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/*
Serval Mesh Software
Copyright ( C ) 2010 - 2012 Paul Gardner - Stephen
This program is free software ; you can redistribute it and / or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation ; either version 2
of the License , or ( at your option ) any later version .
This program is distributed in the hope that it will be useful ,
but WITHOUT ANY WARRANTY ; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the
GNU General Public License for more details .
You should have received a copy of the GNU General Public License
along with this program ; if not , write to the Free Software
Foundation , Inc . , 51 Franklin Street , Fifth Floor , Boston , MA 02110 - 1301 , USA .
*/
# include "serval.h"
# include "rhizome.h"
# include "str.h"
# include <assert.h>
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# include <sys/stat.h>
# include <sys/wait.h>
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int rhizome_direct_clear_temporary_files ( rhizome_http_request * r )
{
char filename [ 1024 ] ;
char * fields [ ] = { " manifest " , " data " , " unknown " , NULL } ;
int i ;
for ( i = 0 ; fields [ i ] ; i + + ) {
snprintf ( filename , 1024 , " rhizomedirect.%d.%s " , r - > alarm . poll . fd , fields [ i ] ) ;
filename [ 1023 ] = 0 ;
DEBUGF ( " Unlinking '%s' " , filename ) ;
}
return 0 ;
}
int rhizome_direct_form_received ( rhizome_http_request * r )
{
/* XXX This needs to be implemented.
For now we just put out a " no content " response that makes testing convenient
*/
/* XXX process completed form based on the set of fields seen */
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if ( ! strcmp ( r - > path , " /rhizome/import " ) )
{
switch ( r - > fields_seen ) {
case RD_MIME_STATE_MANIFESTHEADERS
| RD_MIME_STATE_DATAHEADERS :
/* A bundle to import */
DEBUGF ( " Call bundle import for rhizomedata.%d.{data,file} " ,
r - > alarm . poll . fd ) ;
char cmd [ 1024 ] ;
snprintf ( cmd , 1024 ,
" servald rhizome import bundle rhizomedirect.%d.data rhizomedirect.%d.manifest " ,
r - > alarm . poll . fd , r - > alarm . poll . fd ) ;
cmd [ 1023 ] = 0 ;
int rv = system ( cmd ) ;
int status = - 1 ;
if ( rv ! = - 1 ) status = WEXITSTATUS ( rv ) ;
DEBUGF ( " Import returned %d " , status ) ;
/* clean up after ourselves */
rhizome_direct_clear_temporary_files ( r ) ;
/* and report back to caller.
200 = ok , which is probably appropriate for when we already had the bundle .
201 = content created , which is probably appropriate for when we successfully
import a bundle ( or if we already have it ) .
403 = forbidden , which might be appropriate if we refuse to accept it , e . g . ,
the import fails due to malformed data etc .
( should probably also indicate if we have a newer version if possible )
For now we are just returning " no content " as a place - holder while debugging .
*/
rhizome_server_simple_http_response ( r , 204 , " Move along. Nothing to see. " ) ;
break ;
default :
/* Clean up after ourselves */
rhizome_direct_clear_temporary_files ( r ) ;
}
} else if ( ! strcmp ( r - > path , " /rhizome/enquiry " ) ) {
int fd = - 1 ;
char file [ 1024 ] ;
switch ( r - > fields_seen ) {
case RD_MIME_STATE_DATAHEADERS :
/* Read data buffer in, pass to rhizome direct for comparison with local
rhizome database , and send back responses . */
snprintf ( file , 1024 , " rhizomedirect.%d.%s " , r - > alarm . poll . fd , " data " ) ;
fd = open ( file , O_RDONLY ) ;
if ( fd = = - 1 ) {
/* Clean up after ourselves */
rhizome_direct_clear_temporary_files ( r ) ;
return rhizome_server_simple_http_response ( r , 500 , " Couldn't read a file " ) ;
}
struct stat stat ;
if ( fstat ( fd , & stat ) ) {
/* Clean up after ourselves */
close ( fd ) ;
rhizome_direct_clear_temporary_files ( r ) ;
return rhizome_server_simple_http_response ( r , 500 , " Couldn't stat a file " ) ;
}
unsigned char * addr = mmap ( NULL , stat . st_size , PROT_READ ,
MAP_FILE | MAP_SHARED , fd , 0 ) ;
if ( addr = = MAP_FAILED ) {
/* Clean up after ourselves */
close ( fd ) ;
rhizome_direct_clear_temporary_files ( r ) ;
return rhizome_server_simple_http_response ( r , 500 , " Couldn't mmap() a file " ) ;
}
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/* Ask for a fill response. Regardless of the size of the set of BARs passed
to us , we will allow up to 64 KB of response . */
rhizome_direct_bundle_cursor
* c = rhizome_direct_get_fill_response ( addr , stat . st_size , 65536 ) ;
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munmap ( addr , stat . st_size ) ;
close ( fd ) ;
if ( c )
{
/* TODO: Write out_buffer as the body of the response.
