boinc/client/http_curl.cpp

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// This file is part of BOINC.
// http://boinc.berkeley.edu
// Copyright (C) 2008 University of California
//
// BOINC is free software; you can redistribute it and/or modify it
// under the terms of the GNU Lesser General Public License
// as published by the Free Software Foundation,
// either version 3 of the License, or (at your option) any later version.
//
// BOINC 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 Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with BOINC. If not, see <http://www.gnu.org/licenses/>.
#ifdef _WIN32
#include "boinc_win.h"
#ifdef _MSC_VER
#define unlink _unlink
#define chdir _chdir
#endif
#else
#include "config.h"
#include <cstring>
#include <sstream>
#include <algorithm>
#include <sys/stat.h>
#include <cerrno>
#include <unistd.h>
#ifdef HAVE_SYS_SOCKET_H
#include <sys/socket.h>
#endif
#endif
#include "cpp.h"
#include "error_numbers.h"
#include "filesys.h"
#include "client_msgs.h"
#include "log_flags.h"
#include "str_util.h"
#include "str_replace.h"
#include "url.h"
#include "util.h"
#include "network.h"
#include "file_names.h"
#include "client_msgs.h"
#include "base64.h"
#include "client_state.h"
#include "http_curl.h"
using std::min;
using std::vector;
static CURLM* g_curlMulti = NULL;
static char g_user_agent_string[256] = {""};
static const char g_content_type[] = {"Content-Type: application/x-www-form-urlencoded"};
static unsigned int g_trace_count = 0;
char* get_user_agent_string() {
sprintf(g_user_agent_string, "BOINC client (%s %d.%d.%d)",
gstate.get_primary_platform(),
BOINC_MAJOR_VERSION, BOINC_MINOR_VERSION, BOINC_RELEASE
);
return (char*)&g_user_agent_string;
}
size_t libcurl_write(void *ptr, size_t size, size_t nmemb, HTTP_OP* phop) {
// take the stream param as a FILE* and write to disk
// TODO: maybe assert stRead == size*nmemb,
// add exception handling on phop members
//
size_t stWrite = fwrite(ptr, size, nmemb, phop->fileOut);
if (log_flags.http_xfer_debug) {
msg_printf(NULL, MSG_INFO,
"[http_xfer_debug] [ID#%d] HTTP: wrote %d bytes", phop->trace_id, (int)stWrite
);
}
phop->bytes_xferred += (double)(stWrite);
phop->update_speed(); // this should update the transfer speed
return stWrite;
}
size_t libcurl_read( void *ptr, size_t size, size_t nmemb, HTTP_OP* phop) {
// OK here's the deal -- phop points to the calling object,
// which has already pre-opened the file. we'll want to
// use pByte as a pointer for fseek calls into the file, and
// write out size*nmemb # of bytes to ptr
// take the stream param as a FILE* and write to disk
// if (pByte) delete [] pByte;
// pByte = new unsigned char[content_length];
// memset(pByte, 0x00, content_length); // may as will initialize it!
// note that fileIn was opened earlier,
// go to lSeek from the top and read from there
//
size_t stSend = size * nmemb;
int stRead = 0;
if (phop->req1 && !phop->bSentHeader) {
// need to send headers first, then data file
// so requests from 0 to strlen(req1)-1 are from memory,
// and from strlen(req1) to content_length are from the file
if (phop->lSeek < (long) strlen(phop->req1)) {
// need to read header, either just starting to read
// (i.e. this is the first time in this function for this phop)
// or the last read didn't ask for the entire header
stRead = (int)strlen(phop->req1) - phop->lSeek;
// how much of header left to read
// only memcpy if request isn't out of bounds
if (stRead < 0) {
stRead = 0;
} else {
memcpy(ptr, (void*)(phop->req1 + phop->lSeek), stRead);
}
phop->lSeek += (long) stRead; // increment lSeek to new position
// Don't count header in bytes transferred.
