796 lines
26 KiB
Plaintext
796 lines
26 KiB
Plaintext
#
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# Some generic MIPS tests
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#
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# When adding a new test to this file, try to do the following things:
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#
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# * If testing assembly and disassembly of code, don't forget to test
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# the actual bit encodings of the instructions (using the
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# --show-raw-insn flag to objdump).
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#
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# * Try to run the test for as many architectures as appropriate,
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# using the "run_dump_test_arches" or "run_list_test_arches" functions,
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# along with the output from a call to "mips_arch_list_matching."
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#
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# * Be sure to compare the test output before and after your testsuite
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# changes, to verify that existing and new tests were run as expected.
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# Look for expect ERROR messages in the testsuite .log file to make sure
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# the new expect code did not contain errors.
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# To add support for a new CPU to this file, add an appropriate entry
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# to the sequence of "mips_arch_create" function calls below, and test
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# the result. The new CPU should automatically be used when running
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# various tests. If the new CPU is the default CPU for any tool
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# targets, make sure the call to "mips_arch_create" reflects that fact.
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# "LOSE" marks information about tests which fail at a particular point
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# in time, but which are not XFAILed. Either they used to pass
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# and indicate either regressions or the need to tweak the tests to keep
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# up the with code, or they are new tests and it is unknown whether or not
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# they should pass as-is for the given object formats.
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# The functions below create and manipulate an "architecture data
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# array" which contains entries for each MIPS architecture (or CPU)
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# known to these tests. The array contains the following information
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# for each architecture, indexed by the name of the architecture
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# described by the entry:
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#
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# displayname: The name of the entry to be used for pretty-printing.
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#
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# gprsize: The size in bits of General Purpose Registers provided by
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# the architecture (must be 32 or 64).
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#
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# props: A list of text strings which are associated with the
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# architecture. These include the architecture name as well as
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# information about what instructions the CPU supports. When matching
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# based on properties, an additional property is added to the normal
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# property list, "gpr<gprsize>" so that tests can match CPUs which
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# have GPRs of a specific size. The following properties are most
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# useful when matching properties for generic (i.e., not CPU-specific)
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# tests:
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#
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# mips1, mips2, mips3, mips4, mips5, mips32, mips64
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# The architecture includes the instructions defined
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# by that MIPS ISA.
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#
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# gpr_ilocks
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# The architecture interlocks GPRs accesses. (That is,
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# there are no load delay slots.)
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#
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# mips3d The architecture includes the MIPS-3D ASE.
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#
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# ror The architecture includes hardware rotate instructions.
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#
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# gpr32, gpr64
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# The architecture provides 32- or 64-bit General Purpose
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# Registers.
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#
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# as_flags: The assembler flags used when assembling tests for this
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# architecture.
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#
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# objdump_flags: The objdump flags used when disassembling tests for
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# this architecture.
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#
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# Most entries in the architecture array will have values in all of
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# the fields above. One entry, "default" represents the default CPU
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# based on the target of the assembler being built. If always has
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# empty "as_flags" and "objdump_flags."
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# mips_arch_init
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#
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# This function initializes the architecture data array ("mips_arches")
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# to be empty.
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proc mips_arch_init {} {
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global mips_arches
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# Catch becuase the variable won't be set the first time through.
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catch {unset mips_arches}
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}
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# mips_arch_create ARCH GPRSIZE EXTENDS PROPS AS_FLAGS OBJDUMP_FLAGS \
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# (optional:) DEFAULT_FOR_TARGETS
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#
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# This function creates a new entry in the architecture data array,
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# for the architecture or CPU named ARCH, and fills in the entry
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# according to the rest of the arguments.
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#
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# The new entry's property list is initialized to contain ARCH, any
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# properties specified by PROPS, and the properties associated with
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# the entry specified by EXTENDS. (The new architecture is considered
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# to extend the capabilities provided by that architecture.)
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#
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# If DEFAULT_FOR_TARGETS is specified, it is a list of targets for which
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# this architecture is the default architecture. If "istarget" returns
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# true for any of the targets in the list, a "default" entry will be
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# added to the architecture array which indicates that ARCH is the default
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# architecture.
