############################################################################### # # common.eagle -- # # Written by Joe Mistachkin. # Released to the public domain, use at your own risk! # ############################################################################### # # NOTE: Use our own namespace here because even though we do not directly # support namespaces ourselves, we do not want to pollute the global # namespace if this script actually ends up being evaluated in Tcl. # namespace eval ::Eagle { if {[isEagle]} then { ########################################################################### ############################ BEGIN Eagle ONLY ############################# ########################################################################### proc getBuildYear {} { # # NOTE: See if the "year" setting has been overridden by the user (e.g. # on the command line). This helps control exactly which set of # binaries we are testing, those produced using the Visual Studio # 2005, 2008, 2010, 2012, or 2013 build systems. To override this # value via the command line, enter a command similar to one of # the following (all on one line): # # EagleShell.exe -anyInitialize "set test_year 2005" # -file .\path\to\all.eagle # # EagleShell.exe -anyInitialize "set test_year 2008" # -file .\path\to\all.eagle # # EagleShell.exe -anyInitialize "set test_year 2010" # -file .\path\to\all.eagle # # EagleShell.exe -anyInitialize "set test_year 2012" # -file .\path\to\all.eagle # # EagleShell.exe -anyInitialize "set test_year 2013" # -file .\path\to\all.eagle # # EagleShell.exe -anyInitialize "unset -nocomplain test_year" # -file .\path\to\all.eagle # if {[info exists ::test_year] && [string length $::test_year] > 0} then { # # NOTE: Use the specified test year. If this variable is not set, the # default value will be based on whether or not Eagle has been # compiled against the CLR v2.0 or CLR v4.0. # return $::test_year } else { # # NOTE: If Eagle has been compiled against the CLR v4.0, use "2010" by # default (we could use "2012" or "2013" in that case as well) as # the test year; otherwise, use "2008" by default (we could use # "2005" in that case as well). If another major [incompatible] # version of the CLR is released, this check will have to be # changed. The default test year to use for a particular CLR # version may be overridden by setting the global variable # "test_year_clr_v$X", where "$X" may [currently] be either "2" # or "4". # if {[haveConstraint imageRuntime40]} then { if {[info exists ::test_year_clr_v4] && \ [string length $::test_year_clr_v4] > 0} then { # # NOTE: Use the specified test year for the CLR v4.0. # return $::test_year_clr_v4 } else { # # NOTE: Use the default test year for the CLR v4.0. # return 2010; # TODO: Good "fallback" default? } } else { if {[info exists ::test_year_clr_v2] && \ [string length $::test_year_clr_v2] > 0} then { # # NOTE: Use the specified test year for the CLR v2.0. # return $::test_year_clr_v2 } else { # # NOTE: Use the default test year for the CLR v2.0. # return 2008; # TODO: Good "fallback" default? } } } } proc getBuildYears {} { # # NOTE: See if the list of test years has been overridden by the user # (e.g. on the command line). # if {[info exists ::test_years] && [llength $::test_years] > 0} then { # # NOTE: Use the specified list of test years. # return $::test_years } else { # # NOTE: Use the default list of test years (i.e. all). # return [list 2005 2008 2010 2012 2013] } } proc getBuildNetFx {} { # # NOTE: See if the test .NET Framework setting has been overridden by # the user (e.g. on the command line). # if {[info exists ::test_net_fx] && \ [string length $::test_net_fx] > 0} then { # # NOTE: Use the specified test .NET Framework. # return $::test_net_fx } else { set year [getBuildYear] switch -exact -- $year { 2005 { return netFx20 } 2008 { return netFx35 } 2010 { return netFx40 } 2012 { return netFx45 } 2013 { return netFx451 } default { return netFx35; # TODO: Good "fallback" default? } } } } # # NOTE: This procedure should return non-zero if the configured test # platform is most likely the default for this machine. # proc isDefaultBuildPlatform { {verbose false} } { # # NOTE: Running on WoW64 is never the default platform. # if {[isRunningWoW64]} then { if {$verbose} then { tputs $::test_channel \ "---- detected non-default platform (WoW64)\n" } return false } # # NOTE: This has a good chance of being the default platform. # if {$verbose} then { tputs $::test_channel "---- detected default platform\n" } return true } proc getBuildPlatform { native } { if {[info exists ::test_platform] && \ [string length $::test_platform] > 0} then { # # NOTE: Use the specified test platform. If this variable is not set, # the default value will be based on the machine architecture. # return [expr {$native ? $::test_platform : ""}] } elseif {[info exists ::test_machine] && \ [string length $::test_machine] > 0} then { # # NOTE: For native builds, return the platform name corresponding to # the test machine architecture; otherwise, return an empty # string. # return [expr { $native ? [machineToPlatform $::test_machine] : "" }] } elseif {[info exists ::tcl_platform(machine)]} then { # # NOTE: For native builds, return the platform name corresponding to # the machine architecture; otherwise, return an empty string. # return [expr { $native ? [machineToPlatform $::tcl_platform(machine)] : "" }] } else { # # NOTE: No machine architecture is available, return an empty string. # It is important to return an empty string here because the # result of this procedure may be used with [file join]. # return "" } } proc getBuildConfiguration {} { # # NOTE: See if the "configuration" setting has been overridden by the # user (e.g. on the command line). This helps control exactly # which set of binaries we are testing (i.e. those built in the # "Debug" or "Release" build configurations). To override this # value via the command line, enter a command similar to one of # the following (all on one line): # # EagleShell.exe -anyInitialize "set test_configuration Debug" # -file .\path\to\all.eagle # # EagleShell.exe -anyInitialize "set test_configuration Release" # -file .\path\to\all.eagle # # EagleShell.exe -file .\path\to\all.eagle -preTest # "unset -nocomplain test_configuration" # if {[info exists ::test_configuration] && \ [string length $::test_configuration] > 0} then { # # NOTE: Use the specified test configuration. The default value used # for this variable is typically "Release", as set by the test # suite itself. # return $::test_configuration } else { # # NOTE: Normally, we will never hit this case because the value of the # test configuration variable is always set by the test suite # itself; however, it can be overridden using the unset command # from the -preTest option to the test suite. # return $::eagle_platform(configuration) } } proc getBuildConfigurations {} { # # NOTE: See if the list of test configurations has been overridden by # the user (e.g. on the command line). # if {[info exists ::test_configurations] && \ [llength $::test_configurations] > 0} then { # # NOTE: Use the specified list of test configurations. # return $::test_configurations } else { # # NOTE: Use the default list of test configurations. # return [list Debug Release] } } proc getBuildBaseDirectory {} { # # NOTE: Figure out the base directory where all the builds should be # located. This will be the directory that contains the actual # build output directory (e.g. parent of "bin"). # if {[info exists ::build_base_directory] && \ [string length $::build_base_directory] > 0} then { # # NOTE: The location of the build base directory has been overridden; # therefore, use it verbatim. # return $::build_base_directory } elseif {[info exists ::common_directory] && \ [string length $::common_directory] > 0} then { # # NOTE: Next, fallback to the parent directory of the one containing # this file (i.e. "common.eagle"), if available. # return [file dirname $::common_directory] } elseif {[info exists ::path] && \ [string length $::path] > 0} then { # # NOTE: Finally, fallback to the parent directory of the EagleTest # path. The EagleTest package guarantees that this variable # will be set to the directory containing the first file to # execute the [runTestPrologue] script library procedure. # return [file dirname $::path] } else { # # NOTE: No path is available, return an empty string. This point # should not be reached. # return "" } } proc getSQLiteTestDataPath {} { # # NOTE: Figure out the directory where all the test data files should # be located. This should be the "data" directory beneath the # directory containing the actual test scripts. # return [file join $::path data] } proc isRunningWoW64 {} { # # NOTE: For now, just use the existing test constraint for detecting # a WoW64 process. # return [haveConstraint wow64] } proc isMixedModeAssembly { fileName {varName ""} } { # # NOTE: First, make sure the test suite infrastructure is allowed to # use the [exec] command. # if {![info exists ::no(exec)] && ![info exists ::no(corFlags)]} then { # # NOTE: If the location of CorFlags is present in the environment, # use it; otherwise assume it is in the PATH. # set corFlags [expr { [info exists ::env(CorFlags)] ? $::env(CorFlags) : "CorFlags" }] # # NOTE: Attempt to execute CorFlags on the specified file. # if {[catch { exec -- $corFlags [file nativename $fileName] } exec] == 0} then { # # NOTE: If requested by our caller, attempt to determine the # platform for the specified file as well. # if {[string length $varName] > 0} then { # # NOTE: Store the platform in the named variable in the # context of our caller. # upvar 1 $varName platform # # NOTE: Attempt to extract the PE line from the captured # output. If this value is "PE32" or "PE32+", the # assembly file is 32-bit or 64-bit, respectively; # otherwise, its type is unknown. # set pattern {^PE : (PE32|PE32\+)\s+$} if {[regexp -line -- $pattern $exec dummy pe32]} then { # # HACK: This [switch] assumes that 32-bit executables are # always x86 and that 64-bit executables are always # x64. # switch -exact -- $pe32 { PE32 { set platform Win32 } PE32+ { set platform x64 } default { set platform "" } } } else { set platform "" } } # # NOTE: Attempt to extract the ILONLY line from the captured # output. If this value is zero, the specified file must # be a mixed-mode assembly; otherwise, it contains only # managed components. # set pattern {^ILONLY : (0|1)\s+$} if {![regexp -line -- $pattern $exec dummy ilOnly]} then { return false } if {!