We should be able to do this using the async framework fairly easily .
*/
int bytes = c - > buffer_offset_bytes + c - > buffer_used ;
r - > buffer = malloc ( bytes + 1024 ) ;
r - > buffer_size = bytes + 1024 ;
r - > buffer_offset = 0 ;
assert ( r - > buffer ) ;
/* Write HTTP response header */
struct http_response hr ;
hr . result_code = 200 ;
hr . content_type = " binary/octet-stream " ;
hr . content_length = bytes ;
r - > request_type = 0 ;
rhizome_server_set_response ( r , & hr ) ;
assert ( r - > buffer_offset < 1024 ) ;
/* Now append body and send it back. */
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bcopy ( c - > buffer , & r - > buffer [ r - > buffer_length ] , bytes ) ;
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r - > buffer_length + = bytes ;
r - > buffer_offset = 0 ;
/* Clean up cursor after sending response */
rhizome_direct_bundle_iterator_free ( & c ) ;
/* Clean up after ourselves */
rhizome_direct_clear_temporary_files ( r ) ;
return 0 ;
}
else
{
return rhizome_server_simple_http_response ( r , 500 , " Could not get response to enquiry " ) ;
}
/* Clean up after ourselves */
rhizome_direct_clear_temporary_files ( r ) ;
break ;
default :
/* Clean up after ourselves */
rhizome_direct_clear_temporary_files ( r ) ;
return rhizome_server_simple_http_response ( r , 404 , " /rhizome/enquiry requires 'data' field " ) ;
}
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}
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/* Clean up after ourselves */
rhizome_direct_clear_temporary_files ( r ) ;
/* Report error */
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return rhizome_server_simple_http_response ( r , 500 , " Something went wrong. Probably a missing data or manifest part, or invalid combination of URI and data/manifest provision. " ) ;
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}
int rhizome_direct_process_mime_line ( rhizome_http_request * r , char * buffer , int count )
{
/* Check for boundary line at start of buffer.
Boundary line = CRLF + " -- " + boundary_string + optional whitespace + CRLF
EXCEPT end of form boundary , which is :
CRLF + " -- " + boundary_string + " -- " + CRLF
NOTE : We attach the " -- " to boundary_string when setting things up so that
we don ' t have to keep manually checking for it here .
NOTE : The parser eats the CRLF from the front , and attaches it to the end
of the previous line . This means we need to rewind 2 bytes from whatever
file we were writing to whenever we encounter a boundary line , at least
if those last two bytes were CRLF . That can be safely assumed if we
assume that the boundary string has been chosen to be a string never appearing
anywhere in the contents of the form . In practice , that is only " almost
certain " (according to the mathematical meaning of that phrase) if boundary
strings are randomly selected and are of sufficient length .
NOTE : We are not supporting nested / mixed parts , as that would considerably
complicate the parser . If the need arises in future , we will deal with it
then . In the meantime , we will have something that meets our immediate
needs for Rhizome Direct and a variety of use cases .
*/
/* Regardless of the state of the parser, the presence of boundary lines
is significant , so lets just check once , and remember the result .
