Filter: Improve handling of stack frames in filter bytecode
When f_line is done, we have to pop the stack frame. The old code just removed nominal number of args/vars. Change it to use stored ventry value modified by number of returned values. This allows to allocate variables on a stack frame during execution of f_lines instead of just at start. But we need to know the number of returned values for a f_line. It is 1 for term, 0 for cmd. Store that to f_line during linearization.
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9 changed files with 26 additions and 24 deletions
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@ -153,14 +153,14 @@ conf: definition ;
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definition:
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definition:
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DEFINE symbol '=' term ';' {
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DEFINE symbol '=' term ';' {
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struct f_val *val = cfg_allocz(sizeof(struct f_val));
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struct f_val *val = cfg_allocz(sizeof(struct f_val));
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if (f_eval(f_linearize($4), cfg_mem, val) > F_RETURN) cf_error("Runtime error");
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if (f_eval(f_linearize($4, 1), cfg_mem, val) > F_RETURN) cf_error("Runtime error");
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cf_define_symbol($2, SYM_CONSTANT | val->type, val, val);
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cf_define_symbol($2, SYM_CONSTANT | val->type, val, val);
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}
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}
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;
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;
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expr:
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expr:
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NUM
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NUM
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| '(' term ')' { $$ = f_eval_int(f_linearize($2)); }
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| '(' term ')' { $$ = f_eval_int(f_linearize($2, 1)); }
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| CF_SYM_KNOWN {
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| CF_SYM_KNOWN {
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if ($1->class != (SYM_CONSTANT | T_INT)) cf_error("Number constant expected");
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if ($1->class != (SYM_CONSTANT | T_INT)) cf_error("Number constant expected");
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$$ = SYM_VAL($1).i; }
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$$ = SYM_VAL($1).i; }
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@ -329,7 +329,7 @@ filter_def:
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conf: filter_eval ;
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conf: filter_eval ;
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filter_eval:
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filter_eval:
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EVAL term { f_eval_int(f_linearize($2)); }
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EVAL term { f_eval_int(f_linearize($2, 1)); }
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;
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;
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conf: custom_attr ;
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conf: custom_attr ;
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@ -453,7 +453,7 @@ where_filter:
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function_body:
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function_body:
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function_vars '{' cmds '}' {
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function_vars '{' cmds '}' {
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$$ = f_linearize($3);
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$$ = f_linearize($3, 0);
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$$->vars = $1;
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$$->vars = $1;
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}
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}
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;
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;
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@ -537,7 +537,7 @@ set_atom:
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| VPN_RD { $$.type = T_RD; $$.val.ec = $1; }
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| VPN_RD { $$.type = T_RD; $$.val.ec = $1; }
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| ENUM { $$.type = pair_a($1); $$.val.i = pair_b($1); }
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| ENUM { $$.type = pair_a($1); $$.val.i = pair_b($1); }
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| '(' term ')' {
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| '(' term ')' {
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if (f_eval(f_linearize($2), cfg_mem, &($$)) > F_RETURN) cf_error("Runtime error");
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if (f_eval(f_linearize($2, 1), cfg_mem, &($$)) > F_RETURN) cf_error("Runtime error");
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if (!f_valid_set_type($$.type)) cf_error("Set-incompatible type");
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if (!f_valid_set_type($$.type)) cf_error("Set-incompatible type");
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}
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}
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| CF_SYM_KNOWN {
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| CF_SYM_KNOWN {
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@ -549,13 +549,13 @@ set_atom:
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switch_atom:
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switch_atom:
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NUM { $$.type = T_INT; $$.val.i = $1; }
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NUM { $$.type = T_INT; $$.val.i = $1; }
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| '(' term ')' { $$.type = T_INT; $$.val.i = f_eval_int(f_linearize($2)); }
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| '(' term ')' { $$.type = T_INT; $$.val.i = f_eval_int(f_linearize($2, 1)); }
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| fipa { $$ = $1; }
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| fipa { $$ = $1; }
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| ENUM { $$.type = pair_a($1); $$.val.i = pair_b($1); }
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| ENUM { $$.type = pair_a($1); $$.val.i = pair_b($1); }
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;
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;
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cnum:
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cnum:
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term { $$ = f_eval_int(f_linearize($1)); }
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term { $$ = f_eval_int(f_linearize($1, 1)); }
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pair_item:
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pair_item:
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'(' cnum ',' cnum ')' { $$ = f_new_pair_item($2, $2, $4, $4); }
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'(' cnum ',' cnum ')' { $$ = f_new_pair_item($2, $2, $4, $4); }
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@ -642,7 +642,7 @@ switch_body: /* EMPTY */ { $$ = NULL; }
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| switch_body switch_items ':' cmds {
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| switch_body switch_items ':' cmds {
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/* Fill data fields */
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/* Fill data fields */
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struct f_tree *t;
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struct f_tree *t;
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struct f_line *line = f_linearize($4);
