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| /*
** Copyright (c) 2006 D. Richard Hipp
**
** This program is free software; you can redistribute it and/or
** modify it under the terms of the Simplified BSD License (also
** known as the "2-Clause License" or "FreeBSD License".)
**
** This program is distributed in the hope that it will be useful,
** but without any warranty; without even the implied warranty of
** merchantability or fitness for a particular purpose.
**
** Author contact information:
** drh@hwaci.com
** http://www.hwaci.com/drh/
**
*******************************************************************************
**
** This file began as a set of C functions and procedures used intepret
** CGI environment variables for Fossil web pages that were invoked by
** CGI. That's where the file name comes from. But over the years it
** has grown to incorporate lots of related functionality, including:
**
** * Interpreting CGI environment variables when Fossil is run as
** CGI (the original purpose).
**
** * Interpreting HTTP requests received directly or via an SSH tunnel.
**
** * Interpreting SCGI requests
**
** * Generating appropriate replies to CGI, SCGI, and HTTP requests.
**
** * Listening for incoming HTTP requests and dispatching them.
** (Used by "fossil ui" and "fossil server", for example).
**
** So, even though the name of this file implies that it only deals with
** CGI, in fact, the code in this file is used to interpret webpage requests
** received by a variety of means, and to generate well-formatted replies
** to those requests.
**
** The code in this file abstracts the web-request so that downstream
** modules that generate the body of the reply (based on the requested page)
** do not need to know if the request is coming from CGI, direct HTTP,
** SCGI, or some other means.
**
** This module gathers information about web page request into a key/value
** store. Keys and values come from:
**
** * Query parameters
** * POST parameter
** * Cookies
** * Environment variables
**
** The parameters are accessed using cgi_parameter() and similar functions
** or their convenience macros P() and similar.
**
** Environment variable parameters are set as if the request were coming
** in over CGI even if the request arrived via SCGI or direct HTTP. Thus
** the downstream modules that are trying to interpret the request do not
** need to know the request protocol - they can just request the values
** of environment variables and everything will always work.
**
** This file contains routines used by Fossil when it is acting as a
** CGI client. For the code used by Fossil when it is acting as a
** CGI server (for the /ext webpage) see the "extcgi.c" source file.
*/
#include "config.h"
#ifdef _WIN32
# if !defined(_WIN32_WINNT)
# define _WIN32_WINNT 0x0501
# endif
# include <winsock2.h>
# include <ws2tcpip.h>
#else
# include <sys/socket.h>
# include <netinet/in.h>
# include <arpa/inet.h>
# include <sys/times.h>
# include <sys/time.h>
# include <sys/wait.h>
# include <sys/select.h>
#endif
#ifdef __EMX__
typedef int socklen_t;
#endif
#include <time.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <assert.h>
#include "cgi.h"
#include "cygsup.h"
#if INTERFACE
/*
** Shortcuts for cgi_parameter. P("x") returns the value of query parameter
** or cookie "x", or NULL if there is no such parameter or cookie. PD("x","y")
** does the same except "y" is returned in place of NULL if there is not match.
*/
#define P(x) cgi_parameter((x),0)
#define PD(x,y) cgi_parameter((x),(y))
#define PT(x) cgi_parameter_trimmed((x),0)
#define PDT(x,y) cgi_parameter_trimmed((x),(y))
#define PB(x) cgi_parameter_boolean(x)
#define PCK(x) cgi_parameter_checked(x,1)
#define PIF(x,y) cgi_parameter_checked(x,y)
/*
** Shortcut for the cgi_printf() routine. Instead of using the
**
** @ ...
**
** notation provided by the translate.c utility, you can also
** optionally use:
**
** CX(...)
*/
#define CX cgi_printf
/*
** Destinations for output text.
*/
#define CGI_HEADER 0
#define CGI_BODY 1
/*
** Flags for SSH HTTP clients
*/
#define CGI_SSH_CLIENT 0x0001 /* Client is SSH */
#define CGI_SSH_COMPAT 0x0002 /* Compat for old SSH transport */
#define CGI_SSH_FOSSIL 0x0004 /* Use new Fossil SSH transport */
#endif /* INTERFACE */
/*
** The reply content is generated in two pieces: the header and the body.
** These pieces are generated separately because they are not necessarily
** produced in order. Parts of the header might be built after all or
** part of the body. The header and body are accumulated in separate
** Blob structures then output sequentially once everything has been
** built.
**
** Do not confuse the content header with the HTTP header. The content header
** is generated by downstream code. The HTTP header is generated by the
** cgi_reply() routine below.
**
** The content header and contenty body are *approximately* the <head>
** element and the <body> elements for HTML replies. However this is only
** approximate. The content header also includes parts of <body> that
** show the banner and menu bar at the top of each page. Also note that
** not all replies are HTML, but there can still be separate header and
** body sections of the content.
**
** The cgi_destination() interface switches between the buffers.
*/
static Blob cgiContent[2] = { BLOB_INITIALIZER, BLOB_INITIALIZER };
static Blob *pContent = &cgiContent[0];
/*
** Set the destination buffer into which to accumulate CGI content.
*/
void cgi_destination(int dest){
switch( dest ){
case CGI_HEADER: {
pContent = &cgiContent[0];
break;
}
case CGI_BODY: {
pContent = &cgiContent[1];
break;
}
default: {
cgi_panic("bad destination");
}
}
}
/*
** Check to see if the content header or body contains the zNeedle string.
** Return true if it does and false if it does not.
*/
int cgi_header_contains(const char *zNeedle){
return strstr(blob_str(&cgiContent[0]), zNeedle)!=0;
}
int cgi_body_contains(const char *zNeedle){
return strstr(blob_str(&cgiContent[1]), zNeedle)!=0;
}
/*
** Append new reply content to what already exists.
*/
void cgi_append_content(const char *zData, int nAmt){
blob_append(pContent, zData, nAmt);
}
/*
** Reset both reply content buffers to be empty.
*/
void cgi_reset_content(void){
blob_reset(&cgiContent[0]);
blob_reset(&cgiContent[1]);
}
/*
** Return a pointer to Blob that is currently accumulating reply content.
*/
Blob *cgi_output_blob(void){
return pContent;
}
/*
** Return the content header as a text string
*/
const char *cgi_header(void){
return blob_str(&cgiContent[0]);
}
/*
** Combine the header and body content all into the header buffer.
** In other words, append the body content to the end of the header
** content.
*/
static void cgi_combine_header_and_body(void){
int size = blob_size(&cgiContent[1]);
if( size>0 ){
blob_append(&cgiContent[0], blob_buffer(&cgiContent[1]), size);
blob_reset(&cgiContent[1]);
}
}
/*
** Return a pointer to the combined header+body content.
*/
char *cgi_extract_content(void){
cgi_combine_header_and_body();
return blob_buffer(&cgiContent[0]);
}
/*
** Additional information used to form the HTTP reply
*/
static const char *zContentType = "text/html"; /* Content type of the reply */
static const char *zReplyStatus = "OK"; /* Reply status description */
static int iReplyStatus = 200; /* Reply status code */
static Blob extraHeader = BLOB_INITIALIZER; /* Extra header text */
static int rangeStart = 0; /* Start of Range: */
static int rangeEnd = 0; /* End of Range: plus 1 */
/*
** Set the reply content type.
**
** The reply content type defaults to "text/html". It only needs to be
** changed (by calling this routine) in the exceptional case where some
** other content type is being returned.
*/
void cgi_set_content_type(const char *zType){
zContentType = fossil_strdup(zType);
}
/*
** Erase any existing reply content. Replace is with a pNewContent.
**
** This routine erases pNewContent. In other words, it move pNewContent
** into the content buffer.
*/
void cgi_set_content(Blob *pNewContent){
cgi_reset_content();
cgi_destination(CGI_HEADER);
cgiContent[0] = *pNewContent;
blob_zero(pNewContent);
}
/*
** Set the reply status code
*/
void cgi_set_status(int iStat, const char *zStat){
zReplyStatus = fossil_strdup(zStat);
iReplyStatus = iStat;
}
/*
** Append text to the content header buffer.
*/
void cgi_append_header(const char *zLine){
blob_append(&extraHeader, zLine, -1);
}
void cgi_printf_header(const char *zLine, ...){
va_list ap;
va_start(ap, zLine);
blob_vappendf(&extraHeader, zLine, ap);
va_end(ap);
}
/*
** Set a cookie by queuing up the appropriate HTTP header output. If
** !g.isHTTP, this is a no-op.
**
** Zero lifetime implies a session cookie. A negative one expires
** the cookie immediately.
*/
void cgi_set_cookie(
const char *zName, /* Name of the cookie */
const char *zValue, /* Value of the cookie. Automatically escaped */
const char *zPath, /* Path cookie applies to. NULL means "/" */
int lifetime /* Expiration of the cookie in seconds from now */
){
char const *zSecure = "";
if(!g.isHTTP) return /* e.g. JSON CLI mode, where g.zTop is not set */;
else if( zPath==0 ){
zPath = g.zTop;
if( zPath[0]==0 ) zPath = "/";
}
if( g.zBaseURL!=0 && strncmp(g.zBaseURL, "https:", 6)==0 ){
zSecure = " secure;";
}
if( lifetime!=0 ){
blob_appendf(&extraHeader,
"Set-Cookie: %s=%t; Path=%s; max-age=%d; HttpOnly; "
"%s Version=1\r\n",
zName, lifetime>0 ? zValue : "null", zPath, lifetime, zSecure);
}else{
blob_appendf(&extraHeader,
"Set-Cookie: %s=%t; Path=%s; HttpOnly; "
"%s Version=1\r\n",
zName, zValue, zPath, zSecure);
}
}
/*
** Return true if the response should be sent with Content-Encoding: gzip.
*/
static int is_gzippable(void){
if( g.fNoHttpCompress ) return 0;
if( strstr(PD("HTTP_ACCEPT_ENCODING", ""), "gzip")==0 ) return 0;
return strncmp(zContentType, "text/", 5)==0
|| sqlite3_strglob("application/*xml", zContentType)==0
|| sqlite3_strglob("application/*javascript", zContentType)==0;