Similarly check a few other conditions . */
int boundaryLine = 0 ;
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if ( ! memcmp ( buffer , r - > boundary_string , r - > boundary_string_length ) )
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boundaryLine = 1 ;
int endOfForm = 0 ;
if ( boundaryLine & &
buffer [ r - > boundary_string_length ] = = ' - ' & &
buffer [ r - > boundary_string_length + 1 ] = = ' - ' )
endOfForm = 1 ;
int blankLine = 0 ;
if ( ! strcmp ( buffer , " \r \n " ) ) blankLine = 1 ;
DEBUGF ( " mime state: 0x%x, blankLine=%d, boundary=%d, EOF=%d, bytes=%d " ,
r - > source_flags , blankLine , boundaryLine , endOfForm , count ) ;
switch ( r - > source_flags ) {
case RD_MIME_STATE_INITIAL :
if ( boundaryLine ) r - > source_flags = RD_MIME_STATE_PARTHEADERS ;
break ;
case RD_MIME_STATE_PARTHEADERS :
case RD_MIME_STATE_MANIFESTHEADERS :
case RD_MIME_STATE_DATAHEADERS :
DEBUGF ( " mime line: %s " , r - > request ) ;
if ( blankLine ) {
/* End of headers */
if ( r - > source_flags = = RD_MIME_STATE_PARTHEADERS )
{
/* Multiple content-disposition lines. This is very naughty. */
rhizome_server_simple_http_response
( r , 400 , " <html><h1>Malformed multi-part form POST: Missing content-disposition lines in MIME encoded part.</h1></html> \r \n " ) ;
return - 1 ;
}
/* Prepare to write to file for field.
We may have multiple rhizome direct transactions running at the same
time on different TCP connections . So serialise using file descriptor .
We could use the boundary string or some other random thing , but using
the file descriptor places a reasonable upper limit on the clutter that
is possible , while still preventing collisions - - provided that we don ' t
close the file descriptor until we have completed processing the
request . */
r - > field_file = NULL ;
char filename [ 1024 ] ;
char * field = " unknown " ;
switch ( r - > source_flags ) {
case RD_MIME_STATE_DATAHEADERS : field = " data " ; break ;
case RD_MIME_STATE_MANIFESTHEADERS : field = " manifest " ; break ;
}
snprintf ( filename , 1024 , " rhizomedirect.%d.%s " , r - > alarm . poll . fd , field ) ;
filename [ 1023 ] = 0 ;
DEBUGF ( " Writing to '%s' " , filename ) ;
r - > field_file = fopen ( filename , " w " ) ;
if ( ! r - > field_file ) {
rhizome_direct_clear_temporary_files ( r ) ;
rhizome_server_simple_http_response
( r , 500 , " <html><h1>Sorry, couldn't complete your request, reasonable as it was. Perhaps try again later.</h1></html> \r \n " ) ;
return - 1 ;
}
r - > source_flags = RD_MIME_STATE_BODY ;
} else {
char name [ 1024 ] ;
char field [ 1024 ] ;
if ( sscanf ( buffer ,
" Content-Disposition: form-data; name= \" %[^ \" ] \" ; "
" filename= \" %[^ \" ] \" " , field , name ) = = 2 )
{
if ( r - > source_flags ! = RD_MIME_STATE_PARTHEADERS )
{
/* Multiple content-disposition lines. This is very naughty. */
rhizome_server_simple_http_response
( r , 400 , " <html><h1>Malformed multi-part form POST: Multiple content-disposition lines in single MIME encoded part.</h1></html> \r \n " ) ;
return - 1 ;
}
DEBUGF ( " Found form part '%s' name '%s' " , field , name ) ;
if ( ! strcasecmp ( field , " manifest " ) )
r - > source_flags = RD_MIME_STATE_MANIFESTHEADERS ;
if ( ! strcasecmp ( field , " data " ) )
r - > source_flags = RD_MIME_STATE_DATAHEADERS ;
if ( r - > source_flags ! = RD_MIME_STATE_PARTHEADERS )
r - > fields_seen | = r - > source_flags ;
}
}
break ;
case RD_MIME_STATE_BODY :
if ( boundaryLine ) {
r - > source_flags = RD_MIME_STATE_PARTHEADERS ;
/* We will have written an extra CRLF to the end of the file,
so prune that off . */
fflush ( r - > field_file ) ;
int fd = fileno ( r - > field_file ) ;
off_t correct_size = ftell ( r - > field_file ) - 2 ;
ftruncate ( fd , correct_size ) ;
fclose ( r - > field_file ) ;
r - > field_file = NULL ;
}
else {
int written = fwrite ( r - > request , count , 1 , r - > field_file ) ;
DEBUGF ( " wrote %d lump of %d bytes " , written , count ) ;
}
break ;
}
if ( endOfForm ) {
/* End of form marker found.
