/* * $id: webserver.c,v 1.39 2005/11/15 06:43:31 rpedde Exp $ * Webserver library * * Copyright (C) 2003 Ron Pedde (ron@pedde.com) * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include #include #include #include #include #include #include #include #include #include #include #ifndef WIN32 # include # include # include #endif #include "err.h" #include "restart.h" #include "webserver.h" #ifndef WIN32 /* FIXME: the uici stuff should be moved into os-win32 and os-unix * as os_opensocket, os_accept, etc */ # include "uici.h" #endif /* * Defines */ #define MAX_HOSTNAME 256 #define MAX_LINEBUFFER 1024 /* * Local (private) typedefs */ typedef struct tag_ws_handler { regex_t regex; void (*req_handler)(WS_CONNINFO*); int(*auth_handler)(char *, char *); int addheaders; struct tag_ws_handler *next; } WS_HANDLER; typedef struct tag_ws_connlist { WS_CONNINFO *pwsc; struct tag_ws_connlist *next; } WS_CONNLIST; typedef struct tag_ws_private { WSCONFIG wsconfig; WS_HANDLER handlers; WS_CONNLIST connlist; int server_fd; int stop; int running; int threadno; int dispatch_threads; pthread_t server_tid; pthread_cond_t exit_cond; pthread_mutex_t exit_mutex; } WS_PRIVATE; /* * Forwards */ void *ws_mainthread(void*); void *ws_dispatcher(void*); int ws_lock_unsafe(void); int ws_unlock_unsafe(void); void ws_defaulthandler(WS_PRIVATE *pwsp, WS_CONNINFO *pwsc); int ws_addarg(ARGLIST *root, char *key, char *fmt, ...); void ws_freearglist(ARGLIST *root); char *ws_urldecode(char *string, int space_as_plus); int ws_getheaders(WS_CONNINFO *pwsc); int ws_getpostvars(WS_CONNINFO *pwsc); int ws_getgetvars(WS_CONNINFO *pwsc, char *string); char *ws_getarg(ARGLIST *root, char *key); int ws_testarg(ARGLIST *root, char *key, char *value); int ws_findhandler(WS_PRIVATE *pwsp, WS_CONNINFO *pwsc, void(**preq)(WS_CONNINFO*), int(**pauth)(char *, char *), int *addheaders); int ws_registerhandler(WSHANDLE ws, char *regex, void(*handler)(WS_CONNINFO*), int(*auth)(char *, char *), int addheaders); int ws_decodepassword(char *header, char **username, char **password); int ws_testrequestheader(WS_CONNINFO *pwsc, char *header, char *value); char *ws_getrequestheader(WS_CONNINFO *pwsc, char *header); static void ws_add_dispatch_thread(WS_PRIVATE *pwsp, WS_CONNINFO *pwsc); static void ws_remove_dispatch_thread(WS_PRIVATE *pwsp, WS_CONNINFO *pwsc); static int ws_encoding_hack(WS_CONNINFO *pwsc); /* * Globals */ pthread_mutex_t ws_unsafe=PTHREAD_MUTEX_INITIALIZER; char *ws_dow[] = { "Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat" }; char *ws_moy[] = { "Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec" }; /* * ws_lock_unsafe * * Lock non-thread-safe functions * * returns 0 on success, * returns -1 on failure, with errno set */ int ws_lock_unsafe(void) { int err; int retval=0; DPRINTF(E_SPAM,L_WS,"Entering ws_lock_unsafe\n"); if((err=pthread_mutex_lock(&ws_unsafe))) { errno=err; retval=-1; } DPRINTF(E_SPAM,L_WS,"Exiting ws_lock_unsafe with retval of %d\n",retval); return retval; } /* * ws_unlock_unsafe * * Lock non-thread-safe functions * * returns 0 on success, * returns -1 on failure, with errno set */ int ws_unlock_unsafe(void) { int err; int retval=0; DPRINTF(E_SPAM,L_WS,"Entering ws_unlock_unsafe\n"); if((err=pthread_mutex_unlock(&ws_unsafe))) { errno=err; retval=-1; } DPRINTF(E_SPAM,L_WS,"Exiting ws_unlock_unsafe with a retval of %d\n",retval); return retval; } /** * lock the connection list */ void ws_lock_connlist(WS_PRIVATE *pwsp) { if(pthread_mutex_lock(&pwsp->exit_mutex)) DPRINTF(E_FATAL,L_WS,"Cannot lock condition mutex\n"); } void ws_unlock_connlist(WS_PRIVATE *pwsp) { pthread_mutex_unlock(&pwsp->exit_mutex); } /* * ws_start * * Start the main webserver thread. Should really * bind and listen to the port before spawning the thread, * since it will be hard to detect and return the error unless * we listen first * * RETURNS * Success: WSHANDLE * Failure: NULL, with errno set * */ WSHANDLE ws_start(WSCONFIG *config) { int err; WS_PRIVATE *pwsp; DPRINTF(E_SPAM,L_WS,"Entering ws_start\n"); if((pwsp=(WS_PRIVATE*)malloc(sizeof(WS_PRIVATE))) == NULL) { DPRINTF(E_SPAM,L_WS,"Malloc error: %s\n",strerror(errno)); return