$ilOnly} then { return true } } } # # NOTE: If the test suite cannot use [exec] or execution of CorFlags # failed, return false. # return false } proc isBuildAvailable { native directory {varName ""} } { # # NOTE: Build the fully qualified file name for the primary assembly # containing the System.Data.SQLite managed components. It # should be noted that this assembly file may also contain the # native components, if a native build is in use. # set fileName [file nativename [file join $directory \ System.Data.SQLite.dll]] if {![file exists $fileName]} then { return false } # # NOTE: Attempt to automatically detect if the primary assembly # contains any native components, if necessary. # if {[string length $native] == 0} then { if {[string length $varName] > 0} then { upvar 1 $varName $varName } set native [isMixedModeAssembly $fileName $varName] } # # NOTE: If the primary assembly also contains the native components, # we have everything we need. # if {$native} then { return true } # # NOTE: Build the fully qualified file name for the interop assembly # containing the System.Data.SQLite native components. If this # file exists, we should have everything we need. # set fileName [file nativename [file join $directory \ SQLite.Interop.dll]] if {[file exists $fileName]} then { return true } # # NOTE: Build the fully qualified file name for the SQLite core # library. If this file exists, we should have everything we # need. # set fileName [file nativename [file join $directory \ sqlite3.dll]] if {[file exists $fileName]} then { return true } # # NOTE: One or more native components needed by System.Data.SQLite # are missing. # return false } proc isReleaseAvailable { directory {varName ""} } { if {[string length $varName] > 0} then { upvar 1 $varName $varName } return [isBuildAvailable "" $directory $varName] } proc joinBuildDirectory { native path year platform configuration } { # # NOTE: Figure out and then return the fully qualified path to the build # directory based on all the arguments provided by our caller. # if {$native} then { return [file join $path bin $year $platform $configuration] } else { return [file join $path bin $year $configuration bin] } } proc getBuildDirectory {} { # # NOTE: See if the "native" runtime option has been set. If so, use the # directory for the mixed-mode assembly (a.k.a. the native interop # assembly). To enable this option via the command line, enter a # command similar to one of the following (all on one line): # # EagleShell.exe -initialize -runtimeOption native # -file .\path\to\all.eagle # # To enable this option via the command line prior to the "beta 16" # release of Eagle, the following command must be used instead # (also all on one line): # # EagleShell.exe -initialize -postInitialize # "object invoke Interpreter.GetActive AddRuntimeOption native" # -file .\path\to\all.eagle # if {[info exists ::build_directory] && \ [string length $::build_directory] > 0} then { # # NOTE: The location of the build directory has been overridden; # therefore, use it verbatim. # return $::build_directory } else { # # NOTE: If the "native" runtime option is set, the mixed-mode assembly # is being tested. In that case, the path to the build directory # will contain the platform name and all the binaries under test # should be present in that directory. If the "native" runtime # option is not set, the build directory will be considered to be # "platform-neutral", with the notable exception of any native # assembly (e.g. "SQLite.Interop.dll") copied there during the # build process itself. If the build process somehow does not # copy the native assembly for this platform, most of the tests # in the suite will simply be skipped. Generally speaking, there # are two ways to build the binaries when preparing to run the # test suite: # # 1. Build the separate managed and native assemblies using some # commands similar to: # # build.bat ${Configuration}ManagedOnly ${Platform} # build.bat ${Configuration}NativeOnly ${Platform} # # Where ${Configuration} is either "Debug" or "Release" and # ${Platform} is either "Win32" or "x64". # # 2. Build the mixed-mode assembly using a command similar to: # # build.bat ${Configuration} ${Platform} # # Where ${Configuration} is either "Debug" or "Release" and # ${Platform} is either "Win32" or "x64". If this command is # used, various tests that require supplementary managed # assemblies (e.g. LINQ) may be skipped unless those binaries # are subsequently copied into the correct directory (i.e. by # "test_all.bat"). # # Note that all of the build commands above will default to using # the latest version of MSBuild available and the "test_year" may # need to be adjusted accordingly to actually run the test suite. # Refer to the comments in [getBuildYear] for more information on # how to set this variable. # set native [hasRuntimeOption native] return [joinBuildDirectory $native [getBuildBaseDirectory] \ [getBuildYear] [getBuildPlatform $native] [getBuildConfiguration]] } } proc getReleaseVersion {} { # # NOTE: Figure out the release version for use with the build directory # when checking for available releases. # if {[info exists ::release_version] && \ [string length $::release_version] > 0} then { # # NOTE: The release version has been overridden; therefore, use it # verbatim. # return $::release_version } else { # # NOTE: No release version is available, return an empty string. # It is important to return an empty string here because the # result of this procedure may be used with [file join]. # return "" } } proc getBuildFileName { fileName {platform ""} } { # # NOTE: Returns the specified file name as if it were located in the # build directory, discarding any directory information present # in the file name as provided by our caller. # set result [file nativename \ [file join [getBuildDirectory] $platform [file tail $fileName]]] # # HACK: When running on WoW64, assume the test executables are present # with the "32" suffix on them. # if {[isRunningWoW64] && [file extension $result] eq ".exe"} then { set result [appendArgs [file rootname $result] 32.exe] } return $result } proc getExternalDirectory {} { # # NOTE: This procedure returns the directory where the external binary # files are located. # return [file nativename [file dirname [file dirname [info binary]]]] } proc getBinaryDirectory {} { # # NOTE: This procedure returns the directory where the test application # itself (i.e. the Eagle shell) is located. This will be used as # the destination for the copied System.Data.SQLite native and # managed assemblies (i.e. because this is one of the few places # where the CLR will actually find and load them properly). # if {[info exists ::binary_directory] && \ [string length $::binary_directory] > 0} then { # # NOTE: The location of the binary directory has been overridden; # therefore, use it verbatim. # return $::binary_directory } else { return [info binary] } } proc getExternalFileName { fileName } { # # NOTE: Returns the specified file name as if it were located in the # directory containing the external binaries. # return [file nativename [file join [getExternalDirectory] $fileName]] } proc getBinaryFileName { fileName {platform ""} } { # # NOTE: Returns the specified file name as if it were located in the # binary directory, discarding any directory information present # in the file name as provided by our caller. # return [file nativename \ [file join [getBinaryDirectory] $platform [file tail $fileName]]] } proc getCoreBinaryFileName { {platform ""} {standard false} } { # # NOTE: Returns the full path for the file containing the SQLite core # native library code for this platform. First, check and see if # the SQLite core native library has already been loaded. Next, # fallback to what the full path should be, based on whether the # mixed-mode assembly is being used and the name of the current # platform. # if {[catch { object invoke -flags +NonPublic \ System.Data.SQLite.UnsafeNativeMethods _SQLiteNativeModuleFileName } fileName] == 0 && [string length $fileName] > 0} then { # # NOTE: The SQLite core native library has already been loaded via # the native library pre-loader. Return that file name now. # return $fileName } if {[hasRuntimeOption native]} then { # # NOTE: Return the mixed-mode assembly file name. # return [file nativename \ [file join [getBinaryDirectory] $platform System.Data.SQLite.dll]] } elseif {$standard} then { # # NOTE: Return the native-only standard SQLite library file name. # return [file nativename \ [file join [getBinaryDirectory] $platform sqlite3.dll]] } else { # # NOTE: Return the native-only interop assembly file name. # return [file nativename \ [file join [getBinaryDirectory] $platform SQLite.Interop.dll]] } } proc getCommonDirectory {} { # # NOTE: This procedure returns the directory where the test scripts # should be located. By default, this just returns the Eagle # binary directory. # if {[info exists ::common_directory] && \ [string length $::common_directory] > 0} then { # # NOTE: The location of the common directory has been set; # therefore, use it. # return $::common_directory } elseif {[info exists ::vendor_directory] && \ [string length $::vendor_directory] > 0} then { # # NOTE: The location of the vendor directory has been set; # therefore, use it. # return $::vendor_directory } elseif {[info exists ::tcl_library] && \ [string length $::tcl_library] > 0 && \ [file isdirectory $::tcl_library]} then { # # NOTE: The variable with the location of the script library is # set and appears to be a real directory (i.e. not embedded # within a file); therefore, use it. # return $::tcl_library } else { # # NOTE: Fallback to the directory containing the executable. # return [info binary] } } proc getDatabaseDirectory {} { # # NOTE: This procedure returns the directory where the test databases # should be located. By default, this just uses the temporary # directory configured for this system. # if {[info exists ::database_directory] && \ [string length $::database_directory] > 0} then { # # NOTE: The location of the database directory has been overridden; # therefore, use it. # return $::database_directory } elseif {[info exists ::scratch_directory] && \ [string length $::scratch_directory] > 0} then { # # NOTE: The location of the scratch directory has been overridden; # therefore, use it. # return $::scratch_directory } else { return [getTemporaryPath] } } proc getTemporaryDirectory {} { # # NOTE: This procedure returns the directory where the temporary files # should be located. By default, this just uses the temporary # directory configured for this system. # if {[info exists ::temporary_directory] && \ [string length $::temporary_directory] > 0} then { # # NOTE: The location of the