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549 lines
18 KiB
Plaintext
549 lines
18 KiB
Plaintext
# 2014 October 30
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#
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# The author disclaims copyright to this source code. In place of
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# a legal notice, here is a blessing:
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#
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# May you do good and not evil.
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# May you find forgiveness for yourself and forgive others.
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# May you share freely, never taking more than you give.
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#
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#***********************************************************************
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#
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set testdir [file dirname $argv0]
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source $testdir/tester.tcl
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set testprefix e_blobopen
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forcedelete test.db2
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do_execsql_test 1.0 {
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ATTACH 'test.db2' AS aux;
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CREATE TABLE main.t1(a INTEGER PRIMARY KEY, b TEXT, c BLOB);
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CREATE TEMP TABLE t1(a INTEGER PRIMARY KEY, b TEXT, c BLOB);
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CREATE TABLE aux.t1(a INTEGER PRIMARY KEY, b TEXT, c BLOB);
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CREATE TABLE main.x1(a INTEGER PRIMARY KEY, b TEXT, c BLOB);
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CREATE TEMP TABLE x2(a INTEGER PRIMARY KEY, b TEXT, c BLOB);
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CREATE TABLE aux.x3(a INTEGER PRIMARY KEY, b TEXT, c BLOB);
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INSERT INTO main.t1 VALUES(1, 'main one', X'0101');
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INSERT INTO main.t1 VALUES(2, 'main two', X'0102');
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INSERT INTO main.t1 VALUES(3, 'main three', X'0103');
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INSERT INTO main.t1 VALUES(4, 'main four', X'0104');
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INSERT INTO main.t1 VALUES(5, 'main five', X'0105');
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INSERT INTO main.x1 VALUES(1, 'x main one', X'000101');
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INSERT INTO main.x1 VALUES(2, 'x main two', X'000102');
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INSERT INTO main.x1 VALUES(3, 'x main three', X'000103');
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INSERT INTO main.x1 VALUES(4, 'x main four', X'000104');
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INSERT INTO main.x1 VALUES(5, 'x main five', X'000105');
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INSERT INTO temp.t1 VALUES(1, 'temp one', X'0201');
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INSERT INTO temp.t1 VALUES(2, 'temp two', X'0202');
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INSERT INTO temp.t1 VALUES(3, 'temp three', X'0203');
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INSERT INTO temp.t1 VALUES(4, 'temp four', X'0204');
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INSERT INTO temp.t1 VALUES(5, 'temp five', X'0205');
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INSERT INTO temp.x2 VALUES(1, 'x temp one', X'000201');
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INSERT INTO temp.x2 VALUES(2, 'x temp two', X'000202');
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INSERT INTO temp.x2 VALUES(3, 'x temp three', X'000203');
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INSERT INTO temp.x2 VALUES(4, 'x temp four', X'000204');
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INSERT INTO temp.x2 VALUES(5, 'x temp five', X'000205');
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INSERT INTO aux.t1 VALUES(1, 'aux one', X'0301');
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INSERT INTO aux.t1 VALUES(2, 'aux two', X'0302');
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INSERT INTO aux.t1 VALUES(3, 'aux three', X'0303');
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INSERT INTO aux.t1 VALUES(4, 'aux four', X'0304');
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INSERT INTO aux.t1 VALUES(5, 'aux five', X'0305');
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INSERT INTO aux.x3 VALUES(1, 'x aux one', X'000301');
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INSERT INTO aux.x3 VALUES(2, 'x aux two', X'000302');
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INSERT INTO aux.x3 VALUES(3, 'x aux three', X'000303');
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INSERT INTO aux.x3 VALUES(4, 'x aux four', X'000304');
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INSERT INTO aux.x3 VALUES(5, 'x aux five', X'000305');
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}
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#-------------------------------------------------------------------------
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# EVIDENCE-OF: R-37639-55938 This interfaces opens a handle to the BLOB
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# located in row iRow, column zColumn, table zTable in database zDb; in
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# other words, the same BLOB that would be selected by: SELECT zColumn
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# FROM zDb.zTable WHERE rowid = iRow;
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#
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proc read_blob {zDb zTab zCol iRow} {
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sqlite3_blob_open db $zDb $zTab $zCol $iRow 0 B
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set nByte [sqlite3_blob_bytes $B]
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set data [sqlite3_blob_read $B 0 $nByte]
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sqlite3_blob_close $B
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return $data
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}
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do_test 1.1.1 { read_blob main t1 b 1 } "main one"
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do_test 1.1.2 { read_blob main t1 c 1 } "\01\01"
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do_test 1.1.3 { read_blob temp t1 b 1 } "temp one"
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do_test 1.1.4 { read_blob temp t1 c 1 } "\02\01"
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do_test 1.1.6 { read_blob aux t1 b 1 } "aux one"
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do_test 1.1.7 { read_blob aux t1 c 1 } "\03\01"
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do_test 1.2.1 { read_blob main t1 b 4 } "main four"
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do_test 1.2.2 { read_blob main t1 c 4 } "\01\04"
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do_test 1.2.3 { read_blob temp t1 b 4 } "temp four"
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do_test 1.2.4 { read_blob temp t1 c 4 } "\02\04"
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do_test 1.2.6 { read_blob aux t1 b 4 } "aux four"
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do_test 1.2.7 { read_blob aux t1 c 4 } "\03\04"
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do_test 1.3.1 { read_blob main x1 b 2 } "x main two"
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do_test 1.3.2 { read_blob main x1 c 2 } "\00\01\02"
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do_test 1.3.3 { read_blob temp x2 b 2 } "x temp two"