}
/*
** The following routines read or write content from/to the wire for
** an HTTP request. Depending on settings the content might be coming
** from or going to a socket, or a file, or it might come from or go
** to an SSL decoder/encoder.
*/
/*
** 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.
*/
static char *cgi_fgets(char *s, int size){
if( !g.httpUseSSL ){
return fgets(s, size, g.httpIn);
}
#ifdef FOSSIL_ENABLE_SSL
return ssl_gets(g.httpSSLConn, s, size);
#else
fossil_fatal("SSL not available");
#endif
}
/* Works like fread():
**
** Read as many as bytes of content as we can, up to a maximum of nmemb
** bytes. Return the number of bytes read. Return 0 if there is no
** further input or if an I/O error occurs.
*/
size_t cgi_fread(void *ptr, size_t nmemb){
if( !g.httpUseSSL ){
return fread(ptr, 1, nmemb, g.httpIn);
}
#ifdef FOSSIL_ENABLE_SSL
return ssl_read_server(g.httpSSLConn, ptr, nmemb, 1);
#else
fossil_fatal("SSL not available");
#endif
}
/* Works like feof():
**
** Return true if end-of-input has been reached.
*/
int cgi_feof(void){
if( !g.httpUseSSL ){
return feof(g.httpIn);
}
#ifdef FOSSIL_ENABLE_SSL
return ssl_eof(g.httpSSLConn);
#else
return 1;
#endif
}
/* Works like fwrite():
**
** Try to output nmemb bytes of content. Return the number of
** bytes actually written.
*/
static size_t cgi_fwrite(void *ptr, size_t nmemb){
if( !g.httpUseSSL ){
return fwrite(ptr, 1, nmemb, g.httpOut);
}
#ifdef FOSSIL_ENABLE_SSL
return ssl_write_server(g.httpSSLConn, ptr, nmemb);
#else
fossil_fatal("SSL not available");
#endif
}
/* Works like fflush():
**
** Make sure I/O has completed.
*/
static void cgi_fflush(void){
if( !g.httpUseSSL ){
fflush(g.httpOut);
}
}
/*
** Generate the reply to a web request. The output might be an
** full HTTP response, or a CGI response, depending on how things have
** be set up.
**
** The reply consists of a response header (an HTTP or CGI response header)
** followed by the concatenation of the content header and content body.
*/
void cgi_reply(void){
Blob hdr = BLOB_INITIALIZER;
int total_size;
if( iReplyStatus<=0 ){
iReplyStatus = 200;
zReplyStatus = "OK";
}
if( g.fullHttpReply ){
if( rangeEnd>0
&& iReplyStatus==200
&& fossil_strcmp(P("REQUEST_METHOD"),"GET")==0
){
iReplyStatus = 206;
zReplyStatus = "Partial Content";
}
blob_appendf(&hdr, "HTTP/1.0 %d %s\r\n", iReplyStatus, zReplyStatus);
blob_appendf(&hdr, "Date: %s\r\n", cgi_rfc822_datestamp(time(0)));
blob_appendf(&hdr, "Connection: close\r\n");
blob_appendf(&hdr, "X-UA-Compatible: IE=edge\r\n");
}else{
assert( rangeEnd==0 );
blob_appendf(&hdr, "Status: %d %s\r\n", iReplyStatus, zReplyStatus);
}
if( etag_tag()[0]!=0 ){
blob_appendf(&hdr, "ETag: %s\r\n", etag_tag());
blob_appendf(&hdr, "Cache-Control: max-age=%d\r\n", etag_maxage());
if( etag_mtime()>0 ){
blob_appendf(&hdr, "Last-Modified: %s\r\n",
cgi_rfc822_datestamp(etag_mtime()));
}
}else if( g.isConst ){
/* isConst means that the reply is guaranteed to be invariant, even
** after configuration changes and/or Fossil binary recompiles. */
blob_appendf(&hdr, "Cache-Control: max-age=315360000, immutable\r\n");
}else{
blob_appendf(&hdr, "Cache-control: no-cache\r\n");
}
if( blob_size(&extraHeader)>0 ){
blob_appendf(&hdr, "%s", blob_buffer(&extraHeader));
}
/* Add headers to turn on useful security options in browsers. */
blob_appendf(&hdr, "X-Frame-Options: SAMEORIGIN\r\n");
/* This stops fossil pages appearing in frames or iframes, preventing
** click-jacking attacks on supporting browsers.
**
** Other good headers would be
** Strict-Transport-Security: max-age=62208000
** if we're using https. However, this would break sites which serve different
** content on http and https protocols. Also,
** X-Content-Security-Policy: allow 'self'
** would help mitigate some XSS and data injection attacks, but will break
** deliberate inclusion of external resources, such as JavaScript syntax
** highlighter scripts.
**
** These headers are probably best added by the web server hosting fossil as
** a CGI script.
*/
/* Content intended for logged in users should only be cached in
** the browser, not some shared location.
*/
if( iReplyStatus!=304 ) {
blob_appendf(&hdr, "Content-Type: %s; charset=utf-8\r\n", zContentType);
if( fossil_strcmp(zContentType,"application/x-fossil")==0 ){
cgi_combine_header_and_body();
blob_compress(&cgiContent[0], &cgiContent[0]);
}
if( is_gzippable() && iReplyStatus!=206 ){
int i;
gzip_begin(0);
for( i=0; i<2; i++ ){
int size = blob_size(&cgiContent[i]);
if( size>0 ) gzip_step(blob_buffer(&cgiContent[i]), size);
blob_reset(&cgiContent[i]);
}
gzip_finish(&cgiContent[0]);
blob_appendf(&hdr, "Content-Encoding: gzip\r\n");
blob_appendf(&hdr, "Vary: Accept-Encoding\r\n");
}
total_size = blob_size(&cgiContent[0]) + blob_size(&cgiContent[1]);
if( iReplyStatus==206 ){
blob_appendf(&hdr, "Content-Range: bytes %d-%d/%d\r\n",
rangeStart, rangeEnd-1, total_size);
total_size = rangeEnd - rangeStart;
}
blob_appendf(&hdr, "Content-Length: %d\r\n", total_size);
}else{
total_size = 0;
}
blob_appendf(&hdr, "\r\n");
cgi_fwrite(blob_buffer(&hdr), blob_size(&hdr));
blob_reset(&hdr);
if( total_size>0
&& iReplyStatus!=304
&& fossil_strcmp(P("REQUEST_METHOD"),"HEAD")!=0
){
int i, size;
for(i=0; i<2; i++){
size = blob_size(&cgiContent[i]);
if( size<=rangeStart ){
rangeStart -= size;
}else{
int n = size - rangeStart;
if( n>total_size ){
n = total_size;
}
cgi_fwrite(blob_buffer(&cgiContent[i])+rangeStart, n);
rangeStart = 0;
total_size -= n;
}
}
}
cgi_fflush();
CGIDEBUG(("-------- END cgi ---------\n"));
/* After the webpage has been sent, do any useful background
** processing.
*/
g.cgiOutput = 2;
if( g.db!=0 && iReplyStatus==200 ){
backoffice_check_if_needed();
}
}
/*
** Generate an HTTP or CGI redirect response that causes a redirect
** to the URL given in the argument.
**
** The URL must be relative to the base of the fossil server.
*/
NORETURN void cgi_redirect_with_status(
const char *zURL,
int iStat,
const char *zStat
){
char *zLocation;
CGIDEBUG(("redirect to %s\n", zURL));
if( strncmp(zURL,"http:",5)==0 || strncmp(zURL,"https:",6)==0 ){
zLocation = mprintf("Location: %s\r\n", zURL);
}else if( *zURL=='/' ){
int n1 = (int)strlen(g.zBaseURL);
int n2 = (int)strlen(g.zTop);
if( g.zBaseURL[n1-1]=='/' ) zURL++;
zLocation = mprintf("Location: %.*s%s\r\n", n1-n2, g.zBaseURL, zURL);
}else{
zLocation = mprintf("Location: %s/%s\r\n", g.zBaseURL, zURL);
}
cgi_append_header(zLocation);
cgi_reset_content();
cgi_printf("<html>\n<p>Redirect to %h</p>\n</html>\n", zLocation);
cgi_set_status(iStat, zStat);
free(zLocation);
cgi_reply();
fossil_exit(0);
}
NORETURN void cgi_redirect(const char *zURL){
cgi_redirect_with_status(zURL, 302, "Moved Temporarily");
}
NORETURN void cgi_redirect_with_method(const char *zURL){
cgi_redirect_with_status(zURL, 307, "Temporary Redirect");
}
NORETURN void cgi_redirectf(const char *zFormat, ...){
va_list ap;
va_start(ap, zFormat);
cgi_redirect(vmprintf(zFormat, ap));
va_end(ap);
}
/*
** Add a "Content-disposition: attachment; filename=%s" header to the reply.
*/
void cgi_content_disposition_filename(const char *zFilename){
char *z;
int i, n;
/* 0123456789 123456789 123456789 123456789 123456*/
z = mprintf("Content-Disposition: attachment; filename=\"%s\";\r\n",
file_tail(zFilename));
n = (int)strlen(z);
for(i=43; i<n-4; i++){
char c = z[i];
if( fossil_isalnum(c) ) continue;
if( c=='.' || c=='-' || c=='/' ) continue;
z[i] = '_';
}
cgi_append_header(z);
fossil_free(z);
}
/*
** Return the URL for the caller. This is obtained from either the
** "referer" CGI parameter, if it exists, or the HTTP_REFERER HTTP parameter.
** If neither exist, return zDefault.
*/
const char *cgi_referer(const char *zDefault){
const char *zRef = P("referer");
if( zRef==0 ){
zRef = P("HTTP_REFERER");
if( zRef==0 ) zRef = zDefault;
}
return zRef;
}
/*
** Return true if the current request appears to be safe from a
** Cross-Site Request Forgery (CSRF) attack. Conditions that must
** be met:
**
** * The HTTP_REFERER must have the same origin
** * The REQUEST_METHOD must be POST - or requirePost==0
*/
int cgi_csrf_safe(int requirePost){
const char *zRef = P("HTTP_REFERER");
int nBase;
if( zRef==0 ) return 0;
if( requirePost ){
const char *zMethod = P("REQUEST_METHOD");
if( zMethod==0 ) return 0;
if( strcmp(zMethod,"POST")!=0 ) return 0;
}
nBase = (int)strlen(g.zBaseURL);
if( strncmp(g.zBaseURL,zRef,nBase)!=0 ) return 0;
if( zRef[nBase]!=0 && zRef[nBase]!='/' ) return 0;
return 1;