temporary directory has been overridden; # therefore, use it. # return $::temporary_directory } elseif {[info exists ::scratch_directory] && \ [string length $::scratch_directory] > 0} then { # # NOTE: The location of the scratch directory has been overridden; # therefore, use it. # return $::scratch_directory } else { return [getTemporaryPath] } } proc getTestOverridesPreamble { {extraVarNames ""} } { set varNames [list] # # NOTE: If available, start with the master list of test override # variables. # if {[info exists ::test_overrides] && \ [llength $::test_overrides] > 0} then { eval lappend varNames $::test_overrides } # # NOTE: If requested by our caller, add any additional variable # names to copy now. # if {[llength $extraVarNames] > 0} then { eval lappend varNames $extraVarNames } # # NOTE: Build the script fragment to be returned by processing each # variable name and adding the nececessary script fragments for # each one. # set result "" foreach varName $varNames { # # NOTE: Build the qualified global variable name. # set fullVarName [appendArgs :: $varName] # # NOTE: Does the variable exist in this interpreter context? # if {[info exists $fullVarName]} then { # # NOTE: Append a script fragment to the result that will correctly # copy any contained value to another interpreter context. # append result \n "set " $fullVarName " \{" [set $fullVarName] \} } } # # NOTE: If the result contains one or more script fragments, append a # newline. # if {[string length $result] > 0} then { append result \n } return $result } proc getAppDomainPreamble { {prefix ""} {suffix ""} } { # # NOTE: This procedure returns a test setup script fragment suitable for # evaluation by an interpreter created in an isolated application # domain. The script fragment being returned will be surrounded by # the prefix and suffix "script fragments" specified by our caller, # if any. The entire script being returned will be substituted via # [subst], in the context of our caller, before being returned. # This step is necessary so that some limited context information, # primarily related to the testing directories, can be transferred # to the interpreter in the isolated application domain, making it # able to successfully run tests that require one or more of the # files in one of the testing directories. Callers should keep in # mind that the test script fragment being returned cannot rely on # any script library procedures that are not provided by the Eagle # library package (i.e. "init.eagle"), including those provided by # the Eagle test package, unless the file containing them is loaded # manually via some other mechanism (e.g. by including appropriate # [package require] or [source] commands in the prefix or suffix # script fragments). Also, all variable references and all nested # commands (i.e. those in square brackets) contained in the final # script fragment will end up being evaluated in the context of the # calling interpreter and not the target interpreter created in the # isolated application domain unless the dollar signs and/or square # brackets are specially quoted with backslashes. # return [uplevel 1 [list subst [appendArgs $prefix { if {[hasRuntimeOption native]} then { object invoke Interpreter.GetActive AddRuntimeOption native } } [getTestOverridesPreamble [list path test_channel]] $suffix]]] } proc tryCopyExternalFile { fileName {platform ""} {newFileName ""} {verbose false} } { set sourceFileName [getExternalFileName $fileName] if {![file exists $sourceFileName]} then { if {$verbose} then { tputs $::test_channel [appendArgs \ "---- skipped copying external file \"" $sourceFileName \ "\", it does not exist\n"] } return } if {[string length $newFileName] > 0} then { set targetFileName [getBinaryFileName $newFileName $platform] } else { set targetFileName [getBinaryFileName $fileName $platform] } set targetDirectory [file dirname $targetFileName] if {[catch { if {![file exists $targetDirectory]} then { file mkdir $targetDirectory } file copy -force $sourceFileName $targetFileName }] == 0} then { tputs $::test_channel [appendArgs \ "---- copied external file from \"" $sourceFileName "\" to \"" \ $targetFileName \"\n] } else { tputs $::test_channel [appendArgs \ "---- failed to copy external file from \"" $sourceFileName \ "\" to \"" $targetFileName \"\n] } } proc tryCopyBinaryFile { fileName {platform ""} {newFileName ""} {verbose false} } { set sourceFileName [getBinaryFileName $fileName $platform] if {![file exists $sourceFileName]} then { if {$verbose} then { tputs $::test_channel [appendArgs \ "---- skipped copying binary file \"" $sourceFileName \ "\", it does not exist\n"] } return } if {[string length $newFileName] > 0} then { set targetFileName [getBuildFileName $newFileName $platform] } else { set targetFileName [getBuildFileName $fileName $platform] } set targetDirectory [file dirname $targetFileName] if {[catch { if {![file exists $targetDirectory]} then { file mkdir $targetDirectory } file copy -force $sourceFileName $targetFileName }] == 0} then { tputs $::test_channel [appendArgs \ "---- copied binary file from \"" $sourceFileName "\" to \"" \ $targetFileName \"\n] } else { tputs $::test_channel [appendArgs \ "---- failed to copy binary file from \"" $sourceFileName \ "\" to \"" $targetFileName \"\n] } } proc tryCopyBuildFile { fileName {platform ""} {newFileName ""} {verbose false} } { set sourceFileName [getBuildFileName $fileName $platform] if {![file exists $sourceFileName]} then { if {$verbose} then { tputs $::test_channel [appendArgs \ "---- skipped copying build file \"" $sourceFileName \ "\", it does not exist\n"] } return } if {[string length $newFileName] > 0} then { set targetFileName [getBinaryFileName $newFileName $platform] } else { set targetFileName [getBinaryFileName $fileName $platform] } set targetDirectory [file dirname $targetFileName] if {[catch { if {![file exists $targetDirectory]} then { file mkdir $targetDirectory } file copy -force $sourceFileName $targetFileName }] == 0} then { tputs $::test_channel [appendArgs \ "---- copied build file from \"" $sourceFileName "\" to \"" \ $targetFileName \"\n] } else { tputs $::test_channel [appendArgs \ "---- failed to copy build file from \"" $sourceFileName \ "\" to \"" $targetFileName \"\n] } } proc tryDeleteBinaryFile { fileName {platform ""} {verbose false} } { set fileName [getBinaryFileName $fileName $platform] if {![file exists $fileName]} then { if {$verbose} then { tputs $::test_channel [appendArgs \ "---- skipped deleting binary file \"" $fileName \ "\", it does not exist\n"] } return } if {[catch {file delete $fileName}] == 0} then { tputs $::test_channel [appendArgs \ "---- deleted binary file \"" $fileName \"\n] } else { tputs $::test_channel [appendArgs \ "---- failed to delete binary file \"" $fileName \"\n] } } proc tryDeleteBuildFile { fileName {platform ""} {verbose false} } { set fileName [getBuildFileName $fileName $platform] if {![file exists $fileName]} then { if {$verbose} then { tputs $::test_channel [appendArgs \ "---- skipped deleting build file \"" $fileName \ "\", it does not exist\n"] } return } if {[catch {file delete $fileName}] == 0} then { tputs $::test_channel [appendArgs \ "---- deleted build file \"" $fileName \"\n] } else { tputs $::test_channel [appendArgs \ "---- failed to delete build file \"" $fileName \"\n] } } proc tryCopyAssembly { fileName {platform ""} {pdb true} {verbose false} } { tryCopyBuildFile $fileName $platform "" $verbose if {$pdb} then { tryCopyBuildFile [appendArgs \ [file rootname $fileName] .pdb] $platform "" $verbose } } proc tryDeleteAssembly { fileName {platform ""} {pdb true} {verbose false} } { tryDeleteBinaryFile $fileName $platform $verbose if {$pdb} then { tryDeleteBinaryFile [appendArgs \ [file rootname $fileName] .pdb] $platform $verbose } } proc tryLoadAssembly { fileName {platform ""} } { set fileName [getBinaryFileName $fileName $platform] if {[catch { set assembly [object load -loadtype File -alias $fileName] }] == 0} then { # # NOTE: Now, add the necessary test constraint. # addConstraint [file rootname [file tail $fileName]] # # NOTE: Grab the image runtime version from the assembly because # several tests rely on it having a certain value. # addConstraint [appendArgs [file tail $fileName] _ \ [$assembly ImageRuntimeVersion]] # # NOTE: Return the full path of the loaded file. # return $fileName } return "" } proc isSQLiteReady {} { # # NOTE: This procedure must return non-zero only if the SQLite native # library and the System.Data.SQLite managed assembly are loaded # and ready for use by the test suite. Currently, this procedure # should be called only after the [tryLoadAssembly] procedure has # been called to probe for the System.Data.SQLite managed assembly # and the [checkForSQLite] procedure has been called to probe for # the SQLite native library; otherwise, this procedure will simply # always return zero. # return [expr { [haveConstraint System.Data.SQLite] && [haveConstraint SQLite] }] } proc matchMachine { platform } { # # NOTE: An empty string for the platform means that the build is not # [primarily] a native build; therefore, it always matches. # if {[string length $platform] == 0} then { return true } # # NOTE: Does the specified platform match up to the current process? # if {$platform eq [machineToPlatform $::tcl_platform(machine)]} then { return true } # # NOTE: The specified platform does not match up with the platform # for the current process. # return false } proc checkForSQLiteBuilds { channel {select false} } { # # NOTE: Check for every possible valid combination of values used when # locating out the build output directory, showing each available # build variation along the way. # foreach native [list false true] { foreach year [getBuildYears] { foreach configuration [getBuildConfigurations] { # # NOTE: Figure out the effective build platform. This is # based on whether or not a [primarily] native build # is being used. For [primarily] non-native builds, # this will be an empty string. # set platform [getBuildPlatform $native] tputs $channel [appendArgs \ "---- checking for System.Data.SQLite build \"" [expr \ {$native ? "native/" : ""}] [expr {[string length \ $platform] > 0 ? [appendArgs $platform /] : ""}] $year \ / $configuration "\"... "] # # NOTE: Build the fully qualified directory where the necessary # components for System.Data.SQLite should be found. # set directory [joinBuildDirectory $native \ [getBuildBaseDirectory] $year $platform $configuration] # # NOTE: Do the necessary files exist? Currently, no other steps # are taken to verify this build is actually viable. # if {[isBuildAvailable $native $directory]} then { # # NOTE: When in "select" mode, automatically select the first # available build of System.Data.SQLite and then return # immediately. # if {$select && [matchMachine $platform]} then { # # NOTE: Manually override all the build directory selection # related test settings in order to force this build # of System.Data.SQLite to be used. # object invoke Interpreter.GetActive [expr {$native ? \ "AddRuntimeOption" : "RemoveRuntimeOption"}] native set ::test_year $year set ::test_platform $platform set ::test_configuration $configuration tputs $channel [appendArgs \ "yes, selected (" [expr {$native ? "native/" : ""}] \ [expr {[string length $platform] > 0 ? [appendArgs \ $platform /] : ""}] $year / $configuration ")\n"] return true } else { tputs $channel yes\n } } else { tputs $channel no\n } } } } return false } proc checkForSQLiteReleases { channel {select false} } { # # NOTE: Check for past releases of System.Data.SQLite in the directory # contained in the "System.Data.SQLite" environment variable, if # present. # if {[info exists ::env(System.Data.SQLite)] && \ [string length $::env(System.Data.SQLite)] > 0} then { # # NOTE: Build the fully qualified directory where the necessary # components for System.Data.SQLite should be found. # set directory [file nativename [file join \ $::env(System.Data.SQLite) [getReleaseVersion]]] tputs $channel [appendArgs \ "---- checking for System.Data.SQLite release \"" \ $directory "\"... "] if {[isReleaseAvailable $directory platform]} then { if {[string length $platform] == 0} then { set platform unknown } if {$select && [matchMachine $platform]} then { set ::build_directory $directory tputs $channel [appendArgs "yes, selected (" $platform ")\n"] return true } else { tputs $channel [appendArgs "yes (" $platform ")\n"] } } else { tputs $channel no\n foreach path [lsort -decreasing [file list $directory *]] { if {[file exists $path] && [file isdirectory $path]} then { tputs $channel [appendArgs \ "---- checking for System.Data.SQLite release \"" \ $path "\"... "] if {[isReleaseAvailable $path platform]} then { if {[string length $platform] == 0} then { set platform unknown } if {$select && [matchMachine $platform]} then { set ::build_directory $path tputs $channel [appendArgs "yes, selected (" $platform ")\n"] return true } else { tputs $channel [appendArgs "yes (" $platform ")\n"] } } else { tputs $channel no\n } } } } } else { tputs $channel [appendArgs \ "---- environment variable \"System.Data.SQLite\" is not " \ "set, skipping check for releases...\n"] } return false } proc checkForSQLiteLibrary { channel } { tputs $channel "---- checking for SQLite core library... " if {[catch { object invoke -flags +NonPublic \ System.Data.SQLite.SQLite3 SQLiteVersion } version] == 0} then { # # NOTE: Check if the returned version was null. If so, make it easy # to spot. # if {[string length $version] == 0} then { set version null } # # NOTE: Attempt to query the Fossil source identifier for the SQLite # core library. # if {[catch { object invoke -flags +NonPublic \ System.Data.SQLite.SQLite3 SQLiteSourceId } sourceId]} then { # # NOTE: We failed to query the Fossil source identifier. # set sourceId unknown } # # NOTE: Check if the returned Fossil source identifier was null. If # so, make it easy to spot. # if {[string length $sourceId] == 0} then { set sourceId null } # # NOTE: Yes, the SQLite core library appears to be available. # addConstraint SQLite tputs $channel [appendArgs "yes (" $version " " $sourceId ")\n"] } else { tputs $channel no\n } } proc checkForSQLiteInterop { channel } { tputs $channel "---- checking for SQLite interop assembly... " if {[catch { object invoke -flags +NonPublic \ System.Data.SQLite.SQLite3 InteropVersion } version] == 0} then { # # NOTE: Check if the returned version was null. If so, make it easy # to spot. # if {[string length $version] == 0} then { set version null } # # NOTE: Attempt to query the Fossil source identifier for the SQLite # core library. # if {[catch { object invoke -flags +NonPublic \ System.Data.SQLite.SQLite3 InteropSourceId } sourceId]} then { # # NOTE: We failed to query the Fossil source identifier. # set sourceId unknown } # # NOTE: Check if the returned Fossil source identifier was null. If # so, make it easy to spot. # if {[string length $sourceId] == 0} then { set sourceId null } # # NOTE: Yes, the SQLite interop assembly appears to be available. # addConstraint SQLiteInterop tputs $channel [appendArgs "yes (" $version " " $sourceId ")\n"] } else { tputs $channel no\n } } proc checkForSQLiteDefineConstant { channel name } { tputs $channel [appendArgs \ "---- checking for System.Data.SQLite define constant \"" $name \ "\"... "] if {[catch { object invoke -flags +NonPublic \ System.Data.SQLite.SQLite3 DefineConstants } defineConstants] == 0} then { if {[lsearch -exact -nocase $defineConstants $name] != -1} then { # # NOTE: Yes, this define constant was enabled when the managed # assembly was compiled. # addConstraint [appendArgs defineConstant.System.Data.SQLite. $name] tputs $channel yes\n } else { tputs $channel no\n } } else { tputs $channel error\n } } proc getDateTimeFormat {} { # # NOTE: This procedure simply returns the "default" DateTime format used # by the test suite. # if {[info exists ::datetime_format] && \ [string length $::datetime_format] > 0} then { # # NOTE: Return the manually overridden value for the DateTime format. # return $::datetime_format } else { # # NOTE: Return an ISO8601 DateTime format compatible with SQLite, # System.Data.SQLite, and suitable for round-tripping with the # DateTime class of the framework. If this value is changed, # various tests may fail. # return "yyyy-MM-dd HH:mm:ss.FFFFFFFK" } } proc enumerableToList { enumerable } { set result [list] if {[string length $enumerable] == 0 || $enumerable eq "null"} then { return $result } object foreach -alias item $enumerable { if {[string length $item] > 0} then { lappend result [$item ToString] } } return $result } proc catchAndReturn { script {stackTrace false} {strict true} } { # # NOTE: Evaluate the script provided by our caller in their context, # capturing both the result and the return code. # set code [catch {uplevel 1 $script} result] # # NOTE: Did the script provided by our caller NOT raise an error? # if {$strict && $code == 0 || !$strict && $code != 1} then { # # NOTE: Success. Return a list with the return code and the result. # return [list $code $result] } elseif {$stackTrace} then { # # NOTE: Failure. Our caller wants a full stack trace (if applicable), # return a list with the return code and the result verbatim. # return [list $code $result] } else { # # NOTE: Failure. Our caller does not want a full stack trace (if # applicable), return a list with the return code, the error # code for the interpreter, and the error message up to the # point where the stack trace should start. # set index [string first " at " $result]; # HACK: Reliable? return [list $code $::errorCode [expr {$index != -1 ? \ [string trim [string range $result 0 $index]] : $result}]] } } proc compileCSharpWith { text memory symbols strict resultsVarName errorsVarName fileNames args } { # # NOTE: Since we are going to use this method name a lot, assign it to a # variable first. # set add ReferencedAssemblies.Add # # NOTE: Create the base command to evaluate and add the property settings # that are almost always needed by our unit tests (i.e. the System # and System.Data assembly references). # set command [list \ compileCSharp $text $memory $symbols $strict results errors \ $add System.dll $add System.Data.dll $add System.Transactions.dll \ $add System.Xml.dll] # # NOTE: Add all the provided file names as assembly references. # foreach fileName $fileNames { lappend command $add [getBinaryFileName $fileName] } # # NOTE: Add the extra arguments, if any, to the command to evaluate. # eval lappend command $args # # NOTE: Alias the compiler local results and errors variables to the # variable names provided by our caller. # upvar 1 $resultsVarName results upvar 1 $errorsVarName errors # # NOTE: Evaluate the constructed [compileCSharp] command and return the # result. # eval $command } proc isMemoryDb { fileName } { # # NOTE: Is the specified database file name really an in-memory database? # return [expr {$fileName eq ":memory:" || \ [string range $fileName 0 12] eq "file::memory:"}] } proc isTableInDb { name {varName db} } { # # NOTE: Refer to the specified variable (e.g. "db") in the context of our # caller. It contains the database connection handle that will be # used to execute the query used to determine if the named table is # present in that database. # upvar 1 $varName db # # NOTE: Use the sqlite_master table to determine if the named table is # present in the database. # set sql { SELECT COUNT(*) FROM sqlite_master WHERE type = 'table' AND name = ?; } # # NOTE: Return non-zero if the named table is present. # return [expr { [sql execute -execute scalar $db $sql [list param1 String $name]] > 0 }] } proc trimSql { sql } { return [regsub -all -- {\s+} [string trim $sql] " "] } proc executeSql { sql {execute none} {format none} {fileName ""} } { if {[string length $fileName] == 0} then {set fileName :memory:} setupDb $fileName "" "" "" "" "" false false false false db true try { return [uplevel 1 [list \ sql execute -execute $execute -format $format $db $sql]] } finally { cleanupDb $fileName db false false false } } proc getConnectionFlags { fileName flags {quiet false} } { # # NOTE: Figure out which database file name or connection string these # connection flags will actually apply to. This is not necessary # in quiet mode because this information is only used for logging # and reporting purposes. # if {!$quiet} then { if {[string length $fileName] > 0} then { set database [appendArgs "file name \"" $fileName \"] } elseif {[info exists ::dataSource] && \ ![array exists ::dataSource]} then { set database [appendArgs "data source \"" $::dataSource \"] } else { set database } } # # NOTE: Show (and log) the local connection flags and the associated # data source or file name. # if {!$quiet} then { tputs $::test_channel [appendArgs \ "---- local connection flags for " $database \ " are: " [expr {[string length $flags] > 0 ? \ [appendArgs \" $flags \"] : ""}] \n] } # # NOTE: Show (and log) the shared connection flags. # if {!