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do_test 1.3.4 { read_blob temp x2 c 2 } "\00\02\02"
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do_test 1.3.6 { read_blob aux x3 b 2 } "x aux two"
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do_test 1.3.7 { read_blob aux x3 c 2 } "\00\03\02"
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#-------------------------------------------------------------------------
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# EVIDENCE-OF: R-27234-05761 Parameter zDb is not the filename that
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# contains the database, but rather the symbolic name of the database.
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# For attached databases, this is the name that appears after the AS
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# keyword in the ATTACH statement. For the main database file, the
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# database name is "main". For TEMP tables, the database name is "temp".
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#
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# The test cases immediately above demonstrate that the database name
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# for the main db, for TEMP tables and for those in attached databases
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# is correct. The following tests check that filenames cannot be
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# used as well.
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#
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do_test 2.1 {
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list [catch { sqlite3_blob_open db "test.db" t1 b 1 0 B } msg] $msg
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} {1 SQLITE_ERROR}
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do_test 2.2 {
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list [catch { sqlite3_blob_open db "test.db2" t1 b 1 0 B } msg] $msg
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} {1 SQLITE_ERROR}
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#-------------------------------------------------------------------------
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# EVIDENCE-OF: R-50854-53979 If the flags parameter is non-zero, then
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# the BLOB is opened for read and write access.
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#
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# EVIDENCE-OF: R-03922-41160 If the flags parameter is zero, the BLOB is
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# opened for read-only access.
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#
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foreach {tn iRow flags} {
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1 1 0
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2 2 1
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3 3 -1
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4 4 2147483647
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5 5 -2147483648
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} {
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do_test 3.$tn.1 {
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sqlite3_blob_open db main x1 c $iRow $flags B
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set n [sqlite3_blob_bytes $B]
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sqlite3_blob_read $B 0 $n
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} [binary format ccc 0 1 $iRow]
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if {$flags==0} {
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# Blob was opened for read-only access - writing returns an error.
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do_test 3.$tn.2 {
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list [catch { sqlite3_blob_write $B 0 xxx 3 } msg] $msg
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} {1 SQLITE_READONLY}
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do_execsql_test 3.$tn.3 {
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SELECT c FROM x1 WHERE a=$iRow;
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} [binary format ccc 0 1 $iRow]
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} else {
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# Blob was opened for read/write access - writing succeeds
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do_test 3.$tn.4 {
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list [catch { sqlite3_blob_write $B 0 xxx 3 } msg] $msg
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} {0 {}}
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do_execsql_test 3.$tn.5 {
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SELECT c FROM x1 WHERE a=$iRow;
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} {xxx}
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}
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sqlite3_blob_close $B
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}
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#-------------------------------------------------------------------------
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#
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reset_db
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do_execsql_test 4.0 {
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CREATE TABLE t1(x, y);
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INSERT INTO t1 VALUES('abcd', 152);
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INSERT INTO t1 VALUES(NULL, X'00010203');
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INSERT INTO t1 VALUES('', 154.2);
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CREATE TABLE t2(x PRIMARY KEY, y) WITHOUT ROWID;
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INSERT INTO t2 VALUES(1, 'blob');
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CREATE TABLE t3(a PRIMARY KEY, b, c, d, e, f, UNIQUE(e, f));
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INSERT INTO t3 VALUES('aaaa', 'bbbb', 'cccc', 'dddd', 'eeee', 'ffff');
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CREATE INDEX t3b ON t3(b);
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CREATE TABLE p1(x PRIMARY KEY);
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INSERT INTO p1 VALUES('abc');
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CREATE TABLE c1(a INTEGER PRIMARY KEY, b REFERENCES p1);
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INSERT INTO c1 VALUES(45, 'abc');
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}
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proc test_blob_open {tn zDb zTab zCol iRow flags errcode errmsg} {
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global B
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set B "0x1234"
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if {$errcode=="SQLITE_OK"} {
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set expected "0 {}"
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} else {
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set expected "1 $errcode"
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}
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set ::res [list [
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catch { sqlite3_blob_open db $zDb $zTab $zCol $iRow $flags B } msg
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] $msg]
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do_test 4.$tn.1 { set ::res } $expected
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# EVIDENCE-OF: R-08940-21305 Unless it returns SQLITE_MISUSE, this
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# function sets the database connection error code and message
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# accessible via sqlite3_errcode() and sqlite3_errmsg() and related
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# functions.