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proc mips_arch_create {arch gprsize extends props as_flags objdump_flags
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{default_for_targets {}}} {
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global mips_arches
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if { [info exists mips_arches($arch)] } {
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error "mips_arch_create: arch \"$arch\" already exists"
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}
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if { $gprsize != 32 && $gprsize != 64 } {
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error "mips_arch_create: invalid GPR size $gprsize"
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}
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set archdata(displayname) $arch
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set archdata(gprsize) $gprsize
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set archdata(as_flags) $as_flags
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set archdata(objdump_flags) $objdump_flags
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set archdata(props) $arch
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eval lappend archdata(props) $props
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if { [string length $extends] != 0 } {
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eval lappend archdata(props) [mips_arch_properties $extends 0]
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}
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set mips_arches($arch) [array get archdata]
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# Set as default if appropriate.
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foreach target $default_for_targets {
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if { [istarget $target] } {
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if { [info exists mips_arches(default)] } {
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error "mips_arch_create: default arch already exists"
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}
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set archdata(displayname) "default = $arch"
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set archdata(as_flags) ""
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set archdata(objdump_flags) ""
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set mips_arches(default) [array get archdata]
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break
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}
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}
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}
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# mips_arch_list_all
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#
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# This function returns the list of all names of entries in the
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# architecture data array (including the default entry, if a default
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# is known).
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proc mips_arch_list_all {} {
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global mips_arches
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return [lsort -dictionary [array names mips_arches]]
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}
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# mips_arch_data ARCH
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#
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# This function returns the information associated with ARCH
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# in the architecture data array, in "array get" form.
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proc mips_arch_data {arch} {
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global mips_arches
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if { ! [info exists mips_arches($arch)] } {
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error "mips_arch_data: unknown arch \"$arch\""
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}
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return $mips_arches($arch)
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}
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# mips_arch_displayname ARCH
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#
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# This function returns the printable name associated with ARCH in
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# the architecture data array.
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proc mips_arch_displayname {arch} {
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array set archdata [mips_arch_data $arch]
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return $archdata(displayname)
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}
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# mips_arch_properties ARCH (optional:) INCLUDE_GPRSIZE
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#
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# This function returns the property list associated with ARCH in the
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# architecture data array. If INCLUDE_GPRSIZE is non-zero, an additional
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# "gpr32" or "gpr64" property will be returned as part of the list based
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# on the architecture's GPR size.
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proc mips_arch_properties {arch {include_gprsize 1}} {
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array set archdata [mips_arch_data $arch]
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set props $archdata(props)
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if { $include_gprsize } {
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lappend props gpr$archdata(gprsize)
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}
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return $props
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}
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# mips_arch_as_flags ARCH
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#
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# This function returns the assembler flags associated with ARCH in
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# the architecture data array.
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proc mips_arch_as_flags {arch} {
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array set archdata [mips_arch_data $arch]
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return $archdata(as_flags)
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}
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# mips_arch_objdump_flags ARCH
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#
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# This function returns the objdump disassembly flags associated with
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# ARCH in the architecture data array.
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proc mips_arch_objdump_flags {arch} {
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array set archdata [mips_arch_data $arch]
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return $archdata(objdump_flags)
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}
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# mips_arch_matches ARCH PROPMATCHLIST
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#
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# This function returns non-zero if ARCH matches the set of properties
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# described by PROPMATCHLIST. Each entry in PROPMATCHLIST can either
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# be the name of a property which must be matched, or "!" followed by
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# the name of a property which must not be matched. ARCH matches
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# PROPMATCHLIST if and only if all of the conditions specified by
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# PROPMATCHLIST are satisfied.
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proc mips_arch_matches {arch propmatchlist} {
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foreach pm $propmatchlist {
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if { [string match {!*} $pm] } {
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# fail if present.
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set inverted 1
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set p [string range $pm 1 end]
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} {
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# fail if not present.
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set inverted 0
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set p $pm
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}
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set loc [lsearch -exact [mips_arch_properties $arch] $p]
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# required-absent and found, or required-present and not found: fail.
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if { ($inverted && $loc != -1) || (! $inverted && $loc == -1) } {
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return 0
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}
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}
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return 1
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}
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# mips_arch_list_matching ARGS
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#
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# This function returns a list of all architectures which match
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# the conditions described by its arguments. Its arguments are
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# taken as a list and used as the PROPMATCHLIST in a call to
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# "mips_arch_matches" for each known architecture.
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proc mips_arch_list_matching {args} {
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set l ""
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foreach arch [mips_arch_list_all] {
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# For now, don't match default arch until we know what its
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# properties actually are.