NULL; } memcpy(&pwsp->wsconfig,config,sizeof(WS_PRIVATE)); pwsp->connlist.next=NULL; pwsp->running=0; pwsp->threadno=0; pwsp->stop=0; pwsp->dispatch_threads=0; pwsp->handlers.next=NULL; if((err=pthread_cond_init(&pwsp->exit_cond, NULL))) { errno=err; DPRINTF(E_LOG,L_WS,"Error in pthread_cond_init: %s\n",strerror(errno)); return NULL; } if((err=pthread_mutex_init(&pwsp->exit_mutex,NULL))) { errno=err; DPRINTF(E_LOG,L_WS,"Error in pthread_mutex_init: %s\n",strerror(errno)); return NULL; } DPRINTF(E_INF,L_WS,"Preparing to listen on port %d\n",pwsp->wsconfig.port); if((pwsp->server_fd = u_open(pwsp->wsconfig.port)) == -1) { err=errno; DPRINTF(E_LOG,L_WS,"Could not open port: %s\n",strerror(errno)); errno=err; return NULL; } DPRINTF(E_INF,L_WS,"Starting server thread\n"); if((err=pthread_create(&pwsp->server_tid,NULL,ws_mainthread,(void*)pwsp))) { DPRINTF(E_LOG,L_WS,"Could not spawn thread: %s\n",strerror(err)); r_close(pwsp->server_fd); errno=err; return NULL; } /* we're really running */ pwsp->running=1; DPRINTF(E_SPAM,L_WS,"Exiting ws_start\n"); return (WSHANDLE)pwsp; } /* * ws_remove_dispatch_thread * * remove a dispatch thread from the thread list */ void ws_remove_dispatch_thread(WS_PRIVATE *pwsp, WS_CONNINFO *pwsc) { WS_CONNLIST *pHead, *pTail; DPRINTF(E_SPAM,L_WS,"Entering ws_remove_dispatch_thread\n"); ws_lock_connlist(pwsp); pTail=&(pwsp->connlist); pHead=pwsp->connlist.next; while((pHead) && (pHead->pwsc != pwsc)) { pTail=pHead; pHead=pHead->next; } if(pHead) { pwsp->dispatch_threads--; DPRINTF(E_DBG,L_WS,"With thread %d exiting, %d are still running\n", pwsc->threadno,pwsp->dispatch_threads); pTail->next = pHead->next; free(pHead); /* signal condition in case something is waiting */ pthread_cond_signal(&pwsp->exit_cond); } ws_unlock_connlist(pwsp); DPRINTF(E_SPAM,L_WS,"Exiting ws_remote_dispatch_thread\n"); } /* * ws_add_dispatch_thread * * Add a thread to the dispatch thread list */ void ws_add_dispatch_thread(WS_PRIVATE *pwsp, WS_CONNINFO *pwsc) { WS_CONNLIST *pNew; DPRINTF(E_SPAM,L_WS,"Entering ws_add_dispatch_thread\n"); pNew=(WS_CONNLIST*)malloc(sizeof(WS_CONNLIST)); pNew->next=NULL; pNew->pwsc=pwsc; if(!pNew) DPRINTF(E_FATAL,L_WS,"Malloc: %s\n",strerror(errno)); ws_lock_connlist(pwsp); /* list is locked... */ pwsp->dispatch_threads++; pNew->next = pwsp->connlist.next; pwsp->connlist.next = pNew; ws_unlock_connlist(pwsp); DPRINTF(E_SPAM,L_WS,"Exiting ws_add_dispatch_thread\n"); } /* * ws_stop * * Stop the web server and all the child threads */ extern int ws_stop(WSHANDLE ws) { WS_PRIVATE *pwsp = (WS_PRIVATE*)ws; WS_HANDLER *current; WS_CONNLIST *pcl; void *result; DPRINTF(E_DBG,L_WS,"Entering ws_stop: %d threads\n",pwsp->dispatch_threads); /* free the ws_handlers */ while(pwsp->handlers.next) { current=pwsp->handlers.next; pwsp->handlers.next=current->next; regfree(¤t->regex); free(current); } pwsp->stop=1; pwsp->running=0; DPRINTF(E_DBG,L_WS,"ws_stop: closing the server fd\n"); shutdown(pwsp->server_fd,SHUT_RDWR); r_close(pwsp->server_fd); /* wait for the server thread to terminate. SHould be quick! */ pthread_join(pwsp->server_tid,&result); /* Give the threads an extra push */ ws_lock_connlist(pwsp); pcl=pwsp->connlist.next; /* Closing the client sockets out from under the dispatch threads * should cause the dispatch threads to exit out with an error. */ while(pcl) { if(pcl->pwsc->fd) { shutdown(pcl->pwsc->fd,SHUT_RDWR); r_close(pcl->pwsc->fd); } pcl=pcl->next; } /* wait for the threads to be done */ while(pwsp->dispatch_threads) { DPRINTF(E_DBG,L_WS,"ws_stop: I still see %d threads\n",pwsp->dispatch_threads); pthread_cond_wait(&pwsp->exit_cond, &pwsp->exit_mutex); } ws_unlock_connlist(pwsp); free(pwsp); DPRINTF(E_SPAM,L_WS,"Exiting ws_stop\n"); return 0; } /* * ws_mainthread * * Main thread for webserver - this accepts connections * and spawns a handler thread for each incoming connection. * * For a persistant connection, these threads will be * long-lived, otherwise, they will terminate as soon as * the request has been honored. * * These client threads will, of course, be detached */ void *ws_mainthread(void *arg) { int fd; int err; WS_PRIVATE *pwsp = (WS_PRIVATE*)arg; WS_CONNINFO *pwsc; pthread_t tid; char hostname[MAX_HOSTNAME]; DPRINTF(E_SPAM,L_WS,"Entering ws_mainthread\n"); while(1) { pwsc=(WS_CONNINFO*)malloc(sizeof(WS_CONNINFO)); if(!pwsc) { /* can't