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|
/***************************************************************************
* _ _ ____ _
* Project ___| | | | _ \| |
* / __| | | | |_) | |
* | (__| |_| | _ <| |___
* \___|\___/|_| \_\_____|
*
* Copyright (C) 1998 - 2003, Daniel Stenberg, <daniel@haxx.se>, et al.
*
* This software is licensed as described in the file COPYING, which
* you should have received as part of this distribution. The terms
* are also available at http://curl.haxx.se/docs/copyright.html.
*
* You may opt to use, copy, modify, merge, publish, distribute and/or sell
* copies of the Software, and permit persons to whom the Software is
* furnished to do so, under the terms of the COPYING file.
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
* $Id$
***************************************************************************/
#include "setup.h"
/* -- WIN32 approved -- */
#include <stdio.h>
#include <string.h>
#include <stdarg.h>
#include <stdlib.h>
#include <ctype.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <errno.h>
#include "strequal.h"
#if defined(WIN32) && !defined(__GNUC__) || defined(__MINGW32__)
#include <time.h>
#include <io.h>
#else
#ifdef HAVE_SYS_SOCKET_H
#include <sys/socket.h>
#endif
#include <netinet/in.h>
#include <sys/time.h>
#ifdef HAVE_UNISTD_H
#include <unistd.h>
#endif
#include <netdb.h>
#ifdef HAVE_ARPA_INET_H
#include <arpa/inet.h>
#endif
#ifdef HAVE_NET_IF_H
#include <net/if.h>
#endif
#include <sys/ioctl.h>
#include <signal.h>
#ifdef HAVE_SYS_PARAM_H
#include <sys/param.h>
#endif
#ifdef HAVE_SYS_SELECT_H
#include <sys/select.h>
#endif
#ifndef HAVE_SELECT
#error "We can't compile without select() support!"
#endif
#ifndef HAVE_SOCKET
#error "We can't compile without socket() support!"
#endif
#endif
#include "urldata.h"
#include <curl/curl.h>
#include <curl/types.h>
#include "netrc.h"
#include "content_encoding.h" /* content encoding support. 08/27/02 jhrg */
#include "hostip.h"
#include "transfer.h"
#include "sendf.h"
#include "speedcheck.h"
#include "progress.h"
#include "getdate.h"
#include "http.h"
#include "url.h"
#include "getinfo.h"
#include "ssluse.h"
#include "http_digest.h"
#include "http_ntlm.h"
#include "http_negotiate.h"
#include "share.h"
#define _MPRINTF_REPLACE /* use our functions only */
#include <curl/mprintf.h>
/* The last #include file should be: */
#ifdef CURLDEBUG
#include "memdebug.h"
#endif
#ifndef min
#define min(a, b) ((a) < (b) ? (a) : (b))
#endif
#define CURL_TIMEOUT_EXPECT_100 1000 /* counting ms here */
enum {
KEEP_NONE,
KEEP_READ,
KEEP_WRITE
};
/* We keep this static and global since this is read-only and NEVER
changed. It should just remain a blanked-out timeout value. */
static struct timeval notimeout={0,0};
/*
* This function will call the read callback to fill our buffer with data
* to upload.
*/
static int fillbuffer(struct connectdata *conn,
int bytes)
{
int buffersize = bytes;
int nread;
if(conn->bits.upload_chunky) {
/* if chunked Transfer-Encoding */
buffersize -= (8 + 2 + 2); /* 32bit hex + CRLF + CRLF */
conn->upload_fromhere += 10; /* 32bit hex + CRLF */
}
nread = conn->fread(conn->upload_fromhere, 1,
buffersize, conn->fread_in);
if(!conn->bits.forbidchunk && conn->bits.upload_chunky) {
/* if chunked Transfer-Encoding */
char hexbuffer[11];
int hexlen = snprintf(hexbuffer, sizeof(hexbuffer),
"%x\r\n", nread);
/* move buffer pointer */
conn->upload_fromhere -= hexlen;
nread += hexlen;
/* copy the prefix to the buffer */
memcpy(conn->upload_fromhere, hexbuffer, hexlen);
if(nread>hexlen) {
/* append CRLF to the data */
memcpy(conn->upload_fromhere +
nread, "\r\n", 2);
nread+=2;
}
else {
/* mark this as done once this chunk is transfered */
conn->keep.upload_done = TRUE;
}
}
return nread;
}
/*
* checkhttpprefix()
*
* Returns TRUE if member of the list matches prefix of string
*/
static bool
checkhttpprefix(struct SessionHandle *data,
const char *s)
{
struct curl_slist *head = data->set.http200aliases;
while (head) {
if (checkprefix(head->data, s))
return TRUE;
head = head->next;
}
if(checkprefix("HTTP/", s))
return TRUE;
return FALSE;
}
CURLcode Curl_readwrite(struct connectdata *conn,
bool *done)
{
struct Curl_transfer_keeper *k = &conn->keep;
struct SessionHandle *data = conn->data;
int result;
ssize_t nread; /* number of bytes read */
int didwhat=0;
/* These two are used only if no other select() or _fdset() have been
invoked before this. This typicly happens if you use the multi interface
and call curl_multi_perform() without calling curl_multi_fdset()
first. */
fd_set extrareadfd;
fd_set extrawritefd;
fd_set *readfdp = k->readfdp;
fd_set *writefdp = k->writefdp;
if((k->keepon & KEEP_READ) && !readfdp) {
/* reading is requested, but no socket descriptor pointer was set */
FD_ZERO(&extrareadfd);
FD_SET(conn->sockfd, &extrareadfd);
readfdp = &extrareadfd;
/* no write, no exceptions, no timeout */
select(conn->sockfd+1, readfdp, NULL, NULL, ¬imeout);
}
if((k->keepon & KEEP_WRITE) && !writefdp) {
/* writing is requested, but no socket descriptor pointer was set */
FD_ZERO(&extrawritefd);
FD_SET(conn->writesockfd, &extrawritefd);
writefdp = &extrawritefd;
/* no read, no exceptions, no timeout */
select(conn->writesockfd+1, NULL, writefdp, NULL, ¬imeout);
}
do {
/* If we still have reading to do, we check if we have a readable
socket. Sometimes the reafdp is NULL, if no fd_set was done using
the multi interface and then we can do nothing but to attempt a
read to be sure. */
if((k->keepon & KEEP_READ) &&
(!readfdp || FD_ISSET(conn->sockfd, readfdp))) {
bool readdone = TRUE;
/* This is where we loop until we have read everything there is to
read or we get a EWOULDBLOCK */
do {
int buffersize = data->set.buffer_size?
