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##########################################################################
#
# Copyright 2010 VMware, Inc.
# All Rights Reserved.
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
# THE SOFTWARE.
#
##########################################################################/
"""Generic retracing code generator."""
# Adjust path
import os.path
import sys
sys.path.insert(0, os.path.join(os.path.dirname(__file__), '..'))
import specs.stdapi as stdapi
class UnsupportedType(Exception):
pass
def lookupHandle(handle, value, lval=False):
if handle.key is None:
return "_%s_map[%s]" % (handle.name, value)
else:
key_name, key_type = handle.key
if handle.name == "location" and lval == False:
return "_location_map[%s].lookupUniformLocation(%s)" % (key_name, value)
else:
return "_%s_map[%s][%s]" % (handle.name, key_name, value)
class ValueAllocator(stdapi.Visitor):
def visitLiteral(self, literal, lvalue, rvalue):
pass
def visitConst(self, const, lvalue, rvalue):
self.visit(const.type, lvalue, rvalue)
def visitAlias(self, alias, lvalue, rvalue):
self.visit(alias.type, lvalue, rvalue)
def visitEnum(self, enum, lvalue, rvalue):
pass
def visitBitmask(self, bitmask, lvalue, rvalue):
pass
def visitArray(self, array, lvalue, rvalue):
print ' %s = _allocator.allocArray<%s>(&%s);' % (lvalue, array.type, rvalue)
def visitPointer(self, pointer, lvalue, rvalue):
print ' %s = _allocator.allocArray<%s>(&%s);' % (lvalue, pointer.type, rvalue)
def visitIntPointer(self, pointer, lvalue, rvalue):
pass
def visitObjPointer(self, pointer, lvalue, rvalue):
pass
def visitLinearPointer(self, pointer, lvalue, rvalue):
pass
def visitReference(self, reference, lvalue, rvalue):
self.visit(reference.type, lvalue, rvalue);
def visitHandle(self, handle, lvalue, rvalue):
pass
def visitBlob(self, blob, lvalue, rvalue):
pass
def visitString(self, string, lvalue, rvalue):
pass
def visitStruct(self, struct, lvalue, rvalue):
pass
def visitPolymorphic(self, polymorphic, lvalue, rvalue):
assert polymorphic.defaultType is not None
self.visit(polymorphic.defaultType, lvalue, rvalue)
def visitOpaque(self, opaque, lvalue, rvalue):
pass
class ValueDeserializer(stdapi.Visitor, stdapi.ExpanderMixin):
def visitLiteral(self, literal, lvalue, rvalue):
print ' %s = static_cast<const trace::%s *>(&%s)->value;' % (lvalue, literal.kind, rvalue)
def visitConst(self, const, lvalue, rvalue):
self.visit(const.type, lvalue, rvalue)
def visitAlias(self, alias, lvalue, rvalue):
self.visit(alias.type, lvalue, rvalue)
def visitEnum(self, enum, lvalue, rvalue):
print ' %s = static_cast<%s>((%s).toSInt());' % (lvalue, enum, rvalue)
def visitBitmask(self, bitmask, lvalue, rvalue):
print ' %s = static_cast<%s>((%s).toUInt());' % (lvalue, bitmask, rvalue)
def visitArray(self, array, lvalue, rvalue):
tmp = '_a_' + array.tag + '_' + str(self.seq)
self.seq += 1
print ' const trace::Array *%s = (%s).toArray();' % (tmp, rvalue)
print ' if (%s) {' % (tmp,)
length = '%s->values.size()' % (tmp,)
if self.insideStruct:
if isinstance(array.length, int):
# Member is an array
print r' static_assert( std::is_array< std::remove_reference< decltype( %s ) >::type >::value , "lvalue must be an array" );' % lvalue
print r' static_assert( std::extent< std::remove_reference< decltype( %s ) >::type >::value == %s, "array size mismatch" );' % (lvalue, array.length)
print r' assert( %s );' % (tmp,)
print r' assert( %s->size() == %s );' % (tmp, array.length)
length = str(array.length)
else:
# Member is a pointer to an array, hence must be allocated
print r' static_assert( std::is_pointer< std::remove_reference< decltype( %s ) >::type >::value , "lvalue must be a pointer" );' % lvalue