very well service any more threads! */ DPRINTF(E_FATAL,L_WS,"Error: %s\n",strerror(errno)); pwsp->running=0; return NULL; } memset(pwsc,0,sizeof(WS_CONNINFO)); if((fd=u_accept(pwsp->server_fd,hostname,MAX_HOSTNAME)) == -1) { DPRINTF(E_LOG,L_WS,"Dispatcher: accept failed: %s\n",strerror(errno)); shutdown(pwsp->server_fd,SHUT_RDWR); r_close(pwsp->server_fd); pwsp->running=0; free(pwsc); DPRINTF(E_FATAL,L_WS,"Dispatcher: Aborting\n"); return NULL; } pwsc->hostname=strdup(hostname); pwsc->fd=fd; pwsc->pwsp = pwsp; /* Spawn off a dispatcher to decide what to do with * the request */ /* don't really care if it locks or not */ ws_lock_unsafe(); pwsc->threadno=pwsp->threadno; pwsp->threadno++; /* we'll hold the unsafe until the dispatch thread is registered */ /* now, throw off a dispatch thread */ if((err=pthread_create(&tid,NULL,ws_dispatcher,(void*)pwsc))) { pwsc->error=err; DPRINTF(E_FATAL,L_WS,"Could not spawn thread: %s\n",strerror(err)); ws_close(pwsc); } else { ws_add_dispatch_thread(pwsp,pwsc); pthread_detach(tid); } ws_unlock_unsafe(); } DPRINTF(E_SPAM,L_WS,"Exiting ws_mainthred\n"); } /* * ws_close * * Close the connection. This might be called when things * are already in bad shape, so we'll ignore errors and let * them be detected back in either the dispatch * thread or the main server thread * * Mainly, we just want to make sure that any * allocated memory has been freed */ void ws_close(WS_CONNINFO *pwsc) { WS_PRIVATE *pwsp = (WS_PRIVATE *)(pwsc->pwsp); DPRINTF(E_SPAM,L_WS,"Entering ws_close\n"); DPRINTF(E_DBG,L_WS,"Thread %d: Terminating\n",pwsc->threadno); DPRINTF(E_DBG,L_WS,"Thread %d: Freeing request headers\n",pwsc->threadno); ws_freearglist(&pwsc->request_headers); DPRINTF(E_DBG,L_WS,"Thread %d: Freeing response headers\n",pwsc->threadno); ws_freearglist(&pwsc->response_headers); DPRINTF(E_DBG,L_WS,"Thread %d: Freeing request vars\n",pwsc->threadno); ws_freearglist(&pwsc->request_vars); if(pwsc->uri) { free(pwsc->uri); pwsc->uri=NULL; } if((pwsc->close)||(pwsc->error)) { DPRINTF(E_DBG,L_WS,"Thread %d: Closing fd\n",pwsc->threadno); shutdown(pwsc->fd,SHUT_RDWR); r_close(pwsc->fd); /* this thread is done */ ws_remove_dispatch_thread(pwsp, pwsc); /* Get rid of the local storage */ if(pwsc->local_storage) { if(pwsc->storage_callback) { pwsc->storage_callback(pwsc->local_storage); pwsc->local_storage=NULL; pwsc->storage_callback=NULL; } } free(pwsc->hostname); memset(pwsc,0x00,sizeof(WS_CONNINFO)); free(pwsc); DPRINTF(E_SPAM,L_WS,"Exiting ws_close (thread terminating)\n"); pthread_exit(NULL); } DPRINTF(E_SPAM,L_WS,"Exiting ws_close (thread continuing)\n"); } /* * ws_freearglist * * Walks through an arg list freeing as it goes */ void ws_freearglist(ARGLIST *root) { ARGLIST *current; DPRINTF(E_SPAM,L_WS,"Entering ws_freearglist\n"); while(root->next) { free(root->next->key); free(root->next->value); current=root->next; root->next=current->next; free(current); } DPRINTF(E_SPAM,L_WS,"Exiting ws_freearglist\n"); } void ws_emitheaders(WS_CONNINFO *pwsc) { ARGLIST *pcurrent=pwsc->response_headers.next; DPRINTF(E_SPAM,L_WS,"Entering ws_emitheaders\n"); while(pcurrent) { DPRINTF(E_DBG,L_WS,"Emitting reponse header %s: %s\n",pcurrent->key, pcurrent->value); ws_writefd(pwsc,"%s: %s\r\n",pcurrent->key,pcurrent->value); pcurrent=pcurrent->next; } ws_writefd(pwsc,"\r\n"); DPRINTF(E_SPAM,L_WS,"Exitin ws_emitheaders\n"); } /* * ws_getpostvars * * Receive and parse headers. These will trump * get headers */ int ws_getpostvars(WS_CONNINFO *pwsc) { char *content_length; int length; char *buffer; DPRINTF(E_SPAM,L_WS,"Entering ws_getpostvars\n"); content_length = ws_getarg(&pwsc->request_headers,"Content-Length"); if(!content_length) { pwsc->error = EINVAL; return -1; } length=atoi(content_length); DPRINTF(E_DBG,L_WS,"Thread %d: Post var length: %d\n", pwsc->threadno,length); buffer=(char*)malloc(length+1); if(!buffer) { pwsc->error = errno; DPRINTF(E_INF,L_WS,"Thread %d: Could not malloc %d bytes\n", pwsc->threadno, length); return -1; } // make the read time out 30 minutes like we said in the // /server-info response if((readtimed(pwsc->fd, buffer, length, 1800.0)) == -1) { DPRINTF(E_INF,L_WS,"Thread %d: Timeout reading post