// Otherwise the GUI will show e.g. "400 out of 300 bytes xferred"
//phop->bytes_xferred += (double)(stRead);
// see if we're done with headers
if (phop->lSeek >= (long) strlen(phop->req1)) {
phop->bSentHeader = true;
phop->lSeek = 0;
}
return stRead;
} else {
// shouldn't happen
phop->bSentHeader = true;
phop->lSeek = 0;
}
}
if (phop->fileIn) {
long lFileSeek = phop->lSeek + (long) phop->file_offset;
fseek(phop->fileIn, lFileSeek, SEEK_SET);
if (!feof(phop->fileIn)) {
stRead = (int)fread(ptr, 1, stSend, phop->fileIn);
}
phop->lSeek += (long) stRead;
phop->bytes_xferred += (double)(stRead);
}
phop->update_speed();
return stRead;
}
curlioerr libcurl_ioctl(CURL*, curliocmd cmd, HTTP_OP* phop) {
// reset input stream to beginning - resends header
// and restarts data back to starting point
switch(cmd) {
case CURLIOCMD_RESTARTREAD:
phop->lSeek = 0;
phop->bytes_xferred = phop->file_offset;
phop->bSentHeader = false;
break;
default: // should never get here
return CURLIOE_UNKNOWNCMD;
}
return CURLIOE_OK;
}
void libcurl_logdebug(
HTTP_OP* phop, const char* desc, char *data, size_t size
) {
char hdr[256];
char buf[2048], *p = buf;
size_t copy_size;
sprintf(hdr, "[ID#%d] %s", phop->trace_id, desc);
copy_size = min(size, sizeof(buf)-1);
strncpy(buf, data, copy_size);
buf[copy_size]='\0';
p = strtok(buf, "\n");
while(p) {
if (log_flags.http_debug) {
msg_printf(0, MSG_INFO,
"[http_debug] %s %s\n", hdr, p
);
}
p = strtok(NULL, "\n");
}
}
int libcurl_debugfunction(
CURL*, curl_infotype type, char *data, size_t size, HTTP_OP* phop
) {
const char* desc = NULL;
switch (type) {
case CURLINFO_TEXT:
desc = "Info: ";
break;
case CURLINFO_HEADER_OUT:
desc = "Sent header to server:";
break;
case CURLINFO_HEADER_IN:
desc = "Received header from server:";
break;
default: /* in case a new one is introduced to shock us */
return 0;
}
libcurl_logdebug(phop, desc, data, size);
return 0;
}
void HTTP_OP::init() {
reset();
start_time = gstate.now;
start_bytes_xferred = 0;
}
void HTTP_OP::reset() {
req1 = NULL;
strcpy(infile, "");
strcpy(outfile, "");
strcpy(error_msg, "");
CurlResult = CURLE_OK;
bTempOutfile = true;
want_download = false;
want_upload = false;
fileIn = NULL;
fileOut = NULL;
connect_error = 0;
bytes_xferred = 0;
bSentHeader = false;
close_socket();
}
HTTP_OP::HTTP_OP() {
strcpy(m_url, "");
strcpy(m_curl_ca_bundle_location, "");
content_length = 0;
file_offset = 0;
strcpy(request_header, "");
http_op_state = HTTP_STATE_IDLE;
http_op_type = HTTP_OP_NONE;
http_op_retval = 0;
trace_id = g_trace_count++;
pcurlList = NULL; // these have to be NULL, just in constructor
curlEasy = NULL;
pcurlFormStart = NULL;
pcurlFormEnd = NULL;
pByte = NULL;
lSeek = 0;
xfer_speed = 0;
reset();
}
HTTP_OP::~HTTP_OP() {
close_socket();
close_file();
}
// Initialize HTTP GET operation;
// output goes to the given file, starting at given offset
//
int HTTP_OP::init_get(
const char* url, const char* out, bool del_old_file, double off
) {
if (del_old_file) {
unlink(out);
}
req1 = NULL; // not using req1, but init_post2 uses it
file_offset = off;
HTTP_OP::init();
// usually have an outfile on a get
if (off != 0) {
bytes_xferred = off;
start_bytes_xferred = off;
}
http_op_type = HTTP_OP_GET;
http_op_state = HTTP_STATE_CONNECTING;
if (log_flags.http_debug) {
msg_printf(0, MSG_INFO, "[http_debug] HTTP_OP::init_get(): %s", url);
}
return HTTP_OP::libcurl_exec(url, NULL, out, off, false);
}
// Initialize HTTP POST operation where
// the input is a file, and the output is a file,
// and both are read/written from the beginning (no resumption of partial ops)
// This is used for scheduler requests and account mgr RPCs.
