/* ** 2001-09-15 ** ** The author disclaims copyright to this source code. In place of ** a legal notice, here is a blessing: ** ** May you do good and not evil. ** May you find forgiveness for yourself and forgive others. ** May you share freely, never taking more than you give. ** ************************************************************************* ** ** This source code file implements a small, simple, stand-alone HTTP ** server. ** ** Features: ** ** * Launched from inetd/xinetd/systemd, or as a stand-alone server ** * One process per TCP/IP connection ** * Deliver static content or run CGI or SCGI ** * Virtual sites based on the "Host:" property of the HTTP header ** * Runs in a chroot jail ** * Unified log file in a CSV format ** * Small code base (this 1 file) to facilitate security auditing ** * Simple setup - no configuration files to misconfigure ** ** This file implements a small and simple but secure and effective web ** server. There are no frills. Anything that could be reasonably ** omitted has been. ** ** Setup rules: ** ** (1) Launch as root from inetd/systemd like this: ** ** althttpd -logfile logfile -root /home/www -user nobody ** ** It will automatically chroot to /home/www and become user "nobody". ** The logfile name should be relative to the chroot jail. ** ** (2) Directories of the form "*.website" (ex: www_sqlite_org.website) ** contain content. The directory is chosen based on the HTTP_HOST ** request header. If there is no HTTP_HOST header or if the ** corresponding host directory does not exist, then the ** "default.website" is used. ** ** In stand-alone mode (when the --port, --page, or --popup options are ** used) if neither the HTTP_HOST.website nor "default.website" ** directories exist, then files are served directly from the ** directory from which althttpd was launched. This makes it easy ** to run a quick web-server for testing purposes using commands like: ** ** althttpd --page fiddle.html ** althttpd --popup ** althttpd --port 8080..8090 ** ** In one-connection mode (when launched from xinetd or similar) ** an error is raised if "default.website" does not exist. ** ** If the HTTP_HOST header contains any charaters other than ** [a-zA-Z0-9_.,*~/] then a 403 error is generated. ** ** (3) Any file or directory whose name begins with "." or "-" is ignored, ** except if the URL begins with "/.well-known/" then initial "." and ** "-" characters are allowed, but not initial "..". The exception is ** for RFC-5785 to allow letsencrypt or certbot to generate a TLS cert ** using webroot. ** ** (4) Characters other than [0-9a-zA-Z,-./:_~] and any %HH characters ** escapes in the filename are all translated into "_". This is ** a defense against cross-site scripting attacks and other mischief. ** ** (5) Executable files are run as CGI. Files whose name ends with ".scgi" ** trigger an SCGI request (see item 9 below). All other files ** are delivered as is. ** ** (6) If a file named "-auth" exists in the same directory as the file to ** be run as CGI/SCGI or to be delivered, then it contains information ** for HTTP Basic authorization. See file format details below. ** ** (7) To run as a stand-alone server, simply add the "-port N" command-line ** option to define which TCP port to listen on. If the argument is ** "--port N1..N2" then TCP ports between N1 and N2 are scanned looking ** for one that is open and the first open port is used. ** ** (8) For static content, the mimetype is determined by the file suffix ** using a table built into the source code below. If you have ** unusual content files, you might need to extend this table. ** ** (9) Content files that end with ".scgi" and that contain text of the ** form "SCGI hostname port" will format an SCGI request and send it ** to hostname:port, then relay back the reply. Error behavior is ** determined by subsequent lines of the .scgi file. See SCGI below ** for details. ** ** (10) If compiled with -DENABLE_TLS and linked against OpenSSL and ** launched with a --cert option to identify a certificate file, then ** TLS is used to encrypt the connection. ** ** (11) When requesting static file NAME and if the HTTP request includes ** "Accept-Encoding: gzip" and if file "NAME.gz" exists on disk, then ** return NAME.gz with an "Content-encoding: gzip" header ** ** Command-line Options: ** ** --root DIR Defines the directory that contains the various ** $HOST.website subdirectories, each containing web content ** for a single virtual host. If launched as root and if ** "--user USER" also appears on the command-line and if ** "--jail 0" is omitted, then the process runs in a chroot ** jail rooted at this directory and under the userid USER. ** This option is required for xinetd launch but defaults ** to "." for a stand-alone web server. DIR should always ** be an absolute path, else child processes might misbehave. ** ** --port N Run in standalone mode listening on TCP port N, or from ** --port N1..N2 the first available TCP port in the range from N1 to N2. ** ** --user USER Define the user under which the process should run if ** originally launched as root. This process will refuse to ** run as root (for security). If this option is omitted and ** the process is launched as root, it will abort without ** processing any HTTP requests. ** ** --logfile FILE Append a single-line, CSV-format, log file entry to FILE ** for each HTTP request. FILE should be a full pathname. ** The FILE name is interpreted inside the chroot jail. The ** FILE name is expanded using strftime() if it contains ** at least one '%' and is not too long. ** ** --ipshun DIR If the remote IP address is also the name of a file ** in DIR that has size N bytes and where either N is zero ** or the m-time of the file is less than N time-units ago ** then that IP address is being shunned and no requests ** are processed. The time-unit is a compile-time option ** (BANISH_TIME) that defaults to 300 seconds. If this ** happens, the client gets a 503 Service Unavailable ** reply. Furthermore, althttpd will create ip-shunning ** files following a 404 Not Found error if the request ** URI is an obvious hack attempt. The ip-shunning file ** will also be created if a CGI returns status code 418. ** ** --https BOOLEAN Indicates that input is coming over SSL and is being ** decoded upstream, perhaps by stunnel. This option ** does *not* activate built-in TLS support. Use --cert ** for that. ** ** --page NAME Come up in stand-alone mode, and then try to launch a ** web-browser pointing to the NAME document after the ** listening socket has been created. This option ** implies --loopback and "--port 8080..8100". ** ** --popup Launch a stand-alone web server to use for testing. ** This option implies "--port 8080..8100". This option ** is similar to "--page NAME" except that it does not ** try to launch a web-browser and does not force the ** connection into --loopback mode. Use this when ** running a test web-server on a remote host via ssh. ** ** --loopback Only accept loop-back TCP connections (connections ** originating from the same host). This is the ** default if --root is omitted. ** ** --family ipv4 Only accept input from IPV4 or IPV6, respectively. ** --family ipv6 These options are only meaningful if althttpd is run ** as a stand-alone server. ** ** --jail BOOLEAN Indicates whether or not to form a chroot jail if ** initially run as root. The default is true, so the only ** useful variant of this option is "--jail 0" which prevents ** the formation of the chroot jail. ** ** --max-age SEC The value for "Cache-Control: max-age=%d". Defaults to ** 120 seconds. ** ** --max-cpu SEC Maximum number of seconds of CPU time allowed per ** HTTP connection. Default 30 (build option: ** -DMAX_CPU=integer). 0 means no limit. ** ** --debug BOOLEAN Disables input timeouts. This is useful for debugging ** when inputs are being typed in manually. ** ** --enable-sab Add new lines to the HTTP reply header that are ** prerequisites for SharedArrayBuffer. These are the lines: ** Cross-Origin-Embedder-Policy: require-corp ** Cross-Origin-Opener-Policy: same-origin ** ** ** Additional command-line options available when compiling with ENABLE_TLS: ** ** --cert FILE The TLS certificate, the "fullchain.pem" file ** ** --pkey FILE The TLS private key, the "privkey.pem" file. May be ** omitted if the --cert file is the concatenation of ** the fullchain.pem and the privkey.pem. ** ** ** Command-line options can take either one or two initial "-" characters. ** So "--debug" and "-debug" mean the same thing, for example. ** ** ** Security Features: ** ** (1) This program automatically puts itself inside a chroot jail if ** it can and if not specifically prohibited by the "--jail 0" ** command-line option. The root of the jail is the directory that ** contains the various $HOST.website content subdirectories. ** ** (2) No input is read while this process has root privileges. Root ** privileges are dropped prior to reading any input (but after entering ** the chroot jail, of course). If root privileges cannot be dropped ** (for example because the --user command-line option was omitted or ** because the user specified by the --user option does not exist), ** then the process aborts with an error prior to reading any input. ** ** (3) The length of an HTTP request is limited to MAX_CONTENT_LENGTH bytes ** (default: 250 million). Any HTTP request longer than this fails ** with an error. (Build option: -DMAX_CONTENT_LENGTH=integer) ** ** (4) There are hard-coded time-outs on each HTTP request. If this process ** waits longer than the timeout for the complete request, or for CGI ** to finish running, then this process aborts. (The timeout feature ** can be disabled using the --debug command-line option.) ** ** (5) If the HTTP_HOST request header contains characters other than ** [0-9a-zA-Z,-./:_~] then the entire request is rejected. ** ** (6) Any characters in the URI pathname other than [0-9a-zA-Z,-./:_~] ** are converted into "_". This applies to the pathname only, not ** to the query parameters or fragment. ** ** (7) If the first character of any URI pathname component is "." or "-" ** then a 404 Not Found reply is generated. This prevents attacks ** such as including ".." or "." directory elements in the pathname ** and allows placing files and directories in the content subdirectory ** that are invisible to all HTTP requests, by making the first ** character of the file or subdirectory name "-" or ".". ** ** (8) The request URI must begin with "/" or else a 404 error is generated. ** ** (9) This program never sets the value of an environment variable to a ** string that begins with "() {". ** ** (10) If the --ipshun option is used, specific IP addresses can be ** temporarily block for abusive behavior. ** ** (11) If a CGI reports status code 418 ("I'm a teapot", rfc2324) and if ** the --ipshun option is used, then the IP address is temporarily ** blocked. ** ** Security Auditing: ** ** This webserver mostly only serves static content. Any security risk will ** come from CGI and SCGI. To check an installation for security, then, it ** makes sense to focus on the CGI and SCGI scripts. ** ** To locate all CGI files: ** ** find *.website -executable -type f -print ** OR: find *.website -perm +0111 -type f -print ** ** The first form of the "find" command is preferred, but is only supported ** by GNU find. On a Mac, you'll have to use the second form. ** ** To find all SCGI files: ** ** find *.website -name '*.scgi' -type f -print ** ** If any file is a security concern, it can be disabled on a live ** installation by turning off read permissions: ** ** chmod 0000 file-of-concern ** ** SCGI Specification Files: ** ** Content files (files without the execute bit set) that end with ".scgi" ** specify a connection to an SCGI server. The format of the .scgi file ** follows this template: ** ** SCGI hostname port ** fallback: fallback-filename ** relight: relight-command ** ** The first line specifies the location and TCP/IP port of the SCGI ** server that will handle the request. Subsequent lines determine ** what to do if the SCGI server cannot be contacted. If the ** "relight:" line is present, then the relight-command is run using ** system() and the connection is retried after a 1-second delay. Use ** "&" at the end of the relight-command to run it in the background. ** Make sure the relight-command does not generate output, or that ** output will become part of the SCGI reply. Add a ">/dev/null" ** suffix (before the "&") to the relight-command if necessary to ** suppress output. If there is no relight-command, or if the relight ** is attempted but the SCGI server still cannot be contacted, then ** the content of the fallback-filename file is returned as a ** substitute for the SCGI request. The mimetype is determined by the ** suffix on the fallback-filename. The fallback-filename would ** typically be an error message indicating that the service is ** temporarily unavailable. ** ** Basic Authorization: ** ** If the file "-auth" exists in the same directory as the content file ** (for both static content and CGI) then it contains the information used ** for basic authorization. The file format is as follows: ** ** * Blank lines and lines that begin with '#' are ignored ** * "http-redirect" forces a redirect to HTTPS if not there already ** * "https-only" disallows operation in HTTP ** * "user NAME LOGIN:PASSWORD" checks to see if LOGIN:PASSWORD ** authorization credentials are provided, and if so sets the ** REMOTE_USER to NAME. ** * "realm TEXT" sets the realm to TEXT. ** ** There can be multiple "user" lines. If no "user" line matches, the ** request fails with a 401 error. ** ** Because of security rule (7), there is no way for the content of the "-auth" ** file to leak out via HTTP request. */ #include <stdio.h> #include <ctype.h> #include <stdlib.h> #include <sys/stat.h> #include <unistd.h> #include <fcntl.h> #include <string.h> #include <pwd.h> #include <sys/time.h> #include <sys/types.h> #include <sys/resource.h> #include <sys/socket.h> #include <sys/wait.h> #include <netinet/in.h> #include <arpa/inet.h> #include <stdarg.h> #include <time.h> #include <sys/times.h> #include <netdb.h> #include <errno.h> #include <sys/resource.h> #include <signal.h> #include <dirent.h> #ifdef linux #include <sys/sendfile.h> #endif #include <assert.h> #include "VERSION.h" /* ** Configure the server by setting the following macros and recompiling. */ #ifndef DEFAULT_PORT #define DEFAULT_PORT "80" /* Default TCP port for HTTP */ #endif #ifndef MAX_CONTENT_LENGTH #define MAX_CONTENT_LENGTH 250000000 /* Max length of HTTP request content */ #endif #ifndef MAX_CPU #define MAX_CPU 30 /* Max CPU cycles in seconds */ #endif #ifndef BANISH_TIME #define BANISH_TIME 300 /* How long to banish for abuse (sec) */ #endif #ifndef SERVER_SOFTWARE # define SERVER_SOFTWARE "althttpd " RELEASE_VERSION #endif #ifndef SERVER_SOFTWARE_TLS # ifdef ENABLE_TLS # define SERVER_SOFTWARE_TLS SERVER_SOFTWARE ", " OPENSSL_VERSION_TEXT # else # define SERVER_SOFTWARE_TLS SERVER_SOFTWARE # endif #endif /* ** Clock ID to use for clock_gettime(), for use in collecting the ** wall-clock processing time using clock_gettime() (which is ** signal-safe). We use clock_gettime(), rather than gmtime(), for ** measuring request wall-clock time because it's signal-safe. ** See discussion at: ** https://sqlite.org/althttpd/forumpost/4dc31619341ce947 */ #ifdef _POSIX_MONOTONIC_CLOCK # define ALTHTTPD_CLOCK_ID CLOCK_MONOTONIC #else # define ALTHTTPD_CLOCK_ID CLOCK_REALTIME /* noting that this can jump if the system time changes */ #endif /* ** Althttpd normally only sends a \n, not a full \r\n, for line endings ** even on protocols that specifically require \r\n (HTTP, SMTP, etc.) ** This is in rebellion to the silliness that is \r\n. Everybody ** understands a bare \n. Fossil deliberately