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firebird-mirror/src/isql/isql.epp

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/*
* PROGRAM: Interactive SQL utility
* MODULE: isql.epp
* DESCRIPTION: Main line routine
*
* The contents of this file are subject to the Interbase Public
* License Version 1.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy
* of the License at http://www.Inprise.com/IPL.html
*
* Software distributed under the License is distributed on an
* "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express
* or implied. See the License for the specific language governing
* rights and limitations under the License.
*
* The Original Code was created by Inprise Corporation
* and its predecessors. Portions created by Inprise Corporation are
* Copyright (C) Inprise Corporation.
*
* All Rights Reserved.
* Contributor(s): ______________________________________.
*
Revision 1.5 2000/11/18 16:49:24 fsg
Increased PRINT_BUFFER_LENGTH to 2048 to show larger plans
Fixed Bug #122563 in extract.e get_procedure_args
Apparently this has to be done in show.e also,
but that is for another day :-)
2001/05/20 Neil McCalden add planonly option
2001.09.09 Claudio Valderrama: put double quotes around identifiers
in dialect 3 only when needed. Solve mischievous declaration/invocation
of ISQL_copy_SQL_id that made no sense and caused pointer problems.
2001/10/03 Neil McCalden pick up Firebird version from database server
and display it with client version when -z used.
2001.10.09 Claudio Valderrama: try to disconnect gracefully in batch mode.
2001.11.23 Claudio Valderrama: skip any number of -- comments but only at
the beginning and ignore void statements like block comments followed by
a semicolon.
2002-02-24 Sean Leyne - Code Cleanup of old Win 3.1 port (WINDOWS_ONLY)
2003-08-15 Fred Polizo, Jr. - Fixed print_item() to correctly print
string types as their hex represention for CHARACTER SET OCTETS.
2004-11-16 Damyan Ivanov - bail out on error in non-interactive mode.
*/
#ifdef DARWIN
#define _STLP_CCTYPE
#endif
#include "firebird.h"
#include <stdio.h>
#include "../dsql/keywords.h"
#include "../jrd/gds_proto.h"
#include <iostream>
#include <stdlib.h>
#include <string.h>
#include <signal.h>
#include <math.h>
#include <ctype.h>
#include <errno.h>
#include "../common/utils_proto.h"
#include "../common/classes/ClumpletWriter.h"
#ifdef HAVE_UNISTD_H
#include <unistd.h>
#endif
#ifdef HAVE_SIGNAL_H
#include <signal.h>
#endif
#ifdef WIN_NT
#include <io.h> // mktemp
#endif
#ifdef HAVE_EDITLINE_H
// This is a local file included in our distribution - but not always
// compiled into the system
#include "editline.h"
#endif
//#include <string>
enum literal_string_type
{
INIT_STR_FLAG = 0,
SINGLE_QUOTED_STRING = 1,
DOUBLE_QUOTED_STRING = 2,
NO_MORE_STRING = 3,
INCOMPLETE_STRING = 4
};
#include "../jrd/jrd_time.h"
#include "../jrd/common.h"
#if defined(WIN_NT)
#include <windows.h>
#endif
#include "../jrd/ibase.h"
#include "../isql/isql.h"
#include "../jrd/perf.h"
#include "../jrd/license.h"
#include "../jrd/constants.h"
#include "../jrd/ods.h"
#include "../jrd/file_params.h"
#include "../common/stuff.h"
#include "../isql/extra_proto.h"
#include "../isql/isql_proto.h"
#include "../isql/show_proto.h"
#include "../jrd/perf_proto.h"
#include "../jrd/utl_proto.h"
#include "../jrd/gdsassert.h"
DATABASE DB = COMPILETIME "yachts.lnk";
IsqlGlobals isqlGlob;
#define DIGIT(c) ((c) >= '0' && (c) <= '9')
#define INT64_LIMIT ((((SINT64) 1) << 62) / 5) // same as in cvt.cpp
// Print lengths of numeric values
const size_t MAXCHARSET_SIZE = 32; // CHARSET names
const int SHORT_LEN = 7; // NUMERIC (4,2) = -327.68
const int LONG_LEN = 12; // NUMERIC (9,2) = -21474836.48
const int INT64_LEN = 21; // NUMERIC(18,2) = -92233720368547758.08
const int QUAD_LEN = 19;
const int FLOAT_LEN = 14; // -1.2345678E+38
const int DOUBLE_LEN = 23; // -1.234567890123456E+300
const int DATE_LEN = 11; // 11 for date only
const int DATETIME_LEN = 25; // 25 for date-time
const int TIME_ONLY_LEN = 13; // 13 for time only
const int DATE_ONLY_LEN = 11;
const int UNKNOWN_LEN = 20; // Unknown type: %d
const int MAX_TERMS = 10; // max # of terms in an interactive cmd
static inline bool commit_trans(isc_tr_handle* x)
{
if (isc_commit_transaction (isc_status, x)) {
ISQL_errmsg (isc_status);
isc_rollback_transaction (isc_status, x);
return false;
}
return true;
}
static inline int fb_isspace(const char c)
{
return isspace((int)(UCHAR)c);
}
static inline int fb_isspace(const SSHORT c)
{
return isspace((int)(UCHAR)c);
}
struct indev {
indev* indev_next;
FILE* indev_fpointer;
int indev_line;
int indev_aux;
char indev_fn[MAXPATHLEN];
void init(FILE* fp, const char* fn)
{
indev_fpointer = fp;
indev_line = 0;
indev_aux = 0;
strncpy(indev_fn, fn, sizeof(indev_fn));
indev_fn[sizeof(indev_fn) - 1] = 0;
}
void copy_from(const indev* src)
{
indev_fpointer = src->indev_fpointer;
indev_line = src->indev_line;
indev_aux = src->indev_aux;
strcpy(indev_fn, src->indev_fn);
}
private:
indev& operator=(const void*); // prevent surprises.
};
struct collist {
collist* collist_next;
TEXT col_name[WORDLENGTH];
SSHORT col_len;
};
struct ri_actions {
const SCHAR* ri_action_name;
const SCHAR* ri_action_print_caps;
const SCHAR* ri_action_print_mixed;
};
static processing_state add_row(TEXT*);
static processing_state blobedit(const TEXT*, const TEXT* const*);
static bool check_date(const tm& times);
static bool check_time(const tm& times);
static bool check_timestamp(const tm& times, const int msec);
static size_t chop_at(char target[], const size_t size);
static void col_check(const TEXT*, SSHORT*);
static void copy_str(TEXT**, const TEXT**, bool*, const TEXT* const,
const TEXT* const, literal_string_type);
static processing_state copy_table(TEXT*, TEXT*, TEXT*);
static processing_state create_db(const TEXT*, TEXT*);
static void do_isql();
static processing_state drop_db();
static processing_state edit(const TEXT* const*);
static processing_state end_trans();
static processing_state escape(const TEXT*);
static processing_state frontend(const TEXT*);
static processing_state frontend_set(const char* cmd, const char* const* parms,
const char* const* lparms, char* const bad_dialect_buf, bool& bad_dialect);
static void frontend_free_parms(TEXT*[], TEXT*[]);
static processing_state get_dialect(const char* const dialect_str,
char* const bad_dialect_buf, bool& bad_dialect);
static processing_state get_statement(TEXT* const, const size_t, const TEXT*);
static bool get_numeric(const UCHAR*, USHORT, SSHORT*, SINT64*);
static void get_str(const TEXT* const, const TEXT**, const TEXT**,
literal_string_type*);
static processing_state print_sets();
static processing_state help(const TEXT*);
static processing_state input(const TEXT*);
static bool isyesno(const TEXT*);
static processing_state newdb(TEXT*, const TEXT*, const TEXT*, const TEXT*, const TEXT*, bool);
static processing_state newoutput(const TEXT*);
static processing_state newsize(const TEXT*, const TEXT*);
static processing_state newtrans(const TEXT*);
static processing_state parse_arg(int, SCHAR**, SCHAR*, FILE**);
static SSHORT print_item(TEXT**, XSQLVAR*, SLONG);
static processing_state print_item_blob(FILE*, const XSQLVAR*, FB_API_HANDLE);
static void print_item_numeric(SINT64, SSHORT, SSHORT, TEXT*);
static processing_state print_line(XSQLDA*, const SLONG*, TEXT line[]);
static void print_performance(perf* perf_before);
static processing_state print_sqlda_input(const bool is_selectable);
static void print_sqlda_output(const XSQLDA& sqlda);
static void process_header(const XSQLDA* sqlda, const SLONG pad[], TEXT header[], TEXT header2[]);
static void process_plan();
static SLONG process_record_count(const SSHORT statement_type);
static SSHORT process_request_type();
static SLONG* process_sqlda_buffer(XSQLDA* const sqlda, SSHORT nullind[]);
static SLONG process_sqlda_display(XSQLDA* const sqlda, SLONG buffer[], SLONG pad[]);
static int process_statement(const TEXT*, XSQLDA**);
static void CLIB_ROUTINE query_abort(int);
static void strip_quotes(const TEXT*, TEXT*);
static processing_state do_set_command(const TEXT*, bool*);
//#ifdef DEV_BUILD
static const char* sqltype_to_string(USHORT);
//#endif
XSQLDA* global_sqlda;
XSQLDA** global_sqldap;
// The dialect spoken by the database, should be 0 when no database is connected.
USHORT global_dialect_spoken = 0;
USHORT requested_SQL_dialect = SQL_DIALECT_V6;
bool connecting_to_pre_v6_server = false;
bool Quiet;
bool Version_info = false;
#if defined (WIN95)
bool fAnsiCP;
#endif
// Utility transaction handle
static isc_tr_handle D__trans;
static isc_tr_handle M__trans;
static SCHAR global_Numbufs[16]; /* # of cache buffers on connect */
static isc_stmt_handle global_Stmt;
static FILE* Ofp;
//static FILE* Ifp;
static indev Ifp;
static SCHAR Password[128];
static SCHAR Charset[128];
static bool Merge_stderr;
//static USHORT minor_ods; CVC: We do nothing useful with it!
static collist* global_Cols = NULL;
static indev* Filelist;
static TEXT Tmpfile[MAXPATHLEN];
static bool Abort_flag = false;
static bool Echo = false;
static bool Time_display = false;
static bool Sqlda_display = false;
static int Exit_value;
static bool Interactive = true;
static bool Input_file = false;
static SSHORT Pagelength = 20;
static bool Stats = false;
static bool Autocommit = true; // Commit ddl
static bool Warnings = true; // Print warnings
#ifdef SCROLLABLE_CURSORS
static bool Autofetch = true; // automatically fetch all records
static USHORT fetch_direction = 0;
static SLONG fetch_offset = 1;
#endif
static SSHORT Doblob = 1; // Default to printing only text types
static bool List = false;
static bool Docount = false;
static bool Plan = false;
static bool Planonly = false;
static bool Heading = true;
static bool BailOnError = false;
static int Termlen = 0;
static SCHAR ISQL_charset[MAXCHARSET_SIZE] = { 0 };
static bool Merge_diagnostic = false;
static FILE* Diag;
static FILE* Help;
static const TEXT* const sql_prompt = "SQL> ";
#ifdef SCROLLABLE_CURSORS
static const TEXT* const fetch_prompt = "FETCH> ";
#endif
static bool global_psw = false;
static bool global_usr = false;
static bool global_role = false;
static bool has_global_numbufs = false;
static bool have_trans = false; // translation of word "Yes"
static TEXT yesword[BUFFER_LENGTH128];
static TEXT Print_buffer[PRINT_BUFFER_LENGTH];
// Didn't replace it by FB_SHORT_MONTHS because these are uppercased.
static const SCHAR* alpha_months[] = {
"JAN",
"FEB",
"MAR",
"APR",
"MAY",
"JUN",
"JUL",
"AUG",
"SEP",
"OCT",
"NOV",
"DEC"
};
#ifdef NOT_USED_OR_REPLACED
// There's a local version of this, more complete, in ISQL_get_version()
static const UCHAR db_version_info[] =
{
isc_info_ods_version,
isc_info_ods_minor_version,
isc_info_db_sql_dialect
};
#endif
#ifdef NOT_USED_OR_REPLACED
static const UCHAR text_bpb[] =
{
isc_bpb_version1,
isc_bpb_source_type, 1, isc_blob_text,
isc_bpb_target_type, 1, isc_blob_text
};
#endif
static UCHAR predefined_blob_subtype_bpb[] =
{
isc_bpb_version1,
isc_bpb_source_type, 1, 0,
isc_bpb_target_type, 1, isc_blob_text
};
// No check on input argument for now.
inline void set_bpb_for_translation(const unsigned int blob_sub_type)
{
predefined_blob_subtype_bpb[3] = (UCHAR) blob_sub_type;
}
// Note that these transaction options aren't understood in Version 3.3
static const UCHAR default_tpb[] =
{
isc_tpb_version1, isc_tpb_write,
isc_tpb_read_committed, isc_tpb_wait,
isc_tpb_no_rec_version
};
#ifdef NOT_USED_OR_REPLACED
// CVC: Just in case we need it for R/O operations in the future.
static const UCHAR batch_tpb[] =
{
isc_tpb_version3, isc_tpb_read,
isc_tpb_read_committed, isc_tpb_nowait,
isc_tpb_rec_version
};
#endif
// If the action is restrict, do not print anything at all
static const ri_actions ri_actions_all[] =
{
{RI_ACTION_CASCADE, RI_ACTION_CASCADE, "Cascade"},
{RI_ACTION_NULL, RI_ACTION_NULL, "Set Null"},
{RI_ACTION_DEFAULT, RI_ACTION_DEFAULT, "Set Default"},
{RI_ACTION_NONE, RI_ACTION_NONE, "No Action"},
{RI_RESTRICT, "", ""},
{"", "", ""},
{0, 0, 0}
};
// We statically link ISQL against CLIB in MSVC6 and
// hence we've got problems sharing file handles with FBCLIENT.
// Since temp files are deleted by ISQL, let's create them here as well.
#if defined(_MSC_VER) && (_MSC_VER <= 1200)
static FILE* create_temp_file(const TEXT* string, TEXT* expanded_string)
{
gds__temp_dir(expanded_string);
strcat(expanded_string, string);
strcat(expanded_string, TEMP_PATTERN);
mktemp(expanded_string);
return fopen(expanded_string, "w+b");
}
#define gds__temp_file(flag, string, expanded_string) create_temp_file(string, expanded_string)
#endif
int CLIB_ROUTINE main(int argc,
char* argv[])
{
/**************************************
*
* m a i n
*
**************************************
*
* Functional description
* This calls ISQL_main, and exists to
* isolate main which does not exist under
* MS Windows.
*
**************************************/
#if defined (WIN95)
{
const ULONG ulConsoleCP = GetConsoleCP();
if (ulConsoleCP == GetACP())
fAnsiCP = true;
else {
fAnsiCP = false;
if (ulConsoleCP != GetOEMCP() && Warnings) {
ISQL_printf(isqlGlob.Out,
"WARNING: The current codepage is not supported. Any use of any\n"
" extended characters may result in incorrect file names.\n");
}
}
}
#endif
// Initialize globals
isqlGlob.major_ods = 0;
//minor_ods = 0;
return ISQL_main(argc, argv);
}
int ISQL_main(int argc,
char* argv[])
{
/**************************************
*
* I S Q L _ m a i n
*
**************************************
*
* Functional description
* Choose between reading and executing or generating SQL
* ISQL_main isolates this from main for PC Clients.
*
**************************************/
#ifdef MU_ISQL
/*
** This is code for QA Test bed Multiuser environment.
**
** Setup multi-user test environment.
*/
if (qa_mu_environment()) {
/*
** Initialize multi-user test manager only if in that
** environment.
*/
if (!qa_mu_init(argc, argv, 1)) {
/*
** Some problem in initializing multi-user test
** environment.
*/
qa_mu_cleanup();
exit(1);
}
else {
/*
** When invoked by MU, additional command-line argument
** was added at tail. ISQL is not interested in it so
** remove it.
*/
argv[argc - 1] = NULL;
argc--;
}
}
#endif // MU_ISQL
TEXT tabname[WORDLENGTH];
tabname[0] = '\0';
isqlGlob.db_SQL_dialect = 0;
// Output goes to stdout by default
isqlGlob.Out = stdout;
isqlGlob.Errfp = stderr;
processing_state ret = parse_arg(argc, argv, tabname, NULL);
// Detect if stdin is redirected
#ifdef WIN_NT
HANDLE in = GetStdHandle(STD_INPUT_HANDLE);
if (GetFileType(in) == FILE_TYPE_DISK)
Interactive = false;
#else
if (!isatty(fileno(stdin)))
Interactive = false;
#endif
// Init the diagnostics and help files
if (Merge_diagnostic)
Diag = isqlGlob.Out;
else
Diag = stdout;
Help = stdout;
if (Merge_stderr)
isqlGlob.Errfp = isqlGlob.Out;
ISQL_make_upper(tabname);
switch (ret) {
case EXTRACT:
if (*isqlGlob.global_Db_name) {
// Let's use user and password if provided.
// This should solve bug #112263 FSG 28.Jan.2001
if (newdb(isqlGlob.global_Db_name, isqlGlob.User, Password, global_Numbufs,
isqlGlob.Role, false) == SKIP)
{
Exit_value = EXTRACT_ddl(SQL_objects, tabname);
ISQL_disconnect_database(true);
// isc_detach_database(isc_status, &DB);
}
else
Exit_value = FINI_ERROR;
}
break;
case EXTRACTALL:
if (*isqlGlob.global_Db_name) {
Interactive = false;
// Let's use user and password if provided.
// This should solve bug #112263 FSG 28.Jan.2001
if (newdb(isqlGlob.global_Db_name, isqlGlob.User, Password, global_Numbufs,
isqlGlob.Role, false) == SKIP)
{
Exit_value = EXTRACT_ddl(ALL_objects, tabname);
ISQL_disconnect_database (true);
//isc_detach_database(isc_status, &DB);
}
else
Exit_value = FINI_ERROR;
}
break;
case ps_ERR:
{
TEXT helpstring[155];
ISQL_msg_get(USAGE1, sizeof(helpstring), helpstring, NULL);
STDERROUT(helpstring);
ISQL_msg_get(USAGE2, sizeof(helpstring), helpstring, NULL);
STDERROUT(helpstring);
ISQL_msg_get(USAGE3, sizeof(helpstring), helpstring, NULL);
STDERROUT(helpstring);
ISQL_msg_get(USAGE4, sizeof(helpstring), helpstring, NULL);
STDERROUT(helpstring);
Exit_value = FINI_ERROR;
break;
}
default:
do_isql();
// keep Exit_value to whatever it is set
// by do_isql()
// Exit_value = FINI_OK;
break;
}
#ifdef MU_ISQL
/*
** This is code for QA Test bed Multiuser environment.
**
** Do multi-user cleanup if running in multi-user domain.
** qa_mu_cleanup() is NOP in non-multi-user domain.
*/
qa_mu_cleanup();
#endif // MU_ISQL
#ifdef DEBUG_GDS_ALLOC
/* As ISQL can run under windows, all memory should be freed before
* returning. In debug mode this call will report unfreed blocks.
*/
//gds_alloc_report(0, __FILE__, __LINE__);
char fn[] = __FILE__;
fn[strlen(fn) - 8] = 0; // all isql files in gen dir
gds_alloc_report(0, fn, 0);
#endif
return Exit_value;
}
void ISQL_array_dimensions(const TEXT* fieldname)
{
/**************************************
*
* I S Q L _ a r r a y _ d i m e n s i o n s
*
**************************************
*
* Functional description
* Retrieves the dimensions of arrays and prints them.
*
* Parameters: fieldname -- the actual name of the array field
*
**************************************/
ISQL_printf(isqlGlob.Out, "[");
// Transaction for all frontend commands
if (DB && !gds_trans)
if (isc_start_transaction(isc_status, &gds_trans, 1, &DB, 0, NULL)) {
ISQL_errmsg(isc_status);
return;
}
FOR FDIM IN RDB$FIELD_DIMENSIONS WITH
FDIM.RDB$FIELD_NAME EQ fieldname
SORTED BY FDIM.RDB$DIMENSION
// Format is [lower:upper, lower:upper,..]
// When lower == 1 no need to print a range. Done.
// When upper == 1 no need to print a range either, but it's confusing. Not done.
if (FDIM.RDB$DIMENSION > 0) {
ISQL_printf (isqlGlob.Out, ", ");
}
if (FDIM.RDB$LOWER_BOUND == 1)
sprintf (Print_buffer, "%ld", FDIM.RDB$UPPER_BOUND);
else
sprintf (Print_buffer, "%ld:%ld", FDIM.RDB$LOWER_BOUND, FDIM.RDB$UPPER_BOUND);
ISQL_printf (isqlGlob.Out, Print_buffer);
END_FOR
ON_ERROR
ISQL_errmsg(isc_status);
return;
END_ERROR;
ISQL_printf(isqlGlob.Out, "]");
}
// Same than fb_utils::exact_name, but writes the output to the second argument.
TEXT* ISQL_blankterm2(const TEXT* input, TEXT* output)
{
TEXT* q = output - 1;
for (TEXT* p = output; (*p = *input) != 0; ++p, ++input) {
if (*p != BLANK)
q = p;
}
*(q + 1) = 0;
return output;
}
bool ISQL_dbcheck()
{
/**************************************
*
* I S Q L _ d b c h e c k
*
**************************************
*
* Functional description
* Check to see if we are connected to a database.
* Return true if connected, false otherwise
*
* Change from miroslavp on 25.04.2005
* Value assigned here on Exit_value is not used anywhere in the source
* and cause isql.exe to return 1 in Quiet mode even there is no error.
* If there is error Exit_value is set by callers - so it is removed from here.
**************************************/
TEXT errbuf[MSG_LENGTH];
if (!isqlGlob.global_Db_name[0]) {
if (!Quiet) {
ISQL_msg_get(NO_DB, errbuf, NULL);
STDERROUT(errbuf);
}
return false;
}
else
return true;
}
//static std::string userPrompt;
static char userPrompt2[MSG_LENGTH];
static const char* const userPrompt = userPrompt2;
static char* lastInputLine = NULL;
static int getColumn = -1;
void ISQL_prompt(const TEXT* string)
{
/**************************************
*
* I S Q L _ p r o m p t
*
**************************************
*
* Functional description
* Print a prompt string for interactive user
* Not for Windows, otherwise flush the string
**************************************/
//userPrompt = (const char*) string;
strncpy(userPrompt2, string, MSG_LENGTH - 1);
userPrompt2[MSG_LENGTH - 1] = 0;
//#ifndef HAVE_READLINE_READLINE_H
// fprintf(stdout, userPrompt.c_str());
// fflush(stdout);
//#endif
}
static void readNextInputLine(const char* prompt)
{
/**************************************
*
* r e a d N e x t I n p u t L i n e
*
**************************************
*
* Functional description
* Get next input line and put it in lastInputLine
* If the first read is EOF set lineInputLine to NULL
* Otherwise return the line up to EOF (excluded) or '\n' (included)
* WARNING: If you bypass getNextInputChar() and call this directly,
* remember to set getColumn = -1; immediately after calling this function
* to avoid side effects or reading invalid memory locations.
**************************************/
if (lastInputLine != NULL) {
free(lastInputLine);
lastInputLine = NULL;
}
getColumn = 0;
#ifdef HAVE_EDITLINE_H
if (Ifp.indev_fpointer == stdin)
{
// CVC: On 2005-04-02, use an empty prompt when not working in
// interactive mode to behave like @@@ below at request by Pavel.
const char* new_prompt = Interactive ? prompt : "";
lastInputLine = readline(new_prompt);
if (lastInputLine != NULL && strlen(lastInputLine) != 0) {
add_history(lastInputLine);
}
// Let's count lines if someone wants to enable line number error messages
// for console reading for whatever reason.
++Ifp.indev_aux;
return;
}
#endif
// @@@ CVC: On 2005-04-02, take the "|| Echo" out at request by Pavel.
if (Interactive && !Input_file)// || Echo)
{
// Write the prompt out.
fprintf(stdout, prompt);
fflush(stdout);
}
// Read the line
char buffer[MAX_USHORT];
if (fgets(buffer, sizeof(buffer), Ifp.indev_fpointer) != NULL)
{
size_t lineSize = strlen(buffer);
while (lineSize > 0 &&
(buffer[lineSize - 1] == '\n' || buffer[lineSize - 1] == '\r'))
{
buffer[--lineSize] = '\0';
++Ifp.indev_aux;
}
lastInputLine = (char*) malloc(lineSize + 1);
memcpy(lastInputLine, buffer, lineSize + 1);
}
}
static void readNextInputLine()
{
readNextInputLine(userPrompt); //.c_str());
if (Echo && (lastInputLine != NULL)) {
ISQL_printf(isqlGlob.Out, lastInputLine);
ISQL_printf(isqlGlob.Out, NEWLINE);
}
}
int getNextInputChar()
{
/**************************************
*
* g e t N e x t I n p u t C h a r
*
**************************************
*
* Functional description
* Read next char from input
*
*
**************************************/
static int inputLen = 0;
// At end of line try and read next line
if (getColumn == -1) {
readNextInputLine();
if (lastInputLine)
inputLen = (int) strlen(lastInputLine);
}
// readline found EOF
if (lastInputLine == NULL) {
return EOF;
}
// If at end of line return \n
if (getColumn == inputLen) //(int) strlen(lastInputLine))
{
getColumn = -1;
return '\n';
}
// cast to unsigned char to prevent sign expansion
// this way we can distinguish russian ya (0xFF) and EOF (usually (-1))
return (unsigned char)lastInputLine[getColumn++];
}
void ISQL_copy_SQL_id(const TEXT* in_str,
TEXT* output_str,
TEXT escape_char)
{
/**************************************
*
* I S Q L _ c o p y _ S Q L _ i d
*
**************************************
*
* Functional description
*
* Copy/rebuild the SQL identifier by adding escape double quote if
* double quote is part of the SQL identifier and wraps around the
* SQL identifier with delimited double quotes
*
**************************************/
/* CVC: Try to detect if we can get rid of double quotes as
requested by Ann. Notice empty names need double quotes.