data->set.buffer_size:BUFSIZE -1;
/* receive data from the network! */
result = Curl_read(conn, conn->sockfd, k->buf, buffersize, &nread);
if(0>result)
break; /* get out of loop */
if(result>0)
return result;
if ((k->bytecount == 0) && (k->writebytecount == 0)) {
Curl_pgrsTime(data, TIMER_STARTTRANSFER);
if(k->wait100_after_headers)
/* set time stamp to compare with when waiting for the 100 */
k->start100 = Curl_tvnow();
}
didwhat |= KEEP_READ;
/* NULL terminate, allowing string ops to be used */
if (0 < nread)
k->buf[nread] = 0;
/* if we receive 0 or less here, the server closed the connection and
we bail out from this! */
else if (0 >= nread) {
k->keepon &= ~KEEP_READ;
FD_ZERO(&k->rkeepfd);
readdone = TRUE;
break;
}
/* Default buffer to use when we write the buffer, it may be changed
in the flow below before the actual storing is done. */
k->str = k->buf;
/* Since this is a two-state thing, we check if we are parsing
headers at the moment or not. */
if (k->header) {
/* we are in parse-the-header-mode */
bool stop_reading = FALSE;
/* header line within buffer loop */
do {
int hbufp_index;
int rest_length;
int full_length;
int writetype;
/* str_start is start of line within buf */
k->str_start = k->str;
k->end_ptr = strchr (k->str_start, '\n');
if (!k->end_ptr) {
/* Not a complete header line within buffer, append the data to
the end of the headerbuff. */
if (k->hbuflen + nread >= data->state.headersize) {
/* We enlarge the header buffer as it is too small */
char *newbuff;
long newsize=MAX((k->hbuflen+nread)*3/2,
data->state.headersize*2);
hbufp_index = k->hbufp - data->state.headerbuff;
newbuff = (char *)realloc(data->state.headerbuff, newsize);
if(!newbuff) {
failf (data, "Failed to alloc memory for big header!");
return CURLE_OUT_OF_MEMORY;
}
data->state.headersize=newsize;
data->state.headerbuff = newbuff;
k->hbufp = data->state.headerbuff + hbufp_index;
}
memcpy(k->hbufp, k->str, nread);
k->hbufp += nread;
k->hbuflen += nread;
if (!k->headerline && (k->hbuflen>5)) {
/* make a first check that this looks like a HTTP header */
if(!checkhttpprefix(data, data->state.headerbuff)) {
/* this is not the beginning of a HTTP first header line */
k->header = FALSE;
k->badheader = HEADER_ALLBAD;
break;
}
}
break; /* read more and try again */
}
/* decrease the size of the remaining (supposed) header line */
rest_length = (k->end_ptr - k->str)+1;
nread -= rest_length;
k->str = k->end_ptr + 1; /* move past new line */
full_length = k->str - k->str_start;
/*
* We're about to copy a chunk of data to the end of the
* already received header. We make sure that the full string
* fit in the allocated header buffer, or else we enlarge
* it.
*/
if (k->hbuflen + full_length >=
data->state.headersize) {
char *newbuff;
long newsize=MAX((k->hbuflen+full_length)*3/2,
data->state.headersize*2);
hbufp_index = k->hbufp - data->state.headerbuff;
newbuff = (char *)realloc(data->state.headerbuff, newsize);
if(!newbuff) {
failf (data, "Failed to alloc memory for big header!");
return CURLE_OUT_OF_MEMORY;
}
data->state.headersize= newsize;
data->state.headerbuff = newbuff;
k->hbufp = data->state.headerbuff + hbufp_index;
}
/* copy to end of line */
strncpy (k->hbufp, k->str_start, full_length);
k->hbufp += full_length;
k->hbuflen += full_length;
*k->hbufp = 0;
k->end_ptr = k->hbufp;
k->p = data->state.headerbuff;
/****
* We now have a FULL header line that p points to
*****/
if(!k->headerline) {
/* the first read header */
if((k->hbuflen>5) &&
!checkhttpprefix(data, data->state.headerbuff)) {
/* this is not the beginning of a HTTP first header line */
k->header = FALSE;
if(nread)
/* since there's more, this is a partial bad header */
k->badheader = HEADER_PARTHEADER;
else {
/* this was all we read so its all a bad header */
k->badheader = HEADER_ALLBAD;
nread = rest_length;
}
break;
}
}
if (('\n' == *k->p) || ('\r' == *k->p)) {
int headerlen;
/* Zero-length header line means end of headers! */
if ('\r' == *k->p)
k->p++; /* pass the \r byte */
if ('\n' == *k->p)
k->p++; /* pass the \n byte */
if(100 == k->httpcode) {
/*
* We have made a HTTP PUT or POST and this is 1.1-lingo
* that tells us that the server is OK with this and ready
* to receive the data.
* However, we'll get more headers now so we must get
* back into the header-parsing state!
*/
k->header = TRUE;
k->headerline = 0; /* restart the header line counter */
/* if we did wait for this do enable write now! */
if (k->write_after_100_header) {
k->write_after_100_header = FALSE;
FD_SET (conn->writesockfd, &k->writefd); /* write */
k->keepon |= KEEP_WRITE;
k->wkeepfd = k->writefd;
}
}
else
k->header = FALSE; /* no more header to parse! */
if (417 == k->httpcode) {
/*
* we got: "417 Expectation Failed" this means:
* we have made a HTTP call and our Expect Header
* seems to cause a problem => abort the write operations
* (or prevent them from starting).
*/
k->write_after_100_header = FALSE;
k->keepon &= ~KEEP_WRITE;
FD_ZERO(&k->wkeepfd);
}
/* now, only output this if the header AND body are requested:
*/
writetype = CLIENTWRITE_HEADER;
if (data->set.http_include_header)
writetype |= CLIENTWRITE_BODY;
headerlen = k->p - data->state.headerbuff;
result = Curl_client_write(data, writetype,
data->state.headerbuff,
headerlen);
if(result)
return result;
data->info.header_size += headerlen;
conn->headerbytecount += headerlen;
if(!k->header) {
/*
* really end-of-headers.
*
* If we requested a "no body", this is a good time to get
* out and return home.
*/
if(data->set.no_body)
stop_reading = TRUE;
else {
/* If we know the expected size of this document, we set the
maximum download size to the size of the expected
document or else, we won't know when to stop reading!
Note that we set the download maximum even if we read a
"Connection: close" header, to make sure that
"Content-Length: 0" still prevents us from attempting to
read the (missing) response-body.
*/
if(-1 != conn->size)
conn->maxdownload = conn->size;
}
/* If max download size is *zero* (nothing) we already
have nothing and can safely return ok now! */
if(0 == conn->maxdownload)
stop_reading = TRUE;
if(stop_reading) {
/* we make sure that this socket isn't read more now */
k->keepon &= ~KEEP_READ;
FD_ZERO(&k->rkeepfd);
}
break; /* exit header line loop */
}
/* We continue reading headers, so reset the line-based
header parsing variables hbufp && hbuflen */
k->hbufp = data->state.headerbuff;
k->hbuflen = 0;
continue;
}
/*
* Checks for special headers coming up.