Pass it to function that deals with what has been received ,
and will also send response or close the http request if required . */
/* XXX Rewind last two bytes from file if open, and close file */
DEBUGF ( " Found end of form " ) ;
return rhizome_direct_form_received ( r ) ;
}
return 0 ;
}
int rhizome_direct_process_post_multipart_bytes
( rhizome_http_request * r , const char * bytes , int count )
{
{
DEBUGF ( " Saw %d multi-part form bytes " , count ) ;
FILE * f = fopen ( " post.log " , " a " ) ;
if ( f ) fwrite ( bytes , count , 1 , f ) ;
if ( f ) fclose ( f ) ;
}
/* This function looks for multi-part form separators and descriptor lines,
and streams any " manifest " or " data " blocks to respectively named files .
The challenge is that we might only get a partial boundary string passed
to us . So we need to remember the last KB or so of data and glue it to
the front of the current set of bytes .
In multi - part form parsing we don ' t need r - > request for anything , so if
we are not in a form part already , then we can stow the bytes there
for reexamination when more bytes arrive .
Side effect will be that the entire boundary string and associated bits will
need to be < = 1 KB , the size of r - > request . This seems quite reasonable .
Example of such a block is :
- - - - - - WebKitFormBoundaryEoJwSoSVW4qsrBZW
Content - Disposition : form - data ; name = " manifest " ; filename = " spleen "
Content - Type : application / octet - stream
*/
int o ;
/* Split into lines and process each line separately using a
simple state machine .
Lines containing binary are truncated into arbitrarily length pieces , but
a newline will ALWAYS break the line .
*/
for ( o = 0 ; o < count ; o + + )
{
int newline = 0 ;
if ( bytes [ o ] = = ' \n ' )
if ( r - > request_length > 0 & & r - > request [ r - > request_length - 1 ] = = ' \r ' )
{ newline = 1 ; r - > request_length - - ; }
if ( r - > request_length > 1020 ) newline = 2 ;
if ( newline ) {
/* Found end of line, so process it */
if ( newline = = 1 ) {
/* Put the real new line onto the end if it was present, so that
we don ' t go doing anything silly , like joining lines in files
that really were separated by CRLF , or similarly inserting CRLF
in the middle of slabs of bytes that were not CRLF terminated .
*/
r - > request [ r - > request_length + + ] = ' \r ' ;
r - > request [ r - > request_length + + ] = ' \n ' ;
}
r - > request [ r - > request_length ] = 0 ;
if ( rhizome_direct_process_mime_line ( r , r - > request , r - > request_length ) )
return - 1 ;
r - > request_length = 0 ;
/* If a real new line was detected, then
don ' t include the \ n as part of the next line .
But if it wasn ' t a real new line , then make sure we
don ' t loose the byte . */
if ( newline = = 1 ) continue ;
}
r - > request [ r - > request_length + + ] = bytes [ o ] ;
}
r - > source_count - = count ;
if ( r - > source_count < = 0 ) {
DEBUGF ( " Got to end of multi-part form data " ) ;
/* If the form is still being processed, then flush things through */
if ( r - > request_type < 0 ) {
/* Flush out any remaining data */
if ( r - > request_length ) {
DEBUGF ( " Flushing last %d bytes " , r - > request_length ) ;
r - > request [ r - > request_length ] = 0 ;
rhizome_direct_process_mime_line ( r , r - > request , r - > request_length ) ;
}
return rhizome_direct_form_received ( r ) ;
} else {
/* Form has already been processed, so do nothing */
}
}
return 0 ;
}
int rhizome_direct_parse_http_request ( rhizome_http_request * r )
{
/* Switching to writing, so update the call-back */
r - > alarm . poll . events = POLLOUT ;
watch ( & r - > alarm ) ;
// Start building up a response.
r - > request_type = 0 ;
// Parse the HTTP "GET" line.
char * path = NULL ;
size_t pathlen = 0 ;
if ( str_startswith ( r - > request , " GET " , & path ) ) {
char * p ;
// This loop is guaranteed to terminate before the end of the buffer, because we know that the
// buffer contains at least "\n\n" and maybe "\r\n\r\n" at the end of the header block.
