/* * Copyright (c) 2021, 2022 Omar Polo * * 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 #include #include #include #include #include #include #include #include #include #define MIN(a, b) ((a) < (b) ? (a) : (b)) int shutting_down; static struct tls *ctx; static struct event e4, e6, imsgev, siginfo, sigusr2; static int has_ipv6, has_siginfo; int connected_clients; static inline int matches(const char*, const char*); static int check_path(struct client*, const char*, int*); static void open_file(struct client*); static void handle_handshake(int, short, void*); static const char *strip_path(const char*, int); static void fmt_sbuf(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 do_accept(int, short, void*); static void handle_dispatch_imsg(int, short, void *); static void handle_siginfo(int, short, void*); static uint32_t server_client_id; struct client_tree_id clients; static inline int matches(const char *pattern, const char *path) { if (*path == '/') path++; return !fnmatch(pattern, path, 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; } int vhost_fastcgi(struct vhost *v, const char *path) { struct location *loc; if (v == NULL || path == NULL) return -1; loc = TAILQ_FIRST(&v->locations); while ((loc = TAILQ_NEXT(loc, locations)) != NULL) { if (loc->fcgi != -1) if (matches(loc->match, path)) return loc->fcgi; } loc = TAILQ_FIRST(&v->locations); return loc->fcgi; } 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; } static int check_path(struct client *c, const char *path, int *fd) { struct stat sb; const char *p; int dirfd, strip; assert(path != NULL); /* * in send_dir we add an initial / (to be redirect-friendly), * but here we want to skip it */ if (*path == '/') path++; strip = vhost_strip(c->host, path); p = strip_path(path, strip); if (*p == '/') p = p+1; if (*p == '\0') p = "."; dirfd = vhost_dirfd(c->host, path, &c->loc); log_debug(c, "check_path: strip=%d path=%s original=%s", strip, p, path); if (*fd == -1 && (*fd = openat(dirfd, p, O_RDONLY)) == -1) { if (errno == EACCES) log_info(c, "can't open %s: %s", p, strerror(errno)); return FILE_MISSING; } if (fstat(*fd, &sb) == -1) { log_notice(c, "failed stat for %s: %s", path, strerror(errno)); return FILE_MISSING; } if (S_ISDIR(sb.st_mode)) return FILE_DIRECTORY; return FILE_EXISTS; } static void open_file(struct client *c) { switch (check_path(c, c->iri.path, &c->pfd)) { case FILE_EXISTS: c->type = REQUEST_FILE; start_reply(c, SUCCESS, mime(c->host, c->iri.path)); return; case FILE_DIRECTORY: open_dir(c); return; case FILE_MISSING: start_reply(c, NOT_FOUND, "not found"); return; default: /* unreachable */ abort(); } } void mark_nonblock(int fd) { int flags; if ((flags = fcntl(fd, F_GETFL)) == -1) fatal("fcntl(F_GETFL): %s", strerror(errno)); if (fcntl(fd, F_SETFL, flags | O_NONBLOCK) == -1) fatal("fcntl(F_SETFL): %s", strerror(errno)); } static void handle_handshake(int fd, short ev, void *d) { struct client *c = d; struct vhost *h; struct alist *a; const char *servname; const char *parse_err = "unknown error"; switch (tls_handshake(c->ctx)) { case 0: /* success */ case -1: /* already handshaked */ break; 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 */ abort(); } c->bev = bufferevent_new(fd, client_read, client_write, client_error, c); if (c->bev == NULL) fatal("%s: failed to allocate client buffer: %s", __func__, strerror(errno)); 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(c, "handshake: missing SNI"); goto err; } if (!puny_decode(servname, c->domain, sizeof(c->domain), &parse_err)) { log_info(c, "puny_decode: %s", parse_err); goto err; } TAILQ_FOREACH(h, &hosts, vhosts) { if (matches(h->domain, c->domain)) goto found; TAILQ_FOREACH(a, &h->aliases, aliases) { if (matches(a->alias, c->domain)) goto found; } } found: log_debug(c, "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; } err: start_reply(c, BAD_REQUEST, "Wrong/malformed host or missing SNI"); } static const char * strip_path(const char *path, int strip) { char *t; while (strip > 0) { if ((t = strchr(path, '/')) == NULL) { path = strchr(path, '\0'); break; } path = t; strip--; } return path; } static void fmt_sbuf(const char *fmt, struct client *c, const char *path) { size_t i; char buf[32]; memset(buf, 0, sizeof(buf)); for (i = 0; *fmt; ++fmt) { if (i == sizeof(buf)-1 || *fmt == '%') { strlcat(c->sbuf, buf, sizeof(c->sbuf)); memset(buf, 0, sizeof(buf)); i = 0; } if (*fmt != '%') { buf[i++] = *fmt; continue; } switch (*++fmt) { case '%': strlcat(c->sbuf, "%", sizeof(c->sbuf)); break; case 'p': if (*path != '/') strlcat(c->sbuf, "/", sizeof(c->sbuf)); strlcat(c->sbuf, path, sizeof(c->sbuf)); break; case 'q': strlcat(c->sbuf, c->iri.query, sizeof(c->sbuf)); break; case 'P': snprintf(buf, sizeof(buf), "%d", conf.port); strlcat(c->sbuf, buf, sizeof(c->sbuf)); memset(buf, 0, sizeof(buf)); break; case 'N': strlcat(c->sbuf, c->domain, sizeof(c->sbuf)); break; default: fatal("%s: unknown fmt specifier %c", __func__, *fmt); } } if (i != 0) strlcat(c->sbuf, buf, sizeof(c->sbuf)); } /* 1 if a matching `block return' (and apply it), 0 otherwise */ static int apply_block_return(struct client *c) { 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)); fmt_sbuf(fmt, c, path); start_reply(c, code, c->sbuf); 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; 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_warn(c, "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) continue; if (connect(sock, res->ai_addr, res->ai_addrlen) == -1) { close(sock); sock = -1; continue; } break; } freeaddrinfo(res0); if (sock == -1) log_warn(c, "can't connect to %s:%s", host, port); 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(c, "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_err(NULL, "socket: %s", strerror(errno)); 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(NULL, "failed to connect to %s: %s", f->path, strerror(errno)); close(fd); return -1; } return fd; } static int fcgi_open_conn(struct fcgi *f) { struct addrinfo hints, *servinfo, *p; int r, sock; 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_warn(NULL, "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) continue; if (connect(sock, p->ai_addr, p->ai_addrlen) == -1) { close(sock); continue; } break; } if (p == NULL) { log_warn(NULL, "couldn't connect to %s:%s", f->path, f->port); sock = -1; } freeaddrinfo(servinfo); return sock; } /* 1 if matching `fcgi' (and apply it), 0 otherwise */ static int apply_fastcgi(struct client *c) { int id; struct fcgi *f; if ((id = vhost_fastcgi(c->host, c->iri.path)) == -1) return 0; f = &fcgi[id]; log_debug(c, "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); 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 open_dir(struct client *c) { size_t len; int dirfd, root; char *before_file; log_debug(c, "in open_dir"); root = !strcmp(c->iri.path, "/") || *c->iri.path == '\0'; len = strlen(c->iri.path); if (len > 0 && !ends_with(c->iri.path, "/")) { redirect_canonical_dir(c); return; } strlcpy(c->sbuf, "/", sizeof(c->sbuf)); strlcat(c->sbuf, c->iri.path, sizeof(c->sbuf)); if (!ends_with(c->sbuf, "/")) strlcat(c->sbuf, "/", sizeof(c->sbuf)); before_file = strchr(c->sbuf, '\0'); len = strlcat(c->sbuf, vhost_index(c->host, c->iri.path), sizeof(c->sbuf)); if (len >= sizeof(c->sbuf)) { start_reply(c, TEMP_FAILURE, "internal server error"); return; } c->iri.path = c->sbuf; /* close later unless we have to generate the dir listing */ dirfd = c->pfd; c->pfd = -1; switch (check_path(c, c->iri.path, &c->pfd)) { case FILE_EXISTS: c->type = REQUEST_FILE; start_reply(c, SUCCESS, mime(c->host, c->iri.path)); break; case FILE_DIRECTORY: start_reply(c, TEMP_REDIRECT, c->sbuf); break; case FILE_MISSING: *before_file = '\0'; if (!vhost_auto_index(c->host, c->iri.path)) { start_reply(c, NOT_FOUND, "not found"); break; } c->type = REQUEST_DIR; c->dirlen = scandir_fd(dirfd, &c->dir, root ? select_non_dotdot : select_non_dot, alphasort); if (c->dirlen == -1) { log_err(c, "scandir_fd(%d) (vhost:%s) %s: %s", c->pfd, c->host->domain, c->iri.path, strerror(errno)); start_reply(c, TEMP_FAILURE, "internal server error"); return; } c->diroff = 0; c->off = 0; start_reply(c, SUCCESS, "text/gemini"); evbuffer_add_printf(EVBUFFER_OUTPUT(c->bev), "# Index of %s\n\n", c->iri.path); return; default: /* unreachable */ abort(); } close(dirfd); } static void redirect_canonical_dir(struct client *c) { size_t len; strlcpy(c->sbuf, "/", sizeof(c->sbuf)); strlcat(c->sbuf, c->iri.path, sizeof(c->sbuf)); len = strlcat(c->sbuf, "/", sizeof(c->sbuf)); if (len >= sizeof(c->sbuf)) { start_reply(c, TEMP_FAILURE, "internal server error"); return; } start_reply(c, TEMP_REDIRECT, c->sbuf); } 