MultiSource/Applications/lemon/lighttpd_configparser.y - third_party/github.com/llvm/llvm-test-suite - Git at Google

 %token_prefix TK_
 %extra_argument {config_t *ctx}
 %name configparser

 %include {
 #include <assert.h>
 #include <stdio.h>
 #include <string.h>
 #ifdef HAVE_CONFIG_H
 #include "config.h"
 #endif
 #include "configfile.h"
 #include "buffer.h"
 #include "array.h"

 static void configparser_push(config_t *ctx, data_config *dc, int isnew) {
   if (isnew) {
     dc->context_ndx = ctx->all_configs->used;
     assert(dc->context_ndx > ctx->current->context_ndx);
     array_insert_unique(ctx->all_configs, (data_unset *)dc);
     dc->parent = ctx->current;
     array_insert_unique(dc->parent->childs, (data_unset *)dc);
   }
   array_insert_unique(ctx->configs_stack, (data_unset *)ctx->current);
   ctx->current = dc;
 }

 static data_config *configparser_pop(config_t *ctx) {
   data_config *old = ctx->current;
   ctx->current = (data_config *) array_pop(ctx->configs_stack);
   return old;
 }

 /* return a copied variable */
 static data_unset *configparser_get_variable(config_t *ctx, const buffer *key) {
   data_unset *du;
   data_config *dc;

 #if 0
   fprintf(stderr, "get var %s\n", key->ptr);
 #endif
   for (dc = ctx->current; dc; dc = dc->parent) {
 #if 0
     fprintf(stderr, "get var on block: %s\n", dc->key->ptr);
     array_print(dc->value, 0);
 #endif
     if (NULL != (du = array_get_element(dc->value, key->ptr))) {
       return du->copy(du);
     }
   }
   return NULL;
 }

 /* op1 is to be eat/return by this function if success, op1->key is not cared
    op2 is left untouch, unreferenced
  */
 data_unset *configparser_merge_data(data_unset *op1, const data_unset *op2) {
   /* type mismatch */
   if (op1->type != op2->type) {
     if (op1->type == TYPE_STRING && op2->type == TYPE_INTEGER) {
       data_string *ds = (data_string *)op1;
       buffer_append_long(ds->value, ((data_integer*)op2)->value);
       return op1;
     } else if (op1->type == TYPE_INTEGER && op2->type == TYPE_STRING) {
       data_string *ds = data_string_init();
       buffer_append_long(ds->value, ((data_integer*)op1)->value);
       buffer_append_string_buffer(ds->value, ((data_string*)op2)->value);
       op1->free(op1);
       return (data_unset *)ds;
     } else {
       fprintf(stderr, "data type mismatch, cannot be merge\n");
       return NULL;
     }
   }

   switch (op1->type) {
     case TYPE_STRING:
       buffer_append_string_buffer(((data_string *)op1)->value, ((data_string *)op2)->value);
       break;
     case TYPE_INTEGER:
       ((data_integer *)op1)->value += ((data_integer *)op2)->value;
       break;
     case TYPE_ARRAY: {
       array *dst = ((data_array *)op1)->value;
       array *src = ((data_array *)op2)->value;
       data_unset *du;
       size_t i;

       for (i = 0; i < src->used; i ++) {
         du = (data_unset *)src->data[i];
         if (du) {
           array_insert_unique(dst, du->copy(du));
         }
       }
       break;
     default:
       assert(0);
       break;
     }
   }
   return op1;
 }

 }

 %parse_failure {
   ctx->ok = 0;
 }

 input ::= metalines.
 metalines ::= metalines metaline.
 metalines ::= .
 metaline ::= varline.
 metaline ::= global.
 metaline ::= condlines(A) EOL. { A = NULL; }
 metaline ::= include.
 metaline ::= include_shell.
 metaline ::= EOL.

 %type       value                  {data_unset *}
 %type       expression             {data_unset *}
 %type       aelement               {data_unset *}
 %type       condline               {data_config *}
 %type       condlines              {data_config *}
 %type       global                 {data_config *}
 %type       aelements              {array *}
 %type       array                  {array *}
 %type       key                    {buffer *}
 %type       stringop               {buffer *}

 %type       cond                   {config_cond_t }

 %destructor value                  { $$->free($$); }
 %destructor expression             { $$->free($$); }
 %destructor aelement               { $$->free($$); }
 %destructor aelements              { array_free($$); }
 %destructor array                  { array_free($$); }
 %destructor key                    { buffer_free($$); }
 %destructor stringop               { buffer_free($$); }

