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#include "pg_query.h"
#include "pg_query_internal.h"
#include "parser/gramparse.h"
#include "lib/stringinfo.h"
#include <unistd.h>
#include <fcntl.h>
PgQuerySplitResult pg_query_split_with_scanner(const char* input)
{
MemoryContext ctx = NULL;
PgQuerySplitResult result = {0};
core_yyscan_t yyscanner;
core_yy_extra_type yyextra;
core_YYSTYPE yylval;
YYLTYPE yylloc;
size_t curstmt = 0;
bool keyword_before_terminator = false;
int stmtstart = 0;
bool is_keyword = false;
size_t open_parens = 0;
ctx = pg_query_enter_memory_context();
MemoryContext parse_context = CurrentMemoryContext;
char stderr_buffer[STDERR_BUFFER_LEN + 1] = {0};
#ifndef DEBUG
int stderr_global;
int stderr_pipe[2];
#endif
#ifndef DEBUG
// Setup pipe for stderr redirection
if (pipe(stderr_pipe) != 0) {
PgQueryError* error = malloc(sizeof(PgQueryError));
error->message = strdup("Failed to open pipe, too many open file descriptors")
result.error = error;
return result;
}
fcntl(stderr_pipe[0], F_SETFL, fcntl(stderr_pipe[0], F_GETFL) | O_NONBLOCK);
// Redirect stderr to the pipe
stderr_global = dup(STDERR_FILENO);
dup2(stderr_pipe[1], STDERR_FILENO);
close(stderr_pipe[1]);
#endif
PG_TRY();
{
// Really this is stupid, we only run twice so we can pre-allocate the output array correctly
yyscanner = scanner_init(input, &yyextra, &ScanKeywords, ScanKeywordTokens);
while (true)
{
int tok = core_yylex(&yylval, &yylloc, yyscanner);
switch (tok) {
#define PG_KEYWORD(a,b,c) case b: is_keyword = true; break;
#include "parser/kwlist.h"
default: is_keyword = false;
}
if (is_keyword)
keyword_before_terminator = true;
else if (tok == '(')
open_parens++;
else if (tok == ')')
open_parens--;
else if (keyword_before_terminator && open_parens == 0 && (tok == ';' || tok == 0))
{
result.n_stmts++;
keyword_before_terminator = false;
}
if (tok == 0) break;
}
scanner_finish(yyscanner);
result.stmts = malloc(sizeof(PgQuerySplitStmt *) * result.n_stmts);
// Now actually set the output values
keyword_before_terminator = false;
open_parens = 0;
yyscanner = scanner_init(input, &yyextra, &ScanKeywords, ScanKeywordTokens);
while (true)
{
int tok = core_yylex(&yylval, &yylloc, yyscanner);
switch (tok) {
#define PG_KEYWORD(a,b,c) case b: is_keyword = true; break;
#include "parser/kwlist.h"
default: is_keyword = false;
}
if (is_keyword)
keyword_before_terminator = true;
else if (tok == '(')
open_parens++;
else if (tok == ')')
open_parens--;
else if (keyword_before_terminator && open_parens == 0 && (tok == ';' || tok == 0))
{
// Add statement up to the current position
result.stmts[curstmt] = malloc(sizeof(PgQuerySplitStmt));
result.stmts[curstmt]->stmt_location = stmtstart;
result.stmts[curstmt]->stmt_len = yylloc - stmtstart;
stmtstart = yylloc + 1;
keyword_before_terminator = false;
curstmt++;
}
else if (open_parens == 0 && tok == ';') // Advance statement start in case we skip an empty statement
{
stmtstart = yylloc + 1;
}
if (tok == 0) break;
}
scanner_finish(yyscanner);
#ifndef DEBUG
// Save stderr for result
read(stderr_pipe[0], stderr_buffer, STDERR_BUFFER_LEN);
#endif
result.stderr_buffer = strdup(stderr_buffer);
}
PG_CATCH();
{
ErrorData* error_data;
PgQueryError* error;
MemoryContextSwitchTo(parse_context);
error_data = CopyErrorData();
// Note: This is intentionally malloc so exiting the memory context doesn't free this
error = malloc(sizeof(PgQueryError));
error->message = strdup(error_data->message);
error->filename = strdup(error_data->filename);
error->funcname = strdup(error_data->funcname);
error->context = NULL;
error->lineno = error_data->lineno;
error->cursorpos = error_data->cursorpos;
result.error = error;
FlushErrorState();
}
PG_END_TRY();
#ifndef DEBUG
// Restore stderr, close pipe
dup2(stderr_global, STDERR_FILENO);
close(stderr_pipe[0]);
close(stderr_global);
#endif
pg_query_exit_memory_context(ctx);
return result;
}
PgQuerySplitResult pg_query_split_with_parser(const char* input)
{
MemoryContext ctx = NULL;
PgQueryInternalParsetreeAndError parsetree_and_error;
PgQuerySplitResult result = {};
ctx = pg_query_enter_memory_context();
parsetree_and_error = pg_query_raw_parse(input);
// These are all malloc-ed and will survive exiting the memory context, the caller is responsible to free them now
result.stderr_buffer = parsetree_and_error.stderr_buffer;
result.error = parsetree_and_error.error;
if (parsetree_and_error.tree != NULL)
{
ListCell *lc;
result.n_stmts = list_length(parsetree_and_error.tree);
result.stmts = malloc(sizeof(PgQuerySplitStmt*) * result.n_stmts);
foreach (lc, parsetree_and_error.tree)
{
RawStmt *raw_stmt = castNode(RawStmt, lfirst(lc));
result.stmts[foreach_current_index(lc)] = malloc(sizeof(PgQuerySplitStmt));
result.stmts[foreach_current_index(lc)]->stmt_location = raw_stmt->stmt_location;
if (raw_stmt->stmt_len == 0)
result.stmts[foreach_current_index(lc)]->stmt_len = strlen(input) - raw_stmt->stmt_location;
else
result.stmts[foreach_current_index(lc)]->stmt_len = raw_stmt->stmt_len;
}
}
else
{
result.n_stmts = 0;
result.stmts = NULL;
}
pg_query_exit_memory_context(ctx);
return result;
}
void pg_query_free_split_result(PgQuerySplitResult result)
{
if (result.error) {
pg_query_free_error(result.error);
}
free(result.stderr_buffer);
if (result.stmts != NULL)
{
for (int i = 0; i < result.n_stmts; ++i)
{
free(result.stmts[i]);
}
free(result.stmts);
}
}
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