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/*------------------------------------------------------------------------- * * psqlscan_int.h * lexical scanner internal declarations * * This file declares the PsqlScanStateData structure used by psqlscan.l * and shared by other lexers compatible with it, such as psqlscanslash.l. * * One difficult aspect of this code is that we need to work in multibyte * encodings that are not ASCII-safe. A "safe" encoding is one in which each * byte of a multibyte character has the high bit set (it's >= 0x80). Since * all our lexing rules treat all high-bit-set characters alike, we don't * really need to care whether such a byte is part of a sequence or not. * In an "unsafe" encoding, we still expect the first byte of a multibyte * sequence to be >= 0x80, but later bytes might not be. If we scan such * a sequence as-is, the lexing rules could easily be fooled into matching * such bytes to ordinary ASCII characters. Our solution for this is to * substitute 0xFF for each non-first byte within the data presented to flex. * The flex rules will then pass the FF's through unmolested. The * psqlscan_emit() subroutine is responsible for looking back to the original * string and replacing FF's with the corresponding original bytes. * * Another interesting thing we do here is scan different parts of the same * input with physically separate flex lexers (ie, lexers written in separate * .l files). We can get away with this because the only part of the * persistent state of a flex lexer that depends on its parsing rule tables * is the start state number, which is easy enough to manage --- usually, * in fact, we just need to set it to INITIAL when changing lexers. But to * make that work at all, we must use re-entrant lexers, so that all the * relevant state is in the yyscanner_t attached to the PsqlScanState; * if we were using lexers with separate static state we would soon end up * with dangling buffer pointers in one or the other. Also note that this * is unlikely to work very nicely if the lexers aren't all built with the * same flex version, or if they don't use the same flex options. * * * Portions Copyright (c) 1996-2016, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * src/include/fe_utils/psqlscan_int.h * *------------------------------------------------------------------------- */ #ifndef PSQLSCAN_INT_H #define PSQLSCAN_INT_H #include "fe_utils/psqlscan.h" /* * These are just to allow this file to be compilable standalone for header * validity checking; in actual use, this file should always be included * from the body of a flex file, where these symbols are already defined. */ #ifndef YY_TYPEDEF_YY_BUFFER_STATE #define YY_TYPEDEF_YY_BUFFER_STATE typedef struct yy_buffer_state *YY_BUFFER_STATE; #endif #ifndef YY_TYPEDEF_YY_SCANNER_T #define YY_TYPEDEF_YY_SCANNER_T typedef void *yyscan_t; #endif /* * We use a stack of flex buffers to handle substitution of psql variables. * Each stacked buffer contains the as-yet-unread text from one psql variable. * When we pop the stack all the way, we resume reading from the outer buffer * identified by scanbufhandle. */ typedef struct StackElem { YY_BUFFER_STATE buf; /* flex input control structure */ char *bufstring; /* data actually being scanned by flex */ char *origstring; /* copy of original data, if needed */ char *varname; /* name of variable providing data, or NULL */ struct StackElem *next; } StackElem; /* * All working state of the lexer must be stored in PsqlScanStateData * between calls. This allows us to have multiple open lexer operations, * which is needed for nested include files. The lexer itself is not * recursive, but it must be re-entrant. */ typedef struct PsqlScanStateData { yyscan_t scanner; /* Flex's state for this PsqlScanState */ PQExpBuffer output_buf; /* current output buffer */ StackElem *buffer_stack; /* stack of variable expansion buffers */ /* * These variables always refer to the outer buffer, never to any stacked * variable-expansion buffer. */ YY_BUFFER_STATE scanbufhandle; char *scanbuf; /* start of outer-level input buffer */ const char *scanline; /* current input line at outer level */ /* safe_encoding, curline, refline are used by emit() to replace FFs */ int encoding; /* encoding being used now */ bool safe_encoding; /* is current encoding "safe"? */ bool std_strings; /* are string literals standard? */ const char *curline; /* actual flex input string for cur buf */ const char *refline; /* original data for cur buffer */ /* * All this state lives across successive input lines, until explicitly * reset by psql_scan_reset. start_state is adopted by yylex() on entry, * and updated with its finishing state on exit. */ int start_state; /* yylex's starting/finishing state */ int paren_depth; /* depth of nesting in parentheses */ int xcdepth; /* depth of nesting in slash-star comments */ char *dolqstart; /* current $foo$ quote start string */ /* * Callback functions provided by the program making use of the lexer. */ const PsqlScanCallbacks *callbacks; } PsqlScanStateData; /* * Functions exported by psqlscan.l, but only meant for use within * compatible lexers. */ extern void psqlscan_push_new_buffer(PsqlScanState state, const char *newstr, const char *varname); extern void psqlscan_pop_buffer_stack(PsqlScanState state); extern void psqlscan_select_top_buffer(PsqlScanState state); extern bool psqlscan_var_is_current_source(PsqlScanState state, const char *varname); extern YY_BUFFER_STATE psqlscan_prepare_buffer(PsqlScanState state, const char *txt, int len, char **txtcopy); extern void psqlscan_emit(PsqlScanState state, const char *txt, int len); extern char *psqlscan_extract_substring(PsqlScanState state, const char *txt, int len); extern void psqlscan_escape_variable(PsqlScanState state, const char *txt, int len, bool as_ident); #endif /* PSQLSCAN_INT_H */