 %token_type                        {buffer *}
 %token_destructor                  { buffer_free($$); }

 varline ::= key(A) ASSIGN expression(B). {
   if (ctx->ok) {
     buffer_copy_string_buffer(B->key, A);
     if (strncmp(A->ptr, "env.", sizeof("env.") - 1) == 0) {
       fprintf(stderr, "Setting env variable is not supported in conditional %d %s: %s\n",
           ctx->current->context_ndx,
           ctx->current->key->ptr, A->ptr);
       ctx->ok = 0;
     } else if (NULL == array_get_element(ctx->current->value, B->key->ptr)) {
       array_insert_unique(ctx->current->value, B);
       B = NULL;
     } else {
       fprintf(stderr, "Duplicate config variable in conditional %d %s: %s\n",
               ctx->current->context_ndx,
               ctx->current->key->ptr, B->key->ptr);
       ctx->ok = 0;
       B->free(B);
       B = NULL;
     }
   }
   buffer_free(A);
   A = NULL;
 }

 varline ::= key(A) APPEND expression(B). {
   array *vars = ctx->current->value;
   data_unset *du;

   if (strncmp(A->ptr, "env.", sizeof("env.") - 1) == 0) {
     fprintf(stderr, "Appending env variable is not supported in conditional %d %s: %s\n",
         ctx->current->context_ndx,
         ctx->current->key->ptr, A->ptr);
     ctx->ok = 0;
   } else if (NULL != (du = array_get_element(vars, A->ptr))) {
     /* exists in current block */
     du = configparser_merge_data(du, B);
     if (NULL == du) {
       ctx->ok = 0;
     }
     else {
       buffer_copy_string_buffer(du->key, A);
       array_replace(vars, du);
     }
     B->free(B);
   } else if (NULL != (du = configparser_get_variable(ctx, A))) {
     du = configparser_merge_data(du, B);
     if (NULL == du) {
       ctx->ok = 0;
       du->free(du);
     }
     else {
       buffer_copy_string_buffer(du->key, A);
       array_insert_unique(ctx->current->value, du);
     }
     B->free(B);
   } else {
     buffer_copy_string_buffer(B->key, A);
     array_insert_unique(ctx->current->value, B);
   }
   buffer_free(A);
   A = NULL;
   B = NULL;
 }

 key(A) ::= LKEY(B). {
   if (strchr(B->ptr, '.') == NULL) {
     A = buffer_init_string("var.");
     buffer_append_string_buffer(A, B);
     buffer_free(B);
     B = NULL;
   } else {
     A = B;
     B = NULL;
   }
 }

 expression(A) ::= expression(B) PLUS value(C). {
   A = configparser_merge_data(B, C);
   if (NULL == A) {
     ctx->ok = 0;
   }
   B = NULL;
   C->free(C);
   C = NULL;
 }

 expression(A) ::= value(B). {
   A = B;
   B = NULL;
 }

 value(A) ::= key(B). {
   A = NULL;
   if (strncmp(B->ptr, "env.", sizeof("env.") - 1) == 0) {
     char *env;

     if (NULL != (env = getenv(B->ptr + 4))) {
       data_string *ds;
       ds = data_string_init();
       buffer_append_string(ds->value, env);
       A = (data_unset *)ds;
     }
     else {
       fprintf(stderr, "Undefined env variable: %s\n", B->ptr + 4);
       ctx->ok = 0;
     }
   } else if (NULL == (A = configparser_get_variable(ctx, B))) {
     fprintf(stderr, "Undefined config variable: %s\n", B->ptr);
     ctx->ok = 0;
   }
   if (!A) {
     /* make a dummy so it won't crash */
     A = (data_unset *)data_string_init();
   }
   buffer_free(B);
   B = NULL;
 }

 value(A) ::= STRING(B). {
   A = (data_unset *)data_string_init();
   buffer_copy_string_buffer(((data_string *)(A))->value, B);
   buffer_free(B);
   B = NULL;
 }

 value(A) ::= INTEGER(B). {
   A = (data_unset *)data_integer_init();
   ((data_integer *)(A))->value = strtol(B->ptr, NULL, 10);
   buffer_free(B);
   B = NULL;
 }
 value(A) ::= array(B). {
   A = (data_unset *)data_array_init();
   array_free(((data_array *)(A))->value);
   ((data_array *)(A))->value = B;
   B = NULL;
 }
 array(A) ::= LPARAN RPARAN. {
   A = array_init();
 }
 array(A) ::= LPARAN aelements(B) RPARAN. {
   A = B;
   B = NULL;
 }

 aelements(A) ::= aelements(C) COMMA aelement(B). {
   if (buffer_is_empty(B->key) ||
       NULL == array_get_element(C, B->key->ptr)) {
     array_insert_unique(C, B);
     B = NULL;
   } else {
     fprintf(stderr, "Duplicate array-key: %s\n",
             B->key->ptr);
     ctx->ok = 0;
     B->free(B);
     B = NULL;
   }