//
int HTTP_OP::init_post(
const char* url, const char* in, const char* out
) {
int retval;
double size;
req1 = NULL; // not using req1, but init_post2 uses it
if (in) {
strcpy(infile, in);
retval = file_size(infile, size);
if (retval) return retval; // this will return 0 or ERR_NOT_FOUND
content_length = (int)size;
}
HTTP_OP::init();
http_op_type = HTTP_OP_POST;
http_op_state = HTTP_STATE_CONNECTING;
if (log_flags.http_debug) {
msg_printf(0, MSG_INFO, "[http_debug] HTTP_OP::init_post(): %s", url);
}
return HTTP_OP::libcurl_exec(url, in, out, 0.0, true);
}
// Initialize an HTTP POST operation,
// where the input is a memory string (r1) followed by an optional file (in)
// with optional offset,
// and the output goes to memory (also r1)
// This is used for file upload (both get_file_size and file_upload)
//
int HTTP_OP::init_post2(
const char* url, char* r1, int r1_len, const char* in, double offset
) {
int retval;
double size;
init();
req1 = r1;
req1_len = r1_len;
if (in) {
safe_strcpy(infile, in);
file_offset = offset;
retval = file_size(infile, size);
if (retval) {
printf("HTTP::init_post2: couldn't get file size\n");
return retval; // this will be 0 or ERR_NOT_FOUND
}
content_length = (int)size - (int)offset;
}
content_length += (int)strlen(req1);
http_op_type = HTTP_OP_POST2;
http_op_state = HTTP_STATE_CONNECTING;
return HTTP_OP::libcurl_exec(url, in, NULL, offset, true);
}
// is URL in proxy exception list?
//
bool HTTP_OP::no_proxy_for_url(const char* url) {
PARSED_URL purl, purl2;
char noproxy[256];
if (log_flags.proxy_debug) {
msg_printf(0, MSG_INFO, "[proxy_debug] HTTP_OP::no_proxy_for_url(): %s", url);
}
parse_url(url, purl);
// tokenize the noproxy-entry and check for identical hosts
//
strcpy(noproxy, gstate.proxy_info.noproxy_hosts);
char* token = strtok(noproxy, ",");
while (token != NULL) {
// extract the host from the no_proxy url
parse_url(token, purl2);
if (!strcmp(purl.host, purl2.host)) {
if (log_flags.proxy_debug) {
msg_printf(0, MSG_INFO, "[proxy_debug] disabling proxy for %s", url);
}
return true;
}
token = strtok(NULL, ",");
}
if (log_flags.proxy_debug) {
msg_printf(0, MSG_INFO, "[proxy_debug] returning false");
}
return false;
}
// the following will do an HTTP GET or POST using libcurl
//
int HTTP_OP::libcurl_exec(
const char* url, const char* in, const char* out, double offset, bool bPost
) {
CURLMcode curlMErr;
CURLcode curlErr;
char strTmp[128];
static int outfile_seqno=0;
safe_strcpy(m_url, url);
if (g_user_agent_string[0] == 0x00) {
get_user_agent_string();
}
if (in) {
strcpy(infile, in);
}
if (out) {
bTempOutfile = false;
strcpy(outfile, out);
} else {
// always want an outfile for the server response, delete when op done
bTempOutfile = true;
sprintf(outfile, "http_temp_%d", outfile_seqno++);
}
curlEasy = curl_easy_init(); // get a curl_easy handle to use
if (!curlEasy) {
if (log_flags.http_debug) {
msg_printf(0, MSG_INFO, "Couldn't create curlEasy handle");
}
return ERR_HTTP_ERROR; // returns 0 (CURLM_OK) on successful handle creation
}
// the following seems to be a no-op
//curlErr = curl_easy_setopt(curlEasy, CURLOPT_ERRORBUFFER, error_msg);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_URL, m_url);
// This option determines whether curl verifies that the server
// claims to be who you want it to be.
// When negotiating an SSL connection,
// the server sends a certificate indicating its identity.
// When CURLOPT_SSL_VERIFYHOST is 2,
// that certificate must indicate that the server is the server
// to which you meant to connect, or the connection fails.
// Curl considers the server the intended one when the
// Common Name field or a Subject Alternate Name field in the certificate
// matches the host name in the URL to which you told Curl to connect.
// When the value is 1, the certificate must contain a Common Name field,
// but it doesn't matter what name it says.
// (This is not ordinarily a useful setting).
// When the value is 0, the connection succeeds
// regardless of the names in the certificate.
// The default, since 7.10, is 2.
// The checking this option controls is of the identity that
// the server claims. The server could be lying.
// To control lying, see CURLOPT_SSL_VERIFYPEER.
