/* vi: set sw=4 ts=4 : * args.c - Command line argument parsing. * * Copyright 2006 Rob Landley */ #include "toys.h" // Design goals: // Don't use getopt() // Don't permute original arguments. // handle --long gracefully "(noshort)a(along)b(blong1)(blong2)" // After each argument: // Note that pointer and long are always the same size, even on 64 bit. // : plus a string argument, keep most recent if more than one // * plus a string argument, appended to a list // # plus a signed long argument // HIGH - die if greater than HIGH // =DEFAULT - value if not specified // . plus a double precision floating point argument (with CFG_TOYBOX_FLOAT) // Chop this out with USE_TOYBOX_FLOAT() around option string // Same HIGH=DEFAULT as # // @ plus an occurrence counter (which is a long) // (longopt) // | this is required. If more than one marked, only one required. TODO // ^ Stop parsing after encountering this argument // " " (space char) the "plus an argument" must be separate // I.E. "-j 3" not "-j3". So "kill -stop" != "kill -s top" // // These modify other option letters (previously seen in string): // +X enabling this enables X (switch on) // ~X enabling this disables X (switch off) // !X die with error if X already set (x!x die if x supplied twice) // [yz] needs at least one of y or z. TODO // at the beginning: // ^ stop at first nonoption argument // <0 die if less than leftover arguments (default 0) // >9 die if > # leftover arguments (default MAX_INT) // ? Allow unknown arguments (pass them through to command). // & first argument has imaginary dash (ala tar/ps) // If given twice, all arguments have imaginary dash // Notes from getopt man page // - and -- cannot be arguments. // -- force end of arguments // - is a synonym for stdin in file arguments // -abc means -a -b -c /* This uses a getopt-like option string, but not getopt() itself. We call * it the get_opt string. * * Each option in the get_opt string corresponds to a bit position in the * return value. The rightmost argument is (1<<0), the next to last is (1<<1) * and so on. If the option isn't seen in argv[], its bit remains 0. * * Options which have an argument fill in the corresponding slot in the global * union "this" (see generated/globals.h), which it treats as an array of longs * (note that sizeof(long)==sizeof(pointer) is guaranteed by LP64). * * You don't have to free the option strings, which point into the environment * space. List objects should be freed by main() when command_main() returns. * * Example: * Calling get_optflags() when toys.which->options="ab:c:d" and * argv = ["command", "-b", "fruit", "-d", "walrus"] results in: * * Changes to struct toys: * toys.optflags = 5 (-b=4 | -d=1) * toys.optargs[0]="walrus" (leftover argument) * toys.optargs[1]=NULL (end of list) * toys.optc=1 (there was 1 leftover argument) * * Changes to union this: * this[0]=NULL (because -c didn't get an argument this time) * this[1]="fruit" (argument to -b) */ // Linked list of all known options (get_opt string is parsed into this). struct opts { struct opts *next; long *arg; // Pointer into union "this" to store arguments at. uint32_t edx[3]; // Flag mask to enable/disable/exclude. int c; // Short argument character int flags; // |=1, ^=2 char type; // Type of arguments to store union { long l; FLOAT f; } val[3]; // low, high, default - range of allowed values }; struct longopts { struct longopts *next; struct opts *opt; char *str; int len; }; // State during argument parsing. struct getoptflagstate { int argc, minargs, maxargs, nodash; char *arg; struct opts *opts, *this; struct longopts *longopts; int noerror, nodash_now, stopearly; uint32_t excludes; }; // Parse one command line option. static int gotflag(struct