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if { [string compare $arch default] == 0
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&& [string length [mips_arch_properties default]] == 0} {
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continue
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}
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if { [mips_arch_matches $arch $args] } {
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lappend l $arch
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}
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}
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return $l
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}
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# The functions below facilitate running various types of tests.
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# run_dump_test_arch NAME ARCH
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#
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# Invoke "run_dump_test" for test NAME, with extra assembler and
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# disassembler flags to test architecture ARCH.
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proc run_dump_test_arch { name arch } {
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global subdir
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if [catch {run_dump_test $name \
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"{name {([mips_arch_displayname $arch])}}
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{objdump {[mips_arch_objdump_flags $arch]}}
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{as {[mips_arch_as_flags $arch]}}"} rv] {
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perror "$rv"
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untested "$subdir/$name ($arch)"
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}
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}
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# run_dump_test_arches NAME ARCH_LIST
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#
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# Invoke "run_dump_test_arch" for test NAME, for each architecture
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# listed in ARCH_LIST.
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proc run_dump_test_arches { name arch_list } {
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foreach arch $arch_list {
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run_dump_test_arch "$name" "$arch"
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}
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}
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# run_list_test NAME OPTS (optional): TESTNAME
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#
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# Assemble the file "NAME.d" and compare the assembler standard error
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# output against the regular expressions given in the file "NAME.l".
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# The assembler is passed the flags given in OPTS. If TESTNAME is
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# provided, it will be used as the name of the test.
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proc run_list_test { name opts {testname {}} } {
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global srcdir subdir
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if { [string length $testname] == 0 } then {
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set testname "MIPS $name"
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}
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set file $srcdir/$subdir/$name
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gas_run ${name}.s $opts ">&dump.out"
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if { [regexp_diff "dump.out" "${file}.l"] } then {
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fail $testname
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verbose "output is [file_contents "dump.out"]" 2
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return
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}
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pass $testname
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}
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# run_list_test_arch NAME OPTS ARCH
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#
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# Invoke "run_list_test" for test NAME with options OPTS, with extra
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# assembler flags to test architecture ARCH.
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proc run_list_test_arch { name opts arch } {
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global subdir
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set testname "MIPS $name ([mips_arch_displayname $arch])"
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if [catch {run_list_test "$name" "$opts [mips_arch_as_flags $arch]" \
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"$testname"} rv] {
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perror "$rv"
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untested "$testname"
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}
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}
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# run_list_test_arches NAME OPTS ARCH_LIST
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#
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# Invoke "run_list_test_arch" for test NAME with options OPTS, for each
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# architecture listed in ARCH_LIST.
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proc run_list_test_arches { name opts arch_list } {
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foreach arch $arch_list {
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run_list_test_arch "$name" "$opts" "$arch"
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}
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}
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# Create the architecture data array by providing data for all
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# known architectures.
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#
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# Note that several targets pick default CPU based on ABI. We
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# can't easily handle that; do NOT list those targets as defaulting
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# to any architecture.
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mips_arch_init
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mips_arch_create mips1 32 {} {} \
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{ -march=mips1 -mtune=mips1 } { -mmips:3000 }
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mips_arch_create mips2 32 mips1 { gpr_ilocks } \
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{ -march=mips2 -mtune=mips2 } { -mmips:6000 }
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mips_arch_create mips3 64 mips2 {} \
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{ -march=mips3 -mtune=mips3 } { -mmips:4000 }
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mips_arch_create mips4 64 mips3 {} \
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{ -march=mips4 -mtune=mips4 } { -mmips:8000 }
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mips_arch_create mips5 64 mips4 {} \
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{ -march=mips5 -mtune=mips5 } { -mmips:mips5 }
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mips_arch_create mips32 32 mips2 {} \
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{ -march=mips32 -mtune=mips32 } { -mmips:isa32 } \
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{ mipsisa32-*-* mipsisa32el-*-* }
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mips_arch_create mips32r2 32 mips32 { ror } \
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{ -march=mips32r2 -mtune=mips32r2 } \
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{ -mmips:isa32r2 } \
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{ mipsisa32r2-*-* mipsisa32r2el-*-* }
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mips_arch_create mips64 64 mips5 { mips32 } \
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{ -march=mips64 -mtune=mips64 } { -mmips:isa64 } \
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{ mipsisa64-*-* mipsisa64el-*-* }
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mips_arch_create mips64r2 64 mips64 { mips32r2 ror } \
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{ -march=mips64r2 -mtune=mips64r2 } \
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{ -mmips:isa64r2 } \
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{ mipsisa64r2-*-* mipsisa64r2el-*-* }
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mips_arch_create r3000 32 mips1 {} \
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{ -march=r3000 -mtune=r3000 } { -mmips:3000 }
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mips_arch_create r3900 32 mips1 { gpr_ilocks } \
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{ -march=r3900 -mtune=r3900 } { -mmips:3900 } \
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{ mipstx39-*-* mipstx39el-*-* }
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mips_arch_create r4000 64 mips3 {} \
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{ -march=r4000 -mtune=r4000 } { -mmips:4000 }
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mips_arch_create vr5400 64 mips4 { ror } \
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{ -march=vr5400 -mtune=vr5400 } { -mmips:5400 }
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mips_arch_create sb1 64 mips64 { mips3d } \
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{ -march=sb1 -mtune=sb1 } { -mmips:sb1 } \
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{ mipsisa64sb1-*-* mipsisa64sb1el-*-* }
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#
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# And now begin the actual tests! VxWorks uses RELA rather than REL
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# relocations, so most of the generic dump tests will not work there.
