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|
#!/usr/bin/env python3
#
# VK
#
# Copyright (C) 2015 Valve Corporation
# Copyright (C) 2015 Google Inc.
#
# 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.
#
# Author: Courtney Goeltzenleuchter <courtney@LunarG.com>
# Author: Jon Ashburn <jon@lunarg.com>
# Author: Mark Lobodzinski <mark@lunarg.com>
# Author: Mike Stroyan <mike@LunarG.com>
# Author: Tony Barbour <tony@LunarG.com>
# Author: Chia-I Wu <olv@lunarg.com>
import sys
import os
import re
import vulkan
import vk_helper
from source_line_info import sourcelineinfo
from collections import defaultdict
def proto_is_global(proto):
global_function_names = [
"CreateInstance",
"EnumerateInstanceLayerProperties",
"EnumerateInstanceExtensionProperties",
"EnumerateDeviceLayerProperties",
"EnumerateDeviceExtensionProperties",
"CreateXcbSurfaceKHR",
"vkGetPhysicalDeviceXcbPresentationSupportKHR",
"CreateXlibSurfaceKHR",
"vkGetPhysicalDeviceXlibPresentationSupportKHR",
"CreateWaylandSurfaceKHR",
"vkGetPhysicalDeviceWaylandPresentationSupportKHR",
"CreateMirSurfaceKHR",
"vkGetPhysicalDeviceMirPresentationSupportKHR",
"CreateAndroidSurfaceKHR",
"CreateWin32SurfaceKHR",
"vkGetPhysicalDeviceWin32PresentationSupportKHR"
]
if proto.params[0].ty == "VkInstance" or proto.params[0].ty == "VkPhysicalDevice" or proto.name in global_function_names:
return True
else:
return False
def wsi_name(ext_name):
wsi_prefix = ""
if 'Xcb' in ext_name:
wsi_prefix = 'XCB'
elif 'Xlib' in ext_name:
wsi_prefix = 'XLIB'
elif 'Win32' in ext_name:
wsi_prefix = 'WIN32'
elif 'Mir' in ext_name:
wsi_prefix = 'MIR'
elif 'Wayland' in ext_name:
wsi_prefix = 'WAYLAND'
elif 'Android' in ext_name:
wsi_prefix = 'ANDROID'
else:
wsi_prefix = ''
return wsi_prefix
def wsi_ifdef(ext_name):
wsi_prefix = wsi_name(ext_name)
if not wsi_prefix:
return ''
else:
return "#ifdef VK_USE_PLATFORM_%s_KHR" % wsi_prefix
def wsi_endif(ext_name):
wsi_prefix = wsi_name(ext_name)
if not wsi_prefix:
return ''
else:
return "#endif // VK_USE_PLATFORM_%s_KHR" % wsi_prefix
def generate_get_proc_addr_check(name):
return " if (!%s || %s[0] != 'v' || %s[1] != 'k')\n" \
" return NULL;" % ((name,) * 3)
def ucc_to_U_C_C(CamelCase):
temp = re.sub('(.)([A-Z][a-z]+)', r'\1_\2', CamelCase)
return re.sub('([a-z0-9])([A-Z])', r'\1_\2', temp).upper()
class Subcommand(object):
def __init__(self, argv):
self.argv = argv
self.headers = vulkan.headers
self.protos = vulkan.protos
self.no_addr = False
self.layer_name = ""
self.lineinfo = sourcelineinfo()
def run(self):
print(self.generate())
def generate(self):
copyright = self.generate_copyright()
header = self.generate_header()
body = self.generate_body()
footer = self.generate_footer()
contents = []
if copyright:
contents.append(copyright)
if header:
contents.append(header)
if body:
contents.append(body)
if footer:
contents.append(footer)
return "\n\n".join(contents)
def generate_copyright(self):
return """/* THIS FILE IS GENERATED. DO NOT EDIT. */
/*
*
* Copyright (C) 2015 Valve Corporation
*
* 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.
*
* Author: Courtney Goeltzenleuchter <courtney@LunarG.com>
* Author: Jon Ashburn <jon@lunarg.com>
* Author: Mark Lobodzinski <mark@lunarg.com>
* Author: Mike Stroyan <mike@LunarG.com>
* Author: Tony Barbour <tony@LunarG.com>
*/"""
def generate_header(self):
return "\n".join(["#include <" + h + ">" for h in self.headers])
def generate_body(self):
pass
def generate_footer(self):
pass
# Return set of printf '%' qualifier and input to that qualifier
def _get_printf_params(self, vk_type, name, output_param, cpp=False):
# TODO : Need ENUM and STRUCT checks here
if vk_helper.is_type(vk_type, 'enum'):#"_TYPE" in vk_type: # TODO : This should be generic ENUM check
return ("%s", "string_%s(%s)" % (vk_type.replace('const ', '').strip('*'), name))
if "char*" == vk_type:
return ("%s", name)
if "uint64" in vk_type:
if '*' in vk_type:
return ("%lu", "*%s" % name)
return ("%lu", name)
if vk_type.strip('*') in vulkan.object_non_dispatch_list:
if '*' in vk_type:
return ("%lu", "%s" % name)
return ("%lu", "%s" % name)
if "size" in vk_type:
if '*' in vk_type:
return ("%lu", "(unsigned long)*%s" % name)
return ("%lu", "(unsigned long)%s" % name)
if "float" in vk_type:
if '[' in vk_type: # handle array, current hard-coded to 4 (TODO: Make this dynamic)
if cpp:
return ("[%i, %i, %i, %i]", '"[" << %s[0] << "," << %s[1] << "," << %s[2] << "," << %s[3] << "]"' % (name, name, name, name))
return ("[%f, %f, %f, %f]", "%s[0], %s[1], %s[2], %s[3]" % (name, name, name, name))
return ("%f", name)
if "bool" in vk_type.lower() or 'xcb_randr_crtc_t' in vk_type:
return ("%u", name)
if True in [t in vk_type.lower() for t in ["int", "flags", "mask", "xcb_window_t"]]:
if '[' in vk_type: # handle array, current hard-coded to 4 (TODO: Make this dynamic)
if cpp:
return ("[%i, %i, %i, %i]", "%s[0] << %s[1] << %s[2] << %s[3]" % (name, name, name, name))
return ("[%i, %i, %i, %i]", "%s[0], %s[1], %s[2], %s[3]" % (name, name, name, name))
if '*' in vk_type:
if 'pUserData' == name:
return ("%i", "((pUserData == 0) ? 0 : *(pUserData))")
if 'const' in vk_type.lower():
return ("%p", "(void*)(%s)" % name)
return ("%i", "*(%s)" % name)
return ("%i", name)
# TODO : This is special-cased as there's only one "format" param currently and it's nice to expand it
if "VkFormat" == vk_type:
if cpp:
return ("%p", "&%s" % name)
return ("{%s.channelFormat = %%s, %s.numericFormat = %%s}" % (name, name), "string_VK_COLOR_COMPONENT_FORMAT(%s.channelFormat), string_VK_FORMAT_RANGE_SIZE(%s.numericFormat)" % (name, name))
if output_param:
return ("%p", "(void*)*%s" % name)
if vk_helper.is_type(vk_type, 'struct') and '*' not in vk_type:
return ("%p", "(void*)(&%s)" % name)
return ("%p", "(void*)(%s)" % name)
def _gen_create_msg_callback(self):
r_body = []
r_body.append('%s' % self.lineinfo.get())
r_body.append('VK_LAYER_EXPORT VKAPI_ATTR VkResult VKAPI_CALL vkCreateDebugReportCallbackLUNARG(VkInstance instance,')
r_body.append(' VkDebugReportCallbackCreateInfoLUNARG* pCreateInfo,')
r_body.append(' const VkAllocationCallbacks* pAllocator,')
r_body.append(' VkDebugReportCallbackLUNARG* pCallback)')
r_body.append('{')
# Switch to this code section for the new per-instance storage and debug callbacks
if self.layer_name == 'ObjectTracker' or self.layer_name == 'Threading':
r_body.append(' VkLayerInstanceDispatchTable *pInstanceTable = get_dispatch_table(%s_instance_table_map, instance);' % self.layer_name )
r_body.append(' VkResult result = pInstanceTable->CreateDebugReportCallbackLUNARG(instance, pCreateInfo, pAllocator, pCallback);')
r_body.append(' if (VK_SUCCESS == result) {')
r_body.append(' layer_data *my_data = get_my_data_ptr(get_dispatch_key(instance), layer_data_map);')
r_body.append(' result = layer_create_msg_callback(my_data->report_data,')
r_body.append(' pCreateInfo,')
r_body.append(' pAllocator,')
r_body.append(' pCallback);')
r_body.append(' }')
r_body.append(' return result;')
else:
r_body.append(' VkResult result = instance_dispatch_table(instance)->CreateDebugReportCallbackLUNARG(instance, pCreateInfo, pAllocator, pCallback);')
r_body.append(' if (VK_SUCCESS == result) {')
r_body.append(' layer_data *my_data = get_my_data_ptr(get_dispatch_key(instance), layer_data_map);')
r_body.append(' result = layer_create_msg_callback(my_data->report_data, pCreateInfo, pAllocator, pCallback);')
r_body.append(' }')
r_body.append(' return result;')
r_body.append('}')
return "\n".join(r_body)
def _gen_destroy_msg_callback(self):
r_body = []
r_body.append('%s' % self.lineinfo.get())
r_body.append('VK_LAYER_EXPORT VKAPI_ATTR void VKAPI_CALL vkDestroyDebugReportCallbackLUNARG(VkInstance instance, VkDebugReportCallbackLUNARG msgCallback, const VkAllocationCallbacks *pAllocator)')
r_body.append('{')
# Switch to this code section for the new per-instance storage and debug callbacks
if self.layer_name == 'ObjectTracker' or self.layer_name == 'Threading':
r_body.append(' VkLayerInstanceDispatchTable *pInstanceTable = get_dispatch_table(%s_instance_table_map, instance);' % self.layer_name )
else:
r_body.append(' VkLayerInstanceDispatchTable *pInstanceTable = instance_dispatch_table(instance);')
r_body.append(' pInstanceTable->DestroyDebugReportCallbackLUNARG(instance, msgCallback, pAllocator);')
r_body.append(' layer_data *my_data = get_my_data_ptr(get_dispatch_key(instance), layer_data_map);')
r_body.append(' layer_destroy_msg_callback(my_data->report_data, msgCallback, pAllocator);')
r_body.append('}')
return "\n".join(r_body)
def _gen_layer_get_global_extension_props(self, layer="Generic"):
ggep_body = []
# generated layers do not provide any global extensions
ggep_body.append('%s' % self.lineinfo.get())
ggep_body.append('')
ggep_body.append('VK_LAYER_EXPORT VKAPI_ATTR VkResult VKAPI_CALL vkEnumerateInstanceExtensionProperties(const char *pLayerName, uint32_t *pCount, VkExtensionProperties* pProperties)')
ggep_body.append('{')
ggep_body.append(' return util_GetExtensionProperties(0, NULL, pCount, pProperties);')
ggep_body.append('}')
return "\n".join(ggep_body)
def _gen_layer_get_global_layer_props(self, layer="Generic"):
ggep_body = []
if layer == 'Generic':
# Do nothing, extension definition part of generic.h
ggep_body.append('%s' % self.lineinfo.get())
else:
ggep_body.append('%s' % self.lineinfo.get())
ggep_body.append('static const VkLayerProperties globalLayerProps[] = {')
ggep_body.append(' {')
ggep_body.append(' "%s",' % layer)
ggep_body.append(' VK_API_VERSION, // specVersion')
ggep_body.append(' VK_MAKE_VERSION(0, 1, 0), // implementationVersion')
ggep_body.append(' "layer: %s",' % layer)
ggep_body.append(' }')
ggep_body.append('};')
ggep_body.append('')
ggep_body.append('%s' % self.lineinfo.get())
ggep_body.append('')
ggep_body.append('VK_LAYER_EXPORT VKAPI_ATTR VkResult VKAPI_CALL vkEnumerateInstanceLayerProperties(uint32_t *pCount, VkLayerProperties* pProperties)')
ggep_body.append('{')
ggep_body.append(' return util_GetLayerProperties(ARRAY_SIZE(globalLayerProps), globalLayerProps, pCount, pProperties);')
ggep_body.append('}')
return "\n".join(ggep_body)
def _gen_layer_get_physical_device_layer_props(self, layer="Generic"):
gpdlp_body = []
if layer == 'Generic':
# Do nothing, extension definition part of generic.h
gpdlp_body.append('%s' % self.lineinfo.get())
else:
gpdlp_body.append('%s' % self.lineinfo.get())
gpdlp_body.append('static const VkLayerProperties deviceLayerProps[] = {')
gpdlp_body.append(' {')
gpdlp_body.append(' "%s",' % layer)
gpdlp_body.append(' VK_API_VERSION,')
gpdlp_body.append(' VK_MAKE_VERSION(0, 1, 0),')
gpdlp_body.append(' "layer: %s",' % layer)
gpdlp_body.append(' }')
gpdlp_body.append('};')
gpdlp_body.append('VK_LAYER_EXPORT VKAPI_ATTR VkResult VKAPI_CALL vkEnumerateDeviceLayerProperties(VkPhysicalDevice physicalDevice, uint32_t *pCount, VkLayerProperties* pProperties)')
gpdlp_body.append('{')
gpdlp_body.append(' return util_GetLayerProperties(ARRAY_SIZE(deviceLayerProps), deviceLayerProps, pCount, pProperties);')
gpdlp_body.append('}')
gpdlp_body.append('')
return "\n".join(gpdlp_body)
def _generate_dispatch_entrypoints(self, qual=""):
if qual:
qual += " "
funcs = []
intercepted = []
for proto in self.protos:
if proto.name == "GetDeviceProcAddr" or proto.name == "GetInstanceProcAddr":
continue
else:
intercept = self.generate_intercept(proto, qual)
if intercept is None:
# fill in default intercept for certain entrypoints
if 'CreateDebugReportCallbackLUNARG' == proto.name:
intercept = self._gen_layer_dbg_create_msg_callback()
elif 'DestroyDebugReportCallbackLUNARG' == proto.name:
intercept = self._gen_layer_dbg_destroy_msg_callback()
elif 'CreateDevice' == proto.name:
funcs.append('/* CreateDevice HERE */')
elif 'EnumerateInstanceExtensionProperties' == proto.name:
intercept = self._gen_layer_get_global_extension_props(self.layer_name)
elif 'EnumerateInstanceLayerProperties' == proto.name:
intercept = self._gen_layer_get_global_layer_props(self.layer_name)
elif 'EnumerateDeviceLayerProperties' == proto.name:
intercept = self._gen_layer_get_physical_device_layer_props(self.layer_name)
if intercept is not None:
funcs.append(intercept)
if not "KHR" in proto.name:
intercepted.append(proto)
prefix="vk"
lookups = []
for proto in intercepted:
lookups.append("if (!strcmp(name, \"%s\"))" % proto.name)
lookups.append(" return (PFN_vkVoidFunction) %s%s;" %
(prefix, proto.name))
# add customized layer_intercept_proc
body = []
body.append('%s' % self.lineinfo.get())
body.append("static inline PFN_vkVoidFunction layer_intercept_proc(const char *name)")
body.append("{")
body.append(generate_get_proc_addr_check("name"))
body.append("")
body.append(" name += 2;")
body.append(" %s" % "\n ".join(lookups))
body.append("")
body.append(" return NULL;")
body.append("}")
# add layer_intercept_instance_proc
lookups = []
for proto in self.protos:
if not proto_is_global(proto):
continue
if not proto in intercepted:
continue
if proto.name == "CreateDevice":
continue
lookups.append("if (!strcmp(name, \"%s\"))" % proto.name)
lookups.append(" return (PFN_vkVoidFunction) %s%s;" % (prefix, proto.name))
body.append("static inline PFN_vkVoidFunction layer_intercept_instance_proc(const char *name)")
body.append("{")
body.append(generate_get_proc_addr_check("name"))
body.append("")
body.append(" name += 2;")
body.append(" %s" % "\n ".join(lookups))
body.append("")
body.append(" return NULL;")
body.append("}")
funcs.append("\n".join(body))
return "\n\n".join(funcs)
def _generate_extensions(self):
exts = []
exts.append('%s' % self.lineinfo.get())
exts.append(self._gen_create_msg_callback())
exts.append(self._gen_destroy_msg_callback())
return "\n".join(exts)
def _generate_layer_gpa_function(self, extensions=[], instance_extensions=[]):
func_body = []
#
# New style of GPA Functions for the new layer_data/layer_logging changes
#
if self.layer_name == 'ObjectTracker' or self.layer_name == 'Threading':
func_body.append("VK_LAYER_EXPORT VKAPI_ATTR PFN_vkVoidFunction VKAPI_CALL vkGetDeviceProcAddr(VkDevice device, const char* funcName)\n"
"{\n"
" PFN_vkVoidFunction addr;\n"
" if (device == VK_NULL_HANDLE) {\n"
" return NULL;\n"
" }\n"
" /* loader uses this to force layer initialization; device object is wrapped */\n"
" if (!strcmp(\"vkGetDeviceProcAddr\", funcName)) {\n"
" initDeviceTable(%s_device_table_map, (const VkBaseLayerObject *) device);\n"
" return (PFN_vkVoidFunction) vkGetDeviceProcAddr;\n"
" }\n\n"
" addr = layer_intercept_proc(funcName);\n"
" if (addr)\n"
" return addr;" % self.layer_name)
if 0 != len(extensions):
func_body.append('%s' % self.lineinfo.get())
func_body.append(' layer_data *my_device_data = get_my_data_ptr(get_dispatch_key(device), layer_data_map);')
for (ext_enable, ext_list) in extensions:
extra_space = ""
if 0 != len(ext_enable):
func_body.append(' if (my_device_data->%s) {' % ext_enable)
extra_space = " "
for ext_name in ext_list:
func_body.append(' %sif (!strcmp("%s", funcName))\n'
' %sreturn reinterpret_cast<PFN_vkVoidFunction>(%s);' % (extra_space, ext_name, extra_space, ext_name))
if 0 != len(ext_enable):
func_body.append(' }\n')
func_body.append("\n if (get_dispatch_table(%s_device_table_map, device)->GetDeviceProcAddr == NULL)\n"
" return NULL;\n"
" return get_dispatch_table(%s_device_table_map, device)->GetDeviceProcAddr(device, funcName);\n"
"}\n" % (self.layer_name, self.layer_name))
func_body.append("VK_LAYER_EXPORT VKAPI_ATTR PFN_vkVoidFunction VKAPI_CALL vkGetInstanceProcAddr(VkInstance instance, const char* funcName)\n"
"{\n"
" PFN_vkVoidFunction addr;\n"
" if (instance == VK_NULL_HANDLE) {\n"
" return NULL;\n"
" }\n"
" /* loader uses this to force layer initialization; instance object is wrapped */\n"
" if (!strcmp(\"vkGetInstanceProcAddr\", funcName)) {\n"
" initInstanceTable(%s_instance_table_map, (const VkBaseLayerObject *) instance);\n"
" return (PFN_vkVoidFunction) vkGetInstanceProcAddr;\n"
" }\n\n"
" addr = layer_intercept_instance_proc(funcName);\n"
" if (addr) {\n"
" return addr;"
" }\n" % self.layer_name)
table_declared = False
if 0 != len(instance_extensions):
for (ext_enable, ext_list) in instance_extensions:
extra_space = ""
if 0 != len(ext_enable):
if ext_enable == 'msg_callback_get_proc_addr':
func_body.append(" layer_data *my_data = get_my_data_ptr(get_dispatch_key(instance), layer_data_map);\n"
" addr = debug_report_get_instance_proc_addr(my_data->report_data, funcName);\n"
" if (addr) {\n"
" return addr;\n"
" }\n")
else:
if table_declared == False:
func_body.append(" VkLayerInstanceDispatchTable* pTable = get_dispatch_table(%s_instance_table_map, instance);" % self.layer_name)
table_declared = True
func_body.append(' if (instanceExtMap.size() != 0 && instanceExtMap[pTable].%s)' % ext_enable)
func_body.append(' {')
extra_space = " "
for ext_name in ext_list:
if wsi_name(ext_name):
func_body.append('%s' % wsi_ifdef(ext_name))
func_body.append(' %sif (!strcmp("%s", funcName))\n'
' return reinterpret_cast<PFN_vkVoidFunction>(%s);' % (extra_space, ext_name, ext_name))
if wsi_name(ext_name):
func_body.append('%s' % wsi_endif(ext_name))
if 0 != len(ext_enable):
func_body.append(' }\n')
func_body.append(" if (get_dispatch_table(%s_instance_table_map, instance)->GetInstanceProcAddr == NULL) {\n"
" return NULL;\n"
" }\n"
" return get_dispatch_table(%s_instance_table_map, instance)->GetInstanceProcAddr(instance, funcName);\n"
"}\n" % (self.layer_name, self.layer_name))
return "\n".join(func_body)
else:
func_body.append('%s' % self.lineinfo.get())
func_body.append("VK_LAYER_EXPORT VKAPI_ATTR PFN_vkVoidFunction VKAPI_CALL vkGetDeviceProcAddr(VkDevice device, const char* funcName)\n"
"{\n"
" PFN_vkVoidFunction addr;\n"
" if (device == VK_NULL_HANDLE) {\n"
" return NULL;\n"
" }\n")
if self.layer_name == 'Generic':
func_body.append("\n"
" /* loader uses this to force layer initialization; device object is wrapped */\n"
" if (!strcmp(\"vkGetDeviceProcAddr\", funcName)) {\n"
" initDeviceTable((const VkBaseLayerObject *) device);\n"
" return (PFN_vkVoidFunction) vkGetDeviceProcAddr;\n"
" }\n\n"
" addr = layer_intercept_proc(funcName);\n"
" if (addr)\n"
" return addr;")
else:
func_body.append("\n"
" loader_platform_thread_once(&initOnce, init%s);\n\n"
" /* loader uses this to force layer initialization; device object is wrapped */\n"
" if (!strcmp(\"vkGetDeviceProcAddr\", funcName)) {\n"
" initDeviceTable((const VkBaseLayerObject *) device);\n"
" return (PFN_vkVoidFunction) vkGetDeviceProcAddr;\n"
" }\n\n"
" addr = layer_intercept_proc(funcName);\n"
" if (addr)\n"
" return addr;" % self.layer_name)
func_body.append('')
func_body.append(' VkLayerDispatchTable *pDisp = device_dispatch_table(device);')
if 0 != len(extensions):
extra_space = ""
for (ext_enable, ext_list) in extensions:
if 0 != len(ext_enable):
func_body.append(' if (deviceExtMap.size() != 0 && deviceExtMap[pDisp].%s)' % ext_enable)
func_body.append(' {')
extra_space = " "
for ext_name in ext_list:
func_body.append(' %sif (!strcmp("%s", funcName))\n'
' return reinterpret_cast<PFN_vkVoidFunction>(%s);' % (extra_space, ext_name, ext_name))
if 0 != len(ext_enable):
func_body.append(' }')
func_body.append('%s' % self.lineinfo.get())
func_body.append(" {\n"
" if (pDisp->GetDeviceProcAddr == NULL)\n"
" return NULL;\n"
" return pDisp->GetDeviceProcAddr(device, funcName);\n"
" }\n"
"}\n")
func_body.append('%s' % self.lineinfo.get())
func_body.append("VK_LAYER_EXPORT VKAPI_ATTR PFN_vkVoidFunction VKAPI_CALL vkGetInstanceProcAddr(VkInstance instance, const char* funcName)\n"
"{\n"
" PFN_vkVoidFunction addr;\n"
" if (instance == VK_NULL_HANDLE) {\n"
" return NULL;\n"
" }\n")
if self.layer_name == 'Generic':
func_body.append("\n"
" /* loader uses this to force layer initialization; instance object is wrapped */\n"
" if (!strcmp(\"vkGetInstanceProcAddr\", funcName)) {\n"
" initInstanceTable((const VkBaseLayerObject *) instance);\n"
" return (PFN_vkVoidFunction) vkGetInstanceProcAddr;\n"
" }\n\n"
" addr = layer_intercept_instance_proc(funcName);\n"
" if (addr)\n"
" return addr;")
else:
func_body.append(
" loader_platform_thread_once(&initOnce, init%s);\n\n"
" /* loader uses this to force layer initialization; instance object is wrapped */\n"
" if (!strcmp(\"vkGetInstanceProcAddr\", funcName)) {\n"
" initInstanceTable((const VkBaseLayerObject *) instance);\n"
" return (PFN_vkVoidFunction) vkGetInstanceProcAddr;\n"
" }\n\n"
" addr = layer_intercept_instance_proc(funcName);\n"
" if (addr)\n"
" return addr;" % self.layer_name)
func_body.append("")
func_body.append(" VkLayerInstanceDispatchTable* pTable = instance_dispatch_table(instance);")
if 0 != len(instance_extensions):
extra_space = ""
for (ext_enable, ext_list) in instance_extensions:
if 0 != len(ext_enable):
if ext_enable == 'msg_callback_get_proc_addr':
func_body.append(" layer_data *my_data = get_my_data_ptr(get_dispatch_key(instance), layer_data_map);\n"
" addr = debug_report_get_instance_proc_addr(my_data->report_data, funcName);\n"
" if (addr) {\n"
" return addr;\n"
" }\n")
else:
func_body.append(' if (instanceExtMap.size() != 0 && instanceExtMap[pTable].%s)' % ext_enable)
func_body.append(' {')
extra_space = " "
for ext_name in ext_list:
if wsi_name(ext_name):
func_body.append('%s' % wsi_ifdef(ext_name))
func_body.append(' %sif (!strcmp("%s", funcName))\n'
' return reinterpret_cast<PFN_vkVoidFunction>(%s);' % (extra_space, ext_name, ext_name))
if wsi_name(ext_name):
func_body.append('%s' % wsi_endif(ext_name))
if 0 != len(ext_enable):
func_body.append(' }\n')
func_body.append(" if (pTable->GetInstanceProcAddr == NULL)\n"
" return NULL;\n"
" return pTable->GetInstanceProcAddr(instance, funcName);\n"
"}\n")
return "\n".join(func_body)
def _generate_layer_initialization(self, init_opts=False, prefix='vk', lockname=None, condname=None):
func_body = ["#include \"vk_dispatch_table_helper.h\""]
func_body.append('%s' % self.lineinfo.get())
func_body.append('static void init%s(layer_data *my_data, const VkAllocationCallbacks *pAllocator)\n'
'{\n' % self.layer_name)
if init_opts:
func_body.append('%s' % self.lineinfo.get())
func_body.append(' uint32_t report_flags = 0;')
func_body.append(' uint32_t debug_action = 0;')
func_body.append(' FILE *log_output = NULL;')
func_body.append(' const char *option_str;\n')
func_body.append(' // initialize %s options' % self.layer_name)
func_body.append(' report_flags = getLayerOptionFlags("%sReportFlags", 0);' % self.layer_name)
func_body.append(' getLayerOptionEnum("%sDebugAction", (uint32_t *) &debug_action);' % self.layer_name)
func_body.append('')
func_body.append(' if (debug_action & VK_DBG_LAYER_ACTION_LOG_MSG)')
func_body.append(' {')
func_body.append(' option_str = getLayerOption("%sLogFilename");' % self.layer_name)
func_body.append(' log_output = getLayerLogOutput(option_str,"%s");' % self.layer_name)
func_body.append(' VkDebugReportCallbackCreateInfoLUNARG dbgCreateInfo;')
func_body.append(' memset(&dbgCreateInfo, 0, sizeof(dbgCreateInfo));')
func_body.append(' dbgCreateInfo.sType = VK_STRUCTURE_TYPE_DEBUG_REPORT_CALLBACK_CREATE_INFO_LUNARG;')
func_body.append(' dbgCreateInfo.flags = report_flags;')
func_body.append(' dbgCreateInfo.pfnCallback = log_callback;')
func_body.append(' dbgCreateInfo.pUserData = NULL;')
func_body.append(' layer_create_msg_callback(my_data->report_data, &dbgCreateInfo, pAllocator,')
func_body.append(' &my_data->logging_callback);')
func_body.append(' }')
func_body.append('')
if lockname is not None:
func_body.append('%s' % self.lineinfo.get())
func_body.append(" if (!%sLockInitialized)" % lockname)
func_body.append(" {")
func_body.append(" // TODO/TBD: Need to delete this mutex sometime. How???")