*/
if (!k->headerline++) {
/* This is the first header, it MUST be the error code line
or else we consiser this to be the body right away! */
int httpversion_major;
int nc=sscanf (k->p, " HTTP/%d.%d %3d",
&httpversion_major,
&k->httpversion,
&k->httpcode);
if (nc==3) {
k->httpversion += 10 * httpversion_major;
}
else {
/* this is the real world, not a Nirvana
NCSA 1.5.x returns this crap when asked for HTTP/1.1
*/
nc=sscanf (k->p, " HTTP %3d", &k->httpcode);
k->httpversion = 10;
/* If user has set option HTTP200ALIASES,
compare header line against list of aliases
*/
if (!nc) {
if (checkhttpprefix(data, k->p)) {
nc = 1;
k->httpcode = 200;
k->httpversion =
(data->set.httpversion==CURL_HTTP_VERSION_1_0)? 10 : 11;
}
}
}
if (nc) {
data->info.httpcode = k->httpcode;
data->info.httpversion = k->httpversion;
/* 404 -> URL not found! */
if (data->set.http_fail_on_error &&
(k->httpcode >= 400)) {
/* If we have been told to fail hard on HTTP-errors,
here is the check for that: */
/* serious error, go home! */
failf (data, "The requested URL returned error: %d",
k->httpcode);
return CURLE_HTTP_RETURNED_ERROR;
}
if(k->httpversion == 10)
/* Default action for HTTP/1.0 must be to close, unless
we get one of those fancy headers that tell us the
server keeps it open for us! */
conn->bits.close = TRUE;
switch(k->httpcode) {
case 204:
/* (quote from RFC2616, section 10.2.5): The server has
* fulfilled the request but does not need to return an
* entity-body ... The 204 response MUST NOT include a
* message-body, and thus is always terminated by the first
* empty line after the header fields. */
/* FALLTHROUGH */
case 304:
/* (quote from RFC2616, section 10.3.5): The 304 response MUST
* NOT contain a message-body, and thus is always terminated
* by the first empty line after the header fields. */
conn->size=0;
conn->maxdownload=0;
break;
default:
/* nothing */
break;
}
}
else {
k->header = FALSE; /* this is not a header line */
break;
}
}
/* check for Content-Length: header lines to get size */
if (checkprefix("Content-Length:", k->p) &&
sscanf (k->p+15, " %ld", &k->contentlength)) {
conn->size = k->contentlength;
Curl_pgrsSetDownloadSize(data, k->contentlength);
}
/* check for Content-Type: header lines to get the mime-type */
else if (checkprefix("Content-Type:", k->p)) {
char *start;
char *end;
int len;
/* Find the first non-space letter */
for(start=k->p+13;
*start && isspace((int)*start);
start++);
end = strchr(start, '\r');
if(!end)
end = strchr(start, '\n');
if(end) {
/* skip all trailing space letters */
for(; isspace((int)*end) && (end > start); end--);
/* get length of the type */
len = end-start+1;
/* allocate memory of a cloned copy */
Curl_safefree(data->info.contenttype);
data->info.contenttype = malloc(len + 1);
if (NULL == data->info.contenttype)
return CURLE_OUT_OF_MEMORY;
/* copy the content-type string */
memcpy(data->info.contenttype, start, len);
data->info.contenttype[len] = 0; /* zero terminate */
}
}
else if((k->httpversion == 10) &&
conn->bits.httpproxy &&
Curl_compareheader(k->p,
"Proxy-Connection:", "keep-alive")) {
/*
* When a HTTP/1.0 reply comes when using a proxy, the
* 'Proxy-Connection: keep-alive' line tells us the
* connection will be kept alive for our pleasure.
* Default action for 1.0 is to close.
*/
conn->bits.close = FALSE; /* don't close when done */
infof(data, "HTTP/1.0 proxy connection set to keep alive!\n");
}
else if((k->httpversion == 10) &&
Curl_compareheader(k->p, "Connection:", "keep-alive")) {
/*
* A HTTP/1.0 reply with the 'Connection: keep-alive' line
* tells us the connection will be kept alive for our
* pleasure. Default action for 1.0 is to close.
*
* [RFC2068, section 19.7.1] */
conn->bits.close = FALSE; /* don't close when done */
infof(data, "HTTP/1.0 connection set to keep alive!\n");
}
else if (Curl_compareheader(k->p, "Connection:", "close")) {
/*
* [RFC 2616, section 8.1.2.1]
* "Connection: close" is HTTP/1.1 language and means that
* the connection will close when this request has been
* served.
*/
conn->bits.close = TRUE; /* close when done */
}
else if (Curl_compareheader(k->p,
"Transfer-Encoding:", "chunked")) {
/*
* [RFC 2616, section 3.6.1] A 'chunked' transfer encoding
* means that the server will send a series of "chunks". Each
* chunk starts with line with info (including size of the
* coming block) (terminated with CRLF), then a block of data
* with the previously mentioned size. There can be any amount
* of chunks, and a chunk-data set to zero signals the
* end-of-chunks. */
conn->bits.chunk = TRUE; /* chunks coming our way */
/* init our chunky engine */
Curl_httpchunk_init(conn);
}
else if (checkprefix("Content-Encoding:", k->p) &&
data->set.encoding) {
/*
* Process Content-Encoding. Look for the values: identity,
* gzip, deflate, compress, x-gzip and x-compress. x-gzip and
* x-compress are the same as gzip and compress. (Sec 3.5 RFC
* 2616). zlib cannot handle compress. However, errors are
* handled further down when the response body is processed
*/
char *start;
/* Find the first non-space letter */
for(start=k->p+17;
*start && isspace((int)*start);
start++);
/* Record the content-encoding for later use. 08/27/02 jhrg */
if (checkprefix("identity", start))
k->content_encoding = IDENTITY;
else if (checkprefix("deflate", start))
k->content_encoding = DEFLATE;
else if (checkprefix("gzip", start)
|| checkprefix("x-gzip", start))
k->content_encoding = GZIP;
else if (checkprefix("compress", start)
|| checkprefix("x-compress", start))
k->content_encoding = COMPRESS;
}
else if (checkprefix("Content-Range:", k->p)) {
if (sscanf (k->p+14, " bytes %d-", &k->offset) ||
sscanf (k->p+14, " bytes: %d-", &k->offset)) {
/* This second format was added August 1st 2000 by Igor
Khristophorov since Sun's webserver JavaWebServer/1.1.1
obviously sends the header this way! :-( */
if (conn->resume_from == k->offset) {
/* we asked for a resume and we got it */
k->content_range = TRUE;
}
}
}
else if(data->cookies &&
checkprefix("Set-Cookie:", k->p)) {
Curl_share_lock(data, CURL_LOCK_DATA_COOKIE,
CURL_LOCK_ACCESS_SINGLE);
Curl_cookie_add(data,
data->cookies, TRUE, k->p+11,
/* If there is a custom-set Host: name, use it
here, or else use real peer host name. */
conn->allocptr.cookiehost?