}
/*
** Information about all query parameters, post parameter, cookies and
** CGI environment variables are stored in a hash table as follows:
*/
static int nAllocQP = 0; /* Space allocated for aParamQP[] */
static int nUsedQP = 0; /* Space actually used in aParamQP[] */
static int sortQP = 0; /* True if aParamQP[] needs sorting */
static int seqQP = 0; /* Sequence numbers */
static struct QParam { /* One entry for each query parameter or cookie */
const char *zName; /* Parameter or cookie name */
const char *zValue; /* Value of the query parameter or cookie */
int seq; /* Order of insertion */
char isQP; /* True for query parameters */
char cTag; /* Tag on query parameters */
} *aParamQP; /* An array of all parameters and cookies */
/*
** Add another query parameter or cookie to the parameter set.
** zName is the name of the query parameter or cookie and zValue
** is its fully decoded value.
**
** zName and zValue are not copied and must not change or be
** deallocated after this routine returns.
*/
void cgi_set_parameter_nocopy(const char *zName, const char *zValue, int isQP){
if( nAllocQP<=nUsedQP ){
nAllocQP = nAllocQP*2 + 10;
if( nAllocQP>1000 ){
/* Prevent a DOS service attack against the framework */
fossil_fatal("Too many query parameters");
}
aParamQP = fossil_realloc( aParamQP, nAllocQP*sizeof(aParamQP[0]) );
}
aParamQP[nUsedQP].zName = zName;
aParamQP[nUsedQP].zValue = zValue;
if( g.fHttpTrace ){
fprintf(stderr, "# cgi: %s = [%s]\n", zName, zValue);
}
aParamQP[nUsedQP].seq = seqQP++;
aParamQP[nUsedQP].isQP = isQP;
aParamQP[nUsedQP].cTag = 0;
nUsedQP++;
sortQP = 1;
}
/*
** Add another query parameter or cookie to the parameter set.
** zName is the name of the query parameter or cookie and zValue
** is its fully decoded value. zName will be modified to be an
** all lowercase string.
**
** zName and zValue are not copied and must not change or be
** deallocated after this routine returns. This routine changes
** all ASCII alphabetic characters in zName to lower case. The
** caller must not change them back.
*/
void cgi_set_parameter_nocopy_tolower(
char *zName,
const char *zValue,
int isQP
){
int i;
for(i=0; zName[i]; i++){ zName[i] = fossil_tolower(zName[i]); }
cgi_set_parameter_nocopy(zName, zValue, isQP);
}
/*
** Add another query parameter or cookie to the parameter set.
** zName is the name of the query parameter or cookie and zValue
** is its fully decoded value.
**
** Copies are made of both the zName and zValue parameters.
*/
void cgi_set_parameter(const char *zName, const char *zValue){
cgi_set_parameter_nocopy(fossil_strdup(zName),fossil_strdup(zValue), 0);
}
void cgi_set_query_parameter(const char *zName, const char *zValue){
cgi_set_parameter_nocopy(fossil_strdup(zName),fossil_strdup(zValue), 1);
}
/*
** Replace a parameter with a new value.
*/
void cgi_replace_parameter(const char *zName, const char *zValue){
int i;
for(i=0; i<nUsedQP; i++){
if( fossil_strcmp(aParamQP[i].zName,zName)==0 ){
aParamQP[i].zValue = zValue;
return;
}
}
cgi_set_parameter_nocopy(zName, zValue, 0);
}
void cgi_replace_query_parameter(const char *zName, const char *zValue){
int i;
for(i=0; i<nUsedQP; i++){
if( fossil_strcmp(aParamQP[i].zName,zName)==0 ){
aParamQP[i].zValue = zValue;
assert( aParamQP[i].isQP );
return;
}
}
cgi_set_parameter_nocopy(zName, zValue, 1);
}
void cgi_replace_query_parameter_tolower(char *zName, const char *zValue){
int i;
for(i=0; zName[i]; i++){ zName[i] = fossil_tolower(zName[i]); }
cgi_replace_query_parameter(zName, zValue);
}
/*
** Delete a parameter.
*/
void cgi_delete_parameter(const char *zName){
int i;
for(i=0; i<nUsedQP; i++){
if( fossil_strcmp(aParamQP[i].zName,zName)==0 ){
--nUsedQP;
if( i<nUsedQP ){
memmove(aParamQP+i, aParamQP+i+1, sizeof(*aParamQP)*(nUsedQP-i));
}
return;
}
}
}
void cgi_delete_query_parameter(const char *zName){
int i;
for(i=0; i<nUsedQP; i++){
if( fossil_strcmp(aParamQP[i].zName,zName)==0 ){
assert( aParamQP[i].isQP );
--nUsedQP;
if( i<nUsedQP ){
memmove(aParamQP+i, aParamQP+i+1, sizeof(*aParamQP)*(nUsedQP-i));
}
return;
}
}
}
/*
** Add an environment varaible value to the parameter set. The zName
** portion is fixed but a copy is be made of zValue.
*/
void cgi_setenv(const char *zName, const char *zValue){
cgi_set_parameter_nocopy(zName, fossil_strdup(zValue), 0);
}
/*
** Add a list of query parameters or cookies to the parameter set.
**
** Each parameter is of the form NAME=VALUE. Both the NAME and the
** VALUE may be url-encoded ("+" for space, "%HH" for other special
** characters). But this routine assumes that NAME contains no
** special character and therefore does not decode it.
**
** If NAME begins with another other than a lower-case letter then
** the entire NAME=VALUE term is ignored. Hence:
**
** * cookies and query parameters that have uppercase names
** are ignored.
**
** * it is impossible for a cookie or query parameter to
** override the value of an environment variable since
** environment variables always have uppercase names.
**
** 2018-03-29: Also ignore the entry if NAME that contains any characters
** other than [a-zA-Z0-9_]. There are no known exploits involving unusual
** names that contain characters outside that set, but it never hurts to
** be extra cautious when sanitizing inputs.
**
** Parameters are separated by the "terminator" character. Whitespace
** before the NAME is ignored.
**
** The input string "z" is modified but no copies is made. "z"
** should not be deallocated or changed again after this routine
** returns or it will corrupt the parameter table.
*/
static void add_param_list(char *z, int terminator){
int isQP = terminator=='&';
while( *z ){
char *zName;
char *zValue;
while( fossil_isspace(*z) ){ z++; }
zName = z;
while( *z && *z!='=' && *z!=terminator ){ z++; }
if( *z=='=' ){
*z = 0;
z++;
zValue = z;
while( *z && *z!=terminator ){ z++; }
if( *z ){
*z = 0;
z++;
}
dehttpize(zValue);
}else{
if( *z ){ *z++ = 0; }
zValue = "";
}
if( zName[0] && fossil_no_strange_characters(zName+1) ){
if( fossil_islower(zName[0]) ){
cgi_set_parameter_nocopy(zName, zValue, isQP);
}else if( fossil_isupper(zName[0]) ){
cgi_set_parameter_nocopy_tolower(zName, zValue, isQP);
}
}
#ifdef FOSSIL_ENABLE_JSON
json_setenv( zName, cson_value_new_string(zValue,strlen(zValue)) );
#endif /* FOSSIL_ENABLE_JSON */
}
}
/*
** *pz is a string that consists of multiple lines of text. This
** routine finds the end of the current line of text and converts
** the "\n" or "\r\n" that ends that line into a "\000". It then
** advances *pz to the beginning of the next line and returns the
** previous value of *pz (which is the start of the current line.)
*/
static char *get_line_from_string(char **pz, int *pLen){
char *z = *pz;
int i;
if( z[0]==0 ) return 0;
for(i=0; z[i]; i++){
if( z[i]=='\n' ){
if( i>0 && z[i-1]=='\r' ){
z[i-1] = 0;
}else{
z[i] = 0;
}
i++;
break;
}
}
*pz = &z[i];
*pLen -= i;
return z;
}
/*
** The input *pz points to content that is terminated by a "\r\n"
** followed by the boundary marker zBoundary. An extra "--" may or
** may not be appended to the boundary marker. There are *pLen characters
** in *pz.
**
** This routine adds a "\000" to the end of the content (overwriting
** the "\r\n") and returns a pointer to the content. The *pz input
** is adjusted to point to the first line following the boundary.
** The length of the content is stored in *pnContent.
*/
static char *get_bounded_content(
char **pz, /* Content taken from here */
int *pLen, /* Number of bytes of data in (*pz)[] */
char *zBoundary, /* Boundary text marking the end of content */
int *pnContent /* Write the size of the content here */
){
char *z = *pz;
int len = *pLen;
int i;
int nBoundary = strlen(zBoundary);
*pnContent = len;
for(i=0; i<len; i++){
if( z[i]=='\n' && strncmp(zBoundary, &z[i+1], nBoundary)==0 ){
if( i>0 && z[i-1]=='\r' ) i--;
z[i] = 0;
*pnContent = i;
i += nBoundary;
break;
}
}
*pz = &z[i];
get_line_from_string(pz, pLen);
return z;
}
/*
** Tokenize a line of text into as many as nArg tokens. Make
** azArg[] point to the start of each token.
**
** Tokens consist of space or semi-colon delimited words or
** strings inside double-quotes. Example:
**
** content-disposition: form-data; name="fn"; filename="index.html"
**
** The line above is tokenized as follows:
**
** azArg[0] = "content-disposition:"
** azArg[1] = "form-data"
** azArg[2] = "name="
** azArg[3] = "fn"
** azArg[4] = "filename="
** azArg[5] = "index.html"
** azArg[6] = 0;
**
** '\000' characters are inserted in z[] at the end of each token.
** This routine returns the total number of tokens on the line, 6
** in the example above.
*/
static int tokenize_line(char *z, int mxArg, char **azArg){
int i = 0;
while( *z ){
while( fossil_isspace(*z) || *z==';' ){ z++; }
if( *z=='"' && z[1] ){
*z = 0;
z++;
if( i<mxArg-1 ){ azArg[i++] = z; }
while( *z && *z!='"' ){ z++; }
if( *z==0 ) break;
*z = 0;
z++;
}else{
if( i<mxArg-1 ){ azArg[i++] = z; }
while( *z && !fossil_isspace(*z) && *z!=';' && *z!='"' ){ z++; }
if( *z && *z!='"' ){
*z = 0;
z++;
}
}
}
azArg[i] = 0;
return i;