$quiet} then { if {[catch { object invoke System.Data.SQLite.SQLiteConnection SharedFlags } sharedFlags] == 0} then { tputs $::test_channel [appendArgs \ "---- shared connection flags for " $database \ " are: " [expr {[string length $sharedFlags] > 0 && \ $sharedFlags ne "None" ? \ [appendArgs \" $sharedFlags \"] : ""}] \n] } else { tputs $::test_channel [appendArgs \ "---- shared connection flags for " $database \ " are: \n"] } } # # NOTE: If there are any global (per test run) connection flags currently # set, use them now (i.e. by combining them with the ones for this # connection). # if {[info exists ::connection_flags] && \ [string length $::connection_flags] > 0} then { # # NOTE: Show (and log) the detected global connection flags. # if {!$quiet} then { tputs $::test_channel [appendArgs \ "---- global connection flags detected: " \ [expr {[info exists ::connection_flags] && \ [string length $::connection_flags] > 0 ? \ [appendArgs \" $::connection_flags \"] : ""}] \n] } # # NOTE: Combine and/or replace the connection flags and then show the # new value. # set flags [combineFlags $flags $::connection_flags] # # NOTE: Show (and log) the new effective connection flags. # if {!$quiet} then { tputs $::test_channel [appendArgs \ "---- combined connection flags for " $database \ " are: " [expr {[string length $flags] > 0 ? \ [appendArgs \" $flags \"] : ""}] \n] } } return $flags } proc getFlagsProperty { {flags ""} {quiet false} } { # # NOTE: Determine what the combined (global and local) connection # flags should be, possibly quietly. # set flags [getConnectionFlags "" $flags $quiet] # # NOTE: If no global or local connection flags were specified, the # default connection flags should be used; therefore, return # an empty string in that case. # if {[string length $flags] == 0} then { return "" } # # NOTE: In order to check if the default connection flags are being used # it is necessary to attempt a conversion to the actual enumerated # type. Failing that, the check against the default value will be # skipped. # set error null; # IGNORED set value [object invoke Utility TryParseFlagsEnum "" \ System.Data.SQLite.SQLiteConnectionFlags "" $flags null true \ error] # # NOTE: If the combined flags string could not actually be converted # to the enumerated type it is the default value, then just use # it verbatim; otherwise, just return an empty string. In that # case, the default connection flags will be used. # if {[string length $value] == 0 || $value ne "Default"} then { # # WARNING: This returns the string value of the combined flags, not # the enumerated value. This is by design and should not # be changed without careful consideration (e.g. it would # prevent the SQLiteConnection class from allowing invalid # ["magical"] meta-flags). # return [appendArgs "Flags=" $flags \;] } return "" } proc setupDb { fileName {mode ""} {dateTimeFormat ""} {dateTimeKind ""} {flags ""} {extra ""} {qualify true} {delete true} {uri false} {temporary true} {varName db} {quiet false} } { # # NOTE: First, see if our caller has requested an in-memory database. # set isMemory [isMemoryDb $fileName] # # NOTE: For now, all test databases used by the test suite are placed # into the database directory. Each database and related files # used by a test should be cleaned up by that test using the # "cleanupDb" procedure, below. # if {!$isMemory && $qualify} then { set fileName [file join [getDatabaseDirectory] [file tail $fileName]] } # # NOTE: By default, delete any pre-existing database with the same file # name if it currently exists. # if {!$isMemory && $delete && [file exists $fileName]} then { # # NOTE: Attempt to delete any pre-existing database with the same file # name. # if {[catch {file delete $fileName} error]} then { # # NOTE: We somehow failed to delete the file, report why. # if {!$quiet} then { tputs $::test_channel [appendArgs \ "==== WARNING: failed to delete database file \"" $fileName \ "\" during setup, error: " \n\t $error \n] } } } # # NOTE: Refer to the specified variable (e.g. "db") in the context of our # caller. The handle to the opened database will be stored there. # upvar 1 $varName db # # NOTE: Start building the connection string. The only required portion # of the connection string is the data source, which contains the # database file name itself. If our caller wants to use a URI as # the data source, use the FullUri connection string property to # prevent the data source string from being mangled. # if {$uri} then { set connection {FullUri=${fileName}} } else { set connection {Data Source=${fileName}} } # # NOTE: Since this procedure has no special knowledge of what the default # setting is for the ToFullPath connection string propery, always # add the value we know about to the connection string. # append connection {;ToFullPath=${qualify}} # # NOTE: If our caller specified a journal mode, add the necessary portion # of the connection string now. # if {[string length $mode] > 0} then { append connection {;Journal Mode=${mode}} } # # NOTE: If our caller specified a DateTime format, add the necessary # portion of the connection string now. # if {[string length $dateTimeFormat] > 0} then { append connection {;DateTimeFormat=${dateTimeFormat}} } # # NOTE: If our caller specified a DateTimeKind, add the necessary portion # of the connection string now. # if {[string length $dateTimeKind] > 0} then { append connection {;DateTimeKind=${dateTimeKind}} } # # NOTE: Figure out what the final flags for this connection need to be. # set flags [getConnectionFlags $fileName $flags $quiet] # # NOTE: If our caller specified some SQLiteConnectionFlags, add the # necessary portion of the connection string now. # if {[string length $flags] > 0} then { append connection {;Flags=${flags}} } # # NOTE: If our caller specified an extra payload to the connection # string, append it now. # if {[string length $extra] > 0} then { append connection \; $extra } # # NOTE: Open the database connection now, placing the opaque handle value # into the variable specified by our caller. # set db [sql open -type SQLite [subst $connection]] # # NOTE: Configure the temporary directory for the newly opened database # connection now unless our caller forbids it. # if {$temporary && ![info exists ::no(setTemporaryDirectory)]} then { sql execute $db [appendArgs \ "PRAGMA temp_store_directory = \"" [getTemporaryDirectory] \"\;] } # # NOTE: Always return the connection handle upon success. # return $db } proc getDbConnection { {varName db} } { # # NOTE: Refer to the specified variable (e.g. "db") in the context of our # caller. The handle to the database previously opened via the # [setupDb] procedure should be stored there. # upvar 1 $varName db # # NOTE: This returns the ADO.NET IDbConnection object instance for the # specified databse handle. Since getting this object relies upon # Eagle internals, great care should be taken to avoid disposing of # this object or otherwise putting it into an invalid state. # if {[info exists db]} then { if {[catch { object invoke -flags +NonPublic -objectflags +NoDispose -alias \ Interpreter.GetActive.connections Item $db } result] == 0} then { # # NOTE: Success, return the opaque object handle. # return $result } else { # # NOTE: Failure, report why. # tputs $::test_channel [appendArgs \ "==== WARNING: failed to get connection handle for database \"" \ $db "\", error: " \n\t $result \n] } } } proc freeDbConnection { {varName connection} } { # # NOTE: Refer to the specified variable (e.g. "connection") in the # context of our caller. The opaque object handle for an ADO.NET # connection previously returned by [getDbConnection] should be # stored there. # upvar 1 $varName connection # # NOTE: Attempt to remove the opaque object handle from the interpreter # now. This [object dispose] call will not actually dispose of the # underlying object because the +NoDispose flag was set on it # during creation of the opaque object handle. # if {[info exists connection] && \ [catch {object dispose $connection} error]} then { # # NOTE: We somehow failed to remove the handle, report why. # tputs $::test_channel [appendArgs \ "==== WARNING: failed to remove connection handle \"" $connection \ "\", error: " \n\t $error \n] } } proc addDbConnection { connection {varName db} } { # # NOTE: Refer to the specified variable (e.g. "db") in the context of our # caller. # upvar 1 $varName db # # NOTE: Create a correctly formatted name for the database connection to # be added to the list managed by the Eagle interpreter. # set db [object invoke -flags +NonPublic \ Eagle._Components.Private.FormatOps DatabaseObjectName $connection \ SQLiteConnection [object invoke Interpreter.GetActive NextId]] # # NOTE: Add the database connection provided by our caller to the list # of those known to the Eagle interpreter. # object invoke -flags +NonPublic Interpreter.GetActive.connections Add \ $db $connection } proc cleanupDb { fileName {varName db} {collect true} {qualify true} {delete true} } { # # NOTE: Attempt to force all pending "garbage" objects to be collected, # including SQLite statements and backup objects; this should allow # the underlying database file to be deleted. # if {$collect} then { collectGarbage $::test_channel } # # NOTE: Refer to the specified variable (e.g. "db") in the context of our # caller. The handle to the database previously opened via the # [setupDb] procedure should be stored there. # upvar 1 $varName db # # NOTE: Close the connection to the database now. This should allow us # to delete the underlying database file. # if {[info exists db] && [catch {sql close $db} error]} then { # # NOTE: We somehow failed to close the database, report why. # tputs $::test_channel [appendArgs \ "==== WARNING: failed to close database \"" $db "\", error: " \ \n\t $error \n] } # # NOTE: First, see if our caller has requested an in-memory database. # set isMemory [isMemoryDb $fileName] # # NOTE: Build the full path to the database file name. For now, all test # database files are stored in the temporary directory. # if {!$isMemory && $qualify} then { set fileName [file join [getDatabaseDirectory] [file tail $fileName]] } # # NOTE: Check if the file still exists. # if {!