conn->allocptr.cookiehost:conn->name,
conn->ppath);
Curl_share_unlock(data, CURL_LOCK_DATA_COOKIE);
}
else if(checkprefix("Last-Modified:", k->p) &&
(data->set.timecondition || data->set.get_filetime) ) {
time_t secs=time(NULL);
k->timeofdoc = curl_getdate(k->p+strlen("Last-Modified:"),
&secs);
if(data->set.get_filetime)
data->info.filetime = k->timeofdoc;
}
else if((checkprefix("WWW-Authenticate:", k->p) &&
(401 == k->httpcode)) ||
(checkprefix("Proxy-authenticate:", k->p) &&
(407 == k->httpcode))) {
result = Curl_http_auth(conn, k->httpcode, k->p);
if(result)
return result;
}
else if ((k->httpcode >= 300 && k->httpcode < 400) &&
checkprefix("Location:", k->p)) {
if(data->set.http_follow_location) {
/* this is the URL that the server advices us to get instead */
char *ptr;
char *start=k->p;
char backup;
start += 9; /* pass "Location:" */
/* Skip spaces and tabs. We do this to support multiple
white spaces after the "Location:" keyword. */
while(*start && isspace((int)*start ))
start++;
/* Scan through the string from the end to find the last
non-space. k->end_ptr points to the actual terminating zero
letter, move pointer one letter back and start from
there. This logic strips off trailing whitespace, but keeps
any embedded whitespace. */
ptr = k->end_ptr-1;
while((ptr>=start) && isspace((int)*ptr))
ptr--;
ptr++;
backup = *ptr; /* store the ending letter */
if(ptr != start) {
*ptr = '\0'; /* zero terminate */
conn->newurl = strdup(start); /* clone string */
*ptr = backup; /* restore ending letter */
}
}
#if 0 /* for consideration */
else {
/* This is a Location: but we have not been instructed to
follow it */
infof(data, "We ignore this location header as instructed\n");
}
#endif
}
/*
* End of header-checks. Write them to the client.
*/
writetype = CLIENTWRITE_HEADER;
if (data->set.http_include_header)
writetype |= CLIENTWRITE_BODY;
if(data->set.verbose)
Curl_debug(data, CURLINFO_HEADER_IN,
k->p, k->hbuflen);
result = Curl_client_write(data, writetype, k->p, k->hbuflen);
if(result)
return result;
data->info.header_size += k->hbuflen;
conn->headerbytecount += k->hbuflen;
/* reset hbufp pointer && hbuflen */
k->hbufp = data->state.headerbuff;
k->hbuflen = 0;
}
while (!stop_reading && *k->str); /* header line within buffer */
if(stop_reading)
/* We've stopped dealing with input, get out of the do-while loop */
break;
/* We might have reached the end of the header part here, but
there might be a non-header part left in the end of the read
buffer. */
} /* end if header mode */
/* This is not an 'else if' since it may be a rest from the header
parsing, where the beginning of the buffer is headers and the end
is non-headers. */
if (k->str && !k->header && (nread > 0)) {
if(0 == k->bodywrites) {
/* These checks are only made the first time we are about to
write a piece of the body */
if(conn->protocol&PROT_HTTP) {
/* HTTP-only checks */
/* *auth_act() checks what authentication methods that are
available and decides which one (if any) to use. It will
set 'newurl' if an auth metod was picked. */
Curl_http_auth_act(conn);
if (conn->newurl) {
if(conn->bits.close) {
/* Abort after the headers if "follow Location" is set
and we're set to close anyway. */
k->keepon &= ~KEEP_READ;
FD_ZERO(&k->rkeepfd);
*done = TRUE;
return CURLE_OK;
}
/* We have a new url to load, but since we want to be able
to re-use this connection properly, we read the full
response in "ignore more" */
k->ignorebody = TRUE;
infof(data, "Ignoring the response-body\n");
}
if (conn->resume_from &&
!k->content_range &&
(data->set.httpreq==HTTPREQ_GET)) {
/* we wanted to resume a download, although the server
doesn't seem to support this and we did this with a GET
(if it wasn't a GET we did a POST or PUT resume) */
failf (data, "HTTP server doesn't seem to support "
"byte ranges. Cannot resume.");
return CURLE_HTTP_RANGE_ERROR;
}
else if(data->set.timecondition && !conn->range) {
/* A time condition has been set AND no ranges have been
requested. This seems to be what chapter 13.3.4 of
RFC 2616 defines to be the correct action for a
HTTP/1.1 client */
if((k->timeofdoc > 0) && (data->set.timevalue > 0)) {
switch(data->set.timecondition) {
case TIMECOND_IFMODSINCE:
default:
if(k->timeofdoc < data->set.timevalue) {
infof(data,
"The requested document is not new enough\n");
*done = TRUE;
return CURLE_OK;
}
break;
case TIMECOND_IFUNMODSINCE:
if(k->timeofdoc > data->set.timevalue) {
infof(data,
"The requested document is not old enough\n");
*done = TRUE;
return CURLE_OK;
}
break;
} /* switch */
} /* two valid time strings */
} /* we have a time condition */
} /* this is HTTP */
} /* this is the first time we write a body part */
k->bodywrites++;
/* pass data to the debug function before it gets "dechunked" */
if(data->set.verbose) {
if(k->badheader) {
Curl_debug(data, CURLINFO_DATA_IN, data->state.headerbuff,
k->hbuflen);
if(k->badheader == HEADER_PARTHEADER)
Curl_debug(data, CURLINFO_DATA_IN, k->str, nread);
}
else
Curl_debug(data, CURLINFO_DATA_IN, k->str, nread);
}
if(conn->bits.chunk) {
/*
* Bless me father for I have sinned. Here comes a chunked
* transfer flying and we need to decode this properly. While
* the name says read, this function both reads and writes away
* the data. The returned 'nread' holds the number of actual
* data it wrote to the client. */
CHUNKcode res =
Curl_httpchunk_read(conn, k->str, nread, &nread);
if(CHUNKE_OK < res) {
if(CHUNKE_WRITE_ERROR == res) {
failf(data, "Failed writing data");
return CURLE_WRITE_ERROR;
}
failf(data, "Received problem %d in the chunky parser", res);
return CURLE_RECV_ERROR;
}
else if(CHUNKE_STOP == res) {
/* we're done reading chunks! */
k->keepon &= ~KEEP_READ; /* read no more */
FD_ZERO(&k->rkeepfd);
/* There are now possibly N number of bytes at the end of the
str buffer that weren't written to the client, but we don't
care about them right now. */
}
/* If it returned OK, we just keep going */
}
if((-1 != conn->maxdownload) &&
(k->bytecount + nread >= conn->maxdownload)) {
nread = conn->maxdownload - k->bytecount;
if(nread < 0 ) /* this should be unusual */
nread = 0;
k->keepon &= ~KEEP_READ; /* we're done reading */
FD_ZERO(&k->rkeepfd);
}
k->bytecount += nread;
Curl_pgrsSetDownloadCounter(data, (double)k->bytecount);
if(!conn->bits.chunk && (nread || k->badheader)) {
/* If this is chunky transfer, it was already written */
if(k->badheader && !k->ignorebody) {
/* we parsed a piece of data wrongly assuming it was a header
and now we output it as body instead */
result = Curl_client_write(data, CLIENTWRITE_BODY,
data->state.headerbuff,
k->hbuflen);
}
if(k->badheader < HEADER_ALLBAD) {
/* This switch handles various content encodings. If there's an
error here, be sure to check over the almost identical code
in http_chunks.c. 08/29/02 jhrg
Make sure that ALL_CONTENT_ENCODINGS contains all the
encodings handled here. */
#ifdef HAVE_LIBZ
switch (k->content_encoding) {
case IDENTITY:
#endif
/* This is the default when the server sends no
Content-Encoding header. See Curl_readwrite_init; the
memset() call initializes k->content_encoding to zero.