Assume the caller invoked previously ISQL_blankterm() that's
just another function like DYN_terminate, MET_exact_name, etc.
ISQL_blankterm has been replaced by fb_utils::exact_name. */
if (escape_char == DBL_QUOTE) {
// Cannot rely on ANSI functions that may be localized.
bool need_quotes = *in_str < 'A' || *in_str > 'Z';
TEXT* q1 = output_str;
for (const TEXT* p1 = in_str; *p1 && !need_quotes; ++p1, ++q1) {
if ((*p1 < 'A' || *p1 > 'Z') && (*p1 < '0' || *p1 > '9')
&& *p1 != '_' && *p1 != '$')
{
need_quotes = true;
}
*q1 = *p1;
}
if (!need_quotes) {
if (KEYWORD_stringIsAToken(in_str)) {
need_quotes = true;
}
if (!need_quotes) {
*q1 = '\0';
return;
}
}
}
TEXT* q1 = output_str;
*q1++ = escape_char;
for (const TEXT* p1 = in_str; *p1; p1++) {
*q1++ = *p1;
if (*p1 == escape_char) {
*q1++ = escape_char;
}
}
*q1++ = escape_char;
*q1 = '\0';
}
void ISQL_errmsg(const ISC_STATUS* status)
{
/**************************************
*
* I S Q L _ e r r m s g
*
**************************************
*
* Functional description
* Report error conditions
* Simulate isc_print_status exactly, to control stderr
**************************************/
TEXT errbuf[MSG_LENGTH];
#if defined (WIN95)
#define TRANSLATE_CP if (!fAnsiCP) AnsiToOem(errbuf, errbuf)
#else
#define TRANSLATE_CP
#endif
if (Quiet)
Exit_value = FINI_ERROR;
else
{
const ISC_STATUS* vec = status;
if (vec[0] != isc_arg_gds ||
(vec[0] == isc_arg_gds && vec[1] == 0 && vec[2] != isc_arg_warning)
|| (vec[0] == isc_arg_gds && vec[1] == 0
&& vec[2] == isc_arg_warning && !Warnings))
{
return;
}
ISQL_msg_get(0, errbuf, (TEXT*)(IPTR)isc_sqlcode(status));
TRANSLATE_CP;
STDERROUT(errbuf);
if (fb_interpret(errbuf, sizeof(errbuf), &vec))
{
TRANSLATE_CP;
STDERROUT(errbuf);
// Continuation of error
errbuf[0] = '-';
while (fb_interpret(errbuf + 1, sizeof(errbuf) - 1, &vec)) {
TRANSLATE_CP;
STDERROUT(errbuf);
}
}
if (Input_file)
{
const char* s = 0;
int linenum = -1;
if (status[0] == isc_arg_gds && status[1] == isc_dsql_error
&& status[2] == isc_arg_gds && status[3] == isc_sqlerr
&& vec > &status[9])
{
switch (status[7])
{
case isc_dsql_field_err:
case isc_dsql_procedure_err:
case isc_dsql_relation_err:
case isc_dsql_procedure_use_err:
if (vec[-2] == isc_arg_string)
{
s = (char*) vec[-1];
//STDERROUT(s);
}
break;
case isc_dsql_token_unk_err:
if (status[8] == isc_arg_number)
{
linenum = status[9];
//s = errbuf;
//STDERROUT(s);
}
break;
}
}
if (s)
{
while (*s && !isdigit(*s))
++s;
if (isdigit(*s))
{
linenum = 0;
for (; *s && isdigit(*s); ++s)
linenum = linenum * 10 + *s - '0';
}
}
if (linenum != -1)
{
linenum += Ifp.indev_line;
sprintf(errbuf, "At line %d in file %s", linenum, Ifp.indev_fn);
}
else
sprintf(errbuf, "After line %d in file %s", Ifp.indev_line, Ifp.indev_fn);
STDERROUT(errbuf);
}
}
}
void ISQL_warning(ISC_STATUS* status)
{
/**************************************
*
* I S Q L _ w a r n i n g
*
**************************************
*
* Functional desription
* Report warning
* Simulate isc_print_status exactly, to control stderr
**************************************/
#if defined (WIN95)
#define TRANSLATE_CP if (!fAnsiCP) AnsiToOem(buf, buf)
#else
#define TRANSLATE_CP
#endif
const ISC_STATUS* vec = status;
fb_assert(vec[1] == 0); // shouldn't be any errors
if (!Quiet) {
if (vec[0] != isc_arg_gds ||
vec[2] != isc_arg_warning ||
(vec[2] == isc_arg_warning && !Warnings))
{
return;
}
TEXT buf[MSG_LENGTH];
if (fb_interpret(buf, sizeof(buf), &vec))
{
TRANSLATE_CP;
STDERROUT(buf);
// Continuation of warning
buf[0] = '-';
while (fb_interpret(buf + 1, sizeof(buf) - 1, &vec)) {
TRANSLATE_CP;
STDERROUT(buf);
}
}
}
status[2] = isc_arg_end;
}
SSHORT ISQL_get_default_char_set_id()
{
/*************************************
*
* I S Q L _ g e t _ d e f a u l t _ c h a r _ s e t _ i d
*
**************************************
*
* Functional description
* Return the database default character set
* id.
*
* -1 if the value can not be determined.
*
**************************************/
/* What is the default character set for this database?
There are three states:
1. There is no entry available in RDB$DATABASE
Then - NONE
2. The entry in RDB$DATABASE does not exist in
RDB$CHARACTER_SETS
Then - -1 to cause all character set defs to show
3. An entry in RDB$CHARACTER_SETS
Then - RDB$CHARACTER_SET_ID
*/
SSHORT default_char_set_id = 0;
FOR FIRST 1 EXT IN RDB$DATABASE
WITH EXT.RDB$CHARACTER_SET_NAME NOT MISSING;
default_char_set_id = -1;
FOR FIRST 1 CHI IN RDB$CHARACTER_SETS
WITH CHI.RDB$CHARACTER_SET_NAME = EXT.RDB$CHARACTER_SET_NAME
default_char_set_id = CHI.RDB$CHARACTER_SET_ID;
END_FOR;
END_FOR;
return (default_char_set_id);
}
SSHORT ISQL_get_field_length(const TEXT* field_name)
{
/**************************************
*
* I S Q L _ g e t _ f i e l d _ l e n g t h
*
**************************************
*
* Retrieve character or field length of character types.
*
**************************************/
// Transaction for all frontend commands
if (DB && !gds_trans)
if (isc_start_transaction(isc_status, &gds_trans, 1, &DB, 0, NULL)) {
ISQL_errmsg(isc_status);
return 0;
}
SSHORT l = 0;
FOR FLD IN RDB$FIELDS WITH
FLD.RDB$FIELD_NAME EQ field_name
if (FLD.RDB$CHARACTER_LENGTH.NULL)
l = FLD.RDB$FIELD_LENGTH;
else
l = FLD.RDB$CHARACTER_LENGTH;
END_FOR
ON_ERROR
ISQL_errmsg(isc_status);
return 0;
END_ERROR;
return l;
}
void ISQL_get_character_sets(
SSHORT char_set_id,
SSHORT collation,
bool collate_only,
TEXT* string)
{
/**************************************
*
* I S Q L _ g e t _ c h a r a c t e r _ s e t s
*
**************************************
*
* Retrieve character set and collation order and format it
*
**************************************/
#ifdef DEV_BUILD
bool found = false;
#endif
string[0] = 0;
// Transaction for all frontend commands
if (DB && !gds_trans)
if (isc_start_transaction(isc_status, &gds_trans, 1, &DB, 0, NULL)) {
ISQL_errmsg(isc_status);
return;
}
//if (collation) {
if (collation || collate_only) {
FOR FIRST 1 COL IN RDB$COLLATIONS CROSS
CST IN RDB$CHARACTER_SETS WITH
COL.RDB$CHARACTER_SET_ID EQ CST.RDB$CHARACTER_SET_ID AND
COL.RDB$COLLATION_ID EQ collation AND
CST.RDB$CHARACTER_SET_ID EQ char_set_id
SORTED BY COL.RDB$COLLATION_NAME, CST.RDB$CHARACTER_SET_NAME
#ifdef DEV_BUILD
found = true;
#endif
fb_utils::exact_name(CST.RDB$CHARACTER_SET_NAME);
fb_utils::exact_name(COL.RDB$COLLATION_NAME);
fb_utils::exact_name(CST.RDB$DEFAULT_COLLATE_NAME);
/* Is specified collation the default collation for character set? */
if (strcmp (CST.RDB$DEFAULT_COLLATE_NAME, COL.RDB$COLLATION_NAME) == 0) {
if (!collate_only)
sprintf (string, " CHARACTER SET %s", CST.RDB$CHARACTER_SET_NAME);
}
else if (collate_only)
sprintf (string, " COLLATE %s", COL.RDB$COLLATION_NAME);
else
sprintf (string, " CHARACTER SET %s COLLATE %s",
CST.RDB$CHARACTER_SET_NAME, COL.RDB$COLLATION_NAME);
END_FOR
ON_ERROR
ISQL_errmsg(isc_status);
return;
END_ERROR;
#ifdef DEV_BUILD
if (!found) {
sprintf(Print_buffer,
"ISQL_get_character_set: charset %d collation %d not found.\n",
char_set_id, collation);
STDERROUT(Print_buffer);
}
#endif
}
else {
FOR FIRST 1 CST IN RDB$CHARACTER_SETS WITH
CST.RDB$CHARACTER_SET_ID EQ char_set_id
SORTED BY CST.RDB$CHARACTER_SET_NAME
#ifdef DEV_BUILD
found = true;
#endif
fb_utils::exact_name(CST.RDB$CHARACTER_SET_NAME);
sprintf (string, " CHARACTER SET %s", CST.RDB$CHARACTER_SET_NAME);
END_FOR
ON_ERROR
ISQL_errmsg(isc_status);
return;
END_ERROR;
#ifdef DEV_BUILD
if (!found) {
sprintf(Print_buffer, "ISQL_get_character_set: charset %d not found.\n",
char_set_id);
STDERROUT(Print_buffer);
}
#endif
}
}
void ISQL_get_default_source(const TEXT* rel_name,
TEXT* field_name,
ISC_QUAD* blob_id)
{
/**************************************
*
* I S Q L _ g e t _ d e f a u l t _ s o u r c e
*
**************************************
*
* Retrieve the default source of a field.
* Relation_fields takes precedence over fields if both
* are present
*
* For a domain, a NULL is passed for rel_name
**************************************/
fb_utils::exact_name(field_name);
*blob_id = isc_blob_null;
// Transaction for all frontend commands
if (DB && !gds_trans)
if (isc_start_transaction(isc_status, &gds_trans, 1, &DB, 0, NULL)) {
ISQL_errmsg(isc_status);
return;
}
if (rel_name) {
// This is default for a column of a table
FOR FLD IN RDB$FIELDS CROSS
RFR IN RDB$RELATION_FIELDS WITH
RFR.RDB$FIELD_SOURCE EQ FLD.RDB$FIELD_NAME AND
RFR.RDB$RELATION_NAME EQ rel_name AND
FLD.RDB$FIELD_NAME EQ field_name
if (!RFR.RDB$DEFAULT_SOURCE.NULL)
*blob_id = RFR.RDB$DEFAULT_SOURCE;
else if (!FLD.RDB$DEFAULT_SOURCE.NULL)
*blob_id = FLD.RDB$DEFAULT_SOURCE;
END_FOR
ON_ERROR
ISQL_errmsg(isc_status);
return;
END_ERROR;
}
else {
// Default for a domain
FOR FLD IN RDB$FIELDS WITH
FLD.RDB$FIELD_NAME EQ field_name
if (!FLD.RDB$DEFAULT_SOURCE.NULL)
*blob_id = FLD.RDB$DEFAULT_SOURCE;
END_FOR
ON_ERROR
ISQL_errmsg(isc_status);
return;
END_ERROR;
}
}
SLONG ISQL_get_index_segments(TEXT* segs,
const size_t buf_size,
const TEXT* indexname,
bool delimited_yes)
{
/**************************************
*
* I S Q L _ g e t _ i n d e x _ s e g m e n t s
*
**************************************
*
* Functional description
* returns the list of columns in an index.
*
**************************************/
TEXT SQL_identifier[BUFFER_LENGTH128];
*segs = '\0';
// Transaction for all frontend commands
if (DB && !gds_trans)
if (isc_start_transaction(isc_status, &gds_trans, 1, &DB, 0, NULL)) {
ISQL_errmsg(isc_status);
return 0;
}
TEXT* const segs_end = segs + buf_size - 1;
// Query to get column names
SLONG n = 0;
bool count_only = false;
FOR SEG IN RDB$INDEX_SEGMENTS WITH
SEG.RDB$INDEX_NAME EQ indexname
SORTED BY SEG.RDB$FIELD_POSITION
++n;
if (count_only)
continue;
// Place a comma and a blank between each segment column name
fb_utils::exact_name(SEG.RDB$FIELD_NAME);
if (isqlGlob.db_SQL_dialect > SQL_DIALECT_V6_TRANSITION && delimited_yes) {
ISQL_copy_SQL_id (SEG.RDB$FIELD_NAME, SQL_identifier, DBL_QUOTE);
}
else {
strcpy (SQL_identifier, SEG.RDB$FIELD_NAME);
}
const size_t len = strlen(SQL_identifier);
if (n == 1)
{
// We assume the buffer is at least size(metadata name), so no initial check.
strcpy(segs, SQL_identifier);
segs += len;
}
else
{
if (segs + len + 2 >= segs_end)
{
strncpy(segs, ", ...", segs_end - segs);
*segs_end = '\0';
count_only = true;
}
else
{
sprintf (segs, ", %s", SQL_identifier);
segs += len + 2;
}
}
END_FOR
ON_ERROR
ISQL_errmsg(isc_status);
ROLLBACK;
return 0;
END_ERROR;
return n;
}
bool ISQL_get_base_column_null_flag(const TEXT* view_name,
const SSHORT view_context,
const TEXT* base_field)
{
/**************************************
*
* I S Q L _ g e t _ b a s e _ c o l u m n _ n u l l _ f l a g
*
**************************************
*
* Determine if a field on which view column is based
* is nullable. We are passed the view_name
* view_context and the base_field of the view column.
*
**************************************/
BASED_ON RDB$RELATION_FIELDS.RDB$RELATION_NAME save_view_name,
save_base_field;
strcpy(save_view_name, view_name);
strcpy(save_base_field, base_field);
SSHORT save_view_context = view_context;
// Transaction for all frontend commands
if (DB && !gds_trans)
if (isc_start_transaction(isc_status, &gds_trans, 1, &DB, 0, NULL)) {
ISQL_errmsg(isc_status);
return false;
}
/*
Using view_name and view_context get the relation name from
RDB$VIEW_RELATIONS which contains the base_field for this view column.
Get row corresponding to this base field and relation from
rdb$field_relations. This will contain info on field's nullability unless
it is a view column itself, in which case repeat this procedure till
we get to a "real" column.
*/
bool null_flag = true;
bool done = false;
bool error = false;
while (!done && !error) {
fb_utils::exact_name(save_view_name);
fb_utils::exact_name(save_base_field);
FOR FIRST 1
VR IN RDB$VIEW_RELATIONS
CROSS NEWRFR IN RDB$RELATION_FIELDS
WITH
VR.RDB$VIEW_NAME EQ save_view_name AND
VR.RDB$VIEW_CONTEXT EQ save_view_context AND
NEWRFR.RDB$RELATION_NAME = VR.RDB$RELATION_NAME AND
NEWRFR.RDB$FIELD_NAME = save_base_field
if (NEWRFR.RDB$BASE_FIELD.NULL) {
if (NEWRFR.RDB$NULL_FLAG == 1)
null_flag = false;
done = true;
}
else {
strcpy (save_view_name, NEWRFR.RDB$RELATION_NAME);
save_view_context = NEWRFR.RDB$VIEW_CONTEXT;
strcpy (save_base_field, NEWRFR.RDB$BASE_FIELD);
}
END_FOR
ON_ERROR
error = true;
END_ERROR;
}
return null_flag;
}
bool ISQL_get_null_flag(const TEXT* rel_name,
TEXT* field_name)
{
/**************************************
*
* I S Q L _ g e t _ n u l l _ f l a g
*
**************************************
*
* Determine if a field has the null flag set.
* Look for either rdb$relation_fields or rdb$fields to be
* Set to 1 (NOT NULL), then this field cannot be null
* We are passed the relation name and the relation_field name
* For domains, the relation name is null.
**************************************/
fb_utils::exact_name(field_name);
bool null_flag = true;
// Transaction for all frontend commands
if (DB && !gds_trans)
if (isc_start_transaction(isc_status, &gds_trans, 1, &DB, 0, NULL)) {
ISQL_errmsg(isc_status);
return false;
}
if (rel_name) {
FOR FLD IN RDB$FIELDS CROSS
RFR IN RDB$RELATION_FIELDS WITH
RFR.RDB$FIELD_SOURCE EQ FLD.RDB$FIELD_NAME AND
RFR.RDB$RELATION_NAME EQ rel_name AND
RFR.RDB$FIELD_NAME EQ field_name
if (FLD.RDB$NULL_FLAG == 1)
null_flag = false;
else {
// If RDB$BASE_FIELD is not null then it is a view column
if (RFR.RDB$BASE_FIELD.NULL) {
/* Simple column. Did user define it not null? */
if (RFR.RDB$NULL_FLAG == 1)
null_flag = false;
}
else
null_flag = ISQL_get_base_column_null_flag (rel_name,
RFR.RDB$VIEW_CONTEXT, RFR.RDB$BASE_FIELD);
}
END_FOR
ON_ERROR
ISQL_errmsg(isc_status);
return null_flag;
END_ERROR;
}
else {
// Domains have only field entries to worry about
FOR FLD IN RDB$FIELDS WITH
FLD.RDB$FIELD_NAME EQ field_name
if (FLD.RDB$NULL_FLAG == 1)
null_flag = false;
END_FOR
ON_ERROR
ISQL_errmsg(isc_status);
return null_flag;
END_ERROR;
}
return null_flag;
}
void ISQL_disconnect_database(bool nQuietMode)
{
/**************************************
*
* I S Q L _ d i s c o n n e c t _ d a t a b a s e
*
**************************************
*
* Functional description
* Disconnect from the current database. First commit work and then
* call isc_detach_database to detach from the database and then zero
* out the DB handle.
*
* Change from miroslavp on 06.05.2005
* Quiet global variable is preserved in local variable and restored at the end.
**************************************/
const bool OriginalQuiet = Quiet;
// Ignore error msgs during disconnect
Quiet = nQuietMode;
// If we were in a database, commit before proceeding
if (DB && (M__trans || D__trans))
end_trans();
/*
* Commit transaction that was started on behalf of the request
* Don't worry about the error if one occurs it will be network
* related and caught later.
*/
if (DB && gds_trans)
isc_rollback_transaction(isc_status, &gds_trans);
/* If there is current user statement, free it
I think option 2 is the right one (DSQL_drop), but who knows */
if (global_Stmt)
isc_dsql_free_statement(isc_status, &global_Stmt, DSQL_drop);
// Detach from old database
if (DB) {
isc_detach_database(isc_status, &DB);
}
// Restore original value of the flag
Quiet = OriginalQuiet;
// Zero database handle and transaction handles
global_Stmt = 0;
DB = 0;
isqlGlob.global_Db_name[0] = '\0';
D__trans = 0;
M__trans = 0;
gds_trans = 0;
// CVC: If we aren't connected to a db anymore, then the db's dialect is reset.
// This should fix SF Bug #910430.
isqlGlob.db_SQL_dialect = 0;
// BRS this is also needed to fix #910430.
global_dialect_spoken = 0;
return;
}
#ifdef NOT_USED_OR_REPLACED
bool ISQL_is_domain(const TEXT* field_name)
{
/**************************************
*
* I S Q L _ i s _ d o m a i n
*
**************************************
*
* Determine if a field in rdb$fields is a domain,
*
**************************************/
bool is_domain = false;
// Transaction for all frontend commands
if (DB && !gds_trans)
if (isc_start_transaction(isc_status, &gds_trans, 1, &DB, 0, NULL)) {
ISQL_errmsg(isc_status);
return false;
}
FOR FLD IN RDB$FIELDS WITH
FLD.RDB$FIELD_NAME EQ field_name
if (!(strncmp (FLD.RDB$FIELD_NAME, "RDB$", 4) == 0 &&
isdigit (FLD.RDB$FIELD_NAME[4]) &&
FLD.RDB$SYSTEM_FLAG != 1))
{
is_domain = true;
}
END_FOR
ON_ERROR
ISQL_errmsg(isc_status);
return is_domain;
END_ERROR;
return is_domain;
}
#endif
void ISQL_make_upper(TEXT* str)
{
/**************************************
*
* I S Q L _ m a k e _ u p p e r
*
**************************************
*
* Force the name of a metadata object to
* uppercase.
*
**************************************/
if (!str)
return;
for (UCHAR* p = reinterpret_cast<UCHAR*>(str); *p; p++)
*p = UPPER7(*p);
}
void ISQL_msg_get(USHORT number,
TEXT* msg,
const TEXT* arg1,
const TEXT* arg2,
const TEXT* arg3,
const TEXT* arg4,
const TEXT* arg5)
{
/**************************************
*
* I S Q L _ m s g _ g e t
*
**************************************
*
* Functional description
* Retrieve a message from the error file
*
**************************************/
gds__msg_format(NULL, ISQL_MSG_FAC, number, MSG_LENGTH, msg,
arg1, arg2, arg3, arg4, arg5);
}
void ISQL_msg_get(USHORT number,
USHORT size,
TEXT* msg,
const TEXT* arg1,
const TEXT* arg2,
const TEXT* arg3,
const TEXT* arg4,
const TEXT* arg5)
{
/**************************************
*
* I S Q L _ m s g _ g e t
*
**************************************
*
* Functional description
* Retrieve a message from the error file
*
**************************************/
gds__msg_format(NULL, ISQL_MSG_FAC, number, size, msg,
arg1, arg2, arg3, arg4, arg5);
}
void ISQL_print_validation(FILE* fp,
ISC_QUAD* blobid,
bool isComputedField,
FB_API_HANDLE trans)
{
/**************************************
*
* I S Q L _ p r i n t _ v a l i d a t i o n
*
**************************************
*
* Functional description
* This does some minor syntax adjustmet for extracting
* validation blobs and computed fields.
* if it does not start with the word CHECK
* if this is a computed field blob, look for () or insert them.
* if flag == 0, this is a validation clause,
* if flag == 1, this is a computed field
*
**************************************/
// Don't bother with null blobs
if (blobid->gds_quad_high == 0)
return;
TEXT buffer[BUFFER_LENGTH512];
FB_API_HANDLE blob = 0;
if (isc_open_blob(isc_status, &DB, &trans, &blob, blobid)) {
ISQL_errmsg(isc_status);
return;
}
bool issql = false;
bool firsttime = true;
USHORT length;
while (!isc_get_segment(isc_status, &blob, &length,
(USHORT) (BUFFER_LENGTH512 - 1),
buffer) || isc_status[1] == isc_segment)
{
buffer[length] = 0;
const TEXT* p = buffer;
if (isComputedField) {
// computed field SQL syntax correction
while (fb_isspace(*p))
p++;
if (*p == '(')
issql = true;
}
else {
// Validation SQL syntax correction
while (fb_isspace(*p))
p++;
if (!strncmp(p, "check", 5) || !strncmp(p, "CHECK", 5))
issql = true;
}
if (firsttime) {
firsttime = false;
if (!issql) {
sprintf(Print_buffer, "%s ", (isComputedField ? "/* " : "("));
ISQL_printf(fp, Print_buffer);
}
}
ISQL_printf(fp, buffer);
}
if (!issql) {
sprintf(Print_buffer, "%s", (isComputedField ? " */" : ")"));
ISQL_printf(fp, Print_buffer);
}
isc_close_blob(isc_status, &blob);
if (isc_status[1])
ISQL_errmsg(isc_status);
}
void ISQL_printf(FILE* fp,
const char* buffer)
{
/**************************************
*
* I S Q L _ p r i n t f
*
**************************************
*
* Centralized printing facility
*
**************************************/
fprintf(fp, "%s", buffer);
fflush(fp); // John's fix.
}
static processing_state add_row(TEXT* tabname)
{
/**************************************
*
* a d d _ r o w
*
**************************************
*
* Functional description
* Allows interactive insert of row, prompting for every column
*
* The technique is to describe a select query of select * from the table.
* Then generate an insert with ? in every position, using the same sqlda.