   A = C;
   C = NULL;
 }

 aelements(A) ::= aelements(C) COMMA. {
   A = C;
   C = NULL;
 }

 aelements(A) ::= aelement(B). {
   A = array_init();
   array_insert_unique(A, B);
   B = NULL;
 }

 aelement(A) ::= expression(B). {
   A = B;
   B = NULL;
 }
 aelement(A) ::= stringop(B) ARRAY_ASSIGN expression(C). {
   buffer_copy_string_buffer(C->key, B);
   buffer_free(B);
   B = NULL;

   A = C;
   C = NULL;
 }

 eols ::= EOL.
 eols ::= .

 globalstart ::= GLOBAL. {
   data_config *dc;
   dc = (data_config *)array_get_element(ctx->srv->config_context, "global");
   assert(dc);
   configparser_push(ctx, dc, 0);
 }

 global(A) ::= globalstart LCURLY metalines RCURLY. {
   data_config *cur;

   cur = ctx->current;
   configparser_pop(ctx);

   assert(cur && ctx->current);

   A = cur;
 }

 condlines(A) ::= condlines(B) eols ELSE condline(C). {
   assert(B->context_ndx < C->context_ndx);
   C->prev = B;
   B->next = C;
   A = C;
   B = NULL;
   C = NULL;
 }

 condlines(A) ::= condline(B). {
   A = B;
   B = NULL;
 }

 condline(A) ::= context LCURLY metalines RCURLY. {
   data_config *cur;

   cur = ctx->current;
   configparser_pop(ctx);

   assert(cur && ctx->current);

   A = cur;
 }

 context ::= DOLLAR SRVVARNAME(B) LBRACKET stringop(C) RBRACKET cond(E) expression(D). {
   data_config *dc;
   buffer *b, *rvalue, *op;

   if (ctx->ok && D->type != TYPE_STRING) {
     fprintf(stderr, "rvalue must be string");
     ctx->ok = 0;
   }

   switch(E) {
   case CONFIG_COND_NE:
     op = buffer_init_string("!=");
     break;
   case CONFIG_COND_EQ:
     op = buffer_init_string("==");
     break;
   case CONFIG_COND_NOMATCH:
     op = buffer_init_string("!~");
     break;
   case CONFIG_COND_MATCH:
     op = buffer_init_string("=~");
     break;
   default:
     assert(0);
     return;
   }

   b = buffer_init();
   buffer_copy_string_buffer(b, ctx->current->key);
   buffer_append_string(b, "/");
   buffer_append_string_buffer(b, B);
   buffer_append_string_buffer(b, C);
   buffer_append_string_buffer(b, op);
   rvalue = ((data_string*)D)->value;
   buffer_append_string_buffer(b, rvalue);

   if (NULL != (dc = (data_config *)array_get_element(ctx->all_configs, b->ptr))) {
     configparser_push(ctx, dc, 0);
   } else {
     struct {
       comp_key_t comp;
       char *comp_key;
       size_t len;
     } comps[] = {
       { COMP_SERVER_SOCKET,      CONST_STR_LEN("SERVER[\"socket\"]"   ) },
       { COMP_HTTP_URL,           CONST_STR_LEN("HTTP[\"url\"]"        ) },
       { COMP_HTTP_HOST,          CONST_STR_LEN("HTTP[\"host\"]"       ) },
       { COMP_HTTP_REFERER,       CONST_STR_LEN("HTTP[\"referer\"]"    ) },
       { COMP_HTTP_USER_AGENT,    CONST_STR_LEN("HTTP[\"useragent\"]"  ) },
       { COMP_HTTP_USER_AGENT,    CONST_STR_LEN("HTTP[\"user-agent\"]"  ) },
       { COMP_HTTP_COOKIE,        CONST_STR_LEN("HTTP[\"cookie\"]"     ) },
       { COMP_HTTP_REMOTE_IP,     CONST_STR_LEN("HTTP[\"remoteip\"]"   ) },
       { COMP_HTTP_REMOTE_IP,     CONST_STR_LEN("HTTP[\"remote-ip\"]"   ) },
       { COMP_HTTP_QUERY_STRING,  CONST_STR_LEN("HTTP[\"querystring\"]") },
       { COMP_HTTP_QUERY_STRING,  CONST_STR_LEN("HTTP[\"query-string\"]") },
       { COMP_HTTP_REQUEST_METHOD, CONST_STR_LEN("HTTP[\"request-method\"]") },
       { COMP_HTTP_SCHEME,        CONST_STR_LEN("HTTP[\"scheme\"]"     ) },
       { COMP_UNSET, NULL, 0 },
     };
     size_t i;