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#
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if { [istarget mips*-*-vxworks*] } {
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run_dump_test "vxworks1"
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run_dump_test "vxworks1-xgot"
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run_dump_test "vxworks1-el"
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run_dump_test "vxworks1-xgot-el"
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} elseif { [istarget mips*-*-*] } {
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set no_mips16 0
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set elf [expr [istarget *-*-elf*] || [istarget *-*-irix5*] || [istarget *-*-irix6* ] || [istarget *-*-linux*] || [istarget *-*-netbsd*] ]
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set ecoff [expr [istarget *-*-ecoff*] || [istarget *-*-ultrix*] || [istarget *-*-irix\[1-4\]*] ]
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set aout [expr [istarget *-*-bsd*] || [istarget *-*-openbsd*] ]
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set ilocks [istarget mipstx39*-*-*]
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set gpr_ilocks [expr [istarget mipstx39*-*-*]]
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set addr32 [expr [istarget mipstx39*-*-*] || [istarget mips-*-linux*] || [istarget mipsel-*-linux*]]
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set has_newabi [expr [istarget *-*-irix6*] || [istarget mips64*-*-linux*]]
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if { [istarget "mips*-*-*linux*"] || [istarget "mips*-sde-elf*"] } then {
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set tmips "t"
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} else {
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set tmips ""
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}
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if [istarget mips*el-*-*] {
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set el "el"
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} {
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set el ""
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}
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run_dump_test_arches "abs" [mips_arch_list_matching mips1]
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run_dump_test_arches "add" [mips_arch_list_matching mips1]
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run_dump_test_arches "and" [mips_arch_list_matching mips1]
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run_dump_test "break20"
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run_dump_test "trap20"
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# LOSE: As of 2002-02-08, "beq" through "bltu" fail for target mips-ecoff.
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# See http://sources.redhat.com/ml/binutils/2001-10/msg00418.html for
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# more information. Not sure if the fixes there are correct; should
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# branches to external labels be allowed for ECOFF?
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# XXX FIXME: the following tests require -mips2 disasm for
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# branch-likely instructions. They should be split.