}
/*
** Scan the multipart-form content and make appropriate entries
** into the parameter table.
**
** The content string "z" is modified by this routine but it is
** not copied. The calling function must not deallocate or modify
** "z" after this routine finishes or it could corrupt the parameter
** table.
*/
static void process_multipart_form_data(char *z, int len){
char *zLine;
int nArg, i;
char *zBoundary;
char *zValue;
char *zName = 0;
int showBytes = 0;
char *azArg[50];
zBoundary = get_line_from_string(&z, &len);
if( zBoundary==0 ) return;
while( (zLine = get_line_from_string(&z, &len))!=0 ){
if( zLine[0]==0 ){
int nContent = 0;
zValue = get_bounded_content(&z, &len, zBoundary, &nContent);
if( zName && zValue ){
if( fossil_islower(zName[0]) ){
cgi_set_parameter_nocopy(zName, zValue, 1);
if( showBytes ){
cgi_set_parameter_nocopy(mprintf("%s:bytes", zName),
mprintf("%d",nContent), 1);
}
}else if( fossil_isupper(zName[0]) ){
cgi_set_parameter_nocopy_tolower(zName, zValue, 1);
if( showBytes ){
cgi_set_parameter_nocopy_tolower(mprintf("%s:bytes", zName),
mprintf("%d",nContent), 1);
}
}
}
zName = 0;
showBytes = 0;
}else{
nArg = tokenize_line(zLine, count(azArg), azArg);
for(i=0; i<nArg; i++){
int c = fossil_tolower(azArg[i][0]);
int n = strlen(azArg[i]);
if( c=='c' && sqlite3_strnicmp(azArg[i],"content-disposition:",n)==0 ){
i++;
}else if( c=='n' && sqlite3_strnicmp(azArg[i],"name=",n)==0 ){
zName = azArg[++i];
}else if( c=='f' && sqlite3_strnicmp(azArg[i],"filename=",n)==0 ){
char *z = azArg[++i];
if( zName && z ){
if( fossil_islower(zName[0]) ){
cgi_set_parameter_nocopy(mprintf("%s:filename",zName), z, 1);
}else if( fossil_isupper(zName[0]) ){
cgi_set_parameter_nocopy_tolower(mprintf("%s:filename",zName),
z, 1);
}
}
showBytes = 1;
}else if( c=='c' && sqlite3_strnicmp(azArg[i],"content-type:",n)==0 ){
char *z = azArg[++i];
if( zName && z ){
if( fossil_islower(zName[0]) ){
cgi_set_parameter_nocopy(mprintf("%s:mimetype",zName), z, 1);
}else if( fossil_isupper(zName[0]) ){
cgi_set_parameter_nocopy_tolower(mprintf("%s:mimetype",zName),
z, 1);
}
}
}
}
}
}
}
#ifdef FOSSIL_ENABLE_JSON
/*
** Reads a JSON object from the given blob, which is assumed to have
** been populated by the caller from stdin, the SSL API, or a file, as
** appropriate for the particular use case. On success g.json.post is
** updated to hold the content. On error a FSL_JSON_E_INVALID_REQUEST
** response is output and fossil_exit() is called (in HTTP mode exit
** code 0 is used).
*/
void cgi_parse_POST_JSON( Blob * pIn ){
cson_value * jv = NULL;
cson_parse_info pinfo = cson_parse_info_empty;
assert(g.json.gc.a && "json_bootstrap_early() was not called!");
jv = cson_parse_Blob(pIn, &pinfo);
if( jv==NULL ){
goto invalidRequest;
}else{
json_gc_add( "POST.JSON", jv );
g.json.post.v = jv;
g.json.post.o = cson_value_get_object( jv );
if( !g.json.post.o ){ /* we don't support non-Object (Array) requests */
goto invalidRequest;
}
}
return;
invalidRequest:
cgi_set_content_type(json_guess_content_type());
if(0 != pinfo.errorCode){ /* fancy error message */
char * msg = mprintf("JSON parse error at line %u, column %u, "
"byte offset %u: %s",
pinfo.line, pinfo.col, pinfo.length,
cson_rc_string(pinfo.errorCode));
json_err( FSL_JSON_E_INVALID_REQUEST, msg, 1 );
fossil_free(msg);
}else if(jv && !g.json.post.o){
json_err( FSL_JSON_E_INVALID_REQUEST,
"Request envelope must be a JSON Object (not array).", 1 );
}else{ /* generic error message */
json_err( FSL_JSON_E_INVALID_REQUEST, NULL, 1 );
}
fossil_exit( g.isHTTP ? 0 : 1);
}
#endif /* FOSSIL_ENABLE_JSON */
/*
** Log HTTP traffic to a file. Begin the log on first use. Close the log
** when the argument is NULL.
*/
void cgi_trace(const char *z){
static FILE *pLog = 0;
if( g.fHttpTrace==0 ) return;
if( z==0 ){
if( pLog ) fclose(pLog);
pLog = 0;
return;
}
if( pLog==0 ){
char zFile[50];
#if defined(_WIN32)
unsigned r;
sqlite3_randomness(sizeof(r), &r);
sqlite3_snprintf(sizeof(zFile), zFile, "httplog-%08x.txt", r);
#else
sqlite3_snprintf(sizeof(zFile), zFile, "httplog-%05d.txt", getpid());
#endif
pLog = fossil_fopen(zFile, "wb");
if( pLog ){
fprintf(stderr, "# open log on %s\n", zFile);
}else{
fprintf(stderr, "# failed to open %s\n", zFile);
return;
}
}
fputs(z, pLog);
}
/* Forward declaration */
static NORETURN void malformed_request(const char *zMsg);
/*
** Checks the QUERY_STRING environment variable, sets it up
** via add_param_list() and, if found, applies its "skin"
** setting. Returns 0 if no QUERY_STRING is set, 1 if it is,
** and 2 if it sets the skin (in which case the cookie may
** still need flushing by the page, via cookie_render()).
*/
int cgi_setup_query_string(void){
int rc = 0;
char * z = (char*)P("QUERY_STRING");
if( z ){
++rc;
z = fossil_strdup(z);
add_param_list(z, '&');
z = (char*)P("skin");
if(z){
char *zErr = skin_use_alternative(z, 2);
++rc;
if(!zErr && !P("once")){
cookie_write_parameter("skin","skin",z);
}
fossil_free(zErr);
}
}
return rc;
}
/*
** Initialize the query parameter database. Information is pulled from
** the QUERY_STRING environment variable (if it exists), from standard
** input if there is POST data, and from HTTP_COOKIE.
**
** REQUEST_URI, PATH_INFO, and SCRIPT_NAME are related as follows:
**
** REQUEST_URI == SCRIPT_NAME + PATH_INFO
**
** Or if QUERY_STRING is not empty:
**
** REQUEST_URI == SCRIPT_NAME + PATH_INFO + '?' + QUERY_STRING
**
** Where "+" means concatenate. Fossil requires SCRIPT_NAME. If
** REQUEST_URI is provided but PATH_INFO is not, then PATH_INFO is
** computed from REQUEST_URI and SCRIPT_NAME. If PATH_INFO is provided
** but REQUEST_URI is not, then compute REQUEST_URI from PATH_INFO and
** SCRIPT_NAME. If neither REQUEST_URI nor PATH_INFO are provided, then
** assume that PATH_INFO is an empty string and set REQUEST_URI equal
** to PATH_INFO.
**
** Sometimes PATH_INFO is missing and SCRIPT_NAME is not a prefix of
** REQUEST_URI. (See https://fossil-scm.org/forum/forumpost/049e8650ed)
** In that case, truncate SCRIPT_NAME so that it is a proper prefix
** of REQUEST_URI.
**
** SCGI typically omits PATH_INFO. CGI sometimes omits REQUEST_URI and
** PATH_INFO when it is empty.
**
** CGI Parameter quick reference:
**
** REQUEST_URI
** _____________|________________
** / \
** https://fossil-scm.org/forum/info/12736b30c072551a?t=c
** \___/ \____________/\____/\____________________/ \_/
** | | | | |
** | HTTP_HOST | PATH_INFO QUERY_STRING
** | |
** REQUEST_SCHEMA SCRIPT_NAME
**
*/
void cgi_init(void){
char *z;
const char *zType;
char *zSemi;
int len;
const char *zRequestUri = cgi_parameter("REQUEST_URI",0);
const char *zScriptName = cgi_parameter("SCRIPT_NAME",0);
const char *zPathInfo = cgi_parameter("PATH_INFO",0);
#ifdef _WIN32
const char *zServerSoftware = cgi_parameter("SERVER_SOFTWARE",0);
#endif
#ifdef FOSSIL_ENABLE_JSON
const int noJson = P("no_json")!=0;
#endif
g.isHTTP = 1;
cgi_destination(CGI_BODY);
/* We must have SCRIPT_NAME. If the web server did not supply it, try
** to compute it from REQUEST_URI and PATH_INFO. */
if( zScriptName==0 ){
if( zRequestUri==0 || zPathInfo==0 ){
malformed_request("missing SCRIPT_NAME"); /* Does not return */
}
z = strstr(zRequestUri,zPathInfo);
if( z==0 ){
malformed_request("PATH_INFO not found in REQUEST_URI");
}
zScriptName = fossil_strndup(zRequestUri,(int)(z-zRequestUri));
cgi_set_parameter("SCRIPT_NAME", zScriptName);
}
#ifdef _WIN32
/* The Microsoft IIS web server does not define REQUEST_URI, instead it uses
** PATH_INFO for virtually the same purpose. Define REQUEST_URI the same as
** PATH_INFO and redefine PATH_INFO with SCRIPT_NAME removed from the
** beginning. */
if( zServerSoftware && strstr(zServerSoftware, "Microsoft-IIS") ){
int i, j;
cgi_set_parameter("REQUEST_URI", zPathInfo);
for(i=0; zPathInfo[i]==zScriptName[i] && zPathInfo[i]; i++){}
for(j=i; zPathInfo[j] && zPathInfo[j]!='?'; j++){}
zPathInfo = fossil_strndup(zPathInfo+i, j-i);
cgi_replace_parameter("PATH_INFO", zPathInfo);
}
#endif
if( zRequestUri==0 ){
const char *z = zPathInfo;
const char *zQS = cgi_parameter("QUERY_STRING",0);
if( zPathInfo==0 ){
malformed_request("missing PATH_INFO and/or REQUEST_URI");
}
if( z[0]=='/' ) z++;
if( zQS && zQS[0] ){
zRequestUri = mprintf("%s/%s?%s", zScriptName, z, zQS);
}else{
zRequestUri = mprintf("%s/%s", zScriptName, z);
}
cgi_set_parameter("REQUEST_URI", zRequestUri);
}
if( zPathInfo==0 ){
int i, j;
for(i=0; zRequestUri[i]==zScriptName[i] && zRequestUri[i]; i++){}
for(j=i; zRequestUri[j] && zRequestUri[j]!='?'; j++){}
zPathInfo = fossil_strndup(zRequestUri+i, j-i);
cgi_set_parameter_nocopy("PATH_INFO", zPathInfo, 0);
if( j>i && zScriptName[i]!=0 ){
/* If SCRIPT_NAME is not a prefix of REQUEST_URI, truncate it so
** that it is. See https://fossil-scm.org/forum/forumpost/049e8650ed
*/
char *zNew = fossil_strndup(zScriptName, i);
cgi_replace_parameter("SCRIPT_NAME", zNew);
