/* * uhttpd - Tiny non-forking httpd - Utility functions * * Copyright (C) 2010 Jo-Philipp Wich * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #define _XOPEN_SOURCE 500 /* crypt() */ #define _BSD_SOURCE /* strcasecmp(), strncasecmp() */ #include "uhttpd.h" #include "uhttpd-utils.h" #ifdef HAVE_TLS #include "uhttpd-tls.h" #endif static char *uh_index_files[] = { "index.html", "index.htm", "default.html", "default.htm" }; const char * sa_straddr(void *sa) { static char str[INET6_ADDRSTRLEN]; struct sockaddr_in *v4 = (struct sockaddr_in *)sa; struct sockaddr_in6 *v6 = (struct sockaddr_in6 *)sa; if( v4->sin_family == AF_INET ) return inet_ntop(AF_INET, &(v4->sin_addr), str, sizeof(str)); else return inet_ntop(AF_INET6, &(v6->sin6_addr), str, sizeof(str)); } const char * sa_strport(void *sa) { static char str[6]; snprintf(str, sizeof(str), "%i", sa_port(sa)); return str; } int sa_port(void *sa) { return ntohs(((struct sockaddr_in6 *)sa)->sin6_port); } /* Simple strstr() like function that takes len arguments for both haystack and needle. */ char *strfind(char *haystack, int hslen, const char *needle, int ndlen) { int match = 0; int i, j; for( i = 0; i < hslen; i++ ) { if( haystack[i] == needle[0] ) { match = ((ndlen == 1) || ((i + ndlen) <= hslen)); for( j = 1; (j < ndlen) && ((i + j) < hslen); j++ ) { if( haystack[i+j] != needle[j] ) { match = 0; break; } } if( match ) return &haystack[i]; } } return NULL; } int uh_tcp_send(struct client *cl, const char *buf, int len) { fd_set writer; struct timeval timeout; FD_ZERO(&writer); FD_SET(cl->socket, &writer); timeout.tv_sec = 0; timeout.tv_usec = 500000; if( select(cl->socket + 1, NULL, &writer, NULL, &timeout) > 0 ) { #ifdef HAVE_TLS if( cl->tls ) return SSL_write(cl->tls, buf, len); else #endif return send(cl->socket, buf, len, 0); } return -1; } int uh_tcp_peek(struct client *cl, char *buf, int len) { int sz = uh_tcp_recv(cl, buf, len); /* store received data in peek buffer */ if( sz > 0 ) { cl->peeklen = sz; memcpy(cl->peekbuf, buf, sz); } return sz; } int uh_tcp_recv(struct client *cl, char *buf, int len) { int sz = 0; int rsz = 0; /* first serve data from peek buffer */ if( cl->peeklen > 0 ) { sz = min(cl->peeklen, len); len -= sz; cl->peeklen -= sz; memcpy(buf, cl->peekbuf, sz); memmove(cl->peekbuf, &cl->peekbuf[sz], cl->peeklen); } /* caller wants more */ if( len > 0 ) { #ifdef HAVE_TLS if( cl->tls ) rsz = SSL_read(cl->tls, (void *)&buf[sz], len); else #endif rsz = recv(cl->socket, (void *)&buf[sz], len, 0); if( (sz == 0) || (rsz > 0) ) sz += rsz; } return sz; } #define ensure(x) \ do { if( x < 0 ) return -1; } while(0) int uh_http_sendhf(struct client *cl, int code, const char *summary, const char *fmt, ...) { va_list ap; char buffer[UH_LIMIT_MSGHEAD]; int len; len = snprintf(buffer, sizeof(buffer), "HTTP/1.1 %03i %s\r\n" "Content-Type: text/plain\r\n" "Transfer-Encoding: chunked\r\n\r\n", code, summary ); ensure(uh_tcp_send(cl, buffer, len)); va_start(ap, fmt); len = vsnprintf(buffer, sizeof(buffer), fmt, ap); va_end(ap); ensure(uh_http_sendc(cl, buffer, len)); ensure(uh_http_sendc(cl, NULL, 0)); return 0; } int uh_http_sendc(struct client *cl, const char *data, int len) { char chunk[8]; int clen; if( len == -1 ) len = strlen(data); if( len > 0 ) { clen = snprintf(chunk, sizeof(chunk), "%X\r\n", len); ensure(uh_tcp_send(cl, chunk, clen)); ensure(uh_tcp_send(cl, data, len)); ensure(uh_tcp_send(cl, "\r\n", 