// -*- mode: cpp; mode: fold -*- // Description /*{{{*/ // $Id: cmndline.cc,v 1.15 2003/02/10 01:40:58 doogie Exp $ /* ###################################################################### Command Line Class - Sophisticated command line parser This source is placed in the Public Domain, do with it what you will It was originally written by Jason Gunthorpe <jgg@debian.org>. ##################################################################### */ /*}}}*/ // Include files /*{{{*/ #include <apt-pkg/cmndline.h> #include <apt-pkg/error.h> #include <apt-pkg/strutl.h> #include <apti18n.h> /*}}}*/ using namespace std; // CommandLine::CommandLine - Constructor /*{{{*/ // --------------------------------------------------------------------- /* */ CommandLine::CommandLine(Args *AList,Configuration *Conf) : ArgList(AList), Conf(Conf), FileList(0) { } /*}}}*/ // CommandLine::~CommandLine - Destructor /*{{{*/ // --------------------------------------------------------------------- /* */ CommandLine::~CommandLine() { delete [] FileList; } /*}}}*/ // CommandLine::Parse - Main action member /*{{{*/ // --------------------------------------------------------------------- /* */ bool CommandLine::Parse(int argc,const char **argv) { delete [] FileList; FileList = new const char *[argc]; const char **Files = FileList; int I; for (I = 1; I != argc; I++) { const char *Opt = argv[I]; // It is not an option if (*Opt != '-') { *Files++ = Opt; continue; } Opt++; // Double dash signifies the end of option processing if (*Opt == '-' && Opt[1] == 0) { I++; break; } // Single dash is a short option if (*Opt != '-') { // Iterate over each letter while (*Opt != 0) { // Search for the option Args *A; for (A = ArgList; A->end() == false && A->ShortOpt != *Opt; A++); if (A->end() == true) return _error->Error(_("Command line option '%c' [from %s] is not known."),*Opt,argv[I]); if (HandleOpt(I,argc,argv,Opt,A) == false) return false; if (*Opt != 0) Opt++; } continue; } Opt++; // Match up to a = against the list const char *OptEnd = Opt; Args *A; for (; *OptEnd != 0 && *OptEnd != '='; OptEnd++); for (A = ArgList; A->end() == false && stringcasecmp(Opt,OptEnd,A->LongOpt) != 0; A++); // Failed, look for a word after the first - (no-foo) bool PreceedMatch = false; if (A->end() == true) { for (; Opt != OptEnd && *Opt != '-'; Opt++); if (Opt == OptEnd) return _error->Error(_("Command line option %s is not understood"),argv[I]); Opt++; for (A = ArgList; A->end() == false && stringcasecmp(Opt,OptEnd,A->LongOpt) != 0; A++); // Failed again.. if (A->end() == true && OptEnd - Opt != 1) return _error->Error(_("Command line option %s is not understood"),argv[I]); // The option could be a single letter option prefixed by a no-.. if (A->end() == true) { for (A = ArgList; A->end() == false && A->ShortOpt != *Opt; A++); if (A->end() == true) return _error->Error(_("Command line option %s is not understood"),argv[I]); } // The option is not boolean if (A->IsBoolean() == false) return _error->Error(_("Command line option %s is not boolean"),argv[I]); PreceedMatch = true; } // Deal with it. OptEnd--; if (HandleOpt(I,argc,argv,OptEnd,A,PreceedMatch) == false) return false; } // Copy any remaining file names over for (; I != argc; I++) *Files++ = argv[I]; *Files = 0; SaveInConfig(argc, argv); return true; } /*}}}*/ // CommandLine::HandleOpt - Handle a single option including all flags /*{{{*/ // --------------------------------------------------------------------- /* This is a helper function for parser, it looks at a given argument and looks for specific patterns in the string, it gets tokanized -ruffly- like -*[yes|true|enable]-(o|longopt)[=][ ][argument] */ bool CommandLine::HandleOpt(int &I,int argc,const char *argv[], const char *&Opt,Args *A,bool PreceedMatch) { const char *Argument = 0; bool CertainArg = false; int IncI = 0; /* Determine the possible location of an option or 0 if their is no option */ if (Opt[1] == 0 || (Opt[1] == '=' && Opt[2] == 0)) { if (I + 1 < argc && argv[I+1][0] != '-') Argument = argv[I+1]; // Equals was specified but we fell off the end! if (Opt[1] == '=' && Argument == 0) return _error->Error(_("Option %s requires an argument."),argv[I]); if (Opt[1] == '=') CertainArg = true; IncI = 1; } else { if (Opt[1] == '=') { CertainArg = true; Argument = Opt + 2; } else Argument = Opt + 1; } // Option is an argument set if ((A->Flags & HasArg) == HasArg) { if (Argument == 0) return _error->Error(_("Option %s requires an argument."),argv[I]); Opt += strlen(Opt); I += IncI; // Parse a configuration file if ((A->Flags & ConfigFile) == ConfigFile) return ReadConfigFile(*Conf,Argument); // Arbitrary