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run_dump_test_arches "beq" [mips_arch_list_matching mips2]
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run_dump_test_arches "bge" [mips_arch_list_matching mips2]
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run_dump_test_arches "bgeu" [mips_arch_list_matching mips2]
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run_dump_test_arches "blt" [mips_arch_list_matching mips2]
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run_dump_test_arches "bltu" [mips_arch_list_matching mips2]
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run_dump_test_arches "branch-misc-1" [mips_arch_list_matching mips1]
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run_dump_test_arches "branch-misc-2" [mips_arch_list_matching mips1]
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run_dump_test_arches "branch-misc-2pic" [mips_arch_list_matching mips1]
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run_dump_test_arches "branch-misc-2-64" [mips_arch_list_matching mips3]
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run_dump_test_arches "branch-misc-2pic-64" [mips_arch_list_matching mips3]
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run_dump_test "branch-misc-3"
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run_dump_test "branch-swap"
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if $ilocks {
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run_dump_test "div-ilocks"
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} else {
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run_dump_test "div"
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}
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if { !$addr32 } {
|
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run_dump_test_arches "dli" [mips_arch_list_matching mips3]
|
|
}
|
|
if $elf {
|
|
run_dump_test_arches "elf-jal" [mips_arch_list_matching mips1]
|
|
} else {
|
|
run_dump_test "jal"
|
|
}
|
|
if $elf { run_dump_test "jal-svr4pic" }
|
|
if $elf { run_dump_test "jal-xgot" }
|
|
run_list_test_arches "jal-range" "-32" [mips_arch_list_matching mips1]
|
|
if $has_newabi { run_dump_test "jal-newabi" }
|
|
if !$aout { run_dump_test "la" }
|
|
if $elf { run_dump_test "la-svr4pic" }
|
|
if $elf { run_dump_test "la-xgot" }
|
|
if $elf { run_dump_test "lca-svr4pic" }
|
|
if $elf { run_dump_test "lca-xgot" }
|
|
if !$aout {
|
|
# XXX FIXME: Has mips2 and later insns with mips1 disassemblies.
|
|
# (Should split and then use appropriate arch lists.)
|
|
run_dump_test_arches "lb" [mips_arch_list_matching !mips2]
|
|
}
|
|
if $elf {
|
|
run_dump_test_arches "lb-svr4pic" [mips_arch_list_matching !gpr_ilocks]
|
|
run_dump_test_arches "lb-svr4pic-ilocks" [mips_arch_list_matching gpr_ilocks]
|
|
}
|
|
if $elf {
|
|
# Both versions specify the cpu, so we can run both regardless of
|
|
# the interlocking in the configured default cpu.
|
|
run_dump_test "lb-xgot"
|
|
run_dump_test "lb-xgot-ilocks"
|
|
}
|
|
if !$aout {
|
|
if !$gpr_ilocks {
|
|
run_dump_test "ld"
|
|
} else {
|
|
if !$addr32 {
|
|
run_dump_test "ld-ilocks"
|
|
} else {
|
|
run_dump_test "ld-ilocks-addr32"
|
|
}
|
|
}
|
|
}
|
|
if $elf { run_dump_test "ld-svr4pic" }
|
|
if $elf { run_dump_test "ld-xgot" }
|
|
run_dump_test_arches "li" [mips_arch_list_matching mips1]
|
|
if !$aout { run_dump_test "lifloat" }
|
|
if $elf { run_dump_test "lif-svr4pic" }
|
|
if $elf { run_dump_test "lif-xgot" }
|
|
run_dump_test_arches "mips4" [mips_arch_list_matching mips4]
|
|
run_dump_test_arches "mips5" [mips_arch_list_matching mips5]
|
|
if $ilocks {
|
|
run_dump_test "mul-ilocks"
|
|
} else {
|
|
run_dump_test "mul"
|
|
}
|
|
|
|
run_dump_test_arches "rol" [mips_arch_list_matching !ror]
|
|
run_dump_test_arches "rol-hw" [mips_arch_list_matching ror]
|
|
|
|
run_dump_test_arches "rol64" [mips_arch_list_matching gpr64 !ror]
|
|
run_dump_test_arches "rol64-hw" [mips_arch_list_matching gpr64 ror]
|
|
|
|
if !$aout { run_dump_test "sb" }
|
|
run_dump_test "trunc"
|
|
if !$aout { run_dump_test "ulh" }
|
|
run_dump_test_arches "ulh2-eb" [mips_arch_list_matching mips1]
|
|
run_dump_test_arches "ulh2-el" [mips_arch_list_matching mips1]
|
|
if $elf { run_dump_test "ulh-svr4pic" }
|
|
if $elf { run_dump_test "ulh-xgot" }
|
|
if !$aout {
|
|
run_dump_test "ulw"
|
|
run_dump_test "uld"
|
|
run_dump_test "ush"
|
|
run_dump_test "usw"
|
|
run_dump_test "usd"
|
|
}
|
|
run_dump_test_arches "ulw2-eb" [mips_arch_list_matching !gpr_ilocks]
|
|
run_dump_test_arches "ulw2-eb-ilocks" [mips_arch_list_matching gpr_ilocks]
|
|
run_dump_test_arches "ulw2-el" [mips_arch_list_matching !gpr_ilocks]
|
|
run_dump_test_arches "ulw2-el-ilocks" [mips_arch_list_matching gpr_ilocks]
|
|
|
|
run_dump_test_arches "uld2-eb" [mips_arch_list_matching mips3]
|
|
run_dump_test_arches "uld2-el" [mips_arch_list_matching mips3]
