# $FreeBSD$ .MAKE.MODE= normal # Failure is handled by the invoker, don't kill other legs of a parallel build. MAKE_JOB_ERROR_TOKEN=no # Test for broken LHS expansion. # This *must* cause make(1) to detect a recursive variable, and fail as such. .if make(lhs_expn) FOO= ${BAR} BAR${NIL}= ${FOO} FOO${BAR}= ${FOO} .endif DATA1= helllo DATA2:= ${DATA1} DATA3= ${DATA2:S/ll/rr/g} DATA4:= ${DATA2:S/ll/rr/g} DATA2?= allo DATA5:= ${DATA2:S/ll/ii/g} ${DATA1:S/ll/rr/g} DATA2= yello DATA1:= ${DATA5:S/l/r/g} NIL= SMAKE= MAKEFLAGS= ${MAKE} -C ${.CURDIR} all: @echo '1..16' @${SMAKE} C_check || { ${MAKE} -C ${.CURDIR} failure ; } @echo "ok 1 - C_check # Test of -C flag existence detected no regression." @echo 1:${DATA1} 2:${DATA2} 3:${DATA3} 4:${DATA4} 5:${DATA5} | \ diff -u ${.CURDIR}/regress.variables.out - || \ ${SMAKE} failure @echo "ok 2 - test_variables # Test variables detected no regression, output matches." @${SMAKE} double 2>/dev/null || ${SMAKE} failure @echo "ok 3 - test_targets # Test targets detected no regression." @${SMAKE} sysvmatch || ${SMAKE} failure @echo "ok 4 - sysvmatch # Test sysvmatch detected no regression." @! ${SMAKE} lhs_expn && true || ${SMAKE} failure @echo "ok 5 lhs_expn # Test lhs_expn detected no regression." @${SMAKE} notdef || ${SMAKE} failure @echo "ok 6 - notdef # Test notdef detected no regression." @${SMAKE} modifiers || ${SMAKE} failure @echo "ok 7 - modifiers # Test modifiers detected no regression." @${SMAKE} arith_expr || ${SMAKE} failure @echo "ok 8 arith_expr # Test arith_expr detected no regression." @${SMAKE} PATH_exists || ${SMAKE} failure @echo "ok 9 PATH_exists # Test PATH_exists detected no regression." @${SMAKE} double_quotes || ${SMAKE} failure @echo "ok 10 double_quotes # Test double_quotes detected no regression." @! ${SMAKE} double_quotes2 >/dev/null 2>&1 && true || ${SMAKE} failure @echo "ok 11 double_quotes2 # Test double_quotes2 detected no regression." @${SMAKE} pass_cmd_vars || ${SMAKE} failure @echo "ok 12 pass_cmd_vars # Test pass_cmd_vars detected no regression." @${SMAKE} plus_flag || ${SMAKE} failure @echo "ok 13 plus_flag # Test plus_flag detected no regression." @! ${SMAKE} shell >/dev/null 2>&1 && true || ${SMAKE} failure @echo "ok 14 shell # Test shell detected no regression." @${SMAKE} shell_1 || ${SMAKE} failure @echo "ok 15 shell_1 # Test shell_1 detected no regression." .if !defined(.PARSEDIR) @${SMAKE} shell_2 || ${SMAKE} failure @echo "ok 16 shell_2 # Test shell_2 detected no regression." .endif .if make(C_check) C_check: .endif .if make(double) # Doubly-defined targets. make(1) will warn, but use the "right" one. If it # switches to using the "non-right" one, it breaks things worse than a little # regression test. double: @true double: @false .endif .if make(sysvmatch) # Some versions of FreeBSD make(1) do not handle a nil LHS in sysvsubst. sysvmatch: @echo EMPTY ${NIL:=foo} LHS | \ diff -u ${.CURDIR}/regress.sysvmatch.out - || false .endif # A bogus target for the lhs_expn test; If this is reached, then the make(1) # program has not errored out because of the recursion caused by not expanding # the left-hand-side's embedded variables above. lhs_expn: @true .if make(notdef) # make(1) claims to only evaluate a conditional as far as is necessary # to determine its value; that was not always the case. .undef notdef notdef: .if defined(notdef) && ${notdef:M/} .endif .endif .if make(modifiers) .if defined(.PARSEDIR) # check if bmake can expand plain variables .MAKE.EXPAND_VARIABLES= yes x!= ${SMAKE} -V .CURDIR:H modifiers: .if ${.CURDIR:H} != "$x" @false .endif .else # See if make(1) supports the C modifier. modifiers: dollarV @if ${SMAKE} -V .CURDIR:C/.