08/28/02 jhrg */
if(!k->ignorebody)
result = Curl_client_write(data, CLIENTWRITE_BODY, k->str,
nread);
#ifdef HAVE_LIBZ
break;
case DEFLATE:
/* Assume CLIENTWRITE_BODY; headers are not encoded. */
result = Curl_unencode_deflate_write(data, k, nread);
break;
case GZIP:
/* Assume CLIENTWRITE_BODY; headers are not encoded. */
result = Curl_unencode_gzip_write(data, k, nread);
break;
case COMPRESS: /* FIXME 08/27/02 jhrg */
default:
failf (data, "Unrecognized content encoding type. "
"libcurl understands `identity', `deflate' and `gzip' "
"content encodings.");
result = CURLE_BAD_CONTENT_ENCODING;
break;
}
#endif
}
k->badheader = HEADER_NORMAL; /* taken care of now */
if(result)
return result;
}
} /* if (! header and data to read ) */
} while(!readdone);
} /* if( read from socket ) */
/* If we still have writing to do, we check if we have a writable
socket. Sometimes the writefdp is NULL, if no fd_set was done using
the multi interface and then we can do nothing but to attempt a
write to be sure. */
if((k->keepon & KEEP_WRITE) &&
(!writefdp || FD_ISSET(conn->writesockfd, writefdp)) ) {
/* write */
int i, si;
ssize_t bytes_written;
bool writedone=TRUE;
if ((k->bytecount == 0) && (k->writebytecount == 0))
Curl_pgrsTime(data, TIMER_STARTTRANSFER);
didwhat |= KEEP_WRITE;
/*
* We loop here to do the READ and SEND loop until we run out of
* data to send or until we get EWOULDBLOCK back
*/
do {
/* only read more data if there's no upload data already
present in the upload buffer */
if(0 == conn->upload_present) {
/* init the "upload from here" pointer */
conn->upload_fromhere = k->uploadbuf;
if(!k->upload_done) {
/* HTTP pollution, this should be written nicer to become more
protocol agnostic. */
if(k->wait100_after_headers &&
(conn->proto.http->sending == HTTPSEND_BODY)) {
/* If this call is to send body data, we must take some action:
We have sent off the full HTTP 1.1 request, and we shall now
go into the Expect: 100 state and await such a header */
k->wait100_after_headers = FALSE; /* headers sent */
k->write_after_100_header = TRUE; /* wait for the header */
FD_ZERO (&k->writefd); /* clear it */
k->wkeepfd = k->writefd; /* set the keeper variable */
k->keepon &= ~KEEP_WRITE; /* disable writing */
k->start100 = Curl_tvnow(); /* timeout count starts now */
didwhat &= ~KEEP_WRITE; /* we didn't write anything actually */
break;
}
nread = fillbuffer(conn, BUFSIZE);
}
else
nread = 0; /* we're done uploading/reading */
/* the signed int typecase of nread of for systems that has
unsigned size_t */
if (nread<=0) {
/* done */
k->keepon &= ~KEEP_WRITE; /* we're done writing */
FD_ZERO(&k->wkeepfd);
writedone = TRUE;
break;
}
/* store number of bytes available for upload */
conn->upload_present = nread;
/* convert LF to CRLF if so asked */
if (data->set.crlf) {
if(data->state.scratch == NULL)
data->state.scratch = malloc(2*BUFSIZE);
if(data->state.scratch == NULL) {
failf (data, "Failed to alloc scratch buffer!");
return CURLE_OUT_OF_MEMORY;
}
for(i = 0, si = 0; i < nread; i++, si++) {
if (conn->upload_fromhere[i] == 0x0a) {
data->state.scratch[si++] = 0x0d;
data->state.scratch[si] = 0x0a;
}
else
data->state.scratch[si] = conn->upload_fromhere[i];
}
if(si != nread) {
/* only perform the special operation if we really did replace
anything */
nread = si;
/* upload from the new (replaced) buffer instead */
conn->upload_fromhere = data->state.scratch;
/* set the new amount too */
conn->upload_present = nread;
}
}
}
else {
/* We have a partial buffer left from a previous "round". Use
that instead of reading more data */
}
/* write to socket (send away data) */
result = Curl_write(conn,
conn->writesockfd, /* socket to send to */
conn->upload_fromhere, /* buffer pointer */
conn->upload_present, /* buffer size */
&bytes_written); /* actually send away */
if(result)
return result;
if(data->set.verbose)
/* show the data before we change the pointer upload_fromhere */
Curl_debug(data, CURLINFO_DATA_OUT, conn->upload_fromhere,
bytes_written);
if(conn->upload_present != bytes_written) {
/* we only wrote a part of the buffer (if anything), deal with it! */
/* store the amount of bytes left in the buffer to write */
conn->upload_present -= bytes_written;
/* advance the pointer where to find the buffer when the next send
is to happen */
conn->upload_fromhere += bytes_written;
writedone = TRUE; /* we are done, stop the loop */
}
else {
/* we've uploaded that buffer now */
conn->upload_fromhere = k->uploadbuf;
conn->upload_present = 0; /* no more bytes left */
if(k->upload_done) {
/* switch off writing, we're done! */
k->keepon &= ~KEEP_WRITE; /* we're done writing */
FD_ZERO(&k->wkeepfd);
writedone = TRUE;
}
}
k->writebytecount += bytes_written;
Curl_pgrsSetUploadCounter(data, (double)k->writebytecount);
} while(!writedone); /* loop until we're done writing! */
}
} while(0); /* just to break out from! */
k->now = Curl_tvnow();
if(didwhat) {
/* Update read/write counters */
if(conn->bytecountp)
*conn->bytecountp = k->bytecount; /* read count */
if(conn->writebytecountp)
*conn->writebytecountp = k->writebytecount; /* write count */
}
else {
/* no read no write, this is a timeout? */
if (k->write_after_100_header) {
/* This should allow some time for the header to arrive, but only a
very short time as otherwise it'll be too much wasted times too
often. */
/* Quoting RFC2616, section "8.2.3 Use of the 100 (Continue) Status":
Therefore, when a client sends this header field to an origin server
(possibly via a proxy) from which it has never seen a 100 (Continue)
status, the client SHOULD NOT wait for an indefinite period before
sending the request body.
*/
int ms = Curl_tvdiff(k->now, k->start100);
if(ms > CURL_TIMEOUT_EXPECT_100) {
/* we've waited long enough, continue anyway */
k->write_after_100_header = FALSE;
FD_SET (conn->writesockfd, &k->writefd); /* write socket */
k->keepon |= KEEP_WRITE;
k->wkeepfd = k->writefd;
}
}
}
if(Curl_pgrsUpdate(conn))
result = CURLE_ABORTED_BY_CALLBACK;
else
result = Curl_speedcheck (data, k->now);
if (result)
return result;
if (data->set.timeout &&
((Curl_tvdiff(k->now, k->start)/1000) >= data->set.timeout)) {
failf (data, "Operation timed out with %d out of %d bytes received",
k->bytecount, conn->size);
return CURLE_OPERATION_TIMEOUTED;
}
if(!k->keepon) {
/*
* The transfer has been performed. Just make some general checks before
* returning.