//
curlErr = curl_easy_setopt(curlEasy, CURLOPT_SSL_VERIFYHOST, 2L);
// the following sets "tough" certificate checking
// (i.e. whether self-signed is OK)
// if zero below, will accept self-signed certificates
// (cert not 3rd party trusted)
// if non-zero below, you need a valid 3rd party CA (i.e. Verisign, Thawte)
//
curlErr = curl_easy_setopt(curlEasy, CURLOPT_SSL_VERIFYPEER, 1L);
// if the above is nonzero, you need the following:
//
#ifdef _WIN32
if (strlen(m_curl_ca_bundle_location) == 0) {
TCHAR szPath[MAX_PATH-1];
GetModuleFileName(NULL, szPath, (sizeof(szPath)/sizeof(TCHAR)));
TCHAR *pszProg = strrchr(szPath, '\\');
if (pszProg) {
szPath[pszProg - szPath + 1] = 0;
strncat(
m_curl_ca_bundle_location,
szPath,
sizeof(m_curl_ca_bundle_location)-strlen(m_curl_ca_bundle_location)
);
strncat(
m_curl_ca_bundle_location,
CA_BUNDLE_FILENAME,
sizeof(m_curl_ca_bundle_location)-strlen(m_curl_ca_bundle_location)
);
if (log_flags.http_debug) {
msg_printf(
0,
MSG_INFO,
"[http_debug] HTTP_OP::libcurl_exec(): ca-bundle '%s'",
m_curl_ca_bundle_location
);
}
}
}
if (boinc_file_exists(m_curl_ca_bundle_location)) {
// call this only if a local copy of ca-bundle.crt exists;
// otherwise, let's hope that it exists in the default place
//
curlErr = curl_easy_setopt(curlEasy, CURLOPT_CAINFO, m_curl_ca_bundle_location);
if (log_flags.http_debug) {
msg_printf(
0,
MSG_INFO,
"[http_debug] HTTP_OP::libcurl_exec(): ca-bundle set"
);
}
}
#else
if (boinc_file_exists(CA_BUNDLE_FILENAME)) {
// call this only if a local copy of ca-bundle.crt exists;
// otherwise, let's hope that it exists in the default place
//
curlErr = curl_easy_setopt(curlEasy, CURLOPT_CAINFO, CA_BUNDLE_FILENAME);
}
#endif
// set the user agent as this boinc client & version
//
curlErr = curl_easy_setopt(curlEasy, CURLOPT_USERAGENT, g_user_agent_string);
// bypass any signal handlers that curl may want to install
//
curlErr = curl_easy_setopt(curlEasy, CURLOPT_NOSIGNAL, 1L);
// bypass progress meter
//
curlErr = curl_easy_setopt(curlEasy, CURLOPT_NOPROGRESS, 1L);
// setup timeouts
//
curlErr = curl_easy_setopt(curlEasy, CURLOPT_TIMEOUT, 0L);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_LOW_SPEED_LIMIT, 10L);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_LOW_SPEED_TIME, 300L);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_CONNECTTIMEOUT, 120L);
// force curl to use HTTP/1.0 if config specifies it
// (curl uses 1.1 by default)
//
if (config.http_1_0 || (config.force_auth == "ntlm")) {
curlErr = curl_easy_setopt(curlEasy, CURLOPT_HTTP_VERSION, CURL_HTTP_VERSION_1_0);
}
curlErr = curl_easy_setopt(curlEasy, CURLOPT_MAXREDIRS, 50L);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_AUTOREFERER, 1L);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_FOLLOWLOCATION, 1L);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_POST301, 1L);
// if we tell Curl to accept any encoding (e.g. deflate)
// it seems to accept them all, which screws up projects that
// use gzip at the application level.
// So, detect this and don't accept any encoding in that case
//
if (!out || !ends_with(std::string(out), std::string(".gz"))) {
curlErr = curl_easy_setopt(curlEasy, CURLOPT_ENCODING, "");
}
// setup any proxy they may need
//
setup_proxy_session(no_proxy_for_url(url));
// set the content type in the header
//
pcurlList = curl_slist_append(pcurlList, g_content_type);
// set the file offset for resumable downloads
//
if (!bPost && offset>0.0f) {
file_offset = offset;
sprintf(strTmp, "Range: bytes=%.0f-", offset);
pcurlList = curl_slist_append(pcurlList, strTmp);
}
// set up an output file for the reply
//
if (strlen(outfile)) {
if (file_offset>0.0) {
fileOut = boinc_fopen(outfile, "ab+");
} else {
fileOut = boinc_fopen(outfile, "wb+");
}
if (!fileOut) {
msg_printf(NULL, MSG_INTERNAL_ERROR,
"Can't create HTTP response output file %s", outfile
);