2)); } else { ensure(uh_tcp_send(cl, "0\r\n\r\n", 5)); } return 0; } int uh_http_sendf( struct client *cl, struct http_request *req, const char *fmt, ... ) { va_list ap; char buffer[UH_LIMIT_MSGHEAD]; int len; va_start(ap, fmt); len = vsnprintf(buffer, sizeof(buffer), fmt, ap); va_end(ap); if( (req != NULL) && (req->version > 1.0) ) ensure(uh_http_sendc(cl, buffer, len)); else if( len > 0 ) ensure(uh_tcp_send(cl, buffer, len)); return 0; } int uh_http_send( struct client *cl, struct http_request *req, const char *buf, int len ) { if( len < 0 ) len = strlen(buf); if( (req != NULL) && (req->version > 1.0) ) ensure(uh_http_sendc(cl, buf, len)); else if( len > 0 ) ensure(uh_tcp_send(cl, buf, len)); return 0; } int uh_urldecode(char *buf, int blen, const char *src, int slen) { int i; int len = 0; #define hex(x) \ (((x) <= '9') ? ((x) - '0') : \ (((x) <= 'F') ? ((x) - 'A' + 10) : \ ((x) - 'a' + 10))) for( i = 0; (i <= slen) && (i <= blen); i++ ) { if( src[i] == '%' ) { if( ((i+2) <= slen) && isxdigit(src[i+1]) && isxdigit(src[i+2]) ) { buf[len++] = (char)(16 * hex(src[i+1]) + hex(src[i+2])); i += 2; } else { buf[len++] = '%'; } } else { buf[len++] = src[i]; } } return len; } int uh_urlencode(char *buf, int blen, const char *src, int slen) { int i; int len = 0; const char hex[] = "0123456789abcdef"; for( i = 0; (i <= slen) && (i <= blen); i++ ) { if( isalnum(src[i]) || (src[i] == '-') || (src[i] == '_') || (src[i] == '.') || (src[i] == '~') ) { buf[len++] = src[i]; } else if( (len+3) <= blen ) { buf[len++] = '%'; buf[len++] = hex[(src[i] >> 4) & 15]; buf[len++] = hex[(src[i] & 15) & 15]; } else { break; } } return len; } int uh_b64decode(char *buf, int blen, const unsigned char *src, int slen) { int i = 0; int len = 0; unsigned int cin = 0; unsigned int cout = 0; for( i = 0; (i <= slen) && (src[i] != 0); i++ ) { cin = src[i]; if( (cin >= '0') && (cin <= '9') ) cin = cin - '0' + 52; else if( (cin >= 'A') && (cin <= 'Z') ) cin = cin - 'A'; else if( (cin >= 'a') && (cin <= 'z') ) cin = cin - 'a' + 26; else if( cin == '+' ) cin = 62; else if( cin == '/' ) cin = 63; else if( cin == '=' ) cin = 0; else continue; cout = (cout << 6) | cin; if( (i % 4) == 3 ) { if( (len + 3) < blen ) { buf[len++] = (char)(cout >> 16); buf[len++] = (char)(cout >> 8); buf[len++] = (char)(cout); } else { break; } } } buf[len++] = 0; return len; } struct path_info * uh_path_lookup(struct client *cl, const char *url) { static char path_phys[PATH_MAX]; static char path_info[PATH_MAX]; static struct path_info p; char buffer[UH_LIMIT_MSGHEAD]; char *docroot = cl->server->conf->docroot; char *pathptr = NULL; int i = 0; struct stat s; memset(path_phys, 0, sizeof(path_phys)); memset(path_info, 0, sizeof(path_info)); memset(buffer, 0, sizeof(buffer)); memset(&p, 0, sizeof(p)); /* copy docroot */ memcpy(buffer, docroot, min(strlen(docroot), sizeof(buffer) - 1)); /* separate query string from url */ if( (pathptr = strchr(url, '?')) != NULL ) { p.query = pathptr[1] ? pathptr + 1 : NULL; /* urldecode component w/o query */ if( pathptr > url ) uh_urldecode( &buffer[strlen(docroot)], sizeof(buffer) - strlen(docroot) - 1, url, (int)(pathptr - url) - 1 ); } /* no query string, decode all of url */ else { uh_urldecode( &buffer[strlen(docroot)], sizeof(buffer) - strlen(docroot) - 1, url, strlen(url) ); } /* create canon path */ for( i = strlen(buffer); i >= 0; i-- ) { if( (buffer[i] == 0) || (buffer[i] == '/') ) { memset(path_info, 0, sizeof(path_info)); memcpy(path_info, buffer, min(i + 1, sizeof(path_info) - 1)); if( realpath(path_info, path_phys) ) { memset(path_info, 0, sizeof(path_info)); memcpy(path_info, &buffer[i], min(strlen(buffer) - i, sizeof(path_info) - 1)); break; } } } /* check whether found path is within docroot */ if( strncmp(path_phys, docroot, strlen(docroot)) || ((path_phys[strlen(docroot)] != 0) && (path_phys[strlen(docroot)] != '/')) ) { return NULL; } /* test current path */ if( ! stat(path_phys, &p.stat) ) { /* is a regular file */ if( p.stat.st_mode & S_IFREG ) { p.root = docroot; p.phys = path_phys; p.name = &path_phys[strlen(docroot)]; p.info = path_info[0] ? path_info : NULL; } /* is a directory */ else if( (p.stat.st_mode & S_IFDIR) && !strlen(path_info) ) { /* ensure trailing slash */ if( path_phys[strlen(path_phys)-1] != '/' ) path_phys[strlen(path_phys)] = '/'; /* try to locate index file */ memset(buffer, 0, sizeof(buffer)); memcpy(buffer, path_phys, sizeof(buffer)); pathptr = &buffer[strlen(buffer)]; for( i = 0; i < array_size(uh_index_files); i++ ) { strncat(buffer, uh_index_files[i], sizeof(buffer)); if( !stat(buffer, &s) && (s.st_mode & S_IFREG) ) { memcpy(path_phys, buffer, sizeof(path_phys)); memcpy(&p.stat, &s, sizeof(p.stat)); break; } *pathptr = 0; } p.root = docroot; p.phys = path_phys; p.name = &path_phys[strlen(docroot)]; } } return p.phys ? &p : NULL; } static char uh_realms[UH_LIMIT_AUTHREALMS * sizeof(struct auth_realm)] = { 0 }; static int uh_realm_count = 0; struct auth_realm * uh_auth_add( char *path, char *realm, char *user, char *pass ) { struct auth_realm *new = NULL; struct passwd *pwd; struct spwd *spwd; if( uh_realm_count < UH_LIMIT_AUTHREALMS ) { new = (struct auth_realm *) &uh_realms[uh_realm_count * sizeof(struct auth_realm)]; memset(new, 0, sizeof(struct auth_realm)); memcpy(new->realm, realm, min(strlen(realm), sizeof(new->realm) - 1)); memcpy(new->path, path, min(strlen(path), sizeof(new->path) - 1)); memcpy(new->user, user, min(strlen(user), sizeof(new->user) - 1)); /* given password refers to a passwd entry */ if( (strlen(pass) > 3) && !strncmp(pass, "$p$", 3) ) { /* try to resolve shadow entry */ if( ((spwd = getspnam(&pass[3])) != NULL) && spwd->sp_pwdp ) { memcpy(new->pass, spwd->sp_pwdp, min(strlen(spwd->sp_pwdp), sizeof(new->pass) - 1)); } /* try to resolve passwd entry */ else if( ((pwd = getpwnam(&pass[3])) != NULL) && pwd->pw_passwd && (pwd->pw_passwd[0] != '!') && (pwd->pw_passwd[0] != 0) ) { memcpy(new->pass, pwd->pw_passwd, min(strlen(pwd->pw_passwd), sizeof(new->pass) - 1)); } } /* ordinary pwd */ else { memcpy(new->pass, pass, min(strlen(pass), sizeof(new->pass) - 1)); } uh_realm_count++; } return new; } int uh_auth_check( struct client *cl, struct http_request *req, struct path_info *pi ) { int i, plen, rlen, protected; char buffer[UH_LIMIT_MSGHEAD]; char *user = NULL; char *pass = NULL; struct auth_realm *realm = NULL; plen = strlen(pi->name); protected = 0; /* check whether at least one realm covers the requested url */ for( i = 0; i < uh_realm_count; i++ ) { realm = (struct auth_realm *) &uh_realms[i * sizeof(struct auth_realm)]; rlen = strlen(realm->path); if( (plen >= rlen) && !strncasecmp(pi->name, realm->path, rlen) ) { req->realm = realm; protected = 