vars\n", pwsc->threadno); pwsc->error=errno; return -1; } DPRINTF(E_DBG,L_WS,"Thread %d: Read post vars: %s\n",pwsc->threadno,buffer); pwsc->error=ws_getgetvars(pwsc,buffer); free(buffer); DPRINTF(E_SPAM,L_WS,"Exiting ws_getpostvars\n"); return pwsc->error; } /* * ws_getheaders * * Receive and parse headers. This is called from * ws_dispatcher */ int ws_getheaders(WS_CONNINFO *pwsc) { char *first, *last; int done; char buffer[MAX_LINEBUFFER]; DPRINTF(E_SPAM,L_WS,"Entering ws_getheaders\n"); /* Break down the headers into some kind of header list */ done=0; while(!done) { if(readline(pwsc->fd,buffer,sizeof(buffer)) == -1) { pwsc->error=errno; DPRINTF(E_INF,L_WS,"Thread %d: Unexpected close\n",pwsc->threadno); return -1; } DPRINTF(E_DBG,L_WS,"Thread %d: Read: %s",pwsc->threadno,buffer); first=buffer; if(buffer[0] == '\r') first=&buffer[1]; /* trim the trailing \n */ if(first[strlen(first)-1] == '\n') first[strlen(first)-1] = '\0'; if(strlen(first) == 0) { DPRINTF(E_DBG,L_WS,"Thread %d: Headers parsed!\n",pwsc->threadno); done=1; } else { /* we have a header! */ last=first; strsep(&last,":"); if(last==first) { DPRINTF(E_WARN,L_WS,"Thread %d: Invalid header: %s\n", pwsc->threadno,first); } else { while(*last==' ') last++; while(last[strlen(last)-1] == '\r') last[strlen(last)-1] = '\0'; DPRINTF(E_DBG,L_WS,"Thread %d: Adding header *%s=%s*\n", pwsc->threadno,first,last); if(ws_addarg(&pwsc->request_headers,first,"%s",last)) { DPRINTF(E_FATAL,L_WS,"Thread %d: Out of memory\n", pwsc->threadno); pwsc->error=ENOMEM; return -1; } } } } DPRINTF(E_SPAM,L_WS,"Exiting ws_getheaders\n"); return 0; } /* * ws_encoding_hack */ int ws_encoding_hack(WS_CONNINFO *pwsc) { char *user_agent; int space_as_plus=1; user_agent=ws_getrequestheader(pwsc, "user-agent"); if(user_agent) { if(strncasecmp(user_agent,"Roku",4) == 0) space_as_plus=0; if(strncasecmp(user_agent,"iTunes",6) == 0) space_as_plus=0; } return space_as_plus; } /* * ws_getgetvars * * parse a GET string of variables (or POST) * */ int ws_getgetvars(WS_CONNINFO *pwsc, char *string) { char *first, *last, *middle; char *key, *value; int done; int space_as_plus; DPRINTF(E_DBG,L_WS,"Thread %d: Entering ws_getgetvars (%s)\n", pwsc->threadno,string); space_as_plus=ws_encoding_hack(pwsc); done=0; first=string; while((!done) && (first)) { last=middle=first; strsep(&last,"&"); strsep(&middle,"="); if(!middle) { DPRINTF(E_WARN,L_WS,"Thread %d: Bad arg: %s\n", pwsc->threadno,first); } else { key=ws_urldecode(first,space_as_plus); value=ws_urldecode(middle,space_as_plus); DPRINTF(E_DBG,L_WS,"Thread %d: Adding arg %s = %s\n", pwsc->threadno,key,value); ws_addarg(&pwsc->request_vars,key,"%s",value); free(key); free(value); } if(!last) { DPRINTF(E_DBG,L_WS,"Thread %d: Done parsing GET/POST args!\n", pwsc->threadno); done=1; } else { first=last; } } DPRINTF(E_SPAM,L_WS,"Exiting ws_getgetvars\n"); return 0; } /* * ws_dispatcher * * Main dispatch thread. This gets the request, reads the * headers, decodes the GET'd or POST'd variables, * then decides what function should service the request */ void *ws_dispatcher(void *arg) { WS_CONNINFO *pwsc=(WS_CONNINFO*)arg; WS_PRIVATE *pwsp=pwsc->pwsp; char buffer[MAX_LINEBUFFER]; char *first,*last; int connection_done=0; int can_dispatch; char *auth, *username, *password; int hdrs,handler; time_t now; struct tm now_tm; void (*req_handler)(WS_CONNINFO*); int(*auth_handler)(char *, char *); DPRINTF(E_DBG,L_WS,"Thread %d: Entering ws_dispatcher (Connection from %s)\n", pwsc->threadno, pwsc->hostname); /* quick fence to ensure that we have been registered on the thread list */ ws_lock_unsafe(); ws_unlock_unsafe(); while(!connection_done) { /* Now, get the request from the other end * and decide where to dispatch it */ /* DWB: set timeout to 30 minutes as advertised in the server-info response. */ if((readlinetimed(pwsc->fd,buffer,sizeof(buffer),1800.0)) < 1) { pwsc->error=errno; pwsc->close=1; DPRINTF(E_WARN,L_WS,"Thread %d: could not read: %s\n", pwsc->threadno,strerror(errno)); ws_close(pwsc); return NULL; } DPRINTF(E_DBG,L_WS,"Thread %d: got request\n",pwsc->threadno); DPRINTF(E_DBG - 1,L_WS, "Request: %s", buffer); first=last=buffer; strsep(&last," "); if(!last) { pwsc->close=1; ws_returnerror(pwsc,400,"Bad