func_body.append(" loader_platform_thread_create_mutex(&%sLock);" % lockname)
if condname is not None:
func_body.append(" loader_platform_thread_init_cond(&%sCond);" % condname)
func_body.append(" %sLockInitialized = 1;" % lockname)
func_body.append(" }")
func_body.append("}\n")
func_body.append('')
return "\n".join(func_body)
def _generate_new_layer_initialization(self, init_opts=False, prefix='vk', lockname=None, condname=None):
func_body = ["#include \"vk_dispatch_table_helper.h\""]
func_body.append('%s' % self.lineinfo.get())
func_body.append('static void init%s(layer_data *my_data, const VkAllocationCallbacks *pAllocator)\n'
'{\n' % self.layer_name)
if init_opts:
func_body.append('%s' % self.lineinfo.get())
func_body.append(' uint32_t report_flags = 0;')
func_body.append(' uint32_t debug_action = 0;')
func_body.append(' FILE *log_output = NULL;')
func_body.append(' const char *strOpt;')
func_body.append(' // initialize %s options' % self.layer_name)
func_body.append(' report_flags = getLayerOptionFlags("%sReportFlags", 0);' % self.layer_name)
func_body.append(' getLayerOptionEnum("%sDebugAction", (uint32_t *) &debug_action);' % self.layer_name)
func_body.append('')
func_body.append(' if (debug_action & VK_DBG_LAYER_ACTION_LOG_MSG)')
func_body.append(' {')
func_body.append(' strOpt = getLayerOption("%sLogFilename");' % self.layer_name)
func_body.append(' log_output = getLayerLogOutput(strOpt, "%s");' % self.layer_name)
func_body.append(' VkDebugReportCallbackCreateInfoLUNARG dbgCreateInfo;')
func_body.append(' memset(&dbgCreateInfo, 0, sizeof(dbgCreateInfo));')
func_body.append(' dbgCreateInfo.sType = VK_STRUCTURE_TYPE_DEBUG_REPORT_CALLBACK_CREATE_INFO_LUNARG;')
func_body.append(' dbgCreateInfo.flags = report_flags;')
func_body.append(' dbgCreateInfo.pfnCallback = log_callback;')
func_body.append(' dbgCreateInfo.pUserData = log_output;')
func_body.append(' layer_create_msg_callback(my_data->report_data, &dbgCreateInfo, pAllocator,')
func_body.append(' &my_data->logging_callback);')
func_body.append(' }')
func_body.append('')
if lockname is not None:
func_body.append('%s' % self.lineinfo.get())
func_body.append(" if (!%sLockInitialized)" % lockname)
func_body.append(" {")
func_body.append(" // TODO/TBD: Need to delete this mutex sometime. How???")
func_body.append(" loader_platform_thread_create_mutex(&%sLock);" % lockname)
if condname is not None:
func_body.append(" loader_platform_thread_init_cond(&%sCond);" % condname)
func_body.append(" %sLockInitialized = 1;" % lockname)
func_body.append(" }")
func_body.append("}\n")
func_body.append('')
return "\n".join(func_body)
class LayerFuncsSubcommand(Subcommand):
def generate_header(self):
return '#include <vulkan/vk_layer.h>\n#include "loader.h"'
def generate_body(self):
return self._generate_dispatch_entrypoints("static")
class GenericLayerSubcommand(Subcommand):
def generate_header(self):
gen_header = []
gen_header.append('%s' % self.lineinfo.get())
gen_header.append('#include <stdio.h>')
gen_header.append('#include <stdlib.h>')
gen_header.append('#include <string.h>')
gen_header.append('#include <unordered_map>')
gen_header.append('#include "vk_loader_platform.h"')
gen_header.append('#include "vulkan/vk_layer.h"')
gen_header.append('#include "vk_layer_config.h"')
gen_header.append('#include "vk_layer_logging.h"')
gen_header.append('#include "vk_layer_table.h"')
gen_header.append('#include "vk_layer_extension_utils.h"')
gen_header.append('')
gen_header.append('#include "generic.h"')
gen_header.append('')
gen_header.append('%s' % self.lineinfo.get())
gen_header.append('#define LAYER_EXT_ARRAY_SIZE 1')
gen_header.append('#define LAYER_DEV_EXT_ARRAY_SIZE 1')
gen_header.append('//static LOADER_PLATFORM_THREAD_ONCE_DECLARATION(initOnce);')
gen_header.append('static std::unordered_map<void *, layer_data *> layer_data_map;\n')
gen_header.append('template layer_data *get_my_data_ptr<layer_data>(')
gen_header.append(' void *data_key,')
gen_header.append(' std::unordered_map<void *, layer_data *> &data_map);\n')
gen_header.append('')
return "\n".join(gen_header)
def generate_intercept(self, proto, qual):
if proto.name in [ 'EnumerateInstanceLayerProperties', 'EnumerateInstanceExtensionProperties', 'EnumerateDeviceLayerProperties', 'EnumerateDeviceExtensionProperties' ]:
# use default version
return None
decl = proto.c_func(prefix="vk", attr="VKAPI")
ret_val = ''
stmt = ''
funcs = []
table = ''
if proto_is_global(proto):
table = 'Instance'
if proto.ret != "void":
funcs.append('%s' % self.lineinfo.get())
ret_val = "%s result = " % proto.ret
stmt = " return result;\n"
if proto.name == "CreateDevice":
funcs.append('%s' % self.lineinfo.get())
funcs.append('%s%s\n'
'{\n'
' char str[1024];\n'
' layer_data *my_data = get_my_data_ptr(get_dispatch_key(physicalDevice), layer_data_map);\n'
' sprintf(str, "At start of Generic layered %s\\n");\n'
' log_msg(my_data->report_data, VK_DEBUG_REPORT_INFO_BIT, VK_OBJECT_TYPE_PHYSICAL_DEVICE,'
' (uint64_t)physicalDevice, 0, 0, (char *) "Generic", "%%s", (char *) str);\n'
' %sdevice_dispatch_table(*pDevice)->%s;\n'
' if (result == VK_SUCCESS) {\n'
' my_data->report_data = layer_debug_report_create_device(my_data->report_data, *pDevice);\n'
' createDeviceRegisterExtensions(pCreateInfo, *pDevice);\n'
' }\n'
' sprintf(str, "Completed Generic layered %s\\n");\n'
' log_msg(my_data->report_data, VK_DEBUG_REPORT_INFO_BIT, VK_OBJECT_TYPE_PHYSICAL_DEVICE, (uint64_t)physicalDevice, 0, 0, (char *) "Generic", "%%s", (char *) str);\n'
' %s'
'}' % (qual, decl, proto.name, ret_val, proto.c_call(), proto.name, stmt))
elif proto.name == "DestroyDevice":
funcs.append('%s' % self.lineinfo.get())
funcs.append('%s%s\n'
'{\n'
' dispatch_key key = get_dispatch_key(device);\n'
' VkLayerDispatchTable *pDisp = device_dispatch_table(device);\n'
' pDisp->DestroyDevice(device, pAllocator);\n'
' deviceExtMap.erase(pDisp);\n'
' destroy_device_dispatch_table(key);\n'
'}\n' % (qual, decl))
elif proto.name == "DestroyInstance":
funcs.append('%s' % self.lineinfo.get())
funcs.append('%s%s\n'
'{\n'
' dispatch_key key = get_dispatch_key(instance);\n'
' VkLayerInstanceDispatchTable *pDisp = instance_dispatch_table(instance);\n'
' pDisp->DestroyInstance(instance, pAllocator);\n'
' // Clean up logging callback, if any\n'
' layer_data *my_data = get_my_data_ptr(key, layer_data_map);\n'
' if (my_data->logging_callback) {\n'
' layer_destroy_msg_callback(my_data->report_data, my_data->logging_callback, pAllocator);\n'
' }\n\n'
' layer_debug_report_destroy_instance(my_data->report_data);\n'
' layer_data_map.erase(key);\n'
' instanceExtMap.erase(pDisp);\n'
' destroy_instance_dispatch_table(key);\n'
'}\n' % (qual, decl))
elif proto.name == "CreateInstance":
funcs.append('%s' % self.lineinfo.get())
# CreateInstance needs to use the second parm instead of the first to set the correct dispatch table
funcs.append('%s%s\n'
'{\n'
' char str[1024];\n'
' %sinstance_dispatch_table(*pInstance)->%s;\n'
' if (result == VK_SUCCESS) {\n'
' createInstanceRegisterExtensions(pCreateInfo, *pInstance);\n'
' layer_data *my_data = get_my_data_ptr(get_dispatch_key(*pInstance), layer_data_map);\n'
' my_data->report_data = debug_report_create_instance(\n'
' instance_dispatch_table(*pInstance),\n'
' *pInstance,\n'
' pCreateInfo->enabledExtensionNameCount,\n'
' pCreateInfo->ppEnabledExtensionNames);\n'
' initGeneric(my_data, pAllocator);\n'
' sprintf(str, "Completed Generic layered %s\\n");\n'
' log_msg(my_data->report_data, VK_DEBUG_REPORT_INFO_BIT, VK_OBJECT_TYPE_INSTANCE, (uint64_t)*pInstance, 0, 0, (char *) "Generic", "%%s", (char *) str);\n'
' }\n'
' return result;\n'
'}\n' % (qual, decl, ret_val, proto.c_call(), proto.name))
else:
if wsi_name(proto.name):
funcs.append('%s' % wsi_ifdef(proto.name))
funcs.append('%s' % self.lineinfo.get())
dispatch_param = proto.params[0].name
# Must use 'instance' table for these APIs, 'device' table otherwise
table_type = ""
if proto_is_global(proto):
table_type = "instance"
else:
table_type = "device"
funcs.append('%s%s\n'
'{\n'
' %s%s_dispatch_table(%s)->%s;\n'
'%s'
'}' % (qual, decl, ret_val, table_type, dispatch_param, proto.c_call(), stmt))
if wsi_name(proto.name):
funcs.append('%s' % wsi_endif(proto.name))
return "\n\n".join(funcs)
def generate_body(self):
self.layer_name = "Generic"
instance_extensions=[('msg_callback_get_proc_addr', []),
('wsi_enabled',
['vkGetPhysicalDeviceSurfaceSupportKHR',
'vkGetPhysicalDeviceSurfaceCapabilitiesKHR',
'vkGetPhysicalDeviceSurfaceFormatsKHR',
'vkGetPhysicalDeviceSurfacePresentModesKHR'])]
extensions=[('wsi_enabled',
['vkCreateSwapchainKHR',
'vkDestroySwapchainKHR', 'vkGetSwapchainImagesKHR',
'vkAcquireNextImageKHR', 'vkQueuePresentKHR'])]
body = [self._generate_layer_initialization(True),