violates the spec in an ** attempt to promote change. ** ** If you prefer to follow the protocol exactly, compile with -DSEND_CR=1 ** ** UPDATE: Feedback from the internet suggests that the world is not yet ** ready for a CRLF-less web server. Alas. I'll make it so that CRLF ** is on by default, but you can still generate a CRLF-less webserver by ** recompiling with -DSEND_CR=0. */ #if !defined(SEND_CR) || SEND_CR+0>=1 /* This case for strict compliance */ # define CRLF "\r\n" #else /* Default: Send only \n */ # define CRLF "\n" #endif /* ** We record most of the state information as global variables. This ** saves having to pass information to subroutines as parameters, and ** makes the executable smaller... */ static const char *zRoot = 0; /* Root directory of the website */ static char *zPostData= 0; /* POST data */ static int nPostData = 0; /* Number of bytes of POST data */ static char *zProtocol = 0; /* The protocol being using by the browser */ static char *zMethod = 0; /* The method. Must be GET */ static char *zScript = 0; /* The object to retrieve */ static char *zRealScript = 0; /* The object to retrieve. Same as zScript ** except might have "/index.html" appended */ static char *zRequestUri = 0; /* Sanitized request uri */ static char *zHome = 0; /* The directory containing content */ static char *zQueryString = 0; /* The query string on the end of the name */ static char *zFile = 0; /* The filename of the object to retrieve */ static int lenFile = 0; /* Length of the zFile name */ static char *zDir = 0; /* Name of the directory holding zFile */ static char *zPathInfo = 0; /* Part of the pathname past the file */ static char *zAgent = 0; /* What type if browser is making this query */ static char *zServerName = 0; /* The name after the http:// */ static char *zServerPort = 0; /* The port number */ static char *zServerSoftware = 0;/* Software name and version info */ static char *zCookie = 0; /* Cookies reported with the request */ static char *zHttpHost = 0; /* Name according to the web browser */ static char *zRealPort = 0; /* The real TCP port when running as daemon */ static char *zRemoteAddr = 0; /* IP address of the request */ static char *zReferer = 0; /* Name of the page that refered to us */ static char *zAccept = 0; /* What formats will be accepted */ static char *zAcceptEncoding =0; /* gzip or default */ static char *zContentLength = 0; /* Content length reported in the header */ static char *zContentType = 0; /* Content type reported in the header */ static char *zQuerySuffix = 0; /* The part of the URL after the first ? */ static char *zAuthType = 0; /* Authorization type (basic or digest) */ static char *zAuthArg = 0; /* Authorization values */ static char *zRemoteUser = 0; /* REMOTE_USER set by authorization module */ static char *zIfNoneMatch= 0; /* The If-None-Match header value */ static char *zIfModifiedSince=0; /* The If-Modified-Since header value */ static char *zHttpScheme = "http";/* HTTP_SCHEME CGI variable */ static char *zHttps = 0; /* HTTPS CGI variable */ static int nIn = 0; /* Number of bytes of input */ static int nOut = 0; /* Number of bytes of output */ static char zReplyStatus[4]; /* Reply status code */ static int statusSent = 0; /* True after status line is sent */ static const char *zLogFile = 0; /* Log to this file */ static char zExpLogFile[500] = {0}; /* %-expanded log file name */ static const char *zIPShunDir=0; /* Directory containing hostile IP addresses */ static int debugFlag = 0; /* True if being debugged */ static struct timeval beginTime; /* Time when this process starts */ static struct timespec tsBeginTime; /* clock_gettime() when request processing starts */ static int closeConnection = 0; /* True to send Connection: close in reply */ static int nRequest = 0; /* Number of requests processed */ static int omitLog = 0; /* Do not make logfile entries if true */ static int useHttps = 0; /* 0=HTTP, 1=external HTTPS (stunnel), ** 2=builtin TLS support */ static int useTimeout = 1; /* True to use times */ static int nTimeoutLine = 0; /* Line number where timeout was set */ static int standalone = 0; /* Run as a standalone server (no inetd) */ static int ipv6Only = 0; /* Use IPv6 only */ static int ipv4Only = 0; /* Use IPv4 only */ static struct rusage priorSelf; /* Previously report SELF time */ static struct rusage priorChild; /* Previously report CHILD time */ /*static struct timespec tsSelf;*/ static int mxAge = 120; /* Cache-control max-age */ static char *default_path = "/bin:/usr/bin"; /* Default PATH variable */ static char *zScgi = 0; /* Value of the SCGI env variable */ static int rangeStart = 0; /* Start of a Range: request */ static int rangeEnd = 0; /* End of a Range: request */ static int maxCpu = MAX_CPU; /* Maximum CPU time per process */ static int enableSAB = 0; /* Add reply header to enable ** SharedArrayBuffer */ static int inSignalHandler = 0; /* True if running a signal handler */ static int isExiting = 0; /* True when althttpd_exit() has been called */ static int isRobot = 0; /* 2: is a robot. 1: not a robot. 0: unknown */ static int isCGI = 0; /* True if CGI was run */ /* Forward reference */ static void Malfunction(int errNo, const char *zFormat, ...); #ifdef ENABLE_TLS #include <openssl/bio.h> #include <openssl/ssl.h> #include <openssl/err.h> #include <openssl/x509.h> typedef struct TlsServerConn { SSL *ssl; /* The SSL codec */ BIO *bio; /* SSL BIO object */ int iSocket; /* The socket */ } TlsServerConn; /* ** There can only be a single OpenSSL IO connection open at a time. ** State information about that IO is stored in the following ** global singleton: */ static struct TlsState { int isInit; /* 0: uninit 1: init as client 2: init as server */ SSL_CTX *ctx; const char *zCertFile; /* --cert CLI arg */ const char *zKeyFile; /* --pkey CLI arg */ TlsServerConn * sslCon; } tlsState = { 0, /* isInit */ NULL, /* SSL_CTX *ctx */ NULL, /* zCertFile */ NULL, /* zKeyFile */ NULL /* sslCon */ }; /* ** Read a single line of text from the client and stores it in zBuf ** (which must be at least nBuf bytes long). On error it ** calls Malfunction(). ** ** If it reads anything, it returns zBuf. */ static char *tls_gets(void *pServerArg, char *zBuf, int nBuf){ int n = 0, err = 0; int i; TlsServerConn * const pServer = (TlsServerConn*)pServerArg; if( BIO_eof(pServer->bio) ) return 0; for(i=0; i<nBuf-1; i++){ n = SSL_read(pServer->ssl, &zBuf[i], 1); err = SSL_get_error(pServer->ssl, n); if( err!=0 ){ Malfunction(525,"SSL read error."); }else if( 0==n || zBuf[i]=='\n' ){ break; } } zBuf[i+1] = 0; return zBuf; } /* ** Reads up tp nBuf bytes of TLS-decoded bytes from the client and ** stores them in zBuf, which must be least nBuf bytes long. Returns ** the number of bytes read. Fails fatally if nBuf is "too big" or if ** SSL_read() fails. Once pServerArg reaches EOF, this function simply ** returns 0 with no side effects. */ static size_t tls_read_server(void *pServerArg, void *zBuf, size_t nBuf){ int err = 0; size_t rc = 0; TlsServerConn * const pServer = (TlsServerConn*)pServerArg; if( nBuf>0x7fffffff ){ Malfunction(526,"SSL read too big"); /* LOG: SSL read too big */ } while( 0==err && nBuf!=rc && 0==BIO_eof(pServer->bio) ){ const int n = SSL_read(pServer->ssl, zBuf + rc, (int)(nBuf - rc)); if( n==0 ){ break; } err = SSL_get_error(pServer->ssl, n); if(0==err){ rc += n; }else{ Malfunction(527,"SSL read error."); /* LOG: SSL read error */ } } return rc; } /* ** Write cleartext bytes into the SSL server codec so that they can ** be encrypted and sent back to the client. On success, returns ** the number of bytes written, else returns a negative value. */ static int tls_write_server(void *pServerArg, void const *zBuf, size_t nBuf){ int n; TlsServerConn * const pServer = (TlsServerConn*)pServerArg; if( nBuf<=0 ) return 0; if( nBuf>0x7fffffff ){ Malfunction(528,"SSL write too big"); /* LOG: SSL write too big */ } n = SSL_write(pServer->ssl, zBuf, (int)nBuf); if( n<=0 ){ /* Do NOT call Malfunction() from here, as Malfunction() ** may output via this function. The current error handling ** is somewhat unsatisfactory, as it can lead to negative ** response length sizes in the althttpd log. */ return -SSL_get_error(pServer->ssl, n); }else{ return n; } } #endif /* ENABLE_TLS */ /* ** A printf() proxy which outputs either to stdout or the outbound TLS ** connection, depending on connection state. It uses a ** statically-sized buffer for TLS output and will fail (via ** Malfunction()) if it's passed too much data. In non-TLS mode it has ** no such limitation. The buffer is generously sized, in any case, to ** be able to handle all of the headers output by althttpd as of the ** time of this writing. */ #ifdef ENABLE_TLS static int althttpd_vprintf(char const * fmt, va_list va){ if( useHttps!=2 || NULL==tlsState.sslCon ){ return vprintf(fmt, va); }else{ char pfBuffer[10000]; const int sz = vsnprintf(pfBuffer, sizeof(pfBuffer), fmt, va); if( sz<(int)sizeof(pfBuffer) ){ return (int)tls_write_server(tlsState.sslCon, pfBuffer, sz); }else{ Malfunction(529, /* LOG: Output buffer too small */ "Output buffer is too small. Wanted %d bytes.", sz); return 0; } } } #else #define althttpd_vprintf vprintf #endif #ifdef ENABLE_TLS static int althttpd_printf(char const * fmt, ...){ int rc; va_list va; va_start(va,fmt); rc = althttpd_vprintf(fmt, va); va_end(va); return rc; } static void *tls_new_server(int iSocket); static void tls_close_server(void *pServerArg); static void tls_atexit(void); #else #define althttpd_printf printf #endif /* forward references */ static int tls_init_conn(int iSocket); static void tls_close_conn(void); static void althttpd_fflush(FILE *f); /* ** Flush stdout then exit() with the given result code. This must ** always be used instead of exit() so that a corner case involving ** post-exit() signal handling via Timeout() can be accounted for. */ static void althttpd_exit(int iErrCode){ assert( isExiting == 0 ); isExiting = iErrCode ? iErrCode : 1; althttpd_fflush(stdout); tls_close_conn(); exit(iErrCode); } /* ** Mapping between CGI variable names and values stored in ** global variables. */ static struct { char *zEnvName; char **pzEnvValue; } cgienv[] = { { "CONTENT_LENGTH", &zContentLength }, /* Must be first for SCGI */ { "AUTH_TYPE", &zAuthType }, { "AUTH_CONTENT", &zAuthArg }, { "CONTENT_TYPE", &zContentType }, { "DOCUMENT_ROOT", &zHome }, { "HTTP_ACCEPT", &zAccept }, { "HTTP_ACCEPT_ENCODING", &zAcceptEncoding }, { "HTTP_COOKIE", &zCookie }, { "HTTP_HOST", &zHttpHost }, { "HTTP_IF_MODIFIED_SINCE", &zIfModifiedSince }, { "HTTP_IF_NONE_MATCH", &zIfNoneMatch }, { "HTTP_REFERER", &zReferer }, { "HTTP_SCHEME", &zHttpScheme }, { "HTTP_USER_AGENT", &zAgent }, { "HTTPS", &zHttps }, { "PATH", &default_path }, { "PATH_INFO", &zPathInfo }, { "QUERY_STRING", &zQueryString }, { "REMOTE_ADDR", &zRemoteAddr }, { "REQUEST_METHOD", &zMethod }, { "REQUEST_URI", &zRequestUri }, { "REMOTE_USER", &zRemoteUser }, { "SCGI", &zScgi }, { "SCRIPT_DIRECTORY", &zDir }, { "SCRIPT_FILENAME", &zFile }, { "SCRIPT_NAME", &zRealScript }, { "SERVER_NAME", &zServerName }, { "SERVER_PORT", &zServerPort }, { "SERVER_PROTOCOL", &zProtocol }, { "SERVER_SOFTWARE", &zServerSoftware }, }; /* ** A structure for holding a single date and time. */ typedef struct DateTime DateTime; struct DateTime { long long int iJD; /* The julian day number times 86400000 */ int Y, M, D; /* Year, month, and day */ int h, m; /* Hour and minutes */ double s; /* Seconds */ }; /* ** Populates p based on the unix timestamp (seconds since 1970-01-01 00:00:00) ** stored in t. */ static void unixToDateTime(time_t t, DateTime *p){ int Z, A, B, C, D, E, X1; int day_s; p->iJD = (long long)((t/86400.0 + 2440587.5) * 86400000); Z = (int)((p->iJD + 43200000)/86400000); A = (int)((Z - 1867216.25)/36524.25); A = Z + 1 + A - (A/4); B = A + 1524; C = (int)((B - 122.1)/365.25); D = (36525*(C&32767))/100; E = (int)((B-D)/30.6001); X1 = (int)(30.6001*E); p->D = B - D - X1; p->M = E<14 ? E-1 : E-13; p->Y = p->M>2 ? C - 4716 : C - 4715; day_s = t % 86400; p->h = day_s / 3600; p->m = day_s % 3600 / 60; p->s = day_s % 60; #if 0 fprintf(stderr,"day_s = %d, DateTime Y=%d M=%d D=%d h=%d m=%d s=%d\n", (int)day_s, p->Y, p->M, p->D, p->h, p->m, (int)p->s); #endif } #ifdef COMBINED_LOG_FORMAT /* ** Copies and converts _relevant_ fields of pD into pTm. Only those ** fields relevant for althttpd's own logging are handled and the rest ** are zeroed out, thus pTm is not necessarily suitable for all ** strftime() formats or libc time functions after calling this. */ static void DateTime_toTm(const DateTime *pD, struct tm *pTm){ memset(pTm, 0, sizeof(*pTm)); pTm->tm_isdst = -1; pTm->tm_sec = (int)pD->s; pTm->tm_min = pD->m; pTm->tm_hour = pD->h; pTm->tm_mday = pD->D; pTm->tm_mon = pD->M - 1; pTm->tm_year = pD->Y - 1900; } #endif /* ** Convert a struct timeval into an integer number of microseconds */ static long long int tvms(struct timeval *p){ return ((long long int)p->tv_sec)*1000000 + (long long int)p->tv_usec; } /* ** Convert a struct timespec into an integer number of microseconds */ static long long int tsms(struct timespec *p){ return ((long long int)p->tv_sec)*1000000 + (long long int)(p->tv_nsec/1000); } /* ************************************************************************** ** NOTE: The following log_xxx() routines are doing work that fprintf() ** would normally do for us. But we cannot use fprintf() because these ** routines are called from within an interrupt handler. */ /* ** Append text to z[] if there is space available in z[] to do so safely. ** zIn is zero-terminated text to be appended. ** ** If sufficient space exists in z[] to hold zIn[], then do the append ** and set *pzTail to point to the zero-terminator on z[] after zIn[] has ** been appended. In other words, *pzTail is left pointing to the spot ** where the next append should begin. A pointer to z[] is returned. ** ** If z[] is not large enough to hold all of zIn[] or if z is NULL, then ** leave z[] unchanged, return NULL, and set *pzTail to NULL. ** ** If zIn is NULL, then *pzTail is set to zEnd and z[] is returned ** unchanged. This routine is essentially a no-op in that case. */ static char *log_str( char *z, /* Append text from zIn[] into this buffer */ const char *zEnd, /* Last byte of available space for z[] */ const char *zIn, /* Text that should be appended to z[]. NOT NULL */ char **pzTail /* Write pointer to new zero-terminator in z[] */ ){ const size_t n = z ? strlen(zIn) : 0; if( !z || zEnd<=z+n ){ *pzTail = 0; return 0; } memcpy( z, zIn, n ); *pzTail = z+n; return z; } /* ** Works like log_str() but doubles all double-quote characters in the ** input. If z is NULL or zIn is too long for the input buffer, ** *zTail is set to 0 and 0 is returned. ** ** This is used to quote strings for output into the CSV log file. */ static char *log_escstr( char *z, /* Append escaped text to this buffer */ const char *zEnd, /* Last available byte of z[] */ const char *zIn, /* Text to be appended. NOT NULL. */ char **pzTail /* Write new zero-terminator of z[] here */ ){ char *zOrig = z; char c = *zIn; if( !z || z>=zEnd ){ goto too_short; } for( ; c && z<zEnd; c=*++zIn ){ if( '"'==c ){ if( z>=zEnd-1 ){ goto too_short; } *z++ = c; } *z++ = c; } *pzTail = z; return zOrig; too_short: *pzTail = 0; return 0; } /* ** Convert 64-bit signed integer "d" into text and append that text ** onto the end of buffer z[] if there is sufficient space in z[]. ** ** Appends d to z, sets *zpTail to the byte after the new end of z, and ** returns z. If appending d would extend past zEnd then *zTail is set ** to 0 and 0 is returned, but z is not modified. If z is NULL, *zTail ** is set to 0 but this is otherwise a no-op. ** ** minDigits must be at least 1 and d will be left-padded with 0's to ** a minimum of that length. */ static char *log_int( char *z, /* Append text representation of d here */ const char *zEnd, /* Last available byte of space in z[] */ long long int d, /* 64-bit signed integer value to be converted */ int minDigits, /* Minimum number of digits to display */ char **pzTail /* OUT: The next zero-terminator in z[] */ ){ char buf[128]; int i = (int)sizeof(buf), n = 0; int neg = 0; assert( minDigits>0 && minDigits<=4 ); if( !z ){ *pzTail = 0; return 0; }else if( d<0 ){ neg = 1; d = -d; } for( ; (minDigits-- > 0) || d>0; d/=10 ){ buf[--i] = '0' + (d%10); ++n; } if( neg ){ buf[--i] = '-'; ++n; } if( zEnd <= z+n ){ return 0; } memcpy(z, &buf[i], n); *pzTail = z+n; return z; } #ifndef COMBINED_LOG_FORMAT /* ** Append date/time pD (rendered as "YYYY-MM-DD hh:mm:ss") to z[] if ** space is available in z[]. Leave *pzTail pointing to the NULL ** terminator and return a pointer to z[]. ** ** If insufficient space is available in z[] to hold the new decoded ** date/time, then set *pzTail to NULL and return a NULL pointer. */ static char *log_DateTime( char * z, /* Append YYYY-MM-DD hh:mm:ss to this buffer */ const char *zEnd, /* Last available byte in buffer z[] */ const struct DateTime *pD, /* The date/time to be appended */ char **pzTail /* OUT: zero terminator after appending */ ){ char *zOut = z; if( z+19 >= zEnd ){ *pzTail = 0; return 0; } #define aint(N,DIGITS,SUFFIX) log_int(zOut,zEnd,(int)(N),(DIGITS),&zOut); \ if( SUFFIX ) log_str( zOut, zEnd, SUFFIX, &zOut ) aint(pD->Y, 4, "-"); aint(pD->M, 2, "-"); aint(pD->D, 2, " "); aint(pD->h, 2, ":"); aint(pD->m, 2, ":"); aint(pD->s, 2, 0); #undef aint *pzTail = zOut; return z; } #endif /* ** Make an entry in the log file. If the HTTP connection should be ** closed, then terminate this process. Otherwise return. ** ** This routine might be called from a signal handler. Make sure ** this routine does not invoke any subroutines that are not signal-safe ** if the global variable inSignalHandler is set. Note that fprintf() ** is not signal-safe on all systems. */ static void MakeLogEntry(int exitCode, int lineNum){ int logfd; if( zPostData ){ if( inSignalHandler==0 ){ free(zPostData); } zPostData = 0; } if( zLogFile && !omitLog ){ struct rusage self, children; int waitStatus; const char *zRM = zRemoteUser ? zRemoteUser : ""; const char *zFilename; if( zScript==0 ) zScript = ""; if( zRealScript==0 ) zRealScript = ""; if( zRemoteAddr==0 ) zRemoteAddr = ""; if( zHttpHost==0 ) zHttpHost = ""; if( zReferer==0 ) zReferer = ""; if( zAgent==0 ) zAgent = ""; if( zQuerySuffix==0 ) zQuerySuffix = ""; if( zExpLogFile[0]!=0 ){ zFilename = zExpLogFile; }else{ zFilename = zLogFile; } waitpid(-1, &waitStatus, WNOHANG); if( inSignalHandler!=0 ){ /* getrusage() is not signal-safe, so fall back to 0. */ self = priorSelf; children = priorChild; }else{ getrusage(RUSAGE_SELF, &self); getrusage(RUSAGE_CHILDREN, &children); } if( (logfd = open(zFilename,O_WRONLY | O_CREAT | O_APPEND, 0640)) > 0 ){ time_t tNow; /* current time */ struct timespec tsNow; /* current time (again!) */ struct DateTime dt; /* high-level tNow */ char msgbuf[5000]; /* message buffer */ const char * const zEnd = &msgbuf[0] + sizeof(msgbuf); char * zPos = &msgbuf[0]; /* current write pos */ long long int t; /* Elapse CGI time */ #define astr( STR ) log_str( zPos, zEnd, (STR), &zPos ) #define acomma astr(",") #define astr2( STR ) astr( STR ); acomma #define aint( N ) log_int( zPos, zEnd, (N), 1, &zPos ); acomma clock_gettime(ALTHTTPD_CLOCK_ID, &tsNow); time(&tNow); unixToDateTime(tNow, &dt); #ifdef COMBINED_LOG_FORMAT /* COMBINED_LOG_FORMAT is a log-file format used by some other ** web servers. Support for COMBINED_LOG_FORMAT was added at some ** point in althttpd's history. But there are no known current ** users. COMBINED_LOG_FORMAT is deprecated */ /* Potential TODO: eliminate use of strftime(). Default builds ** of althttpd do not use COMBINED_LOG_FORMAT, so this is a ** low-priority issue. */ { struct tm vTm/* to remove once we have a strftime() substitute */; char zDate[200]; #if 0 /* Older impl, for reference: */ fprintf(log, "%s - - [%s] \"%s %s %s\" %s %d \"%s\" \"%s\"\n", zRemoteAddr, zDate, zMethod, zScript, zProtocol, zReplyStatus, nOut, zReferer, zAgent); #endif DateTime_toTm(&dt, &vTm); strftime(zDate, sizeof(zDate), "%d/%b/%Y:%H:%M:%S %Z", &vTm); astr( zRemoteAddr ); astr( " - - [" ); astr( zDate ); astr( "] \"" ); astr( zMethod ); astr( " " ); astr( zScript ); astr( " " ); astr( zProtocol ); astr( "\" " ); astr( zReplyStatus ); astr( " " ); aint( nOut ); astr( " \"" ); astr( zReferer ); astr( "\" \"" ); astr( zAgent ); astr( "\"\n" ); } #else /* Log record files: ** (1) Date and time ** (2) IP address ** (3) URL being accessed ** (4) Referer ** (5) Reply status ** (6) Bytes received ** (7) Bytes sent ** (8) Self user time ** (9) Self system time ** (10) Children user time ** (11) Children system time ** (12) Total wall-clock time ** (13) Request number for same TCP/IP connection ** (14) User agent ** (15) Remote user ** (16) Bytes of URL that correspond to the SCRIPT_NAME ** (17) Line number in source file */ #define escstr(X) log_escstr( zPos, zEnd, X, &zPos ) /* (1) */ log_DateTime( zPos, zEnd, &dt, &zPos ); astr(","); /* (2) */ astr2( zRemoteAddr ); /* (3) */ astr( "\"" ); astr( zHttpScheme ); astr( "://" ); escstr(zHttpHost); escstr(zScript); escstr(zQuerySuffix); astr2( "\"" ); /* (4) */ astr( "\"" ); escstr(zReferer); astr2("\""); /* (5) */ astr2( zReplyStatus ); /* (6) */ aint( nIn ); /* (7) */ aint( nOut ); /* (8) */ aint( tvms(&self.ru_utime) - tvms(&priorSelf.ru_utime) ); /* (9) */ aint( tvms(&self.ru_stime) - tvms(&priorSelf.ru_stime) ); t = tvms(&children.ru_utime) - tvms(&priorChild.ru_utime); if( isCGI ){ if( t==0 ) t = 1; isCGI = 0; } /* (10) */ aint( t ); /* (11) */ aint( tvms(&children.ru_stime) - tvms(&priorChild.ru_stime) ); /* (12) */ aint( tsms(&tsNow) - tsms(&tsBeginTime) ); /* (13) */ aint( nRequest ); /* (14) */ astr( "\"" ); escstr(zAgent); astr2("\""); /* (15) */ astr( "\"" ); escstr(zRM); astr2("\""); /* (16) */ aint( strlen(zHttpScheme) + strlen(zHttpHost) + strlen(zRealScript)+3 ); if( lineNum==0 ) lineNum = isRobot; isRobot = 0; /* (17) */ log_int( zPos, zEnd, lineNum, 1, &zPos ); #undef escstr #ifdef ALTHTTPD_LOG_PID /* Appending of PID to the log is used only to assist in ** debugging of hanging althttpd processes: ** https://sqlite.org/althttpd/forumpost/4dc31619341ce947 */ acomma; /* (18) */ log_int( zPos, zEnd, getpid(), 1, &zPos ); #endif /* ALTHTTPD_LOG_PID */ astr( "\n" ); priorSelf = self; priorChild = children; #endif if( zPos!=0 ){ size_t iStart = 0; size_t toSend; size_t nSent; assert( zPos<zEnd-1 ); assert( zPos>&msgbuf[0] ); *zPos = 0; toSend = zPos - &msgbuf[0]; while( 1 /*exit-by-break*/ ){ nSent = write( logfd, msgbuf+iStart, toSend); if( nSent<=0 ) break; if( nSent>=toSend ) break; iStart += nSent; toSend -= nSent; } } close(logfd); nIn = nOut = 0; #undef astr #undef astr2 #undef aint #undef acomma } } if( closeConnection || inSignalHandler ){ althttpd_exit(exitCode); } statusSent = 0; } /* ** Allocate memory safely */ static char *SafeMalloc( size_t size ){ char *p; p = (char*)malloc(size); if( p==0 ){ strcpy(zReplyStatus, "998"); MakeLogEntry(1,100); /* LOG: Malloc() failed */ althttpd_exit(1); } return p; } /* Forward reference */ static void BlockIPAddress(void); static void ServiceUnavailable(int lineno); /* ** Set the value of environment variable zVar to zValue. */ static void SetEnv(const char *zVar, const char *zValue){ char *z; size_t len; if( zValue==0 ) zValue=""; /* Disable an attempted bashdoor attack */ if( strncmp(zValue,"() {",4)==0 ){ BlockIPAddress(); ServiceUnavailable(902); /* LOG: 902 bashdoor attack */ zValue = ""; } len = strlen(zVar) + strlen(zValue) + 2; z = SafeMalloc(len); sprintf(z,"%s=%s",zVar,zValue); putenv(z); } /* ** Remove the first space-delimited token from a string and return ** a pointer to it. Add a NULL to the string to terminate the token. ** Make *zLeftOver point to the start of the next token. */ static char *GetFirstElement(char *zInput, char **zLeftOver){ char *zResult = 0; if( zInput==0 ){ if( zLeftOver ) *zLeftOver = 0; return 0; } while( isspace(*(unsigned char*)zInput) ){ zInput++; } zResult = zInput; while( *zInput && !isspace(*(unsigned char*)zInput) ){ zInput++; } if( *zInput ){ *zInput = 0; zInput++; while( isspace(*(unsigned char*)zInput) ){ zInput++; } } if( zLeftOver ){ *zLeftOver = zInput; } return zResult; } /* ** Make a copy of a string into memory obtained from malloc. */ static char *StrDup(const char *zSrc){ char *zDest; size_t size; if( zSrc==0 ) return 0; size = strlen(zSrc) + 1; zDest = (char*)SafeMalloc( size ); strcpy(zDest,zSrc); return zDest; } static char *StrAppend(char *zPrior, const char *zSep, const char *zSrc){ char *zDest; size_t size; size_t n0, n1, n2; if( zSrc==0 ) return 0; if( zPrior==0 ) return StrDup(zSrc); n0 = strlen(zPrior); n1 = strlen(zSep); n2 = strlen(zSrc); size = n0+n1+n2+1; zDest = (char*)SafeMalloc( size ); memcpy(zDest, zPrior, n0); free(zPrior); memcpy(&zDest[n0],zSep,n1); memcpy(&zDest[n0+n1],zSrc,n2+1); return zDest; } /* ** Construct the REQUEST_URI value from zString and zQueryString. ** ** REQUEST_URI is nominally the second field of the first line of the ** HTTP request. But we might have done some sanitization on the ** SCRIPT_NAME and/or PATH_INFO and we want to capture that in the ** REQUEST_URI. Hence, the REQUEST_URI is recomputed before being ** sent to CGI or SCGI. */ static void ComputeRequestUri(void){ if( zQueryString==0 || zQueryString[0]==0 ){ zRequestUri = zScript; }else{ zRequestUri = StrAppend(zScript, "?", zQueryString); } } /* ** Compare two ETag values. Return 0 if they match and non-zero if they differ. ** ** The one on the left might be a NULL pointer and it might be quoted. */ static int CompareEtags(const char *zA, const char *zB){ if( zA==0 ) return 1; if( zA[0]=='"' ){ int lenB = (int)strlen(zB); if( strncmp(zA+1, zB, lenB)==0 && zA[lenB+1]=='"' ) return 0; } return strcmp(zA, zB); } /* ** Break a line at the first \n or \r character seen. */ static void RemoveNewline(char *z){ if( z==0 ) return; while( *z && *z!='\n' && *z!='\r' ){ z++; } *z = 0; } /* Render seconds since 1970 as an RFC822 date string. Return ** a pointer to that string in a static buffer. */ static char *Rfc822Date(time_t t){ struct tm *tm; static char zDate[100]; tm = gmtime(&t); strftime(zDate, sizeof(zDate), "%a, %d %b %Y %H:%M:%S GMT", tm); return zDate; } /* ** Print a date tag in the header. The name of the tag is zTag. ** The date is determined from the unix timestamp given. */ static int DateTag(const char *zTag, time_t t){ return althttpd_printf("%s: %s" CRLF, zTag, Rfc822Date(t)); } /* ** Parse an RFC822-formatted timestamp as we'd expect from HTTP and return ** a Unix epoch time. <= zero is returned on failure. */ time_t ParseRfc822Date(const char *zDate){ int mday, mon, year, yday, hour, min, sec; char zIgnore[4]; char zMonth[4]; static const char *const azMonths[] = {"Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec"}; if( 7==sscanf(zDate, "%3[A-Za-z], %d %3[A-Za-z] %d %d:%d:%d", zIgnore, &mday, zMonth, &year, &hour, &min, &sec)){ if( year > 1900 ) year -= 1900; for(mon=0; mon<12; mon++){ if( !strncmp( azMonths[mon], zMonth, 3 )){ int nDay; int isLeapYr; static int priorDays[] = { 0, 31, 59, 90,120,151,181,212,243,273,304,334 }; isLeapYr = year%4==0 && (year%100!=0 || (year+300)%400==0); yday = priorDays[mon] + mday - 1; if( isLeapYr && mon>1 ) yday++; nDay = (year-70)*365 + (year-69)/4 - year/100 + (year+300)/400 + yday; return ((time_t)(nDay*24 + hour)*60 + min)*60 + sec; } } } return 0; } /* ** Test procedure for ParseRfc822Date */ void TestParseRfc822Date(void){ time_t t1, t2; for(t1=0; t1<0x7fffffff; t1 += 127){ t2 = ParseRfc822Date(Rfc822Date(t1)); assert( t1==t2 ); } } /* ** Print the first line of a response followed by the server type. */ static void StartResponse(const char *zResultCode){ time_t now; time(&now); if( statusSent ) return; nOut += althttpd_printf("%s %s" CRLF, zProtocol ? zProtocol : "HTTP/1.1", zResultCode); strncpy(zReplyStatus, zResultCode, 3); zReplyStatus[3] = 0; if( zReplyStatus[0]>='4' ){ closeConnection = 1; } if( closeConnection ){ nOut += althttpd_printf("Connection: close" CRLF); }else{ nOut += althttpd_printf("Connection: keep-alive" CRLF); } nOut += DateTag("Date", now); statusSent = 1; } /* ** Check all of the files in the zIPShunDir directory. Unlink any ** files in that directory that have expired. ** ** This routine might be slow if there are a lot of blocker files. ** So it only runs when we are not in a hurry, such as prior to sending ** a 404 Not Found reply. */ static void UnlinkExpiredIPBlockers(void){ DIR *pDir; struct dirent *pFile; size_t nIPShunDir; time_t now; char zFilename[2000]; if( zIPShunDir==0 ) return; if( zIPShunDir[0]!='/' ) return; nIPShunDir = strlen(zIPShunDir); while( nIPShunDir>0 && zIPShunDir[nIPShunDir-1]=='/' ) nIPShunDir--; if( nIPShunDir > sizeof(zFilename)-100 ) return; memcpy(zFilename, zIPShunDir, nIPShunDir); zFilename[nIPShunDir] = 0; pDir = opendir(zFilename); if( pDir==0 ) return; zFilename[nIPShunDir] = '/'; time(&now); while( (pFile = readdir(pDir))!=0 ){ size_t nFile = strlen(pFile->d_name); int rc; struct stat statbuf; if( nIPShunDir+nFile >= sizeof(zFilename)-2 ) continue; if( strstr(pFile->d_name, "..") ) continue; memcpy(zFilename+nIPShunDir+1, pFile->d_name, nFile+1); memset(&statbuf, 0, sizeof(statbuf)); rc = stat(zFilename, &statbuf); if( rc ) continue; if( !S_ISREG(statbuf.st_mode) ) continue; if( statbuf.st_size==0 ) continue; if( statbuf.st_size*5*BANISH_TIME + statbuf.st_mtime > now ) continue; unlink(zFilename); } closedir(pDir); } /* Return true if the request URI contained in zScript[] seems like a ** hack attempt. */ static int LikelyHackAttempt(void){ static const char *azHackUris[] = { "/../", "/./", "_SELECT_", "_select_", "_sleep_", "_OR_", "_AND_", "/etc/passwd", "/bin/sh", "/.git/", "/swagger.yaml", "/phpThumb.php", "/.htpasswd", "/.passwd", "/tomcat/manager/status/", "/WEB-INF/jboss-web.xml", "/phpMyAdmin/setup/index.php", "/examples/feed-viewer/feed-proxy.php", }; unsigned int i; if( zScript==0 ) return 0; if( zScript[0]==0 ) return 0; if( zScript[0]!='/' ) return 1; for(i=0; i<sizeof(azHackUris)/sizeof(azHackUris[0]); i++){ if( strstr(zScript, azHackUris[i])!=0 ) return 1; } return 0; } /* ** An abusive HTTP request has been submitted by the IP address zRemoteAddr. ** Block future requests coming from this IP address. ** ** This only happens if the zIPShunDir variable is set, which is only set ** by the --ipshun command-line option. Without that setting, this routine ** is a no-op. ** ** If zIPShunDir is a valid directory, then this routine uses zRemoteAddr ** as the name of a file within that directory. Cases: ** ** + The file already exists and is not an empty file. This will be the ** case if the same IP was recently blocked, but the block has expired, ** and yet the expiration was not so long ago that the blocking file has ** been unlinked. In this case, add one character to the file, which ** will update its mtime (causing it to be active again) and increase ** its expiration timeout. ** ** + The file exists and is empty. This happens if the administrator ** uses "touch" to create the file. An empty blocking file indicates ** a permanent block. Do nothing. ** ** + The file does not exist. Create it anew and make it one byte in size. ** ** The UnlinkExpiredIPBlockers() routine will run from time to time to ** unlink expired blocker files. If the DisallowedRemoteAddr() routine finds ** an expired blocker file corresponding to zRemoteAddr, it might unlink ** that one blocker file if the file has been expired for long enough. */ static void BlockIPAddress(void){ size_t nIPShunDir; size_t nRemoteAddr; int rc; struct stat statbuf; char zFullname[1000]; if( zIPShunDir==0 ) return; if( zRemoteAddr==0 ) return; if( zRemoteAddr[0]==0 ) return; /* If we reach this point, it means that a suspicious request was ** received and we want to activate IP blocking on the remote ** address. */ nIPShunDir = strlen(zIPShunDir); while( nIPShunDir>0 && zIPShunDir[nIPShunDir-1]=='/' ) nIPShunDir--; nRemoteAddr = strlen(zRemoteAddr); if( nIPShunDir + nRemoteAddr + 2 >= sizeof(zFullname) ){ Malfunction(914, /* LOG: buffer overflow */ "buffer overflow"); } memcpy(zFullname, zIPShunDir, nIPShunDir); zFullname[nIPShunDir] = '/'; memcpy(zFullname+nIPShunDir+1, zRemoteAddr, nRemoteAddr+1); rc = stat(zFullname, &statbuf); if( rc!