item specification if ((A->Flags & ArbItem) == ArbItem) { const char *J; for (J = Argument; *J != 0 && *J != '='; J++); if (*J == 0) return _error->Error(_("Option %s: Configuration item specification must have an =<val>."),argv[I]); // = is trailing if (J[1] == 0) { if (I+1 >= argc) return _error->Error(_("Option %s: Configuration item specification must have an =<val>."),argv[I]); Conf->Set(string(Argument,J-Argument),string(argv[I++ +1])); } else Conf->Set(string(Argument,J-Argument),string(J+1)); return true; } const char *I = A->ConfName; for (; *I != 0 && *I != ' '; I++); if (*I == ' ') Conf->Set(string(A->ConfName,0,I-A->ConfName),string(I+1) + Argument); else Conf->Set(A->ConfName,string(I) + Argument); return true; } // Option is an integer level if ((A->Flags & IntLevel) == IntLevel) { // There might be an argument if (Argument != 0) { char *EndPtr; unsigned long Value = strtol(Argument,&EndPtr,10); // Conversion failed and the argument was specified with an =s if (EndPtr == Argument && CertainArg == true) return _error->Error(_("Option %s requires an integer argument, not '%s'"),argv[I],Argument); // Conversion was ok, set the value and return if (EndPtr != 0 && EndPtr != Argument && *EndPtr == 0) { Conf->Set(A->ConfName,Value); Opt += strlen(Opt); I += IncI; return true; } } // Increase the level Conf->Set(A->ConfName,Conf->FindI(A->ConfName)+1); return true; } // Option is a boolean int Sense = -1; // -1 is unspecified, 0 is yes 1 is no // Look for an argument. while (1) { // Look at preceeding text char Buffer[300]; if (Argument == 0) { if (PreceedMatch == false) break; if (strlen(argv[I]) >= sizeof(Buffer)) return _error->Error(_("Option '%s' is too long"),argv[I]); // Skip the leading dash const char *J = argv[I]; for (; *J != 0 && *J == '-'; J++); const char *JEnd = J; for (; *JEnd != 0 && *JEnd != '-'; JEnd++); if (*JEnd != 0) { strncpy(Buffer,J,JEnd - J); Buffer[JEnd - J] = 0; Argument = Buffer; CertainArg = true; } else break; } // Check for boolean Sense = StringToBool(Argument); if (Sense >= 0) { // Eat the argument if (Argument != Buffer) { Opt += strlen(Opt); I += IncI; } break; } if (CertainArg == true) return _error->Error(_("Sense %s is not understood, try true or false."),Argument); Argument = 0; } // Indeterminate sense depends on the flag if (Sense == -1) { if ((A->Flags & InvBoolean) == InvBoolean) Sense = 0; else Sense = 1; } Conf->Set(A->ConfName,Sense); return true; } /*}}}*/ // CommandLine::FileSize - Count the number of filenames /*{{{*/ // --------------------------------------------------------------------- /* */ unsigned int CommandLine::FileSize() const { unsigned int Count = 0; for (const char **I = FileList; I != 0 && *I != 0; I++) Count++; return Count; } /*}}}*/ // CommandLine::DispatchArg - Do something with the first arg /*{{{*/ // --------------------------------------------------------------------- /* */ bool CommandLine::DispatchArg(Dispatch *Map,bool NoMatch) { int I; for (I = 0; Map[I].Match != 0; I++) { if (strcmp(FileList[0],Map[I].Match) == 0) { bool Res = Map[I].Handler(*this); if (Res == false && _error->PendingError() == false) _error->Error("Handler silently failed"); return Res; } } // No matching name if (Map[I].Match == 0) { if (NoMatch == true) _error->Error(_("Invalid operation %s"),FileList[0]); } return false; } /*}}}*/ // CommandLine::SaveInConfig - for output later in a logfile or so /*{{{*/ // --------------------------------------------------------------------- /* We save the commandline here to have it around later for e.g. logging. It feels a bit like a hack here and isn't bulletproof, but it is better than nothing after all. */ void CommandLine::SaveInConfig(unsigned int const &argc, char const * const * const argv) { char cmdline[100 + argc * 50]; unsigned int length = 0; bool lastWasOption = false; bool closeQuote = false; for (unsigned int i = 0; i < argc && length < sizeof(cmdline); ++i, ++length) { for (unsigned int j = 0; argv[i][j] != '\0' && length < sizeof(cmdline)-1; ++j, ++length) { cmdline[length] = argv[i][j]; if (lastWasOption == true && argv[i][j] == '=') { // That is possibly an option: Quote it if it includes spaces, // the benefit is that this will eliminate also most false positives const char* c = &argv[i][j+1]; for (; *c != '\0' && *c != ' '; ++c); if (*c == '\0') continue; cmdline[++length] = '"'; closeQuote = true; } } if (closeQuote == true) cmdline[length++] = '"'; // Problem: detects also --hello if (cmdline[length-1] == 'o') lastWasOption = true; cmdline[length] = ' '; } cmdline[--length] = '\0'; _config->Set("CommandLine::AsString", cmdline); } /*}}}*/