hooks into scanning functions built

dynamic-accesslists
erdgeist 18 years ago
parent 2adf4fb28a
commit 83e339bbe0

@ -36,272 +36,267 @@ struct http_data {
int header_complete(struct http_data* r)
{
long i;
long i;
long l = array_bytes(&r->r);
const char* c = array_start(&r->r);
long l = array_bytes(&r->r);
const char* c = array_start(&r->r);
for (i=0; i+1<l; ++i)
{
if (c[i]=='\n' && c[i+1]=='\n')
return i+2;
for (i=0; i+1<l; ++i)
{
if (c[i]=='\n' && c[i+1]=='\n')
return i+2;
if (i+3<l && c[i]=='\r' && c[i+1]=='\n' && c[i+2]=='\r' && c[i+3]=='\n')
return i+4;
}
return 0;
if (i+3<l && c[i]=='\r' && c[i+1]=='\n' && c[i+2]=='\r' && c[i+3]=='\n')
return i+4;
}
return 0;
}
void httperror(struct http_data* r,const char* title,const char* message)
{
char* c;
c=r->hdrbuf=(char*)malloc(strlen(message)+strlen(title)+200);
if (!c)
{
r->hdrbuf="HTTP/1.0 500 internal error\r\nContent-Type: text/plain\r\nConnection: close\r\n\r\nout of memory\n";
r->hlen=strlen(r->hdrbuf);
}
else
{
c+=fmt_str(c,"HTTP/1.0 ");
c+=fmt_str(c,title);
c+=fmt_str(c,"\r\nContent-Type: text/html\r\nConnection: close\r\nContent-Length: ");
c+=fmt_ulong(c,strlen(message)+strlen(title)+16-4);
c+=fmt_str(c,"\r\n\r\n<title>");
c+=fmt_str(c,title+4);
c+=fmt_str(c,"</title>\n");
r->hlen=c - r->hdrbuf;
}
iob_addbuf(&r->iob,r->hdrbuf,r->hlen);
char* c;
c=r->hdrbuf=(char*)malloc(strlen(message)+strlen(title)+200);
if (!c)
{
r->hdrbuf="HTTP/1.0 500 internal error\r\nContent-Type: text/plain\r\nConnection: close\r\n\r\nout of memory\n";
r->hlen=strlen(r->hdrbuf);
}
else
{
c+=fmt_str(c,"HTTP/1.0 ");
c+=fmt_str(c,title);
c+=fmt_str(c,"\r\nContent-Type: text/html\r\nConnection: close\r\nContent-Length: ");
c+=fmt_ulong(c,strlen(message)+strlen(title)+16-4);
c+=fmt_str(c,"\r\n\r\n<title>");
c+=fmt_str(c,title+4);
c+=fmt_str(c,"</title>\n");
r->hlen=c - r->hdrbuf;
}
iob_addbuf(&r->iob,r->hdrbuf,r->hlen);
}
// bestimmten http parameter auslesen und adresse zurueckgeben
const char* http_header(struct http_data* r,const char* h)
{
long i;
long l = array_bytes(&r->r);
long sl = strlen(h);
const char* c = array_start(&r->r);
for (i=0; i+sl+2<l; ++i)
{
if (c[i]=='\n' && case_equalb(c+i+1,sl,h) && c[i+sl+1]==':')
{
c+=i+sl+1;
if (*c==' ' || *c=='\t') ++c;
return c;
}
return 0;
}
long i;
long l = array_bytes(&r->r);
long sl = strlen(h);
const char* c = array_start(&r->r);
for (i=0; i+sl+2<l; ++i)
{
if (c[i]=='\n' && case_equalb(c+i+1,sl,h) && c[i+sl+1]==':')
{
c+=i+sl+1;
if (*c==' ' || *c=='\t') ++c;
return c;
}
return 0;
}
}
void httpresponse(struct http_data* h,int64 s)
{
char* c;
array_cat0(&h->r);
char* c;
array_cat0(&h->r);
c = array_start(&h->r);
c = array_start(&h->r);
if (byte_diff(c,4,"GET "))
{
if (byte_diff(c,4,"GET "))
{
e400:
httperror(h,"400 Invalid Request","This server only understands GET.");
}
else
{
char *d;
int64 fd;
struct stat s;
// expect 'GET /uri?nnbjhg HTTP/1.*'
c+=4;
for (d=c; *d!=' '&&*d!='\t'&&*d!='\n'&&*d!='\r'; ++d) ;
if (*d!=' ') goto e400;
*d=0;
if (c[0]!='/') goto e404;
while (c[1]=='/') ++c;
if (!byte_diff(c,9,"announce?"))