=0 || statbuf.st_size>0 ){ FILE *lock = fopen(zFullname, "a"); if( lock ){ fputc('X', lock); fclose(lock); } } } /* ** Send a service-unavailable reply. */ static void ServiceUnavailable(int lineno){ StartResponse("503 Service Unavailable"); nOut += althttpd_printf( "Content-type: text/plain; charset=utf-8" CRLF CRLF "Service to IP address %s temporarily blocked due to abuse\n", zRemoteAddr ); closeConnection = 1; MakeLogEntry(0, lineno); althttpd_exit(0); } /* ** Tell the client that there is no such document */ static void NotFound(int lineno){ if( LikelyHackAttempt() ){ BlockIPAddress(); ServiceUnavailable(lineno); } UnlinkExpiredIPBlockers(); StartResponse("404 Not Found"); nOut += althttpd_printf( "Content-type: text/html; charset=utf-8" CRLF CRLF "<html><head><title lineno=\"%d\">Not Found</title></head>\n" "<body><h1>Document Not Found</h1>\n" "The document %s is not available on this server\n" "</body></html>\n", lineno, zScript); MakeLogEntry(0, lineno); althttpd_exit(0); } /* ** Tell the client that they are not welcomed here. */ static void Forbidden(int lineno){ StartResponse("403 Forbidden"); nOut += althttpd_printf( "Content-type: text/plain; charset=utf-8" CRLF CRLF "Access denied\n" ); closeConnection = 1; MakeLogEntry(0, lineno); althttpd_exit(0); } /* ** Tell the client that authorization is required to access the ** document. */ static void NotAuthorized(const char *zRealm){ StartResponse("401 Authorization Required"); nOut += althttpd_printf( "WWW-Authenticate: Basic realm=\"%s\"" CRLF "Content-type: text/html; charset=utf-8" CRLF CRLF "<head><title>Not Authorized</title></head>\n" "<body><h1>401 Not Authorized</h1>\n" "A login and password are required for this document\n" "</body>\n", zRealm); MakeLogEntry(0, 110); /* LOG: Not authorized */ } /* ** Tell the client that there is an error in the script. */ static void CgiError(void){ StartResponse("500 Error"); nOut += althttpd_printf( "Content-type: text/html; charset=utf-8" CRLF CRLF "<head><title>CGI Program Error</title></head>\n" "<body><h1>CGI Program Error</h1>\n" "The CGI program %s generated an error\n" "</body>\n", zScript); MakeLogEntry(0, 120); /* LOG: CGI Error */ althttpd_exit(0); } /* ** Set the timeout in seconds. 0 means no-timeout. */ static void SetTimeout(int nSec, int lineNum){ if( useTimeout ){ nTimeoutLine = lineNum; alarm(nSec); } } /* ** This is called if we timeout or catch some other kind of signal. ** Log an error code which is 900+iSig and then quit. ** ** If called after althttpd_exit(), this is a no-op. */ static void Timeout(int iSig){ if( debugFlag==0 && isExiting==0 ){ if( zScript && zScript[0] ){ char zBuf[10]; zBuf[0] = '9'; zBuf[1] = '0' + (iSig/10)%10; zBuf[2] = '0' + iSig%10; zBuf[3] = 0; strcpy(zReplyStatus, zBuf); ++inSignalHandler; switch( iSig ){ case SIGALRM: MakeLogEntry(0, nTimeoutLine); break; case SIGSEGV: MakeLogEntry(0, 131); /* LOG: SIGSEGV */ break; case SIGPIPE: MakeLogEntry(0, 132); /* LOG: SIGPIPE */ break; case SIGXCPU: MakeLogEntry(0, 133); /* LOG: SIGXCPU */ break; default: MakeLogEntry(0, 139); /* LOG: Unknown signal */ break; } --inSignalHandler; } althttpd_exit(0); } } /* ** Tell the client that there is an error in the script. */ static void CgiScriptWritable(void){ StartResponse("500 CGI Configuration Error"); nOut += althttpd_printf( "Content-type: text/plain; charset=utf-8" CRLF CRLF "The CGI program %s is writable by users other than its owner.\n", zRealScript); MakeLogEntry(0, 140); /* LOG: CGI script is writable */ althttpd_exit(0); } /* ** Tell the client that the server malfunctioned. */ void Malfunction(int linenum, const char *zFormat, ...){ va_list ap; va_start(ap, zFormat); StartResponse("500 Server Malfunction"); nOut += althttpd_printf( "Content-type: text/plain; charset=utf-8" CRLF CRLF "Web server malfunctioned; error number %d\n\n", linenum); if( zFormat ){ nOut += althttpd_vprintf(zFormat, ap); althttpd_printf("\n"); nOut++; } va_end(ap); MakeLogEntry(0, linenum); althttpd_exit(0); } /* ** Do a server redirect to the document specified. The document ** name not contain scheme or network location or the query string. ** It will be just the path. */ static void Redirect(const char *zPath, int iStatus, int finish, int lineno){ switch( iStatus ){ case 301: StartResponse("301 Permanent Redirect"); break; case 308: StartResponse("308 Permanent Redirect"); break; default: StartResponse("302 Temporary Redirect"); break; } if( zServerPort==0 || zServerPort[0]==0 || strcmp(zServerPort,"80")==0 ){ nOut += althttpd_printf("Location: %s://%s%s%s" CRLF, zHttpScheme, zServerName, zPath, zQuerySuffix); }else{ nOut += althttpd_printf("Location: %s://%s:%s%s%s" CRLF, zHttpScheme, zServerName, zServerPort, zPath, zQuerySuffix); } if( finish ){ nOut += althttpd_printf("Content-length: 0" CRLF CRLF); MakeLogEntry(0, lineno); } fflush(stdout); } /* ** This function treats its input as a base-64 string and returns the ** decoded value of that string. Characters of input that are not ** valid base-64 characters (such as spaces and newlines) are ignored. */ static void Decode64(char *z64){ char *zData; int n64; int i, j; int a, b, c, d; static int isInit = 0; static int trans[128]; static unsigned char zBase[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"; if( !isInit ){ for(i=0; i<128; i++){ trans[i] = 0; } for(i=0; zBase[i]; i++){ trans[zBase[i] & 0x7f] = i; } isInit = 1; } n64 = strlen(z64); while( n64>0 && z64[n64-1]=='=' ) n64--; zData = z64; for(i=j=0; i+3<n64; i+=4){ a = trans[z64[i] & 0x7f]; b = trans[z64[i+1] & 0x7f]; c = trans[z64[i+2] & 0x7f]; d = trans[z64[i+3] & 0x7f]; zData[j++] = ((a<<2) & 0xfc) | ((b>>4) & 0x03); zData[j++] = ((b<<4) & 0xf0) | ((c>>2) & 0x0f); zData[j++] = ((c<<6) & 0xc0) | (d & 0x3f); } if( i+2<n64 ){ a = trans[z64[i] & 0x7f]; b = trans[z64[i+1] & 0x7f]; c = trans[z64[i+2] & 0x7f]; zData[j++] = ((a<<2) & 0xfc) | ((b>>4) & 0x03); zData[j++] = ((b<<4) & 0xf0) | ((c>>2) & 0x0f); }else if( i+1<n64 ){ a = trans[z64[i] & 0x7f]; b = trans[z64[i+1] & 0x7f]; zData[j++] = ((a<<2) & 0xfc) | ((b>>4) & 0x03); } zData[j] = 0; } #ifdef ENABLE_TLS /* This is a self-signed cert in the PEM format that can be used when ** no other certs are available. ** ** NB: Use of this self-signed cert is wildly insecure. Use for testing ** purposes only. */ static const char sslSelfCert[] = "-----BEGIN CERTIFICATE-----\n" "MIIDMTCCAhkCFGrDmuJkkzWERP/ITBvzwwI2lv0TMA0GCSqGSIb3DQEBCwUAMFQx\n" "CzAJBgNVBAYTAlVTMQswCQYDVQQIDAJOQzESMBAGA1UEBwwJQ2hhcmxvdHRlMRMw\n" "EQYDVQQKDApGb3NzaWwtU0NNMQ8wDQYDVQQDDAZGb3NzaWwwIBcNMjExMjI3MTEz\n" "MTU2WhgPMjEyMTEyMjcxMTMxNTZaMFQxCzAJBgNVBAYTAlVTMQswCQYDVQQIDAJO\n" "QzESMBAGA1UEBwwJQ2hhcmxvdHRlMRMwEQYDVQQKDApGb3NzaWwtU0NNMQ8wDQYD\n" "VQQDDAZGb3NzaWwwggEiMA0GCSqGSIb3DQEBAQUAA4IBDwAwggEKAoIBAQCCbTU2\n" "6GRQHQqLq7vyZ0OxpAxmgfAKCxt6eIz+jBi2ZM/CB5vVXWVh2+SkSiWEA3UZiUqX\n" "xZlzmS/CglZdiwLLDJML8B4OiV72oivFH/vJ7+cbvh1dTxnYiHuww7GfQngPrLfe\n" "fiIYPDk1GTUJHBQ7Ue477F7F8vKuHdVgwktF/JDM6M60aSqlo2D/oysirrb+dlur\n" "Tlv0rjsYOfq6bLAajoL3qi/vek6DNssoywbge4PfbTgS9g7Gcgncbcet5pvaS12J\n" "avhFcd4JU4Ity49Hl9S/C2MfZ1tE53xVggRwKz4FPj65M5uymTdcxtjKXtCxIE1k\n" "KxJxXQh7rIYjm+RTAgMBAAEwDQYJKoZIhvcNAQELBQADggEBAFkdtpqcybAzJN8G\n" "+ONuUm5sXNbWta7JGvm8l0BTSBcCUtJA3hn16iJqXA9KmLnaF2denC4EYk+KlVU1\n" "QXxskPJ4jB8A5B05jMijYv0nzCxKhviI8CR7GLEEGKzeg9pbW0+O3vaVehoZtdFX\n" "z3SsCssr9QjCLiApQxMzW1Iv3od2JXeHBwfVMFrWA1VCEUCRs8OSW/VOqDPJLVEi\n" "G6wxc4kN9dLK+5S29q3nzl24/qzXoF8P9Re5KBCbrwaHgy+OEEceq5jkmfGFxXjw\n" "pvVCNry5uAhH5NqbXZampUWqiWtM4eTaIPo7Y2mDA1uWhuWtO6F9PsnFJlQHCnwy\n" "s/TsrXk=\n" "-----END CERTIFICATE-----\n"; /* This is the private-key corresponding to the cert above */ static const char sslSelfPKey[] = "-----BEGIN PRIVATE KEY-----\n" "MIIEvAIBADANBgkqhkiG9w0BAQEFAASCBKYwggSiAgEAAoIBAQCCbTU26GRQHQqL\n" "q7vyZ0OxpAxmgfAKCxt6eIz+jBi2ZM/CB5vVXWVh2+SkSiWEA3UZiUqXxZlzmS/C\n" "glZdiwLLDJML8B4OiV72oivFH/vJ7+cbvh1dTxnYiHuww7GfQngPrLfefiIYPDk1\n" "GTUJHBQ7Ue477F7F8vKuHdVgwktF/JDM6M60aSqlo2D/oysirrb+dlurTlv0rjsY\n" "Ofq6bLAajoL3qi/vek6DNssoywbge4PfbTgS9g7Gcgncbcet5pvaS12JavhFcd4J\n" "U4Ity49Hl9S/C2MfZ1tE53xVggRwKz4FPj65M5uymTdcxtjKXtCxIE1kKxJxXQh7\n" "rIYjm+RTAgMBAAECggEANfTH1vc8yIe7HRzmm9lsf8jF+II4s2705y2H5qY+cvYx\n" "nKtZJGOG1X0KkYy7CGoFv5K0cSUl3lS5FVamM/yWIzoIex/Sz2C1EIL2aI5as6ez\n" "jB6SN0/J+XI8+Vt7186/rHxfdIPpxuzjHbxX3HTpScETNWcLrghbrPxakbTPPxwt\n" "+x7QlPmmkFNuMfvkzToFf9NdwL++44TeBPOpvD/Lrw+eyqdth9RJPq9cM96plh9V\n" "HuRqeD8+QNafaXBdSQs3FJK/cDK/vWGKZWIfFVSDbDhwYljkXGijreFjtXQfkkpF\n" "rl1J87/H9Ee7z8fTD2YXQHl+0/rghAVtac3u54dpQQKBgQC2XG3OEeMrOp9dNkUd\n" "F8VffUg0ecwG+9L3LCe7U71K0kPmXjV6xNnuYcNQu84kptc5vI8wD23p29LaxdNc\n" "9m0lcw06/YYBOPkNphcHkINYZTvVJF10mL3isymzMaTtwDkZUkOjL1B+MTiFT/qp\n" "ARKrTYGJ4HxY7+tUkI5pUmg4PQKBgQC3GA4d1Rz3Pb/RRpcsZgWknKsKhoN36mSn\n" "xFJ3wPBvVv2B1ltTMzh/+the0ty6clzMrvoLERzRcheDsNrc/j/TUVG8sVdBYJwX\n" "tMZyFW4NVMOErT/1ukh6jBqIMBo6NJL3EV/AKj0yniksgKOr0/AAduAccnGST8Jd\n" "SHOdjwvHzwKBgGZBq/zqgNTDuYseHGE07CMgcDWkumiMGv8ozlq3mSR0hUiPOTPP\n" "YFjQjyIdPXnF6FfiyPPtIvgIoNK2LVAqiod+XUPf152l4dnqcW13dn9BvOxGyPTR\n" "lWCikFaAFviOWjY9r9m4dU1dslDmySqthFd0TZgPvgps9ivkJ0cdw30NAoGAMC/E\n" "h1VvKiK2OP27C5ROJ+STn1GHiCfIFd81VQ8SODtMvL8NifgRBp2eFFaqgOdYRQZI\n" "CGGYlAbS6XXCJCdF5Peh62dA75PdgN+y2pOJQzjrvB9cle9Q4++7i9wdCvSLOTr5\n" "WDnFoWy+qVexu6crovOmR9ZWzYrwPFy1EOJ010ECgYBl7Q+jmjOSqsVwhFZ0U7LG\n" "diN+vXhWfn1wfOWd8u79oaqU/Oy7xyKW2p3H5z2KFrBM/vib53Lh4EwFZjcX+jVG\n" "krAmbL+M/hP7z3TD2UbESAzR/c6l7FU45xN84Lsz5npkR8H/uAHuqLgb9e430Mjx\n" "YNMwdb8rChHHChNZu6zuxw==\n" "-----END PRIVATE KEY-----\n"; /* ** Read a PEM certificate from memory and push it into an SSL_CTX. ** Return the number of errors. */ static int sslctx_use_cert_from_mem( SSL_CTX *ctx, const char *pData, int nData ){ BIO *in; int rc = 1; X509 *x = 0; X509 *cert = 0; in = BIO_new_mem_buf(pData, nData); if( in==0 ) goto end_of_ucfm; x = X509_new(); if( x==0 ) goto end_of_ucfm; cert = PEM_read_bio_X509(in, &x, 0, 0); if( cert==0 ) goto end_of_ucfm; rc = SSL_CTX_use_certificate(ctx, x)<=0; end_of_ucfm: X509_free(x); BIO_free(in); return rc; } /* ** Read a PEM private key from memory and add it to an SSL_CTX. ** Return the number of errors. */ static int sslctx_use_pkey_from_mem( SSL_CTX *ctx, const char *pData, int nData ){ int rc = 1; BIO *in; EVP_PKEY *pkey = 0; in = BIO_new_mem_buf(pData, nData); if( in==0 ) goto end_of_upkfm; pkey = PEM_read_bio_PrivateKey(in, 0, 0, 0); if( pkey==0 ) goto end_of_upkfm; rc = SSL_CTX_use_PrivateKey(ctx, pkey)<=0; EVP_PKEY_free(pkey); end_of_upkfm: BIO_free(in); return rc; } /* ** Initialize the SSL library so that it is able to handle ** server-side connections. Invokes Malfunction() if there are ** any problems (so does not return on error). ** ** If zKeyFile and zCertFile are not NULL, then they are the names ** of disk files that hold the certificate and private-key for the ** server. If zCertFile is not NULL but zKeyFile is NULL, then ** zCertFile is assumed to be a concatenation of the certificate and ** the private-key in the PEM format. ** ** If zCertFile is "unsafe-builtin" then a built-in self-signed cert ** is used and zKeyFile is ignored. ** ** Error messages may contain the paths to the given files, but this ** function is called before the server starts listening for requests, ** so those will never be sent to clients. */ static void ssl_init_server(const char *zCertFile, const char *zKeyFile){ if( tlsState.isInit==0 ){ const int useSelfSigned = zCertFile && 0==strcmp("unsafe-builtin", zCertFile); SSL_library_init(); SSL_load_error_strings(); OpenSSL_add_all_algorithms(); tlsState.ctx = SSL_CTX_new(SSLv23_server_method()); if( tlsState.ctx==0 ){ ERR_print_errors_fp(stderr); Malfunction(501, /* LOG: Error initializing the SSL Server */ "Error initializing the SSL server"); } if( !useSelfSigned && zCertFile && zCertFile[0] ){ if( SSL_CTX_use_certificate_chain_file(tlsState.ctx, zCertFile)!=1 ){ ERR_print_errors_fp(stderr); Malfunction(502, /* LOG: Error loading CERT file */ "Error loading CERT file \"%s\"", zCertFile); } if( zKeyFile==0 ) zKeyFile = zCertFile; if( SSL_CTX_use_PrivateKey_file(tlsState.ctx, zKeyFile, SSL_FILETYPE_PEM)<=0 ){ ERR_print_errors_fp(stderr); Malfunction(503, /* LOG: Error loading private key file */ "Error loading PRIVATE KEY from file \"%s\"", zKeyFile); } }else if( useSelfSigned ){ if(sslctx_use_cert_from_mem(tlsState.ctx, sslSelfCert, -1) || sslctx_use_pkey_from_mem(tlsState.ctx, sslSelfPKey, -1) ){ Malfunction(504, /* LOG: Error loading self-signed cert */ "Error loading self-signed CERT"); } }else{ Malfunction(505,"No certificate TLS specified"); /* LOG: No cert */ } if( !SSL_CTX_check_private_key(tlsState.ctx) ){ Malfunction(506, /* LOG: private key does not match cert */ "PRIVATE KEY \"%s\" does not match CERT \"%s\"", zKeyFile, zCertFile); } SSL_CTX_set_mode(tlsState.ctx, SSL_MODE_AUTO_RETRY); tlsState.isInit = 2; }else{ assert( tlsState.isInit==2 ); } } #endif /*ENABLE_TLS*/ /* ** Check to see if basic authorization credentials are provided for ** the user according to the information in zAuthFile. Return true ** if authorized. Return false if not authorized. ** ** File format: ** ** * Blank lines and lines that begin with '#' are ignored ** * "http-redirect" forces a redirect to HTTPS if not there already ** * "https-only" disallows operation in HTTP ** * "user NAME LOGIN:PASSWORD" checks to see if LOGIN:PASSWORD ** authorization credentials are provided, and if so sets the ** REMOTE_USER to NAME. ** * "realm TEXT" sets the realm to TEXT. ** * "anyone" bypasses authentication and allows anyone to see the ** files. Useful in combination with "http-redirect" */ static int CheckBasicAuthorization(const char *zAuthFile){ FILE *in; char *zRealm = "unknown realm"; char *zLoginPswd; char *zName; char zLine[2000]; in = fopen(zAuthFile, "rb"); if( in==0 ){ NotFound(150); /* LOG: Cannot open -auth file */ return 0; } if( zAuthArg ) Decode64(zAuthArg); while( fgets(zLine, sizeof(zLine), in) ){ char *zFieldName; char *zVal; zFieldName = GetFirstElement(zLine,&zVal); if( zFieldName==0 || *zFieldName==0 ) continue; if( zFieldName[0]=='#' ) continue; RemoveNewline(zVal); if( strcmp(zFieldName, "realm")==0 ){ zRealm = StrDup(zVal); }else if( strcmp(zFieldName,"user")==0 ){ if( zAuthArg==0 ) continue; zName = GetFirstElement(zVal, &zVal); zLoginPswd = GetFirstElement(zVal, &zVal); if( zLoginPswd==0 ) continue; if( zAuthArg && strcmp(zAuthArg,zLoginPswd)==0 ){ zRemoteUser = StrDup(zName); fclose(in); return 1; } }else if( strcmp(zFieldName,"https-only")==0 ){ if( !useHttps ){ NotFound(160); /* LOG: http request on https-only page */ fclose(in); return 0; } }else if( strcmp(zFieldName,"http-redirect")==0 ){ if( !useHttps ){ zHttpScheme = "https"; Redirect(zScript, 301, 1, 170); /* LOG: -auth redirect */ fclose(in); return 0; } }else if( strcmp(zFieldName,"anyone")==0 ){ fclose(in); return 1; }else{ NotFound(180); /* LOG: malformed entry in -auth file */ fclose(in); return 0; } } fclose(in); NotAuthorized(zRealm); return 0; } /* ** Type for mapping file extensions to mimetypes and type-specific ** internal flags. */ typedef struct MimeTypeDef { const char *zSuffix; /* The file suffix */ unsigned char size; /* Length of the suffix */ unsigned char flags; /* See the MTF_xxx flags macros */ const char *zMimetype; /* The corresponding mimetype */ } MimeTypeDef; /* Flags for mimetype flags. These MUST match the values hard-coded in ** GetMimeType(). That