/**************************************************************************** * apps/netutils/webserver/httpd.c * httpd Web server * * Copyright (C) 2007-2009, 2011-2012 Gregory Nutt. All rights reserved. * Author: Gregory Nutt * * This is a leverage of similar logic from uIP: * * Author: Adam Dunkels * Copyright (c) 2004, Adam Dunkels. * All rights reserved. * * The uIP web server is a very simplistic implementation of an HTTP * server. It can serve web pages and files from a read-only ROM * filesystem, and provides a very small scripting language. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. ****************************************************************************/ /**************************************************************************** * Included Files ****************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include #ifndef CONFIG_NETUTILS_HTTPD_SINGLECONNECT # include #endif #include #include "netutils/netlib.h" #include "netutils/httpd.h" #include "httpd.h" #include "httpd_cgi.h" /**************************************************************************** * Pre-processor Definitions ****************************************************************************/ #if !defined(CONFIG_NETUTILS_HTTPD_SCRIPT_DISABLE) && \ defined(CONFIG_NETUTILS_HTTPD_SENDFILE) # error "Script support and CONFIG_NETUTILS_HTTPD_SENDFILE are mutually exclusive" #endif #if defined(CONFIG_NETUTILS_HTTPD_SENDFILE) && \ defined(CONFIG_NETUTILS_HTTPD_MMAP) # error "CONFIG_NETUTILS_HTTPD_SENDFILE and CONFIG_NETUTILS_HTTPD_MMAP are mutually exclusive" #endif #define ISO_NL 0x0a #define ISO_SPACE 0x20 #define ISO_BANG 0x21 #define ISO_PERCENT 0x25 #define ISO_PERIOD 0x2e #define ISO_SLASH 0x2f #define ISO_COLON 0x3a #ifndef CONFIG_NETUTILS_HTTPD_PATH # define CONFIG_NETUTILS_HTTPD_PATH "/mnt" #endif #ifndef CONFIG_NETUTILS_HTTPD_ERRPATH # define CONFIG_NETUTILS_HTTPD_ERRPATH "" #endif /* The correct way to disable receive timeout errors is by setting the * timeout to zero. */ #ifndef CONFIG_NETUTILS_HTTPD_TIMEOUT # define CONFIG_NETUTILS_HTTPD_TIMEOUT 0 #endif /* If timeouts are not enabled, then keep-alive is disabled. This is to * prevent a rogue HTTP client from blocking the httpd indefinitely. */ #if !defined(CONFIG_NETUTILS_HTTPD_KEEPALIVE_DISABLE) # if CONFIG_NETUTILS_HTTPD_TIMEOUT == 0 # define CONFIG_NETUTILS_HTTPD_KEEPALIVE_DISABLE # endif #endif #ifdef CONFIG_NETUTILS_HTTPD_CLASSIC # ifndef CONFIG_NETUTILS_HTTPD_INDEX # ifndef CONFIG_NETUTILS_HTTPD_SCRIPT_DISABLE # define CONFIG_NETUTILS_HTTPD_INDEX "index.shtml" # else # define CONFIG_NETUTILS_HTTPD_INDEX "index.html" # endif # endif #endif /**************************************************************************** * Private Data ****************************************************************************/ /**************************************************************************** * Private Functions ****************************************************************************/ static int httpd_open(const char *name, struct httpd_fs_file *file) { #if defined(CONFIG_NETUTILS_HTTPD_CLASSIC) return httpd_fs_open(name, file); #elif defined(CONFIG_NETUTILS_HTTPD_MMAP) return httpd_mmap_open(name, file); #elif defined(CONFIG_NETUTILS_HTTPD_SENDFILE) return httpd_sendfile_open(name, file); #else # error "No file handling method" #endif } static int httpd_openindex(struct