$isMemory && $delete && [file exists $fileName]} then { # # NOTE: Skip deleting database files if somebody sets the global # variable to prevent it. # if {![info exists ::no(cleanupDbFile)]} then { # # NOTE: Attempt to delete the test database file now. # if {[set code [catch {file delete $fileName} error]]} then { # # NOTE: We somehow failed to delete the file, report why. # tputs $::test_channel [appendArgs \ "==== WARNING: failed to delete database file \"" $fileName \ "\" during cleanup, error: " \n\t $error \n] } } else { # # NOTE: Show that we skipped deleting the file. # set code 0 tputs $::test_channel [appendArgs \ "==== WARNING: skipped deleting database file \"" $fileName \ "\" during cleanup\n"] } } else { # # NOTE: The file does not exist, success! # set code 0 } return $code } proc setupDbInterruptCallback { channel log } { tputs $channel "---- setting up debugger interrupt callback... " if {[catch { # # NOTE: Make sure the script debugger and the isolated interpreter are # setup and ready for use. # debug setup true true # # NOTE: Load the necessary packages into the isolated interpreter. # debug eval { package require Eagle package require Eagle.Library package require Eagle.Test } # # NOTE: Copy the necessary variables into the isolated interpreter. # debug invoke 0 set ::test_channel $channel; # NOTE: For [tputs]. debug invoke 0 set ::test_log $log; # NOTE: For [tlog]. # # NOTE: Install the callback script to be evaluated in the isolated # interpreter when this interpreter is interrupted by script # cancellation, etc. # debug callback apply {{sender e} { # # NOTE: Check if this callback is one that we care about. # if {"Canceled" in [split [$e InterruptType] ", "]} then { # # NOTE: Iterate through all database connections known to the # parent interpreter. # object foreach -alias pair \ [object invoke -flags +NonPublic $e Interpreter.connections] { # # NOTE: Attempt to cancel any SQL queries in progress on this # database connection. # if {[catch {$pair Value.Cancel} error]} then { tputs $::test_channel [appendArgs \n \ "==== WARNING: failed to cancel query for connection \"" \ [$pair Key] "\", error: " \n\t $error \n] } } } }} } error] == 0} then { addConstraint interruptCallback.sqlite3 tputs $channel yes\n } else { tputs $channel [appendArgs "no, error: " \n\t $error \n] } } proc cleanupFile { fileName {collect true} {force false} } { # # NOTE: Attempt to force all pending "garbage" objects to be collected, # including SQLite statements and backup objects; this should allow # the underlying database file to be deleted. # if {$collect} then { collectGarbage $::test_channel } # # NOTE: Check if the file still exists. # if {[file exists $fileName]} then { # # NOTE: Skip deleting test files if somebody sets the global variable # to prevent it. # if {$force || ![info exists ::no(cleanupFile)]} then { # # NOTE: Attempt to delete the test file now. # if {[set code [catch {file delete $fileName} error]]} then { # # NOTE: We somehow failed to delete the file, report why. # tputs $::test_channel [appendArgs \ "==== WARNING: failed to delete test file \"" $fileName \ "\" during cleanup, error: " \n\t $error \n] } } else { # # NOTE: Show that we skipped deleting the file. # set code 0 tputs $::test_channel [appendArgs \ "==== WARNING: skipped deleting test file \"" $fileName \ "\" during cleanup\n"] } } else { # # NOTE: The file does not exist, success! # set code 0 } return $code } proc collectGarbage { channel {milliseconds 1000} {quiet true} } { if {[catch {object invoke GC GetTotalMemory false} result] == 0} then { if {!$quiet} then { tputs $channel [appendArgs \ "---- memory in use by the CLR before collection... " \ $result " bytes\n"] } } else { tputs $channel [appendArgs \ "==== WARNING: failed to get CLR memory usage, error: " \ \n\t $result \n] } ######################################################################### # # NOTE: Repeatedly attempt to collect garbage until the allotted number # of milliseconds has elapsed. Always attempt to collect garbage # at least once. # set start [clock seconds] set stop [expr {$start + ($milliseconds / 1000)}] do { # # NOTE: Attempt to force a full garbage collection now. Report any # error that is encountered if we fail. # if {[catch {object invoke GC GetTotalMemory true} error]} then { tputs $channel [appendArgs \ "==== WARNING: failed full garbage collection, error: " \ \n\t $error \n] } set now [clock seconds] } while {$start <= $now && $now < $stop} ######################################################################### if {[catch {object invoke GC GetTotalMemory false} result] == 0} then { if {!$quiet} then { tputs $channel [appendArgs \ "---- memory in use by the CLR after collection... " \ $result " bytes\n"] } } else { tputs $channel [appendArgs \ "==== WARNING: failed to get CLR memory usage, error: " \ \n\t $result \n] } } proc getSQLiteHandleCounts { channel {quiet false} } { set result [list] if {[haveConstraint \ defineConstant.System.Data.SQLite.COUNT_HANDLE]} then { # # NOTE: Add each critical handle count to the resulting list. # foreach name [list connectionCount statementCount backupCount] { set value [object invoke -flags +NonPublic \ System.Data.SQLite.UnsafeNativeMethods $name] if {!$quiet} then { tputs $channel [appendArgs \ "---- critical handle count \"" $name "\" is " $value \n] } lappend result $value } } elseif {!$quiet} then { # # NOTE: The actual handle counts are not available; therefore, just # return an empty list. # tputs $channel "---- critical handle counts unavailable\n" } return $result } proc shutdownSQLite { channel {force false} {quiet false} } { # # NOTE: Make sure that SQLite core library is completely shutdown. This # is used by tests that change configuration options and/or those # that need to make sure logging is initialized (i.e. just in case # the SQLite core library was initialized in the process prior to # the SQLiteLog class being able to setup its logging callback). # Normally, this should only be performed if SQLite is loaded and # ready for use by the test suite. # if {$force || [isSQLiteReady]} then { # # BUGFIX: Before calling the native shutdown function, make sure both # of the PRAGMA related directory names are freed. # checkForSQLiteDirectories $channel true if {[catch { object invoke -flags +NonPublic \ System.Data.SQLite.UnsafeNativeMethods sqlite3_shutdown } result] == 0} then { if {!$quiet} then { tputs $channel [appendArgs \ "---- call sqlite3_shutdown()... ok: " $result \n] } } else { if {!$quiet} then { tputs $channel [appendArgs \ "---- call sqlite3_shutdown()... error: " \n\t $result \n] } } } } proc reportSQLiteResources { channel {quiet false} {collect true} } { # # NOTE: Skip all output if we are running in "quiet" mode. # if {[haveConstraint \ defineConstant.System.Data.SQLite.INTEROP_VIRTUAL_TABLE] && \ [haveConstraint \ defineConstant.System.Data.SQLite.TRACK_MEMORY_BYTES]} then { if {!$quiet} then { tputs $channel "---- current memory in use by SQLiteMemory... " } if {[catch { object invoke -flags +NonPublic \ System.Data.SQLite.SQLiteMemory bytesAllocated } memory] == 0} then { if {!$quiet} then { tputs $channel [appendArgs $memory " bytes\n"] } } else { set memory unknown if {!$quiet} then { tputs $channel [appendArgs $memory \n] } } if {!$quiet} then { tputs $channel "---- maximum memory in use by SQLiteMemory... " } if {[catch { object invoke -flags +NonPublic \ System.Data.SQLite.SQLiteMemory maximumBytesAllocated } memory] == 0} then { if {!$quiet} then { tputs $channel [appendArgs $memory " bytes\n"] } } else { set memory unknown if {!$quiet} then { tputs $channel [appendArgs $memory \n] } } } if {!$quiet} then { tputs $channel "---- current memory in use by SQLite... " } if {[catch { object invoke -flags +NonPublic \ System.Data.SQLite.UnsafeNativeMethods sqlite3_memory_used } memory] == 0} then { if {!$quiet} then { tputs $channel [appendArgs $memory " bytes\n"] } } else { # # NOTE: Maybe the SQLite core library is unavailable? # set memory unknown if {!$quiet} then { tputs $channel [appendArgs $memory \n] } } set result $memory; # NOTE: Return memory in-use to our caller. if {!$quiet} then { tputs $channel "---- maximum memory in use by SQLite... " } if {[catch { object invoke -flags +NonPublic \ System.Data.SQLite.UnsafeNativeMethods sqlite3_memory_highwater 0 } memory] == 0} then { if {!$quiet} then { tputs $channel [appendArgs $memory " bytes\n"] } } else { # # NOTE: Maybe the SQLite core library is unavailable? # set memory unknown if {!$quiet} then { tputs $channel [appendArgs $memory \n] } } if {$collect} then { collectGarbage $channel } if {!$quiet} then { tputs $channel "---- current memory in use by the CLR... " } if {[catch {object invoke GC GetTotalMemory false} memory] == 0} then { if {[string is integer -strict $memory]} then { if {!$quiet} then { tputs $channel [appendArgs $memory " bytes\n"] } } else { set memory invalid if {!$quiet} then { tputs $channel [appendArgs $memory \n] } } } else { set memory unknown if {!$quiet} then { tputs $channel [appendArgs $memory \n] } } return $result } proc checkForSQLiteDirectories { channel {reset false} } { # # NOTE: Check if the sqlite3_win32_set_directory function is available. # tputs $channel \ "---- checking for function sqlite3_win32_set_directory... " # # NOTE: This call to the sqlite3_win32_set_directory function uses the # invalid value 0 for the first argument. This code is designed # to check if calling the function will raise an exception (i.e. # the actual result of the function does not matter as long as no # directory is changed). # if {[catch { object invoke -flags +NonPublic \ System.Data.SQLite.UnsafeNativeMethods \ sqlite3_win32_set_directory 0 null }] == 0} then { # # NOTE: Calling the sqlite3_win32_set_directory function does not # cause an exception; therefore, it must be available (i.e. # even though it should return a failure return code in this # case). # addConstraint sqlite3_win32_set_directory tputs $channel yes\n # # NOTE: Does our caller want to reset the directories? # if {$reset} then { # # NOTE: Now make sure the database and temporary directories are # reset their default values, which should be null for both. # Since the sqlite3_win32_set_directory function is available, # use it. # for {set index 1} {$index < 3} {incr index} { if {[catch { object invoke -flags +NonPublic \ System.Data.SQLite.UnsafeNativeMethods \ sqlite3_win32_set_directory $index null } result] == 0} then { tputs $channel [appendArgs \ "---- call sqlite3_win32_set_directory(" $index \ ", null)... ok: " $result \n] } else { tputs $channel [appendArgs \ "---- call sqlite3_win32_set_directory(" $index \ ", null)... error: " \n\t $result \n] } } } } else { tputs $channel no\n # # NOTE: Does our caller want to reset the directories? This can only # be performed if SQLite is loaded and ready for use by the test # suite. # if {$reset && [isSQLiteReady]} then { # # NOTE: Now make sure the database and temporary directories are # reset their default values, which should be null for both. # Since the sqlite3_win32_set_directory function does not # appear to be available, use the associated PRAGMA commands # instead. # foreach directory [list data_store_directory temp_store_directory] { set sql [appendArgs "PRAGMA " $directory " = \"\";"] if {[catch {executeSql $sql} result] == 0} then { tputs $channel [appendArgs \ "---- execute PRAGMA " $directory "... ok: \"" \ $result \"\n] } else { tputs $channel [appendArgs \ "---- execute PRAGMA " $directory "... error: " \ \n\t $result \n] } } } } # # NOTE: Finally, show the current value of the database and temporary # directories. This can only be performed if SQLite is loaded # and ready for use by the test suite. # if {[isSQLiteReady]} then { foreach directory [list data_store_directory temp_store_directory] { tputs $channel [appendArgs "---- checking " $directory "... "] set sql [appendArgs "PRAGMA " $directory \;] if {[catch {executeSql $sql scalar} result] == 0} then { tputs $channel [appendArgs "ok: \"" $result \"\n] } else { tputs $channel [appendArgs "error: " \n\t $result \n] } } } } proc loadSQLiteTestSettings { channel {suffix ""} {quiet false} } { # # NOTE: Skip loading the settings if their usage has been disabled. # if {![info exists ::no(sqliteTestSettings)]} then { # # NOTE: Load custom per-user and/or per-host test settings now. # if {[info exists ::tcl_platform(user)]} then { set userSettingsFileName [file join [getCommonDirectory] \ [appendArgs settings $suffix . $::tcl_platform(user) .eagle]] if {[file exists $userSettingsFileName]} then { if {!