// -*- mode: cpp; mode: fold -*- // Description /*{{{*/ /* ###################################################################### Global Error Class - Global error mechanism We use a simple STL vector to store each error record. A PendingFlag is kept which indicates when the vector contains a Sever error. This source is placed in the Public Domain, do with it what you will It was originally written by Jason Gunthorpe. ##################################################################### */ /*}}}*/ // Include Files /*{{{*/ #include <config.h> #include <apt-pkg/error.h> #include <stdarg.h> #include <stddef.h> #include <list> #include <iostream> #include <errno.h> #include <stdio.h> #include <stdlib.h> #include <unistd.h> #include <string> #include <cstring> #include <algorithm> /*}}}*/ // Global Error Object /*{{{*/ /* If the implementation supports posix threads then the accessor function is compiled to be thread safe otherwise a non-safe version is used. A Per-Thread error object is maintained in much the same manner as libc manages errno */ #if defined(_POSIX_THREADS) && defined(HAVE_PTHREAD) #include <pthread.h> static pthread_key_t ErrorKey; static void ErrorDestroy(void *Obj) {delete (GlobalError *)Obj;}; static void KeyAlloc() {pthread_key_create(&ErrorKey,ErrorDestroy);}; GlobalError *_GetErrorObj() { static pthread_once_t Once = PTHREAD_ONCE_INIT; pthread_once(&Once,KeyAlloc); void *Res = pthread_getspecific(ErrorKey); if (Res == 0) pthread_setspecific(ErrorKey,Res = new GlobalError); return (GlobalError *)Res; } #else GlobalError *_GetErrorObj() { static GlobalError *Obj = new GlobalError; return Obj; } #endif /*}}}*/ // GlobalError::GlobalError - Constructor /*{{{*/ GlobalError::GlobalError() : PendingFlag(false) {} /*}}}*/ // GlobalError::FatalE, Errno, WarningE, NoticeE and DebugE - Add to the list/*{{{*/ #define GEMessage(NAME, TYPE) \ bool GlobalError::NAME (const char *Function, const char *Description,...) { \ va_list args; \ size_t msgSize = 400; \ int const errsv = errno; \ bool retry; \ do { \ va_start(args,Description); \ retry = InsertErrno(TYPE, Function, Description, args, errsv, msgSize); \ va_end(args); \ } while (retry); \ return false; \ } GEMessage(FatalE, FATAL) GEMessage(Errno, ERROR) GEMessage(WarningE, WARNING) GEMessage(NoticeE, NOTICE) GEMessage(DebugE, DEBUG) #undef GEMessage /*}}}*/ // GlobalError::InsertErrno - Get part of the errortype string from errno/*{{{*/ bool GlobalError::InsertErrno(MsgType const &type, const char *Function, const char *Description,...) { va_list args; size_t msgSize = 400; int const errsv = errno; bool retry; do { va_start(args,Description); retry = InsertErrno(type, Function, Description, args, errsv, msgSize); va_end(args); } while (retry); return false; } /*}}}*/ // GlobalError::InsertErrno - formats an error message with the errno /*{{{*/ bool GlobalError::InsertErrno(MsgType type, const char* Function, const char* Description, va_list &args, int const errsv, size_t &msgSize) { char* S = (char*) malloc(msgSize); int const n = snprintf(S, msgSize, "%s - %s (%i: %s)", Description, Function, errsv, strerror(errsv)); if (n > -1 && ((unsigned int) n) < msgSize); else { if (n > -1) msgSize = n + 1; else msgSize *= 2; free(S); return true; } bool const geins = Insert(type, S, args, msgSize); free(S); return geins; } /*}}}*/ // GlobalError::Fatal, Error, Warning, Notice and Debug - Add to the list/*{{{*/ #define GEMessage(NAME, TYPE) \ bool GlobalError::NAME (const char *Description,...) { \ va_list args; \ size_t msgSize = 400; \ bool retry; \ do { \ va_start(args,Description); \ retry = Insert(TYPE, Description, args, msgSize); \ va_end(args); \ } while (retry); \ return false; \ } GEMessage(Fatal, FATAL) GEMessage(Error, ERROR) GEMessage(Warning, WARNING) GEMessage(Notice, NOTICE) GEMessage(Debug, DEBUG) #undef GEMessage /*}}}*/ // GlobalError::Insert - Add a errotype message to the list /*{{{*/ bool GlobalError::Insert(MsgType const &type, const char *Description,...) { va_list args; size_t msgSize = 400; bool retry; do { va_start(args,Description); retry = Insert(type, Description, args, msgSize); va_end(args); } while (retry); return false; } /*}}}*/ // GlobalError::Insert - Insert a new item at the end /*{{{*/ bool GlobalError::Insert(MsgType type, const char* Description, va_list &args, size_t &msgSize) { char* S = (char*) malloc(msgSize); int const n = vsnprintf(S, msgSize, Description, args); if (n > -1 && ((unsigned int) n) < msgSize); else { if (n > -1) msgSize = n + 1; else msgSize *= 2; free(S); return true; } Item const m(S, type); Messages.push_back(m); if (type == ERROR || type == FATAL) PendingFlag = true; if (type == FATAL || type == DEBUG) std::clog << m << std::endl; free(S); return false; } /*}}}*/ // GlobalError::PopMessage - Pulls a single message out /*{{{*/ bool GlobalError::PopMessage(std::string &Text) { if (Messages.empty() == true) return false; Item const msg = Messages.front(); Messages.pop_front(); bool const Ret = (msg.Type == ERROR || msg.Type == FATAL); Text = msg.Text; if (PendingFlag == false || Ret == false) return Ret; // check if another error message is pending for (std::list<Item>::const_iterator m = Messages.begin(); m != Messages.end(); ++m) if (m->Type == ERROR || m->Type == FATAL) return Ret; PendingFlag = false; return Ret; } /*}}}*/ // GlobalError::DumpErrors - Dump all of the errors/warns to cerr /*{{{*/ void GlobalError::DumpErrors(std::ostream &out, MsgType const &threshold, bool const &mergeStack) { if (mergeStack == true) for (std::list<MsgStack>::const_reverse_iterator s = Stacks.rbegin(); s != Stacks.rend(); ++s) std::copy(s->Messages.begin(), s->Messages.end(), std::front_inserter(Messages)); std::for_each(Messages.begin(), Messages.end(), [&threshold, &out](Item const &m) { if (m.Type >= threshold) out << m << std::endl; }); Discard(); } /*}}}*/ // GlobalError::Discard - Discard /*{{{*/ void GlobalError::Discard() { Messages.clear(); PendingFlag = false; } /*}}}*/ // GlobalError::empty - does our error list include anything? /*{{{*/ bool GlobalError::empty(MsgType const &threshold) const { if (PendingFlag == true) return false; if (Messages.empty() == true) return true; return std::find_if(Messages.begin(), Messages.end(), [&threshold](Item const &m) { return m.Type >= threshold; }) == Messages.end(); } /*}}}*/ // GlobalError::PushToStack /*{{{*/ void GlobalError::PushToStack() { Stacks.emplace_back(Messages, PendingFlag); Discard(); } /*}}}*/ // GlobalError::RevertToStack /*{{{*/ void GlobalError::RevertToStack() { Discard(); MsgStack pack = Stacks.back(); Messages = pack.Messages; PendingFlag = pack.PendingFlag; Stacks.pop_back(); } /*}}}*/ // GlobalError::MergeWithStack /*{{{*/ void GlobalError::MergeWithStack() { MsgStack pack = Stacks.back(); Messages.splice(Messages.begin(), pack.Messages); PendingFlag = PendingFlag || pack.PendingFlag; Stacks.pop_back(); } /*}}}*/