for ( p = path ; ! isspace ( * p ) ; + + p )
;
pathlen = p - path ;
if ( str_startswith ( p , " HTTP/1. " , & p )
& & ( str_startswith ( p , " 0 " , & p ) | | str_startswith ( p , " 1 " , & p ) )
& & ( str_startswith ( p , " \r \n " , & p ) | | str_startswith ( p , " \n " , & p ) )
)
path [ pathlen ] = ' \0 ' ;
else
path = NULL ;
if ( path ) {
char * id = NULL ;
INFOF ( " RHIZOME HTTP SERVER, GET %s " , alloca_toprint ( 1024 , path , pathlen ) ) ;
if ( strcmp ( path , " /favicon.ico " ) = = 0 ) {
r - > request_type = RHIZOME_HTTP_REQUEST_FAVICON ;
rhizome_server_http_response_header ( r , 200 , " image/vnd.microsoft.icon " , favicon_len ) ;
} else {
rhizome_server_simple_http_response ( r , 404 , " <html><h1>Not found</h1></html> \r \n " ) ;
}
}
} else if ( str_startswith ( r - > request , " POST " , & path ) ) {
char * p ;
// This loop is guaranteed to terminate before the end of the buffer, because we know that the
// buffer contains at least "\n\n" and maybe "\r\n\r\n" at the end of the header block.
for ( p = path ; ! isspace ( * p ) ; + + p )
;
pathlen = p - path ;
if ( str_startswith ( p , " HTTP/1. " , & p )
& & ( str_startswith ( p , " 0 " , & p ) | | str_startswith ( p , " 1 " , & p ) )
& & ( str_startswith ( p , " \r \n " , & p ) | | str_startswith ( p , " \n " , & p ) )
)
path [ pathlen ] = ' \0 ' ;
else
path = NULL ;
if ( path ) {
char * id = NULL ;
INFOF ( " RHIZOME HTTP SERVER, POST %s " , alloca_toprint ( 1024 , path , pathlen ) ) ;
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if ( ( strcmp ( path , " /rhizome/import " ) = = 0 )
| | ( strcmp ( path , " /rhizome/enquiry " ) = = 0 ) )
{
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/*
We know we have the complete header , so get the content length and content type
fields . From those we work out what to do with the body . */
char * headers = & path [ pathlen + 1 ] ;
int headerlen = r - > request_length - ( headers - r - > request ) ;
const char * cl_str = str_str ( headers , " Content-Length: " , headerlen ) ;
const char * ct_str = str_str ( headers , " Content-Type: multipart/form-data; boundary= " , headerlen ) ;
if ( ! cl_str )
return
rhizome_server_simple_http_response ( r , 400 , " <html><h1>POST without content-length</h1></html> \r \n " ) ;
if ( ! ct_str )
return
rhizome_server_simple_http_response ( r , 400 , " <html><h1>POST without content-type (or unsupported content-type)</h1></html> \r \n " ) ;
/* ok, we have content-type and content-length, now make sure they are
well formed . */
long long cl ;
if ( sscanf ( cl_str , " Content-Length: %lld " , & cl ) ! = 1 )
return
rhizome_server_simple_http_response ( r , 400 , " <html><h1>malformed Content-Length: header</h1></html> \r \n " ) ;
char boundary_string [ 1024 ] ;
int i ;
ct_str + = strlen ( " Content-Type: multipart/form-data; boundary= " ) ;
for ( i = 0 ; i < 1023 & & * ct_str & & * ct_str ! = ' \n ' & & * ct_str ! = ' \r ' ; i + + , ct_str + + )
boundary_string [ i ] = * ct_str ;
boundary_string [ i ] = 0 ;
if ( i < 4 | | i > 128 )
return
rhizome_server_simple_http_response ( r , 400 , " <html><h1>malformed Content-Type: header</h1></html> \r \n " ) ;
DEBUGF ( " HTTP POST content-length=%lld, boundary string='%s' " ,
cl , boundary_string ) ;
/* Now start receiving and parsing multi-part data.
We may have already received some of the post - header data , so
rewind that if necessary . Need to start by finding actual end of
headers , and passing any body bytes to the parser .
Also need to tell the HTTP request that it has moved to multipart
form data parsing , and what the actual requested action is .
*/
/* Remember boundary string and source path.
Put the preceeding - - on the front to make our life easier when
parsing the rest later . */
snprintf ( & r - > boundary_string [ 0 ] , 1023 , " --%s " , boundary_string ) ;
r - > boundary_string [ 1023 ] = 0 ;
r - > boundary_string_length = strlen ( r - > boundary_string ) ;
r - > source_index = 0 ;
r - > source_count = cl ;
snprintf ( & r - > path [ 0 ] , 1023 , " %s " , path ) ;
r - > path [ 1023 ] = 0 ;
r - > request_type = RHIZOME_HTTP_REQUEST_RECEIVING_MULTIPART ;
/* Find the end of the headers and start of any body bytes that we
have read so far . */
{
const char * eoh = " \r \n \r \n " ;
int i = 0 ;
for ( i = 0 ; i < r - > request_length ; i + + ) {
if ( ! strncmp ( eoh , & r - > request [ i ] , strlen ( eoh ) ) )
break ;
}
if ( i > = r - > request_length ) {
/* Couldn't find the end of the headers, but this routine should
not be called if the end of headers has not been found .