function avoids the macros for space reasons. */ #define MTF_NOCGI 0x1 /* Never treat as CGI */ #define MTF_NOCHARSET 0x2 /* Elide charset=... from Content-Type */ /* ** Guess the mime-type of a document based on its name. */ const MimeTypeDef *GetMimeType(const char *zName, int nName){ const char *z; int i; int first, last; int len; char zSuffix[20]; /* A table of mimetypes based on file suffixes. ** Suffixes must be in sorted order so that we can do a binary ** search to find the mime-type */ static const MimeTypeDef aMime[] = { { "ai", 2, 0x00, "application/postscript" }, { "aif", 3, 0x00, "audio/x-aiff" }, { "aifc", 4, 0x00, "audio/x-aiff" }, { "aiff", 4, 0x00, "audio/x-aiff" }, { "arj", 3, 0x00, "application/x-arj-compressed" }, { "asc", 3, 0x00, "text/plain" }, { "asf", 3, 0x00, "video/x-ms-asf" }, { "asx", 3, 0x00, "video/x-ms-asx" }, { "au", 2, 0x00, "audio/ulaw" }, { "avi", 3, 0x00, "video/x-msvideo" }, { "bat", 3, 0x00, "application/x-msdos-program" }, { "bcpio", 5, 0x00, "application/x-bcpio" }, { "bin", 3, 0x00, "application/octet-stream" }, { "c", 1, 0x00, "text/plain" }, { "cc", 2, 0x00, "text/plain" }, { "ccad", 4, 0x00, "application/clariscad" }, { "cdf", 3, 0x00, "application/x-netcdf" }, { "class", 5, 0x00, "application/octet-stream" }, { "cod", 3, 0x00, "application/vnd.rim.cod" }, { "com", 3, 0x00, "application/x-msdos-program" }, { "cpio", 4, 0x00, "application/x-cpio" }, { "cpt", 3, 0x00, "application/mac-compactpro" }, { "csh", 3, 0x00, "application/x-csh" }, { "css", 3, 0x00, "text/css" }, { "dcr", 3, 0x00, "application/x-director" }, { "deb", 3, 0x00, "application/x-debian-package" }, { "dir", 3, 0x00, "application/x-director" }, { "dl", 2, 0x00, "video/dl" }, { "dms", 3, 0x00, "application/octet-stream" }, { "doc", 3, 0x00, "application/msword" }, { "drw", 3, 0x00, "application/drafting" }, { "dvi", 3, 0x00, "application/x-dvi" }, { "dwg", 3, 0x00, "application/acad" }, { "dxf", 3, 0x00, "application/dxf" }, { "dxr", 3, 0x00, "application/x-director" }, { "eps", 3, 0x00, "application/postscript" }, { "etx", 3, 0x00, "text/x-setext" }, { "exe", 3, 0x00, "application/octet-stream" }, { "ez", 2, 0x00, "application/andrew-inset" }, { "f", 1, 0x00, "text/plain" }, { "f90", 3, 0x00, "text/plain" }, { "fli", 3, 0x00, "video/fli" }, { "flv", 3, 0x00, "video/flv" }, { "gif", 3, 0x02, "image/gif" }, { "gl", 2, 0x00, "video/gl" }, { "gtar", 4, 0x00, "application/x-gtar" }, { "gz", 2, 0x00, "application/x-gzip" }, { "hdf", 3, 0x00, "application/x-hdf" }, { "hh", 2, 0x00, "text/plain" }, { "hqx", 3, 0x00, "application/mac-binhex40" }, { "h", 1, 0x00, "text/plain" }, { "htm", 3, 0x00, "text/html" }, { "html", 4, 0x00, "text/html" }, { "ice", 3, 0x00, "x-conference/x-cooltalk" }, { "ief", 3, 0x00, "image/ief" }, { "iges", 4, 0x00, "model/iges" }, { "igs", 3, 0x00, "model/iges" }, { "ips", 3, 0x00, "application/x-ipscript" }, { "ipx", 3, 0x00, "application/x-ipix" }, { "jad", 3, 0x00, "text/vnd.sun.j2me.app-descriptor" }, { "jar", 3, 0x00, "application/java-archive" }, { "jp2" , 3, 0x02, "image/jp2" }, { "jpe", 3, 0x02, "image/jpeg" }, { "jpeg", 4, 0x02, "image/jpeg" }, { "jpg", 3, 0x02, "image/jpeg" }, { "js", 2, 0x00, "text/javascript" }, /* application/javascript is commonly used for JS, but the ** HTML spec says text/javascript is correct: ** https://html.spec.whatwg.org/multipage/scripting.html ** #scriptingLanguages:javascript-mime-type */ { "json", 4, 0x00, "application/json" }, { "kar", 3, 0x00, "audio/midi" }, { "latex", 5, 0x00, "application/x-latex" }, { "lha", 3, 0x00, "application/octet-stream" }, { "lsp", 3, 0x00, "application/x-lisp" }, { "lzh", 3, 0x02, "application/octet-stream" }, { "m", 1, 0x00, "text/plain" }, { "m3u", 3, 0x00, "audio/x-mpegurl" }, { "man", 3, 0x00, "application/x-troff-man" }, { "md", 2, 0x00, "text/plain" }, { "me", 2, 0x00, "application/x-troff-me" }, { "mesh", 4, 0x00, "model/mesh" }, { "mid", 3, 0x00, "audio/midi" }, { "midi", 4, 0x02, "audio/midi" }, { "mif", 3, 0x00, "application/x-mif" }, { "mime", 4, 0x00, "www/mime" }, { "mjs", 3, 0x00, "text/javascript" /*ES6 module*/ }, { "movie", 5, 0x00, "video/x-sgi-movie" }, { "mov", 3, 0x02, "video/quicktime" }, { "mp2", 3, 0x02, "audio/mpeg" }, { "mp3", 3, 0x02, "audio/mpeg" }, { "mpeg", 4, 0x02, "video/mpeg" }, { "mpe", 3, 0x00, "video/mpeg" }, { "mpga", 4, 0x00, "audio/mpeg" }, { "mpg", 3, 0x02, "video/mpeg" }, { "ms", 2, 0x00, "application/x-troff-ms" }, { "msh", 3, 0x00, "model/mesh" }, { "nc", 2, 0x00, "application/x-netcdf" }, { "oda", 3, 0x00, "application/oda" }, { "ogg", 3, 0x00, "application/ogg" }, { "ogm", 3, 0x00, "application/ogg" }, { "pbm", 3, 0x00, "image/x-portable-bitmap" }, { "pdb", 3, 0x00, "chemical/x-pdb" }, { "pdf", 3, 0x00, "application/pdf" }, { "pgm", 3, 0x00, "image/x-portable-graymap" }, { "pgn", 3, 0x00, "application/x-chess-pgn" }, { "pgp", 3, 0x00, "application/pgp" }, { "pl", 2, 0x00, "application/x-perl" }, { "pm", 2, 0x00, "application/x-perl" }, { "png", 3, 0x02, "image/png" }, { "pnm", 3, 0x00, "image/x-portable-anymap" }, { "pot", 3, 0x00, "application/mspowerpoint" }, { "ppm", 3, 0x00, "image/x-portable-pixmap" }, { "pps", 3, 0x00, "application/mspowerpoint" }, { "ppt", 3, 0x00, "application/mspowerpoint" }, { "ppz", 3, 0x00, "application/mspowerpoint" }, { "pre", 3, 0x00, "application/x-freelance" }, { "prt", 3, 0x00, "application/pro_eng" }, { "ps", 2, 0x00, "application/postscript" }, { "qt", 2, 0x00, "video/quicktime" }, { "ra", 2, 0x00, "audio/x-realaudio" }, { "ram", 3, 0x00, "audio/x-pn-realaudio" }, { "rar", 3, 0x00, "application/x-rar-compressed" }, { "ras", 3, 0x00, "image/cmu-raster" }, { "rgb", 3, 0x00, "image/x-rgb" }, { "rm", 2, 0x00, "audio/x-pn-realaudio" }, { "roff", 4, 0x00, "application/x-troff" }, { "rpm", 3, 0x00, "audio/x-pn-realaudio-plugin" }, { "rtf", 3, 0x00, "text/rtf" }, { "rtx", 3, 0x00, "text/richtext" }, { "scm", 3, 0x00, "application/x-lotusscreencam" }, { "set", 3, 0x00, "application/set" }, { "sgml", 4, 0x00, "text/sgml" }, { "sgm", 3, 0x00, "text/sgml" }, { "sh", 2, 0x00, "application/x-sh" }, { "shar", 4, 0x00, "application/x-shar" }, { "silo", 4, 0x00, "model/mesh" }, { "sit", 3, 0x00, "application/x-stuffit" }, { "skd", 3, 0x00, "application/x-koan" }, { "skm", 3, 0x00, "application/x-koan" }, { "skp", 3, 0x00, "application/x-koan" }, { "skt", 3, 0x00, "application/x-koan" }, { "smi", 3, 0x00, "application/smil" }, { "smil", 4, 0x00, "application/smil" }, { "snd", 3, 0x00, "audio/basic" }, { "sol", 3, 0x00, "application/solids" }, { "spl", 3, 0x00, "application/x-futuresplash" }, { "sql", 3, 0x00, "application/sql" }, { "src", 3, 0x00, "application/x-wais-source" }, { "step", 4, 0x00, "application/STEP" }, { "stl", 3, 0x00, "application/SLA" }, { "stp", 3, 0x00, "application/STEP" }, { "sv4cpio", 7, 0x00, "application/x-sv4cpio" }, { "sv4crc", 6, 0x00, "application/x-sv4crc" }, { "svg", 3, 0x00, "image/svg+xml" }, { "swf", 3, 0x00, "application/x-shockwave-flash" }, { "t", 1, 0x00, "application/x-troff" }, { "tar", 3, 0x00, "application/x-tar" }, { "tcl", 3, 0x00, "application/x-tcl" }, { "tex", 3, 0x00, "application/x-tex" }, { "texi", 4, 0x00, "application/x-texinfo" }, { "texinfo", 7, 0x00, "application/x-texinfo" }, { "tgz", 3, 0x00, "application/x-tar-gz" }, { "tiff", 4, 0x00, "image/tiff" }, { "tif", 3, 0x00, "image/tiff" }, { "tr", 2, 0x00, "application/x-troff" }, { "tsi", 3, 0x00, "audio/TSP-audio" }, { "tsp", 3, 0x00, "application/dsptype" }, { "tsv", 3, 0x00, "text/tab-separated-values" }, { "txt", 3, 0x00, "text/plain" }, { "unv", 3, 0x00, "application/i-deas" }, { "ustar", 5, 0x00, "application/x-ustar" }, { "vcd", 3, 0x00, "application/x-cdlink" }, { "vda", 3, 0x00, "application/vda" }, { "viv", 3, 0x00, "video/vnd.vivo" }, { "vivo", 4, 0x00, "video/vnd.vivo" }, { "vrml", 4, 0x00, "model/vrml" }, { "vsix", 4, 0x00, "application/vsix" }, { "wasm", 4, 0x03, "application/wasm" }, { "wav", 3, 0x00, "audio/x-wav" }, { "wax", 3, 0x00, "audio/x-ms-wax" }, { "wiki", 4, 0x00, "application/x-fossil-wiki" }, { "wma", 3, 0x00, "audio/x-ms-wma" }, { "wmv", 3, 0x00, "video/x-ms-wmv" }, { "wmx", 3, 0x00, "video/x-ms-wmx" }, { "wrl", 3, 0x00, "model/vrml" }, { "wvx", 3, 0x00, "video/x-ms-wvx" }, { "xbm", 3, 0x00, "image/x-xbitmap" }, { "xhtml", 5, 0x00, "application/xhtml+xml" }, { "xlc", 3, 0x00, "application/vnd.ms-excel" }, { "xll", 3, 0x00, "application/vnd.ms-excel" }, { "xlm", 3, 0x00, "application/vnd.ms-excel" }, { "xls", 3, 0x00, "application/vnd.ms-excel" }, { "xlw", 3, 0x00, "application/vnd.ms-excel" }, { "xml", 3, 0x00, "text/xml" }, { "xpm", 3, 0x00, "image/x-xpixmap" }, { "xsl", 3, 0x00, "text/xml" }, { "xslt", 4, 0x00, "text/xml" }, { "xwd", 3, 0x00, "image/x-xwindowdump" }, { "xyz", 3, 0x00, "chemical/x-pdb" }, { "zip", 3, 0x00, "application/zip" }, }; for(i=nName-1; i>0 && zName[i]!='.'; i--){} z = &zName[i+1]; len = nName - i; if( len<(int)sizeof(zSuffix)-1 ){ strcpy(zSuffix, z); for(i=0; zSuffix[i]; i++) zSuffix[i] = tolower(zSuffix[i]); first = 0; last = sizeof(aMime)/sizeof(aMime[0]); while( first<=last ){ int c; i = (first+last)/2; c = strcmp(zSuffix, aMime[i].zSuffix); if( c==0 ) return &aMime[i]; if( c<0 ){ last = i-1; }else{ first = i+1; } } } return 0; } /* ** The following table contains 1 for all characters that are permitted in ** the part of the URL before the query parameters and fragment. ** ** Allowed characters: 0-9a-zA-Z,-./:_~ ** ** Disallowed characters include: !"#$%&'()*+;<=>?@[\]^`{|} */ static const char allowedInName[] = { /* x0 x1 x2 x3 x4 x5 x6 x7 x8 x9 xa xb xc xd xe xf */ /* 0x */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* 1x */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* 2x */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, /* 3x */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, /* 4x */ 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, /* 5x */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 1, /* 6x */ 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, /* 7x */ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 1, 0, /* 8x */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* 9x */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* Ax */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* Bx */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* Cx */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* Dx */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* Ex */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, /* Fx */ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, }; /* ** Remove all disallowed characters in the input string z[]. Convert any ** disallowed characters into "_". ** ** Note that the three character sequence "%XX" where X is any byte is ** converted into a single "_" character. ** ** Return the number of characters converted. An "%XX" -> "_" conversion ** counts as a single character. */ static int sanitizeString(char *z){ int nChange = 0; while( *z ){ if( !allowedInName[*(unsigned char*)z] ){ char cNew = '_'; if( *z=='%' && z[1]!=0 && z[2]!=0 ){ int i; if( z[1]=='2' ){ if( z[2]=='e' || z[2]=='E' ) cNew = '.'; if( z[2]=='f' || z[2]=='F' ) cNew = '/'; } for(i=3; (z[i-2] = z[i])!=0; i++){} } *z = cNew; nChange++; } z++; } return nChange; } /* ** Count the number of "/" characters in a string. */ static int countSlashes(const char *z){ int n = 0; while( *z ) if( *(z++)=='/' ) n++; return n; } #ifdef ENABLE_TLS /* ** Create a new server-side codec. The argument is the socket's file ** descriptor from which the codec reads and writes. The returned ** memory must eventually be passed to tls_close_server(). */ static void *tls_new_server(int iSocket){ TlsServerConn *pServer = malloc(sizeof(*pServer)); BIO *b = pServer ? BIO_new_socket(iSocket, 0) : NULL; if( NULL==b ){ Malfunction(507,"Cannot allocate TlsServerConn."); /* LOG: TlsServerConn */ } assert(NULL!=tlsState.ctx); pServer->ssl = SSL_new(tlsState.ctx); pServer->bio = b; pServer->iSocket = iSocket; SSL_set_bio(pServer->ssl, b, b); SSL_accept(pServer->ssl); return (void*)pServer; } /* ** Close a server-side code previously returned from tls_new_server(). */ static void tls_close_server(void *pServerArg){ TlsServerConn *pServer = (TlsServerConn*)pServerArg; SSL_free(pServer->ssl); memset(pServer, 0, sizeof(TlsServerConn)); free(pServer); } static void tls_atexit(void){ /* ** Shutting down TLS can lead to spurious hung processes on some ** platforms/builds. See the long discussion on this at: ** https://sqlite.org/althttpd/forumpost/4dc31619341ce947 */ if( inSignalHandler==0 && tlsState.sslCon!=0 ){ tls_close_server(tlsState.sslCon); tlsState.sslCon = NULL; } } #endif /* ENABLE_TLS */ /* ** Works like fgets(): ** ** Read a single line of input into s[]. Ensure that s[] is zero-terminated. ** The s[] buffer is size bytes and so at most size-1 bytes will be read. ** ** Return a pointer to s[] on success, or NULL at end-of-input. ** ** If in TLS mode, the final argument is ignored and the TLS ** connection is read instead. */ static char *althttpd_fgets(char *s, int size, FILE *in){ if( useHttps!=2 ){ return fgets(s, size, in); } #ifdef ENABLE_TLS assert(NULL!=tlsState.sslCon); return tls_gets(tlsState.sslCon, s, size); #else Malfunction(508,"SSL not available"); /* LOG: SSL not available */ return NULL; #endif } /* ** Works like fread() but may, depending on connection state, use ** libssl to read the data (in which case the final argument is ** ignored). The target buffer must be at least (sz*nmemb) bytes. */ static size_t althttpd_fread(void *tgt, size_t sz, size_t nmemb, FILE *in){ if( useHttps!=2 ){ return fread(tgt, sz, nmemb, in); } #ifdef ENABLE_TLS assert(NULL!=tlsState.sslCon); return tls_read_server(tlsState.sslCon, tgt, sz*nmemb); #else Malfunction(509,"SSL not available"); /* LOG: SSL not available */ return 0; #endif } /* ** Works like fwrite() but may, depending on connection state, write to ** the active TLS connection (in which case the final argument is ** ignored). ** */ static size_t althttpd_fwrite( void const *src, /* Buffer containing content to write */ size_t sz, /* Size of each element in the buffer */ size_t nmemb, /* Number of elements to write */ FILE *out /* Write on this stream */ ){ if( useHttps!=2 ){ return fwrite(src, sz, nmemb, out); } #ifdef ENABLE_TLS assert(NULL!=tlsState.sslCon); return tls_write_server(tlsState.sslCon, src, sz*nmemb); #else Malfunction(510,"SSL not available"); /* LOG: SSL not available */ return 0; #endif } /* ** In non-builtin-TLS mode, fflush()es the given FILE handle, else ** this is a no-op. */ static void althttpd_fflush(FILE *f){ if( useHttps!=2 ){ fflush(f); } } /* ** Transfer nXfer bytes from in to out, after first discarding ** nSkip bytes from in. Increment the nOut global variable ** according to the number of bytes transferred. ** ** When running in built-in TLS mode the 2nd argument is ignored and ** output is instead sent via the TLS connection. */ static void xferBytes(FILE *in, FILE *out, int nXfer, int nSkip){ size_t n; size_t got; char zBuf[16384]; while( nSkip>0 ){ n = nSkip; if( n>sizeof(zBuf) ) n = sizeof(zBuf); got = fread(zBuf, 1, n, in); if( got==0 ) break; nSkip -= got; } while( nXfer>0 ){ n = nXfer; if( n>sizeof(zBuf) ) n = sizeof(zBuf); got = fread(zBuf, 1, n, in); if( got==0 ) break; althttpd_fwrite(zBuf, got, 1, out); nOut += got; nXfer -= got; } } /* ** Send the text of the file named by zFile as the reply. Use the ** suffix on the end of the zFile name to determine the mimetype. ** ** Return 1 to omit making a log entry for the reply. */ static int SendFile( const char *zFile, /* Name of the file to send */ int lenFile, /* Length of the zFile name in bytes */ struct stat *pStat /* Result of a stat() against zFile */ ){ const char *zContentType; time_t t; FILE *in; size_t szFilename; char zETag[100]; const MimeTypeDef *pMimeType; int bAddCharset = 1; const char *zEncoding = 0; struct stat statbuf; char zGzFilename[2000]; pMimeType = GetMimeType(zFile, lenFile); zContentType = pMimeType ? pMimeType->zMimetype : "application/octet-stream"; if( pMimeType && (MTF_NOCHARSET & pMimeType->flags) ){ bAddCharset = 0; } if( zPostData ){ free(zPostData); zPostData = 0; } sprintf(zETag, "m%xs%x", (int)pStat->st_mtime, (int)pStat->st_size); if( CompareEtags(zIfNoneMatch,zETag)==0 || (zIfModifiedSince!