     dc = data_config_init();

     buffer_copy_string_buffer(dc->key, b);
     buffer_copy_string_buffer(dc->op, op);
     buffer_copy_string_buffer(dc->comp_key, B);
     buffer_append_string_len(dc->comp_key, CONST_STR_LEN("[\""));
     buffer_append_string_buffer(dc->comp_key, C);
     buffer_append_string_len(dc->comp_key, CONST_STR_LEN("\"]"));
     dc->cond = E;

     for (i = 0; comps[i].comp_key; i ++) {
       if (buffer_is_equal_string(
             dc->comp_key, comps[i].comp_key, comps[i].len)) {
         dc->comp = comps[i].comp;
         break;
       }
     }
     if (COMP_UNSET == dc->comp) {
       fprintf(stderr, "error comp_key %s", dc->comp_key->ptr);
       ctx->ok = 0;
     }

     switch(E) {
     case CONFIG_COND_NE:
     case CONFIG_COND_EQ:
       dc->string = buffer_init_buffer(rvalue);
       break;
     case CONFIG_COND_NOMATCH:
     case CONFIG_COND_MATCH: {
 #ifdef HAVE_PCRE_H
       const char *errptr;
       int erroff;

       if (NULL == (dc->regex =
           pcre_compile(rvalue->ptr, 0, &errptr, &erroff, NULL))) {
         dc->string = buffer_init_string(errptr);
         dc->cond = CONFIG_COND_UNSET;

         fprintf(stderr, "parsing regex failed: %s -> %s at offset %d\n",
             rvalue->ptr, errptr, erroff);

         ctx->ok = 0;
       } else if (NULL == (dc->regex_study =
           pcre_study(dc->regex, 0, &errptr)) &&
                  errptr != NULL) {
         fprintf(stderr, "studying regex failed: %s -> %s\n",
             rvalue->ptr, errptr);
         ctx->ok = 0;
       } else {
         dc->string = buffer_init_buffer(rvalue);
       }
 #else
       fprintf(stderr, "can't handle '$%s[%s] =~ ...' as you compiled without pcre support. \n"
 		      "(perhaps just a missing pcre-devel package ?) \n",
                       B->ptr, C->ptr);
       ctx->ok = 0;
 #endif
       break;
     }

     default:
       fprintf(stderr, "unknown condition for $%s[%s]\n",
                       B->ptr, C->ptr);
       ctx->ok = 0;
       break;
     }

     configparser_push(ctx, dc, 1);
   }

   buffer_free(b);
   buffer_free(op);
   buffer_free(B);
   B = NULL;
   buffer_free(C);
   C = NULL;
   D->free(D);
   D = NULL;
 }
 cond(A) ::= EQ. {
   A = CONFIG_COND_EQ;
 }
 cond(A) ::= MATCH. {
   A = CONFIG_COND_MATCH;
 }
 cond(A) ::= NE. {
   A = CONFIG_COND_NE;
 }
 cond(A) ::= NOMATCH. {
   A = CONFIG_COND_NOMATCH;
 }

 stringop(A) ::= expression(B). {
   A = NULL;
   if (ctx->ok) {
     if (B->type == TYPE_STRING) {
       A = buffer_init_buffer(((data_string*)B)->value);
     } else if (B->type == TYPE_INTEGER) {
       A = buffer_init();
       buffer_copy_long(A, ((data_integer *)B)->value);
     } else {
       fprintf(stderr, "operand must be string");
       ctx->ok = 0;
     }
   }
   B->free(B);
   B = NULL;
 }

 include ::= INCLUDE stringop(A). {
   if (ctx->ok) {
     if (0 != config_parse_file(ctx->srv, ctx, A->ptr)) {
       ctx->ok = 0;
     }
     buffer_free(A);
     A = NULL;
   }
 }

 include_shell ::= INCLUDE_SHELL stringop(A). {
   if (ctx->ok) {
     if (0 != config_parse_cmd(ctx->srv, ctx, A->ptr)) {
       ctx->ok = 0;
     }
     buffer_free(A);
     A = NULL;
   }
 }
	%token_prefix TK_
	%extra_argument {config_t *ctx}
	%name configparser