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#
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# This proc (test_blob_open) is used below to test various error and
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# non-error conditions. But never SQLITE_MISUSE conditions. So these
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# test cases are considered as partly verifying the requirement above.
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# See below for a test of the SQLITE_MISUSE case.
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#
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do_test 4.$tn.2 {
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sqlite3_errcode db
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} $errcode
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do_test 4.$tn.3 {
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sqlite3_errmsg db
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} $errmsg
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# EVIDENCE-OF: R-31086-35521 On success, SQLITE_OK is returned and the
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# new BLOB handle is stored in *ppBlob. Otherwise an error code is
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# returned and, unless the error code is SQLITE_MISUSE, *ppBlob is set
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# to NULL.
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#
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do_test 4.$tn.4 {
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expr {$B == "0"}
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} [expr {$errcode != "SQLITE_OK"}]
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# EVIDENCE-OF: R-63421-15521 This means that, provided the API is not
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# misused, it is always safe to call sqlite3_blob_close() on *ppBlob
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# after this function it returns.
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do_test 4.$tn.5 {
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sqlite3_blob_close $B
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} {}
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}
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# EVIDENCE-OF: R-31204-44780 Database zDb does not exist
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test_blob_open 1 nosuchdb t1 x 1 0 SQLITE_ERROR "no such table: nosuchdb.t1"
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# EVIDENCE-OF: R-28676-08005 Table zTable does not exist within database zDb
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test_blob_open 2 main tt1 x 1 0 SQLITE_ERROR "no such table: main.tt1"
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# EVIDENCE-OF: R-40134-30296 Table zTable is a WITHOUT ROWID table
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test_blob_open 3 main t2 y 1 0 SQLITE_ERROR \
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"cannot open table without rowid: t2"
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# EVIDENCE-OF: R-56376-21261 Column zColumn does not exist
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test_blob_open 4 main t1 z 2 0 SQLITE_ERROR "no such column: \"z\""
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# EVIDENCE-OF: R-28258-23166 Row iRow is not present in the table
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test_blob_open 5 main t1 y 6 0 SQLITE_ERROR "no such rowid: 6"
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# EVIDENCE-OF: R-11683-62380 The specified column of row iRow contains a
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# value that is not a TEXT or BLOB value
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test_blob_open 6 main t1 x 2 0 SQLITE_ERROR "cannot open value of type null"
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test_blob_open 7 main t1 y 1 0 SQLITE_ERROR "cannot open value of type integer"
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test_blob_open 8 main t1 y 3 0 SQLITE_ERROR "cannot open value of type real"
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# EVIDENCE-OF: R-34146-30782 Column zColumn is part of an index, PRIMARY
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# KEY or UNIQUE constraint and the blob is being opened for read/write
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# access
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#
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# Test cases 8.1.* show that such columns can be opened for read-access.
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# Tests 8.2.* show that read-write access is different. Columns "c" and "c"
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# are not part of an index, PK or UNIQUE constraint, so they work in both
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# cases.
