tor-android/external/badvpn_dns/ncd/NCDConfigParser_parse.y

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2015-01-25 11:08:34 +00:00
/**
* @file NCDConfigParser.y
* @author Ambroz Bizjak <ambrop7@gmail.com>
*
* @section LICENSE
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the author nor the
* names of its contributors may be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
%include {
#include <string.h>
#include <stddef.h>
#include <misc/debug.h>
#include <misc/concat_strings.h>
#include <ncd/NCDAst.h>
struct parser_out {
int out_of_memory;
int syntax_error;
int have_ast;
NCDProgram ast;
};
struct token {
char *str;
size_t len;
};
struct program {
int have;
NCDProgram v;
};
struct block {
int have;
NCDBlock v;
};
struct statement {
int have;
NCDStatement v;
};
struct ifblock {
int have;
NCDIfBlock v;
};
struct value {
int have;
NCDValue v;
};
static void free_token (struct token o) { free(o.str); }
static void free_program (struct program o) { if (o.have) NCDProgram_Free(&o.v); }
static void free_block (struct block o) { if (o.have) NCDBlock_Free(&o.v); }
static void free_statement (struct statement o) { if (o.have) NCDStatement_Free(&o.v); }
static void free_ifblock (struct ifblock o) { if (o.have) NCDIfBlock_Free(&o.v); }
static void free_value (struct value o) { if (o.have) NCDValue_Free(&o.v); }
}
%extra_argument { struct parser_out *parser_out }
%token_type { struct token }
%token_destructor { free_token($$); }
%type processes { struct program }
%type statement { struct statement }
%type elif_maybe { struct ifblock }
%type elif { struct ifblock }
%type else_maybe { struct block }
%type statements { struct block }
%type dotted_name { char * }
%type statement_args_maybe { struct value }
%type list_contents { struct value }
%type list { struct value }
%type map_contents { struct value }
%type map { struct value }
%type value { struct value }
%type name_maybe { char * }
%type process_or_template { int }
// mention parser_out in some destructor to a void unused variable warning
%destructor processes { (void)parser_out; free_program($$); }
%destructor statement { free_statement($$); }
%destructor elif_maybe { free_ifblock($$); }
%destructor elif { free_ifblock($$); }
%destructor else_maybe { free_block($$); }
%destructor statements { free_block($$); }
%destructor dotted_name { free($$); }
%destructor statement_args_maybe { free_value($$); }
%destructor list_contents { free_value($$); }
%destructor list { free_value($$); }
%destructor map_contents { free_value($$); }
%destructor map { free_value($$); }
%destructor value { free_value($$); }
%destructor name_maybe { free($$); }
%stack_size 0
%syntax_error {
parser_out->syntax_error = 1;
}
// workaroud Lemon bug: if the stack overflows, the token that caused the overflow will be leaked