print r' %s = _allocator.allocArray<%s>(&%s);' % (lvalue, array.type, rvalue)
index = '_j' + array.tag
print ' for (size_t {i} = 0; {i} < {length}; ++{i}) {{'.format(i = index, length = length)
try:
self.visit(array.type, '%s[%s]' % (lvalue, index), '*%s->values[%s]' % (tmp, index))
finally:
print ' }'
print ' }'
def visitPointer(self, pointer, lvalue, rvalue):
tmp = '_a_' + pointer.tag + '_' + str(self.seq)
self.seq += 1
if self.insideStruct:
# Member is a pointer to an object, hence must be allocated
print r' static_assert( std::is_pointer< std::remove_reference< decltype( %s ) >::type >::value , "lvalue must be a pointer" );' % lvalue
print r' %s = _allocator.allocArray<%s>(&%s);' % (lvalue, pointer.type, rvalue)
print ' if (%s) {' % (lvalue,)
print ' const trace::Array *%s = (%s).toArray();' % (tmp, rvalue)
try:
self.visit(pointer.type, '%s[0]' % (lvalue,), '*%s->values[0]' % (tmp,))
finally:
print ' }'
def visitIntPointer(self, pointer, lvalue, rvalue):
print ' %s = static_cast<%s>((%s).toPointer());' % (lvalue, pointer, rvalue)
def visitObjPointer(self, pointer, lvalue, rvalue):
print ' %s = retrace::asObjPointer<%s>(call, %s);' % (lvalue, pointer.type, rvalue)
def visitLinearPointer(self, pointer, lvalue, rvalue):
print ' %s = static_cast<%s>(retrace::toPointer(%s));' % (lvalue, pointer, rvalue)
def visitReference(self, reference, lvalue, rvalue):
self.visit(reference.type, lvalue, rvalue);
def visitHandle(self, handle, lvalue, rvalue):
#OpaqueValueDeserializer().visit(handle.type, lvalue, rvalue);
self.visit(handle.type, lvalue, rvalue);
new_lvalue = lookupHandle(handle, lvalue)
print ' if (retrace::verbosity >= 2) {'
print ' std::cout << "%s " << size_t(%s) << " <- " << size_t(%s) << "\\n";' % (handle.name, lvalue, new_lvalue)
print ' }'
if (new_lvalue.startswith('_program_map') or new_lvalue.startswith('_shader_map')):
print 'if (glretrace::supportsARBShaderObjects) {'
print ' %s = _handleARB_map[%s];' % (lvalue, lvalue)
print '} else {'
print ' %s = %s;' % (lvalue, new_lvalue)
print '}'
else:
print ' %s = %s;' % (lvalue, new_lvalue)
def visitBlob(self, blob, lvalue, rvalue):
print ' %s = static_cast<%s>((%s).toPointer());' % (lvalue, blob, rvalue)
def visitString(self, string, lvalue, rvalue):
print ' %s = (%s)((%s).toString());' % (lvalue, string.expr, rvalue)
seq = 0
insideStruct = 0
def visitStruct(self, struct, lvalue, rvalue):
tmp = '_s_' + struct.tag + '_' + str(self.seq)
self.seq += 1
self.insideStruct += 1
print ' const trace::Struct *%s = (%s).toStruct();' % (tmp, rvalue)
print ' assert(%s);' % (tmp)
for i in range(len(struct.members)):
member = struct.members[i]
self.visitMember(member, lvalue, '*%s->members[%s]' % (tmp, i))
self.insideStruct -= 1
def visitPolymorphic(self, polymorphic, lvalue, rvalue):
if polymorphic.defaultType is None:
switchExpr = self.expand(polymorphic.switchExpr)
print r' switch (%s) {' % switchExpr
for cases, type in polymorphic.iterSwitch():
for case in cases:
print r' %s:' % case
caseLvalue = lvalue
if type.expr is not None:
caseLvalue = 'static_cast<%s>(%s)' % (type, caseLvalue)
print r' {'
try:
self.visit(type, caseLvalue, rvalue)
finally:
print r' }'
print r' break;'
if polymorphic.defaultType is None:
print r' default:'
print r' retrace::warning(call) << "unexpected polymorphic case" << %s << "\n";' % (switchExpr,)
print r' break;'
print r' }'
else:
self.visit(polymorphic.defaultType, lvalue, rvalue)
def visitOpaque(self, opaque, lvalue, rvalue):
raise UnsupportedType
class OpaqueValueDeserializer(ValueDeserializer):
'''Value extractor that also understands opaque values.