httpd_state *pstate) { int ret; size_t z; z = strlen(pstate->ht_filename); if (z > 0 && pstate->ht_filename[z - 1] == '/') { pstate->ht_filename[--z] = '\0'; } ret = httpd_open(pstate->ht_filename, &pstate->ht_file); #if defined(CONFIG_NETUTILS_HTTPD_SENDFILE) || \ defined(CONFIG_NETUTILS_HTTPD_MMAP) # if defined(CONFIG_NETUTILS_HTTPD_INDEX) if (ret == ERROR && errno == EISDIR) { snprintf(pstate->ht_filename + z, sizeof pstate->ht_filename - z, "/%s", CONFIG_NETUTILS_HTTPD_INDEX); ret = httpd_open(pstate->ht_filename, &pstate->ht_file); } # endif #endif return ret; } static int httpd_close(struct httpd_fs_file *file) { #if defined(CONFIG_NETUTILS_HTTPD_CLASSIC) return OK; #elif defined(CONFIG_NETUTILS_HTTPD_MMAP) return httpd_mmap_close(file); #elif defined(CONFIG_NETUTILS_HTTPD_SENDFILE) return httpd_sendfile_close(file); #else # error "No file handling method" #endif } #ifdef CONFIG_NETUTILS_HTTPD_DUMPBUFFER static void httpd_dumpbuffer(FAR const char *msg, FAR const char *buffer, unsigned int nbytes) { /* CONFIG_DEBUG_FEATURES, CONFIG_DEBUG_INFO, and CONFIG_DEBUG_NET have to * be defined or the following does nothing. */ ninfodumpbuffer(msg, (FAR const uint8_t *)buffer, nbytes); } #else # define httpd_dumpbuffer(msg,buffer,nbytes) #endif #ifdef CONFIG_NETUTILS_HTTPD_DUMPPSTATE static void httpd_dumppstate(struct httpd_state *pstate, const char *msg) { #if defined(CONFIG_DEBUG_FEATURES) && defined(CONFIG_DEBUG_INFO) && defined(CONFIG_DEBUG_NET) ninfo("[%d] pstate(%p): [%s]\n", pstate->ht_sockfd, pstate, msg); ninfo(" filename: [%s]\n", pstate->ht_filename); ninfo(" htfile len: %d\n", pstate->ht_file.len); ninfo(" sockfd: %d\n", pstate->ht_sockfd); #ifndef CONFIG_NETUTILS_HTTPD_SCRIPT_DISABLE ninfo(" scriptptr: %p\n", pstate->ht_scriptptr); ninfo(" scriptlen: %d\n", pstate->ht_scriptlen); #endif ninfo(" sndlen: %d\n", pstate->ht_sndlen); #endif } #else # define httpd_dumppstate(pstate, msg) #endif #ifndef CONFIG_NETUTILS_HTTPD_SCRIPT_DISABLE static void next_scriptstate(struct httpd_state *pstate) { char *p; p = strchr(pstate->ht_scriptptr, ISO_NL) + 1; pstate->ht_scriptlen -= (unsigned short)(p - pstate->ht_scriptptr); pstate->ht_scriptptr = p; } #endif #ifndef CONFIG_NETUTILS_HTTPD_SCRIPT_DISABLE static int handle_script(struct httpd_state *pstate) { int len; char *ptr; int status; bool chunked_http_tx = 0; #if defined(CONFIG_NETUTILS_HTTPD_ENABLE_CHUNKED_ENCODING) chunked_http_tx = pstate->ht_chunked; #endif while (pstate->ht_file.len > 0) { /* Check if we should start executing a script */ if (*pstate->ht_file.data == ISO_PERCENT && *(pstate->ht_file.data + 1) == ISO_BANG) { pstate->ht_scriptptr = pstate->ht_file.data + 3; pstate->ht_scriptlen = pstate->ht_file.len - 3; if (*(pstate->ht_scriptptr - 1) == ISO_COLON) { if (httpd_open(pstate->ht_scriptptr + 1, &pstate->ht_file) != OK) { return ERROR; } status = httpd_send_datachunk(pstate->ht_sockfd, pstate->ht_file.data, pstate->ht_file.len, chunked_http_tx); DEBUGASSERT(status >= 0); UNUSED(status); httpd_close(&pstate->ht_file); } else { httpd_cgifunction f; f = httpd_cgi(pstate->ht_scriptptr); if (f != NULL) { f(pstate, pstate->ht_scriptptr); } } next_scriptstate(pstate); /* The script is over, so we reset the pointers and continue * sending the rest of the file */ pstate->ht_file.data = pstate->ht_scriptptr; pstate->ht_file.len = pstate->ht_scriptlen; } else { /* See if