}
}
#ifdef FOSSIL_ENABLE_JSON
if(noJson==0 && json_request_is_json_api(zPathInfo)){
/* We need to change some following behaviour depending on whether
** we are operating in JSON mode or not. We cannot, however, be
** certain whether we should/need to be in JSON mode until the
** PATH_INFO is set up.
*/
g.json.isJsonMode = 1;
json_bootstrap_early();
}else{
assert(!g.json.isJsonMode &&
"Internal misconfiguration of g.json.isJsonMode");
}
#endif
z = (char*)P("HTTP_COOKIE");
if( z ){
z = fossil_strdup(z);
add_param_list(z, ';');
z = (char*)cookie_value("skin",0);
if(z){
skin_use_alternative(z, 2);
}
}
cgi_setup_query_string();
z = (char*)P("REMOTE_ADDR");
if( z ){
g.zIpAddr = fossil_strdup(z);
}
len = atoi(PD("CONTENT_LENGTH", "0"));
zType = P("CONTENT_TYPE");
zSemi = zType ? strchr(zType, ';') : 0;
if( zSemi ){
g.zContentType = fossil_strndup(zType, (int)(zSemi-zType));
zType = g.zContentType;
}else{
g.zContentType = zType;
}
blob_zero(&g.cgiIn);
if( len>0 && zType ){
if( blob_read_from_cgi(&g.cgiIn, len)<len ){
char *zMsg = mprintf("CGI content-length mismatch: Wanted %d bytes"
" but got only %d\n", len, blob_size(&g.cgiIn));
malformed_request(zMsg);
}
if( fossil_strcmp(zType, "application/x-fossil")==0 ){
blob_uncompress(&g.cgiIn, &g.cgiIn);
}
#ifdef FOSSIL_ENABLE_JSON
if( noJson==0 && g.json.isJsonMode!=0
&& json_can_consume_content_type(zType)!=0 ){
cgi_parse_POST_JSON(&g.cgiIn);
cgi_set_content_type(json_guess_content_type());
}
#endif /* FOSSIL_ENABLE_JSON */
}
}
/*
** Decode POST parameter information in the cgiIn content, if any.
*/
void cgi_decode_post_parameters(void){
int len = blob_size(&g.cgiIn);
if( len==0 ) return;
if( fossil_strcmp(g.zContentType,"application/x-www-form-urlencoded")==0
|| strncmp(g.zContentType,"multipart/form-data",19)==0
){
char *z = blob_str(&g.cgiIn);
cgi_trace(z);
if( g.zContentType[0]=='a' ){
add_param_list(z, '&');
}else{
process_multipart_form_data(z, len);
}
blob_init(&g.cgiIn, 0, 0);
}
}
/*
** This is the comparison function used to sort the aParamQP[] array of
** query parameters and cookies.
*/
static int qparam_compare(const void *a, const void *b){
struct QParam *pA = (struct QParam*)a;
struct QParam *pB = (struct QParam*)b;
int c;
c = fossil_strcmp(pA->zName, pB->zName);
if( c==0 ){
c = pA->seq - pB->seq;
}
return c;
}
/*
** Return the value of a query parameter or cookie whose name is zName.
** If there is no query parameter or cookie named zName and the first
** character of zName is uppercase, then check to see if there is an
** environment variable by that name and return it if there is. As
** a last resort when nothing else matches, return zDefault.
*/
const char *cgi_parameter(const char *zName, const char *zDefault){
int lo, hi, mid, c;
/* The sortQP flag is set whenever a new query parameter is inserted.
** It indicates that we need to resort the query parameters.
*/
if( sortQP ){
int i, j;
qsort(aParamQP, nUsedQP, sizeof(aParamQP[0]), qparam_compare);
sortQP = 0;
/* After sorting, remove duplicate parameters. The secondary sort
** key is aParamQP[].seq and we keep the first entry. That means
** with duplicate calls to cgi_set_parameter() the second and
** subsequent calls are effectively no-ops. */
for(i=j=1; i<nUsedQP; i++){
if( fossil_strcmp(aParamQP[i].zName,aParamQP[i-1].zName)==0 ){
continue;
}
if( j<i ){
memcpy(&aParamQP[j], &aParamQP[i], sizeof(aParamQP[j]));
}
j++;
}
nUsedQP = j;
}
/* Invoking with a NULL zName is just a way to cause the parameters
** to be sorted. So go ahead and bail out in that case */
if( zName==0 || zName[0]==0 ) return 0;
/* Do a binary search for a matching query parameter */
lo = 0;
hi = nUsedQP-1;
while( lo<=hi ){
mid = (lo+hi)/2;
c = fossil_strcmp(aParamQP[mid].zName, zName);
if( c==0 ){
CGIDEBUG(("mem-match [%s] = [%s]\n", zName, aParamQP[mid].zValue));
return aParamQP[mid].zValue;
}else if( c>0 ){
hi = mid-1;
}else{
lo = mid+1;
}
}
/* If no match is found and the name begins with an upper-case
** letter, then check to see if there is an environment variable
** with the given name.
*/
if( fossil_isupper(zName[0]) ){
const char *zValue = fossil_getenv(zName);
if( zValue ){
cgi_set_parameter_nocopy(zName, zValue, 0);
CGIDEBUG(("env-match [%s] = [%s]\n", zName, zValue));
return zValue;
}
}
CGIDEBUG(("no-match [%s]\n", zName));
return zDefault;
}
/*
** Return the value of the first defined query parameter or cookie whose
** name appears in the list of arguments. Or if no parameter is found,
** return NULL.
*/
const char *cgi_coalesce(const char *zName, ...){
va_list ap;
const char *z;
const char *zX;
if( zName==0 ) return 0;
z = cgi_parameter(zName, 0);
va_start(ap, zName);
while( z==0 && (zX = va_arg(ap,const char*))!=0 ){
z = cgi_parameter(zX, 0);
}
va_end(ap);
return z;
}
/*
** Return the value of a CGI parameter with leading and trailing
** spaces removed and with internal \r\n changed to just \n
*/
char *cgi_parameter_trimmed(const char *zName, const char *zDefault){
const char *zIn;
char *zOut, c;
int i, j;
zIn = cgi_parameter(zName, 0);
if( zIn==0 ) zIn = zDefault;
if( zIn==0 ) return 0;
while( fossil_isspace(zIn[0]) ) zIn++;
zOut = fossil_strdup(zIn);
for(i=j=0; (c = zOut[i])!=0; i++){
if( c=='\r' && zOut[i+1]=='\n' ) continue;
zOut[j++] = c;
}
zOut[j] = 0;
while( j>0 && fossil_isspace(zOut[j-1]) ) zOut[--j] = 0;
return zOut;
}
/*
** Return true if the CGI parameter zName exists and is not equal to 0,
** or "no" or "off".
*/
int cgi_parameter_boolean(const char *zName){
const char *zIn = cgi_parameter(zName, 0);
if( zIn==0 ) return 0;
return zIn[0]==0 || is_truth(zIn);
}
/*
** Return either an empty string "" or the string "checked" depending
** on whether or not parameter zName has value iValue. If parameter
** zName does not exist, that is assumed to be the same as value 0.
**
** This routine implements the PCK(x) and PIF(x,y) macros. The PIF(x,y)
** macro generateds " checked" if the value of parameter x equals integer y.
** PCK(x) is the same as PIF(x,1). These macros are used to generate
** the "checked" attribute on checkbox and radio controls of forms.
*/
const char *cgi_parameter_checked(const char *zName, int iValue){
const char *zIn = cgi_parameter(zName,0);
int x;
if( zIn==0 ){
x = 0;
}else if( !fossil_isdigit(zIn[0]) ){
x = is_truth(zIn);
}else{
x = atoi(zIn);
}
return x==iValue ? "checked" : "";
}
/*
** Return the name of the i-th CGI parameter. Return NULL if there
** are fewer than i registered CGI parameters.
*/
const char *cgi_parameter_name(int i){
if( i>=0 && i<nUsedQP ){
return aParamQP[i].zName;
}else{
return 0;
}
}
/*
** Print CGI debugging messages.
*/
void cgi_debug(const char *zFormat, ...){
va_list ap;
if( g.fDebug ){
va_start(ap, zFormat);
vfprintf(g.fDebug, zFormat, ap);
va_end(ap);
fflush(g.fDebug);
}
}
/*
** Return true if any of the query parameters in the argument
** list are defined.
*/
int cgi_any(const char *z, ...){
va_list ap;
char *z2;
if( cgi_parameter(z,0)!=0 ) return 1;
va_start(ap, z);
while( (z2 = va_arg(ap, char*))!=0 ){
if( cgi_parameter(z2,0)!=0 ) return 1;
}
va_end(ap);
return 0;
}
/*
** Return true if all of the query parameters in the argument list
** are defined.
*/
int cgi_all(const char *z, ...){
va_list ap;
char *z2;
if( cgi_parameter(z,0)==0 ) return 0;
va_start(ap, z);
while( (z2 = va_arg(ap, char*))==0 ){
if( cgi_parameter(z2,0)==0 ) return 0;
}
va_end(ap);
return 1;