http_op_retval = ERR_FOPEN;
http_op_state = HTTP_STATE_DONE;
return ERR_FOPEN;
}
// we can make the libcurl_write "fancier" in the future,
// for now it just fwrite's to the file request, which is sufficient
//
curlErr = curl_easy_setopt(curlEasy, CURLOPT_WRITEFUNCTION, libcurl_write);
// note that in my lib_write I'm sending in a pointer
// to this instance of HTTP_OP
//
curlErr = curl_easy_setopt(curlEasy, CURLOPT_WRITEDATA, this);
}
if (bPost) {
want_upload = true;
want_download = false;
if (infile && strlen(infile)>0) {
fileIn = boinc_fopen(infile, "rb");
if (!fileIn) {
msg_printf(NULL, MSG_INTERNAL_ERROR, "No HTTP input file %s", infile);
http_op_retval = ERR_FOPEN;
http_op_state = HTTP_STATE_DONE;
return ERR_FOPEN;
}
}
if (pcurlList) { // send custom headers if required
curlErr = curl_easy_setopt(curlEasy, CURLOPT_HTTPHEADER, pcurlList);
}
// set the data file info to read for the PUT/POST
// note the use of this curl typedef for large filesizes
#if 0
// HTTP PUT method
curl_off_t fs = (curl_off_t) content_length;
curlErr = curl_easy_setopt(curlEasy, CURLOPT_POSTFIELDS, NULL);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_INFILESIZE, content_length);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_READDATA, fileIn);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_INFILESIZE_LARGE, fs);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_PUT, 1L);
#endif
// HTTP POST method
// set the multipart form for the file --
// boinc just has the one section (file)
#if 0
// if we ever want to do POST as multipart forms someday
// (many seem to prefer it that way, i.e. libcurl)
//
pcurlFormStart = pcurlFormEnd = NULL;
curl_formadd(&pcurlFormStart, &pcurlFormEnd,
CURLFORM_FILECONTENT, infile,
CURLFORM_CONTENTSLENGTH, content_length,
CURLFORM_CONTENTTYPE, g_content_type,
CURLFORM_END);
curl_formadd(&post, &last,
CURLFORM_COPYNAME, "logotype-image",
CURLFORM_FILECONTENT, "curl.png", CURLFORM_END);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_HTTPPOST, pcurlFormStart);
#endif
curl_off_t fs = (curl_off_t) content_length;
pByte = NULL;
lSeek = 0; // initialize the vars we're going to use for byte transfers
// we can make the libcurl_read "fancier" in the future,
// for now it just fwrite's to the file request, which is sufficient
//
curlErr = curl_easy_setopt(curlEasy, CURLOPT_POSTFIELDS, NULL);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_POSTFIELDSIZE_LARGE, fs);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_READFUNCTION, libcurl_read);
// in my lib_write I'm sending in a pointer to this instance of HTTP_OP
//
curlErr = curl_easy_setopt(curlEasy, CURLOPT_READDATA, this);
// callback function to rewind input file
//
curlErr = curl_easy_setopt(curlEasy, CURLOPT_IOCTLFUNCTION, libcurl_ioctl);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_IOCTLDATA, this);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_POST, 1L);
} else { // GET
want_upload = false;
want_download = true;
// now write the header, pcurlList gets freed in net_xfer_curl
//
if (pcurlList) { // send custom headers if required
curlErr = curl_easy_setopt(curlEasy, CURLOPT_HTTPHEADER, pcurlList);
}
// setup the GET!
//
curlErr = curl_easy_setopt(curlEasy, CURLOPT_HTTPGET, 1L);
}
// turn on debug info if tracing enabled
//
if (log_flags.http_debug) {
curlErr = curl_easy_setopt(curlEasy, CURLOPT_DEBUGFUNCTION, libcurl_debugfunction);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_DEBUGDATA, this );
curlErr = curl_easy_setopt(curlEasy, CURLOPT_VERBOSE, 1L);
}
// last but not least, add this to the curl_multi
curlMErr = curl_multi_add_handle(g_curlMulti, curlEasy);
if (curlMErr != CURLM_OK && curlMErr != CURLM_CALL_MULTI_PERFORM) {
// bad error, couldn't attach easy curl handle
msg_printf(0, MSG_INTERNAL_ERROR,
"Couldn't add curlEasy handle to curlMulti"
);
return ERR_HTTP_ERROR;
// returns 0 (CURLM_OK) on successful handle creation
