/* * uhttpd - Tiny single-threaded httpd * * Copyright (C) 2010-2013 Jo-Philipp Wich * Copyright (C) 2013 Felix Fietkau * * Permission to use, copy, modify, and/or 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 #include #include "uhttpd.h" #include "tls.h" static LIST_HEAD(clients); static bool client_done = false; int n_clients = 0; struct config conf = {}; const char * const http_versions[] = { [UH_HTTP_VER_0_9] = "HTTP/0.9", [UH_HTTP_VER_1_0] = "HTTP/1.0", [UH_HTTP_VER_1_1] = "HTTP/1.1", }; const char * const http_methods[] = { [UH_HTTP_MSG_GET] = "GET", [UH_HTTP_MSG_POST] = "POST", [UH_HTTP_MSG_HEAD] = "HEAD", [UH_HTTP_MSG_OPTIONS] = "OPTIONS", [UH_HTTP_MSG_PUT] = "PUT", [UH_HTTP_MSG_PATCH] = "PATCH", [UH_HTTP_MSG_DELETE] = "DELETE", }; void uh_http_header(struct client *cl, int code, const char *summary) { struct http_request *r = &cl->request; struct blob_attr *cur; const char *enc = "Transfer-Encoding: chunked\r\n"; const char *conn; int rem; cl->http_code = code; if (!uh_use_chunked(cl)) enc = ""; if (r->connection_close) conn = "Connection: close"; else conn = "Connection: Keep-Alive"; ustream_printf(cl->us, "%s %03i %s\r\n%s\r\n%s", http_versions[cl->request.version], code, summary, conn, enc); if (!r->connection_close) ustream_printf(cl->us, "Keep-Alive: timeout=%d\r\n", conf.http_keepalive); blobmsg_for_each_attr(cur, cl->hdr_response.head, rem) ustream_printf(cl->us, "%s: %s\r\n", blobmsg_name(cur), blobmsg_get_string(cur)); } static void uh_connection_close(struct client *cl) { cl->state = CLIENT_STATE_CLOSE; cl->us->eof = true; ustream_state_change(cl->us); } static void uh_dispatch_done(struct client *cl) { if (cl->dispatch.free) cl->dispatch.free(cl); if (cl->dispatch.req_free) cl->dispatch.req_free(cl); } static void client_timeout(struct uloop_timeout *timeout) { struct client *cl = container_of(timeout, struct client, timeout); cl->state = CLIENT_STATE_CLOSE; uh_connection_close(cl); } static void uh_set_client_timeout(struct client *cl, int timeout) { cl->timeout.cb = client_timeout; uloop_timeout_set(&cl->timeout, timeout * 1000); } static void uh_keepalive_poll_cb(struct uloop_timeout *timeout) { struct client *cl = container_of(timeout, struct client, timeout); int sec = cl->requests > 0 ? conf.http_keepalive : conf.network_timeout; uh_set_client_timeout(cl, sec); cl->us->notify_read(cl->us, 0); } static void uh_poll_connection(struct client *cl) { cl->timeout.cb = uh_keepalive_poll_cb; uloop_timeout_set(&cl->timeout, 1); } void uh_request_done(struct client *cl) { uh_chunk_eof(cl); uh_dispatch_done(cl); blob_buf_init(&cl->hdr_response, 0); memset(&cl->dispatch, 0, sizeof(cl->dispatch)); if (!conf.http_keepalive || cl->request.connection_close) return uh_connection_close(cl); cl->state = CLIENT_STATE_INIT; cl->requests++; uh_poll_connection(cl); } void __printf(4, 5) uh_client_error(struct client *cl, int code, const char *summary, const char *fmt, ...) { va_list arg; uh_http_header(cl, code, summary); ustream_printf(cl->us, "Content-Type: text/html\r\n\r\n"); uh_chunk_printf(cl, "

%s