self._generate_dispatch_entrypoints("VK_LAYER_EXPORT"),
self._gen_create_msg_callback(),
self._gen_destroy_msg_callback(),
self._generate_layer_gpa_function(extensions, instance_extensions)]
return "\n\n".join(body)
class APIDumpSubcommand(Subcommand):
def generate_header(self):
header_txt = []
header_txt.append('%s' % self.lineinfo.get())
header_txt.append('#include <fstream>')
header_txt.append('#include <iostream>')
header_txt.append('#include <string>')
header_txt.append('#include <string.h>')
header_txt.append('')
header_txt.append('#include "vk_loader_platform.h"')
header_txt.append('#include "vulkan/vk_layer.h"')
header_txt.append('#include "vk_struct_string_helper_cpp.h"')
header_txt.append('#include "vk_layer_table.h"')
header_txt.append('#include "vk_layer_extension_utils.h"')
header_txt.append('#include <unordered_map>')
header_txt.append('#include "apidump.h"')
header_txt.append('')
header_txt.append('static std::ofstream fileStream;')
header_txt.append('static std::string fileName = "vk_apidump.txt";')
header_txt.append('std::ostream* outputStream = NULL;')
header_txt.append('void ConfigureOutputStream(bool writeToFile, bool flushAfterWrite)')
header_txt.append('{')
header_txt.append(' if(writeToFile)')
header_txt.append(' {')
header_txt.append(' if (fileName == "stdout")')
header_txt.append(' {')
header_txt.append(' outputStream = &std::cout;')
header_txt.append(' (*outputStream) << endl << "APIDump output filename \'stdout\' specified. Writing to STDOUT instead of a file." << endl << endl;')
header_txt.append(' } else {')
header_txt.append(' fileStream.open(fileName);')
header_txt.append(' if ((fileStream.rdstate() & fileStream.failbit) != 0) {')
header_txt.append(' outputStream = &std::cout;')
header_txt.append(' (*outputStream) << endl << "APIDump ERROR: Bad output filename specified: " << fileName << ". Writing to STDOUT instead" << endl << endl;')
header_txt.append(' }')
header_txt.append(' else')
header_txt.append(' outputStream = &fileStream;')
header_txt.append(' }')
header_txt.append(' }')
header_txt.append(' else')
header_txt.append(' {')
header_txt.append(' outputStream = &std::cout;')
header_txt.append(' }')
header_txt.append('')
header_txt.append(' if(flushAfterWrite)')
header_txt.append(' {')
header_txt.append(' outputStream->sync_with_stdio(true);')
header_txt.append(' }')
header_txt.append(' else')
header_txt.append(' {')
header_txt.append(' outputStream->sync_with_stdio(false);')
header_txt.append(' }')
header_txt.append('}')
header_txt.append('')
header_txt.append('%s' % self.lineinfo.get())
header_txt.append('static VkBaseLayerObject *pCurObj;')
header_txt.append('static bool g_APIDumpDetailed = true;')
header_txt.append('')
header_txt.append('static LOADER_PLATFORM_THREAD_ONCE_DECLARATION(initOnce);')
header_txt.append('')
header_txt.append('static int printLockInitialized = 0;')
header_txt.append('static loader_platform_thread_mutex printLock;')
header_txt.append('')
header_txt.append('%s' % self.lineinfo.get())
header_txt.append('#define LAYER_EXT_ARRAY_SIZE 1')
header_txt.append('#define LAYER_DEV_EXT_ARRAY_SIZE 1')
header_txt.append('#define MAX_TID 513')
header_txt.append('static loader_platform_thread_id tidMapping[MAX_TID] = {0};')
header_txt.append('static uint32_t maxTID = 0;')
header_txt.append('// Map actual TID to an index value and return that index')
header_txt.append('// This keeps TIDs in range from 0-MAX_TID and simplifies compares between runs')
header_txt.append('static uint32_t getTIDIndex() {')
header_txt.append(' loader_platform_thread_id tid = loader_platform_get_thread_id();')
header_txt.append(' for (uint32_t i = 0; i < maxTID; i++) {')
header_txt.append(' if (tid == tidMapping[i])')
header_txt.append(' return i;')
header_txt.append(' }')
header_txt.append(" // Don't yet have mapping, set it and return newly set index")
header_txt.append(' uint32_t retVal = (uint32_t) maxTID;')
header_txt.append(' tidMapping[maxTID++] = tid;')
header_txt.append(' assert(maxTID < MAX_TID);')
header_txt.append(' return retVal;')
header_txt.append('}')
header_txt.append('')
header_txt.append('void interpret_memBarriers(const void* const* ppMemoryBarriers, uint32_t memoryBarrierCount)')
header_txt.append('{')
header_txt.append(' if (ppMemoryBarriers) {')
header_txt.append(' string tmp_str;')
header_txt.append(' for (uint32_t i = 0; i < memoryBarrierCount; i++) {')
header_txt.append(' switch(*(VkStructureType*)ppMemoryBarriers[i])')
header_txt.append(' {')
header_txt.append(' case VK_STRUCTURE_TYPE_MEMORY_BARRIER:')
header_txt.append(' tmp_str = vk_print_vkmemorybarrier((VkMemoryBarrier*)ppMemoryBarriers[i], " ");')
header_txt.append(' break;')
header_txt.append(' case VK_STRUCTURE_TYPE_BUFFER_MEMORY_BARRIER:')
header_txt.append(' tmp_str = vk_print_vkbuffermemorybarrier((VkBufferMemoryBarrier*)ppMemoryBarriers[i], " ");')
header_txt.append(' break;')
header_txt.append(' case VK_STRUCTURE_TYPE_IMAGE_MEMORY_BARRIER:')
header_txt.append(' tmp_str = vk_print_vkimagememorybarrier((VkImageMemoryBarrier*)ppMemoryBarriers[i], " ");')
header_txt.append(' break;')
header_txt.append(' default:')
header_txt.append(' break;')
header_txt.append(' }')
header_txt.append('')
header_txt.append(' if (StreamControl::writeAddress == true) {')
header_txt.append(' (*outputStream) << " ppMemoryBarriers[" << i << "] (" << &ppMemoryBarriers[i] << ")" << endl << tmp_str << endl;')
header_txt.append(' } else {')
header_txt.append(' (*outputStream) << " ppMemoryBarriers[" << i << "] (address)" << endl << " address" << endl;')
header_txt.append(' }')
header_txt.append(' }')
header_txt.append(' }')
header_txt.append('}')
header_txt.append('')
return "\n".join(header_txt)
def generate_init(self):
func_body = []
func_body.append('%s' % self.lineinfo.get())
func_body.append('#include "vk_dispatch_table_helper.h"')
func_body.append('#include "vk_layer_config.h"')
func_body.append('')
func_body.append('static void init%s(void)' % self.layer_name)
func_body.append('{')
func_body.append(' using namespace StreamControl;')
func_body.append('')
func_body.append(' char const*const logName = getLayerOption("APIDumpLogFilename");')
func_body.append(' if(logName != NULL)')
func_body.append(' {')
func_body.append(' fileName = logName;')
func_body.append(' }')
func_body.append('')
func_body.append(' char const*const detailedStr = getLayerOption("APIDumpDetailed");')
func_body.append(' if(detailedStr != NULL)')
func_body.append(' {')
func_body.append(' if(strcmp(detailedStr, "TRUE") == 0)')
func_body.append(' {')
func_body.append(' g_APIDumpDetailed = true;')
func_body.append(' }')
func_body.append(' else if(strcmp(detailedStr, "FALSE") == 0)')
func_body.append(' {')
func_body.append(' g_APIDumpDetailed = false;')
func_body.append(' }')
func_body.append(' }')
func_body.append('')
func_body.append(' char const*const writeToFileStr = getLayerOption("APIDumpFile");')
func_body.append(' bool writeToFile = false;')
func_body.append(' if(writeToFileStr != NULL)')
func_body.append(' {')
func_body.append(' if(strcmp(writeToFileStr, "TRUE") == 0)')
func_body.append(' {')
func_body.append(' writeToFile = true;')
func_body.append(' }')
func_body.append(' else if(strcmp(writeToFileStr, "FALSE") == 0)')
func_body.append(' {')
func_body.append(' writeToFile = false;')
func_body.append(' }')
func_body.append(' }')
func_body.append('')
func_body.append('%s' % self.lineinfo.get())
func_body.append(' char const*const noAddrStr = getLayerOption("APIDumpNoAddr");')
func_body.append(' if(noAddrStr != NULL)')
func_body.append(' {')
func_body.append(' if(strcmp(noAddrStr, "FALSE") == 0)')
func_body.append(' {')
func_body.append(' StreamControl::writeAddress = true;')
func_body.append(' }')
func_body.append(' else if(strcmp(noAddrStr, "TRUE") == 0)')
func_body.append(' {')
func_body.append(' StreamControl::writeAddress = false;')
func_body.append(' }')
func_body.append(' }')
func_body.append('')
func_body.append(' char const*const flushAfterWriteStr = getLayerOption("APIDumpFlush");')
func_body.append(' bool flushAfterWrite = false;')
func_body.append(' if(flushAfterWriteStr != NULL)')
func_body.append(' {')
func_body.append(' if(strcmp(flushAfterWriteStr, "TRUE") == 0)')
func_body.append(' {')
func_body.append(' flushAfterWrite = true;')
func_body.append(' }')
func_body.append(' else if(strcmp(flushAfterWriteStr, "FALSE") == 0)')
func_body.append(' {')
func_body.append(' flushAfterWrite = false;')
func_body.append(' }')
func_body.append(' }')
func_body.append('')
func_body.append('%s' % self.lineinfo.get())
func_body.append(' ConfigureOutputStream(writeToFile, flushAfterWrite);')
func_body.append('')
func_body.append(' if (!printLockInitialized)')
func_body.append(' {')
func_body.append(' // TODO/TBD: Need to delete this mutex sometime. How???')