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struct f_line *line = f_linearize($4, 0);
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for (t = $2; t; t = t->left)
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for (t = $2; t; t = t->left)
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t->data = line;
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t->data = line;
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$$ = f_merge_items($1, $2);
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$$ = f_merge_items($1, $2);
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@ -651,7 +651,7 @@ switch_body: /* EMPTY */ { $$ = NULL; }
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struct f_tree *t = f_new_tree();
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struct f_tree *t = f_new_tree();
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t->from.type = t->to.type = T_VOID;
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t->from.type = t->to.type = T_VOID;
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t->right = t;
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t->right = t;
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t->data = f_linearize($3);
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t->data = f_linearize($3, 0);
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$$ = f_merge_items($1, t);
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$$ = f_merge_items($1, t);
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}
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}
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;
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;
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@ -216,7 +216,7 @@ whati->f$1 = f$1;
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FID_DUMP_BODY()m4_dnl
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FID_DUMP_BODY()m4_dnl
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f_dump_line(item->fl$1, indent + 1);
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f_dump_line(item->fl$1, indent + 1);
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FID_LINEARIZE_BODY()m4_dnl
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FID_LINEARIZE_BODY()m4_dnl
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item->fl$1 = f_linearize(whati->f$1);
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item->fl$1 = f_linearize(whati->f$1, $2);
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FID_SAME_BODY()m4_dnl
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FID_SAME_BODY()m4_dnl
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if (!f_same(f1->fl$1, f2->fl$1)) return 0;
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if (!f_same(f1->fl$1, f2->fl$1)) return 0;
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FID_ITERATE_BODY()m4_dnl
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FID_ITERATE_BODY()m4_dnl
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@ -568,7 +568,7 @@ FID_WR_PUT(8)
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}
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}
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struct f_line *
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struct f_line *
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f_linearize_concat(const struct f_inst * const inst[], uint count)
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f_linearize_concat(const struct f_inst * const inst[], uint count, uint results)
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{
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{
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uint len = 0;
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uint len = 0;
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for (uint i=0; i<count; i++)
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for (uint i=0; i<count; i++)
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@ -580,6 +580,8 @@ f_linearize_concat(const struct f_inst * const inst[], uint count)
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for (uint i=0; i<count; i++)
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for (uint i=0; i<count; i++)
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out->len = linearize(out, inst[i], out->len);
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out->len = linearize(out, inst[i], out->len);
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out->results = results;
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#ifdef LOCAL_DEBUG
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#ifdef LOCAL_DEBUG
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f_dump_line(out, 0);
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f_dump_line(out, 0);
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#endif
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#endif
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@ -64,7 +64,7 @@
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* m4_dnl ARG_ANY(num); argument with no type check accessible by v1, v2, v3
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* m4_dnl ARG_ANY(num); argument with no type check accessible by v1, v2, v3
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* m4_dnl ARG_TYPE(num, type); just declare the type of argument
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* m4_dnl ARG_TYPE(num, type); just declare the type of argument
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* m4_dnl VARARG; variable-length argument list; accessible by vv(i) and whati->varcount
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* m4_dnl VARARG; variable-length argument list; accessible by vv(i) and whati->varcount
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* m4_dnl LINE(num, unused); this argument has to be converted to its own f_line
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* m4_dnl LINE(num, out); this argument has to be converted to its own f_line
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* m4_dnl SYMBOL; symbol handed from config
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* m4_dnl SYMBOL; symbol handed from config
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* m4_dnl STATIC_ATTR; static attribute definition
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* m4_dnl STATIC_ATTR; static attribute definition
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* m4_dnl DYNAMIC_ATTR; dynamic attribute definition
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* m4_dnl DYNAMIC_ATTR; dynamic attribute definition
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@ -298,7 +298,7 @@
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RESULT_TYPE(T_BOOL);
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RESULT_TYPE(T_BOOL);
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if (v1.val.i)
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if (v1.val.i)
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LINE(2,0);
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LINE(2,1);
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else
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else
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RESULT_VAL(v1);
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RESULT_VAL(v1);
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}
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}
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@ -308,7 +308,7 @@
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RESULT_TYPE(T_BOOL);
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RESULT_TYPE(T_BOOL);
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if (!v1.val.i)
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if (!v1.val.i)
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LINE(2,0);
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LINE(2,1);
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else
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else
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RESULT_VAL(v1);
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RESULT_VAL(v1);
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}
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}
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@ -536,7 +536,7 @@
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if (v1.val.i)