%stack_overflow {
if (yypMinor) {
free_token(yypMinor->yy0);
}
}
input ::= processes(A). {
ASSERT(!parser_out->have_ast)
if (A.have) {
parser_out->have_ast = 1;
parser_out->ast = A.v;
}
}
processes(R) ::= . {
NCDProgram prog;
NCDProgram_Init(&prog);
R.have = 1;
R.v = prog;
}
processes(R) ::= INCLUDE STRING(A) processes(N). {
ASSERT(A.str)
if (!N.have) {
goto failA0;
}
NCDProgramElem elem;
if (!NCDProgramElem_InitInclude(&elem, A.str, A.len)) {
goto failA0;
}
if (!NCDProgram_PrependElem(&N.v, elem)) {
goto failA1;
}
R.have = 1;
R.v = N.v;
N.have = 0;
goto doneA;
failA1:
NCDProgramElem_Free(&elem);
failA0:
R.have = 0;
parser_out->out_of_memory = 1;
doneA:
free_token(A);
free_program(N);
}
processes(R) ::= INCLUDE_GUARD STRING(A) processes(N). {
ASSERT(A.str)
if (!N.have) {
goto failZ0;
}
NCDProgramElem elem;
if (!NCDProgramElem_InitIncludeGuard(&elem, A.str, A.len)) {
goto failZ0;
}
if (!NCDProgram_PrependElem(&N.v, elem)) {
goto failZ1;
}
R.have = 1;
R.v = N.v;
N.have = 0;
goto doneZ;
failZ1:
NCDProgramElem_Free(&elem);
failZ0:
R.have = 0;
parser_out->out_of_memory = 1;
doneZ:
free_token(A);
free_program(N);
}
processes(R) ::= process_or_template(T) NAME(A) CURLY_OPEN statements(B) CURLY_CLOSE processes(N). {
ASSERT(A.str)
if (!B.have || !N.have) {
goto failB0;
}
NCDProcess proc;
if (!NCDProcess_Init(&proc, T, A.str, B.v)) {
goto failB0;
}
B.have = 0;
NCDProgramElem elem;
NCDProgramElem_InitProcess(&elem, proc);
if (!NCDProgram_PrependElem(&N.v, elem)) {
goto failB1;
}
R.have = 1;
R.v = N.v;
N.have = 0;
goto doneB;
failB1:
NCDProgramElem_Free(&elem);
failB0:
R.have = 0;
parser_out->out_of_memory = 1;
doneB:
free_token(A);
free_block(B);
free_program(N);
}
statement(R) ::= dotted_name(A) ROUND_OPEN statement_args_maybe(B) ROUND_CLOSE name_maybe(C) SEMICOLON. {
if (!A || !B.have) {
goto failC0;
}
if (!NCDStatement_InitReg(&R.v, C, NULL, A, B.v)) {
goto failC0;
}
B.have = 0;
R.have = 1;
goto doneC;
failC0:
R.have = 0;
parser_out->out_of_memory = 1;
doneC:
free(A);
free_value(B);
free(C);
}
statement(R) ::= dotted_name(M) ARROW dotted_name(A) ROUND_OPEN statement_args_maybe(B) ROUND_CLOSE name_maybe(C) SEMICOLON. {
if (!M || !A || !B.have) {
goto failD0;
}
if (!NCDStatement_InitReg(&R.v, C, M, A, B.v)) {
goto failD0;
}
B.have = 0;
R.have = 1;
goto doneD;
failD0:
R.have = 0;
parser_out->out_of_memory = 1;
doneD:
free(M);
free(A);
free_value(B);
free(C);
}
statement(R) ::= IF ROUND_OPEN value(A) ROUND_CLOSE CURLY_OPEN statements(B) CURLY_CLOSE elif_maybe(I) else_maybe(E) name_maybe(C) SEMICOLON. {
if (!A.have || !B.have || !I.have) {
goto failE0;
}
NCDIf ifc;
NCDIf_Init(&ifc, A.v, B.v);
A.have = 0;
B.have = 0;
if (!NCDIfBlock_PrependIf(&I.v, ifc)) {
NCDIf_Free(&ifc);
goto failE0;
}