getoptflagstate *gof) { int type; struct opts *opt = gof->this; // Did we recognize this option? if (!opt) { if (gof->noerror) return 1; error_exit("Unknown option %s", gof->arg); } // Set flags toys.optflags |= opt->edx[0]; toys.optflags &= ~opt->edx[1]; gof->excludes = opt->edx[2]; if (opt->flags&2) gof->stopearly=2; // Does this option take an argument? gof->arg++; type = opt->type; if (type) { char *arg = gof->arg; // Handle "-xblah" and "-x blah", but also a third case: "abxc blah" // to make "tar xCjfv blah1 blah2 thingy" work like // "tar -x -C blah1 -j -f blah2 -v thingy" if (gof->nodash_now || !arg[0]) arg = toys.argv[++gof->argc]; // TODO: The following line doesn't display --longopt correctly if (!arg) error_exit("Missing argument to -%c", opt->c); if (type == ':') *(opt->arg) = (long)arg; else if (type == '*') { struct arg_list **list; list = (struct arg_list **)opt->arg; while (*list) list=&((*list)->next); *list = xzalloc(sizeof(struct arg_list)); (*list)->arg = arg; } else if (type == '#') { long l = atolx(arg); if (l < opt->val[0].l) error_exit("-%c < %ld", opt->c, opt->val[0].l); if (l > opt->val[1].l) error_exit("-%c > %ld", opt->c, opt->val[1].l); *(opt->arg) = l; } else if (CFG_TOYBOX_FLOAT && type == '.') { FLOAT *f = (FLOAT *)(opt->arg); *f = strtod(arg, &arg); if (opt->val[0].l != LONG_MIN && *f < opt->val[0].f) error_exit("-%c < %lf", opt->c, (double)opt->val[0].f); if (opt->val[1].l != LONG_MAX && *f > opt->val[1].f) error_exit("-%c > %lf", opt->c, (double)opt->val[1].f); } else if (type == '@') ++*(opt->arg); if (!gof->nodash_now) gof->arg = ""; } gof->this = NULL; return 0; } // Fill out toys.optflags and toys.optargs. void parse_optflaglist(struct getoptflagstate *gof) { char *options = toys.which->options, *plustildenot = "+~!", *limits = "<>=", *flagbits="|^ "; long *nextarg = (long *)&this; struct opts *new = 0; int i; // Parse option format string memset(gof, 0, sizeof(struct getoptflagstate)); gof->maxargs = INT_MAX; if (!options) return; // Parse leading special behavior indicators for (;;) { if (*options == '^') gof->stopearly++; else if (*options == '<') gof->minargs=*(++options)-'0'; else if (*options == '>') gof->maxargs=*(++options)-'0'; else if (*options == '?') gof->noerror++; else if (*options == '&') gof->nodash++; else break; options++; } // Parse the rest of the option string into a linked list // of options with attributes. if (!*options) gof->stopearly++; while (*options) { char *temp; // Allocate a new list entry when necessary if (!new) { new = xzalloc(sizeof(struct opts)); new->next = gof->opts; gof->opts = new; new->val[0].l = LONG_MIN; new->val[1].l = LONG_MAX; ++*(new->edx); } // Each option must start with "(" or an option character. (Bare // longopts only come at the start of the string.) if (*options == '(') { char *end; struct longopts *lo = xmalloc(sizeof(struct longopts)); // Find the end of the longopt for (end = ++options; *end && *end != ')'; end++); if (CFG_TOYBOX_DEBUG && !*end) error_exit("(longopt) didn't end"); // init a new struct longopts lo->next = gof->longopts; lo->opt = new; lo->str = options; lo->len = end-options; gof->longopts = lo; options = end; // Mark this struct opt as used, even when no short opt. if (!new->c) new->c = -1; // If this is the start of a new option that wasn't a longopt, } else if (strchr(":*#@.", *options)) { if (CFG_TOYBOX_DEBUG && new->type) error_exit("multiple types %c:%c%c", new->c, new->type, *options); new->type = *options; } else if (0 != (temp = strchr(plustildenot, *options))) { int idx = temp - plustildenot; struct opts *opt; if (!