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#
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test_blob_open 8.1.1 main t3 a 1 0 SQLITE_OK "not an error"
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test_blob_open 8.1.2 main t3 b 1 0 SQLITE_OK "not an error"
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test_blob_open 8.1.3 main t3 c 1 0 SQLITE_OK "not an error"
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test_blob_open 8.1.4 main t3 d 1 0 SQLITE_OK "not an error"
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test_blob_open 8.1.5 main t3 e 1 0 SQLITE_OK "not an error"
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test_blob_open 8.1.6 main t3 f 1 0 SQLITE_OK "not an error"
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set cannot "cannot open indexed column for writing"
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test_blob_open 8.2.1 main t3 a 1 8 SQLITE_ERROR $cannot
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test_blob_open 8.2.2 main t3 b 1 8 SQLITE_ERROR $cannot
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test_blob_open 8.2.3 main t3 c 1 8 SQLITE_OK "not an error"
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test_blob_open 8.2.4 main t3 d 1 8 SQLITE_OK "not an error"
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test_blob_open 8.2.5 main t3 e 1 8 SQLITE_ERROR $cannot
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test_blob_open 8.2.6 main t3 f 1 8 SQLITE_ERROR $cannot
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# EVIDENCE-OF: R-50117-55204 Foreign key constraints are enabled, column
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# zColumn is part of a child key definition and the blob is being opened
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# for read/write access
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#
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# 9.1: FK disabled, read-only access.
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# 9.2: FK disabled, read-only access.
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# 9.3: FK enabled, read/write access.
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# 9.4: FK enabled, read/write access.
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#
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test_blob_open 9.1 main c1 b 45 0 SQLITE_OK "not an error"
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test_blob_open 9.2 main c1 b 45 1 SQLITE_OK "not an error"
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execsql { PRAGMA foreign_keys = ON }
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test_blob_open 9.3 main c1 b 45 0 SQLITE_OK "not an error"
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test_blob_open 9.4 main c1 b 45 1 SQLITE_ERROR \
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"cannot open foreign key column for writing"
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#-------------------------------------------------------------------------
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# EVIDENCE-OF: R-08940-21305 Unless it returns SQLITE_MISUSE, this
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# function sets the database connection error code and message
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# accessible via sqlite3_errcode() and sqlite3_errmsg() and related
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# functions.
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#
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# This requirement is partially verified by the many uses of test
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# command [test_blob_open] above. All that is left is to verify the
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# SQLITE_MISUSE case.
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#
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# SQLITE_MISUSE is only returned if SQLITE_ENABLE_API_ARMOR is defined
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# during compilation.
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#
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ifcapable api_armor {
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sqlite3_blob_open db main t1 x 1 0 B
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do_test 10.1.1 {
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list [catch {sqlite3_blob_open $B main t1 x 1 0 B2} msg] $msg
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} {1 SQLITE_MISUSE}
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do_test 10.1.2 {
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list [sqlite3_errcode db] [sqlite3_errmsg db]
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} {SQLITE_OK {not an error}}
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sqlite3_blob_close $B
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do_test 10.2.1 {
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list [catch {sqlite3_blob_open db main {} x 1 0 B} msg] $msg
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} {1 SQLITE_MISUSE}
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do_test 10.2.2 {
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list [sqlite3_errcode db] [sqlite3_errmsg db]
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} {SQLITE_OK {not an error}}
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}
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#-------------------------------------------------------------------------
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# EVIDENCE-OF: R-50542-62589 If the row that a BLOB handle points to is
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# modified by an UPDATE, DELETE, or by ON CONFLICT side-effects then the
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# BLOB handle is marked as "expired". This is true if any column of the
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# row is changed, even a column other than the one the BLOB handle is
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# open on.
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#
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# EVIDENCE-OF: R-48367-20048 Calls to sqlite3_blob_read() and
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# sqlite3_blob_write() for an expired BLOB handle fail with a return
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# code of SQLITE_ABORT.
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#
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# 11.2: read-only handle, DELETE.
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# 11.3: read-only handle, UPDATE.
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# 11.4: read-only handle, REPLACE.
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# 11.5: read/write handle, DELETE.
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# 11.6: read/write handle, UPDATE.
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# 11.7: read/write handle, REPLACE.