Complain and go home . */
return
rhizome_server_simple_http_response ( r , 404 , " <html><h1>End of headers seems to have gone missing</h1></html> \r \n " ) ;
}
/* Process any outstanding bytes.
We need to copy the bytes to a separate buffer , because
r - > request and r - > request_length get used internally in the
parser , which is also why we need to zero r - > request_length .
We also zero r - > source_flags , which is used as the state
counter for parsing the multi - part form data .
*/
int count = r - > request_length - i ;
char buffer [ count ] ;
bcopy ( & r - > request [ i ] , & buffer [ 0 ] , count ) ;
r - > request_length = 0 ;
r - > source_flags = 0 ;
rhizome_direct_process_post_multipart_bytes ( r , buffer , count ) ;
}
/* Handle the rest of the transfer asynchronously. */
return 0 ;
} else {
rhizome_server_simple_http_response ( r , 404 , " <html><h1>Not found</h1></html> \r \n " ) ;
}
}
} else {
if ( debug & DEBUG_RHIZOME_TX )
DEBUGF ( " Received malformed HTTP request: %s " , alloca_toprint ( 120 , ( const char * ) r - > request , r - > request_length ) ) ;
rhizome_server_simple_http_response ( r , 400 , " <html><h1>Malformed request</h1></html> \r \n " ) ;
}
/* Try sending data immediately. */
rhizome_server_http_send_bytes ( r ) ;
return 0 ;
}
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void rhizome_direct_http_dispatch ( rhizome_direct_sync_request * r )
{
DEBUGF ( " Dispatch size_high=%lld " , r - > cursor - > size_high ) ;
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rhizome_direct_transport_state_http * state = r - > transport_specific_state ;
int sock = socket ( AF_INET , SOCK_STREAM , 0 ) ;
if ( sock = = - 1 ) {
DEBUGF ( " could not open socket " ) ;
goto end ;
}
struct hostent * hostent ;
hostent = gethostbyname ( state - > host ) ;
if ( ! hostent ) {
DEBUGF ( " could not resolve hostname " ) ;
goto end ;
}
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struct sockaddr_in addr ;
addr . sin_family = AF_INET ;
addr . sin_port = htons ( state - > port ) ;
addr . sin_addr = * ( ( struct in_addr * ) hostent - > h_addr ) ;
bzero ( & ( addr . sin_zero ) , 8 ) ;
if ( connect ( sock , ( struct sockaddr * ) & addr , sizeof ( struct sockaddr ) ) = = - 1 )
{
close ( sock ) ;
DEBUGF ( " Could not connect to remote " ) ;
goto end ;
}
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/* Okay, we have open socket */
char boundary [ 1024 ] ;
snprintf ( boundary , 1024 , " ----%08lx%08lx " , random ( ) , random ( ) ) ;
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/* TODO: Refactor this code so that it uses our asynchronous framework.