	%include {
	#include <assert.h>
	#include <stdio.h>
	#include <string.h>
	#ifdef HAVE_CONFIG_H
	#include "config.h"
	#endif
	#include "configfile.h"
	#include "buffer.h"
	#include "array.h"

	static void configparser_push(config_t ctx, data_config dc, int isnew) {
	if (isnew) {
	dc->context_ndx = ctx->all_configs->used;
	assert(dc->context_ndx > ctx->current->context_ndx);
	array_insert_unique(ctx->all_configs, (data_unset *)dc);
	dc->parent = ctx->current;
	array_insert_unique(dc->parent->childs, (data_unset *)dc);
	}
	array_insert_unique(ctx->configs_stack, (data_unset *)ctx->current);
	ctx->current = dc;
	}

	static data_config configparser_pop(config_t ctx) {
	data_config *old = ctx->current;
	ctx->current = (data_config *) array_pop(ctx->configs_stack);
	return old;
	}

	/* return a copied variable */
	static data_unset configparser_get_variable(config_t ctx, const buffer *key) {
	data_unset *du;
	data_config *dc;

	#if 0
	fprintf(stderr, "get var %s\n", key->ptr);
	#endif
	for (dc = ctx->current; dc; dc = dc->parent) {
	#if 0
	fprintf(stderr, "get var on block: %s\n", dc->key->ptr);
	array_print(dc->value, 0);
	#endif
	if (NULL != (du = array_get_element(dc->value, key->ptr))) {
	return du->copy(du);
	}
	}
	return NULL;
	}

	/* op1 is to be eat/return by this function if success, op1->key is not cared
	op2 is left untouch, unreferenced
	*/
	data_unset configparser_merge_data(data_unset op1, const data_unset *op2) {
	/* type mismatch */
	if (op1->type != op2->type) {
	if (op1->type == TYPE_STRING && op2->type == TYPE_INTEGER) {
	data_string ds = (data_string )op1;
	buffer_append_long(ds->value, ((data_integer*)op2)->value);
	return op1;
	} else if (op1->type == TYPE_INTEGER && op2->type == TYPE_STRING) {
	data_string *ds = data_string_init();
	buffer_append_long(ds->value, ((data_integer*)op1)->value);
	buffer_append_string_buffer(ds->value, ((data_string*)op2)->value);
	op1->free(op1);
	return (data_unset *)ds;
	} else {
	fprintf(stderr, "data type mismatch, cannot be merge\n");
	return NULL;
	}
	}

	switch (op1->type) {
	case TYPE_STRING:
	buffer_append_string_buffer(((data_string )op1)->value, ((data_string )op2)->value);
	break;
	case TYPE_INTEGER:
	((data_integer )op1)->value += ((data_integer )op2)->value;
	break;
	case TYPE_ARRAY: {
	array dst = ((data_array )op1)->value;
	array src = ((data_array )op2)->value;
	data_unset *du;
	size_t i;

	for (i = 0; i < src->used; i ++) {
	du = (data_unset *)src->data[i];
	if (du) {
	array_insert_unique(dst, du->copy(du));
	}
	}
	break;
	default:
	assert(0);
	break;
	}
	}
	return op1;
	}

	}

	%parse_failure {
	ctx->ok = 0;
	}

	input ::= metalines.
	metalines ::= metalines metaline.
	metalines ::= .
	metaline ::= varline.
	metaline ::= global.
	metaline ::= condlines(A) EOL. { A = NULL; }
	metaline ::= include.
	metaline ::= include_shell.
	metaline ::= EOL.

	%type value {data_unset *}
	%type expression {data_unset *}
	%type aelement {data_unset *}
	%type condline {data_config *}
	%type condlines {data_config *}
	%type global {data_config *}
	%type aelements {array *}
	%type array {array *}
	%type key {buffer *}
	%type stringop {buffer *}

	%type cond {config_cond_t }

	%destructor value { $$->free($$); }
	%destructor expression { $$->free($$); }
	%destructor aelement { $$->free($$); }
	%destructor aelements { array_free($$); }
	%destructor array { array_free($$); }
	%destructor key { buffer_free($$); }
	%destructor stringop { buffer_free($$); }