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#
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do_execsql_test 11.1 {
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CREATE TABLE b1(a INTEGER PRIMARY KEY, b, c UNIQUE);
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INSERT INTO b1 VALUES(1, '1234567890', 1);
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INSERT INTO b1 VALUES(2, '1234567890', 2);
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INSERT INTO b1 VALUES(3, '1234567890', 3);
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INSERT INTO b1 VALUES(4, '1234567890', 4);
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INSERT INTO b1 VALUES(5, '1234567890', 5);
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INSERT INTO b1 VALUES(6, '1234567890', 6);
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CREATE TABLE b2(a INTEGER PRIMARY KEY, b, c UNIQUE);
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INSERT INTO b2 VALUES(1, '1234567890', 1);
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INSERT INTO b2 VALUES(2, '1234567890', 2);
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INSERT INTO b2 VALUES(3, '1234567890', 3);
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INSERT INTO b2 VALUES(4, '1234567890', 4);
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INSERT INTO b2 VALUES(5, '1234567890', 5);
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INSERT INTO b2 VALUES(6, '1234567890', 6);
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}
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do_test 11.2.1 {
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sqlite3_blob_open db main b1 b 2 0 B
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sqlite3_blob_read $B 0 10
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} {1234567890}
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do_test 11.2.2 {
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# Deleting a different row does not invalidate the blob handle.
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execsql { DELETE FROM b1 WHERE a = 1 }
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sqlite3_blob_read $B 0 10
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} {1234567890}
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do_test 11.2.3 {
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execsql { DELETE FROM b1 WHERE a = 2 }
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list [catch { sqlite3_blob_read $B 0 10 } msg] $msg
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} {1 SQLITE_ABORT}
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do_test 11.2.4 {
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sqlite3_blob_close $B
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} {}
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do_test 11.3.1 {
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sqlite3_blob_open db main b1 b 3 0 B
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sqlite3_blob_read $B 0 10
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} {1234567890}
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do_test 11.3.2 {
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# Updating a different row
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execsql { UPDATE b1 SET c = 42 WHERE a=4 }
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sqlite3_blob_read $B 0 10
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} {1234567890}
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do_test 11.3.3 {
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execsql { UPDATE b1 SET c = 43 WHERE a=3 }
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list [catch { sqlite3_blob_read $B 0 10 } msg] $msg
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} {1 SQLITE_ABORT}
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do_test 11.3.4 {
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sqlite3_blob_close $B
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} {}
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do_test 11.4.1 {
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sqlite3_blob_open db main b1 b 6 0 B
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sqlite3_blob_read $B 0 10
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} {1234567890}
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do_test 11.4.2 {
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# Replace a different row
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execsql { INSERT OR REPLACE INTO b1 VALUES(10, 'abcdefghij', 5) }
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sqlite3_blob_read $B 0 10
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} {1234567890}
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do_test 11.4.3 {
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execsql { INSERT OR REPLACE INTO b1 VALUES(11, 'abcdefghij', 6) }
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list [catch { sqlite3_blob_read $B 0 10 } msg] $msg
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} {1 SQLITE_ABORT}
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do_test 11.4.4 {
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|
sqlite3_blob_close $B
|
|
} {}
|
|
|
|
do_test 11.4.1 {
|
|
sqlite3_blob_open db main b2 b 2 1 B
|
|
sqlite3_blob_write $B 0 "abcdefghij"
|
|
} {}
|
|
do_test 11.4.2 {
|
|
# Deleting a different row does not invalidate the blob handle.
|
|
execsql { DELETE FROM b2 WHERE a = 1 }
|
|
sqlite3_blob_write $B 0 "ABCDEFGHIJ"
|
|
} {}
|
|
do_test 11.4.3 {
|
|
execsql { DELETE FROM b2 WHERE a = 2 }
|
|
list [catch { sqlite3_blob_write $B 0 "0987654321" } msg] $msg
|
|
} {1 SQLITE_ABORT}
|
|
do_test 11.4.4 {
|
|
sqlite3_blob_close $B
|
|
} {}
|
|
|
|
do_test 11.5.1 {
|
|
sqlite3_blob_open db main b2 b 3 1 B
|
|
sqlite3_blob_write $B 0 "abcdefghij"
|
|
} {}
|
|
do_test 11.5.2 {
|
|
# Updating a different row
|
|
execsql { UPDATE b2 SET c = 42 WHERE a=4 }
|
|
sqlite3_blob_write $B 0 "ABCDEFGHIJ"
|
|
} {}
|
|
do_test 11.5.3 {
|
|
execsql { UPDATE b2 SET c = 43 WHERE a=3 }
|
|
list [catch { sqlite3_blob_write $B 0 "0987654321" } msg] $msg
|
|
} {1 SQLITE_ABORT}
|
|
do_test 11.5.4 {
|
|
sqlite3_blob_close $B
|
|
} {}
|
|
|
|
do_test 11.6.1 {
|
|
sqlite3_blob_open db main b2 b 6 1 B
|
|
sqlite3_blob_write $B 0 "abcdefghij"
|
|
} {}
|
|
do_test 11.6.2 {
|
|
# Replace a different row
|
|
execsql { INSERT OR REPLACE INTO b2 VALUES(10, 'abcdefghij', 5) }
|
|
sqlite3_blob_write $B 0 "ABCDEFGHIJ"