}
/*
** Load all relevant environment variables into the parameter buffer.
** Invoke this routine prior to calling cgi_print_all() in order to see
** the full CGI environment. This routine intended for debugging purposes
** only.
*/
void cgi_load_environment(void){
/* The following is a list of environment variables that Fossil considers
** to be "relevant". */
static const char *const azCgiVars[] = {
"COMSPEC", "DOCUMENT_ROOT", "GATEWAY_INTERFACE", "SCGI",
"HTTP_ACCEPT", "HTTP_ACCEPT_CHARSET", "HTTP_ACCEPT_ENCODING",
"HTTP_ACCEPT_LANGUAGE", "HTTP_AUTHENICATION",
"HTTP_CONNECTION", "HTTP_HOST",
"HTTP_IF_NONE_MATCH", "HTTP_IF_MODIFIED_SINCE",
"HTTP_USER_AGENT", "HTTP_REFERER", "PATH_INFO", "PATH_TRANSLATED",
"QUERY_STRING", "REMOTE_ADDR", "REMOTE_PORT",
"REMOTE_USER", "REQUEST_METHOD", "REQUEST_SCHEME",
"REQUEST_URI", "SCRIPT_FILENAME", "SCRIPT_NAME", "SERVER_NAME",
"SERVER_PROTOCOL", "HOME", "FOSSIL_HOME", "USERNAME", "USER",
"FOSSIL_USER", "SQLITE_TMPDIR", "TMPDIR",
"TEMP", "TMP", "FOSSIL_VFS",
"FOSSIL_FORCE_TICKET_MODERATION", "FOSSIL_FORCE_WIKI_MODERATION",
"FOSSIL_TCL_PATH", "TH1_DELETE_INTERP", "TH1_ENABLE_DOCS",
"TH1_ENABLE_HOOKS", "TH1_ENABLE_TCL", "REMOTE_HOST",
};
int i;
for(i=0; i<count(azCgiVars); i++) (void)P(azCgiVars[i]);
}
/*
** Print all query parameters on standard output.
** This is used for testing and debugging.
**
** Omit the values of the cookies unless showAll is true.
**
** The eDest parameter determines where the output is shown:
**
** eDest==0: Rendering as HTML into the CGI reply
** eDest==1: Written to stderr
** eDest==2: Written to cgi_debug
*/
void cgi_print_all(int showAll, unsigned int eDest){
int i;
cgi_parameter("",""); /* Force the parameters into sorted order */
for(i=0; i<nUsedQP; i++){
const char *zName = aParamQP[i].zName;
if( !showAll ){
if( fossil_stricmp("HTTP_COOKIE",zName)==0 ) continue;
if( fossil_strnicmp("fossil-",zName,7)==0 ) continue;
}
switch( eDest ){
case 0: {
cgi_printf("%h = %h <br />\n", zName, aParamQP[i].zValue);
break;
}
case 1: {
fossil_trace("%s = %s\n", zName, aParamQP[i].zValue);
break;
}
case 2: {
cgi_debug("%s = %s\n", zName, aParamQP[i].zValue);
break;
}
}
}
}
/*
** Put information about the N-th parameter into arguments.
** Return non-zero on success, and return 0 if there is no N-th parameter.
*/
int cgi_param_info(
int N,
const char **pzName,
const char **pzValue,
int *pbIsQP
){
if( N>=0 && N<nUsedQP ){
*pzName = aParamQP[N].zName;
*pzValue = aParamQP[N].zValue;
*pbIsQP = aParamQP[N].isQP;
return 1;
}else{
*pzName = 0;
*pzValue = 0;
*pbIsQP = 0;
return 0;
}
}
/*
** Export all untagged query parameters (but not cookies or environment
** variables) as hidden values of a form.
*/
void cgi_query_parameters_to_hidden(void){
int i;
const char *zN, *zV;
for(i=0; i<nUsedQP; i++){
if( aParamQP[i].isQP==0 || aParamQP[i].cTag ) continue;
zN = aParamQP[i].zName;
zV = aParamQP[i].zValue;
@ <input type="hidden" name="%h(zN)" value="%h(zV)">
}
}
/*
** Export all untagged query parameters (but not cookies or environment
** variables) to the HQuery object.
*/
void cgi_query_parameters_to_url(HQuery *p){
int i;
for(i=0; i<nUsedQP; i++){
if( aParamQP[i].isQP==0 || aParamQP[i].cTag ) continue;
url_add_parameter(p, aParamQP[i].zName, aParamQP[i].zValue);
}
}
/*
** Tag query parameter zName so that it is not exported by
** cgi_query_parameters_to_hidden(). Or if zName==0, then
** untag all query parameters.
*/
void cgi_tag_query_parameter(const char *zName){
int i;
if( zName==0 ){
for(i=0; i<nUsedQP; i++) aParamQP[i].cTag = 0;
}else{
for(i=0; i<nUsedQP; i++){
if( strcmp(zName,aParamQP[i].zName)==0 ) aParamQP[i].cTag = 1;
}
}
}
/*
** This routine works like "printf" except that it has the
** extra formatting capabilities such as %h and %t.
*/
void cgi_printf(const char *zFormat, ...){
va_list ap;
va_start(ap,zFormat);
vxprintf(pContent,zFormat,ap);
va_end(ap);
}
/*
** This routine works like "vprintf" except that it has the
** extra formatting capabilities such as %h and %t.
*/
void cgi_vprintf(const char *zFormat, va_list ap){
vxprintf(pContent,zFormat,ap);
}
/*
** Send a reply indicating that the HTTP request was malformed
*/
static NORETURN void malformed_request(const char *zMsg){
cgi_set_status(501, "Not Implemented");
cgi_printf(
"<html><body><p>Bad Request: %s</p></body></html>\n", zMsg
);
cgi_reply();
fossil_exit(0);
}
/*
** Panic and die while processing a webpage.
*/
NORETURN void cgi_panic(const char *zFormat, ...){
va_list ap;
cgi_reset_content();
#ifdef FOSSIL_ENABLE_JSON
if( g.json.isJsonMode ){
char * zMsg;
va_start(ap, zFormat);
zMsg = vmprintf(zFormat,ap);
va_end(ap);
json_err( FSL_JSON_E_PANIC, zMsg, 1 );
free(zMsg);
fossil_exit( g.isHTTP ? 0 : 1 );
}else
#endif /* FOSSIL_ENABLE_JSON */
{
cgi_set_status(500, "Internal Server Error");
cgi_printf(
"<html><body><h1>Internal Server Error</h1>\n"
"<plaintext>"
);
va_start(ap, zFormat);
vxprintf(pContent,zFormat,ap);
va_end(ap);
cgi_reply();
fossil_exit(1);
}
}
/* z[] is the value of an X-FORWARDED-FOR: line in an HTTP header.
** Return a pointer to a string containing the real IP address, or a
** NULL pointer to stick with the IP address previously computed and
** loaded into g.zIpAddr.
*/
static const char *cgi_accept_forwarded_for(const char *z){
int i;
if( !cgi_is_loopback(g.zIpAddr) ){
/* Only accept X-FORWARDED-FOR if input coming from the local machine */
return 0;
}
i = strlen(z)-1;
while( i>=0 && z[i]!=',' && !fossil_isspace(z[i]) ) i--;
return &z[++i];
}
/*
** 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 *extract_token(char *zInput, char **zLeftOver){
char *zResult = 0;
if( zInput==0 ){
if( zLeftOver ) *zLeftOver = 0;
return 0;
}
while( fossil_isspace(*zInput) ){ zInput++; }
zResult = zInput;
while( *zInput && !fossil_isspace(*zInput) ){ zInput++; }
if( *zInput ){
*zInput = 0;
zInput++;
while( fossil_isspace(*zInput) ){ zInput++; }
}
if( zLeftOver ){ *zLeftOver = zInput; }
return zResult;
}
/*
** Determine the IP address on the other side of a connection.
** Return a pointer to a string. Or return 0 if unable.
**
** The string is held in a static buffer that is overwritten on
** each call.
*/
char *cgi_remote_ip(int fd){
#if 0
static char zIp[100];
struct sockaddr_in6 addr;
socklen_t sz = sizeof(addr);
if( getpeername(fd, &addr, &sz) ) return 0;
zIp[0] = 0;
if( inet_ntop(AF_INET6, &addr, zIp, sizeof(zIp))==0 ){
return 0;
}
return zIp;
#else
struct sockaddr_in remoteName;
socklen_t size = sizeof(struct sockaddr_in);
if( getpeername(fd, (struct sockaddr*)&remoteName, &size) ) return 0;
return inet_ntoa(remoteName.sin_addr);
#endif
}
/*
** This routine handles a single HTTP request which is coming in on
** g.httpIn and which replies on g.httpOut
**
** The HTTP request is read from g.httpIn and is used to initialize
** entries in the cgi_parameter() hash, as if those entries were
** environment variables. A call to cgi_init() completes
** the setup. Once all the setup is finished, this procedure returns
** and subsequent code handles the actual generation of the webpage.
*/
void cgi_handle_http_request(const char *zIpAddr){
char *z, *zToken;
int i;
const char *zScheme = "http";
char zLine[2000]; /* A single line of input. */
g.fullHttpReply = 1;
if( cgi_fgets(zLine, sizeof(zLine))==0 ){
malformed_request("missing HTTP header");
}
blob_append(&g.httpHeader, zLine, -1);
cgi_trace(zLine);
zToken = extract_token(zLine, &z);
if( zToken==0 ){
malformed_request("malformed HTTP header");
}
if( fossil_strcmp(zToken,"GET")!=0
&& fossil_strcmp(zToken,"POST")!=0
&& fossil_strcmp(zToken,"HEAD")!=0
){
malformed_request("unsupported HTTP method");
}
cgi_setenv("GATEWAY_INTERFACE","CGI/1.0");
cgi_setenv("REQUEST_METHOD",zToken);
zToken = extract_token(z, &z);
if( zToken==0 ){
malformed_request("malformed URL in HTTP header");
}
cgi_setenv("REQUEST_URI", zToken);
cgi_setenv("SCRIPT_NAME", "");
for(i=0; zToken[i] && zToken[i]!='?'; i++){}
if( zToken[i] ) zToken[i++] = 0;
cgi_setenv("PATH_INFO", zToken);
cgi_setenv("QUERY_STRING", &zToken[i]);
if( zIpAddr==0 ){
zIpAddr = cgi_remote_ip(fileno(g.httpIn));
}
if( zIpAddr ){
cgi_setenv("REMOTE_ADDR", zIpAddr);
g.zIpAddr = fossil_strdup(zIpAddr);
}
/* Get all the optional fields that follow the first line.
