\0')
p = ".";
c->pfd = openat(vhost_dirfd(c->host, path, &c->loc), p, O_RDONLY);
if (c->pfd == -1) {
if (errno == EACCES)
log_info("can't open %s: %s", p, strerror(errno));
start_reply(c, NOT_FOUND, "not found");
return;
}
if (fstat(c->pfd, &sb) == -1) {
log_warnx("fstat %s", path);
start_reply(c, TEMP_FAILURE, "internal server error");
return;
}
if (S_ISDIR(sb.st_mode)) {
open_dir(c);
return;
}
c->type = REQUEST_FILE;
start_reply(c, SUCCESS, mime(c->conf, c->host, p));
}
void
client_write(struct bufferevent *bev, void *d)
{
struct client *c = d;
struct evbuffer *out = EVBUFFER_OUTPUT(bev);
char nam[PATH_MAX];
char buf[BUFSIZ];
ssize_t r;
switch (c->type) {
case REQUEST_UNDECIDED:
/*
* Ignore spurious calls when we still don't have idea
* what to do with the request.
*/
break;
case REQUEST_FILE:
if ((r = read(c->pfd, buf, sizeof(buf))) == -1) {
log_warn("read");
client_error(bev, EVBUFFER_ERROR, c);
return;
} else if (r == 0) {
client_close(c);
return;
} else if (r != sizeof(buf))
c->type = REQUEST_DONE;
bufferevent_write(bev, buf, r);
break;
case REQUEST_DIR:
/* TODO: handle big big directories better */
for (c->diroff = 0; c->diroff < c->dirlen; ++c->diroff) {
const char *sufx = "";
encode_path(nam, sizeof(nam),
c->dir[c->diroff]->d_name);
if (c->dir[c->diroff]->d_type == DT_DIR)
sufx = "/";
evbuffer_add_printf(out, "=> ./%s%s\n", nam, sufx);
free(c->dir[c->diroff]);
}
free(c->dir);
c->dir = NULL;
c->type = REQUEST_DONE;
event_add(&c->bev->ev_write, NULL);
break;
case REQUEST_FCGI:
case REQUEST_PROXY:
/*
* Here we depend on fastcgi or proxy connection to
* provide data.
*/
break;
case REQUEST_DONE:
if (EVBUFFER_LENGTH(out) == 0)
client_close(c);
break;
}
}
static void
client_error(struct bufferevent *bev, short error, void *d)
{
struct client *c = d;
c->type = REQUEST_DONE;
if (error & EVBUFFER_TIMEOUT) {
log_debug("timeout; forcefully closing the connection");
if (c->code == 0)
start_reply(c, BAD_REQUEST, "timeout");
else
client_close(c);
return;
}
if (error & EVBUFFER_EOF) {
client_close(c);
return;
}
log_warnx("unknown bufferevent error 0x%x", error);
client_close(c);
}
int
start_reply(struct client *c, int code, const char *meta)
{
struct evbuffer *evb = EVBUFFER_OUTPUT(c->bev);
const char *lang;
int r, rr;
bufferevent_enable(c->bev, EVBUFFER_WRITE);
c->code = code;
c->meta = meta;
r = evbuffer_add_printf(evb, "%d %s", code, meta);
if (r == -1)
goto err;
/* 2 digit status + space + 1024 max reply */
if (r > 1027)
goto overflow;
if (c->type != REQUEST_FCGI &&
c->type != REQUEST_PROXY &&
!strcmp(meta, "text/gemini") &&
(lang = vhost_lang(c->host, c->iri.path)) != NULL) {
rr = evbuffer_add_printf(evb, ";lang=%s", lang);
if (rr == -1)
goto err;
if (r + rr > 1027)
goto overflow;
}
bufferevent_write(c->bev, "\r\n", 2);
if (!vhost_disable_log(c->host, c->iri.path))
log_request(c, code, meta);
if (code != 20)
c->type = REQUEST_DONE;
return 0;
err:
log_warnx("evbuffer_add_printf error: no memory");
evbuffer_drain(evb, EVBUFFER_LENGTH(evb));
c->type = REQUEST_DONE;
return -1;
overflow:
log_warnx("reply header overflow");