|
|
|
|
# The mips16 test can only be run on ELF, because only ELF
|
|
# supports the necessary mips16 reloc.
|
|
if { $elf && !$no_mips16 } {
|
|
run_dump_test "mips16"
|
|
run_dump_test "mips16-64"
|
|
# Check MIPS16e extensions
|
|
run_dump_test_arches "mips16e" [mips_arch_list_matching mips32]
|
|
# Check jalx handling
|
|
run_dump_test "mips16-jalx"
|
|
run_dump_test "mips-jalx"
|
|
# Check MIPS16 HI16/LO16 relocations
|
|
run_dump_test "mips16-hilo"
|
|
if $has_newabi {
|
|
run_dump_test "mips16-hilo-n32"
|
|
}
|
|
}
|
|
run_list_test "mips-no-jalx" "-32"
|
|
run_dump_test "delay"
|
|
run_dump_test "nodelay"
|
|
run_dump_test "mips4010"
|
|
run_dump_test "mips4650"
|
|
run_dump_test "mips4100"
|
|
run_dump_test "vr4111"
|
|
run_dump_test "vr4120"
|
|
run_dump_test "vr4120-2"
|
|
run_dump_test "vr4130"
|
|
run_dump_test "vr5400"
|
|
run_dump_test "vr5500"
|
|
run_dump_test "rm7000"
|
|
run_dump_test "perfcount"
|
|
run_dump_test "lineno"
|
|
run_dump_test "sync"
|
|
|
|
run_dump_test_arches "mips32" [mips_arch_list_matching mips32]
|
|
|
|
run_dump_test_arches "mips32-sf32" [mips_arch_list_matching mips32]
|
|
|
|
run_dump_test_arches "mips32r2" [mips_arch_list_matching mips32r2]
|
|
run_list_test_arches "mips32r2-ill" "-32" \
|
|
[mips_arch_list_matching mips32r2 gpr32]
|
|
run_list_test_arches "mips32r2-ill-fp64" "-mabi=o64" \
|
|
[mips_arch_list_matching mips32r2 gpr64]
|
|
|
|
run_dump_test_arches "mips64" [mips_arch_list_matching mips64]
|
|
|
|
run_dump_test_arches "mips64r2" [mips_arch_list_matching mips64r2]
|
|
run_list_test_arches "mips64r2-ill" "" [mips_arch_list_matching mips64r2]
|
|
|
|
run_dump_test "set-arch"
|
|
|
|
if { !$addr32 } {
|
|
run_dump_test "mips64-mips3d"
|
|
run_dump_test_arches "mips64-mips3d-incl" [mips_arch_list_matching mips3d]
|
|
|
|
run_dump_test "mips64-mdmx"
|
|
run_dump_test "sb1-ext-mdmx"
|
|
run_dump_test "sb1-ext-ps"
|
|
}
|
|
|
|
run_dump_test "relax"
|
|
run_dump_test "relax-swap1-mips1"
|
|
run_dump_test "relax-swap1-mips2"
|
|
run_dump_test "relax-swap2"
|
|
|
|
run_list_test "illegal" "-32"
|
|
run_list_test "baddata1" "-32"
|
|
|
|
# LOSE: As of 2002-02-08, the next 4 tests fail for target mips-ecoff.
|
|
# It's unknown whether they _should_ pass as-is, or whether different
|
|
# variants are needed for ELF and ECOFF.
|
|
run_dump_test "mips-gp32-fp32"
|
|
run_dump_test "mips-gp32-fp64"
|
|
run_dump_test "mips-gp64-fp32"
|
|
run_dump_test "mips-gp64-fp64"