* It will allow edits of blobs, skip arrays and computed fields
*
* Parameters:
* tabname -- Name of table to insert into
*
**************************************/
if (!*tabname)
return (ps_ERR);
if (!Interactive)
return (ps_ERR);
if (Input_file)
return ps_ERR;
// There may have been a commit transaction before we got here
if (!M__trans)
if (isc_start_transaction(isc_status, &M__trans, 1, &DB, 0, NULL)) {
ISQL_errmsg(isc_status);
return FAIL;
}
// Start default transaction for prepare
if (!D__trans)
if (isc_start_transaction(isc_status, &D__trans, 1, &DB, 0, NULL)) {
ISQL_errmsg(isc_status);
return FAIL;
}
chop_at(tabname, WORDLENGTH * 2);
if (tabname[0] != DBL_QUOTE)
ISQL_make_upper(tabname);
/*
chop_at(tablename, WORDLENGTH);
const bool delimited_yes = tablename[0] == DBL_QUOTE;
TEXT tabname[WORDLENGTH * 2];
if (isqlGlob.db_SQL_dialect > SQL_DIALECT_V6_TRANSITION && delimited_yes) {
ISQL_copy_SQL_id(tablename, tabname, DBL_QUOTE);
}
else {
strcpy(tabname, tablename);
ISQL_make_upper(tabname);
}
*/
// Query to obtain relation information
SCHAR string[BUFFER_LENGTH120];
sprintf(string, "SELECT * FROM %s", tabname);
XSQLDA* sqlda = (XSQLDA*) ISQL_ALLOC((SLONG) (XSQLDA_LENGTH(20)));
sqlda->version = SQLDA_VERSION1;
sqlda->sqln = 20;
if (isc_dsql_prepare(isc_status, &D__trans, &global_Stmt, 0, string,
isqlGlob.SQL_dialect, sqlda))
{
ISQL_errmsg(isc_status);
if (sqlda)
ISQL_FREE(sqlda);
return (SKIP);
}
const SSHORT n_cols = sqlda->sqld;
// Reallocate to the proper size if necessary
if (sqlda->sqld > sqlda->sqln) {
ISQL_FREE(sqlda);
sqlda = (XSQLDA*) ISQL_ALLOC((SLONG) (XSQLDA_LENGTH(n_cols)));
sqlda->version = SQLDA_VERSION1;
sqlda->sqld = sqlda->sqln = n_cols;
// We must re-describe the sqlda, no need to re-prepare
if (isc_dsql_describe(isc_status, &global_Stmt, isqlGlob.SQL_dialect, sqlda)) {
ISQL_errmsg(isc_status);
isc_dsql_free_statement(isc_status, &global_Stmt, DSQL_close);
if (sqlda)
ISQL_FREE(sqlda);
return (FAIL);
}
}
isc_dsql_free_statement(isc_status, &global_Stmt, DSQL_close);
// Array for storing select/insert column mapping , colcheck sets it up
SSHORT* colnumber = (SSHORT*) ISQL_ALLOC((SLONG) (n_cols * sizeof(SSHORT)));
col_check(tabname, colnumber);
// Create the new INSERT statement from the sqlda info
SCHAR* insertstring = (SCHAR*) ISQL_ALLOC((SLONG) (40 + (WORDLENGTH * 2 + 4) * n_cols));
// There is a question marker for each column known updatable column
sprintf(insertstring, "INSERT INTO %s (", tabname);
int i;
SSHORT i_cols = 0;
i = 0;
{ // scope
char fldname[WORDLENGTH];
char fldfixed[WORDLENGTH * 2];
for (const XSQLVAR* var = sqlda->sqlvar; i < n_cols; var++, i++) {
// Skip columns that are computed
if (colnumber[i] != -1)
{
strncpy(fldname, var->sqlname, var->sqlname_length);
fldname[var->sqlname_length] = 0;
const bool delimited_yes = fldname[0] == DBL_QUOTE;
if (isqlGlob.db_SQL_dialect > SQL_DIALECT_V6_TRANSITION && delimited_yes)
{
ISQL_copy_SQL_id(fldname, fldfixed, DBL_QUOTE);
}
else
{
strcpy(fldfixed, fldname);
ISQL_make_upper(fldfixed);
}
sprintf(insertstring + strlen(insertstring), "%s,", fldfixed);
i_cols++;
}
}
} // scope for MSVC6
// Set i_cols to the number of insert columns
insertstring[strlen(insertstring) - 1] = ')';
strcat(insertstring, " VALUES (");
for (i = 0; i < n_cols; i++) {
if (colnumber[i] != -1)
strcat(insertstring, " ?,");
}
// Patch the last character in the string
insertstring[strlen(insertstring) - 1] = ')';
// Allocate INSERT sqlda and null indicators
XSQLDA* isqlda = (XSQLDA*) ISQL_ALLOC((SLONG) (XSQLDA_LENGTH(i_cols)));
/* ISQL_ALLOC doesn't initialize the structure, so init everything
* to avoid lots of problems.
*/
memset(isqlda, 0, XSQLDA_LENGTH(i_cols));
isqlda->version = SQLDA_VERSION1;
isqlda->sqln = isqlda->sqld = i_cols;
SSHORT* nullind = (SSHORT*) ISQL_ALLOC((SLONG) (i_cols * sizeof(SSHORT)));
/*
** For each column, get the type, and length then prompt for a value
** and scanf the resulting string into a buffer of the right type.
*/
SCHAR infobuf[BUFFER_LENGTH180];
ISQL_msg_get(ADD_PROMPT, sizeof(infobuf), infobuf, NULL);
STDERROUT(infobuf);
TEXT msg[MSG_LENGTH];
SCHAR name[WORDLENGTH];
bool done = false;
while (!done) {
SSHORT* nullp = nullind;
i = 0;
for (const XSQLVAR* var = sqlda->sqlvar; i < n_cols && !done; var++, i++)
{
if (colnumber[i] == -1)
continue;
// SQLDA for INSERT statement might have fewer columns
const SSHORT j = colnumber[i];
XSQLVAR* ivar = &isqlda->sqlvar[j];
*ivar = *var;
*nullp = 0;
ivar->sqlind = nullp++;
ivar->sqldata = NULL;
{ // scope
const SSHORT length = var->sqlname_length;
strncpy(name, var->sqlname, length);
name[length] = '\0';
} // scope
const SSHORT type = var->sqltype & ~1;
const SSHORT nullable = var->sqltype & 1;
// Prompt with the name and read the line
switch (type)
{
case SQL_BLOB:
ISQL_msg_get(BLOB_PROMPT, msg, name);
// Blob: %s, type 'edit' or filename to load>
break;
case SQL_TYPE_DATE:
ISQL_msg_get(DATE_PROMPT, msg, name);
// Enter %s as Y/M/D>
break;
case SQL_TYPE_TIME:
ISQL_msg_get(TIME_PROMPT, msg, name);
// Enter %s as H:M:S>
break;
case SQL_TIMESTAMP:
ISQL_msg_get(TIMESTAMP_PROMPT, msg, name);
// Enter %s as Y/MON/D H:MIN:S[.MSEC]>
break;
default:
ISQL_msg_get(NAME_PROMPT, msg, name);
/* Enter %s> */
break;
}
// On blank line or EOF, break the two loops without doing an insert.
readNextInputLine(msg);
getColumn = -1; // We are bypassing getNextInputChar().
if (lastInputLine == NULL || strlen(lastInputLine) == 0) {
done = true;
break;
}
const USHORT length = (USHORT) strlen(lastInputLine);
if (length > MAX_USHORT - 2)
{
ISQL_msg_get(BUFFER_OVERFLOW, msg, NULL);
STDERROUT(msg);
done = true;
break;
}
STDERROUT("");
// Convert first 4 chars to upper case for comparison
SCHAR cmd[5];
strncpy(cmd, lastInputLine, 4);
cmd[4] = '\0';
ISQL_make_upper(cmd);
// If the user writes NULL, put a null in the column
if (!strcmp(cmd, "NULL"))
*ivar->sqlind = -1;
else
{
*ivar->sqlind = 0;
SLONG res;
// Data types
SSHORT* smallint;
SLONG* integer;
SINT64* pi64;
SINT64 n;
float* fvalue;
double* dvalue;
tm times;
// Initialize the time structure
memset(&times, 0, sizeof(times));
char msec_str[5] = "";
int msec = 0;
ISC_QUAD* blobid;
switch (type) {
case SQL_BLOB:
blobid =
(ISC_QUAD*) ISQL_ALLOC((SLONG) sizeof(ISC_QUAD));
if (!strcmp(cmd, "EDIT"))
// If edit, we edit a temp file
{
// Documentation says:
// If string is not NULL, it is assumed to point to an array of
// at least L_tmpnam characters - or 2*L_tmpnam bytes.
// The value of L_tmpnam is defined in STDIO.H.
char bfile[L_tmpnam * 2];
tmpnam(bfile);
gds__edit(bfile, 0);
res = BLOB_text_load(blobid, DB, M__trans, bfile);
unlink(bfile);
}
else
// Otherwise just load the named file
/* We can't be sure if it's a TEXT or BINARY file
* being loaded. As we aren't sure, we'll
* do binary operation - this is NEW data in
* the database, not updating existing info
*/
{
res = BLOB_load(blobid, DB, M__trans, lastInputLine);
}
if (!res) {
STDERROUT("Unable to load file");
done = true;
}
ivar->sqldata = (SCHAR*) blobid;
break;
case SQL_FLOAT:
fvalue = (float*) ISQL_ALLOC(sizeof(float));
if (sscanf(lastInputLine, "%g", fvalue) != 1) {
STDERROUT("Input parsing problem");
done = true;
}
ivar->sqldata = (SCHAR*) fvalue;
break;
case SQL_DOUBLE:
dvalue = (double*) ISQL_ALLOC(sizeof(double));
if (sscanf(lastInputLine, "%lg", dvalue) != 1) {
STDERROUT("Input parsing problem");
done = true;
}
ivar->sqldata = (SCHAR*) dvalue;
break;
case SQL_TYPE_DATE:
if (3 != sscanf(lastInputLine, "%d/%d/%d", &times.tm_year,
&times.tm_mon, &times.tm_mday)
|| !check_date(times))
{
ISQL_msg_get(DATE_ERR, msg, lastInputLine);
STDERROUT(msg); // Bad date %s\n
done = true;
}
else {
--times.tm_mon;
times.tm_year -= 1900; // tm_year is 1900-based.
ISC_DATE* date = (ISC_DATE*) ISQL_ALLOC((SLONG) ivar->sqllen);
isc_encode_sql_date(&times, date);
ivar->sqldata = (char*) date;
}
break;
case SQL_TYPE_TIME:
if (3 != sscanf(lastInputLine, "%d:%d:%d", &times.tm_hour,
&times.tm_min, &times.tm_sec)
|| !check_time(times))
{
ISQL_msg_get(TIME_ERR, msg, lastInputLine);
STDERROUT(msg); // Bad time %s\n
done = true;
}
else {
ISC_TIME* vtime = (ISC_TIME*) ISQL_ALLOC((SLONG) ivar->sqllen);
isc_encode_sql_time(&times, vtime);
ivar->sqldata = (char*) vtime;
}
break;
case SQL_TIMESTAMP:
if (6 <= sscanf(lastInputLine, "%d/%d/%d %d:%d:%d.%4s",
&times.tm_year, &times.tm_mon, &times.tm_mday,
&times.tm_hour, &times.tm_min, &times.tm_sec,
msec_str))
{
int count = 0;
for (; count < 4; ++count)
{
if (isdigit(msec_str[count]))
msec = msec * 10 + msec_str[count] - '0';
else
break;
}
if (count != strlen(msec_str))
done = true;
else
{
while (count++ < 4)
msec *= 10;
done = !check_timestamp(times, msec);
}
}
else
done = true;
if (done)
{
ISQL_msg_get(TIMESTAMP_ERR, msg, lastInputLine);
STDERROUT(msg); // Bad timestamp %s\n
}
else
{
--times.tm_mon;
times.tm_year -= 1900;
ISC_TIMESTAMP* datetime =
(ISC_TIMESTAMP*) ISQL_ALLOC((SLONG) ivar->sqllen);
isc_encode_timestamp(&times, datetime);
datetime->timestamp_time += msec;
ivar->sqldata = (char*) datetime;
}
break;
case SQL_TEXT:
// Force all text to varying
ivar->sqltype = SQL_VARYING + nullable;
// Fall into:
case SQL_VARYING:
{
vary* avary =
(vary*) ISQL_ALLOC((SLONG) (length + sizeof(USHORT)));
avary->vary_length = length;
strncpy(avary->vary_string, lastInputLine, length);
ivar->sqldata = (SCHAR*) avary;
ivar->sqllen = length + sizeof(USHORT);
break;
}
case SQL_SHORT:
case SQL_LONG:
if (type == SQL_SHORT) {
smallint = (SSHORT*) ISQL_ALLOC(sizeof(SSHORT));
ivar->sqldata = (SCHAR*) smallint;
}
else if (type == SQL_LONG) {
integer = (SLONG*) ISQL_ALLOC(sizeof(SLONG));
ivar->sqldata = (SCHAR*) integer;
}
// Fall into:
// Fall through from SQL_SHORT and SQL_LONG ...
case SQL_INT64:
if (type == SQL_INT64) {
pi64 = (SINT64*) ISQL_ALLOC(sizeof(SINT64));
ivar->sqldata = (SCHAR*) pi64;
}
if (var->sqlscale < 0)
{
SSHORT lscale = 0;
if (get_numeric((UCHAR*) lastInputLine, length, &lscale, &n) != true) {
STDERROUT("Input parsing problem");
done = true;
}
else {
SSHORT dscale = var->sqlscale - lscale;
if (dscale > 0) {
TEXT err_buf[256];
sprintf(err_buf,
"input error: input scale %d exceeds the field's scale %d",
-lscale, -var->sqlscale);
STDERROUT(err_buf);
done = true;
}
while (dscale++ < 0)
n *= 10;
}
}
// sscanf assumes a 64-bit integer target
else if (sscanf(lastInputLine, "%" QUADFORMAT "d", &n) != 1)
{
STDERROUT("Input parsing problem");
done = true;
}
if (type == SQL_INT64)
*pi64 = n;
else if (type == SQL_SHORT)
{
*smallint = n;
if (SINT64(*smallint) != n)
{
STDERROUT("Value too big");
done = true;
}
}
else if (type == SQL_LONG)
{
*integer = n;
if (SINT64(*integer) != n)
{
STDERROUT("Value too big");
done = true;
}
}
break;
default:
done = true;
STDERROUT("Unexpected SQLTYPE in add_row()");
break;
}
}
}
if (!done) {
// having completed all columns, try the insert statement with the isqlda
if (isc_dsql_exec_immed2(isc_status, &DB, &M__trans, 0,
insertstring, isqlGlob.SQL_dialect, isqlda, NULL))
{
ISQL_errmsg(isc_status);
break;
}
// Release each of the variables for next time
XSQLVAR* ivar = isqlda->sqlvar;
for (i = 0; i < i_cols; i++, ivar++)
if (ivar->sqldata)
ISQL_FREE(ivar->sqldata);
}
}
ISQL_FREE(insertstring);
ISQL_FREE(sqlda);
if (isqlda)
{
XSQLVAR* ivar = isqlda->sqlvar;
for (i = 0; i < i_cols; i++, ivar++)
if (ivar->sqldata)
ISQL_FREE(ivar->sqldata);
ISQL_FREE(isqlda);
}
if (colnumber)
ISQL_FREE(colnumber);
if (nullind)
ISQL_FREE(nullind);
return (SKIP);
}
static processing_state blobedit(const TEXT* action,
const TEXT* const* cmd)
{
/**************************************
*
* b l o b e d i t
*
**************************************
*
* Functional description
* Edit the text blob indicated by blobid
*
* Parameters: cmd -- Array of words interpreted as file name
*
**************************************/
if (!ISQL_dbcheck())
return FAIL;
if (*cmd[1] == 0)
return ps_ERR;
const TEXT* p = cmd[1];
// Find the high and low values of the blob id
ISC_QUAD blobid;
sscanf(p, "%"xLONGFORMAT":%"xLONGFORMAT, &blobid.gds_quad_high, &blobid.gds_quad_low);
// If it isn't an explicit blobedit, then do a dump. Since this is a
// user operation, put it on the M__trans handle.
if (!strcmp(action, "BLOBVIEW"))
BLOB_edit(&blobid, DB, M__trans, "blob");
else if ((!strcmp(action, "BLOBDUMP")) && (*cmd[2])) {
// If this is a blobdump, make sure there is a file name
/* We can't be sure if the BLOB is TEXT or BINARY data,
* as we're not sure, we'll dump it in BINARY mode
*/
BLOB_dump(&blobid, DB, M__trans, cmd[2]);
}
else
return ps_ERR;
return (SKIP);
}
// *******************
// c h e c k _ d a t e
// *******************
// Check date as entered by the user, before adjustment (year - 1900, month - 1).
static bool check_date(const tm& times)
{
const int y = times.tm_year;
const int m = times.tm_mon;
const int d = times.tm_mday;
if (y < 1 || y > 4999)
return false;
if (m < 1 || m > 12)
return false;
const bool leap = y % 4 == 0 && y % 100 != 0 || y % 400 == 0;
const int days[] = {0, 31, leap ? 29 : 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31};
if (d < 1 || d > days[m])
return false;
return true;
}
// *******************
// c h e c k _ t i m e
// *******************
// Check time is in range.
static bool check_time(const tm& times)
{
if (times.tm_hour < 0 || times.tm_hour > 23)
return false;
if (times.tm_min < 0 || times.tm_min > 59)
return false;
if (times.tm_sec < 0 || times.tm_sec > 59)
return false;
return true;
}
// ******************************
// c h e c k _ t i m e s t a m p
// ******************************
// Check both date and time according to the previous functions
// and also check milliseconds range.
static bool check_timestamp(const tm& times, const int msec)
{
return check_date(times) && check_time(times)
&& msec >= 0 && msec <= 9999;
}
// *************
// c h o p _ a t
// *************
// Simply ensure a given string argument fits in a size, terminator included.
static size_t chop_at(char target[], const size_t size)
{
size_t len = strlen(target);
if (len >= size)
{
len = size - 1;
target[len] = 0;
}
return len;
}
static void col_check(const TEXT* tabname,
SSHORT* colnumber)
{
/**************************************
*
* c o l _ c h e c k
*
**************************************
*
* Check for peculiarities not currently revealed by the SQLDA
* colnumber array records the mapping of select columns to insert
* columns which do not have an equivalent for array or computed cols.
**************************************/
// Transaction for all frontend commands
if (DB && !gds_trans) {
if (isc_start_transaction(isc_status, &gds_trans, 1, &DB, 0, NULL)) {
ISQL_errmsg(isc_status);
return;
}
}
// Query to get array info and computed source not available in the sqlda
int i = 0, j = 0;
FOR F IN RDB$FIELDS CROSS
R IN RDB$RELATION_FIELDS WITH
F.RDB$FIELD_NAME = R.RDB$FIELD_SOURCE AND
R.RDB$RELATION_NAME EQ tabname
SORTED BY R.RDB$FIELD_POSITION, R.RDB$FIELD_NAME
if ((!F.RDB$DIMENSIONS.NULL && F.RDB$DIMENSIONS) || (!F.RDB$COMPUTED_BLR.NULL))
colnumber[i] = -1;
else
colnumber[i] = j++;
++i;
END_FOR
ON_ERROR
ISQL_errmsg(isc_status);
END_ERROR;
}
static void copy_str(TEXT** output_str,
const TEXT** input_str,
bool* done,
const TEXT* const str_begin,
const TEXT* const str_end,
literal_string_type str_flag)
{
/**************************************
*
* c o p y _ s t r
*
**************************************
*
* Functional description
*
* Copy and/or modify the data in the input buffer and stores it
* into output buffer.
*
* For SINGLE_QUOTED_STRING, copy everything from the begining of the
* the input buffer to the end of the string constant
*
* For DOUBLE_QUOTED_STRING, copy everything from the begining of the
* the input buffer to the begining of the string constant
*
* a. replace double quote string delimited character with single
* quote
* b. if '""' is found with in the string constant, removes one
* extra double quote
* c. if a single quote is found with in the string constant,
* adds one more single quote
* d. replace ending double quote string delimited character with
* single quote
*
* For NO_MORE_STRING, copy everything from the begining of the
* the input buffer to the end of input buffer
*
* Input Arguments:
*
* 1. address of the output buffer
* 2. address of the input buffer
* 3. address of the end of processing flag
*
* Output Arguments:
*
* 1. pointer to begining of the string constant
* 2. pointer to ending of the string constant
* 3. string type
*
**************************************/
int slen = 0;
const TEXT* b1;
TEXT* temp_str = *output_str;
const TEXT* temp_local_stmt_str = *input_str;
switch (str_flag) {
case SINGLE_QUOTED_STRING:
slen = str_end - temp_local_stmt_str;
strncpy(temp_str, temp_local_stmt_str, slen);
*output_str = temp_str + slen;
*input_str = str_end;
break;
case DOUBLE_QUOTED_STRING:
slen = str_begin - temp_local_stmt_str;
strncpy(temp_str, temp_local_stmt_str, slen);
temp_str += slen;
*temp_str = SINGLE_QUOTE;
temp_str++;
b1 = str_begin + 1;
while (b1 < str_end) {
*temp_str = *b1;
temp_str++;
switch (*b1) {
case SINGLE_QUOTE:
*temp_str = SINGLE_QUOTE;
temp_str++;
break;
case DBL_QUOTE:
b1++;
if (*b1 != DBL_QUOTE) {
temp_str--;
*temp_str = SINGLE_QUOTE;
temp_str++;
b1--;
}
break;
default:
break;
}
b1++;
}
*output_str = temp_str;
*input_str = b1;
break;
case NO_MORE_STRING:
slen = strlen(temp_local_stmt_str);
strncpy(temp_str, temp_local_stmt_str, slen);
temp_str += slen;
*temp_str = '\0';
*done = true;
*output_str = temp_str;
*input_str = temp_local_stmt_str + slen;
break;
default:
break;
}
}
static processing_state copy_table(TEXT* source,
TEXT* destination,
TEXT* otherdb)
{
/**************************************
*
* c o p y _ t a b l e
*
**************************************
*
* Functional description
* Create a new table based on an existing one.
*
* Parameters: source -- name of source table
* destination == name of newly created table
*
**************************************/
if (!source[0] || !destination[0])
{
STDERROUT("Either source or destination tables are missing");
return SKIP;
}
TEXT errbuf[MSG_LENGTH];
// Call list_table with a temporary file, then hand that file to a
// new version of isql
FILE* const holdout = isqlGlob.Out;
// If there is an alternate database, extract the domains
const bool domain_flag = otherdb[0];
TEXT ftmp[MAXPATHLEN];
isqlGlob.Out = (FILE*) gds__temp_file(TRUE, SCRATCH, ftmp);
if (isqlGlob.Out == (FILE*) - 1) {
// If we can't open a temp file then bail
ISQL_msg_get(FILE_OPEN_ERR, errbuf, ftmp);
STDERROUT(errbuf);
Exit_value = FINI_ERROR;
isqlGlob.Out = holdout;
return END;
}
chop_at(source, WORDLENGTH * 2);
if (source[0] != DBL_QUOTE)
ISQL_make_upper(source);
/*
chop_at(source_tbl, WORDLENGTH);
TEXT source[WORDLENGTH * 2];
bool delimited_yes = source_tbl[0] == DBL_QUOTE;
if (isqlGlob.db_SQL_dialect > SQL_DIALECT_V6_TRANSITION && delimited_yes) {
ISQL_copy_SQL_id(source_tbl, source, DBL_QUOTE);
}
else {
strcpy(source, source_tbl);
ISQL_make_upper(source);
}
*/
chop_at(destination, WORDLENGTH * 2);
if (destination[0] != DBL_QUOTE)
ISQL_make_upper(destination);
/*
chop_at(destination_tbl, WORDLENGTH);
TEXT destination[WORDLENGTH * 2];
delimited_yes = destination_tbl[0] == DBL_QUOTE;
if (isqlGlob.db_SQL_dialect > SQL_DIALECT_V6_TRANSITION && delimited_yes) {
ISQL_copy_SQL_id(destination_tbl, destination, DBL_QUOTE);
}
else {
strcpy(destination, destination_tbl);
ISQL_make_upper(destination);
}
*/
if (EXTRACT_list_table(source, destination, domain_flag, -1)) {
ISQL_msg_get(NOT_FOUND, errbuf, source);
STDERROUT(errbuf);
fclose(isqlGlob.Out);
}
else {
fclose(isqlGlob.Out);
// easy to make a copy in another database
const TEXT* altdb = isqlGlob.global_Db_name;
if (*otherdb)
altdb = otherdb;
TEXT cmd[MAXPATHLEN * 2 + 20];
sprintf(cmd, "isql -q %s -i %s", altdb, ftmp);
if (system(cmd)) {
ISQL_msg_get(COPY_ERR, errbuf, destination, altdb);
STDERROUT(errbuf);
}
}
unlink(ftmp);
isqlGlob.Out = holdout;
return (SKIP);
}
static processing_state create_db(const TEXT* statement,
TEXT* d_name)
{
/**************************************
*
* c r e a t e _ d b
*
**************************************
*
* Functional description
* Intercept create database commands to
* adjust the DB and transaction handles
*
* Parameters: statement == the entire statement for processing.
*
* Note: SQL ROLE settings are ignored - the newly created database
* will not have any roles defined in it.
*
**************************************/
processing_state ret = SKIP;
// Disconnect from the database and cleanup
ISQL_disconnect_database(false);
SLONG arglength = strlen(statement) + strlen(isqlGlob.User) + strlen(Password) + 24;
if (*ISQL_charset && strcmp(ISQL_charset, DEFCHARSET))
arglength += strlen(ISQL_charset) + strlen(" SET NAMES \'\' ");
TEXT* local_statement = (TEXT*) ISQL_ALLOC(arglength + 1);
if (!local_statement)
return (FAIL);
TEXT usr[USER_LENGTH];
TEXT psw[PASSWORD_LENGTH];
strcpy(local_statement, statement);
TEXT quote = DBL_QUOTE;
const TEXT* p = NULL;
// If there is a user parameter, we will set it into the create stmt.
#if defined (WIN95)
if (!fAnsiCP || global_usr || global_psw ||
#else
if (global_usr || global_psw ||
#endif
(*ISQL_charset && strcmp(ISQL_charset, DEFCHARSET)))
{
strip_quotes(isqlGlob.User, usr);
strip_quotes(Password, psw);
// Look for the quotes on the database name and find the close quotes.
// Use '"' first, if not successful try '''.
// CVC: Again, this is wrong with embedded quotes.
const TEXT* q = strchr(statement, quote);
if (!q) {
quote = SINGLE_QUOTE;
q = strchr(statement, quote);
}
if (q) {
// Set quote to match open quote
quote = *q;
q++;
p = strchr(q, quote);
if (p) {
#if defined (WIN95)
/* If we are not using the ANSI codepage then we need to
* translate the database name to ANSI from OEM.