=0 && (t = ParseRfc822Date(zIfModifiedSince))>0 && t>=pStat->st_mtime) ){ StartResponse("304 Not Modified"); nOut += DateTag("Last-Modified", pStat->st_mtime); nOut += althttpd_printf("Cache-Control: max-age=%d" CRLF, mxAge); nOut += althttpd_printf("ETag: \"%s\"" CRLF CRLF, zETag); fflush(stdout); MakeLogEntry(0, 470); /* LOG: ETag Cache Hit */ return 1; } if( rangeEnd<=0 && zAcceptEncoding && strstr(zAcceptEncoding,"gzip")!=0 ){ szFilename = strlen(zFile); if( szFilename < sizeof(zGzFilename)-10 ){ memcpy(zGzFilename, zFile, szFilename); memcpy(zGzFilename + szFilename, ".gz", 4); if( access(zGzFilename, R_OK)==0 ){ memset(&statbuf, 0, sizeof(statbuf)); if( stat(zGzFilename, &statbuf)==0 ){ zEncoding = "gzip"; zFile = zGzFilename; pStat = &statbuf; } } } } in = fopen(zFile,"rb"); if( in==0 ) NotFound(480); /* LOG: fopen() failed for static content */ if( rangeEnd>0 && rangeStart<pStat->st_size ){ StartResponse("206 Partial Content"); if( rangeEnd>=pStat->st_size ){ rangeEnd = pStat->st_size-1; } nOut += althttpd_printf("Content-Range: bytes %d-%d/%d" CRLF, rangeStart, rangeEnd, (int)pStat->st_size); pStat->st_size = rangeEnd + 1 - rangeStart; }else{ StartResponse("200 OK"); rangeStart = 0; } nOut += DateTag("Last-Modified", pStat->st_mtime); if( enableSAB ){ /* The following two HTTP reply headers are required if javascript ** is to make use of SharedArrayBuffer */ nOut += althttpd_printf("Cross-Origin-Opener-Policy: same-origin" CRLF); nOut += althttpd_printf("Cross-Origin-Embedder-Policy: require-corp" CRLF); } nOut += althttpd_printf("Cache-Control: max-age=%d" CRLF, mxAge); nOut += althttpd_printf("ETag: \"%s\"" CRLF, zETag); nOut += althttpd_printf("Content-type: %s%s" CRLF,zContentType, bAddCharset ? "; charset=utf-8" : ""); if( zEncoding ){ nOut += althttpd_printf("Content-encoding: %s" CRLF, zEncoding); } nOut += althttpd_printf("Content-length: %d" CRLF CRLF,(int)pStat->st_size); fflush(stdout); if( strcmp(zMethod,"HEAD")==0 ){ MakeLogEntry(0, 2); /* LOG: Normal HEAD reply */ fclose(in); fflush(stdout); return 1; } #ifdef linux if( 2!=useHttps ){ off_t offset = rangeStart; nOut += sendfile(fileno(stdout), fileno(in), &offset, pStat->st_size); }else #endif { xferBytes(in, stdout, (int)pStat->st_size, rangeStart); } fclose(in); return 0; } /* ** Streams all contents from in to out. If in TLS mode, the ** output stream is ignored and the output instead goes ** to the TLS channel. */ static void stream_file(FILE * const in, FILE * const out){ enum { STREAMBUF_SIZE = 1024 * 4 }; char streamBuf[STREAMBUF_SIZE]; size_t n; while( (n = fread(streamBuf, 1,sizeof(STREAMBUF_SIZE),in)) ){ althttpd_fwrite(streamBuf, 1, n, out); } } /* ** A CGI or SCGI script has run and is sending its reply back across ** the channel "in". Process this reply into an appropriate HTTP reply. ** Close the "in" channel when done. ** ** If isNPH is true, the input is assumed to be from a ** non-parsed-header CGI and is passed on as-is to stdout or the TLS ** layer, depending on the connection state. */ static void CgiHandleReply(FILE *in, int isNPH){ int seenContentLength = 0; /* True if Content-length: header seen */ int contentLength = 0; /* The content length */ size_t nRes = 0; /* Bytes of payload */ size_t nMalloc = 0; /* Bytes of space allocated to aRes */ char *aRes = 0; /* Payload */ int c; /* Next character from in */ char *z; /* Pointer to something inside of zLine */ int iStatus = 0; /* Reply status code */ char zLine[1000]; /* One line of reply from the CGI script */ /* Set a 1-hour timeout, so that we can implement Hanging-GET or ** long-poll style CGIs. The RLIMIT_CPU will serve as a safety ** to help prevent a run-away CGI */ SetTimeout(60*60, 800); /* LOG: CGI Handler timeout */ if( isNPH ){ /* ** Non-parsed-header output: simply pipe it out as-is. We ** need to go through this routine, instead of simply exec()'ing, ** in order to go through the TLS output channel. */ stream_file(in, stdout); fclose(in); return; } while( fgets(zLine,sizeof(zLine),in) && !isspace((unsigned char)zLine[0]) ){ if( strncasecmp(zLine,"Location:",9)==0 ){ StartResponse("302 Redirect"); RemoveNewline(zLine); z = &zLine[10]; while( isspace(*(unsigned char*)z) ){ z++; } nOut += althttpd_printf("Location: %s" CRLF,z); rangeEnd = 0; }else if( strncasecmp(zLine,"Status:",7)==0 ){ int i; for(i=7; isspace((unsigned char)zLine[i]); i++){} strncpy(zReplyStatus, &zLine[i], 3); zReplyStatus[3] = 0; iStatus = atoi(zReplyStatus); if( rangeEnd==0 || (iStatus!=200 && iStatus!=206) ){ if( iStatus==418 ){ /* If a CGI returns a status code of 418 ("I'm a teapot", rfc2324) ** that is a signal from the CGI to althttpd that the request was ** abuse - for example an attempted SQL injection attack or ** similar. */ BlockIPAddress(); ServiceUnavailable(903); /* LOG: CGI reports abuse */ } nOut += althttpd_printf("%s %s", zProtocol, &zLine[i]); rangeEnd = 0; statusSent = 1; } }else if( strncasecmp(zLine, "Content-length:", 15)==0 ){ seenContentLength = 1; contentLength = atoi(zLine+15); }else if( strncasecmp(zLine, "X-Robot:", 8)==0 ){ isRobot = (atoi(&zLine[8])!=0)+1; }else{ size_t nLine = strlen(zLine); if( nRes+nLine >= nMalloc ){ nMalloc += nMalloc + nLine*2; aRes = realloc(aRes, nMalloc+1); if( aRes==0 ){ Malfunction(600, "Out of memory: %d bytes", nMalloc); /* LOG: OOM */ } } memcpy(aRes+nRes, zLine, nLine); nRes += nLine; } } /* Copy everything else thru without change or analysis. */ if( rangeEnd>0 && seenContentLength && rangeStart<contentLength ){ StartResponse("206 Partial Content"); if( rangeEnd>=contentLength ){ rangeEnd = contentLength-1; } nOut += althttpd_printf("Content-Range: bytes %d-%d/%d" CRLF, rangeStart, rangeEnd, contentLength); contentLength = rangeEnd + 1 - rangeStart; }else{ StartResponse("200 OK"); } if( nRes>0 ){ aRes[nRes] = 0; althttpd_fwrite(aRes, nRes, 1, stdout); nOut += nRes; nRes = 0; } if( iStatus==304 ){ nOut += althttpd_printf(CRLF CRLF); }else if( seenContentLength ){ nOut += althttpd_printf("Content-length: %d" CRLF CRLF, contentLength); xferBytes(in, stdout, contentLength, rangeStart); }else{ while( (c = getc(in))!=EOF ){ if( nRes>=nMalloc ){ nMalloc = nMalloc*2 + 1000; aRes = realloc(aRes, nMalloc+1); if( aRes==0 ){ Malfunction(610, "Out of memory: %d bytes", nMalloc); /* LOG: OOM */ } } aRes[nRes++] = c; } if( nRes ){ aRes[nRes] = 0; nOut += althttpd_printf("Content-length: %d" CRLF CRLF, (int)nRes); nOut += althttpd_fwrite(aRes, nRes, 1, stdout); }else{ nOut += althttpd_printf("Content-length: 0" CRLF CRLF); } } free(aRes); fclose(in); } /* ** Send an SCGI request to a host identified by zFile and process the ** reply. */ static void SendScgiRequest(const char *zFile, const char *zScript){ FILE *in; FILE *s; char *z; char *zHost; char *zPort = 0; char *zRelight = 0; char *zFallback = 0; int rc; int iSocket = -1; struct addrinfo hints; struct addrinfo *ai = 0; struct addrinfo *p; char *zHdr; size_t nHdr = 0; size_t nHdrAlloc; int i; char zLine[1000]; char zExtra[1000]; in = fopen(zFile, "rb"); if( in==0 ){ Malfunction(700, "cannot open \"%s\"\n", zFile); /* LOG: cannot open file */ } if( fgets(zLine, sizeof(zLine)-1, in)==0 ){ Malfunction(701, "cannot read \"%s\"\n", zFile); /* LOG: cannot read file */ } if( strncmp(zLine,"SCGI ",5)!=0 ){ Malfunction(702, /* LOG: bad SCGI spec */ "misformatted SCGI spec \"%s\"\n", zFile); } z = zLine+5; zHost = GetFirstElement(z,&z); zPort = GetFirstElement(z,0); if( zHost==0 || zHost[0]==0 || zPort==0 || zPort[0]==0 ){ Malfunction(703, /* LOG: bad SCGI spec (2) */ "misformatted SCGI spec \"%s\"\n", zFile); } while( fgets(zExtra, sizeof(zExtra)-1, in) ){ char *zCmd = GetFirstElement(zExtra,&z); if( zCmd==0 ) continue; if( zCmd[0]=='#' ) continue; RemoveNewline(z); if( strcmp(zCmd, "relight:")==0 ){ free(zRelight); zRelight = StrDup(z); continue; } if( strcmp(zCmd, "fallback:")==0 ){ free(zFallback); zFallback = StrDup(z); continue; } Malfunction(704, /* LOG: Unrecognized line in SCGI spec */ "unrecognized line in SCGI spec: \"%s %s\"\n", zCmd, z ? z : ""); } fclose(in); memset(&hints, 0, sizeof(struct addrinfo)); hints.ai_family = AF_UNSPEC; hints.ai_socktype = SOCK_STREAM; hints.ai_protocol = IPPROTO_TCP; rc = getaddrinfo(zHost,zPort,&hints,&ai); if( rc ){ Malfunction(705, /* LOG: Cannot resolve SCGI server name */ "cannot resolve SCGI server name %s:%s\n%s\n", zHost, zPort, gai_strerror(rc)); } while(1){ /* Exit via break */ for(p=ai; p; p=p->ai_next){ iSocket = socket(p->ai_family, p->ai_socktype, p->ai_protocol); if( iSocket<0 ) continue; if( connect(iSocket,p->ai_addr,p->ai_addrlen)>=0 ) break; close(iSocket); } if( iSocket<0 || (s = fdopen(iSocket,"r+"))==0 ){ if( iSocket>=0 ) close(iSocket); if( zRelight ){ rc = system(zRelight); if( rc ){ Malfunction(721, /* LOG: SCGI relight failed */ "Relight failed with %d: \"%s\"\n", rc, zRelight); } free(zRelight); zRelight = 0; sleep(1); continue; } if( zFallback ){ struct stat statbuf; int rc; memset(&statbuf, 0, sizeof(statbuf)); if( chdir(zDir) ){ char zBuf[1000]; Malfunction(720, /* LOG: chdir() failed */ "cannot chdir to [%s] from [%s]", zDir, getcwd(zBuf,999)); } rc = stat(zFallback, &statbuf); if( rc==0 && S_ISREG(statbuf.st_mode) && access(zFallback,R_OK)==0 ){ closeConnection = 1; rc = SendFile(zFallback, (int)strlen(zFallback), &statbuf); free(zFallback); althttpd_exit(0); }else{ Malfunction(706, /* LOG: bad SCGI fallback */ "bad fallback file: \"%s\"\n", zFallback); } } Malfunction(707, /* LOG: Cannot open socket to SCGI */ "cannot open socket to SCGI server %s\n", zScript); } break; } nHdrAlloc = 0; zHdr = 0; if( zContentLength==0 ) zContentLength = "0"; ComputeRequestUri(); zScgi = "1"; for(i=0; i<(int)(sizeof(cgienv)/sizeof(cgienv[0])); i++){ int n1, n2; if( cgienv[i].pzEnvValue[0]==0 ) continue; n1 = (int)strlen(cgienv[i].zEnvName); n2 = (int)strlen(*cgienv[i].pzEnvValue); if( n1+n2+2+nHdr >= nHdrAlloc ){ nHdrAlloc = nHdr + n1 + n2 + 1000; zHdr = realloc(zHdr, nHdrAlloc); if( zHdr==0 ){ Malfunction(708, "out of memory"); /* LOG: OOM */ } } memcpy(zHdr+nHdr, cgienv[i].zEnvName, n1); nHdr += n1; zHdr[nHdr++] = 0; memcpy(zHdr+nHdr, *cgienv[i].pzEnvValue, n2); nHdr += n2; zHdr[nHdr++] = 0; } zScgi = 0; fprintf(s,"%d:",(int)nHdr); fwrite(zHdr, 1, nHdr, s); fprintf(s,","); free(zHdr); if( nPostData>0 ){ size_t wrote = 0; while( wrote<(size_t)nPostData ){ size_t n = fwrite(zPostData+wrote, 1, nPostData-wrote, s); if( n<=0 ) break; wrote += n; } free(zPostData); zPostData = 0; nPostData = 0; } fflush(s); CgiHandleReply(s, 0); } /* ** If running in builtin TLS mode, initializes the SSL I/O ** state and returns 1, else does nothing and returns 0. */ static int tls_init_conn(int iSocket){ #ifdef ENABLE_TLS if( 2==useHttps ){ /*assert(NULL==tlsState.sslCon);*/ if( NULL==tlsState.sslCon ){ tlsState.sslCon = (TlsServerConn *)tls_new_server(iSocket); if( NULL==tlsState.sslCon ){ Malfunction(512, /* LOG: TLS context */ "Could not instantiate TLS context."); } atexit(tls_atexit); } return 1; } #else if( 0==iSocket ){/*unused arg*/} #endif return 0; } static void tls_close_conn(void){ #ifdef ENABLE_TLS if( tlsState.sslCon ){ tls_close_server(tlsState.sslCon); tlsState.sslCon = NULL; } #endif } /* ** Check to see if zRemoteAddr is disallowed. Return true if it is ** disallowed and false if not. ** ** zRemoteAddr is disallowed if: ** ** * The zIPShunDir variable is not NULL ** ** * zIPShunDir is the name of a directory ** ** * There is a file in zIPShunDir whose name is exactly zRemoteAddr ** and that is N bytes in size. ** ** * N==0 or the mtime of the file is less than N*BANISH_TIME seconds ** ago. ** ** If N>0 and the mtime is greater than N*5*BANISH_TIME seconds ** (25 minutes per byte, by default) old, then the file is deleted. ** ** The size of the file determines how long the embargo is suppose to ** last. A zero-byte file embargos forever. Otherwise, the embargo ** is for BANISH_TIME bytes for each byte in the file. */ static int DisallowedRemoteAddr(void){ char zFullname[1000]; size_t nIPShunDir; size_t nRemoteAddr; int rc; struct stat statbuf; time_t now; if( zIPShunDir==0 ) return 0; if( zRemoteAddr==0 ) return 0; if( zIPShunDir[0]!='/' ){ Malfunction(910, /* LOG: argument to --ipshun should be absolute path */ "The --ipshun directory should have an absolute path"); } nIPShunDir = strlen(zIPShunDir); while( nIPShunDir>0 && zIPShunDir[nIPShunDir-1]=='/' ) nIPShunDir--; nRemoteAddr = strlen(zRemoteAddr); if( nIPShunDir + nRemoteAddr + 2 >= sizeof(zFullname) ){ Malfunction(912, /* LOG: RemoteAddr filename too big */ "RemoteAddr filename too big"); } if( zRemoteAddr[0]==0 || zRemoteAddr[0]=='.' || strchr(zRemoteAddr,'/')!=0 ){ Malfunction(913, /* LOG: RemoteAddr contains suspicious characters */ "RemoteAddr contains suspicious characters"); } memcpy(zFullname, zIPShunDir, nIPShunDir); zFullname[nIPShunDir] = '/'; memcpy(zFullname+nIPShunDir+1, zRemoteAddr, nRemoteAddr+1); memset(&statbuf, 0, sizeof(statbuf)); rc = stat(zFullname, &statbuf); if( rc ) return 0; /* No such file, hence no restrictions */ if( statbuf.st_size==0 ) return 1; /* Permanently banned */ time(&now); if( statbuf.st_size*BANISH_TIME + statbuf.st_mtime >= now ){ return 1; /* Currently under a ban */ } if( statbuf.st_size*5*BANISH_TIME + statbuf.st_mtime < now ){ unlink(zFullname); } return 0; } /* ** This routine processes a single HTTP request on standard input and ** sends the reply to standard output. If the argument is 1 it means ** that we are should close the socket without processing additional ** HTTP requests after the current request finishes. 0 means we are ** allowed to keep the connection open and to process additional requests. ** This routine may choose to close the connection even if the argument ** is 0. ** ** If the connection should be closed, this routine calls exit() and ** thus never returns. If this routine does return it means that another ** HTTP request may appear on the wire. ** ** socketId must be 0 (if running via xinetd/etc) or the socket ID ** accept()ed by http_server(). It is only used for built-in TLS ** mode. */ void ProcessOneRequest(int forceClose, int socketId){ int i, j, j0; char *z; /* Used to parse up a string */ struct stat statbuf; /* Information about the file to be retrieved */ FILE *in; /* For reading from CGI scripts */ #ifdef LOG_HEADER FILE *hdrLog = 0; /* Log file for complete header content */ #endif char zLine[10000]; /* A buffer for input lines or forming names */ const MimeTypeDef *pMimeType = 0; /* URI's mimetype */ size_t sz = 0; struct tm vTm; /* Timestamp for zExpLogFile */ if( zLogFile ){ assert(beginTime.tv_sec > 0); gmtime_r(&beginTime.tv_sec, &vTm); sz = strftime(zExpLogFile, sizeof(zExpLogFile), zLogFile, &vTm); } if( sz==0 || sz>=sizeof(zExpLogFile)-2 ){ /* Invalid zExpLogFile name */ zExpLogFile[0] = 0; } /* Must see a header within 10 seconds for the first request. ** Allow up to 5 more minutes for the follow-on requests */ if( useTimeout ){ if( nRequest>0 ){ SetTimeout(60*5, 801); /* LOG: Timeout request header (1+) */ }else{ SetTimeout(10, 802); /* LOG: Timeout request header (0) */ } } /* Change directories to the root of the HTTP filesystem */ if( chdir(zRoot[0] ? zRoot : "/")!