request\n"); ws_close(pwsc); DPRINTF(E_SPAM,L_WS,"Error: bad request. Exiting ws_dispatcher\n"); return NULL; } if(!strcasecmp(first,"get")) { pwsc->request_type = RT_GET; } else if(!strcasecmp(first,"post")) { pwsc->request_type = RT_POST; } else { /* return a 501 not implemented */ pwsc->error=EINVAL; pwsc->close=1; ws_returnerror(pwsc,501,"Not implemented"); ws_close(pwsc); DPRINTF(E_SPAM,L_WS,"Error: not get or post. Exiting ws_dispatcher\n"); return NULL; } first=last; strsep(&last," "); pwsc->uri=strdup(first); /* Get headers */ if((ws_getheaders(pwsc)) || (!last)) { /* didn't provide a HTTP/1.x */ /* error already set */ DPRINTF(E_LOG,L_WS,"Thread %d: Couldn't parse headers - aborting\n", pwsc->threadno); pwsc->close=1; ws_close(pwsc); return NULL; } /* Now that we have the headers, we can * decide whether or not this is a persistant * connection */ if(strncasecmp(last,"HTTP/1.0",8)==0) { /* defaults to non-persistant */ pwsc->close=!ws_testarg(&pwsc->request_headers,"connection","keep-alive"); } else { /* default to persistant for HTTP/1.1 and above */ pwsc->close=ws_testarg(&pwsc->request_headers,"connection","close"); } DPRINTF(E_DBG,L_WS,"Thread %d: Connection type %s: Connection: %s\n", pwsc->threadno, last, pwsc->close ? "non-persist" : "persist"); if(!pwsc->uri) { pwsc->error=ENOMEM; pwsc->close=1; /* force a full close */ DPRINTF(E_LOG,L_WS,"Thread %d: Error allocation URI\n", pwsc->threadno); ws_returnerror(pwsc,500,"Internal server error"); ws_close(pwsc); return NULL; } /* trim the URI */ first=pwsc->uri; strsep(&first,"?"); if(first) { /* got some GET args */ DPRINTF(E_DBG,L_WS,"Thread %d: parsing GET args\n",pwsc->threadno); ws_getgetvars(pwsc,first); } /* fix the URI by un urldecoding it */ DPRINTF(E_DBG,L_WS,"Thread %d: Original URI: %s\n", pwsc->threadno,pwsc->uri); first=ws_urldecode(pwsc->uri,ws_encoding_hack(pwsc)); free(pwsc->uri); pwsc->uri=first; /* Strip out the proxy stuff - iTunes 4.5 */ first=strstr(pwsc->uri,"://"); if(first) { first += 3; first=strchr(first,'/'); if(first) { first=strdup(first); free(pwsc->uri); pwsc->uri=first; } } DPRINTF(E_DBG,L_WS,"Thread %d: Translated URI: %s\n",pwsc->threadno, pwsc->uri); /* now, parse POST args */ if(pwsc->request_type == RT_POST) ws_getpostvars(pwsc); hdrs=1; handler=ws_findhandler(pwsp,pwsc,&req_handler,&auth_handler,&hdrs); time(&now); DPRINTF(E_DBG,L_WS,"Thread %d: Time is %d seconds after epoch\n", pwsc->threadno,now); gmtime_r(&now,&now_tm); DPRINTF(E_DBG,L_WS,"Thread %d: Setting time header\n",pwsc->threadno); ws_addarg(&pwsc->response_headers,"Date", "%s, %d %s %d %02d:%02d:%02d GMT", ws_dow[now_tm.tm_wday],now_tm.tm_mday, ws_moy[now_tm.tm_mon],now_tm.tm_year + 1900, now_tm.tm_hour,now_tm.tm_min,now_tm.tm_sec); if(hdrs) { ws_addarg(&pwsc->response_headers,"Connection", pwsc->close ? "close" : "keep-alive"); ws_addarg(&pwsc->response_headers,"Server", "mt-daapd/" VERSION); ws_addarg(&pwsc->response_headers,"Content-Type","text/html"); ws_addarg(&pwsc->response_headers,"Content-Language","en_us"); } /* Find the appropriate handler and dispatch it */ if(handler == -1) { DPRINTF(E_DBG,L_WS,"Thread %d: Using default handler.\n", pwsc->threadno); ws_defaulthandler(pwsp,pwsc); } else { DPRINTF(E_DBG,L_WS,"Thread %d: Using non-default handler\n", pwsc->threadno); can_dispatch=0; /* If an auth handler is registered, but it accepts a * username and password of NULL, then don't bother * authing. */ if((auth_handler) && (auth_handler(NULL,NULL)==0)) { /* do the auth thing */ auth=ws_getarg(&pwsc->request_headers,"Authorization"); if(auth) { ws_decodepassword(auth,&username,&password); if(auth_handler(username,password)) can_dispatch=1; ws_addarg(&pwsc->request_vars,"HTTP_USER",username); ws_addarg(&pwsc->request_vars,"HTTP_PASSWD",password); free(username); /* this frees password too */ } if(!can_dispatch) { /* auth failed, or need auth */ //ws_addarg(&pwsc->response_headers,"Connection","close"); ws_addarg(&pwsc->response_headers,"WWW-Authenticate", "Basic realm=\"webserver\""); ws_returnerror(pwsc,401,"Unauthorized"); pwsc->error=0; } } else { can_dispatch=1; } if(can_dispatch) { if(req_handler) req_handler(pwsc); else