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if (v1.val.i)
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LINE(2,0);
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LINE(2,0);
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else
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else
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LINE(3,1);
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LINE(3,0);
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}
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}
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INST(FI_PRINT, 0, 0) {
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INST(FI_PRINT, 0, 0) {
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@ -46,14 +46,15 @@ struct f_line {
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uint len; /* Line length */
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uint len; /* Line length */
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u8 args; /* Function: Args required */
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u8 args; /* Function: Args required */
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u8 vars;
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u8 vars;
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u8 results; /* Results left on stack: cmd -> 0, term -> 1 */
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struct f_arg *arg_list;
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struct f_arg *arg_list;
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struct f_line_item items[0]; /* The items themselves */
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struct f_line_item items[0]; /* The items themselves */
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};
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};
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/* Convert the f_inst infix tree to the f_line structures */
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/* Convert the f_inst infix tree to the f_line structures */
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struct f_line *f_linearize_concat(const struct f_inst * const inst[], uint count);
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struct f_line *f_linearize_concat(const struct f_inst * const inst[], uint count, uint results);
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static inline struct f_line *f_linearize(const struct f_inst *root)
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static inline struct f_line *f_linearize(const struct f_inst *root, uint results)
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{ return f_linearize_concat(&root, 1); }
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{ return f_linearize_concat(&root, 1, results); }
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void f_dump_line(const struct f_line *, uint indent);
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void f_dump_line(const struct f_line *, uint indent);
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@ -37,7 +37,7 @@ struct filter *f_new_where(struct f_inst *where)
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f_new_inst(FI_DIE, F_REJECT));
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f_new_inst(FI_DIE, F_REJECT));
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struct filter *f = cfg_allocz(sizeof(struct filter));
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struct filter *f = cfg_allocz(sizeof(struct filter));
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f->root = f_linearize(cond);
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f->root = f_linearize(cond, 0);
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return f;
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return f;
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}
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}
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@ -215,8 +215,7 @@ interpret(struct filter_state *fs, const struct f_line *line, struct f_val *val)
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}
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}
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/* End of current line. Drop local variables before exiting. */
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/* End of current line. Drop local variables before exiting. */
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fstk->vcnt -= curline.line->vars;
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fstk->vcnt = curline.ventry + curline.line->results;
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fstk->vcnt -= curline.line->args;
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fstk->ecnt--;
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fstk->ecnt--;
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}
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}
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@ -165,7 +165,7 @@ rtrid:
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idval:
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idval:
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NUM { $$ = $1; }
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NUM { $$ = $1; }
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| '(' term ')' { $$ = f_eval_int(f_linearize($2)); }
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| '(' term ')' { $$ = f_eval_int(f_linearize($2, 1)); }
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| IP4 { $$ = ip4_to_u32($1); }
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| IP4 { $$ = ip4_to_u32($1); }
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| CF_SYM_KNOWN {
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| CF_SYM_KNOWN {
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if ($1->class == (SYM_CONSTANT | T_INT) || $1->class == (SYM_CONSTANT | T_QUAD))
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if ($1->class == (SYM_CONSTANT | T_INT) || $1->class == (SYM_CONSTANT | T_QUAD))
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@ -860,7 +860,7 @@ CF_CLI(DUMP FILTER ALL,,, [[Dump all filters in linearized form]])
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{ filters_dump_all(); cli_msg(0, ""); } ;
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{ filters_dump_all(); cli_msg(0, ""); } ;
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CF_CLI(EVAL, term, <expr>, [[Evaluate an expression]])
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CF_CLI(EVAL, term, <expr>, [[Evaluate an expression]])
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{ cmd_eval(f_linearize($2)); } ;
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{ cmd_eval(f_linearize($2, 1)); } ;
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CF_CLI_HELP(ECHO, ..., [[Control echoing of log messages]])
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CF_CLI_HELP(ECHO, ..., [[Control echoing of log messages]])
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CF_CLI(ECHO, echo_mask echo_size, (all | off | { debug|trace|info|remote|warning|error|auth [, ...] }) [<buffer-size>], [[Control echoing of log messages]]) {
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CF_CLI(ECHO, echo_mask echo_size, (all | off | { debug|trace|info|remote|warning|error|auth [, ...] }) [<buffer-size>], [[Control echoing of log messages]]) {
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@ -40,7 +40,7 @@ static_route_finish(void)
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if (net_type_match(this_srt->net, NB_DEST) == !this_srt->dest)
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if (net_type_match(this_srt->net, NB_DEST) == !this_srt->dest)
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cf_error("Unexpected or missing nexthop/type");
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cf_error("Unexpected or missing nexthop/type");
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this_srt->cmds = f_linearize(this_srt_cmds);
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this_srt->cmds = f_linearize(this_srt_cmds, 0);
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}
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}
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CF_DECLS
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CF_DECLS
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