* We will translate (p - q) characters from (q) into
* the proper offset in local_statement.
*/
if (!fAnsiCP)
OemToAnsiBuff(q, local_statement + (q - statement),
p - q);
#endif
p++;
const ptrdiff_t slen = p - statement;
local_statement[slen] = '\0';
if (isqlGlob.SQL_dialect == 1) {
if (global_usr)
sprintf(local_statement + strlen(local_statement),
" USER \'%s\' ", usr);
if (global_psw)
sprintf(local_statement + strlen(local_statement),
" PASSWORD \'%s\' ", psw);
if (*ISQL_charset && strcmp(ISQL_charset, DEFCHARSET))
sprintf(local_statement + strlen(local_statement),
" SET NAMES \'%s\' ", ISQL_charset);
sprintf(local_statement + strlen(local_statement), "%s",
p);
}
}
}
}
SLONG cnt = 0;
if ((isqlGlob.SQL_dialect == 0) || (isqlGlob.SQL_dialect > 1)) {
const TEXT* q = strchr(statement, SINGLE_QUOTE);
while (q) {
cnt++;
const TEXT* l = q + 1;
q = strchr(l, SINGLE_QUOTE);
}
TEXT* new_local_statement = NULL;
if (cnt > 0) {
arglength = strlen(statement) +
strlen(isqlGlob.User) + strlen(Password) + 24 + 2 * cnt;
if (*ISQL_charset && strcmp(ISQL_charset, DEFCHARSET))
arglength +=
strlen(ISQL_charset) + strlen(" SET NAMES \'\' ");
new_local_statement =
(TEXT*) ISQL_ALLOC(arglength + 1);
if (!new_local_statement)
{
ISQL_FREE(local_statement);
return (FAIL);
}
}
TEXT errbuf[MSG_LENGTH];
TEXT* temp_str;
if (new_local_statement)
temp_str = new_local_statement;
else
temp_str = local_statement;
const TEXT* temp_local_stmt_str = local_statement;
bool done = false;
while (!done) {
const TEXT* str_begin = NULL;
const TEXT* str_end = NULL;
literal_string_type str_flag = INIT_STR_FLAG;
get_str(temp_local_stmt_str, &str_begin, &str_end, &str_flag);
if (str_flag == INCOMPLETE_STRING) {
ISQL_msg_get(INCOMPLETE_STR, errbuf, "create database statement");
STDERROUT(errbuf);
ISQL_FREE(local_statement);
if (new_local_statement)
ISQL_FREE(new_local_statement);
return (FAIL);
}
copy_str(&temp_str, &temp_local_stmt_str, &done,
str_begin, str_end, str_flag);
}
if (new_local_statement)
temp_str = new_local_statement;
else
temp_str = local_statement;
if (global_usr)
sprintf(temp_str + strlen(temp_str), " USER \'%s\' ", usr);
if (global_psw)
sprintf(temp_str + strlen(temp_str), " PASSWORD \'%s\' ", psw);
if (*ISQL_charset && strcmp(ISQL_charset, DEFCHARSET))
sprintf(temp_str + strlen(temp_str),
" SET NAMES \'%s\' ", ISQL_charset);
if (new_local_statement)
temp_str = new_local_statement + strlen(new_local_statement);
else
temp_str = local_statement + strlen(local_statement);
if (p && strlen(p) > 0) {
temp_local_stmt_str = p;
bool done2 = false;
while (!done2) {
const TEXT* str_begin = NULL;
const TEXT* str_end = NULL;
literal_string_type str_flag = INIT_STR_FLAG;
get_str(temp_local_stmt_str, &str_begin, &str_end, &str_flag);
if (str_flag == INCOMPLETE_STRING) {
ISQL_msg_get(INCOMPLETE_STR, errbuf, "create database statement");
STDERROUT(errbuf);
ISQL_FREE(local_statement);
if (new_local_statement)
ISQL_FREE(new_local_statement);
return (FAIL);
}
copy_str(&temp_str, &temp_local_stmt_str, &done2,
str_begin, str_end, str_flag);
}
}
if (new_local_statement)
{
ISQL_FREE(local_statement);
local_statement = new_local_statement;
}
}
/* execute the create statement
* If the isqlGlob.SQL_dialect is not set or set to 2, create the database
* as a dialect 3 database.
*/
if (isqlGlob.SQL_dialect == 0 || isqlGlob.SQL_dialect == SQL_DIALECT_V6_TRANSITION) {
if (isc_dsql_execute_immediate(isc_status, &DB, &M__trans, 0,
local_statement, requested_SQL_dialect,
NULL))
{
ISQL_errmsg(isc_status);
if (!DB)
ret = FAIL;
}
}
else {
if (isc_dsql_execute_immediate(isc_status, &DB, &M__trans, 0,
local_statement, isqlGlob.SQL_dialect, NULL))
{
ISQL_errmsg(isc_status);
if (!DB)
ret = FAIL;
}
}
if (DB) {
// Load isqlGlob.global_Db_name with some value to show a successful attach
chop_at(d_name, MAXPATHLEN);
strip_quotes(d_name, isqlGlob.global_Db_name);
ISQL_get_version(true);
// Start the user transaction
if (!M__trans) {
if (isc_start_transaction(isc_status, &M__trans, 1, &DB, 0, NULL))
ISQL_errmsg(isc_status);
if (D__trans)
commit_trans(&D__trans);
if (isc_start_transaction(isc_status, &D__trans, 1, &DB, 5, default_tpb))
ISQL_errmsg(isc_status);
}
// Allocate a new user statement for the database
if (isc_dsql_allocate_statement(isc_status, &DB, &global_Stmt)) {
ISQL_errmsg(isc_status);
ret = ps_ERR;
}
}
if (local_statement)
ISQL_FREE(local_statement);
return (ret);
}
static void do_isql()
{
/**************************************
*
* d o _ i s q l
*
**************************************
*
* Functional description
* Process incoming SQL statements, using the global sqlda
*
**************************************/
TEXT errbuf[MSG_LENGTH];
// Initialized user transactions
M__trans = 0;
// File used to edit sessions
Ofp = (FILE*) gds__temp_file(TRUE, SCRATCH, Tmpfile);
if (Ofp == (FILE*) - 1)
{
// If we can't open a temp file then bail
ISQL_msg_get(FILE_OPEN_ERR, errbuf, Tmpfile);
STDERROUT(errbuf);
Exit_value = FINI_ERROR;
return;
}
// Open database and start tansaction
signal(SIGINT, query_abort);
//
// We will not execute this for now on WINDOWS. We are not prompting for
// a database name, username and password. A connect statement has to be in
// the file containing the script.
//
newdb(isqlGlob.global_Db_name, isqlGlob.User, Password, global_Numbufs, isqlGlob.Role, true);
// If that failed or no Dbname was specified
ISQL_dbcheck();
// Set up SQLDA for SELECTs, allow up to 20 fields to be selected.
// If we subsequently encounter a query with more columns, we
// will realloc the sqlda as needed
global_sqlda = (XSQLDA*) ISQL_ALLOC((SLONG) (XSQLDA_LENGTH(20)));
global_sqlda->version = SQLDA_VERSION1;
global_sqlda->sqln = 20;
// The sqldap is the handle containing the current sqlda pointer
global_sqldap = &global_sqlda;
// Read statements and process them from Ifp until the ret
// code tells us we are done
TEXT statement[MAX_USHORT];
processing_state ret;
bool done = false;
while (!done) {
if (Abort_flag) {
if (D__trans)
isc_rollback_transaction(isc_status, &D__trans);
if (M__trans)
isc_rollback_transaction(isc_status, &M__trans);
if (gds_trans)
isc_rollback_transaction(isc_status, &gds_trans);
/*
* If there is current user statement, free it
* option 2 does the drop
*/
if (global_Stmt)
isc_dsql_free_statement(isc_status, &global_Stmt, DSQL_drop);
if (DB)
isc_detach_database(isc_status, &DB);
break;
}
ret = get_statement(statement, sizeof(statement), sql_prompt);
// If there is no database yet, remind us of the need to connect
// But don't execute the statement
if (!isqlGlob.global_Db_name[0] && (ret == CONT)) {
if (!Quiet) {
ISQL_msg_get(NO_DB, errbuf, NULL);
STDERROUT(errbuf);
}
if (!Interactive && BailOnError)
ret = FAIL;
else
ret = SKIP;
}
switch (ret) {
case CONT:
if (process_statement(statement, global_sqldap) == ps_ERR)
{
Exit_value = FINI_ERROR;
if (!Interactive && BailOnError)
Abort_flag = true;
}
break;
case END:
case EOF:
case EXIT:
if (Abort_flag) {
if (D__trans)
isc_rollback_transaction(isc_status, &D__trans);
if (M__trans)
isc_rollback_transaction(isc_status, &M__trans);
if (gds_trans)
isc_rollback_transaction(isc_status, &gds_trans);
}
else {
if (D__trans)
commit_trans(&D__trans);
if (M__trans)
commit_trans(&M__trans);
if (gds_trans)
commit_trans(&gds_trans);
}
/*
* If there is current user statement, free it
* I think option 2 is the right one (DSQL_drop), but who knows
*/
if (global_Stmt)
isc_dsql_free_statement(isc_status, &global_Stmt, DSQL_drop);
if (DB) {
isc_detach_database(isc_status, &DB);
}
done = true;
break;
case BACKOUT:
if (D__trans)
isc_rollback_transaction(isc_status, &D__trans);
if (M__trans)
isc_rollback_transaction(isc_status, &M__trans);
if (gds_trans)
isc_rollback_transaction(isc_status, &gds_trans);
/*
* If there is current user statement, free it
* I think option 2 is the right one (DSQL_drop), but who knows
*/
if (global_Stmt)
isc_dsql_free_statement(isc_status, &global_Stmt, DSQL_drop);
if (DB) {
isc_detach_database(isc_status, &DB);
}
done = true;
break;
case EXTRACT:
case EXTRACTALL:
default:
/* fb_assert (FALSE); -- removed as finds too many problems */
case ps_ERR:
case FAIL:
Exit_value = FINI_ERROR;
if (!Interactive && BailOnError)
Abort_flag = true;
break;
case SKIP:
break;
}
}
global_Stmt = 0;
DB = 0;
isqlGlob.global_Db_name[0] = '\0';
D__trans = 0;
M__trans = 0;
gds_trans = 0;
// Should have a valid Temp file pointer
fb_assert(Ofp != (FILE*) - 1);
fclose(Ofp);
unlink(Tmpfile);
if (global_sqlda)
ISQL_FREE(global_sqlda);
// CVC: If we were halt by an error and Bail, we have pending cleanup.
while (Filelist)
{
indev* const flist = Filelist->indev_next;
FILE* const p = Filelist->indev_fpointer;
if (p != stdin && p != Ofp)
fclose(p);
ISQL_FREE(Filelist);
Filelist = flist;
}
if (Ifp.indev_fpointer != stdin && Ifp.indev_fpointer != Ofp)
fclose(Ifp.indev_fpointer);
if (lastInputLine)
free(lastInputLine);
while (global_Cols) {
collist* p = global_Cols;
global_Cols = global_Cols->collist_next;
ISQL_FREE(p);
}
}
static processing_state drop_db()
{
/**************************************
*
* d r o p _ d b
*
**************************************
*
* Functional description
* Drop the current database
*
**************************************/
if (isqlGlob.global_Db_name[0]) {
if (isc_drop_database(isc_status, &DB)) {
ISQL_errmsg(isc_status);
return (FAIL);
}
// If error occured and drop database got aborted
if (DB)
return (FAIL);
}
else
return (FAIL);
// The database got dropped with or without errors
M__trans = 0;
gds_trans = 0;
global_Stmt = 0;
D__trans = 0;
// CVC: If we aren't connected to a db anymore, then the db's dialect is reset.
// This should fix SF Bug #910430.
isqlGlob.db_SQL_dialect = 0;
// BRS this is also needed to fix #910430.
global_dialect_spoken = 0;
// Zero database name
isqlGlob.global_Db_name[0] = '\0';
DB = 0;
return (SKIP);
}
static processing_state edit(const TEXT* const* cmd)
{
/**************************************
*
* e d i t
*
**************************************
*
* Functional description
* Edit the current file or named file
*
* Parameters: cmd -- Array of words interpreted as file name
* The result of calling this is to point the global input file
* pointer, Ifp, to the named file after editing or the tmp file.
*
**************************************/
TEXT errbuf[MSG_LENGTH];
// Set up editing command for shell
const TEXT* file = cmd[1];
// If there is a file name specified, try to open it
if (*file) {
TEXT path[MAXPATHLEN];
strip_quotes(file, path);
FILE* fp = fopen(path, "r");
if (fp) {
// Push the current ifp on the indev
indev* current = (indev*) ISQL_ALLOC((SLONG) sizeof(indev));
current->copy_from(&Ifp);
current->indev_next = Filelist;
Filelist = current;
Ifp.init(fp, path);
gds__edit(file, 0);
}
else {
ISQL_msg_get(FILE_OPEN_ERR, errbuf, file);
STDERROUT(errbuf);
}
}
else {
// No file given, edit the temp file
indev* current = (indev*) ISQL_ALLOC((SLONG) sizeof(indev));
current->copy_from(&Ifp);
current->indev_next = Filelist;
Filelist = current;
// Close the file, edit it, then reopen and read from the top
fclose(Ofp);
gds__edit(Tmpfile, 0);
Ofp = fopen(Tmpfile, "r+");
Ifp.init(Ofp, Tmpfile);
}
return (SKIP);
}
static processing_state end_trans()
{
/**************************************
*
* e n d _ t r a n s
*
**************************************
*
* Functional description
* Prompt the interactive user if there is an extant transaction and
* either commit or rollback
*
* Called by newtrans, createdb, newdb;
* Returns success or failure.
*
**************************************/
TEXT infobuf[BUFFER_LENGTH60];
processing_state ret = CONT;
/* Give option of committing or rolling back before proceding unless
** the last command was a commit or rollback
*/
if (M__trans) {
if (Interactive) {
ISQL_msg_get(COMMIT_PROMPT, sizeof(infobuf), infobuf, NULL);
readNextInputLine(infobuf);
getColumn = -1; // We are bypassing getNextInputChar().
if (lastInputLine && isyesno(lastInputLine)) {
// check for Yes answer
ISQL_msg_get(COMMIT_MSG, sizeof(infobuf), infobuf, NULL);
STDERROUT(infobuf);
if (DB && M__trans) {
if (isc_commit_transaction(isc_status, &M__trans)) {
// Commit failed, so roll back anyway
ISQL_errmsg(isc_status);
ret = FAIL;
}
}
}
else {
ISQL_msg_get(ROLLBACK_MSG, sizeof(infobuf), infobuf, NULL);
STDERROUT(infobuf);
if (DB && M__trans) {
if (isc_rollback_transaction(isc_status, &M__trans)) {
ISQL_errmsg(isc_status);
ret = FAIL;
}
}
}
}
else {
// No answer, just roll back by default
if (DB && M__trans) {
// For WISQL, we keep track of whether a commit is needed by setting a flag in the ISQLPB
// structure. This flag is set whenever a sql command is entered in the SQL input area or
// if the user uses the create database dialog. Because of this, this should only show up if
// the user connects and then disconnects or if the user enters a SET TRANSACTION stat without
// ever doing anything that would cause changes to the dictionary.
ISQL_msg_get(ROLLBACK_MSG, sizeof(infobuf), infobuf, NULL);
STDERROUT(infobuf);
if (isc_rollback_transaction(isc_status, &M__trans)) {
ISQL_errmsg(isc_status);
ret = FAIL;
}
}
}
}
// Commit background transaction
if (DB && D__trans) {
if (isc_commit_transaction(isc_status, &D__trans)) {
ISQL_errmsg(isc_status);
ret = FAIL;
}
}
return ret;
}
static processing_state escape(const TEXT* cmd)
{
/**************************************
*
* e s c a p e
*
**************************************
*
* Functional description
* Permit a shell escape to system call
*
* Parameters: cmd -- The command string with SHELL
*
**************************************/
// Advance past the shell
const TEXT* shellcmd = cmd;
// Search past the 'shell' keyword
shellcmd += strlen("shell");
// Eat whitespace at beginning of command
while (*shellcmd && fb_isspace(*shellcmd))
shellcmd++;
#ifdef WIN_NT
// MSDN says: You must explicitly flush (using fflush or _flushall)
// or close any stream before calling system.
_flushall();
#endif
// If no command given just spawn a shell
if (!*shellcmd) {
#ifdef WIN_NT
if (system("%ComSpec%"))
return FAIL;
#else
if (system("$SHELL"))
return FAIL;
#endif
}
else {
if (system(shellcmd))
return FAIL;
}
return (SKIP);
}
static processing_state frontend(const TEXT* statement)
{
/**************************************
*
* f r o n t e n d
*
**************************************
*
* Functional description
* Handle any frontend commands that start with
* show or set converting the string into an
* array of words parms, with MAX_TERMS words only.
*
* Parameters: statement is the string typed by the user
*
**************************************/
TEXT buffer[BUFFER_LENGTH256];
TEXT errbuf[MSG_LENGTH];
// Store the first NUM_TERMS words as they appear in parms, using blanks
// to delimit. Each word beyond a real word gets a null char
// Shift parms to upper case, leaving original case in lparms
typedef TEXT* isql_params_t[MAX_TERMS];
isql_params_t parms, lparms;
for (int iter = 0; iter < FB_NELEM(lparms); ++iter) {
lparms[iter] = NULL;
parms[iter] = NULL;
}
const TEXT* p = statement;
// Any whitespace and comments at the beginning are already swallowed by get_statement()
// Set beginning of statement past comment
const TEXT* cmd = p;
if (*cmd) {
for (int i = 0; i < MAX_TERMS; i++) {
bool role_found = false;
TEXT* a = buffer;
int j = 0;
if (*p == DBL_QUOTE || *p == SINGLE_QUOTE) {
if (i > 0 && (!strcmp(parms[i - 1], "ROLE")))
role_found = true;
bool delimited_done = false;
const TEXT end_quote = *p;
j++;
*a++ = *p++;
// Allow a quoted string to have embedded spaces
// Prevent overflow
while (*p && !delimited_done && j < BUFFER_LENGTH256 - 1) {
if (*p == end_quote) {
j++;
*a++ = *p++;
if (*p && *p == end_quote && j < BUFFER_LENGTH256 - 1) {
j++; // do not skip the escape quote here
*a++ = *p++;
}
else
delimited_done = true;
}
else {
j++;
*a++ = *p++;
}
}
}
else {
// Prevent overflow
while (*p && !fb_isspace(*p) && j < BUFFER_LENGTH256 - 1) {
j++;
*a++ = *p++;
}
}
*a = '\0';
const size_t length = strlen(buffer);
parms[i] = (TEXT*) ISQL_ALLOC((SLONG) (length + 1));
lparms[i] = (TEXT*) ISQL_ALLOC((SLONG) (length + 1));
strncpy(parms[i], buffer, length);
parms[i][length] = '\0';
while (*p && fb_isspace(*p))
p++;
strcpy(lparms[i], parms[i]);
if (!role_found)
ISQL_make_upper(parms[i]);
}
}
char bad_dialect_buf[512];
bool bad_dialect = false;
// Look to see if the words (parms) match any known verbs. If nothing
// matches then just hand the statement to process_statement
processing_state ret = SKIP;
if (!*cmd) {
ret = SKIP; // redundant
}
else if (!strcmp(parms[0], "SHOW")) {
// Transaction for all frontend commands
if (DB && !gds_trans)
if (isc_start_transaction(isc_status, &gds_trans, 1, &DB, 0, NULL)) {
ISQL_errmsg(isc_status);
// Free the frontend command
frontend_free_parms(parms, lparms);
return FAIL;
}
ret = SHOW_metadata(parms, lparms);
if (gds_trans)
commit_trans(&gds_trans);
}
else if (!strcmp(parms[0], "ADD")) {
if (DB && !gds_trans)
if (isc_start_transaction(isc_status, &gds_trans, 1, &DB, 0, NULL)) {
ISQL_errmsg(isc_status);
// Free the frontend command
frontend_free_parms(parms, lparms);
return FAIL;
}
ret = add_row(lparms[1]);
if (gds_trans)
commit_trans(&gds_trans);
}
else if (!strcmp(parms[0], "COPY")) {
if (DB && !gds_trans)
if (isc_start_transaction(isc_status, &gds_trans, 1, &DB, 0, NULL)) {
ISQL_errmsg(isc_status);
// Free the frontend command
frontend_free_parms(parms, lparms);
return FAIL;
}
ret = copy_table(lparms[1], lparms[2], lparms[3]);
if (gds_trans)
commit_trans(&gds_trans);
}
#ifdef MU_ISQL
// This is code for QA Test bed Multiuser environment.
else if (!strcmp(parms[0], "PAUSE")) {
if (qa_mu_environment()) {
qa_mu_pause();
ret = SKIP;
}
else
ret = CONT;
}
#endif // MU_ISQL
else if ((!strcmp(parms[0], "BLOBVIEW")) || (!strcmp(parms[0], "BLOBDUMP")))
ret = blobedit(parms[0], lparms);
else if ((!strcmp(parms[0], "OUTPUT")) || (!strcmp(parms[0], "OUT")))
ret = newoutput(lparms[1]);
else if (!strcmp(parms[0], "SHELL"))
ret = escape(cmd);
else if (!strcmp(parms[0], "SET"))
{
ret = frontend_set(cmd, parms, lparms, bad_dialect_buf, bad_dialect);
}
else if (!strcmp(parms[0], "CREATE"))
{
if (!strcmp(parms[1], "DATABASE") || !strcmp(parms[1], "SCHEMA"))
ret = create_db(cmd, lparms[2]);
else
ret = CONT;
}
else if (!strcmp(parms[0], "DROP"))
{
if (!strcmp(parms[1], "DATABASE") || !strcmp(parms[1], "SCHEMA"))
if (*parms[2])
ret = ps_ERR;
else
ret = drop_db();
else
ret = CONT;
}
else if (!strcmp(parms[0], "CONNECT"))
{
const TEXT* psw = NULL;
const TEXT* usr = NULL;
const TEXT* sql_role_nm = NULL;
const TEXT* numbufs = NULL;
/* if a parameter is given in the command more than once, the
last one will be used. The parameters can appear each any
order, but each must provide a value. */
ret = SKIP;
for (int i = 2; i < (MAX_TERMS - 1);)
{
if (!strcmp(parms[i], "CACHE") && *lparms[i + 1])
{
numbufs = lparms[i + 1];
i += 2;
}
else if (!strcmp(parms[i], "USER") && *lparms[i + 1])
{
usr = lparms[i + 1];
i += 2;
}
else if (!strcmp(parms[i], "PASSWORD") && *lparms[i + 1])
{
psw = lparms[i + 1];
i += 2;
}
else if (!strcmp(parms[i], "ROLE") && *lparms[i + 1])
{
sql_role_nm = lparms[i + 1];
i += 2;
}
else if (*parms[i])
{
// Unrecognized option to CONNECT
ret = ps_ERR;
break;
}
else
i++;
}
if (ret != ps_ERR)
ret = newdb(lparms[1], usr, psw, numbufs, sql_role_nm, true);
}
#ifdef SCROLLABLE_CURSORS
// Perform scrolling within the currently active cursor
else if (!strcmp(parms[0], "NEXT")) {
fetch_offset = 1;
fetch_direction = 0;
ret = FETCH;
}
else if (!strcmp(parms[0], "PRIOR")) {
fetch_offset = 1;
fetch_direction = 1;
ret = FETCH;
}
else if (!strcmp(parms[0], "FIRST")) {
fetch_offset = 1;
fetch_direction = 2;
ret = FETCH;
}
else if (!strcmp(parms[0], "LAST")) {
fetch_offset = 1;
fetch_direction = 3;
ret = FETCH;
}
else if (!strcmp(parms[0], "ABSOLUTE")) {
fetch_direction = 4;
fetch_offset = atoi(parms[1]);
ret = FETCH;
}
else if (!strcmp(parms[0], "RELATIVE")) {
fetch_direction = 5;
fetch_offset = atoi(parms[1]);
ret = FETCH;
}
#endif
else if (!strcmp(parms[0], "EDIT"))
ret = edit(lparms);
else if ((!strcmp(parms[0], "INPUT")) || (!strcmp(parms[0], "IN"))) {
// CVC: Set by input() below only if successful.