ws_defaulthandler(pwsp,pwsc); } } if((pwsc->close) || (pwsc->error) || (pwsp->stop)) { pwsc->close=1; connection_done=1; } ws_close(pwsc); } DPRINTF(E_SPAM,L_WS,"Exiting ws_dispatcher\n"); return NULL; } /* * ws_writefd * * Write a printf-style output to a connfd */ int ws_writefd(WS_CONNINFO *pwsc, char *fmt, ...) { char buffer[1024]; va_list ap; DPRINTF(E_SPAM,L_WS,"Entering ws_writefd\n"); va_start(ap, fmt); vsnprintf(buffer, 1024, fmt, ap); va_end(ap); DPRINTF(E_SPAM,L_WS,"Exiting ws_writefd\n"); return r_write(pwsc->fd,buffer,strlen(buffer)); } /* * ws_returnerror * * return a particular error code to the requesting * agent * * This will always succeed. If it cannot, it will * just close the connection with prejudice. */ int ws_returnerror(WS_CONNINFO *pwsc,int error, char *description) { char *useragent; DPRINTF(E_WARN,L_WS,"Thread %d: Entering ws_returnerror (%d: %s)\n", pwsc->threadno,error,description); ws_writefd(pwsc,"HTTP/1.1 %d %s\r\n",error,description); /* we'll force a close here unless the user agent is iTunes, which seems to get pissy about it */ useragent = ws_getarg(&pwsc->request_headers,"User-Agent"); if((!useragent) || (strncmp(useragent,"iTunes",6))) { pwsc->close=1; ws_addarg(&pwsc->response_headers,"Connection","close"); } ws_emitheaders(pwsc); ws_writefd(pwsc,"\r\n"); ws_writefd(pwsc,"%d %s\r\n",error,description); ws_writefd(pwsc,"\r\n

%s

\r\n",description); ws_writefd(pwsc,"Error %d\r\n
\r\n",error); ws_writefd(pwsc,"mt-daapd: %s\r\n
",VERSION); if(errno) ws_writefd(pwsc,"Error: %s\r\n",strerror(errno)); ws_writefd(pwsc,"
\r\n\r\n"); DPRINTF(E_SPAM,L_WS,"Exiting ws_returnerror\n"); return 0; } /* * ws_defaulthandler * * default URI handler. This simply finds the file * and serves it up */ void ws_defaulthandler(WS_PRIVATE *pwsp, WS_CONNINFO *pwsc) { char path[PATH_MAX]; char resolved_path[PATH_MAX]; int file_fd; off_t len; DPRINTF(E_SPAM,L_WS,"Entering ws_defaulthandler\n"); snprintf(path,PATH_MAX,"%s/%s",pwsp->wsconfig.web_root,pwsc->uri); if(!realpath(path,resolved_path)) { pwsc->error=errno; DPRINTF(E_WARN,L_WS,"Exiting ws_defaulthandler: Cannot resolve %s\n",path); ws_returnerror(pwsc,404,"Not found"); ws_close(pwsc); return; } DPRINTF(E_DBG,L_WS,"Thread %d: Preparing to serve %s\n", pwsc->threadno, resolved_path); if(strncmp(resolved_path,pwsp->wsconfig.web_root, strlen(pwsp->wsconfig.web_root))) { pwsc->error=EINVAL; DPRINTF(E_WARN,L_WS,"Exiting ws_defaulthandler: Thread %d: " "Requested file %s out of root\n", pwsc->threadno,resolved_path); ws_returnerror(pwsc,403,"Forbidden"); ws_close(pwsc); return; } file_fd=open(resolved_path,O_RDONLY); if(file_fd == -1) { pwsc->error=errno; DPRINTF(E_WARN,L_WS,"Exiting ws_defaulthandler: Thread %d: " "Error opening %s: %s\n", pwsc->threadno,resolved_path,strerror(errno)); ws_returnerror(pwsc,404,"Not found"); ws_close(pwsc); return; } /* set the Content-Length response header */ len=lseek(file_fd,0,SEEK_END); /* FIXME: assumes off_t == long */ if(len != -1) { /* we have a real length */ DPRINTF(E_DBG,L_WS,"Length of file is %ld\n",(long)len); ws_addarg(&pwsc->response_headers,"Content-Length","%ld",(long)len); lseek(file_fd,0,SEEK_SET); } ws_writefd(pwsc,"HTTP/1.1 200 OK\r\n"); ws_emitheaders(pwsc); /* now throw out the file */ copyfile(file_fd,pwsc->fd); r_close(file_fd); DPRINTF(E_DBG,L_WS,"Exiting ws_defaulthandler: " "Thread %d: Served successfully\n", pwsc->threadno); return; } /* * ws_testrequestheader * * Check to see if a request header is a particular value * * Example: * */ int ws_testrequestheader(WS_CONNINFO *pwsc, char *header, char *value) { return ws_testarg(&pwsc->request_headers,header,value); } /* * ws_testarg * * Check an arg for a particular value * * Example: * * pwsc->close=ws_queryarg(&pwsc->request_headers,"Connection","close"); * */ int ws_testarg(ARGLIST *root, char *key, char *value) { char *retval; int result; DPRINTF(E_DBG,L_WS,"Checking to see if %s matches %s\n",key,value); retval=ws_getarg(root,key); if(!retval) { DPRINTF(E_DBG,L_WS,"Nope!