if (!NCDStatement_InitIf(&R.v, C, I.v)) {
goto failE0;
}
I.have = 0;
if (E.have) {
NCDStatement_IfAddElse(&R.v, E.v);
E.have = 0;
}
R.have = 1;
goto doneE;
failE0:
R.have = 0;
parser_out->out_of_memory = 1;
doneE:
free_value(A);
free_block(B);
free_ifblock(I);
free_block(E);
free(C);
}
statement(R) ::= FOREACH ROUND_OPEN value(A) AS NAME(B) ROUND_CLOSE CURLY_OPEN statements(S) CURLY_CLOSE name_maybe(N) SEMICOLON. {
if (!A.have || !B.str || !S.have) {
goto failEA0;
}
if (!NCDStatement_InitForeach(&R.v, N, A.v, B.str, NULL, S.v)) {
goto failEA0;
}
A.have = 0;
S.have = 0;
R.have = 1;
goto doneEA0;
failEA0:
R.have = 0;
parser_out->out_of_memory = 1;
doneEA0:
free_value(A);
free_token(B);
free_block(S);
free(N);
}
statement(R) ::= FOREACH ROUND_OPEN value(A) AS NAME(B) COLON NAME(C) ROUND_CLOSE CURLY_OPEN statements(S) CURLY_CLOSE name_maybe(N) SEMICOLON. {
if (!A.have || !B.str || !C.str || !S.have) {
goto failEB0;
}
if (!NCDStatement_InitForeach(&R.v, N, A.v, B.str, C.str, S.v)) {
goto failEB0;
}
A.have = 0;
S.have = 0;
R.have = 1;
goto doneEB0;
failEB0:
R.have = 0;
parser_out->out_of_memory = 1;
doneEB0:
free_value(A);
free_token(B);
free_token(C);
free_block(S);
free(N);
}
elif_maybe(R) ::= . {
NCDIfBlock_Init(&R.v);
R.have = 1;
}
elif_maybe(R) ::= elif(A). {
R = A;
}
elif(R) ::= ELIF ROUND_OPEN value(A) ROUND_CLOSE CURLY_OPEN statements(B) CURLY_CLOSE. {
if (!A.have || !B.have) {
goto failF0;
}
NCDIfBlock_Init(&R.v);
NCDIf ifc;
NCDIf_Init(&ifc, A.v, B.v);
A.have = 0;
B.have = 0;
if (!NCDIfBlock_PrependIf(&R.v, ifc)) {
goto failF1;
}
R.have = 1;
goto doneF0;
failF1:
NCDIf_Free(&ifc);
NCDIfBlock_Free(&R.v);
failF0:
R.have = 0;
parser_out->out_of_memory = 1;
doneF0:
free_value(A);
free_block(B);
}
elif(R) ::= ELIF ROUND_OPEN value(A) ROUND_CLOSE CURLY_OPEN statements(B) CURLY_CLOSE elif(N). {
if (!A.have || !B.have || !N.have) {
goto failG0;
}
NCDIf ifc;
NCDIf_Init(&ifc, A.v, B.v);
A.have = 0;
B.have = 0;
if (!NCDIfBlock_PrependIf(&N.v, ifc)) {
goto failG1;
}
R.have = 1;
R.v = N.v;
N.have = 0;
goto doneG0;
failG1:
NCDIf_Free(&ifc);
failG0:
R.have = 0;
parser_out->out_of_memory = 1;
doneG0:
free_value(A);
free_block(B);
free_ifblock(N);
}
else_maybe(R) ::= . {
R.have = 0;
}
else_maybe(R) ::= ELSE CURLY_OPEN statements(B) CURLY_CLOSE. {
R = B;
}
statements(R) ::= statement(A). {
if (!A.have) {
goto failH0;
}
NCDBlock_Init(&R.v);
if (!NCDBlock_PrependStatement(&R.v, A.v)) {
goto failH1;
}
A.have = 0;
R.have = 1;
goto doneH;
failH1:
NCDBlock_Free(&R.v);
failH0:
R.have = 0;
parser_out->out_of_memory = 1;
doneH:
free_statement(A);
}
statements(R) ::= statement(A) statements(N). {
if (!A.have || !N.have) {
goto failI0;
}
if (!NCDBlock_PrependStatement(&N.v, A.v)) {
goto failI1;
}
A.have = 0;
R.have = 1;
R.v = N.v;
N.have = 0;
goto doneI;
failI1:
NCDBlock_Free(&R.v);
failI0:
R.have = 0;
parser_out->out_of_memory = 1;
doneI:
free_statement(A);
free_block(N);
}
dotted_name(R) ::= NAME(A). {
ASSERT(A.str)
R = A.str;
}
dotted_name(R) ::= NAME(A) DOT dotted_name(N). {
ASSERT(A.str)
if (!N) {
goto failJ0;
}
if (!(R = concat_strings(3, A.str, ".", N))) {
goto failJ0;
}
goto doneJ;
failJ0:
R = NULL;
parser_out->out_of_memory = 1;
doneJ:
free_token(A);
free(N);
}
statement_args_maybe(R) ::= . {
R.have = 1;
NCDValue_InitList(&R.v);
}
statement_args_maybe(R) ::= list_contents(A). {
R = A;
}
list_contents(R) ::= value(A). {
if (!A.have) {
goto failL0;
}
NCDValue_InitList(&R.v);
if (!NCDValue_ListPrepend(&R.v, A.v)) {
goto failL1;
}
A.have = 0;
R.have = 1;
goto doneL;
failL1:
NCDValue_Free(&R.v);
failL0:
R.have = 0;
parser_out->out_of_memory = 1;
doneL:
free_value(A);
}
list_contents(R) ::= value(A) COMMA list_contents(N). {
if (!A.have || !N.have) {
goto failM0;
}
if (!NCDValue_ListPrepend(&N.v, A.v)) {
goto failM0;
}
A.have = 0;
R.have = 1;
R.v = N.v;
N.have = 0;
goto doneM;
failM0:
R.have = 0;
parser_out->out_of_memory = 1;
doneM:
free_value(A);
free_value(N);
}
list(R) ::= CURLY_OPEN CURLY_CLOSE. {
R.have = 1;
NCDValue_InitList(&R.v);
}
list(R) ::= CURLY_OPEN list_contents(A) CURLY_CLOSE. {
R = A;
}
map_contents(R) ::= value(A) COLON value(B). {
if (!A.have || !B.have) {
goto failS0;
}
NCDValue_InitMap(&R.v);
if (!NCDValue_MapPrepend(&R.v, A.v, B.v)) {
goto failS1;
}
A.have = 0;
B.have = 0;
R.have = 1;
goto doneS;
failS1:
NCDValue_Free(&R.v);
failS0:
R.have = 0;
parser_out->out_of_memory = 1;
doneS:
free_value(A);
free_value(B);
}
map_contents(R) ::= value(A) COLON value(B) COMMA map_contents(N). {
if (!A.have || !B.have || !N.have) {
goto failT0;
}
if (!NCDValue_MapPrepend(&N.v, A.v, B.v)) {
goto failT0;
}
A.have = 0;
B.have = 0;
R.have = 1;
R.v = N.v;
N.have = 0;
goto doneT;
failT0:
R.have = 0;
parser_out->out_of_memory = 1;
doneT:
free_value(A);
free_value(B);
free_value(N);
}
map(R) ::= BRACKET_OPEN BRACKET_CLOSE. {
R.have = 1;
NCDValue_InitMap(&R.v);
}
map(R) ::= BRACKET_OPEN map_contents(A) BRACKET_CLOSE. {
R = A;
}
value(R) ::= STRING(A). {
ASSERT(A.str)
if (!NCDValue_InitStringBin(&R.v, (uint8_t *)A.str, A.len)) {
goto failU0;
}
R.have = 1;
goto doneU;
failU0:
R.have = 0;
parser_out->out_of_memory = 1;
doneU:
free_token(A);
}
value(R) ::= dotted_name(A). {
if (!A) {
goto failV0;
}
if (!NCDValue_InitVar(&R.v, A)) {
goto failV0;
}
R.have = 1;
goto doneV;
failV0:
R.have = 0;
parser_out->out_of_memory = 1;
doneV:
free(A);
}
value(R) ::= list(A). {
R = A;
}
value(R) ::= map(A). {
R = A;
}
name_maybe(R) ::= . {
R = NULL;
}
name_maybe(R) ::= NAME(A). {
ASSERT(A.str)
R = A.str;
}
process_or_template(R) ::= PROCESS. {
R = 0;
}
process_or_template(R) ::= TEMPLATE. {
R = 1;
}