//Input_file = true;
ret = input(lparms[1]);
}
else if (!strcmp(parms[0], "QUIT"))
ret = BACKOUT;
else if (!strcmp(parms[0], "EXIT"))
ret = EXIT;
else if (!strcmp(parms[0], "?") || (!strcmp(parms[0], "HELP")))
ret = help(parms[1]);
else // Didn't match, it must be SQL
ret = CONT;
// In case any default transaction was started - commit it here
if (gds_trans)
commit_trans(&gds_trans);
// Free the frontend command
frontend_free_parms(parms, lparms);
if (ret == ps_ERR) {
if (bad_dialect)
ISQL_msg_get(CMD_ERR, errbuf, bad_dialect_buf);
else
ISQL_msg_get(CMD_ERR, errbuf, cmd);
STDERROUT(errbuf);
}
return ret;
}
static void frontend_free_parms(TEXT* parms[], TEXT* lparms[])
{
for (int j = 0; j < MAX_TERMS; j++) {
if (parms[j]) {
ISQL_FREE(parms[j]);
ISQL_FREE(lparms[j]);
}
}
}
// ***********************
// f r o n t e n d _ s e t
// ***********************
// Validates and executes the SET {option {params}} command.
static processing_state frontend_set(const char* cmd, const char* const* parms,
const char* const* lparms, char* const bad_dialect_buf, bool& bad_dialect)
{
processing_state ret = SKIP;
// Display current set options
if (!*parms[1])
ret = print_sets();
else if ((!strcmp(parms[1], "STATS")) || (!strcmp(parms[1], "STAT")))
ret = do_set_command(parms[2], &Stats);
else if (!strcmp(parms[1], "COUNT"))
ret = do_set_command(parms[2], &Docount);
else if (!strcmp(parms[1], "LIST"))
ret = do_set_command(parms[2], &List);
else if (!strcmp(parms[1], "PLAN"))
{
ret = do_set_command(parms[2], &Plan);
if (Planonly && !Plan)
ret = do_set_command("OFF", &Planonly);
}
else if (!strcmp (parms[1], "PLANONLY")) {
ret = do_set_command (parms[2], &Planonly);
if ( Planonly && !Plan ) {
// turn on plan
ret = do_set_command ("ON", &Plan);
}
}
else if ((!strcmp(parms[1], "BLOBDISPLAY")) ||
(!strcmp(parms[1], "BLOB")))
{
// No arg means turn off blob display
if (!*parms[2] || !strcmp(parms[2], "OFF"))
Doblob = NO_BLOBS;
else if (!strcmp(parms[2], "ALL"))
Doblob = ALL_BLOBS;
else
Doblob = atoi(parms[2]);
}
else if (!strcmp(parms[1], "ECHO")) {
ret = do_set_command(parms[2], &Echo);
if (!Echo)
ISQL_prompt("");
}
else if ((!strcmp(parms[1], "AUTODDL")) ||
(!strcmp(parms[1], "AUTO")))
{
ret = do_set_command(parms[2], &Autocommit);
}
#ifdef SCROLLABLE_CURSORS
else if (!strcmp(parms[1], "AUTOFETCH"))
ret = do_set_command(parms[2], &Autofetch);
#endif
else if (!strcmp(parms[1], "WIDTH"))
ret = newsize(parms[2], parms[3]);
else if ((!strcmp(parms[1], "TRANSACTION")) ||
(!strcmp(parms[1], "TRANS")))
{
ret = newtrans(cmd);
}
else if ((!strcmp(parms[1], "TERM")) ||
(!strcmp(parms[1], "TERMINATOR")))
{
const TEXT* a = (*lparms[2]) ? lparms[2] : DEFTERM;
Termlen = strlen(a);
if (Termlen < MAXTERM_SIZE)
{
strcpy(isqlGlob.global_Term, a);
}
else
{
Termlen = MAXTERM_SIZE - 1;
strncpy(isqlGlob.global_Term, a, Termlen);
isqlGlob.global_Term[Termlen] = 0;
}
}
else if (!strcmp(parms[1], "NAMES"))
{
if (!*parms[2])
{
const size_t lgth = strlen(DEFCHARSET);
if (lgth < MAXCHARSET_SIZE)
strcpy(ISQL_charset, DEFCHARSET);
else
{
strncpy(ISQL_charset, DEFCHARSET, MAXCHARSET_SIZE - 1);
ISQL_charset[MAXCHARSET_SIZE - 1] = 0;
}
}
else
{
const size_t lgth = strlen(parms[2]);
if (lgth < MAXCHARSET_SIZE)
strcpy(ISQL_charset, parms[2]);
else
{
strncpy(ISQL_charset, parms[2], MAXCHARSET_SIZE - 1);
ISQL_charset[MAXCHARSET_SIZE - 1] = 0;
}
}
}
else if (!strcmp(parms[1], "TIME"))
{
ret = do_set_command(parms[2], &Time_display);
}
//#ifdef DEV_BUILD
else if (!strcmp(parms[1], "SQLDA_DISPLAY"))
{
ret = do_set_command(parms[2], &Sqlda_display);
}
//#endif // DEV_BUILD
else if (!strcmp(parms[1], "SQL"))
{
if (!strcmp(parms[2], "DIALECT"))
ret = get_dialect(parms[3], bad_dialect_buf, bad_dialect);
else
ret = ps_ERR;
}
else if (!strcmp (parms[1], "WARNINGS") || !strcmp (parms[1], "WNG")) {
ret = do_set_command (parms[2], &Warnings);
}
else if (!strcmp(parms[1], "GENERATOR"))
ret = CONT;
else if (!strcmp(parms[1], "STATISTICS"))
ret = CONT;
else if (!strcmp(parms[1], "HEADING"))
ret = do_set_command(parms[2], &Heading);
else if (!strcmp(parms[1], "BAIL"))
ret = do_set_command(parms[2], &BailOnError);
else
ret = ps_ERR;
return ret;
}
static processing_state do_set_command(const TEXT* parm,
bool* global_flag)
{
/**************************************
*
* d o _ s e t _ c o m m a n d
*
**************************************
*
* Functional description
* set the flag pointed to by global_flag
* to true or false.
* if parm is missing, toggle it
* if parm is "ON", set it to true
* if parm is "OFF", set it to false
*
**************************************/
processing_state ret = SKIP;
if (!*parm)
*global_flag = !*global_flag;
else if (!strcmp(parm, "ON"))
*global_flag = true;
else if (!strcmp(parm, "OFF"))
*global_flag = false;
else
ret = ps_ERR;
return (ret);
}
// *********************
// g e t _ d i a l e c t
// *********************
// Validates SET SQL DIALECT command according to the target db.
static processing_state get_dialect(const char* const dialect_str,
char* const bad_dialect_buf, bool& bad_dialect)
{
processing_state ret = SKIP;
bool print_warning = false;
const USHORT old_SQL_dialect = isqlGlob.SQL_dialect; // save the old SQL dialect
if (dialect_str && (isqlGlob.SQL_dialect = atoi(dialect_str)))
{
if (isqlGlob.SQL_dialect < SQL_DIALECT_V5 ||
isqlGlob.SQL_dialect > SQL_DIALECT_V6)
{
bad_dialect = true;
sprintf(bad_dialect_buf, "%s%s",
"invalid SQL dialect ", dialect_str);
isqlGlob.SQL_dialect = old_SQL_dialect; // restore SQL dialect
ret = ps_ERR;
}
else
{
if (isqlGlob.major_ods)
{
if (isqlGlob.major_ods < ODS_VERSION10)
{
if (isqlGlob.SQL_dialect > SQL_DIALECT_V5)
{
if (global_dialect_spoken) {
sprintf(bad_dialect_buf,
"%s%d%s%s%s%d%s",
"ERROR: Database SQL dialect ",
global_dialect_spoken,
" database does not accept Client SQL dialect ",
dialect_str,
" setting. Client SQL dialect still remains ",
old_SQL_dialect, NEWLINE);
}
else {
sprintf(bad_dialect_buf,
"%s%s%s%s%s%s",
"ERROR: Pre IB V6 database only speaks ",
"Database SQL dialect 1 and ",
"does not accept Client SQL dialect ",
dialect_str,
" setting. Client SQL dialect still remains 1.",
NEWLINE);
}
isqlGlob.SQL_dialect = old_SQL_dialect; // restore SQL dialect
ISQL_printf(isqlGlob.Out, bad_dialect_buf);
}
}
else
{ // ODS 10 databases
switch (global_dialect_spoken)
{
case SQL_DIALECT_V5:
if (isqlGlob.SQL_dialect > SQL_DIALECT_V5)
{
if (SQL_DIALECT_V6_TRANSITION)
Merge_stderr = true;
print_warning = true;
}
break;
case SQL_DIALECT_V6:
if (isqlGlob.SQL_dialect == SQL_DIALECT_V5 ||
isqlGlob.SQL_dialect == SQL_DIALECT_V6_TRANSITION)
{
if (SQL_DIALECT_V6_TRANSITION)
Merge_stderr = true;
print_warning = true;
}
break;
default:
break;
}
if (print_warning && Warnings)
{
//print_warning = false;
sprintf(bad_dialect_buf, "%s%d%s%d%s%s",
"WARNING: Client SQL dialect has been set to ",
isqlGlob.SQL_dialect,
" when connecting to Database SQL dialect ",
global_dialect_spoken,
" database. ", NEWLINE);
ISQL_printf(isqlGlob.Out, bad_dialect_buf);
}
}
}
}
}
else
{ // handle non numeric invalid "set sql dialect" case
isqlGlob.SQL_dialect = old_SQL_dialect; // restore SQL dialect
bad_dialect = true;
sprintf(bad_dialect_buf, "%s%s", "invalid SQL dialect ",
dialect_str);
ret = ps_ERR;
}
return ret;
}
static processing_state get_statement(TEXT* const statement,
const size_t bufsize,
const TEXT* statement_prompt)
{
/**************************************
*
* g e t _ s t a t e m e n t
*
**************************************
*
* Functional description
* Get an SQL statement, or QUIT/EXIT command to process
*
* Arguments: Pointer to statement, size of statement_buffer and prompt msg.
*
**************************************/
processing_state ret = CONT;
indev* flist = 0;
// Lookup the continuation prompt once
TEXT con_prompt[MSG_LENGTH];
ISQL_msg_get(CON_PROMPT, con_prompt, NULL);
if (Interactive && !Input_file || Echo) {
ISQL_prompt(statement_prompt);
}
// Clear out statement buffer
TEXT* p = statement;
*p = '\0';
// Set count of characters to zero
int count = 0;
int valuable_count = 0; // counter of valuable (non-space) chars
const int term_length = Termlen - 1; // additional variable for decreasing calculation
Ifp.indev_line = Ifp.indev_aux;
bool done = false;
enum {normal, in_single_line_comment, in_comment,
in_single_quoted_string, in_double_quoted_string} state = normal;
while (!done) {
SSHORT c = getNextInputChar();
switch (c) {
case EOF:
// Go back to getc if we get interrupted by a signal.
if (SYSCALL_INTERRUPTED(errno)) {
errno = 0;
break;
}
// If there was something valuable before EOF - error
if (valuable_count > 0) {
TEXT errbuf[MSG_LENGTH];
ISQL_msg_get(UNEXPECTED_EOF, errbuf, NULL);
STDERROUT(errbuf);
Exit_value = FINI_ERROR;
}
// If we hit EOF at the top of the flist, exit time
// Save the last flist so it can be deleted
flist = Filelist;
if (!flist->indev_next)
return FOUND_EOF;
// If this is not tmpfile, close it
if (Ifp.indev_fpointer != Ofp)
fclose(Ifp.indev_fpointer);
Filelist = flist->indev_next;
// Reset to previous after other input
Ifp.copy_from(flist);
ISQL_FREE(flist);
if (Interactive && !Input_file || Echo)
ISQL_prompt(statement_prompt);
// CVC: Let's detect if we went back to the first level.
if (Ifp.indev_fpointer == stdin)
{
Interactive = true;
Input_file = false;
}
// Try to convince the new routines to go back to previous file(s)
// This should fix the INPUT bug introduced with editline.
getColumn = -1;
break;
case '\n':
// case '\0': // In particular with readline the \n is removed
if (state == in_single_line_comment)
{
state = normal;
}
/* Catch the help ? without a terminator */
if (*statement == '?' && count == 1) {
c = 0;
done = true;
break;
}
// If in a comment, keep reading
if (Interactive && !Input_file || Echo)
{
if (state == in_comment)
{ // Comment prompt
ISQL_prompt("--> ");
}
else if (valuable_count == 0)
{ // Ignore a series of nothing at the beginning
ISQL_prompt(statement_prompt);
}
else
{
ISQL_prompt(con_prompt);
}
}
break;
case '-':
// Could this the be start of a single-line comment.
if (state == normal && count > 0 && (*(p - 1) == '-'))
{
state = in_single_line_comment;
if (valuable_count == 1)
valuable_count = 0;
}
break;
case '*':
// Could this the be start of a comment. We can only look back,
// not forward.
// Ignore possibilities of a comment beginning inside
// quoted strings.
if (state == normal && count > 0 && (*(p - 1) == '/'))
{
state = in_comment;
if (valuable_count == 1)
valuable_count = 0;
}
break;
case '/':
// Perhaps this is the end of a comment.
// Ignore possibilities of a comment ending inside
// quoted strings.
if (state == in_comment && (*(p - 1) == '*'))
{
state = normal;
valuable_count--; // This char is not valuable
}
break;
case SINGLE_QUOTE:
switch (state)
{
case normal:
state = in_single_quoted_string;
break;
case in_single_quoted_string:
state = normal;
break;
}
break;
case DBL_QUOTE:
switch (state)
{
case normal:
state = in_double_quoted_string;
break;
case in_double_quoted_string:
state = normal;
break;
}
break;
default:
if (state == normal && c == isqlGlob.global_Term[term_length] &&
// one-char terminator or the beginning also match
(Termlen == 1 ||
(valuable_count >= term_length &&
strncmp(p - term_length, isqlGlob.global_Term, term_length) == 0)))
{
c = 0;
done = true;
p -= term_length;
count -= term_length;
}
}
// Any non-space character is significant if not in comment
if (state != in_comment &&
state != in_single_line_comment &&
!fb_isspace(c) && c != EOF)
{
valuable_count++;
if (valuable_count == 1) // this is the first valuable char in stream
{ // ignore all previous crap
p = statement;
count = 0;
}
}
*p++ = c;
count++;
if (count > bufsize && !done)
{
TEXT errbuf[MSG_LENGTH];
ISQL_msg_get(BUFFER_OVERFLOW, errbuf, NULL);
STDERROUT(errbuf);
ret = SKIP;
// move some content to start of buffer just in case if
// the overflow has splitted terminator
count = MAX(Termlen, 2);
memcpy(statement, p - count, count);
p = statement + count;
*p = '\0';
}
}
// If this was a null statement, skip it
if (!*statement)
ret = SKIP;
if (ret == CONT)
ret = frontend(statement);
if (ret == CONT) {
// Place each non frontend statement in the temp file if we are reading
// from stdin. Add newline to make the file more readable.
if (Ifp.indev_fpointer == stdin) {
fputs(statement, Ofp);
fputs(isqlGlob.global_Term, Ofp);
fputc('\n', Ofp);
}
}
return ret;
}
static void get_str(const TEXT* const input_str,
const TEXT** str_begin,
const TEXT** str_end,
literal_string_type* str_flag)
{
/**************************************
*
* g e t _ s t r
*
**************************************
*
* Functional description
*
* Scanning a string constant from the input buffer. If it found, then
* passes back the starting address and ending address of the string
* constant. It also marks the type of string constant and passes back.
*
* string type:
*
* 1. SINGLE_QUOTED_STRING --- string constant delimited by
* single quotes
* 2. DOUBLE_QUOTED_STRING --- string constant delimited by
* double quotes
* 3. NO_MORE_STRING --- no string constant was found
*
* 4. INCOMPLETE_STRING --- no matching ending quote
*
* Input Arguments:
*
* 1. input buffer
*
* Output Arguments:
*
* 1. pointer to the input buffer
* 2. address to the begining of a string constant
* 3. address to the ending of a string constant
* 4. address to the string flag
*
**************************************/
const TEXT* b1 = strchr(input_str, SINGLE_QUOTE);
const TEXT* b2 = strchr(input_str, DBL_QUOTE);
if (!b1 && !b2)
*str_flag = NO_MORE_STRING;
else {
if (b1 && !b2)
*str_flag = SINGLE_QUOTED_STRING;
else if (!b1 && b2) {
*str_flag = DOUBLE_QUOTED_STRING;
b1 = b2;
}
else if (b1 > b2) {
*str_flag = DOUBLE_QUOTED_STRING;
b1 = b2;
}
else
*str_flag = SINGLE_QUOTED_STRING;
*str_begin = b1;
TEXT delimited_char = *b1;
b1++;
bool done = false;
while (!done)
{
if (*b1 == delimited_char) {
b1++;
if (*b1 == delimited_char)
b1++;
else {
done = true;
*str_end = b1;
}
}
else
b1 = strchr(b1, delimited_char);
/* In case there is no matching ending quote (single or double)
either because of mismatched quotes or simply because user
didn't complete the quotes, we cannot find a valid string
at all. So we return a special value INCOMPLETE_STRING.
In this case str_end is not populated and hence copy_str
should not be called after get_str, but instead the caller
must process this error & return to it's calling routine
- Shailesh */
if (b1 == NULL) {
*str_flag = INCOMPLETE_STRING;
done = true;
}
}
}
}
void ISQL_get_version(bool call_by_create_db)
{
/**************************************
*
* I S Q L _ g e t _ v e r s i o n
*
**************************************
*
* Functional description
* finds out if the database we just attached to is
* V4 or newer as well as other info.
*
**************************************/
static const UCHAR db_version_info[] = {
isc_info_ods_version,
//isc_info_ods_minor_version,
isc_info_db_sql_dialect,
isc_info_firebird_version,
isc_info_end
};
/*
** Each info item requested will return
**
** 1 byte for the info item tag
** 2 bytes for the length of the information that follows
** 1 to 4 bytes of integer information
**
** isc_info_end will not have a 2-byte length - which gives us
** some padding in the buffer.
*/
// UCHAR buffer[sizeof(db_version_info) * (1 + 2 + 4)];
// Now we are also getting the Firebird server version which is a
// string the above calculation does not apply. NM 03-Oct-2001
UCHAR buffer[BUFFER_LENGTH512];
char bad_dialect_buf[BUFFER_LENGTH512];
bool print_warning = false;
global_dialect_spoken = 0;
if (isc_database_info(isc_status, &DB, sizeof(db_version_info),
reinterpret_cast<const char*>(db_version_info),
sizeof(buffer), (SCHAR*) buffer))
{
ISQL_errmsg(isc_status);
return;
}
// We assume the version information provided by the server is less than 200 bytes.
char server_version[256];
const UCHAR* p = buffer;
while (*p != isc_info_end && *p != isc_info_truncated) {
const UCHAR item = (UCHAR) *p++;
const USHORT length = gds__vax_integer(p, sizeof(USHORT));
p += sizeof(USHORT);
switch (item) {
case isc_info_ods_version:
isqlGlob.major_ods = gds__vax_integer(p, length);
break;
//case isc_info_ods_minor_version:
// minor_ods = gds__vax_integer(p, length);
// break;
case isc_info_db_sql_dialect:
global_dialect_spoken = gds__vax_integer(p, length);
if (isqlGlob.major_ods < ODS_VERSION10) {
if (isqlGlob.SQL_dialect > SQL_DIALECT_V5 && Warnings) {
ISQL_printf(isqlGlob.Out, NEWLINE);
sprintf(bad_dialect_buf, "%s%s%s%d%s%s",
"WARNING: Pre IB V6 database only speaks",
" SQL dialect 1 and ",
"does not accept Client SQL dialect ",
isqlGlob.SQL_dialect,
" . Client SQL dialect is reset to 1.", NEWLINE);
ISQL_printf(isqlGlob.Out, bad_dialect_buf);
}
}
else { // ODS 10 databases
switch (global_dialect_spoken) {
case SQL_DIALECT_V5:
if (isqlGlob.SQL_dialect > SQL_DIALECT_V5)
print_warning = true;
break;
case SQL_DIALECT_V6:
if (isqlGlob.SQL_dialect != 0 && isqlGlob.SQL_dialect < SQL_DIALECT_V6)
print_warning = true;
break;
default:
break;
}
if (print_warning && Warnings) {
print_warning = false;
ISQL_printf(isqlGlob.Out, NEWLINE);
sprintf(bad_dialect_buf, "%s%d%s%d%s%s",
"WARNING: This database speaks SQL dialect ",
global_dialect_spoken,
" but Client SQL dialect was set to ",
isqlGlob.SQL_dialect, " .", NEWLINE);
ISQL_printf(isqlGlob.Out, bad_dialect_buf);
}
}
break;
case isc_info_error:
// Error indicates an option was not understood by the
// remote server.
if (*p == isc_info_firebird_version) {
// must be an old or non Firebird server
break;
}
if (isqlGlob.SQL_dialect && isqlGlob.SQL_dialect != SQL_DIALECT_V5 && Warnings) {
ISQL_printf(isqlGlob.Out, NEWLINE);
if (call_by_create_db)
sprintf(bad_dialect_buf, "%s%s%d%s%s",
"WARNING: Pre IB V6 server only speaks SQL dialect 1",
" and does not accept Client SQL dialect ",
isqlGlob.SQL_dialect,
" . Client SQL dialect is reset to 1.", NEWLINE);
else {
connecting_to_pre_v6_server = true;
sprintf(bad_dialect_buf, "%s%s%d%s%s",
"ERROR: Pre IB V6 server only speaks SQL dialect 1",
" and does not accept Client SQL dialect ",
isqlGlob.SQL_dialect,
" . Client SQL dialect is reset to 1.", NEWLINE);
}
ISQL_printf(isqlGlob.Out, bad_dialect_buf);
}
else {
if (isqlGlob.SQL_dialect == 0) {
connecting_to_pre_v6_server = true;
sprintf(bad_dialect_buf, "%s%s%d%s%s",
"ERROR: Pre IB V6 server only speaks SQL dialect 1",
" and does not accept Client SQL dialect ",
isqlGlob.SQL_dialect,
" . Client SQL dialect is reset to 1.", NEWLINE);
ISQL_printf(isqlGlob.Out, bad_dialect_buf);
}
}
break;
case isc_info_firebird_version:
strcpy(server_version, "Server: ");
strncat(server_version, (char*) &p[2], (length - 2));
if (Version_info) {
strcat(server_version, NEWLINE);
ISQL_printf (isqlGlob.Out, server_version);
}
break;
default:
{
TEXT message[100];
sprintf(message,
"Internal error: Unexpected isc_info_value %d\n",
item);
ISQL_printf(isqlGlob.Out, message);
}
break;
}
p += length;
}
if (isqlGlob.major_ods < ODS_VERSION8) {
TEXT errbuf[MSG_LENGTH];
ISQL_msg_get(SERVER_TOO_OLD, errbuf, NULL);
STDERROUT(errbuf);
return;
}
/* If the remote server did not respond to our request for
"dialects spoken", then we can assume it can only speak
the V5 dialect. We automatically change the connection
dialect to that spoken by the server. Otherwise the
current dialect is set to whatever the user requested. */
if (global_dialect_spoken == 0)
isqlGlob.SQL_dialect = SQL_DIALECT_V5;
else if (isqlGlob.major_ods < ODS_VERSION10)
isqlGlob.SQL_dialect = global_dialect_spoken;
else if (isqlGlob.SQL_dialect == 0) // client SQL dialect has not been set
isqlGlob.SQL_dialect = global_dialect_spoken;
if (global_dialect_spoken > 0)
isqlGlob.db_SQL_dialect = global_dialect_spoken;
else
isqlGlob.db_SQL_dialect = SQL_DIALECT_V5;
}
void ISQL_remove_and_unescape_quotes(TEXT* string, const char quote)
{
/**************************************
*
* I S Q L _ r e m o v e _ a n d _ u n e s c a p e _ q u o t e s
*
**************************************
*
* Functional description
* Remove the delimited quotes. Blanks could be part of
* delimited SQL identifier. It has to deal with embedded quotes, too.
*
**************************************/
const size_t cmd_len = strlen(string);
TEXT* q = string;
const TEXT* p = q;
const TEXT* const end_of_str = p + cmd_len;
for (size_t cnt = 1; cnt < cmd_len && p < end_of_str; cnt++) {
p++;
if (cnt < cmd_len - 1) {
*q = *p;
if (p + 1 < end_of_str) {
if (*(p + 1) == quote) // skip the escape double quote
p++;
}
else {
p++;
*q = '\0';
}
}
else {
*q = '\0';
}
q++;
}
*q = '\0';
}
void ISQL_truncate_term(TEXT* str,
USHORT len)
{
/**************************************
*
* I S Q L _ t r u n c a t e _ t e r m
*
**************************************
*
* Functional description
* Truncates the rightmost contiguous spaces on a string.
* CVC: Notice isspace may be influenced by locales.
**************************************/
int i;
for (i = len - 1; i >= 0 && ((fb_isspace(str[i])) || (str[i] == 0)); i--);
str[i + 1] = 0;
}
void ISQL_ri_action_print(const TEXT* ri_action_str,
const TEXT* ri_action_prefix_str,
bool all_caps)
{
/**************************************
*
* I S Q L _ r i _ a c t i o n _ p r i n t
*
**************************************
*
* Functional description
* prints the description of ref. integrity actions.
* The actions must be one of the cascading actions or RESTRICT.
* RESTRICT is used to indicate that the user did not specify any
* actions, so do not print it out.
*
**************************************/
for (const ri_actions* ref_int = ri_actions_all; ref_int->ri_action_name;
++ref_int)
{
if (!strcmp(ref_int->ri_action_name, ri_action_str)) {
if (*ref_int->ri_action_print_caps)
{
// we have something to print
if (all_caps)
sprintf(Print_buffer, "%s %s", ri_action_prefix_str,
ref_int->ri_action_print_caps);
else if (*ref_int->ri_action_print_mixed)
sprintf(Print_buffer, "%s %s", ri_action_prefix_str,
ref_int->ri_action_print_mixed);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
return;
}
}
fb_assert(FALSE);
}
static bool get_numeric(const UCHAR* string,
USHORT length,
SSHORT* scale,
SINT64* ptr)
{
/**************************************
*
* g e t _ n u m e r i c
*
**************************************
*
* Functional description
* Convert a numeric literal (string) to its binary value.
*
* The binary value (int64) is stored at the
* address given by ptr.
