/* * Filters: utility functions * * Copyright 1998 Pavel Machek * 2017 Maria Matejka * * Can be freely distributed and used under the terms of the GNU GPL. */ #include "nest/bird.h" #include "conf/conf.h" #include "filter/filter.h" #include "filter/f-inst.h" #include "lib/idm.h" #include "nest/protocol.h" #include "nest/route.h" #define P(a,b) ((a<<8) | b) const char * filter_name(const struct filter *filter) { if (!filter) return "ACCEPT"; else if (filter == FILTER_REJECT) return "REJECT"; else if (!filter->sym) return "(unnamed)"; else return filter->sym->name; } struct filter * f_new_where(struct f_inst *where) { struct f_inst *cond = f_new_inst(FI_CONDITION, where, f_new_inst(FI_DIE, F_ACCEPT), f_new_inst(FI_DIE, F_REJECT)); struct filter *f = cfg_allocz(sizeof(struct filter)); f->root = f_linearize(cond, 0); return f; } static inline int f_match_signature(const struct f_method *dsc, struct f_inst *args) { int i, arg_num = (int) dsc->arg_num; for (i = 1; args && (i < arg_num); args = args->next, i++) if (dsc->args_type[i] && (args->type != dsc->args_type[i]) && !f_try_const_promotion(args, dsc->args_type[i])) return 0; return !args && !(i < arg_num); } /* Variant of f_match_signature(), optimized for error reporting */ static inline void f_match_signature_err(const struct f_method *dsc, struct f_inst *args, int *pos, int *want, int *got) { int i, arg_num = (int) dsc->arg_num; for (i = 1; args && (i < arg_num); args = args->next, i++) if (dsc->args_type[i] && (args->type != dsc->args_type[i]) && !f_try_const_promotion(args, dsc->args_type[i])) break; *pos = i; *want = (i < arg_num) ? dsc->args_type[i] : T_NONE; *got = args ? args->type : T_NONE; } struct f_inst * f_dispatch_method(struct symbol *sym, struct f_inst *obj, struct f_inst *args, int skip) { /* Find match */ for (const struct f_method *dsc = sym->method; dsc; dsc = dsc->next) if (f_match_signature(dsc, args)) return dsc->new_inst(obj, args); /* No valid match - format error message */ int best_pos = -1; /* Longest argument position with partial match */ int best_got = 0; /* Received type at best partial match position */ int best_count = 0; /* Number of partial matches at best position */ const int best_max = 8; /* Max number of reported types */ int best_want[best_max]; /* Expected types at best position */ for (const struct f_method *dsc = sym->method; dsc; dsc = dsc->next) { int pos, want, got; f_match_signature_err(dsc, args, &pos, &want, &got); /* Ignore shorter match */ if (pos < best_pos) continue; /* Found longer match, reset existing results */ if (pos > best_pos) { best_pos = pos; best_got = got; best_count = 0; } /* Skip duplicates */ for (int i = 0; i < best_count; i++) if (best_want[i] == want) goto next; /* Skip if we have enough types */ if (best_count >= best_max) continue; /* Add new expected type */ best_want[best_count] = want; best_count++; next:; } /* There is at least one method */ ASSERT(best_pos >= 0 && best_count > 0); /* Update best_pos for printing */ best_pos = best_pos - skip + 1; if (!best_got) cf_error("Cannot infer type of argument %d of '%s', please assign it to a variable", best_pos, sym->name); /* Format list of expected types */ buffer tbuf; STACK_BUFFER_INIT(tbuf, 128); for (int i = 0; i < best_count; i++) buffer_print(&tbuf, " / %s", best_want[i] ? f_type_name(best_want[i]) : "any"); char *types = tbuf.start + 3; char *dots = (best_count >= best_max) || (tbuf.pos == tbuf.end) ? " / ..." : ""; cf_error("Argument %d of '%s' expected %s%s, got %s", best_pos, sym->name, types, dots, f_type_name(best_got)); } struct f_inst * f_dispatch_method_x(const char *name, enum btype t, struct f_inst *obj, struct f_inst *args) { struct sym_scope *scope = f_type_method_scope(t); struct symbol *sym = cf_find_symbol_scope(scope, name); if (!sym) cf_error("Cannot dispatch method '%s'", name); return f_dispatch_method(sym, obj, args, 0); } struct f_inst * f_for_cycle(struct symbol *var, struct f_inst *term, struct f_inst *block) { ASSERT((var->class & ~0xff) == SYM_VARIABLE); ASSERT(term->next == NULL); /* Static type check */ if (term->type == T_VOID) cf_error("Cannot infer type of FOR expression, please assign it to a variable"); enum btype el_type = f_type_element_type(term->type); struct sym_scope *scope = el_type ? f_type_method_scope(term->type) : NULL; struct symbol *ms = scope ? cf_find_symbol_scope(scope, "!for_next") : NULL; if (!ms) cf_error("Type %s is not iterable, can't be used in FOR", f_type_name(term->type)); if (var->class != (SYM_VARIABLE | el_type)) cf_error("Loop variable '%s' in FOR must be of type %s, got %s", var->name, f_type_name(el_type), f_type_name(var->class & 0xff)); /* Push the iterator auxiliary value onto stack */ struct f_inst *iter = term->next = f_new_inst(FI_CONSTANT, (struct f_val) {}); /* Initialize the iterator variable */ iter->next = f_new_inst(FI_CONSTANT, (struct f_val) { .type = el_type }); /* Prepend the loop block with loop beginning instruction */ struct f_inst *loop_start = f_new_inst(FI_FOR_LOOP_START, var); loop_start->next = block; return ms->method->new_inst(term, loop_start); } struct f_inst * f_implicit_roa_check(struct rtable_config *tab) { const struct ea_class *def = ea_class_find("bgp_path"); if (!def) bug("Couldn't find BGP AS Path attribute definition."); struct f_inst *path_getter = f_new_inst(FI_EA_GET, f_new_inst(FI_CURRENT_ROUTE), def); struct sym_scope *scope = f_type_method_scope(path_getter->type); struct symbol *ms = scope ? cf_find_symbol_scope(scope, "last") : NULL; if (!ms) bug("Couldn't find the \"last\" method for AS Path."); struct f_static_attr fsa = f_new_static_attr(T_NET, SA_NET, 1); return f_new_inst(FI_ROA_CHECK, f_new_inst(FI_RTA_GET, f_new_inst(FI_CURRENT_ROUTE), fsa), ms->method->new_inst(path_getter, NULL), tab); } struct f_inst * f_print(struct f_inst *vars, int flush, enum filter_return fret) { #define AX(...) do { struct f_inst *_tmp = f_new_inst(__VA_ARGS__); _tmp->next = output; output = _tmp; } while (0) struct f_inst *output = NULL; if (fret != F_NOP) AX(FI_DIE, fret); if (flush) AX(FI_FLUSH); while (vars) { struct f_inst *tmp = vars; vars = vars->next; tmp->next = NULL; AX(FI_PRINT, tmp); } return output; #undef AX }