##################################################################### */
/*}}}*/
// Include Files /*{{{*/
+#include <config.h>
+
#include <apt-pkg/acquire-method.h>
#include <apt-pkg/error.h>
#include <apt-pkg/configuration.h>
void pkgAcqMethod::Fail(string Err,bool Transient)
{
// Strip out junk from the error messages
- for (string::iterator I = Err.begin(); I != Err.end(); I++)
+ for (string::iterator I = Err.begin(); I != Err.end(); ++I)
{
if (*I == '\r')
*I = ' ';
{
std::cout << "400 URI Failure\nURI: " << Queue->Uri << "\n"
<< "Message: " << Err << " " << IP << "\n";
- // Dequeue
- FetchItem *Tmp = Queue;
- Queue = Queue->Next;
- delete Tmp;
- if (Tmp == QueueBack)
- QueueBack = Queue;
+ Dequeue();
}
else
std::cout << "400 URI Failure\nURI: <UNKNOWN>\nMessage: " << Err << "\n";
std::cout << "SHA1-Hash: " << Res.SHA1Sum << "\n";
if (Res.SHA256Sum.empty() == false)
std::cout << "SHA256-Hash: " << Res.SHA256Sum << "\n";
+ if (Res.SHA512Sum.empty() == false)
+ std::cout << "SHA512-Hash: " << Res.SHA512Sum << "\n";
if (UsedMirror.empty() == false)
std::cout << "UsedMirror: " << UsedMirror << "\n";
if (Res.GPGVOutput.empty() == false)
std::cout << "Alt-SHA1-Hash: " << Alt->SHA1Sum << "\n";
if (Alt->SHA256Sum.empty() == false)
std::cout << "Alt-SHA256-Hash: " << Alt->SHA256Sum << "\n";
-
+ if (Alt->SHA512Sum.empty() == false)
+ std::cout << "Alt-SHA512-Hash: " << Alt->SHA512Sum << "\n";
+
if (Alt->IMSHit == true)
std::cout << "Alt-IMS-Hit: true\n";
}
std::cout << "\n" << std::flush;
-
- // Dequeue
- FetchItem *Tmp = Queue;
- Queue = Queue->Next;
- delete Tmp;
- if (Tmp == QueueBack)
- QueueBack = Queue;
+ Dequeue();
}
/*}}}*/
// AcqMethod::MediaFail - Syncronous request for new media /*{{{*/
I += Length + 1;
for (; I < MsgEnd && *I == ' '; I++);
- const char *Equals = I;
- for (; Equals < MsgEnd && *Equals != '='; Equals++);
- const char *End = Equals;
- for (; End < MsgEnd && *End != '\n'; End++);
- if (End == Equals)
+ const char *Equals = (const char*) memchr(I, '=', MsgEnd - I);
+ if (Equals == NULL)
return false;
+ const char *End = (const char*) memchr(Equals, '\n', MsgEnd - Equals);
+ if (End == NULL)
+ End = MsgEnd;
Cnf.Set(DeQuoteString(string(I,Equals-I)),
DeQuoteString(string(Equals+1,End-Equals-1)));
/*}}}*/
// AcqMethod::Redirect - Send a redirect message /*{{{*/
// ---------------------------------------------------------------------
-/* This method sends the redirect message and also manipulates the queue
- to keep the pipeline synchronized. */
+/* This method sends the redirect message and dequeues the item as
+ * the worker will enqueue again later on to the right queue */
void pkgAcqMethod::Redirect(const string &NewURI)
{
std::cout << "103 Redirect\nURI: " << Queue->Uri << "\n"
<< "New-URI: " << NewURI << "\n"
<< "\n" << std::flush;
-
- // Change the URI for the request.
- Queue->Uri = NewURI;
-
- /* To keep the pipeline synchronized, move the current request to
- the end of the queue, past the end of the current pipeline. */
- FetchItem *I;
- for (I = Queue; I->Next != 0; I = I->Next) ;
- I->Next = Queue;
- Queue = Queue->Next;
- I->Next->Next = 0;
- if (QueueBack == 0)
- QueueBack = I->Next;
+ Dequeue();
}
/*}}}*/
// AcqMethod::FetchResult::FetchResult - Constructor /*{{{*/
MD5Sum = Hash.MD5.Result();
SHA1Sum = Hash.SHA1.Result();
SHA256Sum = Hash.SHA256.Result();
+ SHA512Sum = Hash.SHA512.Result();
+}
+ /*}}}*/
+void pkgAcqMethod::Dequeue() { /*{{{*/
+ FetchItem const * const Tmp = Queue;
+ Queue = Queue->Next;
+ if (Tmp == QueueBack)
+ QueueBack = Queue;
+ delete Tmp;
}
/*}}}*/