/* * 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" #define __headers \ __header(accept, accept) \ __header(accept_charset, accept-charset) \ __header(accept_encoding, accept-encoding) \ __header(accept_language, accept-language) \ __header(authorization, authorization) \ __header(connection, connection) \ __header(cookie, cookie) \ __header(host, host) \ __header(referer, referer) \ __header(user_agent, user-agent) \ __header(content_type, content-type) \ __header(content_length, content-length) \ __header(x_http_method_override, x-http-method-override) \ __header(http_auth_user, http-auth-user) \ __header(http_auth_pass, http-auth-pass) #undef __header #define __header __enum_header enum client_hdr { __headers __HDR_MAX, }; #undef __header #define __header __blobmsg_header static const struct blobmsg_policy hdr_policy[__HDR_MAX] = { __headers }; static const struct { const char *name; int idx; } proc_header_env[] = { { "HTTP_ACCEPT", HDR_accept }, { "HTTP_ACCEPT_CHARSET", HDR_accept_charset }, { "HTTP_ACCEPT_ENCODING", HDR_accept_encoding }, { "HTTP_ACCEPT_LANGUAGE", HDR_accept_language }, { "HTTP_AUTHORIZATION", HDR_authorization }, { "HTTP_CONNECTION", HDR_connection }, { "HTTP_COOKIE", HDR_cookie }, { "HTTP_HOST", HDR_host }, { "HTTP_REFERER", HDR_referer }, { "HTTP_USER_AGENT", HDR_user_agent }, { "HTTP_X_HTTP_METHOD_OVERRIDE", HDR_x_http_method_override }, { "HTTP_AUTH_USER", HDR_http_auth_user }, { "HTTP_AUTH_PASS", HDR_http_auth_pass }, { "CONTENT_TYPE", HDR_content_type }, { "CONTENT_LENGTH", HDR_content_length }, }; enum extra_vars { /* no update needed */ _VAR_GW, _VAR_SOFTWARE, /* updated by uh_get_process_vars */ VAR_SCRIPT_NAME, VAR_SCRIPT_FILE, VAR_DOCROOT, VAR_QUERY, VAR_REQUEST, VAR_PROTO, VAR_METHOD, VAR_PATH_INFO, VAR_USER, VAR_HTTPS, VAR_REDIRECT, VAR_SERVER_NAME, VAR_SERVER_ADDR, VAR_SERVER_PORT, VAR_REMOTE_NAME, VAR_REMOTE_ADDR, VAR_REMOTE_PORT, __VAR_MAX, }; static char local_addr[INET6_ADDRSTRLEN], remote_addr[INET6_ADDRSTRLEN]; static char local_port[6], remote_port[6]; static char redirect_status[4]; static struct env_var extra_vars[] = { [_VAR_GW] = { "GATEWAY_INTERFACE", "CGI/1.1" }, [_VAR_SOFTWARE] = { "SERVER_SOFTWARE", "uhttpd" }, [VAR_SCRIPT_NAME] = { "SCRIPT_NAME" }, [VAR_SCRIPT_FILE] = { "SCRIPT_FILENAME" }, [VAR_DOCROOT] = { "DOCUMENT_ROOT" }, [VAR_QUERY] = { "QUERY_STRING" }, [VAR_REQUEST] = { "REQUEST_URI" }, [VAR_PROTO] = { "SERVER_PROTOCOL" }, [VAR_METHOD] = { "REQUEST_METHOD" }, [VAR_PATH_INFO] = { "PATH_INFO" }, [VAR_USER] = { "REMOTE_USER" }, [VAR_HTTPS] = { "HTTPS" }, [VAR_REDIRECT] = { "REDIRECT_STATUS", redirect_status }, [VAR_SERVER_NAME] = { "SERVER_NAME", local_addr }, [VAR_SERVER_ADDR] = { "SERVER_ADDR", local_addr }, [VAR_SERVER_PORT] = { "SERVER_PORT", local_port }, [VAR_REMOTE_NAME] = { "REMOTE_HOST", remote_addr }, [VAR_REMOTE_ADDR] = { "REMOTE_ADDR", remote_addr }, [VAR_REMOTE_PORT] = { "REMOTE_PORT", remote_port }, }; struct