|
|
|
|
if $elf {
|
|
# Make sure that -mcpu=FOO and -mFOO are equivalent. Assemble a file
|
|
# containing 4650-specific instructions with -m4650 and -mcpu=4650,
|
|
# and verify that they're the same. Specifically, we're checking
|
|
# that the EF_MIPS_MACH field is set, and that the 4650 'mul'
|
|
# instruction does get used. In previous versions of GAS,
|
|
# only -mcpu=4650 would set the EF_MIPS_MACH field; -m4650 wouldn't.
|
|
run_dump_test "elf_e_flags1"
|
|
run_dump_test "elf_e_flags2"
|
|
run_dump_test "elf_e_flags3"
|
|
run_dump_test "elf_e_flags4"
|
|
|
|
# Check EF_MIPS_ARCH markings for each supported architecture.
|
|
run_dump_test "elf_arch_mips1"
|
|
run_dump_test "elf_arch_mips2"
|
|
run_dump_test "elf_arch_mips3"
|
|
run_dump_test "elf_arch_mips4"
|
|
run_dump_test "elf_arch_mips5"
|
|
run_dump_test "elf_arch_mips32"
|
|
run_dump_test "elf_arch_mips32r2"
|
|
run_dump_test "elf_arch_mips64"
|
|
run_dump_test "elf_arch_mips64r2"
|
|
|
|
# Verify that ASE markings are handled properly.
|
|
if { !$no_mips16 } { run_dump_test "elf_ase_mips16" }
|
|
|
|
run_dump_test "mips-gp32-fp32-pic"
|
|
run_dump_test "mips-gp32-fp64-pic"
|
|
run_dump_test "mips-gp64-fp32-pic"
|
|
run_dump_test "mips-gp64-fp64-pic"
|
|
|
|
run_dump_test "mips-abi32"
|
|
run_dump_test "mips-abi32-pic"
|
|
run_dump_test "mips-abi32-pic2"
|
|
|
|
run_dump_test "elf${el}-rel"
|
|
run_dump_test_arches "elf${el}-rel2" [mips_arch_list_matching gpr64]
|
|
run_dump_test "e32${el}-rel2"
|
|
run_dump_test "elf${el}-rel3"
|
|
run_dump_test_arches "elf-rel4" [mips_arch_list_matching gpr64]
|
|
run_dump_test "e32-rel4"
|
|
run_dump_test "elf-rel5"
|
|
run_dump_test "elf-rel6"
|
|
if $has_newabi {
|
|
run_dump_test "elf-rel6-n32"
|
|
run_dump_test "elf-rel6-n64"
|
|
}
|
|
run_dump_test "elf-rel7"
|
|
run_dump_test "elf-rel8"
|
|
run_dump_test "elf-rel9"
|
|
if $has_newabi {
|
|
run_dump_test "elf-rel10"
|
|
run_dump_test "elf-rel11"
|
|
}
|
|
run_dump_test "elf-rel12"
|
|
run_dump_test "elf-rel13"
|
|
run_dump_test "elf-rel14"
|
|
|
|
if $has_newabi {
|
|
run_dump_test "elf-rel15"
|
|
run_dump_test "elf-rel16"
|
|
|
|
run_dump_test "elf-rel-got-n32"
|
|
run_dump_test "elf-rel-xgot-n32"
|
|
run_dump_test "elf-rel-got-n64"
|
|
run_dump_test "elf-rel-xgot-n64"
|
|
}
|
|
run_dump_test "elf-rel17"
|
|
if $has_newabi {
|
|
run_dump_test "elf-rel18"
|
|
}
|
|
run_dump_test "elf-rel19"
|
|
run_dump_test "elf-rel20"
|
|
if $has_newabi {
|
|
run_dump_test "elf-rel21"
|
|
run_dump_test "elf-rel22"
|
|
run_dump_test "elf-rel23"
|
|
run_dump_test "elf-rel23a"
|
|
run_dump_test "elf-rel23b"
|
|
run_dump_test "elf-rel24"
|
|
}
|
|
|
|
run_dump_test "elf-rel25"
|
|
run_dump_test "elf-rel25a"
|
|
|
|
if { !$no_mips16 } {
|
|
run_dump_test "${tmips}mips${el}16-e"
|
|
run_dump_test "${tmips}mips${el}16-f"
|
|
}
|
|
run_dump_test "elf-consthilo"
|
|
run_dump_test "expr1"
|
|
|
|
run_list_test "tls-ill" "-32"
|
|
run_dump_test "tls-o32"
|
|
}
|
|
|
|
if $has_newabi {
|
|
run_dump_test "n32-consec"