func_body.append(' loader_platform_thread_create_mutex(&printLock);')
func_body.append(' printLockInitialized = 1;')
func_body.append(' }')
func_body.append('}')
func_body.append('')
return "\n".join(func_body)
def generate_intercept(self, proto, qual):
if proto.name in [ 'EnumerateInstanceLayerProperties','EnumerateInstanceExtensionProperties','EnumerateDeviceLayerProperties','EnumerateDeviceExtensionProperties']:
return None
decl = proto.c_func(prefix="vk", attr="VKAPI")
ret_val = ''
stmt = ''
funcs = []
sp_param_dict = {} # Store 'index' for struct param to print, or an name of binding "Count" param for array to print
create_params = 0 # Num of params at end of function that are created and returned as output values
if 'AllocateDescriptorSets' in proto.name:
create_params = -1
elif 'Create' in proto.name or 'Alloc' in proto.name or 'MapMemory' in proto.name:
create_params = -1
if proto.ret != "void":
ret_val = "%s result = " % proto.ret
stmt = " return result;\n"
f_open = 'loader_platform_thread_lock_mutex(&printLock);\n '
log_func = '%s\n' % self.lineinfo.get()
log_func += ' if (StreamControl::writeAddress == true) {'
log_func += '\n (*outputStream) << "t{" << getTIDIndex() << "} vk%s(' % proto.name
log_func_no_addr = '\n (*outputStream) << "t{" << getTIDIndex() << "} vk%s(' % proto.name
f_close = '\n loader_platform_thread_unlock_mutex(&printLock);'
pindex = 0
prev_count_name = ''
for p in proto.params:
cp = False
if 0 != create_params:
# If this is any of the N last params of the func, treat as output
for y in range(-1, create_params-1, -1):
if p.name == proto.params[y].name:
cp = True
(pft, pfi) = self._get_printf_params(p.ty, p.name, cp, cpp=True)
if p.name == "pSwapchain" or p.name == "pSwapchainImages":
log_func += '%s = " << %s << ", ' % (p.name, p.name)
elif p.name == "swapchain" or p.name == "visual_id":
log_func += '%s = " << %s << ", ' % (p.name, p.name)
else:
log_func += '%s = " << %s << ", ' % (p.name, pfi)
if "%p" == pft:
log_func_no_addr += '%s = address, ' % (p.name)
else:
log_func_no_addr += '%s = " << %s << ", ' % (p.name, pfi)
if prev_count_name != '' and (prev_count_name.replace('Count', '')[1:] in p.name):
sp_param_dict[pindex] = prev_count_name
prev_count_name = ''
elif vk_helper.is_type(p.ty.strip('*').replace('const ', ''), 'struct'):
sp_param_dict[pindex] = 'index'
if p.name.endswith('Count'):
if '*' in p.ty:
prev_count_name = "*%s" % p.name
else:
prev_count_name = p.name
else:
prev_count_name = ''
pindex += 1
log_func = log_func.strip(', ')
log_func_no_addr = log_func_no_addr.strip(', ')
if proto.ret == "VkResult":
log_func += ') = " << string_VkResult((VkResult)result) << endl'
log_func_no_addr += ') = " << string_VkResult((VkResult)result) << endl'
elif proto.ret == "void*":
log_func += ') = " << result << endl'
log_func_no_addr += ') = " << result << endl'
else:
log_func += ')\\n"'
log_func_no_addr += ')\\n"'
log_func += ';'
log_func_no_addr += ';'
log_func += '\n }\n else {%s\n }' % log_func_no_addr;
log_func += '\n%s' % self.lineinfo.get()
# log_func += '\n// Proto %s has param_dict: %s' % (proto.name, sp_param_dict)
if len(sp_param_dict) > 0:
indent = ' '
log_func += '\n%sif (g_APIDumpDetailed) {' % indent
indent += ' '
i_decl = False
log_func += '\n%s' % self.lineinfo.get()
log_func += '\n%sstring tmp_str;' % indent
for sp_index in sp_param_dict:
# log_func += '\n// sp_index: %s' % str(sp_index)
if 'index' == sp_param_dict[sp_index]:
cis_print_func = 'vk_print_%s' % (proto.params[sp_index].ty.replace('const ', '').strip('*').lower())
local_name = proto.params[sp_index].name
if '*' not in proto.params[sp_index].ty:
local_name = '&%s' % proto.params[sp_index].name
log_func += '\n%s' % self.lineinfo.get()
log_func += '\n%sif (%s) {' % (indent, local_name)
indent += ' '
log_func += '\n%stmp_str = %s(%s, " ");' % (indent, cis_print_func, local_name)
log_func += '\n%s(*outputStream) << " %s (" << %s << ")" << endl << tmp_str << endl;' % (indent, local_name, local_name)
indent = indent[4:]
log_func += '\n%s}' % (indent)
elif 'memoryBarrierCount' == sp_param_dict[sp_index]: # call helper function
log_func += '\n%sif (ppMemoryBarriers) {' % (indent)
log_func += '\n%s interpret_memBarriers(ppMemoryBarriers, memoryBarrierCount);' % (indent)
log_func += '\n%s}' % (indent)
else: # We have a count value stored to iterate over an array
print_cast = ''
print_func = ''
if vk_helper.is_type(proto.params[sp_index].ty.strip('*').replace('const ', ''), 'struct'):
print_cast = '&'
print_func = 'vk_print_%s' % proto.params[sp_index].ty.replace('const ', '').strip('*').lower()
else:
print_cast = ''
print_func = 'string_convert_helper'
#cis_print_func = 'tmp_str = string_convert_helper((void*)%s[i], " ");' % proto.params[sp_index].name
cis_print_func = 'tmp_str = %s(%s%s[i], " ");' % (print_func, print_cast, proto.params[sp_index].name)
if not i_decl:
log_func += '\n%suint32_t i;' % (indent)
i_decl = True
log_func += '\n%sif (%s) {' % (indent, proto.params[sp_index].name)
indent += ' '
log_func += '\n%s' % self.lineinfo.get()
log_func += '\n%sfor (i = 0; i < %s; i++) {' % (indent, sp_param_dict[sp_index])
indent += ' '
log_func += '\n%s%s' % (indent, cis_print_func)
log_func += '\n%sif (StreamControl::writeAddress == true) {' % (indent)
indent += ' '
log_func += '\n%s(*outputStream) << " %s[" << i << "] (" << %s%s[i] << ")" << endl << tmp_str << endl;' % (indent, proto.params[sp_index].name, '&', proto.params[sp_index].name)
indent = indent[4:]
log_func += '\n%s} else {' % (indent)
indent += ' '
log_func += '\n%s(*outputStream) << " %s[" << i << "] (address)" << endl << " address" << endl;' % (indent, proto.params[sp_index].name)
indent = indent[4:]
log_func += '\n%s}' % (indent)
indent = indent[4:]
log_func += '\n%s}' % (indent)
indent = indent[4:]
log_func += '\n%s}' % (indent)
indent = indent[4:]
log_func += '\n%s}' % (indent)
table_type = ''
if proto_is_global(proto):
table_type = 'instance'
else:
table_type = 'device'
dispatch_param = proto.params[0].name
if proto.name == "CreateInstance":
dispatch_param = '*' + proto.params[1].name
funcs.append('%s%s\n'
'{\n'
' using namespace StreamControl;\n'
' %sinstance_dispatch_table(*pInstance)->%s;\n'
' if (result == VK_SUCCESS) {\n'
' createInstanceRegisterExtensions(pCreateInfo, *pInstance);\n'
' }\n'
' %s%s%s\n'
'%s'
'}\n' % (qual, decl, ret_val, proto.c_call(), f_open, log_func, f_close, stmt))
elif proto.name == "CreateDevice":
funcs.append('%s\n' % self.lineinfo.get())
funcs.append('%s%s\n'
'{\n'
' using namespace StreamControl;\n'
' %sdevice_dispatch_table(*pDevice)->%s;\n'
' if (result == VK_SUCCESS)\n'
' createDeviceRegisterExtensions(pCreateInfo, *pDevice);\n'
' %s%s%s\n'
'%s'
'}' % (qual, decl, ret_val, proto.c_call(), f_open, log_func, f_close, stmt))
elif proto.name == "DestroyDevice":
funcs.append('%s%s\n'
'{\n'
' using namespace StreamControl;\n'
' dispatch_key key = get_dispatch_key(device);\n'
' VkLayerDispatchTable *pDisp = %s_dispatch_table(%s);\n'
' %spDisp->%s;\n'
' deviceExtMap.erase(pDisp);\n'
' destroy_device_dispatch_table(key);\n'
' %s%s%s\n'
'%s'
'}' % (qual, decl, table_type, dispatch_param, ret_val, proto.c_call(), f_open, log_func, f_close, stmt))
elif proto.name == "DestroyInstance":
funcs.append('%s%s\n'
'{\n'
' using namespace StreamControl;\n'
' dispatch_key key = get_dispatch_key(instance);\n'
' VkLayerInstanceDispatchTable *pDisp = %s_dispatch_table(%s);\n'
' %spDisp->%s;\n'
' instanceExtMap.erase(pDisp);\n'
' destroy_instance_dispatch_table(key);\n'
' %s%s%s\n'
'%s'
'}' % (qual, decl, table_type, dispatch_param, ret_val, proto.c_call(), f_open, log_func, f_close, stmt))
else:
if wsi_name(decl):
funcs.append('%s' % wsi_ifdef(decl))
funcs.append('%s%s\n'
'{\n'
' using namespace StreamControl;\n'
' %s%s_dispatch_table(%s)->%s;\n'
' %s%s%s\n'
'%s'
'}' % (qual, decl, ret_val, table_type, dispatch_param, proto.c_call(), f_open, log_func, f_close, stmt))
if wsi_name(decl):
funcs.append('%s' % wsi_endif(decl))
return "\n\n".join(funcs)
def generate_body(self):
self.layer_name = "APIDump"
if sys.platform.startswith('win32'):
instance_extensions=[('wsi_enabled',
['vkGetPhysicalDeviceSurfaceSupportKHR',
'vkGetPhysicalDeviceSurfaceCapabilitiesKHR',
'vkGetPhysicalDeviceSurfaceFormatsKHR',
'vkGetPhysicalDeviceSurfacePresentModesKHR',
'vkCreateWin32SurfaceKHR',
'vkGetPhysicalDeviceWin32PresentationSupportKHR'])]
elif sys.platform.startswith('linux'):
instance_extensions=[('wsi_enabled',
['vkGetPhysicalDeviceSurfaceSupportKHR',
'vkGetPhysicalDeviceSurfaceCapabilitiesKHR',
'vkGetPhysicalDeviceSurfaceFormatsKHR',
'vkGetPhysicalDeviceSurfacePresentModesKHR',
'vkCreateXcbSurfaceKHR',
'vkGetPhysicalDeviceXcbPresentationSupportKHR'])]
# TODO: Add cases for Mir, Xlib, Wayland
else:
instance_extensions=[('wsi_enabled',
['vkGetPhysicalDeviceSurfaceSupportKHR',
'vkGetPhysicalDeviceSurfaceCapabilitiesKHR',
'vkGetPhysicalDeviceSurfaceFormatsKHR',
'vkGetPhysicalDeviceSurfacePresentModesKHR'])]
extensions=[('wsi_enabled',
['vkCreateSwapchainKHR',
'vkDestroySwapchainKHR', 'vkGetSwapchainImagesKHR',
'vkAcquireNextImageKHR', 'vkQueuePresentKHR'])]
body = [self.generate_init(),
self._generate_dispatch_entrypoints("VK_LAYER_EXPORT"),
self._generate_layer_gpa_function(extensions, instance_extensions)]
return "\n\n".join(body)
class ObjectTrackerSubcommand(Subcommand):
def generate_header(self):
header_txt = []
header_txt.append('%s' % self.lineinfo.get())
header_txt.append('#include <stdio.h>')
header_txt.append('#include <stdlib.h>')
header_txt.append('#include <string.h>')
header_txt.append('#include <inttypes.h>')
header_txt.append('')
header_txt.append('#include "vulkan/vulkan.h"')
header_txt.append('#include "vk_loader_platform.h"')
header_txt.append('')
header_txt.append('#include <unordered_map>')
header_txt.append('using namespace std;')
header_txt.append('#include "vulkan/vk_layer.h"')
header_txt.append('#include "vk_layer_config.h"')
header_txt.append('#include "vulkan/vk_lunarg_debug_report.h"')
header_txt.append('#include "vk_layer_table.h"')
header_txt.append('#include "vk_layer_data.h"')
header_txt.append('#include "vk_layer_logging.h"')
header_txt.append('')
# NOTE: The non-autoGenerated code is in the object_track.h header file
header_txt.append('#include "object_track.h"')
header_txt.append('')
header_txt.append('static LOADER_PLATFORM_THREAD_ONCE_DECLARATION(initOnce);')
header_txt.append('')
return "\n".join(header_txt)
def generate_maps(self):
maps_txt = []
for o in vulkan.core.objects:
maps_txt.append('unordered_map<uint64_t, OBJTRACK_NODE*> %sMap;' % (o))
maps_txt.append('unordered_map<uint64_t, OBJTRACK_NODE*> VkSwapchainKHRMap;')
return "\n".join(maps_txt)
def generate_procs(self):
procs_txt = []
for o in vulkan.core.objects:
procs_txt.append('%s' % self.lineinfo.get())
name = re.sub('(.)([A-Z][a-z]+)', r'\1_\2', o)
name = re.sub('([a-z0-9])([A-Z])', r'\1_\2', name).lower()[3:]
if o in vulkan.object_dispatch_list:
procs_txt.append('static void create_%s(%s dispatchable_object, %s vkObj, VkDebugReportObjectTypeLUNARG objType)' % (name, o, o))
else:
procs_txt.append('static void create_%s(VkDevice dispatchable_object, %s vkObj, VkDebugReportObjectTypeLUNARG objType)' % (name, o))
procs_txt.append('{')
procs_txt.append(' log_msg(mdd(dispatchable_object), VK_DEBUG_REPORT_INFO_BIT, objType, reinterpret_cast<uint64_t>(vkObj), 0, OBJTRACK_NONE, "OBJTRACK",')