env_var *uh_get_process_vars(struct client *cl, struct path_info *pi) { struct http_request *req = &cl->request; struct blob_attr *data = cl->hdr.head; struct env_var *vars = (void *) uh_buf; struct blob_attr *tb[__HDR_MAX]; const char *url; int len; int i; url = blobmsg_data(blob_data(cl->hdr.head)); len = ARRAY_SIZE(proc_header_env); len += ARRAY_SIZE(extra_vars); len *= sizeof(struct env_var); BUILD_BUG_ON(sizeof(uh_buf) < len); extra_vars[VAR_SCRIPT_NAME].value = pi->name; extra_vars[VAR_SCRIPT_FILE].value = pi->phys; extra_vars[VAR_DOCROOT].value = pi->root; extra_vars[VAR_QUERY].value = pi->query ? pi->query : ""; extra_vars[VAR_REQUEST].value = url; extra_vars[VAR_PROTO].value = http_versions[req->version]; extra_vars[VAR_METHOD].value = http_methods[req->method]; extra_vars[VAR_PATH_INFO].value = pi->info; extra_vars[VAR_USER].value = req->realm ? req->realm->user : NULL; extra_vars[VAR_HTTPS].value = cl->tls ? "on" : NULL; snprintf(redirect_status, sizeof(redirect_status), "%d", req->redirect_status); inet_ntop(cl->srv_addr.family, &cl->srv_addr.in, local_addr, sizeof(local_addr)); snprintf(local_port, sizeof(local_port), "%d", cl->srv_addr.port); inet_ntop(cl->peer_addr.family, &cl->peer_addr.in, remote_addr, sizeof(remote_addr)); snprintf(remote_port, sizeof(remote_port), "%d", cl->peer_addr.port); blobmsg_parse(hdr_policy, __HDR_MAX, tb, blob_data(data), blob_len(data)); for (i = 0; i < ARRAY_SIZE(proc_header_env); i++) { struct blob_attr *cur; cur = tb[proc_header_env[i].idx]; vars[i].name = proc_header_env[i].name; vars[i].value = cur ? blobmsg_data(cur) : NULL; } memcpy(&vars[i], extra_vars, sizeof(extra_vars)); i += ARRAY_SIZE(extra_vars); vars[i].name = NULL; vars[i].value = NULL; return vars; } static void proc_close_fds(struct client *cl) { struct dispatch_proc *p = &cl->dispatch.proc; close(p->r.sfd.fd.fd); if (p->wrfd.fd >= 0) close(p->wrfd.fd); } static void proc_handle_close(struct relay *r, int ret) { if (r->header_cb) { uh_client_error(r->cl, 502, "Bad Gateway", "The process did not produce any response"); return; } uh_request_done(r->cl); } static void proc_handle_header(struct relay *r, const char *name, const char *val) { static char status_buf[64]; struct client *cl = r->cl; char *sep; char buf[4]; if (!strcmp(name, "Status")) { sep = strchr(val, ' '); if (sep != val + 3) return; memcpy(buf, val, 3); buf[3] = 0; snprintf(status_buf, sizeof(status_buf), "%s", sep + 1); cl->dispatch.proc.status_msg = status_buf; cl->dispatch.proc.status_code = atoi(buf); return; } blobmsg_add_string(&cl->dispatch.proc.hdr, name, val); } static void proc_handle_header_end(struct relay *r) { struct client *cl = r->cl; struct dispatch_proc *p = &cl->dispatch.proc; struct blob_attr *cur; int rem; uloop_timeout_cancel(&p->timeout); uh_http_header(cl, cl->dispatch.proc.status_code, cl->dispatch.proc.status_msg); blob_for_each_attr(cur, cl->dispatch.proc.hdr.head, rem) ustream_printf(cl->us, "%s: %s\r\n", blobmsg_name(cur), blobmsg_data(cur)); ustream_printf(cl->us, "\r\n"); if (cl->request.method == UH_HTTP_MSG_HEAD) r->skip_data = true; } static void proc_write_close(struct client *cl) { struct dispatch_proc *p = &cl->dispatch.proc; if (p->wrfd.fd < 0) return; uloop_fd_delete(&p->wrfd); close(p->wrfd.fd); p->wrfd.fd = -1; } static void proc_free(struct client *cl) { struct dispatch_proc *p = &cl->dispatch.proc; uloop_timeout_cancel(&p->timeout); blob_buf_free(&p->hdr); proc_write_close(cl); uh_relay_free(&p->r); } static void proc_write_cb(struct uloop_fd *fd, unsigned int events) { struct client *cl = container_of(fd, struct client, dispatch.proc.wrfd); client_poll_post_data(cl); } static void proc_relay_write_cb(struct client *cl) { struct dispatch_proc *p = &cl->dispatch.proc; if (ustream_pending_data(cl->us, true)) return; ustream_set_read_blocked(&p->r.sfd.stream, false); p->r.sfd.stream.notify_read(&p->r.sfd.stream, 0); } static int proc_data_send(struct client *cl, const char *data, int len) { struct dispatch_proc *p = &cl->dispatch.proc; int retlen = 0; int ret; while (len) { ret = write(p->wrfd.fd, data, len); if (ret < 0) { if (errno == EINTR) continue; if (errno == EAGAIN || errno == EWOULDBLOCK) break; /* consume all data */ ret = len; } if (!ret) break; retlen += ret; len -= ret; data += ret; } if (len) uloop_fd_add(&p->wrfd, ULOOP_WRITE); else uloop_fd_delete(&p->wrfd); return retlen; } static void proc_timeout_cb(struct uloop_timeout *timeout) { struct dispatch_proc *proc = container_of(timeout, struct dispatch_proc, timeout); struct client *cl = container_of(proc, struct client, dispatch.proc); uh_relay_kill(cl, &proc->r); } bool uh_create_process(struct client *cl, struct path_info *pi, char *url, void (*cb)(struct client *cl, struct path_info *pi, char *url)) { struct dispatch *d = &cl->dispatch; struct dispatch_proc *proc = &d->proc; int rfd[2], wfd[2]; int pid; blob_buf_init(&proc->hdr, 0); proc->status_code = 200; proc->status_msg = "OK"; if (pipe(rfd)) return false; if (pipe(wfd)) goto close_rfd; pid = fork(); if (pid < 0) goto close_wfd; if (!pid) { close(0); close(1); dup2(rfd[1], 1); dup2(wfd[0], 0); close(rfd[0]); close(rfd[1]); close(wfd[0]); close(wfd[1]); uh_close_fds(); cb(cl, pi, url); exit(0); } close(rfd[1]); close(wfd[0]); proc->wrfd.fd = wfd[1]; uh_relay_open(cl, &proc->r, rfd[0], pid); d->free = proc_free; d->close_fds = proc_close_fds; d->data_send = proc_data_send; d->data_done = proc_write_close; d->write_cb = proc_relay_write_cb; proc->r.header_cb = proc_handle_header; proc->r.header_end = proc_handle_header_end; proc->r.close = proc_handle_close; proc->wrfd.cb = proc_write_cb; proc->timeout.cb = proc_timeout_cb; if (conf.script_timeout > 0) uloop_timeout_set(&proc->timeout, conf.script_timeout * 1000); return true; close_wfd: close(wfd[0]); close(wfd[1]); close_rfd: close(rfd[0]); close(rfd[1]); return false; }