we find the start of script marker in the block of HTML * to be sent */ if (pstate->ht_file.len > HTTPD_IOBUFFER_SIZE) { len = HTTPD_IOBUFFER_SIZE; } else { len = pstate->ht_file.len; } if (*pstate->ht_file.data == ISO_PERCENT) { ptr = strchr(pstate->ht_file.data + 1, ISO_PERCENT); } else { ptr = strchr(pstate->ht_file.data, ISO_PERCENT); } if (ptr != NULL && ptr != pstate->ht_file.data) { len = (int)(ptr - pstate->ht_file.data); if (len >= HTTPD_IOBUFFER_SIZE) { len = HTTPD_IOBUFFER_SIZE; } } status = httpd_send_datachunk(pstate->ht_sockfd, pstate->ht_file.data, len, chunked_http_tx); DEBUGASSERT(status >= 0); UNUSED(status); pstate->ht_file.data += len; pstate->ht_file.len -= len; } } #if defined(CONFIG_NETUTILS_HTTPD_ENABLE_CHUNKED_ENCODING) /* Chunked encoding terminator */ status = httpd_send_datachunk(pstate->ht_sockfd, 0, 0, chunked_http_tx); DEBUGASSERT(status >= 0); UNUSED(status); #endif return OK; } #endif static int send_chunk(struct httpd_state *pstate, const char *buf, int len) { int ret; do { httpd_dumpbuffer("Outgoing chunk", buf, len); ret = send(pstate->ht_sockfd, buf, len, 0); if (ret < 0) { return ERROR; } buf += ret; len -= ret; } while (len > 0); return OK; } static int httpd_senderror(struct httpd_state *pstate, int status) { int ret; char msg[10 + 1]; ninfo("[%d] sending error '%d'\n", pstate->ht_sockfd, status); if (status < 400 || status >= 600) { status = 500; } #ifndef CONFIG_NETUTILS_HTTPD_KEEPALIVE_DISABLE if (status != 404) { pstate->ht_keepalive = false; } #endif snprintf(pstate->ht_filename, sizeof pstate->ht_filename, "%s/%d.html", CONFIG_NETUTILS_HTTPD_ERRPATH, status); ret = httpd_openindex(pstate); if (httpd_send_headers(pstate, status, ret == OK ? pstate->ht_file.len : sizeof msg - 1) != OK) { return ERROR; } if (ret != OK) { snprintf(msg, sizeof msg, "Error %d\n", status); ret = send_chunk(pstate, msg, sizeof msg - 1); } else { #ifdef CONFIG_NETUTILS_HTTPD_CLASSIC ret = send_chunk(pstate, pstate->ht_file.data, pstate->ht_file.len); #else #ifdef CONFIG_NETUTILS_HTTPD_SENDFILE ret = httpd_sendfile_send(pstate->ht_sockfd, &pstate->ht_file); #endif #endif httpd_close(&pstate->ht_file); } return ret; } static int httpd_sendfile(struct httpd_state *pstate) { #ifndef CONFIG_NETUTILS_HTTPD_SCRIPT_DISABLE char *ptr; #endif int ret = ERROR; pstate->ht_sndlen = 0; ninfo("[%d] sending file '%s'\n", pstate->ht_sockfd, pstate->ht_filename); #ifdef CONFIG_NETUTILS_HTTPD_CGIPATH { httpd_cgifunction f; f = httpd_cgi(pstate->ht_filename); if (f != NULL) { #ifndef CONFIG_NETUTILS_HTTPD_KEEPALIVE_DISABLE pstate->ht_keepalive = false; #endif f(pstate, pstate->ht_filename); return OK; } } #endif if (httpd_openindex(pstate) != OK) { nwarn("WARNING: [%d] '%s' not found\n", pstate->ht_sockfd, pstate->ht_filename); return httpd_senderror(pstate, 404); } #ifndef CONFIG_NETUTILS_HTTPD_SCRIPT_DISABLE ptr = strchr(pstate->ht_filename, ISO_PERIOD); if (ptr != NULL && strncmp(ptr, ".shtml", strlen(".shtml")) == 0) { #ifndef CONFIG_NETUTILS_HTTPD_KEEPALIVE_DISABLE pstate->ht_keepalive = false; #endif if (httpd_send_headers(pstate, 200, -1) != OK) { goto done; } ret = handle_script(pstate); goto done; } #endif #ifdef CONFIG_NETUTILS_HTTPD_DIRLIST if (httpd_send_headers(pstate, 200, -1) != OK) { goto done; } #else if (httpd_send_headers(pstate, pstate->ht_file.len == 0 ? 