Normally opaque values can't be retraced, unless they are being extracted
in the context of handles.'''
def visitOpaque(self, opaque, lvalue, rvalue):
print ' %s = static_cast<%s>(retrace::toPointer(%s));' % (lvalue, opaque, rvalue)
class SwizzledValueRegistrator(stdapi.Visitor, stdapi.ExpanderMixin):
'''Type visitor which will register (un)swizzled value pairs, to later be
swizzled.'''
def visitLiteral(self, literal, lvalue, rvalue):
pass
def visitAlias(self, alias, lvalue, rvalue):
self.visit(alias.type, lvalue, rvalue)
def visitEnum(self, enum, lvalue, rvalue):
pass
def visitBitmask(self, bitmask, lvalue, rvalue):
pass
def visitArray(self, array, lvalue, rvalue):
print ' const trace::Array *_a%s = (%s).toArray();' % (array.tag, rvalue)
print ' if (_a%s) {' % (array.tag)
length = '_a%s->values.size()' % array.tag
index = '_j' + array.tag
print ' for (size_t {i} = 0; {i} < {length}; ++{i}) {{'.format(i = index, length = length)
try:
self.visit(array.type, '%s[%s]' % (lvalue, index), '*_a%s->values[%s]' % (array.tag, index))
finally:
print ' }'
print ' }'
def visitPointer(self, pointer, lvalue, rvalue):
print ' const trace::Array *_a%s = (%s).toArray();' % (pointer.tag, rvalue)
print ' if (_a%s) {' % (pointer.tag)
try:
self.visit(pointer.type, '%s[0]' % (lvalue,), '*_a%s->values[0]' % (pointer.tag,))
finally:
print ' }'
def visitIntPointer(self, pointer, lvalue, rvalue):
pass
def visitObjPointer(self, pointer, lvalue, rvalue):
print r' retrace::addObj(call, %s, %s);' % (rvalue, lvalue)
def visitLinearPointer(self, pointer, lvalue, rvalue):
assert pointer.size is not None
if pointer.size is not None:
print r' retrace::addRegion(call, (%s).toUIntPtr(), %s, %s);' % (rvalue, lvalue, pointer.size)
def visitReference(self, reference, lvalue, rvalue):
pass
def visitHandle(self, handle, lvalue, rvalue):
print ' %s _origResult;' % handle.type
OpaqueValueDeserializer().visit(handle.type, '_origResult', rvalue);
if handle.range is None:
rvalue = "_origResult"
entry = lookupHandle(handle, rvalue, True)
if (entry.startswith('_program_map') or entry.startswith('_shader_map')):
print 'if (glretrace::supportsARBShaderObjects) {'
print ' _handleARB_map[%s] = %s;' % (rvalue, lvalue)
print '} else {'
print ' %s = %s;' % (entry, lvalue)
print '}'
else:
print " %s = %s;" % (entry, lvalue)
print ' if (retrace::verbosity >= 2) {'
print ' std::cout << "{handle.name} " << {rvalue} << " -> " << {lvalue} << "\\n";'.format(**locals())
print ' }'
else:
i = '_h' + handle.tag
lvalue = "%s + %s" % (lvalue, i)
rvalue = "_origResult + %s" % (i,)
entry = lookupHandle(handle, rvalue)
print ' for ({handle.type} {i} = 0; {i} < {handle.range}; ++{i}) {{'.format(**locals())
print ' {entry} = {lvalue};'.format(**locals())
print ' if (retrace::verbosity >= 2) {'
print ' std::cout << "{handle.name} " << ({rvalue}) << " -> " << ({lvalue}) << "\\n";'.format(**locals())
print ' }'
print ' }'
def visitBlob(self, blob, lvalue, rvalue):
pass
def visitString(self, string, lvalue, rvalue):
pass
seq = 0
def visitStruct(self, struct, lvalue, rvalue):
tmp = '_s_' + struct.tag + '_' + str(self.seq)
self.seq += 1
print ' const trace::Struct *%s = (%s).toStruct();' % (tmp, rvalue)
print ' assert(%s);' % (tmp,)
print ' (void)%s;' % (tmp,)
for i in range(len(struct.members)):
member = struct.members[i]
self.visitMember(member, lvalue, '*%s->members[%s]' % (tmp, i))
def visitPolymorphic(self, polymorphic, lvalue, rvalue):
assert polymorphic.defaultType is not None
self.visit(polymorphic.defaultType, lvalue, rvalue)
def visitOpaque(self, opaque, lvalue, rvalue):
pass
class Retracer:
def makeFunctionId(self, function):
name = function.name
if function.overloaded:
# TODO: Use a sequence number
name += '__%08x' % (hash(function) & 0xffffffff)
return name
def retraceFunction(self, function):
print 'static void retrace_%s(trace::Call &call) {' % self.makeFunctionId(function)
self.retraceFunctionBody(function)
print '}'
print
def retraceInterfaceMethod(self, interface, method):
print 'static void retrace_%s__%s(trace::Call &call) {' % (interface.name, self.makeFunctionId(method))
self.retraceInterfaceMethodBody(interface, method)
print '}'
print
def retraceFunctionBody(self, function):
assert function.sideeffects
if function.type is not stdapi.Void:
self.checkOrigResult(function)
self.deserializeArgs(function)
self.declareRet(function)
self.invokeFunction(function)
self.swizzleValues(function)
def retraceInterfaceMethodBody(self, interface, method):
assert method.sideeffects
if method.type is not stdapi.Void:
self.checkOrigResult(method)
self.deserializeThisPointer(interface)
self.deserializeArgs(method)
self.declareRet(method)
self.invokeInterfaceMethod(interface, method)
self.swizzleValues(method)
def checkOrigResult(self, function):
'''Hook for checking the original result, to prevent succeeding now
where the original did not, which would cause diversion and potentially
unpredictable results.'''