*/
if(!(data->set.no_body) && k->contentlength &&
(k->bytecount != k->contentlength) &&
!conn->newurl) {
failf(data, "transfer closed with %d bytes remaining to read",
k->contentlength-k->bytecount);
return CURLE_PARTIAL_FILE;
}
else if(conn->bits.chunk && conn->proto.http->chunk.datasize) {
failf(data, "transfer closed with at least %d bytes remaining",
conn->proto.http->chunk.datasize);
return CURLE_PARTIAL_FILE;
}
if(Curl_pgrsUpdate(conn))
return CURLE_ABORTED_BY_CALLBACK;
}
/* Now update the "done" boolean we return */
*done = !k->keepon;
return CURLE_OK;
}
CURLcode Curl_readwrite_init(struct connectdata *conn)
{
struct SessionHandle *data = conn->data;
struct Curl_transfer_keeper *k = &conn->keep;
/* NB: the content encoding software depends on this initialization of
Curl_transfer_keeper. 08/28/02 jhrg */
memset(k, 0, sizeof(struct Curl_transfer_keeper));
k->start = Curl_tvnow(); /* start time */
k->now = k->start; /* current time is now */
k->header = TRUE; /* assume header */
k->httpversion = -1; /* unknown at this point */
data = conn->data; /* there's the root struct */
k->buf = data->state.buffer;
k->uploadbuf = data->state.uploadbuffer;
k->maxfd = (conn->sockfd>conn->writesockfd?
conn->sockfd:conn->writesockfd)+1;
k->hbufp = data->state.headerbuff;
k->ignorebody=FALSE;
Curl_pgrsTime(data, TIMER_PRETRANSFER);
Curl_speedinit(data);
Curl_pgrsSetUploadCounter(data, 0);
Curl_pgrsSetDownloadCounter(data, 0);
if (!conn->bits.getheader) {
k->header = FALSE;
if(conn->size > 0)
Curl_pgrsSetDownloadSize(data, conn->size);
}
/* we want header and/or body, if neither then don't do this! */
if(conn->bits.getheader || !data->set.no_body) {
FD_ZERO (&k->readfd); /* clear it */
if(conn->sockfd != -1) {
FD_SET (conn->sockfd, &k->readfd); /* read socket */
k->keepon |= KEEP_READ;
}
FD_ZERO (&k->writefd); /* clear it */
if(conn->writesockfd != -1) {
/* HTTP 1.1 magic:
Even if we require a 100-return code before uploading data, we might
need to write data before that since the REQUEST may not have been
finished sent off just yet.
Thus, we must check if the request has been sent before we set the
state info where we wait for the 100-return code
*/
if (data->set.expect100header &&
(conn->proto.http->sending == HTTPSEND_BODY)) {
/* wait with write until we either got 100-continue or a timeout */
k->write_after_100_header = TRUE;
k->start100 = k->start;
}
else {
if(data->set.expect100header)
/* when we've sent off the rest of the headers, we must await a
100-continue */
k->wait100_after_headers = TRUE;
FD_SET (conn->writesockfd, &k->writefd); /* write socket */
k->keepon |= KEEP_WRITE;
}
}
/* get these in backup variables to be able to restore them on each lap in
the select() loop */
k->rkeepfd = k->readfd;
k->wkeepfd = k->writefd;
}
return CURLE_OK;
}
void Curl_single_fdset(struct connectdata *conn,
fd_set *read_fd_set,
fd_set *write_fd_set,
fd_set *exc_fd_set,
int *max_fd)
{
*max_fd = -1; /* init */
if(conn->keep.keepon & KEEP_READ) {
FD_SET(conn->sockfd, read_fd_set);
*max_fd = conn->sockfd;
conn->keep.readfdp = read_fd_set; /* store the address of the set */
}
if(conn->keep.keepon & KEEP_WRITE) {
FD_SET(conn->writesockfd, write_fd_set);
if(conn->writesockfd > *max_fd)
*max_fd = conn->writesockfd;
conn->keep.writefdp = write_fd_set; /* store the address of the set */
}
/* we don't use exceptions, only touch that one to prevent compiler
warnings! */
*exc_fd_set = *exc_fd_set;
}
/*
* Transfer()
*
* This function is what performs the actual transfer. It is capable of
* doing both ways simultaneously.
* The transfer must already have been setup by a call to Curl_Transfer().
*
* Note that headers are created in a preallocated buffer of a default size.
* That buffer can be enlarged on demand, but it is never shrinken again.
*
* Parts of this function was once written by the friendly Mark Butler
* <butlerm@xmission.com>.
*/
static CURLcode
Transfer(struct connectdata *conn)
{
struct SessionHandle *data = conn->data;
CURLcode result;
struct Curl_transfer_keeper *k = &conn->keep;
bool done=FALSE;
Curl_readwrite_init(conn);
if((conn->sockfd == -1) && (conn->writesockfd == -1))
/* nothing to read, nothing to write, we're already OK! */
return CURLE_OK;
/* we want header and/or body, if neither then don't do this! */
if(!conn->bits.getheader && data->set.no_body)
return CURLE_OK;
k->writefdp = &k->writefd; /* store the address of the set */
k->readfdp = &k->readfd; /* store the address of the set */
while (!done) {
struct timeval interval;
k->readfd = k->rkeepfd; /* set these every lap in the loop */
k->writefd = k->wkeepfd;
interval.tv_sec = 1;
interval.tv_usec = 0;
switch (select (k->maxfd, k->readfdp, k->writefdp, NULL, &interval)) {
case -1: /* select() error, stop reading */
#ifdef EINTR
/* The EINTR is not serious, and it seems you might get this more
ofen when using the lib in a multi-threaded environment! */
if(errno == EINTR)
;
else
#endif
done = TRUE; /* no more read or write */
continue;
case 0: /* timeout */
result = Curl_readwrite(conn, &done);
break;
default: /* readable descriptors */
result = Curl_readwrite(conn, &done);
break;
}
if(result)
return result;
/* "done" signals to us if the transfer(s) are ready */
}
return CURLE_OK;
}
CURLcode Curl_pretransfer(struct SessionHandle *data)
{
CURLcode res;
if(!data->change.url)
/* we can't do anything wihout URL */
return CURLE_URL_MALFORMAT;
#ifdef USE_SSLEAY
/* Init the SSL session ID cache here. We do it here since we want to
do it after the *_setopt() calls (that could change the size) but
before any transfer. */
res = Curl_SSL_InitSessions(data, data->set.ssl.numsessions);
if(res)
return res;
#else
(void)res;
#endif
data->set.followlocation=0; /* reset the location-follow counter */
data->state.this_is_a_follow = FALSE; /* reset this */
data->state.errorbuf = FALSE; /* no error has occurred */
/* set preferred authentication, default to basic */
data->state.authstage = 0; /* initialize authentication later */
/* If there was a list of cookie files to read and we haven't done it before,
do it now! */
if(data->change.cookielist) {
struct curl_slist *list = data->change.cookielist;
Curl_share_lock(data, CURL_LOCK_DATA_COOKIE, CURL_LOCK_ACCESS_SINGLE);
while(list) {
data->cookies = Curl_cookie_init(data,
list->data,
data->cookies,
data->set.cookiesession);
list = list->next;
}
Curl_share_unlock(data, CURL_LOCK_DATA_COOKIE);