}
return 0;
}
// Returns true if the HTTP operation is complete
//
bool HTTP_OP::http_op_done() {
return (http_op_state == HTTP_STATE_DONE);
}
HTTP_OP_SET::HTTP_OP_SET() {
bytes_up = 0;
bytes_down = 0;
}
// Adds an HTTP_OP to the set
//
void HTTP_OP_SET::insert(HTTP_OP* ho) {
http_ops.push_back(ho);
}
// Remove an HTTP_OP from the set
//
int HTTP_OP_SET::remove(HTTP_OP* p) {
vector<HTTP_OP*>::iterator iter;
iter = http_ops.begin();
while (iter != http_ops.end()) {
if (*iter == p) {
iter = http_ops.erase(iter);
return 0;
}
iter++;
}
msg_printf(NULL, MSG_INTERNAL_ERROR, "HTTP operation not found");
return ERR_NOT_FOUND;
}
int HTTP_OP_SET::nops() {
return (int)http_ops.size();
}
// Curl self-explanatory setopt params for proxies:
// CURLOPT_HTTPPROXYTUNNEL
// CURLOPT_PROXYTYPE (pass in CURLPROXY_HTTP or CURLPROXY_SOCKS5)
// CURLOPT_PROXYPORT -- a long port #
// CURLOPT_PROXY - pass in char* of the proxy url
// CURLOPT_PROXYUSERPWD -- a char* in the format username:password
// CURLOPT_HTTPAUTH -- pass in one of CURLAUTH_BASIC, CURLAUTH_DIGEST,
// CURLAUTH_GSSNEGOTIATE, CURLAUTH_NTLM, CURLAUTH_ANY, CURLAUTH_ANYSAFE
// CURLOPT_PROXYAUTH -- "or" | the above bitmasks -- only basic, digest, ntlm work
void HTTP_OP::setup_proxy_session(bool no_proxy) {
CURLcode curlErr;
// CMC Note: the string m_curl_user_credentials must remain in memory
// outside of this method (libcurl relies on it later when it makes
// the proxy connection), so it has been placed as a member data for HTTP_OP
//
strcpy(m_curl_user_credentials, "");
if (no_proxy) {
curlErr = curl_easy_setopt(curlEasy, CURLOPT_PROXY, "");
return;
}
pi = gstate.proxy_info;
if (pi.use_http_proxy) {
if (log_flags.proxy_debug) {
msg_printf(
0, MSG_INFO, "[proxy_debug]: setting up proxy %s:%d",
pi.http_server_name, pi.http_server_port
);
}
// setup a basic http proxy
curlErr = curl_easy_setopt(curlEasy, CURLOPT_PROXYTYPE, CURLPROXY_HTTP);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_PROXYPORT, (long) pi.http_server_port);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_PROXY, (char*) pi.http_server_name);
if (pi.use_http_auth) {
if (config.force_auth == "basic") {
curlErr = curl_easy_setopt(curlEasy, CURLOPT_PROXYAUTH, CURLAUTH_BASIC);
} else if (config.force_auth == "digest") {
curlErr = curl_easy_setopt(curlEasy, CURLOPT_PROXYAUTH, CURLAUTH_DIGEST);
} else if (config.force_auth == "gss-negotiate") {
curlErr = curl_easy_setopt(curlEasy, CURLOPT_PROXYAUTH, CURLAUTH_GSSNEGOTIATE);
} else if (config.force_auth == "ntlm") {
curlErr = curl_easy_setopt(curlEasy, CURLOPT_PROXYAUTH, CURLAUTH_NTLM);
} else {
curlErr = curl_easy_setopt(curlEasy, CURLOPT_PROXYAUTH, CURLAUTH_ANY);
}
sprintf(m_curl_user_credentials, "%s:%s", pi.http_user_name, pi.http_user_passwd);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_PROXYUSERPWD, m_curl_user_credentials);
}
} else if (pi.use_socks_proxy) {
// CURL only supports SOCKS version 5
curlErr = curl_easy_setopt(curlEasy, CURLOPT_PROXYTYPE, CURLPROXY_SOCKS5);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_PROXYPORT, (long) pi.socks_server_port);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_PROXY, (char*) pi.socks_server_name);
// libcurl uses blocking sockets with socks proxy, so limit timeout.
// - imlemented with local patch to libcurl
curlErr = curl_easy_setopt(curlEasy, CURLOPT_CONNECTTIMEOUT, 20L);
if (
strlen(pi.socks5_user_passwd) || strlen(pi.socks5_user_name)
) {
sprintf(m_curl_user_credentials, "%s:%s", pi.socks5_user_name, pi.socks5_user_passwd);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_PROXYUSERPWD, m_curl_user_credentials);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_PROXYAUTH, CURLAUTH_ANY & ~CURLAUTH_NTLM);
}
} else if (pi.have_autodetect_proxy_settings && strlen(pi.autodetect_server_name)) {
if (log_flags.proxy_debug) {
msg_printf(0, MSG_INFO,