", summary); if (fmt) { va_start(arg, fmt); uh_chunk_vprintf(cl, fmt, arg); va_end(arg); } uh_request_done(cl); } static void uh_header_error(struct client *cl, int code, const char *summary) { uh_client_error(cl, code, summary, NULL); uh_connection_close(cl); } static int find_idx(const char * const *list, int max, const char *str) { int i; for (i = 0; i < max; i++) if (!strcmp(list[i], str)) return i; return -1; } static int client_parse_request(struct client *cl, char *data) { struct http_request *req = &cl->request; char *type, *path, *version; int h_method, h_version; type = strtok(data, " "); path = strtok(NULL, " "); version = strtok(NULL, " "); if (!type || !path || !version) return CLIENT_STATE_DONE; blobmsg_add_string(&cl->hdr, "URL", path); memset(&cl->request, 0, sizeof(cl->request)); h_method = find_idx(http_methods, ARRAY_SIZE(http_methods), type); h_version = find_idx(http_versions, ARRAY_SIZE(http_versions), version); if (h_method < 0 || h_version < 0) { req->version = UH_HTTP_VER_1_0; return CLIENT_STATE_DONE; } req->method = h_method; req->version = h_version; if (req->version < UH_HTTP_VER_1_1 || req->method == UH_HTTP_MSG_POST || !conf.http_keepalive) req->connection_close = true; return CLIENT_STATE_HEADER; } static bool client_init_cb(struct client *cl, char *buf, int len) { char *newline; newline = strstr(buf, "\r\n"); if (!newline) return false; if (newline == buf) { ustream_consume(cl->us, 2); return true; } *newline = 0; blob_buf_init(&cl->hdr, 0); cl->state = client_parse_request(cl, buf); ustream_consume(cl->us, newline + 2 - buf); if (cl->state == CLIENT_STATE_DONE) uh_header_error(cl, 400, "Bad Request"); return true; } static bool rfc1918_filter_check(struct client *cl) { if (!conf.rfc1918_filter) return true; if (!uh_addr_rfc1918(&cl->peer_addr) || uh_addr_rfc1918(&cl->srv_addr)) return true; uh_client_error(cl, 403, "Forbidden", "Rejected request from RFC1918 IP " "to public server address"); return false; } static bool tls_redirect_check(struct client *cl) { int rem, port; struct blob_attr *cur; char *ptr, *url = NULL, *host = NULL; if (cl->tls || !conf.tls_redirect) return true; if ((port = uh_first_tls_port(cl->srv_addr.family)) == -1) return true; blob_for_each_attr(cur, cl->hdr.head, rem) { if (!strcmp(blobmsg_name(cur), "host")) host = blobmsg_get_string(cur); if (!strcmp(blobmsg_name(cur), "URL")) url = blobmsg_get_string(cur); if (url && host) break; } if (!url || !host) return true; if ((ptr = strchr(host, ']')) != NULL) *(ptr+1) = 0; else if ((ptr = strchr(host, ':')) != NULL) *ptr = 0; cl->request.disable_chunked = true; cl->request.connection_close = true; uh_http_header(cl, 307, "Temporary Redirect"); if (port != 443) ustream_printf(cl->us, "Location: https://%s:%d%s\r\n\r\n", host, port, url); else ustream_printf(cl->us, "Location: https://%s%s\r\n\r\n", host, url); uh_request_done(cl); return false; } static void client_header_complete(struct client *cl) { struct http_request *r = &cl->request; if (!rfc1918_filter_check(cl)) return; if (!tls_redirect_check(cl)) return; if (r->expect_cont) ustream_printf(cl->us, "HTTP/1.1 100 Continue\r\n\r\n"); switch(r->ua) { case UH_UA_MSIE_OLD: if (r->method != UH_HTTP_MSG_POST) break; /* fall through */ case UH_UA_SAFARI: r->connection_close = true; break; default: break; } uh_handle_request(cl); } static void client_parse_header(struct client *cl, char *data) { struct http_request *r = &cl->request; char *err; char *name; char *val; if (!