{
// info_hash, left, port, numwant, compact
struct ot_peer peer;
httperror(h,"400 Invalid Request","This server only understands GET.");
}
else
{
char *d;
int64 fd;
struct stat s;
// expect 'GET /uri?nnbjhg HTTP/1.*'
c+=4;
for (d=c; *d!=' '&&*d!='\t'&&*d!='\n'&&*d!='\r'; ++d) ;
if (*d!=' ') goto e400;
*d=0;
if (c[0]!='/') goto e404;
while (c[1]=='/') ++c;
data = c;
switch( scan_urlencoded_query( &c, data, SCAN_PATH ) ) {
case 6: /* scrape ? */
if (!byte_diff(c,6,"scrape"))
goto 404;
break;
case 9:
if( !byte_diff(c,8,"announce"))
goto 404;
else {
// info_hash, left, port, numwant, compact
struct ot_peer peer;
ot_hash hash;
byte_copy( peer.ip, h->ip, 4);
peer.port = 6881;
c+=9;
while( *c!=' ' ) {
if(!byte_diff(c,10,"info_hash="))
{
size_t destlen = 20;
// String is expected to be URL encoded, so expect
// (%[0-9A-F][0-9A-F]){20}
int s = scan_urlencoded( c+10, hash, &destlen);
if( c[s+10] != '&' )
goto e_parse;
}
else if(!byte_diff(c,8,"numwant="))
{
}
else if(!byte_diff(c,8,"compact="))
{
}
else if(!byte_diff(c,5,"port="))
{
}
else if(!byte_diff(c,5,"left="))
{
}
while( *++c!=' ' && *c!='&');
}
}
else if (!byte_diff(c,7,"scrape?"))
{
}
else
{
httperror(h,"404 Not Found","No such file or directory.");
goto e404;
}
c=h->hdrbuf=(char*)malloc(500);
c+=fmt_str(c,"HTTP/1.1 Coming Up\r\nContent-Type: text/plain");
c+=fmt_str(c,"\r\nContent-Length: ");
/* ANSWER SIZE*/
c+=fmt_ulonglong(c,s.st_size);
c+=fmt_str(c,"\r\nLast-Modified: ");
/* MODIFY DATE */
c+=fmt_httpdate(c,s.st_mtime);
c+=fmt_str(c,"\r\nConnection: close\r\n\r\n");
iob_addbuf(&h->iob,h->hdrbuf,c - h->hdrbuf);
iob_addbuf(&h->iob,tracker_answer, tzracker_answer_size);
}
byte_copy( peer.ip, h->ip, 4);
peer.port = 6881;
while( NOCHAMSCANNEN ) {
data = c;
switch( scan_urlencoded_query( &c, data, SCAN_SEARCHPATH_PARAM ) ) {
case -1: /* error */
httperror(h,"404 Not Found","No such file or directory.");
goto e404;
case 4:
if(!byte_diff(c,4,"port"))
/* scan int */
else if(!byte_diff(c,4,"left"))
/* scan int */
break;
case 7:
if(!byte_diff(c,7,"numwant"))
/* scan int */
else if(!byte_diff(c,7,"compact"))
/* scan flag */
break;
case 9: /* info_hash */
if(!byte_diff(c,9,"info_hash"))
/* scan 20 bytes */
break;
}
}
break;
default: /* neither scrape nor announce */
httperror(h,"404 Not Found","No such file or directory.");
goto e404;
}
c=h->hdrbuf=(char*)malloc(500);
c+=fmt_str(c,"HTTP/1.1 Coming Up\r\nContent-Type: text/plain");
c+=fmt_str(c,"\r\nContent-Length: ");
/* ANSWER SIZE*/
c+=fmt_ulonglong(c,s.st_size);
c+=fmt_str(c,"\r\nLast-Modified: ");
/* MODIFY DATE */
c+=fmt_httpdate(c,s.st_mtime);
c+=fmt_str(c,"\r\nConnection: close\r\n\r\n");
iob_addbuf(&h->iob,h->hdrbuf,c - h->hdrbuf);
iob_addbuf(&h->iob,tracker_answer, tzracker_answer_size);
}
e404:
io_dontwantread(s);
io_wantwrite(s);
io_dontwantread(s);
io_wantwrite(s);
}
int main()
{
int s=socket_tcp6();
uint32 scope_id;
char ip[16];
uint16 port;
if (socket_bind6_reuse(s,V6any,8000,0)==-1)
panic("socket_bind6_reuse");
if (socket_listen(s,16)==-1)
panic("socket_listen");
if (!io_fd(s))
panic("io_fd");
io_wantread(s);
for (;;)
{
int64 i;
io_wait();
while ((i=io_canread())!=-1)
{
if (i==s) // ist es der serversocket?