$quiet} then { tputs $channel [appendArgs \ "---- loading per-user test settings file \"" \ $userSettingsFileName \"...\n] } if {[catch { uplevel 1 [list source $userSettingsFileName] } error]} then { if {!$quiet} then { tputs $channel [appendArgs \ "==== WARNING: failed to load per-user settings file \"" \ $userSettingsFileName "\", error: " \n\t $error \n] } } } else { if {!$quiet} then { tputs $channel [appendArgs \ "---- skipped loading per-user test settings file \"" \ $userSettingsFileName "\", it does not exist\n"] } } } ####################################################################### if {[info exists ::tcl_platform(host)]} then { set hostSettingsFileName [file join [getCommonDirectory] \ [appendArgs settings $suffix . $::tcl_platform(host) .eagle]] if {[file exists $hostSettingsFileName]} then { if {!$quiet} then { tputs $channel [appendArgs \ "---- loading per-host test settings file \"" \ $hostSettingsFileName \"...\n] } if {[catch { uplevel 1 [list source $hostSettingsFileName] } error]} then { if {!$quiet} then { tputs $channel [appendArgs \ "==== WARNING: failed to load per-host settings file \"" \ $hostSettingsFileName "\", error: " \n\t $error \n] } } } else { if {!$quiet} then { tputs $channel [appendArgs \ "---- skipped loading per-host test settings file \"" \ $hostSettingsFileName "\", it does not exist\n"] } } } } } proc runSQLiteTestPrologue {} { # # NOTE: Skip running our custom prologue if the main one has been # skipped. # if {![info exists ::no(prologue.eagle)]} then { # # NOTE: Load the "before-constraints" custom per-user and/or per-host # test settings now. # uplevel 1 [list loadSQLiteTestSettings $::test_channel .before] # # NOTE: Determine the names of the native platform and architecture. # set platform [getBuildPlatform true] set architecture [architectureForPlatform $platform] # # NOTE: Show the platform and architecture used to help locate the # native build files. # tputs $::test_channel [appendArgs \ "---- platform for locating native build files is \"" \ $platform \"\n] tputs $::test_channel [appendArgs \ "---- architecture for locating native build files is \"" \ $architecture \"\n] # # NOTE: Build a list of configuration files that we handle. # set configFileNames [list \ System.Data.SQLite.dll.config] # # NOTE: Build a list of auxiliary Managed Debugging Assistants (MDA) # configuration files that we handle. # set mdaConfigFileNames [list \ EagleShell32.exe.mda.config Installer.exe.mda.config \ test.exe.mda.config testlinq.exe.mda.config \ testef6.exe.mda.config] # # NOTE: Build the list of external files that we handle. Some of # these files may be native and/or managed assemblies that are # required to perform various tests. # set externalFileNames [list \ [file join EntityFramework lib [string map [list Fx ""] [string \ map [list netFx451 netFx45] [getBuildNetFx]]] EntityFramework.dll]] # # NOTE: Build the list of native assembly files that we handle. The # reason the "System.Data.SQLite.dll" file is included here is # because it could be the mixed-mode assembly. # set nativeFileNames [list \ sqlite3.dll SQLite.Interop.dll System.Data.SQLite.dll] # # NOTE: Build the list of managed assembly files that we handle. # set managedFileNames [list \ System.Data.SQLite.dll System.Data.SQLite.Linq.dll \ System.Data.SQLite.EF6.dll] # # NOTE: Remove any test constraints that refer to the native and/or # managed assembly files that we handle unless forbidden from # doing so. # if {![info exists ::no(sqliteRemoveConstraints)]} then { foreach fileName $configFileNames { removeConstraint [appendArgs file_ $fileName] } foreach fileName $mdaConfigFileNames { removeConstraint [appendArgs file_ $fileName] } foreach fileName $externalFileNames { removeConstraint [appendArgs file_ [file tail $fileName]] } foreach fileName $nativeFileNames { removeConstraint [appendArgs file_ $fileName] } foreach fileName $managedFileNames { removeConstraint [appendArgs file_ $fileName] } } # # NOTE: Skip all System.Data.SQLite related file handling (deleting, # copying, and loading) if instructed. # if {![info exists ::no(sqliteFiles)]} then { # # NOTE: Skip trying to delete any files if instructed. # if {![info exists ::no(deleteSqliteFiles)]} then { if {![info exists ::no(deleteSqliteConfigFiles)]} then { foreach fileName $configFileNames { tryDeleteBinaryFile $fileName } } if {![info exists ::no(deleteSqliteExternalFiles)]} then { foreach fileName $mdaConfigFileNames { tryDeleteBuildFile $fileName } foreach fileName $externalFileNames { tryDeleteBinaryFile $fileName } } if {![info exists ::no(deleteSqliteNativeFiles)]} then { if {![info exists ::no(deleteSqliteImplicitFiles)]} then { foreach fileName $nativeFileNames { tryDeleteAssembly $fileName } } if {![info exists ::no(deleteSqliteNonImplicitFiles)]} then { if {![info exists ::no(deleteSqlitePlatformFiles)] && \ [string length $platform] > 0} then { foreach fileName $nativeFileNames { tryDeleteAssembly $fileName $platform } } if {![info exists ::no(deleteSqliteArchitectureFiles)] && \ [string length $architecture] > 0} then { foreach fileName $nativeFileNames { tryDeleteAssembly $fileName $architecture } } } } if {![info exists ::no(deleteSqliteManagedFiles)]} then { foreach fileName $managedFileNames { tryDeleteAssembly $fileName } } } # # NOTE: Check for the "autoSelect" runtime option. If present, # attempt to automatically select the first available # build (or "release") of SQLite and System.Data.SQLite # for use with the test suite. # if {[hasRuntimeOption autoSelect]} then { if {![checkForSQLiteBuilds $::test_channel true]} then { checkForSQLiteReleases $::test_channel true } } # # NOTE: Skip trying to verify the build directory if instructed; # otherwise, make sure it actually exists or halt the entire # testing process if it does not exist. # if {![info exists ::no(verifyBuildDirectory)]} then { # # NOTE: At this point, the build directory MUST exist as a # valid directory for the testing process to continue. # set directory [getBuildDirectory] if {![file exists $directory] || \ ![file isdirectory $directory]} then { # # NOTE: Just prior to actually halting the testing process, # add an error to the test log file. # tputs $::test_channel [appendArgs \ "---- could not verify build directory \"" $directory \ "\", all testing halted\n"] # # NOTE: Raising a script error from this point should halt # the testing process. # error [appendArgs \ "could not verify build directory \"" $directory \ "\", all testing halted"] } } # # NOTE: Skip trying to copy any files if instructed. # if {![info exists ::no(copySqliteFiles)]} then { if {![info exists ::no(copySqliteConfigFiles)]} then { foreach fileName $configFileNames { tryCopyBuildFile $fileName } } if {![info exists ::no(copySqliteExternalFiles)]} then { # # NOTE: Copy the Managed Debugging Assistants (MDA) configuration # file for the Eagle shell to the build output directory, # while using each of the names of the various legacy test # executables. This will help to make sure that all the # legacy tests run with exactly the same set of Managed # Debugging Assistants configured. # foreach fileName $mdaConfigFileNames { tryCopyBinaryFile EagleShell.exe.mda.config "" $fileName } # # NOTE: Copy the external binaries, if any, to the directory that # contains the Eagle shell. This is typically used to make # sure assemblies referenced by the ones being tested are # available during the testing process. # foreach fileName $externalFileNames { tryCopyExternalFile $fileName } } if {![info exists ::no(copySqliteNativeFiles)]} then { # # NOTE: If the test platform is likely the default for this # machine, also try to copy the native files to the # binary location. # if {![info exists ::no(copySqliteImplicitFiles)] && \ [isDefaultBuildPlatform true]} then { foreach fileName $nativeFileNames { tryCopyAssembly $fileName } } if {![info exists ::no(copySqliteNonImplicitFiles)]} then { if {![info exists ::no(copySqlitePlatformFiles)] && \ [string length $platform] > 0} then { foreach fileName $nativeFileNames { tryCopyAssembly $fileName $platform } } if {![info exists ::no(copySqliteArchitectureFiles)] && \ [string length $architecture] > 0} then { foreach fileName $nativeFileNames { tryCopyAssembly $fileName $architecture } } } } if {![info exists ::no(copySqliteManagedFiles)]} then { foreach fileName $managedFileNames { tryCopyAssembly $fileName } } } # # NOTE: Skip trying to load any files if instructed. # if {![info exists ::no(loadSqliteFiles)]} then { if {![info exists ::no(loadSqliteImplicitFiles)]} then { tryLoadAssembly System.Data.SQLite.dll } if {![info exists ::no(loadSqliteLinqFiles)]} then { tryLoadAssembly System.Data.SQLite.Linq.dll } if {![info exists ::no(loadSqliteEf6Files)]} then { tryLoadAssembly System.Data.SQLite.EF6.dll } if {![info exists ::no(loadSqliteNonImplicitFiles)]} then { if {![info exists ::no(loadSqlitePlatformFiles)] && \ [string length $platform] > 0} then { tryLoadAssembly System.Data.SQLite.dll $platform } if {![info exists ::no(loadSqliteArchitectureFiles)] && \ [string length $architecture] > 0} then { tryLoadAssembly System.Data.SQLite.dll $architecture } } } } catch { tputs $::test_channel [appendArgs \ "---- file version of \"sqlite3.dll\"... " \ [file version [getBinaryFileName sqlite3.dll]] \n] } catch { tputs $::test_channel [appendArgs \ "---- file version of \"SQLite.Interop.dll\"... " \ [file version [getBinaryFileName SQLite.Interop.dll]] \n] } catch { tputs $::test_channel [appendArgs \ "---- file version of \"System.Data.SQLite.dll\"... " \ [file version [getBinaryFileName System.Data.SQLite.dll]] \n] } catch { tputs $::test_channel [appendArgs \ "---- file version of \"System.Data.SQLite.Linq.dll\"... " \ [file version [getBinaryFileName System.Data.SQLite.Linq.dll]] \n] } catch { tputs $::test_channel [appendArgs \ "---- file version of \"System.Data.SQLite.EF6.dll\"... " \ [file version [getBinaryFileName System.Data.SQLite.EF6.dll]] \n] } if {[string length $platform] > 0} then { catch { tputs $::test_channel [appendArgs \ "---- file version of \"" $platform \ "/sqlite3.dll\"... " [file version \ [getBinaryFileName sqlite3.dll $platform]] \n] } catch { tputs $::test_channel [appendArgs \ "---- file version of \"" $platform \ "/SQLite.Interop.dll\"... " [file version \ [getBinaryFileName SQLite.Interop.dll $platform]] \n] } catch { tputs $::test_channel [appendArgs \ "---- file version of \"" $platform \ "/System.Data.SQLite.dll\"... " [file version \ [getBinaryFileName System.Data.SQLite.dll $platform]] \n] } } if {[string length $architecture] > 0} then { catch { tputs $::test_channel [appendArgs \ "---- file version of \"" $architecture \ "/sqlite3.dll\"... " [file version \ [getBinaryFileName sqlite3.dll $architecture]] \n] } catch { tputs $::test_channel [appendArgs \ "---- file version of \"" $architecture \ "/SQLite.Interop.dll\"... " [file version \ [getBinaryFileName SQLite.Interop.dll $architecture]] \n] } catch { tputs $::test_channel [appendArgs \ "---- file version of \"" $architecture \ "/System.Data.SQLite.dll\"... " [file version \ [getBinaryFileName System.Data.SQLite.dll $architecture]] \n] } } # # NOTE: Grab the list of managed assemblies for the current process # and report on the System.Data.SQLite related ones. # set assemblies [object invoke AppDomain.CurrentDomain GetAssemblies] object foreach assembly $assemblies { if {[string match \{System.Data.SQLite* $assembly]} then { tputs $::test_channel [appendArgs \ "---- found loaded assembly: " $assembly \n] } } catch { tputs $::test_channel \ "---- define constants for \"System.Data.SQLite\"... " if {[catch { object invoke -flags +NonPublic \ System.Data.SQLite.SQLite3 DefineConstants } defineConstants] == 0} then { tputs $::test_channel [appendArgs [formatList [lsort \ $defineConstants] ] \n] } else { tputs $::test_channel unknown\n } } catch { tputs $::test_channel \ "---- source version of \"System.Data.SQLite.dll\"... " if {[catch { object invoke -flags +NonPublic \ System.Data.SQLite.SQLiteConnection ProviderVersion } version] == 0} then { if {[string length $version] == 0} then { set version null } tputs $::test_channel [appendArgs $version \n] } else { tputs $::test_channel unknown\n } } catch { tputs $::test_channel \ "---- source checkout of \"System.Data.SQLite.dll\"... " if {[catch { object invoke -flags +NonPublic \ System.Data.SQLite.SQLiteConnection ProviderSourceId } sourceId] == 0} then { if {[string length $sourceId] == 0} then { set sourceId null } tputs $::test_channel [appendArgs $sourceId \n] } else { tputs $::test_channel unknown\n } } # # NOTE: Check the available builds (and "releases") of SQLite and # System.Data.SQLite. # checkForSQLiteBuilds $::test_channel checkForSQLiteReleases $::test_channel # # NOTE: Now, we need to know if the SQLite core library is available # (i.e. because the managed-only System.Data.SQLite assembly can # load without it; however, it cannot do anything useful without # it). If we are using the mixed-mode assembly and we already # found it (above), this should always succeed. # checkForSQLiteLibrary $::test_channel # # NOTE: Check if the SQLite interop assembly is available. # checkForSQLiteInterop $::test_channel # # NOTE: Check the SQLite database and temporary directories. # checkForSQLiteDirectories $::test_channel # # NOTE: Attempt to determine if various compile-time options needed for # test constraints were enabled for the managed assembly. There # are some compile-time options that must also have been enabled # for the interop assembly in order to be effective. For those # options, it will be assumed that it was enabled for the interop # assembly if it was enabled for the managed assembly. # foreach defineConstant [list \ CHECK_STATE COUNT_HANDLE DEBUG INTEROP_CODEC INTEROP_DEBUG \ INTEROP_EXTENSION_FUNCTIONS INTEROP_LEGACY_CLOSE INTEROP_LOG \ INTEROP_TEST_EXTENSION INTEROP_VIRTUAL_TABLE NET_20 NET_35 \ NET_40 NET_45 NET_451 NET_COMPACT_20 PLATFORM_COMPACTFRAMEWORK \ PRELOAD_NATIVE_LIBRARY RETARGETABLE SQLITE_STANDARD \ THROW_ON_DISPOSED TRACE TRACE_CONNECTION TRACE_DETECTION \ TRACE_HANDLE TRACE_PRELOAD TRACE_SHARED TRACE_STATEMENT \ TRACE_WARNING TRACK_MEMORY_BYTES USE_ENTITY_FRAMEWORK_6 \ USE_INTEROP_DLL USE_PREPARE_V2 WINDOWS] { # # NOTE: Check if the compile-time option is listed in the list of # "define constants" kept track of by the managed assembly. # checkForSQLiteDefineConstant $::test_channel $defineConstant } # # NOTE: Check the current build year. Basically, this indicates # which version of MSBuild and/or Visual Studio was used to # compile the assembly binaries under test. # tputs $::test_channel \ "---- checking for System.Data.SQLite build year... " set year [getBuildYear] addConstraint [appendArgs buildYear. $year] tputs $::test_channel [appendArgs \" $year \"\n] # # NOTE: Check the current build .NET Framework. Basically, this # indicates which version of the .NET Framework is being # used by the assembly binaries under test. # tputs $::test_channel \ "---- checking for System.Data.SQLite build .NET Framework... " set netFx [getBuildNetFx] addConstraint [appendArgs buildFramework. $netFx] tputs $::test_channel [appendArgs \" $netFx \"\n] # # NOTE: Check the current build configuration. This should normally # be either "Debug" or "Release". # tputs $::test_channel \ "---- checking for System.Data.SQLite build configuration... " set configuration [getBuildConfiguration] addConstraint [appendArgs buildConfiguration. $configuration] tputs $::test_channel [appendArgs \" $configuration \"\n] # # NOTE: Try to setup an interrupt callback using the script debugger # that will cancel all SQL queries in progress for all database # connections known to this interpreter. # if {![info exists ::no(sqliteInterruptCallback)]} then { setupDbInterruptCallback $::test_channel $::test_log } # # NOTE: Check for the native runtime option, which would mean we are # using the mixed-mode assembly. # checkForRuntimeOption $::test_channel native # # NOTE: Check if the test suite should count the number of connections # "opened" and "closed" from the pool when determining if a test # passed. Disabling this behavior is sometimes necessary (e.g. # during the release testing process) because there are several # tests that rely on the "opened from pool" count being greater # than zero. These tests may fail due to the non-deterministic # behavior of the CLR GC, even when there is no bug in the code # being tested. # checkForRuntimeOption $::test_channel noPoolCounts # # NOTE: Report the resource usage prior to running any tests. # reportSQLiteResources $::test_channel # # NOTE: Grab the list of native modules for the current process and # report on the System.Data.SQLite related ones. # set modules [object invoke \ System.Diagnostics.Process.GetCurrentProcess Modules] object foreach -alias module $modules { # # NOTE: The module file name here must be normalized. # set fileName [file normalize [$module FileName]] if {[string match -nocase */sqlite3.dll $fileName]} then { tputs $::test_channel [appendArgs \ "---- found loaded SQLite native library module: " \ $fileName \n] } elseif {[string match \ -nocase */SQLite.Interop.dll $fileName]} then { tputs $::test_channel [appendArgs \ "---- found loaded SQLite interop assembly module: " \ $fileName \n] } } catch { tputs $::test_channel \ "---- compile-time options for SQLite core library... " if {[catch { object invoke -flags +NonPublic \ System.Data.SQLite.SQLite3 SQLiteCompileOptions } compileOptions] == 0} then { tputs $::test_channel [appendArgs [formatList [lsort \ $compileOptions] ] \n] } else { tputs $::test_channel unknown\n } } catch { tputs $::test_channel \ "---- compile-time options for SQLite interop assembly... " if {[catch { object invoke -flags +NonPublic \ System.Data.SQLite.SQLite3 InteropCompileOptions } compileOptions] == 0} then { tputs $::test_channel [appendArgs [formatList [lsort \ $compileOptions] ] \n] } else { tputs $::test_channel unknown\n } } # # NOTE: Show the active test constraints. # tputs $::test_channel [appendArgs "---- constraints: " \ [formatList [lsort [getConstraints]] ] \n] # # NOTE: Save the test constraints for use by threads created in this # application domain. This is necessary because all the Eagle # "test context" information is per-thread. # if {![info exists ::test_constraints]} then { set ::test_constraints $::eagle_tests(constraints) } # # NOTE: Load the "after-constraints" custom per-user and/or per-host # test settings now. # uplevel 1 [list loadSQLiteTestSettings $::test_channel .after] # # NOTE: Show when our tests actually began (now). # tputs $::test_channel [appendArgs \ "---- System.Data.SQLite tests began at " \ [clock format [clock seconds]] \n] } } proc runSQLiteTestEpilogue {} { # # NOTE: Skip running our custom epilogue if the main one has been # skipped. # if {![info exists ::no(epilogue.eagle)]} then { # # NOTE: Show when our tests actually ended (now). # tputs $::test_channel [appendArgs \ "---- System.Data.SQLite tests ended at " \ [clock format [clock seconds]] \n] # # NOTE: Load the "epilogue" custom per-user and/or per-host test # settings now. # uplevel 1 [list loadSQLiteTestSettings $::test_channel .epilogue] # # BUGFIX: Before checking the final resources in use by SQLite, make # sure both of the PRAGMA related directory names are freed. # checkForSQLiteDirectories $::test_channel true # # NOTE: Also report the resource usage after running the tests. # reportSQLiteResources $::test_channel # # NOTE: Report the critical handle counts after running the tests. # getSQLiteHandleCounts $::test_channel } } ########################################################################### ############################# END Eagle ONLY ############################## ########################################################################### } # # NOTE: Save the name of the directory containing this file. # if {![info exists common_directory]} then { set common_directory [file dirname [info script]] } # # NOTE: Provide the System.Data.SQLite test package to the interpreter. # package provide System.Data.SQLite.Test 1.0 }