"[proxy_debug] HTTP_OP::setup_proxy_session(): setting up automatic proxy %s:%d",
pi.autodetect_server_name, pi.autodetect_port
);
}
switch(pi.autodetect_protocol) {
case URL_PROTOCOL_SOCKS:
curlErr = curl_easy_setopt(curlEasy, CURLOPT_PROXYTYPE, CURLPROXY_SOCKS5);
break;
case URL_PROTOCOL_HTTP:
case URL_PROTOCOL_HTTPS:
default:
curlErr = curl_easy_setopt(curlEasy, CURLOPT_PROXYTYPE, CURLPROXY_HTTP);
break;
}
curlErr = curl_easy_setopt(curlEasy, CURLOPT_PROXYPORT, (long) pi.autodetect_port);
curlErr = curl_easy_setopt(curlEasy, CURLOPT_PROXY, (char*) pi.autodetect_server_name);
}
}
// the file descriptor sets need to be global so libcurl has access always
//
fd_set read_fds, write_fds, error_fds;
// call these once at the start of the program and once at the end
//
int curl_init() {
curl_global_init(CURL_GLOBAL_ALL);
g_curlMulti = curl_multi_init();
return (int)(g_curlMulti == NULL);
}
int curl_cleanup() {
if (g_curlMulti) {
curl_multi_cleanup(g_curlMulti);
}
return 0;
}
void HTTP_OP::close_socket() {
// this cleans up the curlEasy, and "spoofs" the old close_socket
//
if (pcurlList) {
curl_slist_free_all(pcurlList);
pcurlList = NULL;
}
if (curlEasy && pcurlFormStart) {
curl_formfree(pcurlFormStart);
curl_formfree(pcurlFormEnd);
pcurlFormStart = pcurlFormEnd = NULL;
}
if (curlEasy && g_curlMulti) { // release this handle
curl_multi_remove_handle(g_curlMulti, curlEasy);
curl_easy_cleanup(curlEasy);
curlEasy = NULL;
}
}
void HTTP_OP::close_file() {
if (fileIn) {
fclose(fileIn);
fileIn = NULL;
}
if (fileOut) {
fclose(fileOut);
fileOut = NULL;
}
if (pByte) { //free any read memory used
delete [] pByte;
pByte = NULL;
}
}
void HTTP_OP_SET::get_fdset(FDSET_GROUP& fg) {
CURLMcode curlMErr;
curlMErr = curl_multi_fdset(
g_curlMulti, &fg.read_fds, &fg.write_fds, &fg.exc_fds, &fg.max_fd
);
}
// we have a message for this HTTP_OP.
// get the response code for this request
//
void HTTP_OP::handle_messages(CURLMsg *pcurlMsg) {
CURLcode curlErr;
int retval;
curlErr = curl_easy_getinfo(curlEasy,
CURLINFO_RESPONSE_CODE, &response
);
// CURLINFO_LONG+25 is a workaround for a bug in the gcc version
// included with Mac OS X 10.3.9
//
curlErr = curl_easy_getinfo(curlEasy,
(CURLINFO)(CURLINFO_LONG+25) /*CURLINFO_OS_ERRNO*/, &connect_error
);
// update byte counts and transfer speed
//
if (want_download) {
// SIZE_DOWNLOAD is the byte count "on the wire"
// (possible with compression)
// TOTAL_TIME is the elapsed time of the download
// STARTTRANSFER_TIME is portion of elapsed time involved
// with setup (connection establishment etc.)
// SPEED_DOWNLOAD is bytes/sec based on uncompressed size
// (we don't use it)
//
double size_download, total_time, starttransfer_time;
curlErr = curl_easy_getinfo(curlEasy,
CURLINFO_SIZE_DOWNLOAD, &size_download
);
curlErr = curl_easy_getinfo(curlEasy,
CURLINFO_TOTAL_TIME, &total_time
);
curlErr = curl_easy_getinfo(curlEasy,
CURLINFO_STARTTRANSFER_TIME, &starttransfer_time
);
double dt = total_time - starttransfer_time;
if (dt > 0) {
gstate.net_stats.down.update(size_download, dt);
}
}
if (want_upload) {
double size_upload, total_time, starttransfer_time;
curlErr = curl_easy_getinfo(curlEasy,
CURLINFO_SIZE_UPLOAD, &size_upload
);
curlErr = curl_easy_getinfo(curlEasy,
CURLINFO_TOTAL_TIME, &total_time
);
curlErr = curl_easy_getinfo(curlEasy,
CURLINFO_STARTTRANSFER_TIME, &starttransfer_time
);
double dt = total_time - starttransfer_time;
if (dt > 0) {
gstate.net_stats.up.update(size_upload, dt);
}
}
// the op is done if curl_multi_msg_read gave us a msg for this http_op
//
http_op_state = HTTP_STATE_DONE;
CurlResult = pcurlMsg->data.result;
if (CurlResult == CURLE_OK) {
if ((response/100)*100 == HTTP_STATUS_OK) {
http_op_retval = 0;
} else if ((response/100)*100 == HTTP_STATUS_CONTINUE) {
return;
} else {
// Got a response from server but its not OK or CONTINUE,
// so save response with error message to display later.