assert function.type is not stdapi.Void
if str(function.type) == 'HRESULT':
print r' if (call.ret && FAILED(call.ret->toSInt())) {'
print r' return;'
print r' }'
def deserializeThisPointer(self, interface):
print r' %s *_this;' % (interface.name,)
print r' _this = retrace::asObjPointer<%s>(call, call.arg(0));' % (interface.name,)
print r' if (!_this) {'
print r' return;'
print r' }'
def deserializeArgs(self, function):
print ' retrace::ScopedAllocator _allocator;'
print ' (void)_allocator;'
success = True
for arg in function.args:
arg_type = arg.type.mutable()
print ' %s %s;' % (arg_type, arg.name)
rvalue = 'call.arg(%u)' % (arg.index,)
lvalue = arg.name
try:
self.extractArg(function, arg, arg_type, lvalue, rvalue)
except UnsupportedType:
success = False
print ' memset(&%s, 0, sizeof %s); // FIXME' % (arg.name, arg.name)
print
if not success:
print ' if (1) {'
self.failFunction(function)
sys.stderr.write('warning: unsupported %s call\n' % function.name)
print ' }'
def swizzleValues(self, function):
for arg in function.args:
if arg.output:
arg_type = arg.type.mutable()
rvalue = 'call.arg(%u)' % (arg.index,)
lvalue = arg.name
try:
self.regiterSwizzledValue(arg_type, lvalue, rvalue)
except UnsupportedType:
print ' // XXX: %s' % arg.name
if function.type is not stdapi.Void:
rvalue = '*call.ret'
lvalue = '_result'
try:
self.regiterSwizzledValue(function.type, lvalue, rvalue)
except UnsupportedType:
raise
print ' // XXX: result'
def failFunction(self, function):
print ' if (retrace::verbosity >= 0) {'
print ' retrace::unsupported(call);'
print ' }'
print ' return;'
def extractArg(self, function, arg, arg_type, lvalue, rvalue):
ValueAllocator().visit(arg_type, lvalue, rvalue)
if arg.input:
ValueDeserializer().visit(arg_type, lvalue, rvalue)
def extractOpaqueArg(self, function, arg, arg_type, lvalue, rvalue):
try:
ValueAllocator().visit(arg_type, lvalue, rvalue)
except UnsupportedType:
pass
OpaqueValueDeserializer().visit(arg_type, lvalue, rvalue)
def regiterSwizzledValue(self, type, lvalue, rvalue):
visitor = SwizzledValueRegistrator()
visitor.visit(type, lvalue, rvalue)
def declareRet(self, function):
if function.type is not stdapi.Void:
print ' %s _result;' % (function.type)
def invokeFunction(self, function):
arg_names = ", ".join(function.argNames())
if function.type is not stdapi.Void:
print ' _result = %s(%s);' % (function.name, arg_names)
self.checkResult(None, function)
else:
print ' %s(%s);' % (function.name, arg_names)
def doInvokeInterfaceMethod(self, interface, method):
# Same as invokeInterfaceMethod, but without error checking
#
# XXX: Find a better name
arg_names = ", ".join(method.argNames())
if method.type is not stdapi.Void:
print ' _result = _this->%s(%s);' % (method.name, arg_names)
else:
print ' _this->%s(%s);' % (method.name, arg_names)