*/
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int content_length =
strlen ( " -- " ) + strlen ( boundary ) + strlen ( " \r \n " ) +
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strlen ( " Content-Disposition: form-data; name= \" data \" ; filename= \" IHAVEs \" \r \n "
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" Content-Type: application/octet-stream \r \n "
" \r \n " ) +
r - > cursor - > buffer_offset_bytes + r - > cursor - > buffer_used +
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strlen ( " \r \n -- " ) + strlen ( boundary ) + strlen ( " -- \r \n " ) ;
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char buffer [ 8192 ] ;
snprintf ( buffer , 8192 ,
" POST /rhizome/enquiry HTTP/1.0 \r \n "
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" Content-Length: %d \r \n "
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" Content-Type: multipart/form-data; boundary=%s \r \n "
" \r \n "
" --%s \r \n "
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" Content-Disposition: form-data; name= \" data \" ; filename= \" IHAVEs \" \r \n "
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" Content-Type: application/octet-stream \r \n "
" \r \n " ,
content_length ,
boundary , boundary ) ;
int len = strlen ( buffer ) ;
int sent = 0 ;
while ( sent < len ) {
errno = 0 ;
int count = write ( sock , & buffer [ sent ] , len - sent ) ;
if ( count < 1 ) {
DEBUGF ( " errno=%d, count=%d " , errno , count ) ;
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if ( errno = = EPIPE ) goto rx ;
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close ( sock ) ;
goto end ;
}
sent + = count ;
}
len = r - > cursor - > buffer_offset_bytes + r - > cursor - > buffer_used ;
sent = 0 ;
while ( sent < len ) {
errno = 0 ;
int count = write ( sock , & r - > cursor - > buffer [ sent ] , len - sent ) ;
if ( count < 1 ) {
DEBUGF ( " errno=%d, count=%d " , errno , count ) ;
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if ( errno = = EPIPE ) goto rx ;
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close ( sock ) ;
goto end ;
}
sent + = count ;
}
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snprintf ( buffer , 8192 , " \r \n --%s-- \r \n " , boundary ) ;
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len = strlen ( buffer ) ;
sent = 0 ;
while ( sent < len ) {
errno = 0 ;
int count = write ( sock , & buffer [ sent ] , len - sent ) ;
if ( count < 1 ) {
DEBUGF ( " errno=%d, count=%d " , errno , count ) ;
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if ( errno = = EPIPE ) goto rx ;
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close ( sock ) ;
goto end ;
}
sent + = count ;
}
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rx :
/* request sent, now get response back. */
buffer [ 0 ] = 0 ; len = 0 ;
while ( ! http_header_complete ( buffer , len , len ) & & ( len < 8192 ) )
{
int count = read ( sock , & buffer [ len ] , 8192 - len ) ;
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if ( count = = 0 ) break ;
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if ( count < 1 ) {
DEBUGF ( " errno=%d, count=%d " , errno , count ) ;
close ( sock ) ;
goto end ;
}
len + = count ;
if ( len > = 8000 ) {
DEBUGF ( " reply header too long " ) ;
close ( sock ) ;
goto end ;
}
}
DEBUGF ( " Got HTTP header " ) ;
dump ( " reply " , ( unsigned char * ) buffer , len ) ;
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char * p = NULL ;
if ( ! str_startswith ( buffer , " HTTP/1.0 " , & p ) ) {
DEBUGF ( " Malformed HTTP reply: missing HTTP/1.0 preamble " ) ;
close ( sock ) ; goto end ;
}
int http_response_code = 0 ;
char * nump ;
for ( nump = p ; isdigit ( * p ) ; + + p )
http_response_code = http_response_code * 10 + * p - ' 0 ' ;
if ( p = = nump | | * p ! = ' ' ) {
DEBUGF ( " Malformed HTTP reply: missing decimal status code " ) ;
close ( sock ) ; goto end ;
}
if ( http_response_code ! = 200 ) {
DEBUGF ( " Failed HTTP request: rhizome server returned %d != 200 OK " , http_response_code ) ;
close ( sock ) ; goto end ;
}
// This loop will terminate, because http_header_complete() above found at least
// "\n\n" at the end of the header, and probably "\r\n\r\n".
while ( * p + + ! = ' \n ' )
;
// Iterate over header lines until the last blank line.
while ( * p ! = ' \r ' & & * p ! = ' \n ' ) {
if ( strcase_startswith ( p , " Content-Length: " , & p ) ) {
while ( * p = = ' ' )
+ + p ;
content_length = 0 ;
for ( nump = p ; isdigit ( * p ) ; + + p )
content_length = content_length * 10 + * p - ' 0 ' ;
if ( p = = nump | | ( * p ! = ' \r ' & & * p ! = ' \n ' ) ) {
DEBUGF ( " Invalid HTTP reply: malformed Content-Length header " ) ;
close ( sock ) ; goto end ;
}
}
while ( * p + + ! = ' \n ' )
;
}
if ( * p = = ' \r ' )
+ + p ;
+ + p ; // skip '\n' at end of blank line
if ( content_length = = - 1 ) {
DEBUGF ( " Invalid HTTP reply: missing Content-Length header " ) ;
close ( sock ) ; goto end ;
}
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DEBUGF ( " XXX Reading enquiry response for processing " ) ;
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end :
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/* Warning: tail recursion when done this way.
Should be triggered by an asynchronous event .
But this will do for now . */
rhizome_direct_continue_sync_request ( r ) ;
}