*/
while( cgi_fgets(zLine,sizeof(zLine)) ){
char *zFieldName;
char *zVal;
cgi_trace(zLine);
blob_append(&g.httpHeader, zLine, -1);
zFieldName = extract_token(zLine,&zVal);
if( zFieldName==0 || *zFieldName==0 ) break;
while( fossil_isspace(*zVal) ){ zVal++; }
i = strlen(zVal);
while( i>0 && fossil_isspace(zVal[i-1]) ){ i--; }
zVal[i] = 0;
for(i=0; zFieldName[i]; i++){
zFieldName[i] = fossil_tolower(zFieldName[i]);
}
if( fossil_strcmp(zFieldName,"accept-encoding:")==0 ){
cgi_setenv("HTTP_ACCEPT_ENCODING", zVal);
}else if( fossil_strcmp(zFieldName,"content-length:")==0 ){
cgi_setenv("CONTENT_LENGTH", zVal);
}else if( fossil_strcmp(zFieldName,"content-type:")==0 ){
cgi_setenv("CONTENT_TYPE", zVal);
}else if( fossil_strcmp(zFieldName,"cookie:")==0 ){
cgi_setenv("HTTP_COOKIE", zVal);
}else if( fossil_strcmp(zFieldName,"https:")==0 ){
cgi_setenv("HTTPS", zVal);
zScheme = "https";
}else if( fossil_strcmp(zFieldName,"host:")==0 ){
char *z;
cgi_setenv("HTTP_HOST", zVal);
z = strchr(zVal, ':');
if( z ) z[0] = 0;
cgi_setenv("SERVER_NAME", zVal);
}else if( fossil_strcmp(zFieldName,"if-none-match:")==0 ){
cgi_setenv("HTTP_IF_NONE_MATCH", zVal);
}else if( fossil_strcmp(zFieldName,"if-modified-since:")==0 ){
cgi_setenv("HTTP_IF_MODIFIED_SINCE", zVal);
}else if( fossil_strcmp(zFieldName,"referer:")==0 ){
cgi_setenv("HTTP_REFERER", zVal);
}else if( fossil_strcmp(zFieldName,"user-agent:")==0 ){
cgi_setenv("HTTP_USER_AGENT", zVal);
}else if( fossil_strcmp(zFieldName,"authorization:")==0 ){
cgi_setenv("HTTP_AUTHORIZATION", zVal);
}else if( fossil_strcmp(zFieldName,"x-forwarded-for:")==0 ){
const char *zIpAddr = cgi_accept_forwarded_for(zVal);
if( zIpAddr!=0 ){
g.zIpAddr = fossil_strdup(zIpAddr);
cgi_replace_parameter("REMOTE_ADDR", g.zIpAddr);
}
}else if( fossil_strcmp(zFieldName,"range:")==0 ){
int x1 = 0;
int x2 = 0;
if( sscanf(zVal,"bytes=%d-%d",&x1,&x2)==2 && x1>=0 && x1<=x2 ){
rangeStart = x1;
rangeEnd = x2+1;
}
}
}
cgi_setenv("REQUEST_SCHEME",zScheme);
cgi_init();
cgi_trace(0);
}
/*
** This routine handles a single HTTP request from an SSH client which is
** coming in on g.httpIn and which replies on g.httpOut
**
** Once all the setup is finished, this procedure returns
** and subsequent code handles the actual generation of the webpage.
**
** It is called in a loop so some variables will need to be replaced
*/
void cgi_handle_ssh_http_request(const char *zIpAddr){
static int nCycles = 0;
static char *zCmd = 0;
char *z, *zToken;
const char *zType = 0;
int i, content_length = 0;
char zLine[2000]; /* A single line of input. */
assert( !g.httpUseSSL );
#ifdef FOSSIL_ENABLE_JSON
if( nCycles==0 ){ json_bootstrap_early(); }
#endif
if( zIpAddr ){
if( nCycles==0 ){
cgi_setenv("REMOTE_ADDR", zIpAddr);
g.zIpAddr = fossil_strdup(zIpAddr);
}
}else{
fossil_fatal("missing SSH IP address");
}
if( fgets(zLine, sizeof(zLine),g.httpIn)==0 ){
malformed_request("missing HTTP header");
}
cgi_trace(zLine);
zToken = extract_token(zLine, &z);
if( zToken==0 ){
malformed_request("malformed HTTP header");
}
if( fossil_strcmp(zToken, "echo")==0 ){
/* start looking for probes to complete transport_open */
zCmd = cgi_handle_ssh_probes(zLine, sizeof(zLine), z, zToken);
if( fgets(zLine, sizeof(zLine),g.httpIn)==0 ){
malformed_request("missing HTTP header");
}
cgi_trace(zLine);
zToken = extract_token(zLine, &z);
if( zToken==0 ){
malformed_request("malformed HTTP header");
}
}else if( zToken && strlen(zToken)==0 && zCmd ){
/* transport_flip request and continued transport_open */
cgi_handle_ssh_transport(zCmd);
if( fgets(zLine, sizeof(zLine),g.httpIn)==0 ){
malformed_request("missing HTTP header");
}
cgi_trace(zLine);
zToken = extract_token(zLine, &z);
if( zToken==0 ){
malformed_request("malformed HTTP header");
}
}
if( fossil_strcmp(zToken,"GET")!=0 && fossil_strcmp(zToken,"POST")!=0
&& fossil_strcmp(zToken,"HEAD")!=0 ){
malformed_request("unsupported HTTP method");
}
if( nCycles==0 ){
cgi_setenv("GATEWAY_INTERFACE","CGI/1.0");
cgi_setenv("REQUEST_METHOD",zToken);
}
zToken = extract_token(z, &z);
if( zToken==0 ){
malformed_request("malformed URL in HTTP header");
}
if( nCycles==0 ){
cgi_setenv("REQUEST_URI", zToken);
cgi_setenv("SCRIPT_NAME", "");
}
for(i=0; zToken[i] && zToken[i]!='?'; i++){}
if( zToken[i] ) zToken[i++] = 0;
if( nCycles==0 ){
cgi_setenv("PATH_INFO", zToken);
}else{
cgi_replace_parameter("PATH_INFO", fossil_strdup(zToken));
}
/* Get all the optional fields that follow the first line.
*/
while( fgets(zLine,sizeof(zLine),g.httpIn) ){
char *zFieldName;
char *zVal;
cgi_trace(zLine);
zFieldName = extract_token(zLine,&zVal);
if( zFieldName==0 || *zFieldName==0 ) break;
while( fossil_isspace(*zVal) ){ zVal++; }
i = strlen(zVal);
while( i>0 && fossil_isspace(zVal[i-1]) ){ i--; }
zVal[i] = 0;
for(i=0; zFieldName[i]; i++){
zFieldName[i] = fossil_tolower(zFieldName[i]);
}
if( fossil_strcmp(zFieldName,"content-length:")==0 ){
content_length = atoi(zVal);
}else if( fossil_strcmp(zFieldName,"content-type:")==0 ){
g.zContentType = zType = fossil_strdup(zVal);
}else if( fossil_strcmp(zFieldName,"host:")==0 ){
if( nCycles==0 ){
cgi_setenv("HTTP_HOST", zVal);
}
}else if( fossil_strcmp(zFieldName,"user-agent:")==0 ){
if( nCycles==0 ){
cgi_setenv("HTTP_USER_AGENT", zVal);
}
}else if( fossil_strcmp(zFieldName,"x-fossil-transport:")==0 ){
if( fossil_strnicmp(zVal, "ssh", 3)==0 ){
if( nCycles==0 ){
g.fSshClient |= CGI_SSH_FOSSIL;
g.fullHttpReply = 0;
}
}
}
}
if( nCycles==0 ){
if( ! ( g.fSshClient & CGI_SSH_FOSSIL ) ){
/* did not find new fossil ssh transport */
g.fSshClient &= ~CGI_SSH_CLIENT;
g.fullHttpReply = 1;
cgi_replace_parameter("REMOTE_ADDR", "127.0.0.1");
}
}
cgi_reset_content();
cgi_destination(CGI_BODY);
if( content_length>0 && zType ){
blob_zero(&g.cgiIn);
if( fossil_strcmp(zType, "application/x-fossil")==0 ){
blob_read_from_channel(&g.cgiIn, g.httpIn, content_length);
blob_uncompress(&g.cgiIn, &g.cgiIn);
}else if( fossil_strcmp(zType, "application/x-fossil-debug")==0 ){
blob_read_from_channel(&g.cgiIn, g.httpIn, content_length);
}else if( fossil_strcmp(zType, "application/x-fossil-uncompressed")==0 ){
blob_read_from_channel(&g.cgiIn, g.httpIn, content_length);
}
}
cgi_trace(0);
nCycles++;
}
/*
** This routine handles the old fossil SSH probes
*/
char *cgi_handle_ssh_probes(char *zLine, int zSize, char *z, char *zToken){
/* Start looking for probes */
assert( !g.httpUseSSL );
while( fossil_strcmp(zToken, "echo")==0 ){
zToken = extract_token(z, &z);
if( zToken==0 ){
malformed_request("malformed probe");
}
if( fossil_strncmp(zToken, "test", 4)==0 ||
fossil_strncmp(zToken, "probe-", 6)==0 ){
fprintf(g.httpOut, "%s\n", zToken);
fflush(g.httpOut);
}else{
malformed_request("malformed probe");
}
if( fgets(zLine, zSize, g.httpIn)==0 ){
malformed_request("malformed probe");
}
cgi_trace(zLine);
zToken = extract_token(zLine, &z);
if( zToken==0 ){
malformed_request("malformed probe");
}
}
/* Got all probes now first transport_open is completed
** so return the command that was requested
*/
g.fSshClient |= CGI_SSH_COMPAT;
return fossil_strdup(zToken);
}
/*
** This routine handles the old fossil SSH transport_flip
** and transport_open communications if detected.
*/
void cgi_handle_ssh_transport(const char *zCmd){
char *z, *zToken;
char zLine[2000]; /* A single line of input. */
assert( !g.httpUseSSL );
/* look for second newline of transport_flip */
if( fgets(zLine, sizeof(zLine),g.httpIn)==0 ){
malformed_request("incorrect transport_flip");
}
cgi_trace(zLine);
zToken = extract_token(zLine, &z);
if( zToken && strlen(zToken)==0 ){
/* look for path to fossil */
if( fgets(zLine, sizeof(zLine),g.httpIn)==0 ){
if( zCmd==0 ){
malformed_request("missing fossil command");
}else{
/* no new command so exit */
fossil_exit(0);
}
}
cgi_trace(zLine);
zToken = extract_token(zLine, &z);
if( zToken==0 ){
malformed_request("malformed fossil command");
}
/* see if we've seen the command */
if( zCmd && zCmd[0] && fossil_strcmp(zToken, zCmd)==0 ){
return;
}else{
malformed_request("transport_open failed");
}
}else{
malformed_request("transport_flip failed");