curl_slist_free_all(data->change.cookielist); /* clean up list */
data->change.cookielist = NULL; /* don't do this again! */
}
/* Allow data->set.use_port to set which port to use. This needs to be
* disabled for example when we follow Location: headers to URLs using
* different ports! */
data->state.allow_port = TRUE;
#if defined(HAVE_SIGNAL) && defined(SIGPIPE)
/*************************************************************
* Tell signal handler to ignore SIGPIPE
*************************************************************/
if(!data->set.no_signal)
data->state.prev_signal = signal(SIGPIPE, SIG_IGN);
#endif
Curl_initinfo(data); /* reset session-specific information "variables" */
Curl_pgrsStartNow(data);
return CURLE_OK;
}
CURLcode Curl_posttransfer(struct SessionHandle *data)
{
#if defined(HAVE_SIGNAL) && defined(SIGPIPE)
/* restore the signal handler for SIGPIPE before we get back */
if(!data->set.no_signal)
signal(SIGPIPE, data->state.prev_signal);
#endif
return CURLE_OK;
}
static int strlen_url(char *url)
{
char *ptr;
int newlen=0;
bool left=TRUE; /* left side of the ? */
for(ptr=url; *ptr; ptr++) {
switch(*ptr) {
case '?':
left=FALSE;
default:
newlen++;
break;
case ' ':
if(left)
newlen+=3;
else
newlen++;
break;
}
}
return newlen;
}
static void strcpy_url(char *output, char *url)
{
/* we must add this with whitespace-replacing */
bool left=TRUE;
char *iptr;
char *optr = output;
for(iptr = url; /* read from here */
*iptr; /* until zero byte */
iptr++) {
switch(*iptr) {
case '?':
left=FALSE;
default:
*optr++=*iptr;
break;
case ' ':
if(left) {
*optr++='%'; /* add a '%' */
*optr++='2'; /* add a '2' */
*optr++='0'; /* add a '0' */
}
else
*optr++='+'; /* add a '+' here */
break;
}
}
*optr=0; /* zero terminate output buffer */
}
CURLcode Curl_follow(struct SessionHandle *data,
char *newurl) /* this 'newurl' is the Location: string,
and it must be malloc()ed before passed
here */
{
/* Location: redirect */
char prot[16]; /* URL protocol string storage */
char letter; /* used for a silly sscanf */
int newlen;
char *newest;
if (data->set.maxredirs &&
(data->set.followlocation >= data->set.maxredirs)) {
failf(data,"Maximum (%d) redirects followed", data->set.maxredirs);
return CURLE_TOO_MANY_REDIRECTS;
}
/* mark the next request as a followed location: */
data->state.this_is_a_follow = TRUE;
data->set.followlocation++; /* count location-followers */
if(data->set.http_auto_referer) {
/* We are asked to automatically set the previous URL as the
referer when we get the next URL. We pick the ->url field,
which may or may not be 100% correct */
if(data->change.referer_alloc)
/* If we already have an allocated referer, free this first */
free(data->change.referer);
data->change.referer = strdup(data->change.url);
data->change.referer_alloc = TRUE; /* yes, free this later */
}
if(2 != sscanf(newurl, "%15[^?&/:]://%c", prot, &letter)) {
/***
*DANG* this is an RFC 2068 violation. The URL is supposed
to be absolute and this doesn't seem to be that!
***
Instead, we have to TRY to append this new path to the old URL
to the right of the host part. Oh crap, this is doomed to cause
problems in the future...
*/
char *protsep;
char *pathsep;
char *useurl = newurl;
int urllen;
/* we must make our own copy of the URL to play with, as it may
point to read-only data */
char *url_clone=strdup(data->change.url);
if(!url_clone)
return CURLE_OUT_OF_MEMORY; /* skip out of this NOW */
/* protsep points to the start of the host name */
protsep=strstr(url_clone, "//");
if(!protsep)
protsep=url_clone;
else
protsep+=2; /* pass the slashes */
if('/' != newurl[0]) {
int level=0;
/* First we need to find out if there's a ?-letter in the URL,
and cut it and the right-side of that off */
pathsep = strrchr(protsep, '?');
if(pathsep)
*pathsep=0;
/* we have a relative path to append to the last slash if
there's one available */
pathsep = strrchr(protsep, '/');
if(pathsep)
*pathsep=0;
/* Check if there's any slash after the host name, and if so,
remember that position instead */
pathsep = strchr(protsep, '/');
if(pathsep)
protsep = pathsep+1;
else
protsep = NULL;
/* now deal with one "./" or any amount of "../" in the newurl
and act accordingly */
if((useurl[0] == '.') && (useurl[1] == '/'))
useurl+=2; /* just skip the "./" */
while((useurl[0] == '.') &&
(useurl[1] == '.') &&
(useurl[2] == '/')) {
level++;
useurl+=3; /* pass the "../" */
}
if(protsep) {
while(level--) {
/* cut off one more level from the right of the original URL */
pathsep = strrchr(protsep, '/');
if(pathsep)
*pathsep=0;
else {
*protsep=0;
break;
}
}
}
}
else {
/* We got a new absolute path for this server, cut off from the
first slash */
pathsep = strchr(protsep, '/');
if(pathsep)
*pathsep=0;
}
/* If the new part contains a space, this is a mighty stupid redirect
but we still make an effort to do "right". To the left of a '?'
letter we replace each space with %20 while it is replaced with '+'
on the right side of the '?' letter.
*/
newlen = strlen_url(useurl);
urllen = strlen(url_clone);
newest=(char *)malloc( urllen + 1 + /* possible slash */
newlen + 1 /* zero byte */);
if(!newest)
return CURLE_OUT_OF_MEMORY; /* go out from this */
/* copy over the root url part */
memcpy(newest, url_clone, urllen);
/* check if we need to append a slash */
if(('/' == useurl[0]) || (protsep && !*protsep))
;
else
newest[urllen++]='/';
/* then append the new piece on the right side */
strcpy_url(&newest[urllen], useurl);
free(newurl); /* newurl is the allocated pointer */
free(url_clone);
newurl = newest;
}
else {
/* This is an absolute URL, don't allow the custom port number */
data->state.allow_port = FALSE;
if(strchr(newurl, ' ')) {
/* This new URL contains at least one space, this is a mighty stupid
redirect but we still make an effort to do "right". */
newlen = strlen_url(newurl);
newest = malloc(newlen+1); /* get memory for this */
if(newest) {
strcpy_url(newest, newurl); /* create a space-free URL */
free(newurl); /* that was no good */
newurl = newest; /* use this instead now */
}
}
}
if(data->change.url_alloc)
free(data->change.url);
else
data->change.url_alloc = TRUE; /* the URL is allocated */
data->change.url = newurl;
newurl = NULL; /* don't free! */
infof(data, "Issue another request to this URL: '%s'\n", data->change.url);
/*
* We get here when the HTTP code is 300-399 (and 401). We need to perform
* differently based on exactly what return code there was.