evbuffer_drain(evb, EVBUFFER_LENGTH(evb));
start_reply(c, TEMP_FAILURE, "internal error");
return -1;
}
static void
client_close_ev(int fd, short event, void *d)
{
struct client *c = d;
switch (tls_close(c->ctx)) {
case TLS_WANT_POLLIN:
event_once(c->fd, EV_READ, client_close_ev, c, NULL);
return;
case TLS_WANT_POLLOUT:
event_once(c->fd, EV_WRITE, client_close_ev, c, NULL);
return;
}
connected_clients--;
free(c->req);
tls_free(c->ctx);
c->ctx = NULL;
free(c->header);
if (c->pfd != -1)
close(c->pfd);
if (c->dir != NULL)
free(c->dir);
close(c->fd);
c->fd = -1;
free(c);
}
static void
client_proxy_close(int fd, short event, void *d)
{
struct tls *ctx = d;
if (ctx == NULL) {
close(fd);
return;
}
switch (tls_close(ctx)) {
case TLS_WANT_POLLIN:
event_once(fd, EV_READ, client_proxy_close, d, NULL);
break;
case TLS_WANT_POLLOUT:
event_once(fd, EV_WRITE, client_proxy_close, d, NULL);
break;
}
tls_free(ctx);
close(fd);
}
void
client_close(struct client *c)
{
/*
* We may end up calling client_close in various situations
* and for the most unexpected reasons. Therefore, we need to
* ensure that everything gets properly released once we reach
* this point.
*/
SPLAY_REMOVE(client_tree_id, &clients, c);
if (c->cgibev != NULL) {
bufferevent_disable(c->cgibev, EVBUFFER_READ|EVBUFFER_WRITE);
bufferevent_free(c->cgibev);
c->cgibev = NULL;
close(c->pfd);
c->pfd = -1;
}
if (c->bev != NULL) {
bufferevent_disable(c->bev, EVBUFFER_READ|EVBUFFER_WRITE);
bufferevent_free(c->bev);
}
if (c->proxyevset &&
event_pending(&c->proxyev, EV_READ|EV_WRITE, NULL)) {
c->proxyevset = 0;
event_del(&c->proxyev);
}
if (c->pfd != -1 && c->proxyctx != NULL) {
/* shut down the proxy TLS connection */
client_proxy_close(c->pfd, 0, c->proxyctx);
c->pfd = -1;
}
if (c->proxybev != NULL)
bufferevent_free(c->proxybev);
client_close_ev(c->fd, 0, c);
}
static ssize_t
read_cb(struct tls *ctx, void *buf, size_t buflen, void *cb_arg)
{
struct client *c = cb_arg;
if (!c->proxy_proto) {
/* no buffer to cache into, read into libtls buffer */
errno = 0;
ssize_t ret = read(c->fd, buf, buflen);
if (ret == -1 && errno == EWOULDBLOCK)
ret = TLS_WANT_POLLIN;
return ret;
}
if (c->buf.has_tail) {
/* we have leftover data from a previous call to read_cb */
size_t left = BUFLAYER_MAX - c->buf.read_pos;
size_t copy_len = MINIMUM(buflen, left);
memcpy(buf, c->buf.data + c->buf.read_pos, copy_len);
c->buf.read_pos += copy_len;
if (left == copy_len) {
c->proxy_proto = 0;
c->buf.has_tail = 0;
}
return copy_len;
}
/* buffer layer exists, we expect proxy protocol */
ssize_t n_read = read(
c->fd,
c->buf.data + c->buf.len,
BUFLAYER_MAX - c->buf.len
);
if (n_read == -1 && errno == EWOULDBLOCK)
return TLS_WANT_POLLIN;
c->buf.len += n_read;
struct proxy_protocol_v1 pp1 = {0};
size_t consumed = 0;
int parse_status = proxy_proto_v1_parse(&pp1, c->buf.data, c->buf.len, &consumed);
if (parse_status == -1) {
log_warnx("read_cb: received invalid proxy protocol header");
return -1;
}
switch (pp1.proto) {
case PROTO_V4:
inet_ntop(AF_INET, &pp1.srcaddr.v4, c->rhost,
sizeof(c->rhost));
break;
case PROTO_V6:
inet_ntop(AF_INET6, &pp1.srcaddr.v6, c->rhost,
sizeof(c->rhost));
break;
case PROTO_UNKNOWN:
strlcpy(c->rhost, "UNKNOWN", sizeof(c->rhost));
break;
}
if (pp1.proto != PROTO_UNKNOWN) {
snprintf(c->rserv, sizeof(c->rserv), "%u", pp1.srcport);
}
char protostr[1024];
proxy_proto_v1_string(&pp1, protostr, sizeof(protostr));
log_debug("proxy-protocol v1: %s", protostr);
if (consumed < c->buf.len) {
/* we have some leftover */
c->buf.read_pos = consumed;
c->buf.has_tail = 1;
} else {
/* we consumed the whole buffer */
c->proxy_proto = c->buf.read_pos = 0;
c->buf.has_tail = 0;
}
return TLS_WANT_POLLIN;
}
static ssize_t
write_cb(struct tls *ctx, const void *buf, size_t buflen, void *cb_arg)
{
struct client *c = cb_arg;
ssize_t ret = write(c->fd, buf, buflen);
if (ret == -1 && errno == EAGAIN)
return TLS_WANT_POLLOUT;
return ret;
}
void
server_accept(int sock, short et, void *d)
{
struct address *addr = d;
struct client *c;
struct sockaddr_storage raddr;
struct sockaddr *sraddr;
socklen_t len;
int e, fd;
sraddr = (struct sockaddr *)&raddr;
len = sizeof(raddr);
if ((fd = accept(sock, sraddr, &len)) == -1) {
if (errno == EWOULDBLOCK || errno == EAGAIN ||
errno == ECONNABORTED)
return;
log_warnx("accept failed");
return;
}
mark_nonblock(fd);
c = xcalloc(1, sizeof(*c));
c->conf = addr->conf;
c->addr = addr;
c->id = ++server_client_id;
c->fd = fd;
c->pfd = -1;
memcpy(&c->raddr, &raddr, sizeof(raddr));
c->raddrlen = len;
c->proxy_proto = addr->proxy;
e = getnameinfo(sraddr, len, c->rhost, sizeof(c->rhost),
c->rserv, sizeof(c->rserv), NI_NUMERICHOST | NI_NUMERICSERV);
if (e != 0) {
log_warnx("getnameinfo failed: %s", gai_strerror(e));
close(c->fd);
free(c);
return;
}
if (tls_accept_cbs(addr->ctx, &c->ctx, read_cb, write_cb, c) == -1) {
log_warnx("failed to accept socket: %s", tls_error(c->ctx));
close(c->fd);
free(c);
return;
}
SPLAY_INSERT(client_tree_id, &clients, c);
event_once(c->fd, EV_READ|EV_WRITE, handle_handshake, c, NULL);
connected_clients++;
}
static void
handle_siginfo(int fd, short ev, void *d)
{
log_info("%d connected clients", connected_clients);
}
static void
add_matching_kps(struct tls_config *tlsconf, struct address *addr,
struct conf *conf)
{
struct address *vaddr;
struct vhost *h;
int r, any = 0;
TAILQ_FOREACH(h, &conf->hosts, vhosts) {
TAILQ_FOREACH(vaddr, &h->addrs, addrs) {
if (!match_addr(addr, vaddr))
continue;
if (!any) {
any = 1;
r = tls_config_set_keypair_ocsp_mem(tlsconf,
h->cert, h->certlen, h->key, h->keylen,
h->ocsp, h->ocsplen);
} else {
r = tls_config_add_keypair_ocsp_mem(tlsconf,
h->cert, h->certlen, h->key, h->keylen,
h->ocsp, h->ocsplen);
}
if (r == -1)
fatalx("failed to load keypair"
" for host %s: %s", h->domain,
tls_config_error(tlsconf));
}
}
}
static void
setup_tls(struct conf *conf)
{
struct tls_config *tlsconf;
struct address *addr;
TAILQ_FOREACH(addr, &conf->addrs, addrs) {
if ((tlsconf = tls_config_new()) == NULL)
fatal("tls_config_new");
if (conf->use_privsep_crypto)
tls_config_use_fake_private_key(tlsconf);
/* optionally accept client certs but don't verify */
tls_config_verify_client_optional(tlsconf);