*
**************************************/
SINT64 value = 0;
SSHORT local_scale = 0, sign = 0;
bool digit_seen = false, fraction = false;
const UCHAR* const end = string + length;
for (const UCHAR* p = string; p < end; p++) {
if (DIGIT(*p)) {
digit_seen = true;
/* Before computing the next value, make sure there will be
no overflow. Trying to detect overflow after the fact is
tricky: the value doesn't always become negative after an
overflow! */
if (value >= INT64_LIMIT) {
// possibility of an overflow
if (value > INT64_LIMIT)
break;
else if (((*p > '8') && (sign == -1))
|| ((*p > '7') && (sign != -1)))
{
break;
}
}
/* Force the subtraction to be performed before the addition,
thus preventing a possible signed arithmetic overflow. */
value = value * 10 + (*p - '0');
if (fraction)
--local_scale;
}
else if (*p == '.') {
if (fraction)
return false;
else
fraction = true;
}
else if (*p == '-' && !digit_seen && !sign && !fraction)
sign = -1;
else if (*p == '+' && !digit_seen && !sign && !fraction)
sign = 1;
else if (*p != BLANK)
return false;
}
if (!digit_seen)
return false;
*scale = local_scale;
*(SINT64*) ptr = ((sign == -1) ? -value : value);
return true;
}
static processing_state print_sets()
{
/**************************************
*
* p r i n t _ s e t s
*
**************************************
*
* Functional description
* Print the current set values
*
**************************************/
ISQL_printf(isqlGlob.Out, "Print statistics: ");
ISQL_printf(isqlGlob.Out, (Stats ? "ON" : "OFF"));
ISQL_printf(isqlGlob.Out, NEWLINE);
ISQL_printf(isqlGlob.Out, "Echo commands: ");
ISQL_printf(isqlGlob.Out, (Echo ? "ON" : "OFF"));
ISQL_printf(isqlGlob.Out, NEWLINE);
ISQL_printf(isqlGlob.Out, "List format: ");
ISQL_printf(isqlGlob.Out, (List ? "ON" : "OFF"));
ISQL_printf(isqlGlob.Out, NEWLINE);
ISQL_printf(isqlGlob.Out, "Row Count: ");
ISQL_printf(isqlGlob.Out, (Docount ? "ON" : "OFF"));
ISQL_printf(isqlGlob.Out, NEWLINE);
ISQL_printf(isqlGlob.Out, "Autocommit DDL: ");
ISQL_printf(isqlGlob.Out, (Autocommit ? "ON" : "OFF"));
ISQL_printf(isqlGlob.Out, NEWLINE);
#ifdef SCROLLABLE_CURSORS
ISQL_printf(isqlGlob.Out, "Autofetch records: ");
ISQL_printf(isqlGlob.Out, (Autofetch ? "ON" : "OFF"));
ISQL_printf(isqlGlob.Out, NEWLINE);
#endif
ISQL_printf(isqlGlob.Out, "Access Plan: ");
ISQL_printf(isqlGlob.Out, (Plan ? "ON" : "OFF"));
ISQL_printf(isqlGlob.Out, NEWLINE);
ISQL_printf(isqlGlob.Out, "Access Plan only: ");
ISQL_printf(isqlGlob.Out, (Planonly ? "ON" : "OFF"));
ISQL_printf(isqlGlob.Out, NEWLINE);
ISQL_printf(isqlGlob.Out, "Display BLOB type: ");
if (Doblob == ALL_BLOBS)
ISQL_printf(isqlGlob.Out, "ALL");
else if (Doblob == NO_BLOBS)
ISQL_printf(isqlGlob.Out, "NONE");
else {
sprintf(Print_buffer, "%d", Doblob);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
ISQL_printf(isqlGlob.Out, NEWLINE);
if (*ISQL_charset && strcmp(ISQL_charset, DEFCHARSET)) {
sprintf(Print_buffer, "Set names: %s%s",
ISQL_charset, NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
ISQL_printf(isqlGlob.Out, "Column headings: ");
ISQL_printf(isqlGlob.Out, Heading ? "ON" : "OFF");
ISQL_printf(isqlGlob.Out, NEWLINE);
if (global_Cols) {
sprintf(Print_buffer, "Column print widths:%s", NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
const collist* p = global_Cols;
while (p) {
sprintf(Print_buffer, "%s%s width: %d%s",
TAB_AS_SPACES, p->col_name, p->col_len, NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
p = p->collist_next;
}
}
ISQL_printf(isqlGlob.Out, "Terminator: ");
ISQL_printf(isqlGlob.Out, isqlGlob.global_Term);
ISQL_printf(isqlGlob.Out, NEWLINE);
sprintf(Print_buffer, "Time: %s%s",
(Time_display) ? "ON" : "OFF", NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
sprintf(Print_buffer, "Warnings: %s%s",
(Warnings) ? "ON" : "OFF", NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
sprintf(Print_buffer, "Bail on error: %s%s",
(BailOnError) ? "ON" : "OFF", NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
return SKIP;
}
static processing_state help(const TEXT* what)
{
/**************************************
*
* h e l p
*
**************************************
*
* Functional description
* List the known commands.
*
**************************************/
// Ordered list of help messages to display. Use -1 to terminate list,
// and 0 for an empty blank line
static const SSHORT help_ids[] = {
HLP_FRONTEND, // Frontend commands:
HLP_BLOBDMP, /*BLOBDUMP <blobid> <file> -- dump BLOB to a file */
HLP_BLOBVIEW, /*BLOBVIEW <blobid> -- view BLOB in text editor */
HLP_EDIT, /*EDIT [<filename>] -- edit SQL script file and execute */
HLP_EDIT2, /*EDIT -- edit current command buffer and execute */
HLP_HELP, /*HELP -- display this menu */
HLP_INPUT, /*INput <filename> -- take input from the named SQL file */
HLP_OUTPUT, /*OUTput [<filename>] -- write output to named file */
HLP_OUTPUT2, /*OUTput -- return output to stdout */
HLP_SET_ROOT, /*SET <option> -- (use HELP SET for list) */
HLP_SHELL, /*SHELL <command> -- execute Operating System command in sub-shell */
HLP_SHOW, /*SHOW <object> [<name>] -- display system information */
HLP_OBJTYPE, /* <object> = CHECK, DATABASE, DOMAIN, EXCEPTION, FILTER, FUNCTION, GENERATOR, */
HLP_OBJTYPE2, /* GRANT, INDEX, PROCEDURE, ROLE, SQL DIALECT, SYSTEM, TABLE, */
HLP_OBJTYPE3, /* TRIGGER, VERSION, VIEW */
HLP_EXIT, /*EXIT -- exit and commit changes */
HLP_QUIT, /*QUIT -- exit and roll back changes */
0,
HLP_ALL, // All commands may be abbreviated to letters in CAPitals
-1 // end of list
};
static const SSHORT help_set_ids[] = {
HLP_SETCOM, //Set commands:
HLP_SET, /* SET -- display current SET options */
HLP_SETAUTO, /* SET AUTOddl -- toggle autocommit of DDL statements */
#ifdef SCROLLABLE_CURSORS
HLP_SETFETCH, /* SET AUTOfetch -- toggle autofetch of records */
#endif
HLP_SETBAIL, /* SET BAIL -- toggle bailing out on errors in non-interactive mode */
HLP_SETBLOB, /* SET BLOB [ALL|<n>] -- display BLOBS of subtype <n> or ALL */
HLP_SETBLOB2, /* SET BLOB -- turn off BLOB display */
HLP_SETCOUNT, /* SET COUNT -- toggle count of selected rows on/off */
HLP_SETECHO, /* SET ECHO -- toggle command echo on/off */
HLP_SETHEADING, // SET HEADING -- toggle column titles display on/off
HLP_SETLIST, /* SET LIST -- toggle column or table display format */
HLP_SETNAMES, /* SET NAMES <csname> -- set name of runtime character set */
HLP_SETPLAN, /* SET PLAN -- toggle display of query access plan */
HLP_SETPLANONLY, /* SET PLANONLY -- toggle display of query plan without executing*/
HLP_SETSQLDIALECT, /* SET SQL DIALECT <n> -- set sql dialect to <n> */
HLP_SETSTAT, /* SET STATs -- toggle display of performance statistics */
HLP_SETTIME, /* SET TIME -- toggle display of timestamp with DATE values */
HLP_SETTERM, /* SET TERM <string> -- change statement terminator string */
HLP_SETWIDTH, /* SET WIDTH <col> [<n>] -- set/unset print width to <n> for column <col> */
0,
HLP_ALL, // All commands may be abbreviated to letters in CAPitals
-1 // end of list
};
TEXT msg[MSG_LENGTH];
const SSHORT* msgid;
if (!strcmp(what, "SET")) {
msgid = help_set_ids;
}
else {
msgid = help_ids;
}
for (; *msgid != -1; msgid++) {
if (*msgid != 0) {
ISQL_msg_get(*msgid, msg, NULL);
ISQL_printf(Help, msg);
}
ISQL_printf(Help, NEWLINE);
}
return (SKIP);
}
static processing_state input(const TEXT* infile)
{
/**************************************
*
* i n p u t
*
**************************************
*
* Functional description
* Read commands from the named input file
*
* Parameters: infile -- Second word of the command line
* filelist is a stack of file pointers to
* return from nested inputs
*
* The result of calling this is to point the
* global input file pointer, Ifp, to the named file.
*
**************************************/
TEXT errbuf[MSG_LENGTH];
// If there is no file name specified, return error
if (!infile || !*infile) {
return ps_ERR;
}
TEXT path[MAXPATHLEN];
strip_quotes(infile, path);
const TEXT* file = path;
// filelist is a linked list of file pointers. We must add a node to
// the linked list before discarding the current Ifp.
// Filelist is a global pointing to base of list.
FILE* fp = fopen(file, "r");
if (fp) {
indev* current = (indev*) ISQL_ALLOC((SLONG) sizeof(indev));
current->copy_from(&Ifp);
current->indev_next = Filelist;
Filelist = current;
Ifp.init(fp, file);
}
else {
ISQL_msg_get(FILE_OPEN_ERR, errbuf, file);
STDERROUT(errbuf);
return FAIL;
}
Input_file = true;
return SKIP;
}
static bool isyesno(const TEXT* buffer)
{
/**********************************************
*
* i s y e s n o
*
**********************************************
*
* Functional description
* check if the first letter of the user's response
* corresponds to the first letter of Yes
* (in whatever language they are using)
*
* returns true for Yes, otherwise false.
*
**********************************************/
if (!have_trans) { // get the translation if we don't have it already
ISQL_msg_get(YES_ANS, sizeof(yesword), yesword, NULL);
have_trans = true;
}
// Just check first byte of yes response -- could be multibyte problem
if (UPPER7(buffer[0]) == UPPER7(yesword[0]))
return true;
else
return false;
}
static processing_state newdb(TEXT* dbname,
const TEXT* usr,
const TEXT* psw,
const TEXT* numbufs,
const TEXT* sql_role_nm,
bool start_user_trans)
{
/**************************************
*
* n e w d b
*
**************************************
*
* Functional description
* Change the current database from what it was.
* This procedure is called when we first enter this program.
*
* Parameters: dbname -- Name of database to open
* usr -- user name, if given
* psw -- password, if given
* numbufs -- # of connection cache buffers, if given
* sql_role_nm -- sql role name
*
**************************************/
// No name of a database, just return an error
if (!dbname || !*dbname)
return ps_ERR;
/*
* Since the dbname is set already, in the case where a database is specified
* on the command line, we need to save it so ISQL_disconnect does not NULL it
* out. We will restore it after the disconnect. The save_database buffer
* will also be used to translate dbname to the proper character set.
*/
const size_t len = chop_at(dbname, MAXPATHLEN);
SCHAR* save_database = (SCHAR*) ISQL_ALLOC(len + 1);
if (!save_database)
return ps_ERR;
strcpy(save_database, dbname);
ISQL_disconnect_database(false);
strcpy(dbname, save_database);
TEXT local_psw[BUFFER_LENGTH128];
TEXT local_usr[BUFFER_LENGTH128];
TEXT local_sql_role[BUFFER_LENGTH256];
// global user and passwords are set only if they are not originally set
local_psw[0] = 0;
local_usr[0] = 0;
local_sql_role[0] = 0;
TEXT local_numbufs[BUFFER_LENGTH128];
local_numbufs[0] = '\0';
// Strip quotes if well-intentioned
strip_quotes(dbname, isqlGlob.global_Db_name);
strip_quotes(usr, local_usr);
strip_quotes(psw, local_psw);
strip_quotes(numbufs, local_numbufs);
/* if local user is not specified, see if global options are
specified - don't let a global role setting carry forward if a
specific local user was specified
Special handling for SQL Roles:
* V5 client -- strip the quotes
* V6 client -- pass the role name as it is
*/
if (sql_role_nm) {
if (isqlGlob.SQL_dialect == SQL_DIALECT_V5)
strip_quotes(sql_role_nm, local_sql_role);
else
strcpy(local_sql_role, sql_role_nm);
}
if (!(strlen(local_sql_role)) && global_role) {
if (isqlGlob.SQL_dialect == SQL_DIALECT_V5)
strip_quotes(isqlGlob.Role, local_sql_role);
else
strcpy(local_sql_role, isqlGlob.Role);
}
if (!(strlen(local_usr)) && global_usr)
strcpy(local_usr, isqlGlob.User);
if (!(strlen(local_psw)) && global_psw)
strcpy(local_psw, Password);
if (!(strlen(local_numbufs)) && has_global_numbufs)
strcpy(local_numbufs, global_Numbufs);
// Build up a dpb
Firebird::ClumpletWriter dpb(true, MAX_DPB_SIZE, isc_dpb_version1);
if (*ISQL_charset && strcmp(ISQL_charset, DEFCHARSET)) {
dpb.insertString(isc_dpb_lc_ctype, ISQL_charset, strlen(ISQL_charset));
}
SSHORT l;
if (l = strlen(local_usr)) {
dpb.insertString(isc_dpb_user_name, local_usr, l);
}
if (l = strlen(local_psw)) {
dpb.insertString(isc_dpb_password, local_psw, l);
}
if (l = strlen(local_sql_role)) {
dpb.insertInt(isc_dpb_sql_dialect, isqlGlob.SQL_dialect);
dpb.insertString(isc_dpb_sql_role_name, local_sql_role, l);
}
if (l = strlen(local_numbufs)) {
dpb.insertInt(isc_dpb_num_buffers, atoi(local_numbufs));
}
{ // scope
const TEXT* local_name = isqlGlob.global_Db_name;
#if defined (WIN95)
if (!fAnsiCP) {
local_name = save_database;
OemToAnsi(isqlGlob.global_Db_name, save_database);
}
#endif
if (isc_attach_database
(isc_status, 0, local_name, &DB, dpb.getBufferLength(),
reinterpret_cast<const char*>(dpb.getBuffer())))
{
ISQL_errmsg(isc_status);
isqlGlob.global_Db_name[0] = '\0';
if (save_database)
ISQL_FREE(save_database);
return FAIL;
}
} // scope
if (save_database)
ISQL_FREE(save_database);
ISQL_get_version(false);
if (*local_sql_role) {
switch (isqlGlob.SQL_dialect) {
case SQL_DIALECT_V5:
// Uppercase the Sql isqlGlob.Role name
ISQL_make_upper(local_sql_role);
break;
case SQL_DIALECT_V6_TRANSITION:
case SQL_DIALECT_V6:
if (*local_sql_role == DBL_QUOTE
|| *local_sql_role == SINGLE_QUOTE)
{
// Remove the delimited quotes and escape quote from ROLE name.
const TEXT end_quote = *local_sql_role;
ISQL_remove_and_unescape_quotes(local_sql_role, end_quote);
}
else {
ISQL_make_upper(local_sql_role);
}
break;
default:
break;
}
}
// CVC: Do not put the user and pw used to extract metadata in a script!
// Only acknowledge user connection parameters in interactive logins.
if (Interactive) {
if (local_usr[0] != '\0') {
if (local_sql_role[0] != '\0') {
sprintf(Print_buffer, "Database: %s, User: %s, Role: %s%s",
dbname, local_usr, local_sql_role, NEWLINE);
}
else {
sprintf(Print_buffer, "Database: %s, User: %s%s",
dbname, local_usr, NEWLINE);
}
ISQL_printf(isqlGlob.Out, Print_buffer);
}
else {
if (local_sql_role[0] != '\0') {
sprintf(Print_buffer, "Database: %s, Role: %s%s",
dbname, local_sql_role, NEWLINE);
}
else {
sprintf(Print_buffer, "Database: %s%s", dbname, NEWLINE);
}
ISQL_printf(isqlGlob.Out, Print_buffer);
}
}
// CVC: We do not require those pesky transactions for -x or -a options.
// Metadata extraction works exclusively with default transaction gds__trans.
if (start_user_trans) {
// Start the user transaction and default transaction
if (!M__trans) {
if (isc_start_transaction(isc_status, &M__trans, 1, &DB, 0, NULL))
ISQL_errmsg(isc_status);
if (D__trans)
commit_trans(&D__trans);
if (isc_start_transaction(isc_status, &D__trans, 1, &DB, 5, default_tpb))
ISQL_errmsg(isc_status);
}
// Allocate a new user statement for this database
global_Stmt = 0;
if (isc_dsql_allocate_statement(isc_status, &DB, &global_Stmt)) {
ISQL_errmsg(isc_status);
if (M__trans)
end_trans();
if (D__trans)
commit_trans(&D__trans);
isc_detach_database(isc_status, &DB);
DB = 0;
isqlGlob.global_Db_name[0] = '\0';
M__trans = 0;
D__trans = 0;
return FAIL;
}
}
else {
global_Stmt = 0;
}
return SKIP;
}
static processing_state newoutput(const TEXT* outfile)
{
/**************************************
*
* n e w o u t p u t
*
**************************************
*
* Functional description
* Change the current output file
*
* Parameters: outfile : Name of file to receive query output
*
**************************************/
processing_state ret = SKIP;
// If there is a file name, attempt to open it for append
if (*outfile) {
TEXT path[MAXPATHLEN];
strip_quotes(outfile, path);
outfile = path;
FILE* fp = fopen(outfile, "a");
if (fp)
{
if (isqlGlob.Out && isqlGlob.Out != stdout)
fclose(isqlGlob.Out);
isqlGlob.Out = fp;
if (Merge_stderr)
isqlGlob.Errfp = isqlGlob.Out;
if (Merge_diagnostic)
Diag = isqlGlob.Out;
}
else {
TEXT errbuf[MSG_LENGTH];
ISQL_msg_get(FILE_OPEN_ERR, errbuf, outfile);
STDERROUT(errbuf);
ret = FAIL;
}
}
else {
// Revert to stdout
if (isqlGlob.Out != stdout) {
fclose(isqlGlob.Out);
isqlGlob.Out = stdout;
if (Merge_stderr)
isqlGlob.Errfp = isqlGlob.Out;
if (Merge_diagnostic)
Diag = isqlGlob.Out;
}
}
return (ret);
}
static processing_state newsize(const TEXT* colname,
const TEXT* sizestr)
{
/**************************************
*
* n e w s i z e
*
**************************************
*
* Functional description
* Add a column name and print width to collist
*
**************************************/
collist* p = global_Cols;
collist* pold = NULL;
if (!*colname || (strlen(colname) >= WORDLENGTH))
return ps_ERR;
// If no size is given, remove the entry
if (!*sizestr) {
// Scan until name matches or end of list
while (p && strcmp(p->col_name, colname)) {
pold = p;
p = p->collist_next;
}
// If there is a match on name, delete the entry
if (p) {
if (pold)
pold->collist_next = p->collist_next;
else
global_Cols = NULL;
ISQL_FREE(p);
}
return SKIP;
}
const SSHORT size = atoi(sizestr);
if (size <= 0)
return ps_ERR;
collist* c = (collist*) ISQL_ALLOC((SLONG) sizeof(collist));
strcpy(c->col_name, colname);
c->col_len = size;
c->collist_next = NULL;
// walk the linked list
if (!p)
global_Cols = c;
else {
while (p->collist_next && strcmp(p->col_name, colname))
p = p->collist_next;
// If there is a match on name, replace the length
if (!strcmp(p->col_name, colname)) {
p->col_len = size;
ISQL_FREE(c);
}
else
p->collist_next = c;
}
return SKIP;
}
static processing_state newtrans(const TEXT* statement)
{
/**************************************
*
* n e w t r a n s
*
**************************************
*
* Functional description
* Intercept and handle a set transaction statement by zeroing M__trans
*
* Leave the default transaction, gds_trans, alone
* Parameters: The statement in its entirety
*
**************************************/
if (!ISQL_dbcheck())
return FAIL;
if (end_trans() == FAIL)
return FAIL;
M__trans = 0;
// M__trans = 0 after the commit or rollback. Ready for a new transaction
if (isc_dsql_execute_immediate(isc_status, &DB, &M__trans, 0, statement,
isqlGlob.SQL_dialect, NULL))
{
ISQL_errmsg(isc_status);
return FAIL;
}
return SKIP;
}
#if defined (WIN95)
inline void STRARGNCPY(char dest[], const char src[], const size_t len)
{
fAnsiCP ? strncpy(dest, src, len) : AnsiToOemBuff(src, dest, len);
dest[len] = 0;
}
#else
inline void STRARGNCPY(char dest[], const char src[], const size_t len)
{
strncpy(dest, src, len);
dest[len] = 0;
}
#endif
static processing_state parse_arg(int argc,
SCHAR** argv,
SCHAR* tabname,
FILE** sess)
{
/**************************************
*
* p a r s e _ a r g
*
**************************************
*
* Functional description
* Parse command line flags
* All flags except database are -X. Look for
* the - and make it so.
*
**************************************/
processing_state ret = SKIP;
TEXT errbuf[MSG_LENGTH];
// Initialize database name
isqlGlob.global_Db_name[0] = '\0';
isqlGlob.global_Target_db[0] = '\0';
Password[0] = '\0';
isqlGlob.User[0] = '\0';
isqlGlob.Role[0] = '\0';
global_Numbufs[0] = 0;
Quiet = false;
Exit_value = FINI_OK;
// default behavior in V6.0 is SQL_DIALECT_V6
requested_SQL_dialect = SQL_DIALECT_V6;
Merge_stderr = false;
Merge_diagnostic = false;
{ // scope
const size_t lgth = strlen(DEFCHARSET);
if (lgth < MAXCHARSET_SIZE)
strcpy(ISQL_charset, DEFCHARSET);
else
{
strncpy(ISQL_charset, DEFCHARSET, MAXCHARSET_SIZE - 1);
ISQL_charset[MAXCHARSET_SIZE - 1] = 0;
}
} // scope
// redirected stdin means act like -i was set
Ifp.init(stdin, "stdin");
// Terminators are initialized
Termlen = strlen(DEFTERM);
if (Termlen < MAXTERM_SIZE)
strcpy(isqlGlob.global_Term, DEFTERM);
else {
Termlen = MAXTERM_SIZE - 1;
strncpy(isqlGlob.global_Term, DEFTERM, Termlen);
isqlGlob.global_Term[Termlen] = 0;
}
// Initialize list of input file pointers
Filelist = 0;
// Interpret each command line argument
const SCHAR switchchar = '-';
#ifdef DEV_BUILD
bool istable = false;
#endif
int i = 1;
const char* s = argv[i];
while (i < argc) {
/* Look at flags to find unique match. If the flag has an arg,
** advance the pointer (and i). Only change the return value
** for extract switch or error.
*/
if (*s == switchchar) {
const int c = UPPER(s[1]);
if (c == 'X' || (c == 'E' && UPPER(s[2]) == 'X')) {
#ifdef DEV_BUILD
if (UPPER(s[2]) == 'T')
istable = true;
#endif
ret = EXTRACT;
}
else if (c == 'A')
ret = EXTRACTALL;
else if (c == 'B')
BailOnError = true;
else if (c == 'E')
Echo = true;
else if (c == 'M' && s[2] == '2') // It must be before single M option.
Merge_diagnostic = true;
else if (c == 'M')
Merge_stderr = true;
else if (c == 'N' && UPPER(s[2]) == 'O' && UPPER(s[3]) == 'W')
Warnings = false;
else if (c == 'N' &&
(!s[2] || (UPPER(s[2]) == 'O' && !s[3]) ||
(UPPER(s[2]) == 'O' && UPPER(s[3]) == 'A')))
{
Autocommit = false;
}
else if (c == 'O') {
// Alternate output file
if ((s = argv[++i]) && (newoutput(s) != FAIL))
;
else
ret = ps_ERR;
}
else if (c == 'I') {
// Alternate input file
if ((s = argv[++i]) && (input(s) == SKIP))
Interactive = false;
else
ret = ps_ERR;
// CVC: Set by input() above only if successful.