procs_txt.append(' "OBJ[%llu] : CREATE %s object 0x%" PRIxLEAST64 , object_track_index++, string_VkDebugReportObjectTypeLUNARG(objType),')
procs_txt.append(' reinterpret_cast<uint64_t>(vkObj));')
procs_txt.append('')
procs_txt.append(' OBJTRACK_NODE* pNewObjNode = new OBJTRACK_NODE;')
procs_txt.append(' pNewObjNode->objType = objType;')
procs_txt.append(' pNewObjNode->status = OBJSTATUS_NONE;')
procs_txt.append(' pNewObjNode->vkObj = reinterpret_cast<uint64_t>(vkObj);')
procs_txt.append(' %sMap[(uint64_t)vkObj] = pNewObjNode;' % (o))
procs_txt.append(' uint32_t objIndex = objTypeToIndex(objType);')
procs_txt.append(' numObjs[objIndex]++;')
procs_txt.append(' numTotalObjs++;')
procs_txt.append('}')
procs_txt.append('')
procs_txt.append('%s' % self.lineinfo.get())
# TODO : This is not complete and currently requires some hand-coded function in the header
# Really we want to capture the set of all objects and their associated dispatchable objects
# that are bound by the API calls:
# foreach API Call
# foreach object type seen by call
# create validate_object(disp_obj, object)
if o in vulkan.object_dispatch_list:
procs_txt.append('static VkBool32 validate_%s(%s dispatchable_object, %s object)' % (name, o, o))
else:
procs_txt.append('static VkBool32 validate_%s(VkDevice dispatchable_object, %s object)' % (name, o))
procs_txt.append('{')
if o in vulkan.object_dispatch_list:
procs_txt.append(' if (%sMap.find((uint64_t)object) == %sMap.end()) {' % (o, o))
procs_txt.append(' return log_msg(mdd(dispatchable_object), VK_DEBUG_REPORT_ERROR_BIT, (VkDebugReportObjectTypeLUNARG ) 0, reinterpret_cast<uint64_t>(object), 0, OBJTRACK_INVALID_OBJECT, "OBJTRACK",')
procs_txt.append(' "Invalid %s Object 0x%%" PRIx64 ,reinterpret_cast<uint64_t>(object));' % o)
else:
if o == "VkImage":
procs_txt.append(' // We need to validate normal image objects and those from the swapchain')
procs_txt.append(' if ((%sMap.find((uint64_t)object) == %sMap.end()) &&' % (o, o))
procs_txt.append(' (swapchainImageMap.find((uint64_t)object) == swapchainImageMap.end())) {')
else:
procs_txt.append(' if (%sMap.find((uint64_t)object) == %sMap.end()) {' % (o, o))
procs_txt.append(' return log_msg(mdd(dispatchable_object), VK_DEBUG_REPORT_ERROR_BIT, (VkDebugReportObjectTypeLUNARG ) 0, (uint64_t) object, 0, OBJTRACK_INVALID_OBJECT, "OBJTRACK",')
procs_txt.append(' "Invalid %s Object 0x%%" PRIx64, reinterpret_cast<uint64_t>(object));' % o)
procs_txt.append(' }')
procs_txt.append(' return VK_FALSE;')
procs_txt.append('}')
procs_txt.append('')
procs_txt.append('')
procs_txt.append('%s' % self.lineinfo.get())
if o in vulkan.object_dispatch_list:
procs_txt.append('static void destroy_%s(%s dispatchable_object, %s object)' % (name, o, o))
else:
procs_txt.append('static void destroy_%s(VkDevice dispatchable_object, %s object)' % (name, o))
procs_txt.append('{')
procs_txt.append(' uint64_t object_handle = reinterpret_cast<uint64_t>(object);')
procs_txt.append(' if (%sMap.find(object_handle) != %sMap.end()) {' % (o, o))
procs_txt.append(' OBJTRACK_NODE* pNode = %sMap[(uint64_t)object];' % (o))
procs_txt.append(' uint32_t objIndex = objTypeToIndex(pNode->objType);')
procs_txt.append(' assert(numTotalObjs > 0);')
procs_txt.append(' numTotalObjs--;')
procs_txt.append(' assert(numObjs[objIndex] > 0);')
procs_txt.append(' numObjs[objIndex]--;')
procs_txt.append(' log_msg(mdd(dispatchable_object), VK_DEBUG_REPORT_INFO_BIT, pNode->objType, object_handle, 0, OBJTRACK_NONE, "OBJTRACK",')
procs_txt.append(' "OBJ_STAT Destroy %s obj 0x%" PRIxLEAST64 " (%" PRIu64 " total objs remain & %" PRIu64 " %s objs).",')
procs_txt.append(' string_VkDebugReportObjectTypeLUNARG(pNode->objType), reinterpret_cast<uint64_t>(object), numTotalObjs, numObjs[objIndex],')
procs_txt.append(' string_VkDebugReportObjectTypeLUNARG(pNode->objType));')
procs_txt.append(' delete pNode;')
procs_txt.append(' %sMap.erase(object_handle);' % (o))
procs_txt.append(' } else {')
procs_txt.append(' log_msg(mdd(dispatchable_object), VK_DEBUG_REPORT_ERROR_BIT, (VkDebugReportObjectTypeLUNARG ) 0, object_handle, 0, OBJTRACK_NONE, "OBJTRACK",')
procs_txt.append(' "Unable to remove obj 0x%" PRIxLEAST64 ". Was it created? Has it already been destroyed?",')
procs_txt.append(' object_handle);')
procs_txt.append(' }')
procs_txt.append('}')
procs_txt.append('')
procs_txt.append('%s' % self.lineinfo.get())
if o in vulkan.object_dispatch_list:
procs_txt.append('static VkBool32 set_%s_status(%s dispatchable_object, %s object, VkDebugReportObjectTypeLUNARG objType, ObjectStatusFlags status_flag)' % (name, o, o))
else:
procs_txt.append('static VkBool32 set_%s_status(VkDevice dispatchable_object, %s object, VkDebugReportObjectTypeLUNARG objType, ObjectStatusFlags status_flag)' % (name, o))
procs_txt.append('{')
procs_txt.append(' if (object != VK_NULL_HANDLE) {')
procs_txt.append(' uint64_t object_handle = reinterpret_cast<uint64_t>(object);')
procs_txt.append(' if (%sMap.find(object_handle) != %sMap.end()) {' % (o, o))
procs_txt.append(' OBJTRACK_NODE* pNode = %sMap[object_handle];' % (o))
procs_txt.append(' pNode->status |= status_flag;')
procs_txt.append(' }')
procs_txt.append(' else {')
procs_txt.append(' // If we do not find it print an error')
procs_txt.append(' return log_msg(mdd(dispatchable_object), VK_DEBUG_REPORT_ERROR_BIT, (VkDebugReportObjectTypeLUNARG ) 0, object_handle, 0, OBJTRACK_NONE, "OBJTRACK",')
procs_txt.append(' "Unable to set status for non-existent object 0x%" PRIxLEAST64 " of %s type",')
procs_txt.append(' object_handle, string_VkDebugReportObjectTypeLUNARG(objType));')
procs_txt.append(' }')
procs_txt.append(' }')
procs_txt.append(' return VK_FALSE;')
procs_txt.append('}')
procs_txt.append('')
procs_txt.append('%s' % self.lineinfo.get())
procs_txt.append('static VkBool32 validate_%s_status(' % (name))
if o in vulkan.object_dispatch_list:
procs_txt.append('%s dispatchable_object, %s object,' % (o, o))
else:
procs_txt.append('VkDevice dispatchable_object, %s object,' % (o))
procs_txt.append(' VkDebugReportObjectTypeLUNARG objType,')
procs_txt.append(' ObjectStatusFlags status_mask,')
procs_txt.append(' ObjectStatusFlags status_flag,')
procs_txt.append(' VkFlags msg_flags,')
procs_txt.append(' OBJECT_TRACK_ERROR error_code,')
procs_txt.append(' const char *fail_msg)')
procs_txt.append('{')
procs_txt.append(' uint64_t object_handle = reinterpret_cast<uint64_t>(object);')
procs_txt.append(' if (%sMap.find(object_handle) != %sMap.end()) {' % (o, o))
procs_txt.append(' OBJTRACK_NODE* pNode = %sMap[object_handle];' % (o))
procs_txt.append(' if ((pNode->status & status_mask) != status_flag) {')
procs_txt.append(' log_msg(mdd(dispatchable_object), msg_flags, pNode->objType, object_handle, 0, OBJTRACK_UNKNOWN_OBJECT, "OBJTRACK",')
procs_txt.append(' "OBJECT VALIDATION WARNING: %s object 0x%" PRIxLEAST64 ": %s", string_VkDebugReportObjectTypeLUNARG(objType),')
procs_txt.append(' object_handle, fail_msg);')
procs_txt.append(' return VK_FALSE;')
procs_txt.append(' }')
procs_txt.append(' return VK_TRUE;')
procs_txt.append(' }')
procs_txt.append(' else {')
procs_txt.append(' // If we do not find it print an error')
procs_txt.append(' log_msg(mdd(dispatchable_object), msg_flags, (VkDebugReportObjectTypeLUNARG) 0, object_handle, 0, OBJTRACK_UNKNOWN_OBJECT, "OBJTRACK",')
procs_txt.append(' "Unable to obtain status for non-existent object 0x%" PRIxLEAST64 " of %s type",')
procs_txt.append(' object_handle, string_VkDebugReportObjectTypeLUNARG(objType));')
procs_txt.append(' return VK_FALSE;')
procs_txt.append(' }')
procs_txt.append('}')
procs_txt.append('')
procs_txt.append('%s' % self.lineinfo.get())
if o in vulkan.object_dispatch_list:
procs_txt.append('static VkBool32 reset_%s_status(%s dispatchable_object, %s object, VkDebugReportObjectTypeLUNARG objType, ObjectStatusFlags status_flag)' % (name, o, o))
else:
procs_txt.append('static VkBool32 reset_%s_status(VkDevice dispatchable_object, %s object, VkDebugReportObjectTypeLUNARG objType, ObjectStatusFlags status_flag)' % (name, o))
procs_txt.append('{')
procs_txt.append(' uint64_t object_handle = reinterpret_cast<uint64_t>(object);')
procs_txt.append(' if (%sMap.find(object_handle) != %sMap.end()) {' % (o, o))
procs_txt.append(' OBJTRACK_NODE* pNode = %sMap[object_handle];' % (o))
procs_txt.append(' pNode->status &= ~status_flag;')
procs_txt.append(' }')
procs_txt.append(' else {')
procs_txt.append(' // If we do not find it print an error')
procs_txt.append(' return log_msg(mdd(dispatchable_object), VK_DEBUG_REPORT_ERROR_BIT, objType, object_handle, 0, OBJTRACK_UNKNOWN_OBJECT, "OBJTRACK",')
procs_txt.append(' "Unable to reset status for non-existent object 0x%" PRIxLEAST64 " of %s type",')
procs_txt.append(' object_handle, string_VkDebugReportObjectTypeLUNARG(objType));')
procs_txt.append(' }')
procs_txt.append(' return VK_FALSE;')
procs_txt.append('}')
procs_txt.append('')
return "\n".join(procs_txt)
def generate_destroy_instance(self):
gedi_txt = []
gedi_txt.append('%s' % self.lineinfo.get())
gedi_txt.append('void vkDestroyInstance(')
gedi_txt.append('VkInstance instance,')
gedi_txt.append('const VkAllocationCallbacks* pAllocator)')
gedi_txt.append('{')
gedi_txt.append(' loader_platform_thread_lock_mutex(&objLock);')
gedi_txt.append(' validate_instance(instance, instance);')
gedi_txt.append('')
gedi_txt.append(' destroy_instance(instance, instance);')
gedi_txt.append(' // Report any remaining objects in LL')
for o in vulkan.core.objects:
if o in ['VkInstance', 'VkPhysicalDevice', 'VkQueue']:
continue
gedi_txt.append(' for (auto it = %sMap.begin(); it != %sMap.end(); ++it) {' % (o, o))
gedi_txt.append(' OBJTRACK_NODE* pNode = it->second;')
gedi_txt.append(' log_msg(mid(instance), VK_DEBUG_REPORT_ERROR_BIT, pNode->objType, pNode->vkObj, 0, OBJTRACK_OBJECT_LEAK, "OBJTRACK",')
gedi_txt.append(' "OBJ ERROR : %s object 0x%" PRIxLEAST64 " has not been destroyed.", string_VkDebugReportObjectTypeLUNARG(pNode->objType),')
gedi_txt.append(' pNode->vkObj);')
gedi_txt.append(' }')
gedi_txt.append(' %sMap.clear();' % (o))
gedi_txt.append('')
gedi_txt.append(' dispatch_key key = get_dispatch_key(instance);')
gedi_txt.append(' VkLayerInstanceDispatchTable *pInstanceTable = get_dispatch_table(ObjectTracker_instance_table_map, instance);')
gedi_txt.append(' pInstanceTable->DestroyInstance(instance, pAllocator);')
gedi_txt.append('')
gedi_txt.append(' // Clean up logging callback, if any')
gedi_txt.append(' layer_data *my_data = get_my_data_ptr(key, layer_data_map);')
gedi_txt.append(' if (my_data->logging_callback) {')
gedi_txt.append(' layer_destroy_msg_callback(my_data->report_data, my_data->logging_callback, pAllocator);')
gedi_txt.append(' }')
gedi_txt.append('')
gedi_txt.append(' layer_debug_report_destroy_instance(mid(instance));')
gedi_txt.append(' layer_data_map.erase(pInstanceTable);')
gedi_txt.append('')
gedi_txt.append(' instanceExtMap.erase(pInstanceTable);')
gedi_txt.append(' loader_platform_thread_unlock_mutex(&objLock);')
# The loader holds a mutex that protects this from other threads
gedi_txt.append(' ObjectTracker_instance_table_map.erase(key);')
gedi_txt.append(' if (ObjectTracker_instance_table_map.empty()) {')
gedi_txt.append(' // Release mutex when destroying last instance.')