204 : 200, pstate->ht_file.len) != OK) { goto done; } #endif #ifdef CONFIG_NETUTILS_HTTPD_CLASSIC ret = send_chunk(pstate, pstate->ht_file.data, pstate->ht_file.len); #else #ifdef CONFIG_NETUTILS_HTTPD_SENDFILE ret = httpd_sendfile_send(pstate->ht_sockfd, &pstate->ht_file); #endif #endif done: httpd_close(&pstate->ht_file); return ret; } static inline int httpd_parse(struct httpd_state *pstate) { char *o; enum { STATE_METHOD, STATE_HEADER, STATE_BODY } state; state = STATE_METHOD; o = pstate->ht_buffer; do { char *start; char *end; if (o == pstate->ht_buffer + sizeof pstate->ht_buffer) { nerr("ERROR: ht_buffer overflow\n"); return 413; } { ssize_t r; r = recv(pstate->ht_sockfd, o, sizeof pstate->ht_buffer - (o - pstate->ht_buffer), 0); if (r == 0) { nwarn("WARNING: [%d] connection lost\n", pstate->ht_sockfd); return ERROR; } #if CONFIG_NETUTILS_HTTPD_TIMEOUT > 0 if (r == -1 && errno == EWOULDBLOCK) { nwarn("WARNING: recv timeout\n"); return 408; } #endif if (r == -1) { nerr("ERROR: [%d] recv failed: %d\n", pstate->ht_sockfd, errno); return 400; } o += r; } /* Here o marks the end of the total block currently awaiting * processing. There may be multiple lines in a block; next we deal * with each in turn. */ for (start = pstate->ht_buffer; (end = memchr(start, '\r', o - start)), end != NULL; start = end) { *end = '\0'; end++; /* Here start and end are a single line within the current block */ httpd_dumpbuffer("Incoming HTTP line", start, end - start); if (*end != '\n') { nwarn("WARNING: expected CRLF\n"); return 400; } end++; switch (state) { char *v; case STATE_METHOD: if (0 != strncmp(start, "GET ", 4)) { nwarn("WARNING: method not supported\n"); return 501; } start += 4; v = start + strcspn(start, " "); if (0 != strcmp(v, " HTTP/1.0") && 0 != strcmp(v, " HTTP/1.1")) { nwarn("WARNING: HTTP version not supported\n"); return 505; } /* TODO: url decoding */ if (v - start >= sizeof pstate->ht_filename) { nerr("ERROR: ht_filename overflow\n"); return 414; } *v = '\0'; strcpy(pstate->ht_filename, start); state = STATE_HEADER; break; case STATE_HEADER: if (*start == '\0') { state = STATE_BODY; break; } v = start + strcspn(start, ":"); if (*v != '\0') { *v = '\0', v++; v += strspn(v, ": "); } if (*start == '\0' || *v == '\0') { nwarn("WARNING: header parse error\n"); return 400; } ninfo("[%d] Request header %s: %s\n", pstate->ht_sockfd, start, v); if (0 == strcasecmp(start, "Content-Length") && 0 != atoi(v)) { nwarn("WARNING: non-zero request length\n"); return 413; } #ifndef CONFIG_NETUTILS_HTTPD_KEEPALIVE_DISABLE else if (0 == strcasecmp(start, "Connection") && 0 == strcasecmp(v, "keep-alive")) { pstate->ht_keepalive = true; } #endif break; case STATE_BODY: /* Not implemented */ break; } } /* Shuffle down for the next block */ memmove(pstate->ht_buffer, start, o - start); o -= (start - pstate->ht_buffer); } while (state != STATE_BODY); #ifdef CONFIG_NETUTILS_HTTPD_CLASSIC if (0 == strcmp(pstate->ht_filename, "/")) { strncpy(pstate->ht_filename, "/" CONFIG_NETUTILS_HTTPD_INDEX, strlen("/" CONFIG_NETUTILS_HTTPD_INDEX)); } #endif ninfo("[%d] Filename: %s\n", pstate->ht_sockfd, pstate->ht_filename); return 200; } /**************************************************************************** * Name: httpd_handler * * Description: * Each time a new connection to port 80 is made, a new thread is created * that begins at this entry point. There should be exactly one argument * and it should be the