//Input_file = true;
}
else if (c == 'T') {
// The next string is the proposed terminator
if ((s = argv[++i]) && *s) {
Termlen = strlen(s);
if (Termlen >= MAXTERM_SIZE)
Termlen = MAXTERM_SIZE - 1;
STRARGNCPY(isqlGlob.global_Term, s, Termlen);
}
else
ret = ps_ERR;
}
else if (c == 'D') {
// advance to the next word for target db name
if ((s = argv[++i]) && *s)
STRARGNCPY(isqlGlob.global_Target_db, s, sizeof(isqlGlob.global_Target_db) - 1);
else
ret = ps_ERR;
}
else if (c == 'P' && UPPER(s[2]) == 'A' && UPPER(s[3]) == 'G') {
// Change the page length
if ((s = argv[++i]) && (Pagelength = atoi(s)));
else
ret = ps_ERR;
}
// This has to be after "PAGE"
else if (c == 'P') {
if ((s = argv[++i]) && *s) {
STRARGNCPY(Password, s, sizeof(Password) - 1);
global_psw = true;
}
else
ret = ps_ERR;
}
else if (c == 'U') {
if ((s = argv[++i]) && *s) {
STRARGNCPY(isqlGlob.User, s, sizeof(isqlGlob.User) - 1);
global_usr = true;
}
else
ret = ps_ERR;
}
else if (c == 'R') {
const bool keepLower = s[2] == '2';
if ((s = argv[++i]) && *s) {
if (keepLower)
{
strcpy(isqlGlob.Role, "\"");
STRARGNCPY(isqlGlob.Role + 1, s, sizeof(isqlGlob.Role) - 3);
strcat(isqlGlob.Role, "\"");
}
else
STRARGNCPY(isqlGlob.Role, s, sizeof(isqlGlob.Role) - 1);
global_role = true;
}
else
ret = ps_ERR;
}
// number of cache buffers
else if (c == 'C'
&& (!s[2] || UPPER(s[2]) == 'A'))
{
if ((s = argv[++i]) && *s) {
STRARGNCPY(global_Numbufs, s, sizeof(global_Numbufs) - 1);
has_global_numbufs = true;
}
else
ret = ps_ERR;
}
// conection character set
else if (c == 'C' && UPPER(s[2]) == 'H') {
if ((s = argv[++i]) && *s) {
STRARGNCPY(Charset, s, sizeof(Charset) - 1);
const size_t lgth = strlen(Charset);
if (lgth < MAXCHARSET_SIZE)
strcpy(ISQL_charset, Charset);
else
{
strncpy(ISQL_charset, Charset, MAXCHARSET_SIZE - 1);
ISQL_charset[MAXCHARSET_SIZE - 1] = 0;
}
}
else
ret = ps_ERR;
}
else if (c == 'Q')
// Quiet flag
Quiet = true;
else if (c == 'Z') {
Version_info = true;
ISQL_msg_get(VERSION, errbuf, FB_VERSION);
sprintf(Print_buffer, "%s%s", errbuf, NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
else if (c == 'S') {
// isqlGlob.SQL_dialect value
if ((s = argv[++i]) && (requested_SQL_dialect = atoi(s))) {
if (requested_SQL_dialect < SQL_DIALECT_V5 ||
requested_SQL_dialect > SQL_DIALECT_CURRENT)
{
ret = ps_ERR;
}
else {
/* requested_SQL_dialect is used to specify the database dialect
* if SQL dialect was not specified. Since it is possible to
* have a client dialect of 2, force the database dialect to 3, but
* leave the client dialect as 2
*/
isqlGlob.SQL_dialect = requested_SQL_dialect;
if (requested_SQL_dialect == SQL_DIALECT_V6_TRANSITION)
{
Merge_stderr = true;
requested_SQL_dialect = SQL_DIALECT_V6;
}
}
}
else
ret = ps_ERR;
}
else { // This is an unknown flag
ISQL_msg_get(SWITCH, errbuf, s + 1);
STDERROUT(errbuf);
ret = ps_ERR;
}
}
else
// This is not a switch, it is a db_name
{
STRARGNCPY(isqlGlob.global_Db_name, s, sizeof(isqlGlob.global_Db_name) - 1);
#ifdef DEV_BUILD
// If there is a table name, it follows
if (istable && (s = argv[++i]) && *s)
STRARGNCPY(tabname, s, WORDLENGTH - 1);
#endif
}
// Quit the loop of interpreting if we got an error
if (ret == ps_ERR)
break;
s = argv[++i];
}
// If not input, then set up first filelist
if (Ifp.indev_fpointer == stdin) {
Filelist = (indev*) ISQL_ALLOC((SLONG) sizeof(indev));
Filelist->init(stdin, "stdin");
Filelist->indev_next = NULL;
}
return (ret);
}
static SSHORT print_item(TEXT** s,
XSQLVAR* var,
SLONG printlength)
{
/**************************************
*
* p r i n t _ i t e m
*
**************************************
*
* Functional description
* Print an SQL data item as described.
*
**************************************/
TEXT d[32];
tm times;
TEXT* p = *s;
*p = '\0';
SSHORT dtype = var->sqltype & ~1; // may be modified by print_item_blob()
const SSHORT dscale = var->sqlscale;
// The printlength should have in it the right length
const SLONG length = printlength;
if (List) {
sprintf(Print_buffer, "%-31s ", fb_utils::exact_name(var->aliasname));
ISQL_printf(isqlGlob.Out, Print_buffer);
}
if ((var->sqltype & 1) && (*var->sqlind < 0)) {
// If field was missing print <null>
if (List) {
sprintf(Print_buffer, "<null>%s", NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
if ((dtype == SQL_TEXT) || (dtype == SQL_VARYING))
sprintf(p, "%-*s ", (int) length, "<null>");
else
sprintf(p, "%*s ", (int) length, "<null>");
}
else if (!strncmp(var->sqlname, "DB_KEY", 6)) {
// Special handling for db_keys printed in hex
// Keep a temp buf, d for building the binary string
for (const TEXT* t = var->sqldata; t < var->sqldata + var->sqllen; t++)
{
if (List) {
sprintf(Print_buffer, "%02X", (unsigned int) (UCHAR) *t);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
else {
sprintf(d, "%02X", (unsigned int) (UCHAR) *t);
strcat(p, d);
}
}
if (List)
ISQL_printf(isqlGlob.Out, NEWLINE);
else
strcat(p, " ");
}
else {
const ISC_QUAD* blobid;
TEXT blobbuf[30];
TEXT* string;
switch (dtype) {
case SQL_ARRAY:
// Print blob-ids only here
blobid = (ISC_QUAD*) var->sqldata;
sprintf(blobbuf, "%"xLONGFORMAT":%"xLONGFORMAT, blobid->gds_quad_high,
blobid->gds_quad_low);
sprintf(p, "%17s ", blobbuf);
break;
case SQL_BLOB:
// Print blob-ids only here
blobid = (ISC_QUAD*) var->sqldata;
sprintf(blobbuf, "%"xLONGFORMAT":%"xLONGFORMAT, blobid->gds_quad_high,
blobid->gds_quad_low);
sprintf(p, "%17s ", blobbuf);
if (List) {
ISQL_printf(isqlGlob.Out, blobbuf);
ISQL_printf(isqlGlob.Out, NEWLINE);
dtype = print_item_blob(isqlGlob.Out, var, M__trans);
ISQL_printf(isqlGlob.Out, NEWLINE);
}
break;
case SQL_SHORT:
case SQL_LONG:
case SQL_INT64:
{
TEXT str_buf[30];
SINT64 value;
if (dtype == SQL_SHORT)
value = (SINT64) (*(SSHORT*) (var->sqldata));
else if (dtype == SQL_LONG)
value = (SINT64) (*(SLONG*) (var->sqldata));
else if (dtype == SQL_INT64)
value = *(SINT64*) (var->sqldata);
print_item_numeric(value, length, dscale, str_buf);
sprintf(p, "%s ", str_buf);
if (List) {
// Added 1999-03-23 to left-justify in LIST ON mode
{
TEXT* src = str_buf;
TEXT* dest = str_buf;
while (' ' == *src)
src++;
/* This is pretty much the same thing as a strcpy,
but strcpy is not guaranteed to do the right thing
when the source and destination overlap. :-( */
if (src != dest)
while (0 != (*dest++ = *src++)); // empty
}
sprintf(Print_buffer, "%s%s", str_buf, NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
break;
}
#ifdef NATIVE_QUAD
case SQL_QUAD:
if (dscale) {
// Handle floating scale and precision
double numeric = *(SQUAD*) (var->sqldata);
const double exponent = -dscale;
numeric = numeric / pow(10.0, exponent);
sprintf(p, "%*.*f ", (int) length, (int) -dscale, numeric);
if (List) {
sprintf(Print_buffer, "%.*f%s",
(int) -dscale, numeric, NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
}
else {
sprintf(p, "%*ld ", (int) length, *(SQUAD*) (var->sqldata));
if (List) {
sprintf(Print_buffer, "%ld%s",
*(SQUAD*) var->sqldata, NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
}
break;
#endif
case SQL_FLOAT:
//
// BRS 08 Aug 2003
// MSVC6 have a bug in the g format when used with # and display
// one digit more than the specified precision when the value is 0
// The bug appears in TCS DSQL_DOMAIN_12 and 13
//
#if (defined(_MSC_VER) && (_MSC_VER <= 1200)) || defined(MINGW)
if ((double) *(float*) (var->sqldata) == 0) {
sprintf(p, "% #*.*g ", (int) length,
(int) MIN(8, (length - 6)) - 1,
(double) *(float*) (var->sqldata));
if (List) {
sprintf(Print_buffer, "%.*g%s", FLOAT_LEN - 6 -1,
*(float*) (var->sqldata), NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
}
else {
sprintf(p, "% #*.*g ", (int) length,
(int) MIN(8, (length - 6)),
(double) *(float*) (var->sqldata));
if (List) {
sprintf(Print_buffer, "%.*g%s", FLOAT_LEN - 6,
*(float*) (var->sqldata), NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
}
#else
sprintf(p, "% #*.*g ", (int) length, (int) MIN(8, (length - 6)),
(double) *(float*) (var->sqldata));
if (List) {
sprintf(Print_buffer, "%.*g%s", FLOAT_LEN - 6,
*(float*) (var->sqldata), NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
#endif
break;
case SQL_DOUBLE:
// Don't let numeric/decimal doubles overflow print length
// Special handling for 0 -- don't test log for length
if ((!*var->sqldata && dscale)
|| (dscale
&& log10(fabs(*(double*) (var->sqldata))) <
length + dscale))
{
sprintf(p, "%*.*f ", (int) length, (int) -dscale,
*(double*) (var->sqldata));
if (List) {
sprintf(Print_buffer, "%.*f%s",
(int) -dscale,
*(double*) (var->sqldata), NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
}
else {
#if (defined(_MSC_VER) && (_MSC_VER <= 1200)) || defined(MINGW)
if (*(double*) (var->sqldata) == 0) {
sprintf(p, "% #*.*g ", (int) length,
(int) MIN(16, (int) (length - 7)) - 1,
*(double*) (var->sqldata));
if (List) {
sprintf(Print_buffer, "%#.*g%s",
DOUBLE_LEN - 7 - 1,
*(double*) (var->sqldata), NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
}
else {
sprintf(p, "% #*.*g ", (int) length,
(int) MIN(16, (int) (length - 7)),
*(double*) (var->sqldata));
if (List) {
sprintf(Print_buffer, "%#.*g%s",
DOUBLE_LEN - 7,
*(double*) (var->sqldata), NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
}
#else
sprintf(p, "% #*.*g ", (int) length,
(int) MIN(16, (int) (length - 7)),
*(double*) (var->sqldata));
if (List) {
sprintf(Print_buffer, "%#.*g%s",
DOUBLE_LEN - 7,
*(double*) (var->sqldata), NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
#endif
}
break;
case SQL_TEXT:
string = var->sqldata;
string[var->sqllen] = '\0';
// See if it is character set OCTETS
if (var->sqlsubtype == 1) {
TEXT* buff2 = (TEXT*) ISQL_ALLOC(2 * var->sqllen + 1);
// Convert the string to hex digits
for (USHORT i = 0; i < var->sqllen; i++) {
sprintf(&buff2[i * 2], "%02X", (UCHAR)string[i]);
}
buff2[(2 * var->sqllen + 1) - 1] = 0;
if (List) {
ISQL_printf(isqlGlob.Out, buff2);
ISQL_printf(isqlGlob.Out, NEWLINE);
}
else
sprintf(p, "%s ", buff2);
ISQL_FREE(buff2);
}
else if (List) {
ISQL_printf(isqlGlob.Out, string);
ISQL_printf(isqlGlob.Out, NEWLINE);
}
else {
// Truncate if necessary
if (length < var->sqllen)
string[length] = '\0';
sprintf(p, "%-*s ", (int) length, var->sqldata);
}
break;
case SQL_TIMESTAMP:
isc_decode_timestamp((ISC_TIMESTAMP*)var->sqldata, &times);
if (isqlGlob.SQL_dialect > SQL_DIALECT_V5) {
sprintf(d, "%4.4d-%2.2d-%2.2d %2.2d:%2.2d:%2.2d.%4.4"ULONGFORMAT,
times.tm_year + 1900, (times.tm_mon + 1),
times.tm_mday, times.tm_hour, times.tm_min,
times.tm_sec,
((ULONG*) var->sqldata)[1] % ISC_TIME_SECONDS_PRECISION);
}
else {
if (Time_display)
sprintf(d, "%2d-%s-%4d %2.2d:%2.2d:%2.2d.%4.4"ULONGFORMAT,
times.tm_mday, alpha_months[times.tm_mon],
times.tm_year + 1900, times.tm_hour, times.tm_min,
times.tm_sec,
((ULONG*) var->sqldata)[1] % ISC_TIME_SECONDS_PRECISION);
else
sprintf(d, "%2d-%s-%4d", times.tm_mday,
alpha_months[times.tm_mon], times.tm_year + 1900);
}
sprintf(p, "%-*s ", (int) length, d);
if (List) {
sprintf(Print_buffer, "%s%s", d, NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
break;
case SQL_TYPE_TIME:
{
isc_decode_sql_time((ISC_TIME*)var->sqldata, &times);
sprintf(d, "%2.2d:%2.2d:%2.2d.%4.4"ULONGFORMAT,
times.tm_hour, times.tm_min, times.tm_sec,
(*(ISC_TIME*) var->sqldata) % ISC_TIME_SECONDS_PRECISION);
sprintf(p, "%-*s ", (int) length, d);
if (List) {
sprintf(Print_buffer, "%s%s", d, NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
break;
}
case SQL_TYPE_DATE:
{
isc_decode_sql_date((ISC_DATE*)var->sqldata, &times);
sprintf(d, "%4.4d-%2.2d-%2.2d", times.tm_year + 1900,
(times.tm_mon + 1), times.tm_mday);
sprintf(p, "%-*s ", (int) length, d);
if (List) {
sprintf(Print_buffer, "%s%s", d, NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
}
break;
case SQL_VARYING:
{
vary* avary = (vary*) var->sqldata;
// Note: we allocated the dataspace 1 byte larger already
avary->vary_string[avary->vary_length] = 0;
// If CHARACTER SET OCTETS, print two hex digits per octet
if (var->sqlsubtype == 1)
{
const SLONG hex_len = 2 * avary->vary_length;
char* buff2 = static_cast<char*>(ISQL_ALLOC(hex_len + 1));
char* bp = buff2;
for (USHORT i = 0; i < avary->vary_length; i++, bp += 2)
{
sprintf(bp, "%02X",
static_cast<UCHAR>(avary->vary_string[i]));
}
buff2[hex_len] = '\0'; // there is an extra byte for terminator
if (List)
{
ISQL_printf(isqlGlob.Out, buff2);
ISQL_printf(isqlGlob.Out, NEWLINE);
}
else
{
// Truncate if necessary
sprintf(p, "%-*.*s ", static_cast<int>(length),
static_cast<int>(MIN(length, hex_len)), buff2);
}
ISQL_FREE(buff2);
}
else if (List) {
ISQL_printf(isqlGlob.Out, avary->vary_string);
ISQL_printf(isqlGlob.Out, NEWLINE);
}
else {
// Truncate if necessary
if (length < avary->vary_length)
avary->vary_length = length;
sprintf(p, "%-*.*s ", (int) length, (int) avary->vary_length,
avary->vary_string);
}
break;
}
default:
sprintf(d, "Unknown type: %d", dtype);
sprintf(p, "%-*s ", (int) length, d);
if (List) {
sprintf(Print_buffer, "%s%s", d, NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
break;
}
}
while (*p)
++p;
*s = p;
return (dtype);
}
static processing_state print_item_blob(FILE* fp,
const XSQLVAR* var,
FB_API_HANDLE trans)
{
/**************************************
*
* p r i n t _ i t e m _ b l o b
*
**************************************
*
* Functional description
* Print a User Selected BLOB field (as oppposed to
* any BLOB selected in a show or extract command)
*
**************************************/
TEXT buffer[BUFFER_LENGTH512];
TEXT msg[MSG_LENGTH];
ISC_QUAD* blobid = (ISC_QUAD*) var->sqldata;
// Don't bother with null blobs
if (blobid->gds_quad_high == 0 && blobid->gds_quad_low == 0)
return CONT;
if ((var->sqlsubtype != Doblob) && (Doblob != ALL_BLOBS)) {
ISQL_msg_get(BLOB_SUBTYPE, msg, (TEXT*) (IPTR) Doblob,
(TEXT*) (IPTR) var->sqlsubtype);
// Blob display set to subtype %d. This blob: subtype = %d\n
ISQL_printf(fp, msg);
return CONT;
}
USHORT bpb_length = 0;
const UCHAR* bpb = NULL;
UCHAR bpb_buffer[64];
ISC_BLOB_DESC from_desc;
const int blob_subtype = var->sqlsubtype;
if (blob_subtype == isc_blob_text) {
/* Lookup the remaining descriptor information for the BLOB field,
* most specifically we're interested in the Character Set so
* we can set up a BPB that requests character set transliteration
*/
// CVC: Adriano changed trans to D__trans with the following comment:
// Fix a bug that occur when a BLOB column is added after the start
// of the DML transaction.
if (!isc_blob_lookup_desc(isc_status, &DB, &D__trans,
(const UCHAR*) var->relname, (const UCHAR*) var->sqlname,
&from_desc, NULL))
{
ISC_BLOB_DESC to_desc;
isc_blob_default_desc(&to_desc, (const UCHAR*) var->relname, (const UCHAR*) var->sqlname);
if (!isc_blob_gen_bpb
(isc_status, &to_desc, &from_desc, sizeof(bpb_buffer),
bpb_buffer, &bpb_length))
{
bpb = bpb_buffer;
}
}
}
else if (blob_subtype > isc_blob_text && blob_subtype < isc_blob_max_predefined_subtype)
{
bpb = predefined_blob_subtype_bpb;
bpb_length = sizeof(predefined_blob_subtype_bpb);
set_bpb_for_translation(blob_subtype);
}
FB_API_HANDLE blob = 0;
if (isc_open_blob2(isc_status, &DB, &trans, &blob, blobid, bpb_length,
bpb))
{
ISQL_errmsg(isc_status);
return ps_ERR;
}
USHORT length;
while (!isc_get_segment(isc_status, &blob, &length,
(USHORT) (BUFFER_LENGTH512 - 1), buffer)
|| isc_status[1] == isc_segment)
{
// Special displays for blr or acl subtypes
if (blob_subtype > isc_blob_text && blob_subtype < isc_blob_max_predefined_subtype)
{
buffer[length--] = 0;
for (char* b = buffer + length; b >= buffer;) {
if (*b == '\n' || *b == '\t' || *b == BLANK)
*b-- = 0;
else
break;
}
sprintf(Print_buffer, "%s %s%s", TAB_AS_SPACES, buffer, NEWLINE);
ISQL_printf(fp, Print_buffer);
}
else {
buffer[length] = 0;
ISQL_printf(fp, buffer);
}
}
if (isc_status[1] == isc_segstr_eof)
isc_close_blob(isc_status, &blob);
else if (isc_status[1]) {
ISQL_errmsg(isc_status);
return ps_ERR;
}
return CONT;
}
static void print_item_numeric(SINT64 value,
SSHORT length,
SSHORT scale,
TEXT* buf)
{
/**************************************
*
* p r i n t _ i t e m _ n u m e r i c
*
**************************************
*
* Functional description
* Print a INT64 value into a buffer by accomodating
* decimal point '.' for scale notation
*
**************************************/
bool all_digits_used = false;
bool neg = (value < 0);
// Handle special case of no negative scale, no '.' required!
if (scale >= 0) {
if (scale > 0)
value *= (SINT64) pow(10.0, (double) scale);
sprintf(buf, "%*" QUADFORMAT "d", length, value);
return;
}
// Use one less space than allowed, to leave room for '.'
length--;
sprintf(buf, "%*" QUADFORMAT "d", length, value);
// start from LSByte towards MSByte
SSHORT from = length - 1;
SSHORT to = length;
// make space for decimal '.' point in buffer
buf[to + 1] = '\0';
for (; from >= 0 && DIGIT(buf[from]) && scale; from--, to--, ++scale)
buf[to] = buf[from];
// Check whether we need a '0' (zero) in front of the '.' point
if (!DIGIT(buf[from]))
all_digits_used = true;
// Insert new '0's to satisfy larger scale than input digits
// For e.g: 12345 with scale -7 would be .0012345
if (from > 0 && scale)
do {
buf[to--] = '0';
} while (++scale != 0);
// Insert '.' decimal point, and if required, '-' and '0'
buf[to--] = '.';
if (all_digits_used) {
buf[to--] = '0';
if (neg)
buf[to--] = '-';
}
}
static processing_state print_line(XSQLDA* sqlda,
const SLONG* pad,
TEXT line[])
{
/**************************************
*
* p r i n t _ l i n e
*
**************************************
*
* Functional description
* Print a line of SQL variables.
*
* Args: sqlda, an XSQLDA
* pad = an array of the print lengths of all the columns
* line = pointer to the line buffer.
*
**************************************/
XSQLVAR* varlist[20]; // No more than 20 blobs per line
int varnum = 0;
{ // scope
TEXT* p = line;
int i = 0;
XSQLVAR* var = sqlda->sqlvar;
for (const XSQLVAR* const end = var + sqlda->sqld; var < end;
var++, i++)
{
if (!Abort_flag) {
// Save all the blob vars and print them at the end
// CVC: If varnum reaches 20, we must print an error instead of crashing.
const int rc = print_item(&p, var, pad[i]);
if (rc == SQL_BLOB && varnum < 20)
varlist[varnum++] = var;
}
}
*p = 0;
} // scope
if (List) {
ISQL_printf(isqlGlob.Out, NEWLINE);
return (CONT);
}
ISQL_printf(isqlGlob.Out, line);
ISQL_printf(isqlGlob.Out, NEWLINE);
// If blobdisplay is not wanted, set varnum back to -1
if (Doblob == NO_BLOBS)
varnum = 0;
else if (varnum >= 20)
ISQL_printf(isqlGlob.Out, "Printing only the first 20 blobs.");
// If there were Blobs to print, print them passing the blobid
for (int i = 0; i < varnum; i++) {
const XSQLVAR* var = varlist[i];
if (*var->sqlind == 0) {
// Print blob title
sprintf(Print_buffer,
"==============================================================================%s",
NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
sprintf(Print_buffer, "%s: %s", var->aliasname, NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
if (print_item_blob(isqlGlob.Out, var, M__trans))
return (ps_ERR);
sprintf(Print_buffer,
"%s==============================================================================%s",
NEWLINE, NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
}
return CONT;
}
// *********************************
// p r i n t _ p e r f o r m a n c e
// *********************************
// As the name implies, show performance as extracted from the API routines.
static void print_performance(perf* perf_before)
{
// Translation of report strings. Do not remove "static" modifier.
static bool have_report = false;
static TEXT report_1[MSG_LENGTH + MSG_LENGTH];
perf perf_after;
perf_get_info(&DB, &perf_after);
if (!have_report) {
ISQL_msg_get(REPORT1, report_1, NULL);
// Current memory = !c\nDelta memory = !d\nMax memory = !x\nElapsed time= !e sec\n
ISQL_msg_get(REPORT2, &report_1[strlen(report_1)], NULL);
/* For GUI_TOOLS: Buffers = !b\nReads = !r\nWrites = !w\nFetches
= !f\n */
/* Else: Cpu = !u sec\nBuffers = !b\nReads = !r\nWrites = !w\nFetch
es = !f\n */
have_report = true;
}
SCHAR statistics[256];
perf_format(perf_before, &perf_after, report_1, statistics, NULL);
sprintf(Print_buffer, "%s%s", statistics, NEWLINE);
ISQL_printf(Diag, Print_buffer);
}
// *********************************
// p r i n t _ s q l d a _ i n p u t
// *********************************
// Show the contents of the input sqlda, used typically for parameters.
static processing_state print_sqlda_input(const bool is_selectable)
{
// Describe the input
XSQLDA* input_sqlda = (XSQLDA*) ISQL_ALLOC((SLONG) (XSQLDA_LENGTH(10)));
input_sqlda->version = SQLDA_VERSION1;
input_sqlda->sqld = input_sqlda->sqln = 10;
if (isc_dsql_describe_bind(isc_status, &global_Stmt, isqlGlob.SQL_dialect, input_sqlda)) {
ISQL_FREE(input_sqlda);
ISQL_errmsg(isc_status);
return ps_ERR;
}
else if (isc_status[2] == isc_arg_warning)
ISQL_warning(isc_status);
// Reallocate if there's LOTS of input
if (input_sqlda->sqld > input_sqlda->sqln) {
USHORT n_columns = input_sqlda->sqld;
ISQL_FREE(input_sqlda);
input_sqlda =
(XSQLDA*) ISQL_ALLOC((SLONG) (XSQLDA_LENGTH(n_columns)));
input_sqlda->version = SQLDA_VERSION1;
input_sqlda->sqld = input_sqlda->sqln = n_columns;
if (isc_dsql_describe_bind(isc_status, &global_Stmt, isqlGlob.SQL_dialect,
input_sqlda))
{
ISQL_FREE(input_sqlda);
ISQL_errmsg(isc_status);
return ps_ERR;
}
else if (isc_status[2] == isc_arg_warning)
ISQL_warning(isc_status);
}
if (is_selectable)
{
TEXT buffer[100];
sprintf(buffer,
//"\nINPUT SQLDA version: %d sqldaid: %s sqldabc: %ld sqln: %d sqld: %d\n",
"\nINPUT SQLDA version: %d sqln: %d sqld: %d\n",
//input_sqlda->version, input_sqlda->sqldaid,
//input_sqlda->sqldabc, input_sqlda->sqln,
input_sqlda->version, input_sqlda->sqln,
input_sqlda->sqld);
ISQL_printf(isqlGlob.Out, buffer);
int i = 0;
const XSQLVAR* var = input_sqlda->sqlvar;
for (const XSQLVAR* const end = var + input_sqlda->sqld; var < end;
var++, i++)
{
sprintf(buffer,
"%02d: sqltype: %d %s %s sqlscale: %d sqlsubtype: %d sqllen: %d\n",
i + 1, var->sqltype, sqltype_to_string(var->sqltype),
(var->sqltype & 1) ? "Nullable" : " ",
var->sqlscale, var->sqlsubtype, var->sqllen);
ISQL_printf(isqlGlob.Out, buffer);
sprintf(buffer, " : name: (%d)%*s alias: (%d)%*s\n",
var->sqlname_length, var->sqlname_length,
var->sqlname, var->aliasname_length,
var->aliasname_length, var->aliasname);
ISQL_printf(isqlGlob.Out, buffer);
sprintf(buffer, " : table: (%d)%*s owner: (%d)%*s\n",
var->relname_length, var->relname_length,
var->relname, var->ownname_length,
var->ownname_length, var->ownname);
ISQL_printf(isqlGlob.Out, buffer);
}
}
ISQL_FREE(input_sqlda);
return CONT;
}
// ***********************************
// p r i n t _ s q l d a _ o u t p u t
// ***********************************
// Show the contents of the output sqlda, that's the result of SELECT from
// both tables and procedures and execution of procedures that return output.
static void print_sqlda_output(const XSQLDA& sqlda)
{
TEXT buffer[100];
sprintf(buffer,
//"\nOUTPUT SQLDA version: %d sqldaid: %s sqldabc: %ld sqln: %d sqld: %d\n",
"\nOUTPUT SQLDA version: %d sqln: %d sqld: %d\n",
//sqlda.version, sqlda.sqldaid, sqlda.sqldabc, sqlda.sqln,
sqlda.version, sqlda.sqln,
sqlda.sqld);
ISQL_printf(isqlGlob.Out, buffer);
int i = 0;
const XSQLVAR* var = sqlda.sqlvar;
for (const XSQLVAR* const end = var + sqlda.sqld; var < end;
var++, i++)
{
sprintf(buffer,
"%02d: sqltype: %d %s %s sqlscale: %d sqlsubtype: %d sqllen: %d\n",
i + 1, var->sqltype, sqltype_to_string(var->sqltype),
(var->sqltype & 1) ? "Nullable" : " ",
var->sqlscale, var->sqlsubtype, var->sqllen);
ISQL_printf(isqlGlob.Out, buffer);
sprintf(buffer, " : name: (%d)%*s alias: (%d)%*s\n",
var->sqlname_length, var->sqlname_length, var->sqlname,
var->aliasname_length, var->aliasname_length,
var->aliasname);
ISQL_printf(isqlGlob.Out, buffer);
sprintf(buffer, " : table: (%d)%*s owner: (%d)%*s\n",
var->relname_length, var->relname_length, var->relname,
var->ownname_length, var->ownname_length, var->ownname);
ISQL_printf(isqlGlob.Out, buffer);
}
}
// ***************************
// p r o c e s s _ h e a d e r
// ***************************
// Write into buffers the information that will be printed as page header for
// statements that return data.
static void process_header(const XSQLDA* sqlda, const SLONG pad[], TEXT header[], TEXT header2[])
{
// Create the column header : Left justify strings
TEXT* p = header;
TEXT* p2 = header2;
int i = 0;
const XSQLVAR* var = sqlda->sqlvar;
for (const XSQLVAR* const end = var + sqlda->sqld; var < end;
var++, i++)
{
const SSHORT type = var->sqltype & ~1;
if (type == SQL_TEXT || type == SQL_VARYING)
sprintf(p, "%-*.*s ", (int) pad[i], (int) pad[i], var->aliasname);
else
sprintf(p, "%*s ", (int) pad[i], var->aliasname);
// Separators need not go on forever no more than a line
for (size_t j = 1; j < strlen(p) && j < 80; j++)
*p2++ = '=';
*p2++ = BLANK;
p += strlen(p);
}
*p2 = '\0';
}
// ***********************
// p r o c e s s _ p l a n
// ***********************
// Retrieve and show the server's execution plan.