*++options && CFG_TOYBOX_DEBUG) error_exit("+~! no target"); // Find this option flag (in previously parsed struct opt) for (i=0, opt = new; ; opt = opt->next) { if (CFG_TOYBOX_DEBUG && !opt) error_exit("+~! unknown target"); if (opt->c == *options) break; i++; } new->edx[idx] |= 1<flags |= 1<<(temp-flagbits); // bounds checking else if (0 != (temp = strchr(limits, *options))) { i = temp - limits; if (new->type == '#') { long l = strtol(++options, &temp, 10); if (temp != options) new->val[i].l = l; } else if (CFG_TOYBOX_FLOAT && new->type == '.') { FLOAT f = strtod(++options, &temp); if (temp != options) new->val[i].f = f; } else if (CFG_TOYBOX_DEBUG) error_exit("<>= only after .#"); options = --temp; } // At this point, we've hit the end of the previous option. The // current character is the start of a new option. If we've already // assigned an option to this struct, loop to allocate a new one. // (It'll get back here afterwards and fall through to next else.) else if (new->c) { new = NULL; continue; // Claim this option, loop to see what's after it. } else new->c = *options; options++; } // Initialize enable/disable/exclude masks and pointers to store arguments. // (We have to calculate all this ahead of time because longopts jump into // the middle of the list. We have to do this after creating the list // because we reverse direction: last entry created gets first global slot.) int pos = 0; for (new = gof->opts; new; new = new->next) { for (i=0;i<3;i++) new->edx[i] <<= pos; pos++; if (new->type) { new->arg = (void *)nextarg; *(nextarg++) = new->val[2].l; } } } void get_optflags(void) { struct getoptflagstate gof; long saveflags; char *letters[]={"s",""}; // Option parsing is a two stage process: parse the option string into // a struct opts list, then use that list to process argv[]; if (CFG_HELP) toys.exithelp++; // Allocate memory for optargs saveflags = 0; while (toys.argv[saveflags++]); toys.optargs = xzalloc(sizeof(char *)*saveflags); parse_optflaglist(&gof); // Iterate through command line arguments, skipping argv[0] for (gof.argc=1; toys.argv[gof.argc]; gof.argc++) { gof.arg = toys.argv[gof.argc]; gof.this = NULL; // Parse this argument if (gof.stopearly>1) goto notflag; gof.nodash_now = 0; // Various things with dashes if (*gof.arg == '-') { // Handle - if (!gof.arg[1]) goto notflag; gof.arg++; if (*gof.arg=='-') { struct longopts *lo; gof.arg++; // Handle -- if (!*gof.arg) { gof.stopearly += 2; goto notflag; } // Handle --longopt for (lo = gof.longopts; lo; lo = lo->next) { if (!strncmp(gof.arg, lo->str, lo->len)) { if (gof.arg[lo->len]) { if (gof.arg[lo->len]=='=' && lo->opt->type) gof.arg += lo->len; else continue; } // It's a match. gof.arg = ""; gof.this = lo->opt; break; } } // Should we handle this --longopt as a non-option argument? if (!lo && gof.noerror) { gof.arg-=2; goto notflag; } // Long option parsed, handle option. gotflag(&gof); continue; } // Handle things that don't start with a dash. } else { if (gof.nodash && (gof.nodash>1 || gof.argc == 1)) gof.nodash_now = 1; else goto notflag; } // At this point, we have the args part of -args. Loop through // each entry (could be -abc meaning -a -b -c) saveflags = toys.optflags; while (*gof.arg) { // Identify next option char. for (gof.this = gof.opts; gof.this; gof.this = gof.this->next) if (*gof.arg == gof.this->c) if (!((gof.this->flags&4) && gof.arg[1])) break; // Handle option char (advancing past what was used) if (gotflag(&gof) ) { toys.optflags = saveflags; gof.arg = toys.argv[gof.argc]; goto notflag; } } continue; // Not a flag, save value in toys.optargs[] notflag: if (gof.stopearly) gof.stopearly++; toys.optargs[toys.optc++] = toys.argv[gof.argc]; } // Sanity check if (toys.optcgof.maxargs) error_exit("Max %d argument%s", gof.maxargs, letters[!(gof.maxargs-1)]); if (CFG_HELP) toys.exithelp = 0; }