{
int n;
while ((n=socket_accept6(s,ip,&port,&scope_id))!=-1)
{
if (io_fd(n))
{
struct http_data* h=(struct http_data*)malloc(sizeof(struct http_data));
io_wantread(n);
if (h)
{
byte_zero(h,sizeof(struct http_data));
byte_copy(h->ip,ip,sizeof(ip));
io_setcookie(n,h);
} else
io_close(n);
} else
io_close(n);
buffer_putnlflush(buffer_2);
}
if (errno==EAGAIN)
io_eagain(s);
else
carp("socket_accept6");
}
else
{
char buf[8192];
struct http_data* h=io_getcookie(i);
int l=io_tryread(i,buf,sizeof buf);
if (l<=0)
{
if (h)
{
array_reset(&h->r);
iob_reset(&h->iob);
free(h->hdrbuf); h->hdrbuf=0;
}
io_close(i);
}
else
{
array_catb(&h->r,buf,l);
if (array_failed(&h->r))
{
httperror(h,"500 Server Error","request too long.");
int s=socket_tcp6();
uint32 scope_id;
char ip[16];
uint16 port;
if (socket_bind6_reuse(s,V6any,8000,0)==-1)
panic("socket_bind6_reuse");
if (socket_listen(s,16)==-1)
panic("socket_listen");
if (!io_fd(s))
panic("io_fd");
io_wantread(s);
for (;;)
{
int64 i;
io_wait();
while ((i=io_canread())!=-1)
{
if (i==s) // ist es der serversocket?
{
int n;
while ((n=socket_accept6(s,ip,&port,&scope_id))!=-1)
{
if (io_fd(n))
{
struct http_data* h=(struct http_data*)malloc(sizeof(struct http_data));
io_wantread(n);
if (h)
{
byte_zero(h,sizeof(struct http_data));
byte_copy(h->ip,ip,sizeof(ip));
io_setcookie(n,h);
} else
io_close(n);
} else
io_close(n);
buffer_putnlflush(buffer_2);
}
if (errno==EAGAIN)
io_eagain(s);
else
carp("socket_accept6");
}
else
{
char buf[8192];
struct http_data* h=io_getcookie(i);
int l=io_tryread(i,buf,sizeof buf);
if (l<=0)
{
if (h)
{
array_reset(&h->r);
iob_reset(&h->iob);
free(h->hdrbuf); h->hdrbuf=0;
}
io_close(i);
}
else
{
array_catb(&h->r,buf,l);
if (array_failed(&h->r))
{
httperror(h,"500 Server Error","request too long.");
emerge:
io_dontwantread(i);
io_wantwrite(i);
}
else if (array_bytes(&h->r)>8192)
{
httperror(h,"500 request too long","You sent too much headers");
goto emerge;
}
else if ((l=header_complete(h)))
{
httpresponse(h,i);
}
}
}
}
while ((i=io_canwrite())!=-1)
{
struct http_data* h=io_getcookie(i);
int64 r=iob_send(i,&h->iob);
if (r==-1)
io_eagain(i);
else
if (r<=0)
{
array_trunc(&h->r);
iob_reset(&h->iob);
free(h->hdrbuf); h->hdrbuf=0;
io_close(i);
}
}
}
return 0;
io_dontwantread(i);
io_wantwrite(i);
}
else if (array_bytes(&h->r)>8192)
{
httperror(h,"500 request too long","You sent too much headers");
goto emerge;
}
else if ((l=header_complete(h)))
{
httpresponse(h,i);
}
}
}
}
while ((i=io_canwrite())!=-1)
{
struct http_data* h=io_getcookie(i);
int64 r=iob_send(i,&h->iob);
if (r==-1)
io_eagain(i);
else
if (r<=0)
{
array_trunc(&h->r);
iob_reset(&h->iob);
free(h->hdrbuf); h->hdrbuf=0;
io_close(i);
}
}
}
return 0;
}

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