socket descriptor (+1). * ****************************************************************************/ static void *httpd_handler(void *arg) { struct httpd_state *pstate = (struct httpd_state *)malloc(sizeof(struct httpd_state)); int sockfd = (intptr_t)arg; ninfo("[%d] Started\n", sockfd); /* Verify that the state structure was successfully allocated */ if (pstate) { int status; /* Re-initialize the thread state structure */ memset(pstate, 0, sizeof(struct httpd_state)); pstate->ht_sockfd = sockfd; #ifndef CONFIG_NETUTILS_HTTPD_KEEPALIVE_DISABLE do { pstate->ht_keepalive = false; #endif /* Then handle the next httpd command */ status = httpd_parse(pstate); if (status >= 400) { httpd_senderror(pstate, status); } else { httpd_sendfile(pstate); } #ifndef CONFIG_NETUTILS_HTTPD_KEEPALIVE_DISABLE } while (pstate->ht_keepalive); #endif /* End of command processing -- Clean up and exit */ free(pstate); } /* Exit the task */ ninfo("[%d] Exiting\n", sockfd); close(sockfd); return NULL; } #ifdef CONFIG_NETUTILS_HTTPD_SINGLECONNECT static void single_server(uint16_t portno, pthread_startroutine_t handler, int stacksize) { struct sockaddr_in myaddr; socklen_t addrlen; int listensd; int acceptsd; #ifdef CONFIG_NET_SOLINGER struct linger ling; #endif #if CONFIG_NETUTILS_HTTPD_TIMEOUT > 0 struct timeval tv; #endif listensd = netlib_listenon(portno); if (listensd < 0) { return; } /* Begin serving connections */ for (; ; ) { addrlen = sizeof(struct sockaddr_in); acceptsd = accept(listensd, (FAR struct sockaddr *)&myaddr, &addrlen); if (acceptsd < 0) { nerr("ERROR: accept failure: %d\n", errno); break; } ninfo("Connection accepted -- serving sd=%d\n", acceptsd); /* Configure to "linger" until all data is sent * when the socket is closed */ #ifdef CONFIG_NET_SOLINGER ling.l_onoff = 1; ling.l_linger = 30; /* timeout is seconds */ if (setsockopt(acceptsd, SOL_SOCKET, SO_LINGER, &ling, sizeof(struct linger)) < 0) { close(acceptsd); nerr("ERROR: setsockopt SO_LINGER failure: %d\n", errno); break; } #endif #if CONFIG_NETUTILS_HTTPD_TIMEOUT > 0 /* Set up a receive timeout */ tv.tv_sec = CONFIG_NETUTILS_HTTPD_TIMEOUT; tv.tv_usec = 0; if (setsockopt(acceptsd, SOL_SOCKET, SO_RCVTIMEO, &tv, sizeof(struct timeval)) < 0) { close(acceptsd); nerr("ERROR: setsockopt SO_RCVTIMEO failure: %d\n", errno); break; } #endif /* Handle the request. This blocks until complete. */ httpd_handler((FAR void *)acceptsd); } /* Close the sockets */ close(acceptsd); close(listensd); } #endif /**************************************************************************** * Public Functions ****************************************************************************/ /**************************************************************************** * Name: httpd_init ****************************************************************************/ void httpd_init(void) { #ifdef CONFIG_NETUTILS_HTTPD_CLASSIC httpd_fs_init(); #endif } /**************************************************************************** * Name: httpd_listen ****************************************************************************/ int httpd_listen(void) { /* Execute httpd_handler on each connection to port 80 */ #ifdef CONFIG_NETUTILS_HTTPD_SINGLECONNECT single_server(HTONS(80), httpd_handler, CONFIG_NETUTILS_HTTPDSTACKSIZE); #else netlib_server(HTONS(80), httpd_handler, CONFIG_NETUTILS_HTTPDSTACKSIZE); #endif /* the