gedi_txt.append(' loader_platform_thread_delete_mutex(&objLock);')
gedi_txt.append(' objLockInitialized = 0;')
gedi_txt.append(' }')
gedi_txt.append('}')
gedi_txt.append('')
return "\n".join(gedi_txt)
def generate_destroy_device(self):
gedd_txt = []
gedd_txt.append('%s' % self.lineinfo.get())
gedd_txt.append('void vkDestroyDevice(')
gedd_txt.append('VkDevice device,')
gedd_txt.append('const VkAllocationCallbacks* pAllocator)')
gedd_txt.append('{')
gedd_txt.append(' loader_platform_thread_lock_mutex(&objLock);')
gedd_txt.append(' validate_device(device, device);')
gedd_txt.append('')
gedd_txt.append(' destroy_device(device, device);')
gedd_txt.append(' // Report any remaining objects in LL')
for o in vulkan.core.objects:
# DescriptorSets and Command Buffers are destroyed through their pools, not explicitly
if o in ['VkInstance', 'VkPhysicalDevice', 'VkQueue', 'VkDevice', 'VkDescriptorSet', 'VkCommandBuffer']:
continue
gedd_txt.append(' for (auto it = %sMap.begin(); it != %sMap.end(); ++it) {' % (o, o))
gedd_txt.append(' OBJTRACK_NODE* pNode = it->second;')
gedd_txt.append(' log_msg(mdd(device), VK_DEBUG_REPORT_ERROR_BIT, pNode->objType, pNode->vkObj, 0, OBJTRACK_OBJECT_LEAK, "OBJTRACK",')
gedd_txt.append(' "OBJ ERROR : %s object 0x%" PRIxLEAST64 " has not been destroyed.", string_VkDebugReportObjectTypeLUNARG(pNode->objType),')
gedd_txt.append(' pNode->vkObj);')
gedd_txt.append(' }')
gedd_txt.append(' %sMap.clear();' % (o))
gedd_txt.append('')
gedd_txt.append(" // Clean up Queue's MemRef Linked Lists")
gedd_txt.append(' destroyQueueMemRefLists();')
gedd_txt.append('')
gedd_txt.append(' loader_platform_thread_unlock_mutex(&objLock);')
gedd_txt.append('')
gedd_txt.append(' dispatch_key key = get_dispatch_key(device);')
gedd_txt.append(' VkLayerDispatchTable *pDisp = get_dispatch_table(ObjectTracker_device_table_map, device);')
gedd_txt.append(' pDisp->DestroyDevice(device, pAllocator);')
gedd_txt.append(' ObjectTracker_device_table_map.erase(key);')
gedd_txt.append(' assert(ObjectTracker_device_table_map.size() == 0 && "Should not have any instance mappings hanging around");')
gedd_txt.append('')
gedd_txt.append('}')
gedd_txt.append('')
return "\n".join(gedd_txt)
def generate_command_buffer_validates(self):
cbv_txt = []
cbv_txt.append('%s' % self.lineinfo.get())
for o in ['VkPipeline',
'VkPipelineLayout', 'VkBuffer', 'VkEvent', 'VkQueryPool', 'VkRenderPass', 'VkFramebuffer']:
name = re.sub('(.)([A-Z][a-z]+)', r'\1_\2', o)
name = re.sub('([a-z0-9])([A-Z])', r'\1_\2', name).lower()[3:]
cbv_txt.append('static VkBool32 validate_%s(VkCommandBuffer dispatchable_object, %s object)' % (name, o))
cbv_txt.append('{')
cbv_txt.append(' uint64_t object_handle = reinterpret_cast<uint64_t>(object);')
cbv_txt.append(' if (%sMap.find(object_handle) == %sMap.end()) {' % (o, o))
cbv_txt.append(' return log_msg(mdd(dispatchable_object), VK_DEBUG_REPORT_ERROR_BIT, (VkDebugReportObjectTypeLUNARG ) 0, object_handle, 0, OBJTRACK_INVALID_OBJECT, "OBJTRACK",')
cbv_txt.append(' "Invalid %s Object 0x%%" PRIx64, object_handle);' % (o))
cbv_txt.append(' }')
cbv_txt.append(' return VK_FALSE;')
cbv_txt.append('}')
cbv_txt.append('')
return "\n".join(cbv_txt)
def generate_intercept(self, proto, qual):
if proto.name in [ 'CreateDebugReportCallbackLUNARG', 'EnumerateInstanceLayerProperties', 'EnumerateInstanceExtensionProperties','EnumerateDeviceLayerProperties', 'EnumerateDeviceExtensionProperties' ]:
# use default version
return None
# Create map of object names to object type enums of the form VkName : VkObjectTypeName
obj_type_mapping = {base_t : base_t.replace("Vk", "VkObjectType") for base_t in vulkan.object_type_list}
# Convert object type enum names from UpperCamelCase to UPPER_CASE_WITH_UNDERSCORES
for objectName, objectTypeEnum in obj_type_mapping.items():
obj_type_mapping[objectName] = ucc_to_U_C_C(objectTypeEnum);
# Command Buffer Object doesn't follow the rule.
obj_type_mapping['VkCommandBuffer'] = "VK_OBJECT_TYPE_COMMAND_BUFFER"
obj_type_mapping['VkShaderModule'] = "VK_OBJECT_TYPE_SHADER_MODULE"
explicit_object_tracker_functions = [
"CreateInstance",
"EnumeratePhysicalDevices",
"GetPhysicalDeviceQueueFamilyProperties",
"CreateDevice",
"GetDeviceQueue",
"QueueBindSparse",
"AllocateDescriptorSets",
"FreeDescriptorSets",
"AllocateCommandBuffers",
"FreeCommandBuffers",
"DestroyDescriptorPool",
"DestroyCommandPool",
"MapMemory",
"UnmapMemory",
"FreeMemory",
"DestroySwapchainKHR",
"GetSwapchainImagesKHR"
]
decl = proto.c_func(prefix="vk", attr="VKAPI")
param0_name = proto.params[0].name
using_line = ''
create_line = ''
destroy_line = ''
# Dict below tracks params that are vk objects. Dict is "loop count"->["params w/ that loop count"] where '0' is params that aren't in an array
loop_params = defaultdict(list) # Dict uses loop count as key to make final code generation cleaner so params shared in single loop where needed
loop_types = defaultdict(list)
# TODO : For now skipping objs that can be NULL. Really should check these and have special case that allows them to be NULL
# or better yet, these should be encoded into an API json definition and we generate checks from there
# Until then, this is a dict where each func name is a list of object params that can be null (so don't need to be validated)
# param names may be directly passed to the function, or may be a field in a struct param
valid_null_object_names = {'CreateGraphicsPipelines' : ['basePipelineHandle'],
'CreateComputePipelines' : ['basePipelineHandle'],
'BeginCommandBuffer' : ['renderPass', 'framebuffer'],
'QueueSubmit' : ['fence'],
'UpdateDescriptorSets' : ['pTexelBufferView'],
}
param_count = 'NONE' # keep track of arrays passed directly into API functions
for p in proto.params:
base_type = p.ty.replace('const ', '').strip('*')
if 'count' in p.name.lower():
param_count = p.name
if base_type in vulkan.core.objects:
# This is an object to potentially check for validity. First see if it's an array
if '*' in p.ty and 'const' in p.ty and param_count != 'NONE':
loop_params[param_count].append(p.name)
loop_types[param_count].append(str(p.ty[6:-1]))
# Not an array, check for just a base Object that's not in exceptions
elif '*' not in p.ty and (proto.name not in valid_null_object_names or p.name not in valid_null_object_names[proto.name]):
loop_params[0].append(p.name)
loop_types[0].append(str(p.ty))
elif vk_helper.is_type(base_type, 'struct'):
struct_type = base_type
if vk_helper.typedef_rev_dict[struct_type] in vk_helper.struct_dict:
struct_type = vk_helper.typedef_rev_dict[struct_type]
# Parse elements of this struct param to identify objects and/or arrays of objects
for m in sorted(vk_helper.struct_dict[struct_type]):
if vk_helper.struct_dict[struct_type][m]['type'] in vulkan.core.objects and vk_helper.struct_dict[struct_type][m]['type'] not in ['VkPhysicalDevice', 'VkQueue', 'VkFence', 'VkImage', 'VkDeviceMemory']:
if proto.name not in valid_null_object_names or vk_helper.struct_dict[struct_type][m]['name'] not in valid_null_object_names[proto.name]:
# This is not great, but gets the job done for now, but If we have a count and this param is a ptr w/
# last letter 's' OR non-'count' string of count is in the param name, then this is a dynamically sized array param
param_array = False
if param_count != 'NONE':
if '*' in p.ty:
if 's' == p.name[-1] or param_count.lower().replace('count', '') in p.name.lower():
param_array = True
if param_array:
param_name = '%s[i].%s' % (p.name, vk_helper.struct_dict[struct_type][m]['name'])
else:
param_name = '%s->%s' % (p.name, vk_helper.struct_dict[struct_type][m]['name'])
if vk_helper.struct_dict[struct_type][m]['dyn_array']:
if param_count != 'NONE': # this will be a double-embedded loop, use comma delineated 'count,name' for param_name
loop_count = '%s[i].%s' % (p.name, vk_helper.struct_dict[struct_type][m]['array_size'])
loop_params[param_count].append('%s,%s' % (loop_count, param_name))
loop_types[param_count].append('%s' % (vk_helper.struct_dict[struct_type][m]['type']))
else:
loop_count = '%s->%s' % (p.name, vk_helper.struct_dict[struct_type][m]['array_size'])
loop_params[loop_count].append(param_name)
loop_types[loop_count].append('%s' % (vk_helper.struct_dict[struct_type][m]['type']))
else:
if '[' in param_name: # dynamic array param, set size
loop_params[param_count].append(param_name)
loop_types[param_count].append('%s' % (vk_helper.struct_dict[struct_type][m]['type']))
else:
loop_params[0].append(param_name)
loop_types[0].append('%s' % (vk_helper.struct_dict[struct_type][m]['type']))
funcs = []
mutex_unlock = False
funcs.append('%s\n' % self.lineinfo.get())
if proto.name in explicit_object_tracker_functions:
funcs.append('%s%s\n'
'{\n'
' return explicit_%s;\n'
'}' % (qual, decl, proto.c_call()))
return "".join(funcs)
# Temporarily prevent DestroySurface call from being generated until WSI layer support is fleshed out
elif 'DestroyInstance' in proto.name or 'DestroyDevice' in proto.name: # LUGMAL or 'SurfaceKHR' in proto.name:
return ""
else:
if 'Create' in proto.name or 'Alloc' in proto.name:
typ = proto.params[-1].ty.strip('*').replace('const ', '');
name = re.sub('(.)([A-Z][a-z]+)', r'\1_\2', typ)
name = re.sub('([a-z0-9])([A-Z])', r'\1_\2', name).lower()[3:]
create_line = ' loader_platform_thread_lock_mutex(&objLock);\n'
create_line += ' if (result == VK_SUCCESS) {\n'
create_line += ' create_%s(%s, *%s, %s);\n' % (name, param0_name, proto.params[-1].name, obj_type_mapping[typ])
create_line += ' }\n'
create_line += ' loader_platform_thread_unlock_mutex(&objLock);\n'
if 'FreeCommandBuffers' in proto.name:
typ = proto.params[-1].ty.strip('*').replace('const ', '');
name = re.sub('(.)([A-Z][a-z]+)', r'\1_\2', typ)
name = re.sub('([a-z0-9])([A-Z])', r'\1_\2', name).lower()[3:]
funcs.append('%s\n' % self.lineinfo.get())
destroy_line = ' loader_platform_thread_lock_mutex(&objLock);\n'
destroy_line += ' for (uint32_t i = 0; i < commandBufferCount; i++) {\n'
destroy_line += ' destroy_%s(%s[i], %s[i]);\n' % (name, proto.params[-1].name, proto.params[-1].name)
destroy_line += ' }\n'
destroy_line += ' loader_platform_thread_unlock_mutex(&objLock);\n'
if 'Destroy' in proto.name:
typ = proto.params[-2].ty.strip('*').replace('const ', '');
name = re.sub('(.)([A-Z][a-z]+)', r'\1_\2', typ)
name = re.sub('([a-z0-9])([A-Z])', r'\1_\2', name).lower()[3:]
funcs.append('%s\n' % self.lineinfo.get())
destroy_line = ' loader_platform_thread_lock_mutex(&objLock);\n'
# destroy_line += ' if (result == VK_SUCCESS) {\n'
destroy_line += ' destroy_%s(%s, %s);\n' % (name, param0_name, proto.params[-2].name)
# destroy_line += ' }\n'
destroy_line += ' loader_platform_thread_unlock_mutex(&objLock);\n'
if len(loop_params) > 0:
using_line += ' VkBool32 skipCall = VK_FALSE;\n'
if not mutex_unlock:
using_line += ' loader_platform_thread_lock_mutex(&objLock);\n'
mutex_unlock = True
for lc,lt in zip(loop_params,loop_types):
if 0 == lc: # No looping required for these params
for opn,typ in zip(loop_params[lc],loop_types[lt]):
name = re.sub('(.)([A-Z][a-z]+)', r'\1_\2', typ)
name = re.sub('([a-z0-9])([A-Z])', r'\1_\2', name).lower()[3:]
if '->' in opn:
using_line += ' if (%s)\n' % (opn.split('-')[0])
using_line += ' skipCall |= validate_%s(%s, %s);\n' % (name, param0_name, opn)
else:
if 'AcquireNext' in proto.name and 'fence' == name:
using_line += ' if (fence != VK_NULL_HANDLE) {\n'
using_line += ' skipCall |= validate_%s(%s, %s);\n' % (name, param0_name, opn)
using_line += ' }\n'