//
if (response >= 400) {
strcpy(error_msg, boincerror(response));
} else {
sprintf(error_msg, "HTTP error %ld", response);
}
switch (response) {
case HTTP_STATUS_NOT_FOUND:
http_op_retval = ERR_FILE_NOT_FOUND;
break;
default:
http_op_retval = ERR_HTTP_ERROR;
}
}
net_status.need_physical_connection = false;
} else {
strcpy(error_msg, curl_easy_strerror(CurlResult));
switch(CurlResult) {
case CURLE_COULDNT_RESOLVE_HOST:
reset_dns();
http_op_retval = ERR_GETHOSTBYNAME;
break;
case CURLE_COULDNT_CONNECT:
http_op_retval = ERR_CONNECT;
break;
default:
http_op_retval = ERR_HTTP_ERROR;
}
net_status.got_http_error();
if (log_flags.http_debug) {
msg_printf(NULL, MSG_INFO,
"[http_debug] HTTP error: %s", error_msg
);
}
}
if (!http_op_retval && http_op_type == HTTP_OP_POST2) {
// for a successfully completed request on a "post2" --
// read in the temp file into req1 memory
//
size_t dSize = ftell(fileOut);
retval = fseek(fileOut, 0, SEEK_SET);
if (retval) {
// flag as a bad response for a possible retry later
response = 1;
msg_printf(NULL, MSG_INTERNAL_ERROR,
"[http_debug] can't rewind post output file %s",
outfile
);
} else {
strcpy(req1, "");
if (dSize >= (size_t)req1_len) {
dSize = req1_len-1;
}
size_t nread = fread(req1, 1, dSize, fileOut);
if (nread != dSize) {
if (log_flags.http_debug) {
msg_printf(NULL, MSG_INFO,
"[http_debug] post output file read failed %ld",
nread
);
}
}
req1[nread] = 0;
}
}
// close files and "sockets" (i.e. libcurl handles)
//
close_file();
close_socket();
// finally remove the tmpfile if not explicitly set
//
if (bTempOutfile) {
boinc_delete_file(outfile);
}
}
void HTTP_OP_SET::got_select(FDSET_GROUP&, double timeout) {
int iNumMsg;
HTTP_OP* hop = NULL;
CURLMsg *pcurlMsg = NULL;
int iRunning = 0; // curl flags for max # of fds & # running queries
CURLMcode curlMErr;
// get the data waiting for transfer in or out
// use timeout value so that we don't hog CPU in this loop
//
while (1) {
curlMErr = curl_multi_perform(g_curlMulti, &iRunning);
if (curlMErr != CURLM_CALL_MULTI_PERFORM) break;
if (dtime() - gstate.now > timeout) break;
}
// read messages from curl that may have come in from the above loop
//
while (1) {
pcurlMsg = curl_multi_info_read(g_curlMulti, &iNumMsg);
if (!pcurlMsg) break;
// if we have a msg, then somebody finished
// can check also with pcurlMsg->msg == CURLMSG_DONE
//
hop = lookup_curl(pcurlMsg->easy_handle);
if (!hop) continue;
hop->handle_messages(pcurlMsg);
}
}
// Return the HTTP_OP object with given Curl object
//
HTTP_OP* HTTP_OP_SET::lookup_curl(CURL* pcurl) {
for (unsigned int i=0; i<http_ops.size(); i++) {
if (http_ops[i]->curlEasy == pcurl) {
return http_ops[i];
}
}
return 0;
}
// Update the transfer speed for this HTTP_OP
// called on every I/O
//
void HTTP_OP::update_speed() {
double delta_t = dtime() - start_time;
if (delta_t > 0) {
xfer_speed = (bytes_xferred-start_bytes_xferred) / delta_t;
}
}
void HTTP_OP::set_speed_limit(bool is_upload, double bytes_sec) {
#if LIBCURL_VERSION_NUM >= 0x070f05
CURLcode cc = CURLE_OK;
curl_off_t bs = (curl_off_t)bytes_sec;
if (is_upload) {
cc = curl_easy_setopt(curlEasy, CURLOPT_MAX_SEND_SPEED_LARGE, bs);
} else {
cc = curl_easy_setopt(curlEasy, CURLOPT_MAX_RECV_SPEED_LARGE, bs);
}
if (cc && log_flags.http_debug) {
msg_printf(NULL, MSG_INFO,
"[http_debug] Curl error in set_speed_limit(): %s",
curl_easy_strerror(cc)
);
}
#endif
}
void HTTP_OP_SET::cleanup_temp_files() {
char filename[256];
DIRREF d = dir_open(".");
while (1) {
int retval = dir_scan(filename, d, sizeof(filename));
if (retval) break;
if (strstr(filename, "blc") != filename) continue;
if (!is_file(filename)) continue;
boinc_delete_file(filename);
}
dir_close(d);
}
const char *BOINC_RCSID_57f273bb60 = "$Id$";