	%token_type {buffer *}
	%token_destructor { buffer_free($$); }

	varline ::= key(A) ASSIGN expression(B). {
	if (ctx->ok) {
	buffer_copy_string_buffer(B->key, A);
	if (strncmp(A->ptr, "env.", sizeof("env.") - 1) == 0) {
	fprintf(stderr, "Setting env variable is not supported in conditional %d %s: %s\n",
	ctx->current->context_ndx,
	ctx->current->key->ptr, A->ptr);
	ctx->ok = 0;
	} else if (NULL == array_get_element(ctx->current->value, B->key->ptr)) {
	array_insert_unique(ctx->current->value, B);
	B = NULL;
	} else {
	fprintf(stderr, "Duplicate config variable in conditional %d %s: %s\n",
	ctx->current->context_ndx,
	ctx->current->key->ptr, B->key->ptr);
	ctx->ok = 0;
	B->free(B);
	B = NULL;
	}
	}
	buffer_free(A);
	A = NULL;
	}

	varline ::= key(A) APPEND expression(B). {
	array *vars = ctx->current->value;
	data_unset *du;

	if (strncmp(A->ptr, "env.", sizeof("env.") - 1) == 0) {
	fprintf(stderr, "Appending env variable is not supported in conditional %d %s: %s\n",
	ctx->current->context_ndx,
	ctx->current->key->ptr, A->ptr);
	ctx->ok = 0;
	} else if (NULL != (du = array_get_element(vars, A->ptr))) {
	/* exists in current block */
	du = configparser_merge_data(du, B);
	if (NULL == du) {
	ctx->ok = 0;
	}
	else {
	buffer_copy_string_buffer(du->key, A);
	array_replace(vars, du);
	}
	B->free(B);
	} else if (NULL != (du = configparser_get_variable(ctx, A))) {
	du = configparser_merge_data(du, B);
	if (NULL == du) {
	ctx->ok = 0;
	du->free(du);
	}
	else {
	buffer_copy_string_buffer(du->key, A);
	array_insert_unique(ctx->current->value, du);
	}
	B->free(B);
	} else {
	buffer_copy_string_buffer(B->key, A);
	array_insert_unique(ctx->current->value, B);
	}
	buffer_free(A);
	A = NULL;
	B = NULL;
	}

	key(A) ::= LKEY(B). {
	if (strchr(B->ptr, '.') == NULL) {
	A = buffer_init_string("var.");
	buffer_append_string_buffer(A, B);
	buffer_free(B);
	B = NULL;
	} else {
	A = B;
	B = NULL;
	}
	}

	expression(A) ::= expression(B) PLUS value(C). {
	A = configparser_merge_data(B, C);
	if (NULL == A) {
	ctx->ok = 0;
	}
	B = NULL;
	C->free(C);
	C = NULL;
	}

	expression(A) ::= value(B). {
	A = B;
	B = NULL;
	}

	value(A) ::= key(B). {
	A = NULL;
	if (strncmp(B->ptr, "env.", sizeof("env.") - 1) == 0) {
	char *env;

	if (NULL != (env = getenv(B->ptr + 4))) {
	data_string *ds;
	ds = data_string_init();
	buffer_append_string(ds->value, env);
	A = (data_unset *)ds;
	}
	else {
	fprintf(stderr, "Undefined env variable: %s\n", B->ptr + 4);
	ctx->ok = 0;
	}
	} else if (NULL == (A = configparser_get_variable(ctx, B))) {
	fprintf(stderr, "Undefined config variable: %s\n", B->ptr);
	ctx->ok = 0;
	}
	if (!A) {
	/* make a dummy so it won't crash */
	A = (data_unset *)data_string_init();
	}
	buffer_free(B);
	B = NULL;
	}

	value(A) ::= STRING(B). {
	A = (data_unset *)data_string_init();
	buffer_copy_string_buffer(((data_string *)(A))->value, B);
	buffer_free(B);
	B = NULL;
	}

	value(A) ::= INTEGER(B). {
	A = (data_unset *)data_integer_init();
	((data_integer *)(A))->value = strtol(B->ptr, NULL, 10);
	buffer_free(B);
	B = NULL;
	}
	value(A) ::= array(B). {
	A = (data_unset *)data_array_init();
	array_free(((data_array *)(A))->value);
	((data_array *)(A))->value = B;
	B = NULL;
	}
	array(A) ::= LPARAN RPARAN. {
	A = array_init();
	}
	array(A) ::= LPARAN aelements(B) RPARAN. {
	A = B;
	B = NULL;
	}

	aelements(A) ::= aelements(C) COMMA aelement(B). {
	if (buffer_is_empty(B->key) \|\|
	NULL == array_get_element(C, B->key->ptr)) {
	array_insert_unique(C, B);
	B = NULL;
	} else {
	fprintf(stderr, "Duplicate array-key: %s\n",
	B->key->ptr);
	ctx->ok = 0;
	B->free(B);
	B = NULL;
	}