// We don't consider critical a failure to get the plan, so we don't return
// any result to the caller.
static void process_plan()
{
// Bug 7565: A plan larger than plan_buffer will not be displayed
// Bug 7565: Note also that the plan must fit into Print_Buffer
const SCHAR plan_info[] = { isc_info_sql_get_plan };
TEXT plan_buffer[PRINT_BUFFER_LENGTH];
memset(plan_buffer, 0, PRINT_BUFFER_LENGTH);
if (isc_dsql_sql_info(isc_status, &global_Stmt, sizeof(plan_info), plan_info,
PRINT_BUFFER_LENGTH, plan_buffer))
{
ISQL_errmsg(isc_status);
}
else if (plan_buffer[0] == isc_info_sql_get_plan) {
const int l =
gds__vax_integer(reinterpret_cast<const UCHAR*>(plan_buffer) + 1, 2);
sprintf(Print_buffer, "%.*s%s", l, plan_buffer + 3, NEWLINE);
ISQL_printf(Diag, Print_buffer);
}
}
// ***************************************
// p r o c e s s _ r e c o r d _ c o u n t
// ***************************************
// Get number of records affected for updates, deletions and insertions.
// Return -1 if the statement is not one of those or if there's an error
// retrieving the information from the server.
static SLONG process_record_count(const SSHORT statement_type)
{
UCHAR count_type = 0;
// Skip selects, better to count records incoming later
switch (statement_type)
{
case isc_info_sql_stmt_update:
count_type = isc_info_req_update_count;
break;
case isc_info_sql_stmt_delete:
count_type = isc_info_req_delete_count;
break;
case isc_info_sql_stmt_insert:
count_type = isc_info_req_insert_count;
break;
}
if (count_type) {
const SCHAR count_info[] = { isc_info_sql_records };
SCHAR count_buffer[33];
if (isc_dsql_sql_info(isc_status, &global_Stmt, sizeof(count_info),
count_info, sizeof(count_buffer),
count_buffer))
{
ISQL_errmsg(isc_status);
return -1;
}
const UCHAR* p = reinterpret_cast<const UCHAR*>(count_buffer + 3);
while (*p != isc_info_end)
{
const UCHAR count_is = *p++;
const SSHORT l = gds__vax_integer(p, 2);
p += 2;
const SLONG count = gds__vax_integer(p, l);
p += l;
if (count_is == count_type)
return count;
}
}
return -1;
}
// ***************************************
// p r o c e s s _ r e q u e s t _ t y p e
// ***************************************
// Retrieve the statement type according to the DSQL layer.
// A failure is indicated by returning zero.
static SSHORT process_request_type()
{
const SCHAR sqlda_info[] = { isc_info_sql_stmt_type };
SCHAR info_buffer[16];
if (isc_dsql_sql_info (isc_status, &global_Stmt, sizeof (sqlda_info), sqlda_info,
sizeof (info_buffer), info_buffer))
{
ISQL_errmsg (isc_status);
}
else {
if (info_buffer[0] == isc_info_sql_stmt_type) {
const UCHAR* b = reinterpret_cast<const UCHAR*>(info_buffer);
const SSHORT l = gds__vax_integer(b + 1, 2);
return (SSHORT) gds__vax_integer(b + 3, l);
}
//ISQL_msg_get(UNKNOWN_STATEMENT_TYPE, errmsg, NULL);
STDERROUT("Cannot determine statement type");
}
return 0;
}
// ***************************************
// p r o c e s s _ s q l d a _ b u f f e r
// ***************************************
// Generate the buffer for sqlda output and assign the null indicators already created.
// The caller should deallocate the returned buffer after using it.
static SLONG* process_sqlda_buffer(XSQLDA* const sqlda, SSHORT nullind[])
{
SLONG bufsize = 0;
SSHORT* nullp = nullind;
XSQLVAR* var = sqlda->sqlvar;
for (const XSQLVAR* const end = var + sqlda->sqld; var < end; var++) {
// Allocate enough space for all the sqldata and null pointers
const SSHORT type = var->sqltype & ~1;
USHORT alignment, data_length;
alignment = data_length = var->sqllen;
// special case db_key alignment which arrives as an SQL_TEXT
// Bug 8562: since DB_KEY arrives as SQL_TEXT, we need to account
// for the null character at the end of the string
if (!strncmp(var->sqlname, "DB_KEY", 6)) {
alignment = 8;
// Room for null string terminator
data_length++;
}
else
{
// Special alignment cases
if (type == SQL_TEXT) {
alignment = 1;
// Room for null string terminator
data_length++;
}
else if (type == SQL_VARYING) {
alignment = sizeof(SSHORT);
// Room for a null string terminator for display
data_length += sizeof(SSHORT) + 1;
}
}
bufsize = FB_ALIGN(bufsize, alignment) + data_length;
var->sqlind = nullp++;
}
// Buffer for reading data from the fetch
if (bufsize) {
SLONG* buffer = (SLONG*) ISQL_ALLOC ((SLONG) bufsize);
memset(buffer, 0, (size_t) bufsize);
return buffer;
}
return 0;
}
// *****************************************
// p r o c e s s _ s q l d a _ d i s p l a y
// *****************************************
// Calculate individual column widths and return total line width.
// Assign previously allocated buffer in pieces to every XSQLVAR.
static SLONG process_sqlda_display(XSQLDA* const sqlda, SLONG buffer[], SLONG pad[])
{
SLONG linelength = 0;
SLONG offset = 0;
int i = 0;
XSQLVAR* var = sqlda->sqlvar;
for (const XSQLVAR* const end = var + sqlda->sqld; var < end;
var++, i++)
{
// Record the length of name and var, then convert to print
// length, later to be stored in pad array
USHORT data_length, disp_length, alignment;
data_length = disp_length = alignment = var->sqllen;
SSHORT namelength = var->aliasname_length;
// Minimum display length should not be less than that needed
// for displaying null
if (namelength < NULL_DISP_LEN)
namelength = NULL_DISP_LEN;
const SSHORT type = var->sqltype & ~1;
switch (type) {
case SQL_BLOB:
case SQL_ARRAY:
// enough room for the blob id to print
disp_length = 17;
break;
case SQL_TIMESTAMP:
if (Time_display || isqlGlob.SQL_dialect > SQL_DIALECT_V5)
disp_length = DATETIME_LEN;
else
disp_length = DATE_ONLY_LEN;
break;
case SQL_TYPE_TIME:
disp_length = TIME_ONLY_LEN;
break;
case SQL_TYPE_DATE:
disp_length = DATE_ONLY_LEN;
break;
case SQL_FLOAT:
disp_length = FLOAT_LEN;
break;
case SQL_DOUBLE:
disp_length = DOUBLE_LEN;
break;
case SQL_TEXT:
alignment = 1;
data_length++;
// OCTETS data is displayed in hex
if (var->sqlsubtype == 1)
disp_length = 2 * var->sqllen;
break;
case SQL_VARYING:
data_length += sizeof(USHORT) + 1;
alignment = sizeof(USHORT);
// OCTETS data is displayed in hex
if (var->sqlsubtype == 1)
disp_length = 2 * var->sqllen;
break;
case SQL_SHORT:
disp_length = SHORT_LEN;
break;
case SQL_LONG:
disp_length = LONG_LEN;
break;
case SQL_INT64:
disp_length = INT64_LEN;
break;
#ifdef NATIVE_QUAD
case SQL_QUAD:
disp_length = QUAD_LEN;
break;
#endif
default:
disp_length = UNKNOWN_LEN;
break;
}
// special case db_key alignment which arrives as an SQL_TEXT
if (!strncmp(var->sqlname, "DB_KEY", 6)) {
alignment = 8;
disp_length = 2 * var->sqllen;
}
// This is the print width of each column
pad[i] = (disp_length > namelength ? disp_length : namelength);
// Is there a collist entry, then use that width, but only for text
if (type == SQL_TEXT || type == SQL_VARYING)
{
collist* pc = global_Cols;
while (pc) {
if (!strcmp(var->aliasname, pc->col_name)) {
pad[i] = pc->col_len;
break;
}
pc = pc->collist_next;
}
}
// The total line length
linelength += pad[i] + 1;
// Allocate space in buffer for data
offset = FB_ALIGN(offset, alignment);
var->sqldata = (SCHAR*) buffer + offset;
offset += data_length;
}
return linelength;
}
static int process_statement(const TEXT* string,
XSQLDA** sqldap)
{
/**************************************
*
* p r o c e s s _ s t a t e m e n t
*
**************************************
*
* Functional description
* Prepare and execute a dynamic SQL statement.
* This function uses the isc_dsql user functions rather
* than embedded dynamic statements. The user request
* is placed on transaction M__trans, while all
* background work is on the default gds_trans.
* This function now returns CONT (success) or ps_ERR.
**************************************/
processing_state ret = CONT;
// We received the address of the sqlda in case we realloc it
XSQLDA* sqlda = *sqldap;
// If somebody did a commit or rollback, we are out of a transaction
if (!M__trans)
if (isc_start_transaction(isc_status, &M__trans, 1, &DB, 0, NULL))
ISQL_errmsg(isc_status);
// No need to start a default transaction unless there is no current one
if (!D__trans)
if (isc_start_transaction(isc_status, &D__trans, 1, &DB, 5, default_tpb))
{
ISQL_errmsg(isc_status);
}
// If statistics are requested, then reserve them here
perf perf_before;
if (Stats)
perf_get_info(&DB, &perf_before);
// Prepare the dynamic query stored in string.
// But put this on the DDL transaction to get maximum visibility of
// metadata.
FB_API_HANDLE prepare_trans;
if (Autocommit)
prepare_trans = D__trans;
else
prepare_trans = M__trans;
if (isc_dsql_prepare(isc_status, &prepare_trans, &global_Stmt, 0, string,
isqlGlob.SQL_dialect, sqlda))
{
if (isqlGlob.SQL_dialect == SQL_DIALECT_V6_TRANSITION && Input_file) {
ISQL_printf(isqlGlob.Out, NEWLINE);
ISQL_printf(isqlGlob.Out, "**** Error preparing statement:");
ISQL_printf(isqlGlob.Out, NEWLINE);
ISQL_printf(isqlGlob.Out, NEWLINE);
ISQL_printf(isqlGlob.Out, string);
ISQL_printf(isqlGlob.Out, NEWLINE);
}
ISQL_errmsg(isc_status);
return ps_ERR;
}
// check for warnings
if (isc_status[2] == isc_arg_warning)
ISQL_warning(isc_status);
// Find out what kind of statement this is
const SSHORT statement_type = process_request_type();
if (!statement_type)
return ps_ERR;
const bool is_selectable =
statement_type == isc_info_sql_stmt_select ||
statement_type == isc_info_sql_stmt_select_for_upd ||
statement_type == isc_info_sql_stmt_exec_procedure ||
statement_type == isc_info_sql_stmt_get_segment;
//#ifdef DEV_BUILD
if (Sqlda_display)
{
if (print_sqlda_input(is_selectable) == ps_ERR)
return ps_ERR;
}
//#endif // DEV_BUILD
// check for warnings
if (isc_status[2] == isc_arg_warning)
ISQL_warning(isc_status);
// if PLAN is set, print out the plan now
if (Plan) {
process_plan();
if (Planonly && !is_selectable)
{
return ret; // do not execute
}
}
// If the statement isn't a select, execute it and be done
if (!is_selectable && !Planonly)
{
// If this is an autocommit, put the DDL stmt on a special trans
if (Autocommit && (statement_type == isc_info_sql_stmt_ddl)) {
if (isc_dsql_execute_immediate(isc_status, &DB, &D__trans, 0,
string, isqlGlob.SQL_dialect, NULL))
{
ISQL_errmsg(isc_status);
ret = ps_ERR;
}
// CVC: DDL statements that aren't syntax errors are caught by DFW
// only at commit time, so we need to check here.
if (!commit_trans(&D__trans))
{
ISQL_errmsg(isc_status);
ret = ps_ERR;
}
// check for warnings
if (isc_status[2] == isc_arg_warning)
ISQL_warning(isc_status);
return ret;
}
// Check to see if this is a SET TRANSACTION statement
if (statement_type == isc_info_sql_stmt_start_trans) {
// CVC: Starting a txn can fail, too. Let's check it, although I
// suspect isql will catch it in frontend() through get_statement(),
// so this place has little chance to be reached.
if (newtrans(string) == FAIL)
return ps_ERR;
return ret;
}
// This is a non-select DML statement or trans
if (isc_dsql_execute(isc_status, &M__trans, &global_Stmt, isqlGlob.SQL_dialect, NULL))
{
ISQL_errmsg(isc_status);
// CVC: Make this conditional if it causes problems. For example
// if (BailOnError)
ret = ps_ERR;
}
// check for warnings
if (isc_status[2] == isc_arg_warning)
ISQL_warning(isc_status);
// We are executing a commit or rollback, commit default trans
if ((statement_type == isc_info_sql_stmt_commit) ||
(statement_type == isc_info_sql_stmt_rollback))
{
// CVC: Commit may fail with AUTO-DDL off and DDL changes rejected by DFW.
if (!commit_trans(&D__trans))
{
ISQL_errmsg(isc_status);
ret = ps_ERR;
}
}
// Print statistics report
if (Docount) {
const SLONG count = process_record_count(statement_type);
if (count >= 0)
{
TEXT rec_count_msg[MSG_LENGTH];
ISQL_msg_get(REC_COUNT, rec_count_msg, (TEXT*)(IPTR) count);
// Records affected: %ld
sprintf(Print_buffer, "%s%s", rec_count_msg, NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
}
if (Stats)
print_performance(&perf_before);
return ret;
}
const SSHORT n_cols = sqlda->sqld;
// The query is bigger than the curent sqlda, so make more room
if (n_cols > sqlda->sqln) {
ISQL_FREE(sqlda);
sqlda = (XSQLDA*) ISQL_ALLOC((SLONG) (XSQLDA_LENGTH(n_cols)));
*sqldap = sqlda;
sqlda->version = SQLDA_VERSION1;
sqlda->sqld = sqlda->sqln = n_cols;
// We must re-describe the sqlda, no need to re-prepare
if (isc_dsql_describe(isc_status, &global_Stmt, isqlGlob.SQL_dialect, sqlda))
{
ISQL_errmsg(isc_status);
return ps_ERR;
}
}
//#ifdef DEV_BUILD
/* To facilitate debugging, the option
SET SQLDA_DISPLAY ON
will activate code to display the SQLDA after each statement. */
if (Sqlda_display)
print_sqlda_output(*sqlda);
//#endif // DEV_BUILD
if (Planonly)
return ret;
if (statement_type != isc_info_sql_stmt_exec_procedure) {
// Otherwise, open the cursor to start things up
#ifdef SCROLLABLE_CURSORS
// Declare the C cursor for what it is worth
// CVC: isql doesn't do positioned updates, so I assumed declaring a cursor
// may be needed if scrollable cursors are enabled in the engine.
if (isc_dsql_set_cursor_name(isc_status, &global_Stmt, "C ", 0)) {
ISQL_errmsg(isc_status);
return (ps_ERR);
}
// check for warnings
if (isc_status[2] == isc_arg_warning)
ISQL_warning(isc_status);
#endif
if (isc_dsql_execute(isc_status, &M__trans, &global_Stmt, isqlGlob.SQL_dialect, NULL)) {
ISQL_errmsg(isc_status);
return (ps_ERR);
}
// check for warnings
if (isc_status[2] == isc_arg_warning)
ISQL_warning(isc_status);
}
SSHORT* nullind = NULL;
if (n_cols) {
nullind = (SSHORT*) ISQL_ALLOC((SLONG) (n_cols * sizeof(SSHORT)));
}
SLONG* buffer = process_sqlda_buffer(sqlda, nullind);
// Pad is an array of lengths to be passed to the print_item
SLONG* pad = NULL;
if (sqlda->sqld) {
pad = (SLONG*) ISQL_ALLOC ((SLONG) (sqlda->sqld * sizeof (SLONG)));
}
// Calculate display width and add a few for line termination, et al
const SLONG linelength = process_sqlda_display(sqlda, buffer, pad) + 10;
// Allocate the print line, the header line and the separator
TEXT* line = (TEXT*) ISQL_ALLOC((SLONG) linelength);
TEXT* header = 0;
TEXT* header2 = 0;
if (Heading)
{
header = (TEXT*) ISQL_ALLOC((SLONG) linelength);
header2 = (TEXT*) ISQL_ALLOC((SLONG) linelength);
*header = '\0';
*header2 = '\0';
process_header(sqlda, pad, header, header2);
}
// If this is an exec procedure, execute into the sqlda with one fetch only
if (statement_type == isc_info_sql_stmt_exec_procedure)
{
if (isc_dsql_execute2(isc_status, &M__trans, &global_Stmt,
isqlGlob.SQL_dialect, NULL, sqlda))
{
ISQL_errmsg(isc_status);
ret = ps_ERR;
}
else {
if (sqlda->sqld) { // do not output unnecessary white text
ISQL_printf(isqlGlob.Out, NEWLINE);
if (!List && Heading) {
ISQL_printf(isqlGlob.Out, header);
ISQL_printf(isqlGlob.Out, NEWLINE);
ISQL_printf(isqlGlob.Out, header2);
ISQL_printf(isqlGlob.Out, NEWLINE);
}
print_line(sqlda, pad, line);
ISQL_printf(isqlGlob.Out, NEWLINE);
}
}
}
else {
// Otherwise fetch and print records until EOF
SLONG lines;
for (lines = 0; !Abort_flag; ++lines) {
// Fetch the current cursor
#ifdef SCROLLABLE_CURSORS
if (Autofetch) {
#endif
if (isc_dsql_fetch(isc_status, &global_Stmt, isqlGlob.SQL_dialect, sqlda) == 100)
break;
#ifdef SCROLLABLE_CURSORS
}
else {
TEXT fetch_statement[BUFFER_LENGTH80];
/* if not autofetching, sit and wait for user to input
NEXT, PRIOR, FIRST, LAST, ABSOLUTE <n>, or RELATIVE <n> */
const SSHORT fetch_ret =
get_statement(fetch_statement, sizeof(fetch_statement),
fetch_prompt);
if (fetch_ret == FETCH) {
if (isc_dsql_fetch2(isc_status, &global_Stmt, isqlGlob.SQL_dialect, sqlda,
fetch_direction, fetch_offset) == 100)
{
break;
}
}
else if (fetch_ret == BACKOUT || fetch_ret == EXIT) {
lines = 0;
break;
}
else {
TEXT errbuf[MSG_LENGTH];
ISQL_msg_get(CMD_ERR, errbuf,
"Expected NEXT, PRIOR, FIRST, LAST, ABSOLUTE <n>, RELATIVE <n>, or QUIT");
STDERROUT(errbuf);
}
}
#endif
/* Print the header every Pagelength number of lines for
command-line ISQL only. For WISQL, print the column
headings only once. */
if (!List && Heading && (lines % Pagelength == 0)) {
ISQL_printf(isqlGlob.Out, NEWLINE);
ISQL_printf(isqlGlob.Out, header);
ISQL_printf(isqlGlob.Out, NEWLINE);
ISQL_printf(isqlGlob.Out, header2);
ISQL_printf(isqlGlob.Out, NEWLINE);
}
if (isc_status[1]) {
ISQL_errmsg(isc_status);
// CVC: It appears we can have an implicit cursor opened anyways.
isc_dsql_free_statement(isc_status, &global_Stmt, DSQL_close);
if (nullind)
ISQL_FREE(nullind);
if (pad)
ISQL_FREE(pad);
if (buffer)
ISQL_FREE(buffer);
if (header)
ISQL_FREE(header);
if (header2)
ISQL_FREE(header2);
if (line)
ISQL_FREE(line);
return (ps_ERR);
}
if (!lines)
ISQL_printf(isqlGlob.Out, NEWLINE);
ret = print_line(sqlda, pad, line);
}
if (lines)
ISQL_printf(isqlGlob.Out, NEWLINE);
// Record count printed here upon request
if (Docount) {
TEXT rec_count_msg[MSG_LENGTH];
ISQL_msg_get(REC_COUNT, rec_count_msg, (TEXT*)(IPTR) lines);
// Records affected: %ld
sprintf(Print_buffer, "%s%s", rec_count_msg, NEWLINE);
ISQL_printf(isqlGlob.Out, Print_buffer);
}
}
// CVC: It appears we can have an implicit cursor opened anyways.
if (statement_type != isc_info_sql_stmt_exec_procedure) {
isc_dsql_free_statement(isc_status, &global_Stmt, DSQL_close);
}
// Statistics printed here upon request
if (Stats)
print_performance(&perf_before);
if (pad)
ISQL_FREE(pad);
if (buffer)
ISQL_FREE(buffer);
if (line)
ISQL_FREE(line);
if (header)
ISQL_FREE(header);
if (header2)
ISQL_FREE(header2);
if (nullind)
ISQL_FREE(nullind);
return (ret);
}
static void CLIB_ROUTINE query_abort(int)
{
/**************************************
*
* q u e r y _ a b o r t
*
**************************************
*
* Functional description
* Signal handler for interrupting output of a query.
*
**************************************/
Abort_flag = true;
}
// CVC: There's something either wrong or on purpose in this routine:
// it doesn't unescape the embedded quotes that may exist.
static void strip_quotes(const TEXT* in,
TEXT* out)
{
/**************************************
*
* s t r i p _ q u o t e s
*
**************************************
*
* Functional description
* Get rid of quotes around strings
*
**************************************/
if (!in || !*in) {
*out = 0;
return;
}
TEXT quote = 0;
// Skip any initial quote
if ((*in == DBL_QUOTE) || (*in == SINGLE_QUOTE))
quote = *in++;
const TEXT* p = in;
// Now copy characters until we see the same quote or EOS
while (*p && (*p != quote)) {
*out++ = *p++;
}
*out = 0;
}
//#ifdef DEV_BUILD
static const char* sqltype_to_string(USHORT sqltype)
{
/**************************************
*
* s q l t y p e _ t o _ s t r i n g
*
**************************************
*
* Functional description
* Return a more readable version of SQLDA.sqltype
*
**************************************/
switch (sqltype & ~1) {
case SQL_TEXT:
return "TEXT ";
case SQL_VARYING:
return "VARYING ";
case SQL_SHORT:
return "SHORT ";
case SQL_LONG:
return "LONG ";
case SQL_INT64:
return "INT64 ";
case SQL_FLOAT:
return "FLOAT ";
case SQL_DOUBLE:
return "DOUBLE ";
case SQL_D_FLOAT:
return "D_FLOAT ";
case SQL_TIMESTAMP:
return "TIMESTAMP";
case SQL_TYPE_DATE:
return "SQL DATE ";
case SQL_TYPE_TIME:
return "TIME ";
case SQL_BLOB:
return "BLOB ";
case SQL_ARRAY:
return "ARRAY ";
case SQL_QUAD:
return "QUAD ";
default:
return "unknown ";
}
}
//#endif
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