=0 ){ char zBuf[1000]; Malfunction(190, /* LOG: chdir() failed */ "cannot chdir to [%s] from [%s]", zRoot, getcwd(zBuf,sizeof(zBuf)-1)); } nRequest++; tls_init_conn(socketId); /* Get the first line of the request and parse out the ** method, the script and the protocol. */ omitLog = 1; if( althttpd_fgets(zLine,sizeof(zLine),stdin)==0 ){ althttpd_exit(0); } clock_gettime(ALTHTTPD_CLOCK_ID, &tsBeginTime); gettimeofday(&beginTime, 0); omitLog = 0; nIn += (i = (int)strlen(zLine)); /* Parse the first line of the HTTP request */ zMethod = StrDup(GetFirstElement(zLine,&z)); zRealScript = zScript = StrDup(GetFirstElement(z,&z)); zProtocol = StrDup(GetFirstElement(z,&z)); if( zProtocol==0 || strncmp(zProtocol,"HTTP/",5)!=0 || strlen(zProtocol)!=8 || i>9990 ){ zProtocol = 0; if( i<=9990 ){ StartResponse("400 Bad Request"); nOut += althttpd_printf( "Content-type: text/plain; charset=utf-8" CRLF CRLF "This server does not understand the requested protocol\n" ); MakeLogEntry(0, 200); /* LOG: bad protocol in HTTP header */ }else{ StartResponse("414 URI Too Long"); nOut += althttpd_printf( "Content-type: text/plain; charset=utf-8" CRLF CRLF "URI too long\n" ); MakeLogEntry(0, 201); /* LOG: bad protocol in HTTP header */ } althttpd_exit(0); } if( zScript[0]!='/' ) NotFound(210); /* LOG: Empty request URI */ while( zScript[1]=='/' ){ zScript++; zRealScript++; } if( forceClose ){ closeConnection = 1; }else if( zProtocol[5]<'1' || zProtocol[7]<'1' ){ closeConnection = 1; } /* This very simple server only understands the GET, POST ** and HEAD methods */ if( strcmp(zMethod,"GET")!=0 && strcmp(zMethod,"POST")!=0 && strcmp(zMethod,"HEAD")!=0 ){ StartResponse("501 Not Implemented"); nOut += althttpd_printf( "Content-type: text/plain; charset=utf-8" CRLF CRLF "The %s method is not implemented on this server.\n", zMethod); MakeLogEntry(0, 220); /* LOG: Unknown request method */ althttpd_exit(0); } /* If there is a log file (if zLogFile!=0) and if the pathname in ** the first line of the http request contains the magic string ** "FullHeaderLog" then write the complete header text into the ** file %s(zLogFile)-hdr. Overwrite the file. This is for protocol ** debugging only and is only enabled if althttpd is compiled with ** the -DLOG_HEADER=1 option. */ #ifdef LOG_HEADER if( zLogFile && strstr(zScript,"FullHeaderLog")!=0 && strlen(zLogFile)<sizeof(zLine)-50 ){ sprintf(zLine, "%s-hdr", zLogFile); hdrLog = fopen(zLine, "wb"); } #endif /* Get all the optional fields that follow the first line. */ zCookie = 0; zAuthType = 0; zRemoteUser = 0; zReferer = 0; zIfNoneMatch = 0; zIfModifiedSince = 0; zContentLength = 0; rangeEnd = 0; while( althttpd_fgets(zLine,sizeof(zLine),stdin) ){ char *zFieldName; char *zVal; #ifdef LOG_HEADER if( hdrLog ) fprintf(hdrLog, "%s", zLine); #endif nIn += strlen(zLine); zFieldName = GetFirstElement(zLine,&zVal); if( zFieldName==0 || *zFieldName==0 ) break; RemoveNewline(zVal); if( strcasecmp(zFieldName,"User-Agent:")==0 ){ zAgent = StrDup(zVal); }else if( strcasecmp(zFieldName,"Accept:")==0 ){ zAccept = StrDup(zVal); }else if( strcasecmp(zFieldName,"Accept-Encoding:")==0 ){ zAcceptEncoding = StrDup(zVal); }else if( strcasecmp(zFieldName,"Content-length:")==0 ){ zContentLength = StrDup(zVal); }else if( strcasecmp(zFieldName,"Content-type:")==0 ){ zContentType = StrDup(zVal); }else if( strcasecmp(zFieldName,"Referer:")==0 ){ zReferer = StrDup(zVal); if( strstr(zVal, "devids.net/")!=0 ){ zReferer = "devids.net.smut"; Forbidden(230); /* LOG: Referrer is devids.net */ } }else if( strcasecmp(zFieldName,"Cookie:")==0 ){ zCookie = StrAppend(zCookie,"; ",zVal); }else if( strcasecmp(zFieldName,"Connection:")==0 ){ if( strcasecmp(zVal,"close")==0 ){ closeConnection = 1; }else if( !forceClose && strcasecmp(zVal, "keep-alive")==0 ){ closeConnection = 0; } }else if( strcasecmp(zFieldName,"Host:")==0 ){ int inSquare = 0; char c; if( sanitizeString(zVal) ){ Forbidden(240); /* LOG: Illegal content in HOST: parameter */ } zHttpHost = StrDup(zVal); zServerPort = zServerName = StrDup(zHttpHost); while( zServerPort && (c = *zServerPort)!=0 && (c!=':' || inSquare) ){ if( c=='[' ) inSquare = 1; if( c==']' ) inSquare = 0; zServerPort++; } if( zServerPort && *zServerPort ){ *zServerPort = 0; zServerPort++; } if( zRealPort ){ zServerPort = StrDup(zRealPort); } }else if( strcasecmp(zFieldName,"Authorization:")==0 ){ zAuthType = GetFirstElement(StrDup(zVal), &zAuthArg); }else if( strcasecmp(zFieldName,"If-None-Match:")==0 ){ zIfNoneMatch = StrDup(zVal); }else if( strcasecmp(zFieldName,"If-Modified-Since:")==0 ){ zIfModifiedSince = StrDup(zVal); }else if( strcasecmp(zFieldName,"Range:")==0 && strcmp(zMethod,"GET")==0 ){ int x1 = 0, x2 = 0; int n = sscanf(zVal, "bytes=%d-%d", &x1, &x2); if( n==2 && x1>=0 && x2>=x1 ){ rangeStart = x1; rangeEnd = x2; }else if( n==1 && x1>0 ){ rangeStart = x1; rangeEnd = 0x7fffffff; } } } #ifdef LOG_HEADER if( hdrLog ) fclose(hdrLog); #endif /* Disallow requests from certain clients */ if( zAgent ){ const char *azDisallow[] = { "Amazonbot", "Windows 9", "Download Master", "Ezooms/", "DotBot", "HTTrace", "AhrefsBot", "MicroMessenger", "OPPO A33 Build", "SemrushBot", "MegaIndex.ru", "MJ12bot", "Chrome/0.A.B.C", "Neevabot/", "BLEXBot/", "Synapse", }; size_t ii; for(ii=0; ii<sizeof(azDisallow)/sizeof(azDisallow[0]); ii++){ if( strstr(zAgent,azDisallow[ii])!=0 ){ Forbidden(250); /* LOG: Disallowed user agent */ } } #if 0 /* Spider attack from 2019-04-24 */ if( strcmp(zAgent, "Mozilla/5.0 (Windows NT 10.0; WOW64) AppleWebKit/537.36 " "(KHTML, like Gecko) Chrome/50.0.2661.102 Safari/537.36")==0 ){ Forbidden(251); /* LOG: Disallowed user agent (20190424) */ } #endif } #if 0 if( zReferer ){ static const char *azDisallow[] = { "skidrowcrack.com", "hoshiyuugi.tistory.com", "skidrowgames.net", }; int i; for(i=0; i<sizeof(azDisallow)/sizeof(azDisallow[0]); i++){ if( strstr(zReferer, azDisallow[i])!=0 ){ NotFound(260); /* LOG: Disallowed referrer */ } } } #endif /* Make an extra effort to get a valid server name and port number. ** Only Netscape provides this information. If the browser is ** Internet Explorer, then we have to find out the information for ** ourselves. */ if( zServerName==0 ){ zServerName = SafeMalloc( 100 ); gethostname(zServerName,100); } if( zServerPort==0 || *zServerPort==0 ){ zServerPort = DEFAULT_PORT; } /* Remove the query string from the end of the requested file. */ for(z=zScript; *z && *z!='?'; z++){} if( *z=='?' ){ zQuerySuffix = StrDup(z); *z = 0; #if 0 if( (zReferer==0 || zReferer[0]==0) && strncmp(zQuerySuffix+1, "w=%2", 4)==0 ){ NotFound(261); /* LOG: Spider attack */ } #endif #if 0 /* Chinese spider attack against the SQLite Forum. 2024-07-25 */ if( (zReferer==0 || zReferer[0]==0) && strstr(zScript,"forum/timeline")!=0 && strstr(&zQuerySuffix[1],"y=a")!=0 && ( strstr(&zQuerySuffix[1],"a=20")!=0 || strstr(&zQuerySuffix[1],"b=20")!=0 || strstr(&zQuerySuffix[1],"&c=")!=0 || (zQuerySuffix[1]=='c' && zQuerySuffix[2]=='=') ) ){ Forbidden(262); /* LOG: Chinese forum timeline spider */ } #endif }else{ zQuerySuffix = ""; } zQueryString = *zQuerySuffix ? &zQuerySuffix[1] : zQuerySuffix; /* Create either a memory buffer to hold the POST query data */ if( zMethod[0]=='P' && zContentLength!=0 ){ size_t len = atoi(zContentLength); if( len>MAX_CONTENT_LENGTH ){ StartResponse("500 Request too large"); nOut += althttpd_printf( "Content-type: text/plain; charset=utf-8" CRLF CRLF "Too much POST data\n" ); MakeLogEntry(0, 270); /* LOG: Request too large */ althttpd_exit(0); } rangeEnd = 0; zPostData = SafeMalloc( len+1 ); SetTimeout(15 + len/2000, 803); /* LOG: Timeout POST data */ nPostData = althttpd_fread(zPostData,1,len,stdin); nIn += nPostData; } /* Make sure the running time is not too great */ SetTimeout(30, 804); /* LOG: Timeout decode HTTP request */ /* Convert all unusual characters in the script name into "_". ** ** This is a defense against various attacks, XSS attacks in particular. */ sanitizeString(zScript); /* Refuse to process the request if the IP address has been banished */ if( zIPShunDir && DisallowedRemoteAddr() ){ ServiceUnavailable(901); /* LOG: Prohibited remote IP address */ } /* Do not allow "/." or "/-" to to occur anywhere in the entity name. ** This prevents attacks involving ".." and also allows us to create ** files and directories whose names begin with "-" or "." which are ** invisible to the webserver. ** ** Exception: Allow the "/.well-known/" prefix in accordance with ** RFC-5785. */ for(z=zScript; *z; z++){ if( *z=='/' && (z[1]=='.' || z[1]=='-') ){ if( strncmp(zScript,"/.well-known/",13)==0 && (z[1]!='.' || z[2]!='.') ){ /* Exception: Allow "/." and "/-" for URLs that being with ** "/.well-known/". But do not allow "/..". */ continue; } NotFound(300); /* LOG: Path element begins with "." or "-" */ } } /* Figure out what the root of the filesystem should be. If the ** HTTP_HOST parameter exists (stored in zHttpHost) then remove the ** port number from the end (if any), convert all characters to lower ** case, and convert non-alphanumber characters (including ".") to "_". ** Then try to find a directory with that name and the extension .website. ** If not found, look for "default.website". */ if( zScript[0]!='/' ){ NotFound(310); /* LOG: URI does not start with "/" */ } if( strlen(zRoot)+40 >= sizeof(zLine) ){ NotFound(320); /* LOG: URI too long */ } if( zHttpHost==0 || zHttpHost[0]==0 ){ NotFound(330); /* LOG: Missing HOST: parameter */ }else if( strlen(zHttpHost)+strlen(zRoot)+10 >= sizeof(zLine) ){ NotFound(340); /* LOG: HOST parameter too long */ }else{ sprintf(zLine, "%s/%s", zRoot, zHttpHost); for(i=strlen(zRoot)+1; zLine[i] && zLine[i]!=':'; i++){ unsigned char c = (unsigned char)zLine[i]; if( !isalnum(c) ){ if( c=='.' && (zLine[i+1]==0 || zLine[i+1]==':') ){ /* If the client sent a FQDN with a "." at the end ** (example: "sqlite.org." instead of just "sqlite.org") then ** omit the final "." from the document root directory name */ break; } zLine[i] = '_'; }else if( isupper(c) ){ zLine[i] = tolower(c); } } strcpy(&zLine[i], ".website"); } if( stat(zLine,&statbuf) || !S_ISDIR(statbuf.st_mode) ){ sprintf(zLine, "%s/default.website", zRoot); if( stat(zLine,&statbuf) || !S_ISDIR(statbuf.st_mode) ){ if( standalone ){ sprintf(zLine, "%s", zRoot); }else{ NotFound(350); /* LOG: *.website permissions */ } } } zHome = StrDup(zLine); /* Change directories to the root of the HTTP filesystem */ if( chdir(zHome)!=0 ){ char zBuf[1000]; Malfunction(360, /* LOG: chdir() failed */ "cannot chdir to [%s] from [%s]", zHome, getcwd(zBuf,999)); } /* Locate the file in the filesystem. We might have to append ** a name like "/home" or "/index.html" or "/index.cgi" in order ** to find it. Any excess path information is put into the ** zPathInfo variable. */ j = j0 = (int)strlen(zLine); i = 0; while( zScript[i] ){ while( zScript[i] && (i==0 || zScript[i]!='/') ){ zLine[j] = zScript[i]; i++; j++; } zLine[j] = 0; /* fprintf(stderr, "searching [%s]...\n", zLine); */ if( stat(zLine,&statbuf)!=0 ){ int stillSearching = 1; while( stillSearching && i>0 && j>j0 ){ while( j>j0 && zLine[j-1]!='/' ){ j--; } strcpy(&zLine[j-1], "/not-found.html"); if( stat(zLine,&statbuf)==0 && S_ISREG(statbuf.st_mode) && access(zLine,R_OK)==0 ){ zRealScript = StrDup(&zLine[j0]); Redirect(zRealScript, 302, 1, 370); /* LOG: redirect to not-found */ return; }else{ j--; } } if( stillSearching ) NotFound(380); /* LOG: URI not found */ break; } if( S_ISREG(statbuf.st_mode) ){ if( access(zLine,R_OK) ){ NotFound(390); /* LOG: File not readable */ } zRealScript = StrDup(&zLine[j0]); break; } if( zScript[i]==0 || zScript[i+1]==0 ){ static const char *azIndex[] = { "/home", "/index", "/index.html", "/index.cgi" }; int k = j>0 && zLine[j-1]=='/' ? j-1 : j; unsigned int jj; for(jj=0; jj<sizeof(azIndex)/sizeof(azIndex[0]); jj++){ strcpy(&zLine[k],azIndex[jj]); if( stat(zLine,&statbuf)!=0 ) continue; if( !S_ISREG(statbuf.st_mode) ) continue; if( access(zLine,R_OK) ) continue; break; } if( jj>=sizeof(azIndex)/sizeof(azIndex[0]) ){ NotFound(400); /* LOG: URI is a directory w/o index.html */ } zRealScript = StrDup(&zLine[j0]); if( zScript[i]==0 && strcmp(zScript,"/")!=0 ){ /* If the requested URL does not end with "/" but we had to ** append "index.html", then a redirect is necessary. Otherwise ** none of the relative URLs in the delivered document will be ** correct. Except, we don't need to redirect if the URL ** consists of just a domain name and nothing else, for ** example "http://sqlite.org" without a trailing / does not ** need to redirect. */ Redirect(zRealScript,301,1,410); /* LOG: redirect to add trailing / */ return; } break; } zLine[j] = zScript[i]; i++; j++; } zFile = StrDup(zLine); zPathInfo = StrDup(&zScript[i]); lenFile = strlen(zFile); zDir = StrDup(zFile); for(i=strlen(zDir)-1; i>0 && zDir[i]!='/'; i--){}; if( i==0 ){ strcpy(zDir,"/"); }else{ zDir[i] = 0; } /* Check to see if there is an authorization file. If there is, ** process it. */ sprintf(zLine, "%s/-auth", zDir); if( access(zLine,R_OK)==0 && !CheckBasicAuthorization(zLine) ){ tls_close_conn(); return; } /* Take appropriate action */ if( (statbuf.st_mode & 0100)==0100 && access(zFile,X_OK)==0 && (!(pMimeType = GetMimeType(zFile, lenFile)) || 0==(pMimeType->flags & MTF_NOCGI)) ){ /* CGI */ char *zBaseFilename; /* Filename without directory prefix */ int px[2]; /* CGI-1 to althttpd pipe */ int py[2]; /* zPostData to CGI-0 pipe */ /* ** Abort with an error if the CGI script is writable by anyone other ** than its owner. */ if( statbuf.st_mode & 0022 ){ CgiScriptWritable(); } /* Compute the base filename of the CGI script */ for(i=strlen(zFile)-1; i>=0 && zFile[i]!='/'; i--){} zBaseFilename = &zFile[i+1]; /* Create pipes used to communicate with the child CGI process */ if( pipe(px) ){ Malfunction(440, /* LOG: pipe() failed */ "Unable to create a pipe for the CGI program"); } if( pipe(py) ){ Malfunction(441, /* LOG: pipe() failed */ "Unable to create a pipe for the CGI program"); } /* Create the child process that will run the CGI. */ if( fork()==0 ){ /* This code is run by the child CGI process only ** Begin by setting up the CGI-to-althttpd pipe */ close(1); if( dup(px[1])<0 ){ Malfunction(442, /* LOG: dup() failed */ "CGI cannot dup() to file descriptor 1"); } /* Set up the althttpd-to-CGI link */ close(0); if( dup(py[0])<0 ){ Malfunction(444, /* LOG: dup() failed */ "CGI cannot dup() to file descriptor 0"); } /* Close all surplus file descriptors */ for(i=3; close(i)==0; i++){} /* Move into the directory holding the CGI program */ if( chdir(zDir) ){ char zBuf[1000]; Malfunction(445, /* LOG: chdir() failed */ "CGI cannot chdir to [%s] from [%s]", zDir, getcwd(zBuf,999)); } /* Setup the CGI environment appropriately. */ ComputeRequestUri(); putenv("GATEWAY_INTERFACE=CGI/1.0"); for(i=0; i<(int)(sizeof(cgienv)/sizeof(cgienv[0])); i++){ if( *cgienv[i].pzEnvValue ){ SetEnv(cgienv[i].zEnvName,*cgienv[i].pzEnvValue); } } /* Run the CGI program */ execl(zBaseFilename, zBaseFilename, (char*)0); althttpd_exit(0); /* Not reached */ }else{ isCGI = 1; } /* This parent process. The child has been started. ** Set up the CGI-to-althttp pipe on which to receive the reply */ close(px[1]); in = fdopen(px[0], "rb"); /* Set up the althttp-to-CGI pipe used to send POST data (if any) */ close(py[0]); if( nPostData>0 ){ ssize_t wrote = 0, n; while( nPostData>wrote ){ n = write(py[1], zPostData+wrote, nPostData-wrote); if( n<=0 ) break; wrote += n; } } if( zPostData ){ free(zPostData); zPostData = 0; nPostData = 0; } close(py[1]); /* Wait for the CGI program to reply and process that reply */ if( in==0 ){ CgiError(); }else{ CgiHandleReply(in, strncmp(zBaseFilename,"nph-",4)==0); } }else if( lenFile>5 && strcmp(&zFile[lenFile-5],".scgi")==0 ){ /* Any file that ends with ".scgi" is assumed to be text of the ** form: ** SCGI hostname port ** Open a TCP/IP connection to that host and send it an SCGI request */ SendScgiRequest(zFile, zScript); }else if( countSlashes(zRealScript)!