\n"); return 0; } result=!strcasecmp(value,retval); DPRINTF(E_DBG,L_WS,"And it %s\n",result ? "DOES!" : "does NOT"); return result; } /* * ws_getarg * * Find an argument in an argument list * * returns a pointer to the value if successful, * NULL otherwise. * * This should be passed the pointer to the * stub in the pwsc. * * Ex: ws_getarg(pwsc->request_headers,"Connection"); */ char *ws_getarg(ARGLIST *root, char *key) { ARGLIST *pcurrent=root->next; while((pcurrent)&&(strcasecmp(pcurrent->key,key))) pcurrent=pcurrent->next; if(pcurrent) return pcurrent->value; return NULL; } /* * ws_addarg * * Add an argument to an arg list * * This will strdup the passed key and value. * The arglist will then have to be freed. This should * be done in ws_close, and handler functions will * have to remember to ws_close them. * * RETURNS * -1 on failure, with errno set (ENOMEM) * 0 on success */ int ws_addarg(ARGLIST *root, char *key, char *fmt, ...) { char *newkey; char *newvalue; ARGLIST *pnew; ARGLIST *current; va_list ap; char value[MAX_LINEBUFFER]; va_start(ap,fmt); vsnprintf(value,sizeof(value),fmt,ap); va_end(ap); newkey=strdup(key); newvalue=strdup(value); pnew=(ARGLIST*)malloc(sizeof(ARGLIST)); if((!pnew)||(!newkey)||(!newvalue)) return -1; pnew->key=newkey; pnew->value=newvalue; /* first, see if the key exists... if it does, simply * replace it rather than adding a duplicate key */ current=root->next; while(current) { if(!strcasecmp(current->key,key)) { /* got a match! */ DPRINTF(E_DBG,L_WS,"Updating %s from %s to %s\n", key,current->value,value); free(current->value); current->value = newvalue; free(newkey); free(pnew); return 0; } current=current->next; } pnew->next=root->next; DPRINTF(E_DBG,L_WS,"Added *%s=%s*\n",newkey,newvalue); root->next=pnew; return 0; } /* * ws_urldecode * * decode a urlencoded string * * the returned char will be malloced -- it must be * freed by the caller * * returns NULL on error (ENOMEM) */ char *ws_urldecode(char *string, int space_as_plus) { char *pnew; char *src,*dst; int val=0; pnew=(char*)malloc(strlen(string)+1); if(!pnew) return NULL; src=string; dst=pnew; while(*src) { switch(*src) { /* DWB - space gets converted to %20, not +, this definitely breaks compatibility with iTunes */ /* But the browsers encode space as plus, so when using the web interface, * anything with a plus is broken. This will end up having to be sniffed * by remote agent */ case '+': if(space_as_plus) { *dst++=' '; } else { *dst++=*src; } src++; break; case '%': /* this is hideous */ src++; if(*src) { if((*src <= '9') && (*src >='0')) val=(*src - '0'); else if((tolower(*src) <= 'f')&&(tolower(*src) >= 'a')) val=10+(tolower(*src) - 'a'); src++; } if(*src) { val *= 16; if((*src <= '9') && (*src >='0')) val+=(*src - '0'); else if((tolower(*src) <= 'f')&&(tolower(*src) >= 'a')) val+=(10+(tolower(*src) - 'a')); src++; } *dst++=val; break; default: *dst++=*src++; break; } } *dst='\0'; return pnew; } /* * ws_registerhandler * * Register a page and auth handler. Returns 0 on success, * returns -1 on failure. * * If the regex is not well-formed, it returns -1 iwth * errno set to EINVAL. It is up to the caller to use * regerror to display a more interesting error message, * if appropriate. */ int ws_registerhandler(WSHANDLE ws, char *regex, void(*handler)(WS_CONNINFO*), int(*auth)(char *, char *), int addheaders) { WS_HANDLER *phandler; WS_PRIVATE *pwsp = (WS_PRIVATE *)ws; phandler=(WS_HANDLER *)malloc(sizeof(WS_HANDLER)); if(!phandler) return -1; if(regcomp(&phandler->regex,regex,REG_EXTENDED | REG_NOSUB)) { free(phandler); errno=EINVAL; return -1; } phandler->req_handler=handler; phandler->auth_handler=auth; phandler->addheaders=addheaders; ws_lock_unsafe(); phandler->next=pwsp->handlers.next; pwsp->handlers.next=phandler; ws_unlock_unsafe(); return 0; } /* * ws_findhandler * * Given a URI, determine the appropriate handler. * * If a handler is found, it returns 0, otherwise, returns * -1 */ int ws_findhandler(WS_PRIVATE *pwsp, WS_CONNINFO *pwsc, void(**preq)(WS_CONNINFO*), int(**pauth)(char *, char *), int *addheaders) { WS_HANDLER *phandler=pwsp->handlers.next; ws_lock_unsafe(); *preq=NULL; DPRINTF(E_DBG,L_WS,"Thread %d: Preparing to find handler\n", pwsc->threadno); while(phandler) { if(!regexec(&phandler->regex,pwsc->uri,0,NULL,0)) { /* that's a match */ DPRINTF(E_DBG,L_WS,"Thread %d: URI Match!