server accept loop only returns on errors */ return ERROR; } /**************************************************************************** * Name: httpd_send_datachunk ****************************************************************************/ int httpd_send_datachunk(int sockfd, void *data, int len, bool chunked) { int ret = 0; #if defined(CONFIG_NETUTILS_HTTPD_ENABLE_CHUNKED_ENCODING) char chunked_info[HTTPD_MAX_CHUNKEDLEN]; #endif #if defined(CONFIG_NETUTILS_HTTPD_ENABLE_CHUNKED_ENCODING) /* Chunk prolog */ if (chunked) { int chunked_info_len = snprintf(chunked_info, HTTPD_MAX_CHUNKEDLEN, "%X\r\n", len); ret = send(sockfd, chunked_info, chunked_info_len, 0); DEBUGASSERT(ret == chunked_info_len); } #endif if (ret >= 0) { if (len == 0) { /* Lower layer does not tolerate buf = NULL even if len = 0 * so just pass a dummy pointer. */ data = &len; } ret = send(sockfd, data, len, 0); DEBUGASSERT(ret == len); } #if defined(CONFIG_NETUTILS_HTTPD_ENABLE_CHUNKED_ENCODING) /* Chunk epilog */ if (ret >= 0) { if (chunked) { ret = send(sockfd, "\r\n", 2, 0); DEBUGASSERT(ret == 2); } } #endif return ret; } /**************************************************************************** * Name: httpd_send_headers ****************************************************************************/ int httpd_send_headers(struct httpd_state *pstate, int status, int len) { const char *mime; const char *ptr; char contentlen[HTTPD_MAX_CONTENTLEN] = { 0 }; char header[HTTPD_MAX_HEADERLEN]; int hdrlen; int i; static const struct { const char *ext; const char *mime; } a[] = { #ifndef CONFIG_NETUTILS_HTTPD_SCRIPT_DISABLE { "shtml", "text/html" }, #endif { "html", "text/html" }, { "css", "text/css" }, { "txt", "text/plain" }, { "json", "application/json" }, { "js", "text/javascript" }, { "png", "image/png" }, { "gif", "image/gif" }, { "jpeg", "image/jpeg" }, { "jpg", "image/jpeg" }, { "mp3", "audio/mpeg" }, }; ptr = strrchr(pstate->ht_filename, ISO_PERIOD); if (ptr == NULL) { mime = "application/octet-stream"; } else { mime = "text/plain"; for (i = 0; i < sizeof a / sizeof *a; i++) { if (strncmp(a[i].ext, ptr + 1, strlen(a[i].ext)) == 0) { mime = a[i].mime; break; } } } #ifdef CONFIG_NETUTILS_HTTPD_DIRLIST if (false == httpd_is_file(pstate->ht_filename)) { /* we assume that it's a directory */ mime = "text/html"; } #endif if (len >= 0) { snprintf(contentlen, HTTPD_MAX_CONTENTLEN, "Content-Length: %d\r\n", len); } else { #ifndef CONFIG_NETUTILS_HTTPD_KEEPALIVE_DISABLE /* Length unknown ahead of time */ pstate->ht_keepalive = false; #endif #if defined(CONFIG_NETUTILS_HTTPD_ENABLE_CHUNKED_ENCODING) /* Turn on chunked encoding */ snprintf(contentlen, HTTPD_MAX_CONTENTLEN, "Transfer-Encoding: chunked\r\n"); pstate->ht_chunked = true; #endif } if (status == 413) { /* TODO: here we "SHOULD" include a Retry-After header */ } /* Construct the header. * * REVISIT: Wouldn't asprintf be a better option than a large stack * array? */ hdrlen = snprintf(header, HTTPD_MAX_HEADERLEN, "HTTP/1.0 %d %s\r\n" #ifndef CONFIG_NETUTILS_HTTPD_SERVERHEADER_DISABLE "Server: uIP/NuttX http://nuttx.org/\r\n" #endif "Connection: %s\r\n" "Content-type: %s\r\n" "%s" "\r\n", status, status >= 400 ? "Error" : "OK", #ifndef CONFIG_NETUTILS_HTTPD_KEEPALIVE_DISABLE pstate->ht_keepalive ? "keep-alive" : "close", #else "close", #endif mime, contentlen ); return send_chunk(pstate, header, hdrlen); }