// 2>&1 >/dev/null | \ grep -q "Unknown modifier 'C'"; then \ false; \ fi # check that make -V '${VAR}' works V_expn != V_OK=ok ${SMAKE} -r -f /dev/null -V '$${V_OK}' dollarV: .if ${V_expn} == "" @false .endif .endif .endif .if make(arith_expr) arith_expr: # See if arithmetic expression parsing is broken. # The different spacing below is intentional. VALUE= 0 .if (${VALUE} < 0)||(${VALUE}>0) .endif .endif .if make(PATH_exists) PATH_exists: .PATH: ${.CURDIR} .if !exists(${.CURDIR}/) || !exists(${.CURDIR}/.) || !exists(${.CURDIR}/..) .error exists() failed .endif .endif .if make(double_quotes) VALUE= foo "" double_quotes: .if ${VALUE:S/$//} != ${VALUE} .error "" reduced to " .endif .endif .if make(double_quotes2) double_quotes2: @cat /dev/null "" .endif # # Check passing of variable via MAKEFLAGS # .if make(pass_cmd_vars) pass_cmd_vars: @${SMAKE} CMD1=cmd1 CMD2=cmd2 pass_cmd_vars_1 @${SMAKE} CMD1=cmd1 CMD2=cmd2 pass_cmd_vars_2 @${SMAKE} CMD1=cmd1 CMD2=cmd2 pass_cmd_vars_3 @${SMAKE} CMD1=cmd1 CMD2=cmd2 pass_cmd_vars_4 .endif # # Check that the variable definition arrived from the calling make # .if make(pass_cmd_vars_1) # These values should get overridden by the commandline CMD1=oops1 CMD2=oops2 pass_cmd_vars_1: @: .if ${CMD1} != cmd1 || ${CMD2} != cmd2 .error variables not passed through MAKEFLAGS .endif .endif .if make(pass_cmd_vars_2) # Check that we cannot override the passed variables CMD1=foo1 CMD2=foo2 .if ${CMD1} != cmd1 || ${CMD2} != cmd2 .error MAKEFLAGS-passed variables overridden .endif pass_cmd_vars_2: @: .endif .if make(pass_cmd_vars_3) # Check that we can override the passed variables on the next sub-make's # command line pass_cmd_vars_3: @${SMAKE} CMD1=foo1 pass_cmd_vars_3_1 .endif .if make(pass_cmd_vars_3_1) .if ${CMD1} != foo1 || ${CMD2} != cmd2 .error MAKEFLAGS-passed variables not overridden on command line .endif pass_cmd_vars_3_1: @: .endif .if make(pass_cmd_vars_4) # Ensure that a variable assignment passed via MAKEFLAGS may be overwritten # by evaluating the .MAKEFLAGS target. .MAKEFLAGS: CMD1=baz1 pass_cmd_vars_4: @${SMAKE} pass_cmd_vars_4_1 .if ${CMD1} != baz1 || ${CMD2} != cmd2 .error MAKEFLAGS-passed variables not overridden via .MAKEFLAGS target .endif .endif .if make(pass_cmd_vars_4_1) .if ${CMD1} != baz1 || ${CMD2} != cmd2 .error MAKEFLAGS-passed variables not overridden via .MAKEFLAGS target (2) .endif pass_cmd_vars_4_1: @: .endif # # Test whether make supports the '+' flag (meaning: execute even with -n) # .if make(plus_flag) OUT != ${SMAKE} -n plus_flag_1 .if ${OUT:M/tmp} != "/tmp" .error make doesn't handle + flag .endif plus_flag: @: .endif .if make(plus_flag_1) plus_flag_1: +@cd /tmp; pwd .endif .if make(shell) # Test if make fully supports the .SHELL specification. .SHELL: path=/nonexistent A!= echo ok shell: .endif .if make(shell_1) # Test if setting the shell by name only works. Because we have no ksh # in the base system we test that we can set sh and csh. We try only exact # matching names and do not exercise the rather strange matching algorithm. shell_1: @${SMAKE} shell_1_csh @${SMAKE} shell_1_sh .endif .if make(shell_1_csh) .SHELL: name="csh" shell_1_csh: @ps -ax -opid,command | awk '$$1=="'$$$$'" { print $$2 }' | grep -E -q '^(/bin/)?csh$$' .endif .if make(shell_1_sh) .SHELL: name="sh" shell_1_sh: @ps -ax -opid,command | awk '$$1=="'$$$$'" { print $$2 }' | grep -E -q '^(/bin/)?sh$$' .endif .if make(shell_2) # Test if we can replace the shell specification. We do this by using # a shell scripts that prints us its arguments and standard input as the shell shell_2: shell_test @${SMAKE} -B shell_2B | \ diff -u ${.CURDIR}/regress.shell_2B.out - || false @${SMAKE} -j1 shell_2j | \ diff -u ${.CURDIR}/regress.shell_2j.out - || false .endif .if make(shell_2B) .SHELL: name="echo" path="${.OBJDIR}/shell_test" quiet="be quiet" echo="be verbose" filter="be verbose" echoFlag="x" errFlag="y" hasErrCtl=y check="check errors" ignore="ignore errors" shell_2B: -@funny $$ funnier $$ .endif .if make(shell_2j) .SHELL: name="echo" path="${.OBJDIR}/shell_test" quiet="be quiet" echo="be verbose" filter="be verbose" echoFlag="x" errFlag="y" hasErrCtl=y check="check errors" ignore="ignore errors" shell_2j: -@funny $$ funnier $$ .endif failure: @echo "not ok # Test failed: regression detected. See above." @false CLEANFILES= shell_test .include