\n",pwsc->threadno); *preq=phandler->req_handler; *pauth=phandler->auth_handler; *addheaders=phandler->addheaders; ws_unlock_unsafe(); return 0; } phandler=phandler->next; } ws_unlock_unsafe(); return -1; } /* * ws_decodepassword * * Given a base64 encoded Authentication request header, * decode it into the username and password */ int ws_decodepassword(char *header, char **username, char **password) { static char ws_xlat[256]; static int ws_xlat_init=0; int index; int len; int rack=0; int pads=0; unsigned char *decodebuffer; unsigned char *pin, *pout; int lookup; *username=NULL; *password=NULL; if(ws_lock_unsafe() == -1) return -1; if(!ws_xlat_init) { ws_xlat_init=1; memset((char*)&ws_xlat,0xFF,sizeof(ws_xlat)); for(index=0; index < 26; index++) { ws_xlat['A' + index] = index; ws_xlat['a' + index] = index + 26; } for(index=0; index < 10; index++) { ws_xlat['0' + index] = index + 52; } ws_xlat['+'] = 62; ws_xlat['/'] = 63; } if(ws_unlock_unsafe() == -1) return -1; /* xlat table is initialized */ while(*header != ' ') header++; header++; decodebuffer=(unsigned char *)malloc(strlen(header)); if(!decodebuffer) return -1; DPRINTF(E_DBG,L_WS,"Preparing to decode %s\n",header); memset(decodebuffer,0,strlen(header)); len=0; pout=decodebuffer; pin=(unsigned char *)header; /* this is more than a little sloppy */ while(pin[rack]) { if(pin[rack] != '=') { lookup=ws_xlat[pin[rack]]; if(lookup == 0xFF) { DPRINTF(E_WARN,L_WS,"Got garbage Authenticate header\n"); return -1; } /* valid character */ switch(rack) { case 0: pout[0]=(lookup << 2); break; case 1: pout[0] |= (lookup >> 4); pout[1] = (lookup << 4); break; case 2: pout[1] |= (lookup >> 2); pout[2] = (lookup << 6); break; case 3: pout[2] |= lookup; break; } rack++; } else { /* padding char */ pads++; rack++; } if(rack == 4) { pin += 4; pout += 3; len += (3-pads); rack=0; } } /* we now have the decoded string */ DPRINTF(E_DBG,L_WS,"Decoded %s\n",decodebuffer); *username = (char*)decodebuffer; *password = *username; strsep(password,":"); DPRINTF(E_DBG,L_WS,"Decoded user=%s, pw=%s\n",*username,*password); return 0; } /* * ws_addreponseheader * * Simple wrapper around the CONNINFO response headers */ int ws_addresponseheader(WS_CONNINFO *pwsc, char *header, char *fmt, ...) { va_list ap; char value[MAX_LINEBUFFER]; va_start(ap,fmt); vsnprintf(value,sizeof(value),fmt,ap); va_end(ap); return ws_addarg(&pwsc->response_headers,header,value); } /* * ws_getvar * * Simple wrapper around the CONNINFO request vars */ char *ws_getvar(WS_CONNINFO *pwsc, char *var) { return ws_getarg(&(pwsc->request_vars),var); } char *ws_getrequestheader(WS_CONNINFO *pwsc, char *header) { return ws_getarg(&pwsc->request_headers,header); } /** * get the local storage pointer. * * @param pwsc connection to get local storage for */ void *ws_get_local_storage(WS_CONNINFO *pwsc) { return pwsc->local_storage; } /** * lock the local storage pointer. This is sort of wrong, as * the all operations manipulating local storage are locked, * not just the one you are working on. * * @param pwsc connection you are working with */ void ws_lock_local_storage(WS_CONNINFO *pwsc) { WS_PRIVATE *pwsp; pwsp = (WS_PRIVATE *)pwsc->pwsp; ws_lock_connlist(pwsp); } void ws_unlock_local_storage(WS_CONNINFO *pwsc) { WS_PRIVATE *pwsp; pwsp = (WS_PRIVATE *)pwsc->pwsp; ws_unlock_connlist(pwsp); } /** * set the local storage pointer (and callback) */ void ws_set_local_storage(WS_CONNINFO *pwsc, void *ptr, void (*callback)(void *)) { if(!pwsc) return; if(pwsc->local_storage) { DPRINTF(E_FATAL,L_WS,"ls already allocated"); } pwsc->storage_callback = callback; pwsc->local_storage = ptr; } /** * walk through the connection list and enumerate all the items */ WS_CONNINFO *ws_thread_enum_first(WSHANDLE wsh, WSTHREADENUM *vpp) { WS_PRIVATE *pwsp = (WS_PRIVATE *)wsh; WS_CONNINFO *pwsc = NULL; WS_CONNLIST *pconlist; ws_lock_connlist(pwsp); pconlist = pwsp->connlist.next; *vpp = (WSTHREADENUM)pconlist; if(pconlist) { pwsc = pconlist->pwsc; } else { ws_unlock_connlist(pwsp); } return pwsc; } WS_CONNINFO *ws_thread_enum_next(WSHANDLE wsh, WSTHREADENUM *vpp) { WS_PRIVATE *pwsp = (WS_PRIVATE *)wsh; WS_CONNINFO *pwsc = NULL; WS_CONNLIST *pconlist; pconlist = (WS_CONNLIST*)*vpp; if((!pconlist) || (!pconlist->next)) { ws_unlock_connlist(pwsp); } else { pconlist=pconlist->next; *vpp = (WSTHREADENUM)pconlist; pwsc = pconlist->pwsc; } return pwsc; }