tls_config_insecure_noverifycert(tlsconf);
if (tls_config_set_protocols(tlsconf, conf->protos) == -1)
fatalx("tls_config_set_protocols: %s",
tls_config_error(tlsconf));
add_matching_kps(tlsconf, addr, conf);
tls_reset(addr->ctx);
if (tls_configure(addr->ctx, tlsconf) == -1)
fatalx("tls_configure: %s", tls_error(addr->ctx));
tls_config_free(tlsconf);
}
}
static void
load_vhosts(struct conf *conf)
{
struct vhost *h;
struct location *l;
char path[PATH_MAX], *p;
int r;
TAILQ_FOREACH(h, &conf->hosts, vhosts) {
TAILQ_FOREACH(l, &h->locations, locations) {
if (*l->dir == '\0')
continue;
p = l->dir;
if (conf->conftest && *conf->chroot != '\0') {
r = snprintf(path, sizeof(path), "%s/%s",
conf->chroot, l->dir);
if (r < 0 || (size_t)r >= sizeof(path))
fatalx("path too long: %s", l->dir);
p = path;
}
l->dirfd = open(p, O_RDONLY | O_DIRECTORY);
if (l->dirfd == -1)
fatal("open %s for domain %s", l->dir,
h->domain);
}
}
}
void
server(struct privsep *ps, struct privsep_proc *p)
{
proc_run(ps, p, procs, nitems(procs), server_init, NULL);
}
void
server_init(struct privsep *ps, struct privsep_proc *p, void *arg)
{
struct conf *c;
SPLAY_INIT(&clients);
#ifdef SIGINFO
signal_set(&siginfo, SIGINFO, &handle_siginfo, NULL);
signal_add(&siginfo, NULL);
#endif
signal_set(&sigusr2, SIGUSR2, &handle_siginfo, NULL);
signal_add(&sigusr2, NULL);
sandbox_server_process();
/*
* gemexp doesn't use the privsep crypto engine; it doesn't
* use privsep at all so `ps' is NULL.
*/
if (ps != NULL) {
c = ps->ps_env;
if (c->use_privsep_crypto)
crypto_engine_init(ps->ps_env);
}
}
int
server_configure_done(struct conf *conf)
{
struct address *addr;
if (load_default_mime(&conf->mime) == -1)
fatal("can't load default mime");
sort_mime(&conf->mime);
setup_tls(conf);
load_vhosts(conf);
TAILQ_FOREACH(addr, &conf->addrs, addrs) {
if (addr->sock != -1)
event_add(&addr->evsock, NULL);
}
return 0;
}
static int
server_dispatch_parent(int fd, struct privsep_proc *p, struct imsg *imsg)
{
struct privsep *ps = p->p_ps;
struct conf *conf = ps->ps_env;
switch (imsg_get_type(imsg)) {
case IMSG_RECONF_START:
case IMSG_RECONF_LOG_FMT:
case IMSG_RECONF_MIME:
case IMSG_RECONF_PROTOS:
case IMSG_RECONF_SOCK:
case IMSG_RECONF_FCGI:
case IMSG_RECONF_HOST:
case IMSG_RECONF_CERT:
case IMSG_RECONF_KEY:
case IMSG_RECONF_OCSP:
case IMSG_RECONF_HOST_ADDR:
case IMSG_RECONF_LOC:
case IMSG_RECONF_ENV:
case IMSG_RECONF_ALIAS:
case IMSG_RECONF_PROXY:
case IMSG_RECONF_PROXY_CERT:
case IMSG_RECONF_PROXY_KEY:
return config_recv(conf, imsg);
case IMSG_RECONF_END:
if (config_recv(conf, imsg) == -1)
return -1;
if (server_configure_done(conf) == -1)
return -1;
break;
default:
return -1;
}
return 0;
}
static int
server_dispatch_crypto(int fd, struct privsep_proc *p, struct imsg *imsg)
{
return -1;
}
static int
server_dispatch_logger(int fd, struct privsep_proc *p, struct imsg *imsg)
{
return -1;
}
int
client_tree_cmp(struct client *a, struct client *b)
{
if (a->id == b->id)
return 0;
else if (a->id < b->id)
return -1;
else
return +1;
}
SPLAY_GENERATE(client_tree_id, client, entry, client_tree_cmp)
|