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 = MIN(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_err(client, "tls error: %s", tls_error(client->ctx)); (*bufev->errorcb)(bufev, what, bufev->cbarg); } static void client_read(struct bufferevent *bev, void *d) { struct client *c = d; struct evbuffer *src = EVBUFFER_INPUT(bev); const char *parse_err = "invalid request"; char decoded[DOMAIN_NAME_LEN]; 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_err(c, "too much data received"); start_reply(c, BAD_REQUEST, "bad request"); return; } c->req = evbuffer_readln(src, &len, EVBUFFER_EOL_CRLF_STRICT); if (c->req == NULL) { /* not enough data yet. */ bufferevent_enable(bev, EVBUFFER_READ); return; } c->reqlen = strlen(c->req); if (c->reqlen > 1024+2) { log_err(c, "URL too long"); 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_err(c, "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; open_file(c); } 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(c, "read: %s", strerror(errno)); 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_warn(c, "timeout reached, " "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_err(c, "unknown bufferevent error %x", error); client_close(c); } void 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, EVBUFFER_DATA(evb), EVBUFFER_LENGTH(evb)); if (code != 20) c->type = REQUEST_DONE; return; err: log_err(c, "evbuffer_add_printf error: no memory"); evbuffer_drain(evb, EVBUFFER_LENGTH(evb)); client_close(c); return; overflow: log_warn(c, "reply header overflow"); evbuffer_drain(evb, EVBUFFER_LENGTH(evb)); start_reply(c, TEMP_FAILURE, "internal error"); } 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); break; case TLS_WANT_POLLOUT: event_once(c->fd, EV_WRITE, client_close_ev, c, NULL); break; } 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; } 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; } bufferevent_disable(c->bev, EVBUFFER_READ|EVBUFFER_WRITE); bufferevent_free(c->bev); c->bev = NULL; 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 void do_accept(int sock, short et, void *d) { struct client *c; struct sockaddr_storage addr; struct sockaddr *saddr; socklen_t len; int fd; saddr = (struct sockaddr*)&addr; len = sizeof(addr); if ((fd = accept(sock, saddr, &len)) == -1) { if (errno == EWOULDBLOCK || errno == EAGAIN || errno == ECONNABORTED) return; fatal("accept: %s", strerror(errno)); } mark_nonblock(fd); c = xcalloc(1, sizeof(*c)); c->id = ++server_client_id; c->fd = fd; c->pfd = -1; c->addr = addr; if (tls_accept_socket(ctx, &c->ctx, fd) == -1) { log_warn(c, "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++; } struct client * client_by_id(int id) { struct client find; find.id = id; return SPLAY_FIND(client_tree_id, &clients, &find); } static void handle_dispatch_imsg(int fd, short ev, void *d) { struct imsgbuf *ibuf = d; struct imsg imsg; ssize_t n; if ((n = imsg_read(ibuf)) == -1) { if (errno == EAGAIN || errno == EWOULDBLOCK) return; fatal("imsg_read"); } if (n == 0) fatal("connection closed."); /* XXX: fatalx */ for (;;) { if ((n = imsg_get(ibuf, &imsg)) == -1) fatal("imsg_get"); if (n == 0) return; switch (imsg.hdr.type) { case IMSG_QUIT: /* * Don't call event_loopbreak since we want to * finish handling the ongoing connections. */ shutting_down = 1; event_del(&e4); if (has_ipv6) event_del(&e6); if (has_siginfo) signal_del(&siginfo); event_del(&imsgev); signal_del(&sigusr2); break; default: /* XXX: fatalx */ fatal("Unknown message %d", imsg.hdr.type); } imsg_free(&imsg); } } static void handle_siginfo(int fd, short ev, void *d) { log_info(NULL, "%d connected clients", connected_clients); } void loop(struct tls *ctx_, int sock4, int sock6, struct imsgbuf *ibuf) { ctx = ctx_; SPLAY_INIT(&clients); event_init(); event_set(&e4, sock4, EV_READ | EV_PERSIST, &do_accept, NULL); event_add(&e4, NULL); if (sock6 != -1) { has_ipv6 = 1; event_set(&e6, sock6, EV_READ | EV_PERSIST, &do_accept, NULL); event_add(&e6, NULL); } if (ibuf) { event_set(&imsgev, ibuf->fd, EV_READ | EV_PERSIST, handle_dispatch_imsg, ibuf); event_add(&imsgev, NULL); } #ifdef SIGINFO has_siginfo = 1; 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(conf.can_open_sockets); event_dispatch(); _exit(0); } 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)