	A = C;
	C = NULL;
	}

	aelements(A) ::= aelements(C) COMMA. {
	A = C;
	C = NULL;
	}

	aelements(A) ::= aelement(B). {
	A = array_init();
	array_insert_unique(A, B);
	B = NULL;
	}

	aelement(A) ::= expression(B). {
	A = B;
	B = NULL;
	}
	aelement(A) ::= stringop(B) ARRAY_ASSIGN expression(C). {
	buffer_copy_string_buffer(C->key, B);
	buffer_free(B);
	B = NULL;

	A = C;
	C = NULL;
	}

	eols ::= EOL.
	eols ::= .

	globalstart ::= GLOBAL. {
	data_config *dc;
	dc = (data_config *)array_get_element(ctx->srv->config_context, "global");
	assert(dc);
	configparser_push(ctx, dc, 0);
	}

	global(A) ::= globalstart LCURLY metalines RCURLY. {
	data_config *cur;

	cur = ctx->current;
	configparser_pop(ctx);

	assert(cur && ctx->current);

	A = cur;
	}

	condlines(A) ::= condlines(B) eols ELSE condline(C). {
	assert(B->context_ndx < C->context_ndx);
	C->prev = B;
	B->next = C;
	A = C;
	B = NULL;
	C = NULL;
	}

	condlines(A) ::= condline(B). {
	A = B;
	B = NULL;
	}

	condline(A) ::= context LCURLY metalines RCURLY. {
	data_config *cur;

	cur = ctx->current;
	configparser_pop(ctx);

	assert(cur && ctx->current);

	A = cur;
	}

	context ::= DOLLAR SRVVARNAME(B) LBRACKET stringop(C) RBRACKET cond(E) expression(D). {
	data_config *dc;
	buffer b, rvalue, *op;

	if (ctx->ok && D->type != TYPE_STRING) {
	fprintf(stderr, "rvalue must be string");
	ctx->ok = 0;
	}

	switch(E) {
	case CONFIG_COND_NE:
	op = buffer_init_string("!=");
	break;
	case CONFIG_COND_EQ:
	op = buffer_init_string("==");
	break;
	case CONFIG_COND_NOMATCH:
	op = buffer_init_string("!~");
	break;
	case CONFIG_COND_MATCH:
	op = buffer_init_string("=~");
	break;
	default:
	assert(0);
	return;
	}

	b = buffer_init();
	buffer_copy_string_buffer(b, ctx->current->key);
	buffer_append_string(b, "/");
	buffer_append_string_buffer(b, B);
	buffer_append_string_buffer(b, C);
	buffer_append_string_buffer(b, op);
	rvalue = ((data_string*)D)->value;
	buffer_append_string_buffer(b, rvalue);

	if (NULL != (dc = (data_config *)array_get_element(ctx->all_configs, b->ptr))) {
	configparser_push(ctx, dc, 0);
	} else {
	struct {
	comp_key_t comp;
	char *comp_key;
	size_t len;
	} comps[] = {
	{ COMP_SERVER_SOCKET, CONST_STR_LEN("SERVER[\"socket\"]" ) },
	{ COMP_HTTP_URL, CONST_STR_LEN("HTTP[\"url\"]" ) },
	{ COMP_HTTP_HOST, CONST_STR_LEN("HTTP[\"host\"]" ) },
	{ COMP_HTTP_REFERER, CONST_STR_LEN("HTTP[\"referer\"]" ) },
	{ COMP_HTTP_USER_AGENT, CONST_STR_LEN("HTTP[\"useragent\"]" ) },
	{ COMP_HTTP_USER_AGENT, CONST_STR_LEN("HTTP[\"user-agent\"]" ) },
	{ COMP_HTTP_COOKIE, CONST_STR_LEN("HTTP[\"cookie\"]" ) },
	{ COMP_HTTP_REMOTE_IP, CONST_STR_LEN("HTTP[\"remoteip\"]" ) },
	{ COMP_HTTP_REMOTE_IP, CONST_STR_LEN("HTTP[\"remote-ip\"]" ) },
	{ COMP_HTTP_QUERY_STRING, CONST_STR_LEN("HTTP[\"querystring\"]") },
	{ COMP_HTTP_QUERY_STRING, CONST_STR_LEN("HTTP[\"query-string\"]") },
	{ COMP_HTTP_REQUEST_METHOD, CONST_STR_LEN("HTTP[\"request-method\"]") },
	{ COMP_HTTP_SCHEME, CONST_STR_LEN("HTTP[\"scheme\"]" ) },
	{ COMP_UNSET, NULL, 0 },
	};
	size_t i;