# Adjust reference count when QueryInterface fails. This is
# particularly useful when replaying traces on older Direct3D runtimes
# which might miss newer versions of interfaces, yet none of those
# methods are actually used.
#
# TODO: Generalize to other methods that return interfaces
if method.name == 'QueryInterface':
print r' if (FAILED(_result)) {'
print r' IUnknown *pObj = retrace::asObjPointer<IUnknown>(call, *call.arg(2).toArray()->values[0]);'
print r' if (pObj) {'
print r' pObj->AddRef();'
print r' }'
print r' }'
# Debug COM reference counting. Disabled by default as reported
# reference counts depend on internal implementation details.
if method.name in ('AddRef', 'Release'):
print r' if (0) retrace::checkMismatch(call, "cRef", call.ret, _result);'
# On release our reference when we reach Release() == 0 call in the
# trace.
if method.name == 'Release':
print r' ULONG _orig_result = call.ret->toUInt();'
print r' if (_orig_result == 0 || _result == 0) {'
print r' if (_orig_result != 0) {'
print r' retrace::warning(call) << "unexpected object destruction\n";'
print r' }'
print r' // NOTE: Must not delete the object mapping here. See'
print r' // https://github.com/apitrace/apitrace/issues/462'
print r' }'
def invokeInterfaceMethod(self, interface, method):
self.doInvokeInterfaceMethod(interface, method)
if method.type is not stdapi.Void:
self.checkResult(interface, method)
def checkResult(self, interface, methodOrFunction):
assert methodOrFunction.type is not stdapi.Void
if str(methodOrFunction.type) == 'HRESULT':
print r' if (FAILED(_result)) {'
print r' retrace::failed(call, _result);'
print r' return;'
print r' }'
else:
print r' (void)_result;'
def checkPitchMismatch(self, method):
# Warn for mismatches in 2D/3D mappings.
# FIXME: We should try to swizzle them. It's a bit of work, but possible.
for outArg in method.args:
if outArg.output \
and isinstance(outArg.type, stdapi.Pointer) \
and isinstance(outArg.type.type, stdapi.Struct):
print r' const trace::Array *_%s = call.arg(%u).toArray();' % (outArg.name, outArg.index)
print r' if (%s) {' % outArg.name
print r' const trace::Struct *_struct = _%s->values[0]->toStruct();' % (outArg.name)
print r' if (_struct) {'
struct = outArg.type.type
for memberIndex in range(len(struct.members)):
memberType, memberName = struct.members[memberIndex]
if memberName.endswith('Pitch'):
print r' if (%s->%s) {' % (outArg.name, memberName)
print r' retrace::checkMismatch(call, "%s", _struct->members[%u], %s->%s);' % (memberName, memberIndex, outArg.name, memberName)
print r' }'
print r' }'
print r' }'
def filterFunction(self, function):
return True
table_name = 'retrace::callbacks'
def retraceApi(self, api):
print '#include "os_time.hpp"'
print '#include "trace_parser.hpp"'
print '#include "retrace.hpp"'
print '#include "retrace_swizzle.hpp"'
print
types = api.getAllTypes()
handles = [type for type in types if isinstance(type, stdapi.Handle)]
handle_names = set()
for handle in handles:
if handle.name not in handle_names:
if handle.key is None:
print 'static retrace::map<%s> _%s_map;' % (handle.type, handle.name)
else:
key_name, key_type = handle.key
print 'static std::map<%s, retrace::map<%s> > _%s_map;' % (key_type, handle.type, handle.name)
handle_names.add(handle.name)
print
functions = filter(self.filterFunction, api.getAllFunctions())
for function in functions:
if function.sideeffects and not function.internal:
self.retraceFunction(function)
interfaces = api.getAllInterfaces()
for interface in interfaces:
for method in interface.methods:
if method.sideeffects and not method.internal:
self.retraceInterfaceMethod(interface, method)
print 'const retrace::Entry %s[] = {' % self.table_name
for function in functions:
if not function.internal:
sigName = function.sigName()
if function.sideeffects:
print ' {"%s", &retrace_%s},' % (sigName, self.makeFunctionId(function))
else:
print ' {"%s", &retrace::ignore},' % (sigName,)
for interface in interfaces:
for base, method in interface.iterBaseMethods():
sigName = method.sigName()
if method.sideeffects:
print ' {"%s::%s", &retrace_%s__%s},' % (interface.name, sigName, base.name, self.makeFunctionId(method))
else:
print ' {"%s::%s", &retrace::ignore},' % (interface.name, sigName)
print ' {NULL, NULL}'
print '};'
print
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