|
|
}
|
|
|
|
# tests of objdump's ability to disassemble using different
|
|
# register names.
|
|
run_dump_test "gpr-names-numeric"
|
|
run_dump_test "gpr-names-32"
|
|
run_dump_test "gpr-names-n32"
|
|
run_dump_test "gpr-names-64"
|
|
|
|
run_dump_test "fpr-names-numeric"
|
|
run_dump_test "fpr-names-32"
|
|
run_dump_test "fpr-names-n32"
|
|
run_dump_test "fpr-names-64"
|
|
|
|
run_dump_test "cp0-names-numeric"
|
|
run_dump_test "cp0-names-mips32"
|
|
run_dump_test "cp0-names-mips32r2"
|
|
run_dump_test "cp0-names-mips64"
|
|
run_dump_test "cp0-names-mips64r2"
|
|
run_dump_test "cp0-names-sb1"
|
|
|
|
run_dump_test "cp0sel-names-numeric"
|
|
run_dump_test "cp0sel-names-mips32"
|
|
run_dump_test "cp0sel-names-mips32r2"
|
|
run_dump_test "cp0sel-names-mips64"
|
|
run_dump_test "cp0sel-names-mips64r2"
|
|
run_dump_test "cp0sel-names-sb1"
|
|
|
|
run_dump_test "hwr-names-numeric"
|
|
run_dump_test "hwr-names-mips32r2"
|
|
run_dump_test "hwr-names-mips64r2"
|
|
|
|
run_dump_test "ldstla-32"
|
|
run_dump_test "ldstla-32-mips3"
|
|
run_dump_test "ldstla-32-shared"
|
|
run_dump_test "ldstla-32-mips3-shared"
|
|
run_list_test "ldstla-32-1" "-mabi=32" \
|
|
"MIPS ld-st-la bad constants (ABI o32)"
|
|
run_list_test "ldstla-32-mips3-1" "-mabi=32" \
|
|
"MIPS ld-st-la bad constants (ABI o32, mips3)"
|
|
run_list_test "ldstla-32-1" "-KPIC -mabi=32" \
|
|
"MIPS ld-st-la bad constants (ABI o32, shared)"
|
|
run_list_test "ldstla-32-mips3-1" "-KPIC -mabi=32" \
|
|
"MIPS ld-st-la bad constants (ABI o32, mips3, shared)"
|
|
run_dump_test "ldstla-eabi64"
|
|
if $has_newabi {
|
|
run_dump_test "ldstla-n64"
|
|
run_dump_test "ldstla-n64-shared"
|
|
run_dump_test "ldstla-n64-sym32"
|
|
}
|
|
|
|
run_dump_test "macro-warn-1"
|
|
run_dump_test "macro-warn-2"
|
|
run_dump_test "macro-warn-3"
|
|
run_dump_test "macro-warn-4"
|
|
if $has_newabi {
|
|
run_dump_test "macro-warn-1-n32"
|
|
run_dump_test "macro-warn-2-n32"
|
|
}
|
|
|
|
run_dump_test "noat-1"
|
|
run_list_test "noat-2" ""
|
|
run_list_test "noat-3" ""
|
|
run_list_test "noat-4" ""
|
|
run_list_test "noat-5" ""
|
|
run_list_test "noat-6" ""
|
|
run_list_test "noat-7" ""
|
|
|
|
run_dump_test_arches "smartmips" [mips_arch_list_matching mips32 !gpr64]
|
|
run_dump_test_arches "mips32-dsp" [mips_arch_list_matching mips32r2]
|
|
run_dump_test_arches "mips64-dsp" [mips_arch_list_matching mips64r2]
|
|
run_dump_test_arches "mips32-mt" [mips_arch_list_matching mips32r2 !gpr64]
|
|
|
|
if { $elf && !$no_mips16 } {
|
|
run_dump_test "mips16-dwarf2"
|
|
if $has_newabi {
|
|
run_dump_test "mips16-dwarf2-n32"
|
|
}
|
|
}
|
|
if { !$no_mips16 } {
|
|
run_dump_test "mips16e-jrc"
|
|
run_dump_test "mips16e-save"
|
|
run_dump_test "mips16e-64"
|
|
run_list_test "mips16e-64" "-march=mips32 -32"
|
|
}
|
|
run_dump_test "vxworks1"
|
|
run_dump_test "vxworks1-xgot"
|
|
run_dump_test "vxworks1-el"
|
|
run_dump_test "vxworks1-xgot-el"
|
|
|
|
run_dump_test "noreorder"
|
|
}
|