=countSlashes(zScript) ){ /* If the request URI for static content contains material past the ** actual content file name, report that as a 404 error. */ NotFound(460); /* LOG: Excess URI content past static file name */ }else{ /* If it isn't executable then it must be a simple file that needs ** to be copied to output. */ SetTimeout(30 + statbuf.st_size/2000, 805); /* LOG: Timeout send static file */ if( SendFile(zFile, lenFile, &statbuf) ){ return; } } althttpd_fflush(stdout); MakeLogEntry(0, 0); /* LOG: Normal reply */ omitLog = 1; } /* ** Launch a web-browser pointing to zPage */ static void launch_web_browser(const char *zPath, int iPort){ char zUrl[2000]; static const char *const azBrowserProg[] = { #if defined(__DARWIN__) || defined(__APPLE__) || defined(__HAIKU__) "open" #else "xdg-open", "gnome-open", "firefox", "google-chrome" #endif }; size_t i; if( strlen(zPath)<=sizeof(zUrl)-1000 ){ while( zPath[0]=='/' ) zPath++; sprintf(zUrl, "http://localhost:%d/%s", iPort, zPath); for(i=0; i<sizeof(azBrowserProg)/sizeof(azBrowserProg[0]); i++){ execlp(azBrowserProg[i], azBrowserProg[i], zUrl, (char*)0); } } althttpd_exit(1); } #define MAX_PARALLEL 50 /* Number of simultaneous children */ /* ** All possible forms of an IP address. Needed to work around GCC strict ** aliasing rules. */ typedef union { struct sockaddr sa; /* Abstract superclass */ struct sockaddr_in sa4; /* IPv4 */ struct sockaddr_in6 sa6; /* IPv6 */ struct sockaddr_storage sas; /* Should be the maximum of the above 3 */ } address; /* ** Implement an HTTP server daemon listening on port zPort. ** ** As new connections arrive, fork a child and let the child return ** out of this procedure call. The child will handle the request. ** The parent never returns from this procedure. ** ** Return 0 to each child as it runs. If unable to establish a ** listening socket, return non-zero. ** ** When it accept()s a connection, the socket ID is written to the ** final argument. */ int http_server( int mnPort, int mxPort, /* Range of TCP ports to try */ int bLocalhost, /* Listen on loopback sockets only */ const char *zPage, /* Launch web browser on this document */ int *httpConnection /* Socket over which HTTP request arrives */ ){ int listener = -1; /* The server socket */ int connection; /* A socket for each individual connection */ fd_set readfds; /* Set of file descriptors for select() */ socklen_t lenaddr; /* Length of the inaddr structure */ int child; /* PID of the child process */ int nchildren = 0; /* Number of child processes */ struct timeval delay; /* How long to wait inside select() */ struct sockaddr_in inaddr; /* The socket address */ int opt = 1; /* setsockopt flag */ int iPort = mnPort; while( iPort<=mxPort ){ memset(&inaddr, 0, sizeof(inaddr)); inaddr.sin_family = AF_INET; if( bLocalhost ){ inaddr.sin_addr.s_addr = htonl(INADDR_LOOPBACK); }else{ inaddr.sin_addr.s_addr = htonl(INADDR_ANY); } inaddr.sin_port = htons(iPort); listener = socket(AF_INET, SOCK_STREAM, 0); if( listener<0 ){ iPort++; continue; } /* if we can't terminate nicely, at least allow the socket to be reused */ setsockopt(listener,SOL_SOCKET,SO_REUSEADDR,&opt,sizeof(opt)); if( bind(listener, (struct sockaddr*)&inaddr, sizeof(inaddr))<0 ){ close(listener); iPort++; continue; } break; } if( iPort>mxPort ){ if( mnPort==mxPort ){ fprintf(stderr,"unable to open listening socket on port %d\n", mnPort); }else{ fprintf(stderr,"unable to open listening socket on any" " port in the range %d..%d\n", mnPort, mxPort); } althttpd_exit(1); } if( iPort>mxPort ) return 1; listen(listener,10); printf("Listening for %s requests on TCP port %d\n", useHttps?"TLS-encrypted HTTPS":"HTTP", iPort); fflush(stdout); if( zPage ){ child = fork(); if( child!=0 ){ if( child>0 ) nchildren++; }else{ launch_web_browser(zPage, iPort); /* NOT REACHED */ althttpd_exit(1); } } while( 1 ){ if( nchildren>MAX_PARALLEL ){ /* Slow down if connections are arriving too fast */ sleep( nchildren-MAX_PARALLEL ); } delay.tv_sec = 0; delay.tv_usec = 100000; FD_ZERO(&readfds); assert( listener>=0 ); FD_SET( listener, &readfds); select( listener+1, &readfds, 0, 0, &delay); if( FD_ISSET(listener, &readfds) ){ lenaddr = sizeof(inaddr); connection = accept(listener, (struct sockaddr*)&inaddr, &lenaddr); if( connection>=0 ){ child = fork(); if( child!=0 ){ if( child>0 ) nchildren++; close(connection); /* printf("subprocess %d started...\n", child); fflush(stdout); */ }else{ int nErr = 0, fd; close(0); fd = dup(connection); if( fd!=0 ) nErr++; close(1); fd = dup(connection); if( fd!=1 ) nErr++; close(connection); *httpConnection = fd; return nErr; } } } /* Bury dead children */ while( (child = waitpid(0, 0, WNOHANG))>0 ){ /* printf("process %d ends\n", child); fflush(stdout); */ nchildren--; } } /* NOT REACHED */ althttpd_exit(1); } int main(int argc, const char **argv){ int i; /* Loop counter */ const char *zPermUser = 0; /* Run daemon with this user's permissions */ int mnPort = 0; /* Range of TCP ports for server mode */ int mxPort = 0; int useChrootJail = 1; /* True to use a change-root jail */ struct passwd *pwd = 0; /* Information about the user */ int httpConnection = 0; /* Socket ID of inbound http connection */ int bLocalhost = 0; /* Bind to loop-back TCP ports only */ const char *zPage = 0; /* Starting page */ /* Record the time when processing begins. */ gettimeofday(&beginTime, 0); /* Parse command-line arguments */ while( argc>1 && argv[1][0]=='-' ){ int nTerm = 2; const char *z = argv[1]; const char *zArg = argc>=3 ? argv[2] : "0"; if( z[0]=='-' && z[1]=='-' ) z++; if( strcmp(z,"-root")==0 ){ zRoot = zArg; }else if( strcmp(z,"-logfile")==0 ){ zLogFile = zArg; }else #ifdef ENABLE_TLS if( strcmp(z, "-cert")==0 ){ useHttps = 2; zHttpScheme = "https"; zHttps = "on"; tlsState.zCertFile = zArg; if( tlsState.zKeyFile==0 ) tlsState.zKeyFile = zArg; if( standalone ){ standalone = 2; } }else if( strcmp(z, "-pkey")==0 ){ tlsState.zKeyFile = zArg; }else #endif if( strcmp(z,"-user")==0 ){ zPermUser = zArg; }else if( strcmp(z,"-ipshun")==0 ){ zIPShunDir = zArg; }else if( strcmp(z,"-max-age")==0 ){ mxAge = atoi(zArg); }else if( strcmp(z,"-max-cpu")==0 ){ maxCpu = atoi(zArg); }else if( strcmp(z,"-loopback")==0 ){ bLocalhost = 1; nTerm = 1; }else if( strcmp(z,"-enable-sab")==0 ){ enableSAB = 1; nTerm = 1; }else if( strcmp(z,"-page")==0 ){ zPage = zArg; bLocalhost = 1; if( mnPort==0 ){ mnPort = 8080; mxPort = 8100; } standalone = 1 + (useHttps==2); }else if( strcmp(z,"-popup")==0 ){ nTerm = 1; zRoot = "."; if( mnPort==0 ){ mnPort = 8080; mxPort = 8100; } standalone = 1 + (useHttps==2); }else if( strcmp(z,"-https")==0 ){ int const x = atoi(zArg); if( x<=0 ){ useHttps = 0; zHttpScheme = "http"; zHttps = 0; }else{ zHttpScheme = "https"; zHttps = "on"; zRemoteAddr = getenv("REMOTE_HOST"); useHttps = 1; } }else if( strcmp(z, "-port")==0 ){ int ii; mnPort = mxPort = 0; for(ii=0; zArg[ii]>='0' && zArg[ii]<='9'; ii++){ mnPort = mnPort*10 + zArg[ii] - '0'; } if( zArg[ii]==0 ){ mxPort = mnPort; }else if( zArg[ii]=='.' && zArg[ii+1]=='.' ){ for(ii+=2; zArg[ii]>='0' && zArg[ii]<='9'; ii++){ mxPort = mxPort*10 + zArg[ii] - '0'; } } standalone = 1 + (useHttps==2); }else if( strcmp(z, "-family")==0 ){ if( strcmp(zArg, "ipv4")==0 ){ ipv4Only = 1; }else if( strcmp(zArg, "ipv6")==0 ){ ipv6Only = 1; }else{ Malfunction(513, /* LOG: unknown IP protocol */ "unknown IP protocol: [%s]\n", zArg); } }else if( strcmp(z, "-jail")==0 ){ if( atoi(zArg)==0 ){ useChrootJail = 0; } }else if( strcmp(z, "-debug")==0 ){ if( atoi(zArg) ){ useTimeout = 0; } }else if( strcmp(z, "-input")==0 ){ if( freopen(zArg, "rb", stdin)==0 || stdin==0 ){ Malfunction(514, /* LOG: cannot open --input file */ "cannot open --input file \"%s\"\n", zArg); } }else if( strcmp(z, "-version")==0 ){ puts(SERVER_SOFTWARE_TLS); printf("%s %.20s\n", MANIFEST_DATE, MANIFEST_UUID); printf("Compiled on " __DATE__ " using " COMPILER "\n"); return 0; }else if( strcmp(z, "-datetest")==0 ){ TestParseRfc822Date(); printf("Ok\n"); althttpd_exit(0); }else if( strcmp(z,"-remote-addr")==0 ){ /* Used for testing purposes only - to simulate a remote IP address when ** input is really coming from a disk file. */ zRemoteAddr = StrDup(zArg); }else { Malfunction(515, /* LOG: unknown command-line argument on launch */ "unknown argument: [%s]\n", z); } argv += nTerm; argc -= nTerm; } if( zRoot==0 ){ if( !standalone ){ mnPort = 8080; mxPort = 8100; } standalone = 1; bLocalhost = 1; zRoot = "."; } /* ** 10 seconds to get started */ if( useTimeout ){ signal(SIGALRM, Timeout); signal(SIGSEGV, Timeout); signal(SIGPIPE, Timeout); signal(SIGXCPU, Timeout); if( !standalone ) SetTimeout(10, 806); /* LOG: Timeout startup */ } #if ENABLE_TLS /* We "need" to read the cert before chroot'ing to allow that the ** cert is stored in space outside of the --root and not readable by ** the --user. */ if( useHttps>=2 ){ ssl_init_server(tlsState.zCertFile, tlsState.zKeyFile); } #endif /* Change directories to the root of the HTTP filesystem. Then ** create a chroot jail there. */ if( chdir(zRoot)!=0 ){ Malfunction(517, /* LOG: chdir() failed */ "cannot change to directory [%s]", zRoot); } /* Get information about the user if available */ if( zPermUser ) pwd = getpwnam(zPermUser); else if( getuid()==0 ){ Malfunction(518, "Cannot run as root. Use the -user USER flag."); return 1; } /* Enter the chroot jail if requested */ if( zPermUser && useChrootJail && getuid()==0 ){ if( chroot(".")<0 ){ Malfunction(519, /* LOG: chroot() failed */ "unable to create chroot jail"); }else{ zRoot = ""; } } /* Activate the server, if requested */ if( mnPort>0 && mnPort<=mxPort && http_server(mnPort, mxPort, bLocalhost, zPage, &httpConnection) ){ Malfunction(520, /* LOG: server startup failed */ "failed to start server"); } #ifdef RLIMIT_CPU if( maxCpu>0 ){ struct rlimit rlim; rlim.rlim_cur = maxCpu; rlim.rlim_max = maxCpu; setrlimit(RLIMIT_CPU, &rlim); } #endif /* Drop root privileges. */ if( zPermUser ){ if( pwd ){ if( setgid(pwd->pw_gid) ){ Malfunction(521, /* LOG: setgid() failed */ "cannot set group-id to %d", pwd->pw_gid); } if( setuid(pwd->pw_uid) ){ Malfunction(522, /* LOG: setuid() failed */ "cannot set user-id to %d", pwd->pw_uid); } }else{ Malfunction(523, /* LOG: unknown user */ "no such user [%s]", zPermUser); } } if( getuid()==0 ){ Malfunction(524, /* LOG: cannot run as root */ "cannot run as root"); } /* Get the IP address from whence the request originates */ if( zRemoteAddr==0 ){ address remoteAddr; socklen_t size = sizeof(remoteAddr); char zHost[NI_MAXHOST]; if( getpeername(0, &remoteAddr.sa, &size)>=0 ){ getnameinfo(&remoteAddr.sa, size, zHost, sizeof(zHost), 0, 0, NI_NUMERICHOST); zRemoteAddr = StrDup(zHost); } } if( zRemoteAddr!=0 && strncmp(zRemoteAddr, "::ffff:", 7)==0 && strchr(zRemoteAddr+7, ':')==0 && strchr(zRemoteAddr+7, '.')!=0 ){ zRemoteAddr += 7; } zServerSoftware = useHttps==2 ? SERVER_SOFTWARE_TLS : SERVER_SOFTWARE; /* Process the input stream */ for(i=0; i<100; i++){ ProcessOneRequest(0, httpConnection); } ProcessOneRequest(1, httpConnection); tls_close_conn(); althttpd_exit(0); } #if 0 /* Copy/paste the following text into SQLite to generate the xref ** table that describes all error codes. */ BEGIN; CREATE TABLE IF NOT EXISTS xref(lineno INTEGER PRIMARY KEY, desc TEXT); DELETE FROM xref; INSERT INTO xref VALUES(0,'Normal reply'); INSERT INTO xref VALUES(2,'Normal HEAD reply'); INSERT INTO xref VALUES(100,'Malloc() failed'); INSERT INTO xref VALUES(110,'Not authorized'); INSERT INTO xref VALUES(120,'CGI Error'); INSERT INTO xref VALUES(131,'SIGSEGV'); INSERT INTO xref VALUES(132,'SIGPIPE'); INSERT INTO xref VALUES(133,'SIGXCPU'); INSERT INTO xref VALUES(139,'Unknown signal'); INSERT INTO xref VALUES(140,'CGI script is writable'); INSERT INTO xref VALUES(150,'Cannot open -auth file'); INSERT INTO xref VALUES(160,' http request on https-only page'); INSERT INTO xref VALUES(170,'-auth redirect'); INSERT INTO xref VALUES(180,' malformed entry in -auth file'); INSERT INTO xref VALUES(190,'chdir() failed'); INSERT INTO xref VALUES(200,'bad protocol in HTTP header'); INSERT INTO xref VALUES(201,'URI too long'); INSERT INTO xref VALUES(210,'Empty request URI'); INSERT INTO xref VALUES(220,'Unknown request method'); INSERT INTO xref VALUES(230,'Referrer is devids.net'); INSERT INTO xref VALUES(240,'Illegal content in HOST: parameter'); INSERT INTO xref VALUES(250,'Disallowed user agent'); INSERT INTO xref VALUES(251,'Disallowed user agent (20190424)'); INSERT INTO xref VALUES(260,'Disallowed referrer'); INSERT INTO xref VALUES(270,'Request too large'); INSERT INTO xref VALUES(300,'Path element begins with "." or "-"'); INSERT INTO xref VALUES(310,'URI does not start with "/"'); INSERT INTO xref VALUES(320,'URI too long'); INSERT INTO xref VALUES(330,'Missing HOST: parameter'); INSERT INTO xref VALUES(340,'HOST parameter too long'); INSERT INTO xref VALUES(350,'*.website permissions'); INSERT INTO xref VALUES(360,'chdir() failed'); INSERT INTO xref VALUES(370,'redirect to not-found'); INSERT INTO xref VALUES(380,'URI not found'); INSERT INTO xref VALUES(390,'File not readable'); INSERT INTO xref VALUES(400,'URI is a directory w/o index.html'); INSERT INTO xref VALUES(410,'redirect to add trailing /'); INSERT INTO xref VALUES(440,'pipe() failed'); INSERT INTO xref VALUES(441,'pipe() failed'); INSERT INTO xref VALUES(442,'dup() failed'); INSERT INTO xref VALUES(444,'dup() failed'); INSERT INTO xref VALUES(445,'chdir() failed'); INSERT INTO xref VALUES(460,'Excess URI content past static file name'); INSERT INTO xref VALUES(470,'ETag Cache Hit'); INSERT INTO xref VALUES(480,'fopen() failed for static content'); INSERT INTO xref VALUES(501,'Error initializing the SSL Server'); INSERT INTO xref VALUES(502,'Error loading CERT file'); INSERT INTO xref VALUES(503,'Error loading private key file'); INSERT INTO xref VALUES(504,'Error loading self-signed cert'); INSERT INTO xref VALUES(505,'No cert'); INSERT INTO xref VALUES(506,'private key does not match cert'); INSERT INTO xref VALUES(507,'TlsServerConn'); INSERT INTO xref VALUES(508,'SSL not available'); INSERT INTO xref VALUES(509,'SSL not available'); INSERT INTO xref VALUES(510,'SSL not available'); INSERT INTO xref VALUES(512,'TLS context'); INSERT INTO xref VALUES(513,'unknown IP protocol'); INSERT INTO xref VALUES(514,'cannot open --input file'); INSERT INTO xref VALUES(515,'unknown command-line argument on launch'); INSERT INTO xref VALUES(516,'--root argument missing'); INSERT INTO xref VALUES(517,'chdir() failed'); INSERT INTO xref VALUES(519,'chroot() failed'); INSERT INTO xref VALUES(520,'server startup failed'); INSERT INTO xref VALUES(521,'setgid() failed'); INSERT INTO xref VALUES(522,'setuid() failed'); INSERT INTO xref VALUES(523,'unknown user'); INSERT INTO xref VALUES(524,'cannot run as root'); INSERT INTO xref VALUES(526,'SSL read too big'); INSERT INTO xref VALUES(527,'SSL read error'); INSERT INTO xref VALUES(528,'SSL write too big'); INSERT INTO xref VALUES(529,'Output buffer too small'); INSERT INTO xref VALUES(600,'OOM'); INSERT INTO xref VALUES(610,'OOM'); INSERT INTO xref VALUES(700,'cannot open file'); INSERT INTO xref VALUES(701,'cannot read file'); INSERT INTO xref VALUES(702,'bad SCGI spec'); INSERT INTO xref VALUES(703,'bad SCGI spec (2)'); INSERT INTO xref VALUES(704,'Unrecognized line in SCGI spec'); INSERT INTO xref VALUES(705,'Cannot resolve SCGI server name'); INSERT INTO xref VALUES(706,'bad SCGI fallback'); INSERT INTO xref VALUES(707,'Cannot open socket to SCGI'); INSERT INTO xref VALUES(708,'OOM'); INSERT INTO xref VALUES(720,'chdir() failed'); INSERT INTO xref VALUES(721,'SCGI relight failed'); INSERT INTO xref VALUES(800,'CGI Handler timeout'); INSERT INTO xref VALUES(801,'Timeout request header (1+)'); INSERT INTO xref VALUES(802,'Timeout request header (0)'); INSERT INTO xref VALUES(803,'Timeout POST data'); INSERT INTO xref VALUES(804,'Timeout decode HTTP request'); INSERT INTO xref VALUES(805,'Timeout send static file'); INSERT INTO xref VALUES(806,'Timeout startup'); INSERT INTO xref VALUES(901,'Prohibited remote IP address'); INSERT INTO xref VALUES(902,'Bashdoor attack'); INSERT INTO xref VALUES(903,'CGI reports abusive request'); #endif /* SQL */