	dc = data_config_init();

	buffer_copy_string_buffer(dc->key, b);
	buffer_copy_string_buffer(dc->op, op);
	buffer_copy_string_buffer(dc->comp_key, B);
	buffer_append_string_len(dc->comp_key, CONST_STR_LEN("[\""));
	buffer_append_string_buffer(dc->comp_key, C);
	buffer_append_string_len(dc->comp_key, CONST_STR_LEN("\"]"));
	dc->cond = E;

	for (i = 0; comps[i].comp_key; i ++) {
	if (buffer_is_equal_string(
	dc->comp_key, comps[i].comp_key, comps[i].len)) {
	dc->comp = comps[i].comp;
	break;
	}
	}
	if (COMP_UNSET == dc->comp) {
	fprintf(stderr, "error comp_key %s", dc->comp_key->ptr);
	ctx->ok = 0;
	}

	switch(E) {
	case CONFIG_COND_NE:
	case CONFIG_COND_EQ:
	dc->string = buffer_init_buffer(rvalue);
	break;
	case CONFIG_COND_NOMATCH:
	case CONFIG_COND_MATCH: {
	#ifdef HAVE_PCRE_H
	const char *errptr;
	int erroff;

	if (NULL == (dc->regex =
	pcre_compile(rvalue->ptr, 0, &errptr, &erroff, NULL))) {
	dc->string = buffer_init_string(errptr);
	dc->cond = CONFIG_COND_UNSET;

	fprintf(stderr, "parsing regex failed: %s -> %s at offset %d\n",
	rvalue->ptr, errptr, erroff);

	ctx->ok = 0;
	} else if (NULL == (dc->regex_study =
	pcre_study(dc->regex, 0, &errptr)) &&
	errptr != NULL) {
	fprintf(stderr, "studying regex failed: %s -> %s\n",
	rvalue->ptr, errptr);
	ctx->ok = 0;
	} else {
	dc->string = buffer_init_buffer(rvalue);
	}
	#else
	fprintf(stderr, "can't handle '$%s[%s] =~ ...' as you compiled without pcre support. \n"
	"(perhaps just a missing pcre-devel package ?) \n",
	B->ptr, C->ptr);
	ctx->ok = 0;
	#endif
	break;
	}

	default:
	fprintf(stderr, "unknown condition for $%s[%s]\n",
	B->ptr, C->ptr);
	ctx->ok = 0;
	break;
	}

	configparser_push(ctx, dc, 1);
	}

	buffer_free(b);
	buffer_free(op);
	buffer_free(B);
	B = NULL;
	buffer_free(C);
	C = NULL;
	D->free(D);
	D = NULL;
	}
	cond(A) ::= EQ. {
	A = CONFIG_COND_EQ;
	}
	cond(A) ::= MATCH. {
	A = CONFIG_COND_MATCH;
	}
	cond(A) ::= NE. {
	A = CONFIG_COND_NE;
	}
	cond(A) ::= NOMATCH. {
	A = CONFIG_COND_NOMATCH;
	}

	stringop(A) ::= expression(B). {
	A = NULL;
	if (ctx->ok) {
	if (B->type == TYPE_STRING) {
	A = buffer_init_buffer(((data_string*)B)->value);
	} else if (B->type == TYPE_INTEGER) {
	A = buffer_init();
	buffer_copy_long(A, ((data_integer *)B)->value);
	} else {
	fprintf(stderr, "operand must be string");
	ctx->ok = 0;
	}
	}
	B->free(B);
	B = NULL;
	}

	include ::= INCLUDE stringop(A). {
	if (ctx->ok) {
	if (0 != config_parse_file(ctx->srv, ctx, A->ptr)) {
	ctx->ok = 0;
	}
	buffer_free(A);
	A = NULL;
	}
	}

	include_shell ::= INCLUDE_SHELL stringop(A). {
	if (ctx->ok) {
	if (0 != config_parse_cmd(ctx->srv, ctx, A->ptr)) {
	ctx->ok = 0;
	}
	buffer_free(A);
	A = NULL;
	}
	}