*
* News from 7.10.6: we can also get here on a 401, in case we act on a
* HTTP authentication scheme other than Basic.
*/
switch(data->info.httpcode) {
case 401:
/* Act on an authentication, we keep on moving and do the Authorization:
XXXX header in the HTTP request code snippet */
break;
case 300: /* Multiple Choices */
case 306: /* Not used */
case 307: /* Temporary Redirect */
default: /* for all unknown ones */
/* These are explicitly mention since I've checked RFC2616 and they
* seem to be OK to POST to.
*/
break;
case 301: /* Moved Permanently */
/* (quote from RFC2616, section 10.3.2):
*
* Note: When automatically redirecting a POST request after
* receiving a 301 status code, some existing HTTP/1.0 user agents
* will erroneously change it into a GET request.
*
* ----
* Warning: Because most of importants user agents do this clear
* RFC2616 violation, many webservers expect this misbehavior. So
* these servers often answers to a POST request with an error page.
* To be sure that libcurl gets the page that most user agents
* would get, libcurl has to force GET:
*/
if( data->set.httpreq == HTTPREQ_POST
|| data->set.httpreq == HTTPREQ_POST_FORM) {
infof(data,
"Violate RFC 2616/10.3.2 and switch from POST to GET\n");
data->set.httpreq = HTTPREQ_GET;
}
break;
case 302: /* Found */
/* (From 10.3.3)
Note: RFC 1945 and RFC 2068 specify that the client is not allowed
to change the method on the redirected request. However, most
existing user agent implementations treat 302 as if it were a 303
response, performing a GET on the Location field-value regardless
of the original request method. The status codes 303 and 307 have
been added for servers that wish to make unambiguously clear which
kind of reaction is expected of the client.
(From 10.3.4)
Note: Many pre-HTTP/1.1 user agents do not understand the 303
status. When interoperability with such clients is a concern, the
302 status code may be used instead, since most user agents react
to a 302 response as described here for 303.
*/
case 303: /* See Other */
/* Disable both types of POSTs, since doing a second POST when
* following isn't what anyone would want! */
if(data->set.httpreq != HTTPREQ_GET) {
data->set.httpreq = HTTPREQ_GET; /* enforce GET request */
infof(data, "Disables POST, goes with %s\n",
data->set.no_body?"HEAD":"GET");
}
break;
case 304: /* Not Modified */
/* 304 means we did a conditional request and it was "Not modified".
* We shouldn't get any Location: header in this response!
*/
break;
case 305: /* Use Proxy */
/* (quote from RFC2616, section 10.3.6):
* "The requested resource MUST be accessed through the proxy given
* by the Location field. The Location field gives the URI of the
* proxy. The recipient is expected to repeat this single request
* via the proxy. 305 responses MUST only be generated by origin
* servers."
*/
break;
}
Curl_pgrsTime(data, TIMER_REDIRECT);
Curl_pgrsResetTimes(data);
return CURLE_OK;
}
CURLcode Curl_perform(struct SessionHandle *data)
{
CURLcode res;
CURLcode res2;
struct connectdata *conn=NULL;
char *newurl = NULL; /* possibly a new URL to follow to! */
data->state.used_interface = Curl_if_easy;
res = Curl_pretransfer(data);
if(res)
return res;
/*
* It is important that there is NO 'return' from this function at any other
* place than falling down to the end of the function! This is because we
* have cleanup stuff that must be done before we get back, and that is only
* performed after this do-while loop.
*/
do {
int urlchanged = FALSE;
do {
bool async;
Curl_pgrsTime(data, TIMER_STARTSINGLE);
data->change.url_changed = FALSE;
res = Curl_connect(data, &conn, &async);
if((CURLE_OK == res) && async) {
/* Now, if async is TRUE here, we need to wait for the name
to resolve */
res = Curl_wait_for_resolv(conn, NULL);
if(CURLE_OK == res)
/* Resolved, continue with the connection */
res = Curl_async_resolved(conn);
}
if(res)
break;
/* If a callback (or something) has altered the URL we should use within
the Curl_connect(), we detect it here and act as if we are redirected
to the new URL */
urlchanged = data->change.url_changed;
if ((CURLE_OK == res) && urlchanged) {
char *newurl;
res = Curl_done(conn);
if(CURLE_OK == res) {
newurl = strdup(data->change.url);
res = Curl_follow(data, newurl);
if(res)
free(newurl);
}
}
} while (urlchanged && res == CURLE_OK) ;
if(res == CURLE_OK) {
res = Curl_do(&conn);
if(res == CURLE_OK) {
CURLcode res2; /* just a local extra result container */
if(conn->protocol&PROT_FTPS)
/* FTPS, disable ssl while transfering data */
conn->ssl.use = FALSE;
res = Transfer(conn); /* now fetch that URL please */
if(conn->protocol&PROT_FTPS)
/* FTPS, enable ssl again after havving transferred data */
conn->ssl.use = TRUE;
if(res == CURLE_OK)
/*
* We must duplicate the new URL here as the connection data
* may be free()ed in the Curl_done() function.
*/
newurl = conn->newurl?strdup(conn->newurl):NULL;
else {
/* The transfer phase returned error, we mark the connection to get
* closed to prevent being re-used. This is becasue we can't
* possibly know if the connection is in a good shape or not now. */
conn->bits.close = TRUE;
if(-1 !=conn->secondarysocket) {
/* if we failed anywhere, we must clean up the secondary socket if
it was used */
sclose(conn->secondarysocket);
conn->secondarysocket=-1;
}
}
/* Always run Curl_done(), even if some of the previous calls
failed, but return the previous (original) error code */
res2 = Curl_done(conn);
if(CURLE_OK == res)
res = res2;
}
/*
* Important: 'conn' cannot be used here, since it may have been closed
* in 'Curl_done' or other functions.
*/
if((res == CURLE_OK) && newurl) {
res = Curl_follow(data, newurl);
if(CURLE_OK == res) {
newurl = NULL;
continue;
}
}
}
break; /* it only reaches here when this shouldn't loop */
} while(1); /* loop if Location: */
if(newurl)
free(newurl);
/* run post-transfer uncondionally, but don't clobber the return code if
we already have an error code recorder */
res2 = Curl_posttransfer(data);
if(!res && res2)
res = res2;
return res;
}
CURLcode
Curl_Transfer(struct connectdata *c_conn, /* connection data */
int sockfd, /* socket to read from or -1 */
int size, /* -1 if unknown at this point */
bool getheader, /* TRUE if header parsing is wanted */
long *bytecountp, /* return number of bytes read or NULL */
int writesockfd, /* socket to write to, it may very well be
the same we read from. -1 disables */
long *writebytecountp /* return number of bytes written or
NULL */
)
{
struct connectdata *conn = (struct connectdata *)c_conn;
if(!conn)
return CURLE_BAD_FUNCTION_ARGUMENT;
/* now copy all input parameters */
conn->sockfd = sockfd;
conn->size = size;
conn->bits.getheader = getheader;
conn->bytecountp = bytecountp;
conn->writesockfd = writesockfd;
conn->writebytecountp = writebytecountp;
return CURLE_OK;
}
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