*data) { uloop_timeout_cancel(&cl->timeout); cl->state = CLIENT_STATE_DATA; client_header_complete(cl); return; } val = uh_split_header(data); if (!val) { cl->state = CLIENT_STATE_DONE; return; } for (name = data; *name; name++) if (isupper(*name)) *name = tolower(*name); if (!strcmp(data, "expect")) { if (!strcasecmp(val, "100-continue")) r->expect_cont = true; else { uh_header_error(cl, 412, "Precondition Failed"); return; } } else if (!strcmp(data, "content-length")) { r->content_length = strtoul(val, &err, 0); if (err && *err) { uh_header_error(cl, 400, "Bad Request"); return; } } else if (!strcmp(data, "transfer-encoding")) { if (!strcmp(val, "chunked")) r->transfer_chunked = true; } else if (!strcmp(data, "connection")) { if (!strcasecmp(val, "close")) r->connection_close = true; } else if (!strcmp(data, "user-agent")) { char *str; if (strstr(val, "Opera")) r->ua = UH_UA_OPERA; else if ((str = strstr(val, "MSIE ")) != NULL) { r->ua = UH_UA_MSIE_NEW; if (str[5] && str[6] == '.') { switch (str[5]) { case '6': if (strstr(str, "SV1")) break; /* fall through */ case '5': case '4': r->ua = UH_UA_MSIE_OLD; break; } } } else if (strstr(val, "Chrome/")) r->ua = UH_UA_CHROME; else if (strstr(val, "Safari/") && strstr(val, "Mac OS X")) r->ua = UH_UA_SAFARI; else if (strstr(val, "Gecko/")) r->ua = UH_UA_GECKO; else if (strstr(val, "Konqueror")) r->ua = UH_UA_KONQUEROR; } blobmsg_add_string(&cl->hdr, data, val); cl->state = CLIENT_STATE_HEADER; } void client_poll_post_data(struct client *cl) { struct dispatch *d = &cl->dispatch; struct http_request *r = &cl->request; char *buf; int len; if (cl->state == CLIENT_STATE_DONE) return; while (1) { char *sep; int offset = 0; int cur_len; buf = ustream_get_read_buf(cl->us, &len); if (!buf || !len) break; if (!d->data_send) return; cur_len = min(r->content_length, len); if (cur_len) { if (d->data_blocked) break; if (d->data_send) cur_len = d->data_send(cl, buf, cur_len); r->content_length -= cur_len; ustream_consume(cl->us, cur_len); continue; } if (!r->transfer_chunked) break; if (r->transfer_chunked > 1) offset = 2; sep = strstr(buf + offset, "\r\n"); if (!sep) break; *sep = 0; r->content_length = strtoul(buf + offset, &sep, 16); r->transfer_chunked++; ustream_consume(cl->us, sep + 2 - buf); /* invalid chunk length */ if (sep && *sep) { r->content_length = 0; r->transfer_chunked = 0; break; } /* empty chunk == eof */ if (!r->content_length) { r->transfer_chunked = false; break; } } buf = ustream_get_read_buf(cl->us, &len); if (!r->content_length && !r->transfer_chunked && cl->state != CLIENT_STATE_DONE) { if (cl->dispatch.data_done) cl->dispatch.data_done(cl); cl->state = CLIENT_STATE_DONE; } } static bool client_data_cb(struct client *cl, char *buf, int len) { client_poll_post_data(cl); return false; } static bool client_header_cb(struct client *cl, char *buf, int len) { char *newline; int line_len; newline = strstr(buf, "\r\n"); if (!newline) return false; *newline = 0; client_parse_header(cl, buf); line_len = newline + 2 - buf; ustream_consume(cl->us, line_len); if (cl->state == CLIENT_STATE_DATA) return client_data_cb(cl, newline + 2, len - line_len); return true; } typedef bool (*read_cb_t)(struct client *cl, char *buf, int len); static read_cb_t