|
|
} {}
|
|
do_test 11.6.3 {
|
|
execsql { INSERT OR REPLACE INTO b2 VALUES(11, 'abcdefghij', 6) }
|
|
list [catch { sqlite3_blob_write $B 0 "0987654321" } msg] $msg
|
|
} {1 SQLITE_ABORT}
|
|
do_test 11.6.4 {
|
|
sqlite3_blob_close $B
|
|
} {}
|
|
|
|
#-------------------------------------------------------------------------
|
|
# EVIDENCE-OF: R-45408-40694 Changes written into a BLOB prior to the
|
|
# BLOB expiring are not rolled back by the expiration of the BLOB. Such
|
|
# changes will eventually commit if the transaction continues to
|
|
# completion.
|
|
#
|
|
do_execsql_test 12.1 {
|
|
CREATE TABLE b3(x INTEGER PRIMARY KEY, y TEXT, z INTEGER);
|
|
INSERT INTO b3 VALUES(22, '..........', NULL);
|
|
}
|
|
do_test 12.2 {
|
|
sqlite3_blob_open db main b3 y 22 1 B
|
|
sqlite3_blob_write $B 0 "xxxxx" 5
|
|
} {}
|
|
do_execsql_test 12.3 {
|
|
UPDATE b3 SET z = 'not null';
|
|
}
|
|
do_test 12.4 {
|
|
list [catch {sqlite3_blob_write $B 5 "xxxxx" 5} msg] $msg
|
|
} {1 SQLITE_ABORT}
|
|
do_execsql_test 12.5 {
|
|
SELECT * FROM b3;
|
|
} {22 xxxxx..... {not null}}
|
|
do_test 12.5 {
|
|
sqlite3_blob_close $B
|
|
} {}
|
|
do_execsql_test 12.6 {
|
|
SELECT * FROM b3;
|
|
} {22 xxxxx..... {not null}}
|
|
|
|
#-------------------------------------------------------------------------
|
|
# EVIDENCE-OF: R-58813-55036 The sqlite3_bind_zeroblob() and
|
|
# sqlite3_result_zeroblob() interfaces and the built-in zeroblob SQL
|
|
# function may be used to create a zero-filled blob to read or write
|
|
# using the incremental-blob interface.
|
|
#
|
|
do_execsql_test 13.1 {
|
|
CREATE TABLE c2(i INTEGER PRIMARY KEY, j);
|
|
INSERT INTO c2 VALUES(10, zeroblob(24));
|
|
}
|
|
|
|
do_test 13.2 {
|
|
set stmt [sqlite3_prepare_v2 db "INSERT INTO c2 VALUES(11, ?)" -1]
|
|
sqlite3_bind_zeroblob $stmt 1 45
|
|
sqlite3_step $stmt
|
|
sqlite3_finalize $stmt
|
|
} {SQLITE_OK}
|
|
|
|
# The blobs can be read:
|
|
#
|
|
do_test 13.3.1 {
|
|
sqlite3_blob_open db main c2 j 10 1 B
|
|
sqlite3_blob_open db main c2 j 11 1 B2
|
|
list [sqlite3_blob_bytes $B] [sqlite3_blob_bytes $B2]
|
|
} {24 45}
|
|
do_test 13.3.2 {
|
|
sqlite3_blob_read $B 0 24
|
|
} [string repeat [binary format c 0] 24]
|
|
do_test 13.3.3 {
|
|
sqlite3_blob_read $B2 0 45
|
|
} [string repeat [binary format c 0] 45]
|
|
|
|
# And also written:
|
|
#
|
|
do_test 13.4.1 {
|
|
sqlite3_blob_write $B 0 [string repeat [binary format c 1] 24]
|
|
} {}
|
|
do_test 13.4.2 {
|
|
sqlite3_blob_write $B2 0 [string repeat [binary format c 1] 45]
|
|
} {}
|
|
do_test 13.5 {
|
|
sqlite3_blob_close $B
|
|
sqlite3_blob_close $B2
|
|
execsql { SELECT j FROM c2 }
|
|
} [list \
|
|
[string repeat [binary format c 1] 24] \
|
|
[string repeat [binary format c 1] 45] \
|
|
]
|
|
|
|
|
|
finish_test
|