}
}
/*
** This routine handles a single SCGI request which is coming in on
** g.httpIn and which replies on g.httpOut
**
** The SCGI request is read from g.httpIn and is used to initialize
** entries in the cgi_parameter() hash, as if those entries were
** environment variables. A call to cgi_init() completes
** the setup. Once all the setup is finished, this procedure returns
** and subsequent code handles the actual generation of the webpage.
*/
void cgi_handle_scgi_request(void){
char *zHdr;
char *zToFree;
int nHdr = 0;
int nRead;
int c, n, m;
assert( !g.httpUseSSL );
while( (c = fgetc(g.httpIn))!=EOF && fossil_isdigit((char)c) ){
nHdr = nHdr*10 + (char)c - '0';
}
if( nHdr<16 ) malformed_request("SCGI header too short");
zToFree = zHdr = fossil_malloc(nHdr);
nRead = (int)fread(zHdr, 1, nHdr, g.httpIn);
if( nRead<nHdr ) malformed_request("cannot read entire SCGI header");
nHdr = nRead;
while( nHdr ){
for(n=0; n<nHdr && zHdr[n]; n++){}
for(m=n+1; m<nHdr && zHdr[m]; m++){}
if( m>=nHdr ) malformed_request("SCGI header formatting error");
cgi_set_parameter(zHdr, zHdr+n+1);
zHdr += m+1;
nHdr -= m+1;
}
fossil_free(zToFree);
fgetc(g.httpIn); /* Read past the "," separating header from content */
cgi_init();
}
#if INTERFACE
/*
** Bitmap values for the flags parameter to cgi_http_server().
*/
#define HTTP_SERVER_LOCALHOST 0x0001 /* Bind to 127.0.0.1 only */
#define HTTP_SERVER_SCGI 0x0002 /* SCGI instead of HTTP */
#define HTTP_SERVER_HAD_REPOSITORY 0x0004 /* Was the repository open? */
#define HTTP_SERVER_HAD_CHECKOUT 0x0008 /* Was a checkout open? */
#define HTTP_SERVER_REPOLIST 0x0010 /* Allow repo listing */
#define HTTP_SERVER_NOFORK 0x0020 /* Do not call fork() */
#endif /* INTERFACE */
/*
** Maximum number of child processes that we can have running
** at one time. Set this to 0 for "no limit".
*/
#ifndef FOSSIL_MAX_CONNECTIONS
# define FOSSIL_MAX_CONNECTIONS 1000
#endif
/*
** Implement an HTTP server daemon listening on port iPort.
**
** As new connections arrive, fork a child and let 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.
*/
int cgi_http_server(
int mnPort, int mxPort, /* Range of TCP ports to try */
const char *zBrowser, /* Run this browser, if not NULL */
const char *zIpAddr, /* Bind to this IP address, if not null */
int flags /* HTTP_SERVER_* flags */
){
#if defined(_WIN32)
/* Use win32_http_server() instead */
fossil_exit(1);
#else
int listener = -1; /* The server socket */
int connection; /* A socket for each individual connection */
int nRequest = 0; /* Number of requests handled so far */
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( zIpAddr ){
inaddr.sin_addr.s_addr = inet_addr(zIpAddr);
if( inaddr.sin_addr.s_addr == (-1) ){
fossil_fatal("not a valid IP address: %s", zIpAddr);
}
}else if( flags & HTTP_SERVER_LOCALHOST ){
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 ){
fossil_fatal("unable to open listening socket on ports %d", mnPort);
}else{
fossil_fatal("unable to open listening socket on any"
" port in the range %d..%d", mnPort, mxPort);
}
}
if( iPort>mxPort ) return 1;
listen(listener,10);
fossil_print("Listening for %s requests on TCP port %d\n",
(flags & HTTP_SERVER_SCGI)!=0 ? "SCGI" :
g.httpUseSSL?"TLS-encrypted HTTPS":"HTTP", iPort);
fflush(stdout);
if( zBrowser ){
assert( strstr(zBrowser,"%d")!=0 );
zBrowser = mprintf(zBrowser /*works-like:"%d"*/, iPort);
#if defined(__CYGWIN__)
/* On Cygwin, we can do better than "echo" */
if( strncmp(zBrowser, "echo ", 5)==0 ){
wchar_t *wUrl = fossil_utf8_to_unicode(zBrowser+5);
wUrl[wcslen(wUrl)-2] = 0; /* Strip terminating " &" */
if( (size_t)ShellExecuteW(0, L"open", wUrl, 0, 0, 1)<33 ){
fossil_warning("cannot start browser\n");
}
}else
#endif
if( fossil_system(zBrowser)<0 ){
fossil_warning("cannot start browser: %s\n", zBrowser);
}
}
while( 1 ){
#if FOSSIL_MAX_CONNECTIONS>0
while( nchildren>=FOSSIL_MAX_CONNECTIONS ){
if( wait(0)>=0 ) nchildren--;
}
#endif
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 ){
if( flags & HTTP_SERVER_NOFORK ){
child = 0;
}else{
child = fork();
}
if( child!=0 ){
if( child>0 ){
nchildren++;
nRequest++;
}
close(connection);
}else{
int nErr = 0, fd;
close(0);
fd = dup(connection);
if( fd!=0 ) nErr++;
close(1);
fd = dup(connection);
if( fd!=1 ) nErr++;
if( 0 && !g.fAnyTrace ){
close(2);
fd = dup(connection);
if( fd!=2 ) nErr++;
}
close(connection);
g.nPendingRequest = nchildren+1;
g.nRequest = nRequest+1;
return nErr;
}
}
}
/* Bury dead children */
if( nchildren ){
while(1){
int iStatus = 0;
pid_t x = waitpid(-1, &iStatus, WNOHANG);
if( x<=0 ) break;
if( WIFSIGNALED(iStatus) && g.fAnyTrace ){
fprintf(stderr, "/***** Child %d exited on signal %d (%s) *****/\n",
x, WTERMSIG(iStatus), strsignal(WTERMSIG(iStatus)));
}
nchildren--;
}
}
}
/* NOT REACHED */
fossil_exit(1);
#endif
/* NOT REACHED */
return 0;
}
/*
** Name of days and months.
*/
static const char *const azDays[] =
{"Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat", 0};
static const char *const azMonths[] =
{"Jan", "Feb", "Mar", "Apr", "May", "Jun",
"Jul", "Aug", "Sep", "Oct", "Nov", "Dec", 0};
/*
** Returns an RFC822-formatted time string suitable for HTTP headers.
** The timezone is always GMT. The value returned is always a
** string obtained from mprintf() and must be freed using fossil_free()
** to avoid a memory leak.
**
** See http://www.faqs.org/rfcs/rfc822.html, section 5
** and http://www.faqs.org/rfcs/rfc2616.html, section 3.3.
*/
char *cgi_rfc822_datestamp(time_t now){
struct tm *pTm;
pTm = gmtime(&now);
if( pTm==0 ){
return mprintf("");
}else{
return mprintf("%s, %d %s %02d %02d:%02d:%02d +0000",
azDays[pTm->tm_wday], pTm->tm_mday, azMonths[pTm->tm_mon],
pTm->tm_year+1900, pTm->tm_hour, pTm->tm_min, pTm->tm_sec);
}
}
/*
** Returns an ISO8601-formatted time string suitable for debugging
** purposes.
**
** The value returned is always a string obtained from mprintf() and must
** be freed using fossil_free() to avoid a memory leak.
*/
char *cgi_iso8601_datestamp(void){
struct tm *pTm;
time_t now = time(0);
pTm = gmtime(&now);
if( pTm==0 ){
return mprintf("");
}else{
return mprintf("%04d-%02d-%02d %02d:%02d:%02d",
pTm->tm_year+1900, pTm->tm_mon+1, pTm->tm_mday,
pTm->tm_hour, pTm->tm_min, pTm->tm_sec);
}
}
/*
** COMMAND: test-date
**
** Show the current date and time in both RFC822 and ISO8601.
*/
void test_date(void){
fossil_print("%z = ", cgi_iso8601_datestamp());
fossil_print("%z\n", cgi_rfc822_datestamp(time(0)));
}
/*
** Parse an RFC822-formatted timestamp as we'd expect from HTTP and return
** a Unix epoch time. <= zero is returned on failure.
**
** Note that this won't handle all the _allowed_ HTTP formats, just the
** most popular one (the one generated by cgi_rfc822_datestamp(), actually).
*/
time_t cgi_rfc822_parsedate(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", 0};
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; azMonths[mon]; 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 };
if( mon<0 ){
int nYear = (11 - mon)/12;
year -= nYear;
mon += nYear*12;
}else if( mon>11 ){
year += mon/12;
mon %= 12;
}
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;
}
/*
** Check the objectTime against the If-Modified-Since request header. If the
** object time isn't any newer than the header, we immediately send back
** a 304 reply and exit.
*/
void cgi_modified_since(time_t objectTime){
const char *zIf = P("HTTP_IF_MODIFIED_SINCE");
if( zIf==0 ) return;
if( objectTime > cgi_rfc822_parsedate(zIf) ) return;
cgi_set_status(304,"Not Modified");
cgi_reset_content();
cgi_reply();
fossil_exit(0);
}
/*
** Check to see if the remote client is SSH and return
** its IP or return default
*/
const char *cgi_ssh_remote_addr(const char *zDefault){
char *zIndex;
const char *zSshConn = fossil_getenv("SSH_CONNECTION");
if( zSshConn && zSshConn[0] ){
char *zSshClient = fossil_strdup(zSshConn);
if( (zIndex = strchr(zSshClient,' '))!=0 ){
zSshClient[zIndex-zSshClient] = '\0';
return zSshClient;
}
}
return zDefault;
}
/*
** Return true if information is coming from the loopback network.
*/
int cgi_is_loopback(const char *zIpAddr){
return fossil_strcmp(zIpAddr, "127.0.0.1")==0 ||
fossil_strcmp(zIpAddr, "::ffff:127.0.0.1")==0 ||
fossil_strcmp(zIpAddr, "::1")==0;
}
/*
** Return true if the HTTP request is likely to be from a small-screen
** mobile device.
**
** The returned value is a guess. Use it only for setting up defaults.
*/
int cgi_from_mobile(void){
const char *zAgent = P("HTTP_USER_AGENT");
if( zAgent==0 ) return 0;
if( sqlite3_strglob("*iPad*", zAgent)==0 ) return 0;
return sqlite3_strlike("%mobile%", zAgent, 0)==0;
}
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