read_cbs[] = { [CLIENT_STATE_INIT] = client_init_cb, [CLIENT_STATE_HEADER] = client_header_cb, [CLIENT_STATE_DATA] = client_data_cb, }; void uh_client_read_cb(struct client *cl) { struct ustream *us = cl->us; char *str; int len; client_done = false; do { str = ustream_get_read_buf(us, &len); if (!str || !len) break; if (cl->state >= array_size(read_cbs) || !read_cbs[cl->state]) break; if (!read_cbs[cl->state](cl, str, len)) { if (len == us->r.buffer_len && cl->state != CLIENT_STATE_DATA) uh_header_error(cl, 413, "Request Entity Too Large"); break; } } while (!client_done); } static void client_close(struct client *cl) { if (cl->refcount) { cl->state = CLIENT_STATE_CLEANUP; return; } client_done = true; n_clients--; uh_dispatch_done(cl); uloop_timeout_cancel(&cl->timeout); if (cl->tls) uh_tls_client_detach(cl); ustream_free(&cl->sfd.stream); close(cl->sfd.fd.fd); list_del(&cl->list); blob_buf_free(&cl->hdr); blob_buf_free(&cl->hdr_response); free(cl); uh_unblock_listeners(); } void uh_client_notify_state(struct client *cl) { struct ustream *s = cl->us; if (!s->write_error && cl->state != CLIENT_STATE_CLEANUP) { if (cl->state == CLIENT_STATE_DATA) return; if (!s->eof || s->w.data_bytes) return; if (cl->tls && cl->ssl.conn && cl->ssl.conn->w.data_bytes) { cl->ssl.conn->eof = s->eof; if (!ustream_write_pending(cl->ssl.conn)) return; } } return client_close(cl); } static void client_ustream_read_cb(struct ustream *s, int bytes) { struct client *cl = container_of(s, struct client, sfd.stream); uh_client_read_cb(cl); } static void client_ustream_write_cb(struct ustream *s, int bytes) { struct client *cl = container_of(s, struct client, sfd.stream); if (cl->dispatch.write_cb) cl->dispatch.write_cb(cl); } static void client_notify_state(struct ustream *s) { struct client *cl = container_of(s, struct client, sfd.stream); uh_client_notify_state(cl); } static void set_addr(struct uh_addr *addr, void *src) { struct sockaddr_in *sin = src; struct sockaddr_in6 *sin6 = src; addr->family = sin->sin_family; if (addr->family == AF_INET) { addr->port = ntohs(sin->sin_port); memcpy(&addr->in, &sin->sin_addr, sizeof(addr->in)); } else { addr->port = ntohs(sin6->sin6_port); memcpy(&addr->in6, &sin6->sin6_addr, sizeof(addr->in6)); } } bool uh_accept_client(int fd, bool tls) { static struct client *next_client; struct client *cl; unsigned int sl; int sfd; static int client_id = 0; struct sockaddr_in6 addr; if (!next_client) next_client = calloc(1, sizeof(*next_client)); cl = next_client; sl = sizeof(addr); sfd = accept(fd, (struct sockaddr *) &addr, &sl); if (sfd < 0) return false; set_addr(&cl->peer_addr, &addr); sl = sizeof(addr); getsockname(sfd, (struct sockaddr *) &addr, &sl); set_addr(&cl->srv_addr, &addr); cl->us = &cl->sfd.stream; if (tls) { uh_tls_client_attach(cl); } else { cl->us->notify_read = client_ustream_read_cb; cl->us->notify_write = client_ustream_write_cb; cl->us->notify_state = client_notify_state; } cl->us->string_data = true; ustream_fd_init(&cl->sfd, sfd); uh_poll_connection(cl); list_add_tail(&cl->list, &clients); next_client = NULL; n_clients++; cl->id = client_id++; cl->tls = tls; return true; } void uh_close_fds(void) { struct client *cl; uloop_done(); uh_close_listen_fds(); list_for_each_entry(cl, &clients, list) { close(cl->sfd.fd.fd); if (cl->dispatch.close_fds) cl->dispatch.close_fds(cl); } }