1; break; } } /* requested resource is covered by a realm */ if( protected ) { /* try to get client auth info */ foreach_header(i, req->headers) { if( !strcasecmp(req->headers[i], "Authorization") && (strlen(req->headers[i+1]) > 6) && !strncasecmp(req->headers[i+1], "Basic ", 6) ) { memset(buffer, 0, sizeof(buffer)); uh_b64decode(buffer, sizeof(buffer) - 1, (unsigned char *) &req->headers[i+1][6], strlen(req->headers[i+1]) - 6); if( (pass = strchr(buffer, ':')) != NULL ) { user = buffer; *pass++ = 0; } break; } } /* have client auth */ if( user && pass ) { /* find matching realm */ for( i = 0, realm = NULL; i < uh_realm_count; i++ ) { realm = (struct auth_realm *) &uh_realms[i * sizeof(struct auth_realm)]; rlen = strlen(realm->path); if( (plen >= rlen) && !strncasecmp(pi->name, realm->path, rlen) && !strcmp(user, realm->user) ) { req->realm = realm; break; } realm = NULL; } /* found a realm matching the username */ if( realm ) { /* is a crypt passwd */ if( realm->pass[0] == '$' ) pass = crypt(pass, realm->pass); /* check user pass */ if( !strcmp(pass, realm->pass) ) return 1; } } /* 401 */ uh_http_sendf(cl, NULL, "HTTP/%.1f 401 Authorization Required\r\n" "WWW-Authenticate: Basic realm=\"%s\"\r\n" "Content-Type: text/plain\r\n" "Content-Length: 23\r\n\r\n" "Authorization Required\n", req->version, realm ? realm->realm : "" ); return 0; } return 1; } static char uh_listeners[UH_LIMIT_LISTENERS * sizeof(struct listener)] = { 0 }; static char uh_clients[UH_LIMIT_CLIENTS * sizeof(struct client)] = { 0 }; static int uh_listener_count = 0; static int uh_client_count = 0; struct listener * uh_listener_add(int sock, struct config *conf) { struct listener *new = NULL; socklen_t sl; if( uh_listener_count < UH_LIMIT_LISTENERS ) { new = (struct listener *) &uh_listeners[uh_listener_count * sizeof(struct listener)]; new->socket = sock; new->conf = conf; /* get local endpoint addr */ sl = sizeof(struct sockaddr_in6); memset(&(new->addr), 0, sl); getsockname(sock, (struct sockaddr *) &(new->addr), &sl); uh_listener_count++; } return new; } struct listener * uh_listener_lookup(int sock) { struct listener *cur = NULL; int i; for( i = 0; i < uh_listener_count; i++ ) { cur = (struct listener *) &uh_listeners[i * sizeof(struct listener)]; if( cur->socket == sock ) return cur; } return NULL; } struct client * uh_client_add(int sock, struct listener *serv) { struct client *new = NULL; socklen_t sl; if( uh_client_count < UH_LIMIT_CLIENTS ) { new = (struct client *) &uh_clients[uh_client_count * sizeof(struct client)]; new->socket = sock; new->server = serv; /* get remote endpoint addr */ sl = sizeof(struct sockaddr_in6); memset(&(new->peeraddr), 0, sl); getpeername(sock, (struct sockaddr *) &(new->peeraddr), &sl); /* get local endpoint addr */ sl = sizeof(struct sockaddr_in6); memset(&(new->servaddr), 0, sl); getsockname(sock, (struct sockaddr *) &(new->servaddr), &sl); uh_client_count++; } return new; } struct client * uh_client_lookup(int sock) { struct client *cur = NULL; int i; for( i = 0; i < uh_client_count; i++ ) { cur = (struct client *) &uh_clients[i * sizeof(struct client)]; if( cur->socket == sock ) return cur; } return NULL; } void uh_client_remove(int sock) { struct client *del = uh_client_lookup(sock); if( del ) { memmove(del, del + 1, sizeof(uh_clients) - (int)((char *)del - uh_clients) - sizeof(struct client)); uh_client_count--; } }