elif ('CreateGraphicsPipelines' in proto.name or 'CreateComputePipelines' in proto.name) and 'pipelineCache' == opn:
using_line += ' // PipelineCache is optional, validate if present\n'
using_line += ' if (pipelineCache != VK_NULL_HANDLE) {\n'
using_line += ' skipCall |= validate_%s(%s, %s);\n' % (name, param0_name, opn)
using_line += ' }\n'
else:
using_line += ' skipCall |= validate_%s(%s, %s);\n' % (name, param0_name, opn)
else:
base_param = loop_params[lc][0].split('-')[0].split('[')[0]
using_line += ' if (%s) {\n' % base_param
using_line += ' for (uint32_t i=0; i<%s; i++) {\n' % lc
for opn,typ in zip(loop_params[lc],loop_types[lt]):
name = re.sub('(.)([A-Z][a-z]+)', r'\1_\2', typ)
name = re.sub('([a-z0-9])([A-Z])', r'\1_\2', name).lower()[3:]
if ',' in opn: # double-embedded loop
(inner_lc, inner_param) = opn.split(',')
using_line += ' if (%s) {\n' % inner_param
using_line += ' for (uint32_t j=0; j<%s; j++) {\n' % inner_lc
using_line += ' skipCall |= validate_%s(%s, %s[j]);\n' % (name, param0_name, inner_param)
using_line += ' }\n'
using_line += ' }\n'
elif '[' in opn: # API func param is array
using_line += ' skipCall |= validate_%s(%s, %s);\n' % (name, param0_name, opn)
else: # struct element is array
using_line += ' skipCall |= validate_%s(%s, %s[i]);\n' % (name, param0_name, opn)
using_line += ' }\n'
using_line += ' }\n'
if mutex_unlock:
using_line += ' loader_platform_thread_unlock_mutex(&objLock);\n'
if len(loop_params) > 0:
using_line += ' if (skipCall)\n'
if proto.ret != "void":
using_line += ' return VK_ERROR_VALIDATION_FAILED;\n'
else:
using_line += ' return;\n'
ret_val = ''
stmt = ''
if proto.ret != "void":
ret_val = "%s result = " % proto.ret
stmt = " return result;\n"
dispatch_param = proto.params[0].name
if 'CreateInstance' in proto.name:
dispatch_param = '*' + proto.params[1].name
# Must use 'instance' table for these APIs, 'device' table otherwise
table_type = ""
if proto_is_global(proto):
table_type = "instance"
else:
table_type = "device"
if wsi_name(proto.name):
funcs.append('%s' % wsi_ifdef(proto.name))
funcs.append('%s%s\n'
'{\n'
'%s'
'%s'
' %sget_dispatch_table(ObjectTracker_%s_table_map, %s)->%s;\n'
'%s'
'%s'
'}' % (qual, decl, using_line, destroy_line, ret_val, table_type, dispatch_param, proto.c_call(), create_line, stmt))
if wsi_name(proto.name):
funcs.append('%s' % wsi_endif(proto.name))
return "\n\n".join(funcs)
def generate_body(self):
self.layer_name = "ObjectTracker"
extensions=[('wsi_enabled',
['vkCreateSwapchainKHR',
'vkDestroySwapchainKHR', 'vkGetSwapchainImagesKHR',
'vkAcquireNextImageKHR', 'vkQueuePresentKHR'])]
if sys.platform.startswith('win32'):
instance_extensions=[('msg_callback_get_proc_addr', []),
('wsi_enabled',
['vkGetPhysicalDeviceSurfaceSupportKHR',
'vkGetPhysicalDeviceSurfaceCapabilitiesKHR',
'vkGetPhysicalDeviceSurfaceFormatsKHR',
'vkGetPhysicalDeviceSurfacePresentModesKHR',
'vkCreateWin32SurfaceKHR',
'vkGetPhysicalDeviceWin32PresentationSupportKHR'])]
elif sys.platform.startswith('linux'):
instance_extensions=[('msg_callback_get_proc_addr', []),
('wsi_enabled',
['vkGetPhysicalDeviceSurfaceSupportKHR',
'vkGetPhysicalDeviceSurfaceCapabilitiesKHR',
'vkGetPhysicalDeviceSurfaceFormatsKHR',
'vkGetPhysicalDeviceSurfacePresentModesKHR',
'vkCreateXcbSurfaceKHR',
'vkGetPhysicalDeviceXcbPresentationSupportKHR'])]
# TODO: Add cases for Mir, Wayland and Xlib
else: # android
instance_extensions=[('msg_callback_get_proc_addr', []),
('wsi_enabled',
['vkGetPhysicalDeviceSurfaceSupportKHR',
'vkGetPhysicalDeviceSurfaceCapabilitiesKHR',
'vkGetPhysicalDeviceSurfaceFormatsKHR',
'vkGetPhysicalDeviceSurfacePresentModesKHR'])]
body = [self.generate_maps(),
self.generate_procs(),
self.generate_destroy_instance(),
self.generate_destroy_device(),
self.generate_command_buffer_validates(),
self._generate_dispatch_entrypoints("VK_LAYER_EXPORT"),
self._generate_extensions(),
self._generate_layer_gpa_function(extensions,
instance_extensions)]
return "\n\n".join(body)
class ThreadingSubcommand(Subcommand):
thread_check_dispatchable_objects = [
"VkQueue",
"VkCommandBuffer",
]
thread_check_nondispatchable_objects = [
"VkDeviceMemory",
"VkBuffer",
"VkImage",
"VkDescriptorSet",
"VkDescriptorPool",
"VkSemaphore"
]
thread_check_object_types = {
'VkInstance' : 'VK_OBJECT_TYPE_INSTANCE',
'VkPhysicalDevice' : 'VK_OBJECT_TYPE_PHYSICAL_DEVICE',
'VkDevice' : 'VK_OBJECT_TYPE_DEVICE',
'VkQueue' : 'VK_OBJECT_TYPE_QUEUE',
'VkCommandBuffer' : 'VK_OBJECT_TYPE_COMMAND_BUFFER',
'VkFence' : 'VK_OBJECT_TYPE_FENCE',
'VkDeviceMemory' : 'VK_OBJECT_TYPE_DEVICE_MEMORY',
'VkBuffer' : 'VK_OBJECT_TYPE_BUFFER',
'VkImage' : 'VK_OBJECT_TYPE_IMAGE',
'VkSemaphore' : 'VK_OBJECT_TYPE_SEMAPHORE',
'VkEvent' : 'VK_OBJECT_TYPE_EVENT',
'VkQueryPool' : 'VK_OBJECT_TYPE_QUERY_POOL',
'VkBufferView' : 'VK_OBJECT_TYPE_BUFFER_VIEW',
'VkImageView' : 'VK_OBJECT_TYPE_IMAGE_VIEW',
'VkShaderModule' : 'VK_OBJECT_TYPE_SHADER_MODULE',
'VkShader' : 'VK_OBJECT_TYPE_SHADER',
'VkPipelineCache' : 'VK_OBJECT_TYPE_PIPELINE_CACHE',
'VkPipelineLayout' : 'VK_OBJECT_TYPE_PIPELINE_LAYOUT',
'VkRenderPass' : 'VK_OBJECT_TYPE_RENDER_PASS',
'VkPipeline' : 'VK_OBJECT_TYPE_PIPELINE',
'VkDescriptorSetLayout' : 'VK_OBJECT_TYPE_DESCRIPTOR_SET_LAYOUT',
'VkSampler' : 'VK_OBJECT_TYPE_SAMPLER',
'VkDescriptorPool' : 'VK_OBJECT_TYPE_DESCRIPTOR_POOL',
'VkDescriptorSet' : 'VK_OBJECT_TYPE_DESCRIPTOR_SET',
'VkFramebuffer' : 'VK_OBJECT_TYPE_FRAMEBUFFER',
'VkCommandPool' : 'VK_OBJECT_TYPE_COMMAND_POOL',
}
def generate_useObject(self, ty):
obj_type = self.thread_check_object_types[ty]
key = "object"
msg_object = "reinterpret_cast<uint64_t>(object)"
header_txt = []
header_txt.append('%s' % self.lineinfo.get())
header_txt.append('static void use%s(const void* dispatchable_object, %s object)' % (ty, ty))
header_txt.append('{')
header_txt.append(' loader_platform_thread_id tid = loader_platform_get_thread_id();')
header_txt.append(' loader_platform_thread_lock_mutex(&threadingLock);')
header_txt.append(' if (%sObjectsInUse.find(%s) == %sObjectsInUse.end()) {' % (ty, key, ty))
header_txt.append(' %sObjectsInUse[%s] = tid;' % (ty, key))
header_txt.append(' } else {')
header_txt.append(' if (%sObjectsInUse[%s] != tid) {' % (ty, key))
header_txt.append(' log_msg(mdd(dispatchable_object), VK_DEBUG_REPORT_ERROR_BIT, %s, %s,' % (obj_type, msg_object))
header_txt.append(' /*location*/ 0, THREADING_CHECKER_MULTIPLE_THREADS, "THREADING",')
header_txt.append(' "THREADING ERROR : object of type %s is simultaneously used in thread %%ld and thread %%ld",' % (ty))
header_txt.append(' %sObjectsInUse[%s], tid);' % (ty, key))
header_txt.append(' // Wait for thread-safe access to object')
header_txt.append(' while (%sObjectsInUse.find(%s) != %sObjectsInUse.end()) {' % (ty, key, ty))
header_txt.append(' loader_platform_thread_cond_wait(&threadingCond, &threadingLock);')
header_txt.append(' }')
header_txt.append(' %sObjectsInUse[%s] = tid;' % (ty, key))
header_txt.append(' } else {')
header_txt.append(' log_msg(mdd(dispatchable_object), VK_DEBUG_REPORT_ERROR_BIT, %s, %s,' % (obj_type, msg_object))
header_txt.append(' /*location*/ 0, THREADING_CHECKER_MULTIPLE_THREADS, "THREADING",')
header_txt.append(' "THREADING ERROR : object of type %s is recursively used in thread %%ld",' % (ty))
header_txt.append(' tid);')
header_txt.append(' }')
header_txt.append(' }')
header_txt.append(' loader_platform_thread_unlock_mutex(&threadingLock);')
header_txt.append('}')
return "\n".join(header_txt)
def generate_finishUsingObject(self, ty):
key = "object"
header_txt = []
header_txt.append('%s' % self.lineinfo.get())
header_txt.append('static void finishUsing%s(%s object)' % (ty, ty))
header_txt.append('{')
header_txt.append(' // Object is no longer in use')
header_txt.append(' loader_platform_thread_lock_mutex(&threadingLock);')
header_txt.append(' %sObjectsInUse.erase(%s);' % (ty, key))
header_txt.append(' loader_platform_thread_cond_broadcast(&threadingCond);')
header_txt.append(' loader_platform_thread_unlock_mutex(&threadingLock);')
header_txt.append('}')
return "\n".join(header_txt)
def generate_header(self):
header_txt = []
header_txt.append('%s' % self.lineinfo.get())
header_txt.append('#include <stdio.h>')
header_txt.append('#include <stdlib.h>')
header_txt.append('#include <string.h>')
header_txt.append('#include <unordered_map>')
header_txt.append('#include "vk_loader_platform.h"')
header_txt.append('#include "vulkan/vk_layer.h"')
header_txt.append('#include "threading.h"')
header_txt.append('#include "vk_layer_config.h"')
header_txt.append('#include "vk_layer_extension_utils.h"')
header_txt.append('#include "vk_enum_validate_helper.h"')
header_txt.append('#include "vk_struct_validate_helper.h"')
header_txt.append('#include "vk_layer_table.h"')
header_txt.append('#include "vk_layer_logging.h"')
header_txt.append('')
header_txt.append('')
header_txt.append('static LOADER_PLATFORM_THREAD_ONCE_DECLARATION(initOnce);')
header_txt.append('')
header_txt.append('using namespace std;')
for ty in self.thread_check_dispatchable_objects:
header_txt.append('static unordered_map<%s, loader_platform_thread_id> %sObjectsInUse;' % (ty, ty))
for ty in self.thread_check_nondispatchable_objects:
header_txt.append('static unordered_map<%s, loader_platform_thread_id> %sObjectsInUse;' % (ty, ty))
header_txt.append('static int threadingLockInitialized = 0;')
header_txt.append('static loader_platform_thread_mutex threadingLock;')
header_txt.append('static loader_platform_thread_cond threadingCond;')
header_txt.append('%s' % self.lineinfo.get())
for ty in self.thread_check_dispatchable_objects + self.thread_check_nondispatchable_objects:
header_txt.append(self.generate_useObject(ty))
header_txt.append(self.generate_finishUsingObject(ty))
header_txt.append('%s' % self.lineinfo.get())
return "\n".join(header_txt)
def generate_intercept(self, proto, qual):
if proto.name in [ 'CreateDebugReportCallbackLUNARG' ]:
# use default version
return None
decl = proto.c_func(prefix="vk", attr="VKAPI")
ret_val = ''
stmt = ''
funcs = []
table = 'device'
if proto.ret != "void":
ret_val = "%s result = " % proto.ret
stmt = " return result;\n"
if proto_is_global(proto):
table = 'instance'
# Memory range calls are special in needed thread checking within structs
if proto.name in ["FlushMappedMemoryRanges","InvalidateMappedMemoryRanges"]:
funcs.append('%s' % self.lineinfo.get())
funcs.append('%s%s\n' % (qual, decl) +
'{\n'
' for (uint32_t i=0; i<memoryRangeCount; i++) {\n'
' useVkDeviceMemory((const void *) %s, pMemoryRanges[i].memory);\n' % proto.params[0].name +
' }\n'
' VkLayerDispatchTable *pDeviceTable = get_dispatch_table(Threading_%s_table_map, %s);\n' % (table, proto.params[0].name) +
' %s pDeviceTable->%s;\n' % (ret_val, proto.c_call()) +
' for (uint32_t i=0; i<memoryRangeCount; i++) {\n'
' finishUsingVkDeviceMemory(pMemoryRanges[i].memory);\n'
' }\n'
'%s' % (stmt) +
'}')
return "\n".join(funcs)
# All functions that do a Get are thread safe
if 'Get' in proto.name:
return None
# All WSI functions are thread safe
if 'KHR' in proto.name:
return None
# Initialize in early calls
if proto.name == "CreateDevice":
funcs.append('%s' % self.lineinfo.get())
funcs.append('%s%s\n' % (qual, decl) +
'{\n'
' VkLayerDispatchTable *pDeviceTable = get_dispatch_table(Threading_device_table_map, (void *) *pDevice);\n'
' VkResult result = pDeviceTable->%s;\n' % (proto.c_call()) +
' if (result == VK_SUCCESS) {\n'
' layer_data *my_instance_data = get_my_data_ptr(get_dispatch_key(%s), layer_data_map);\n' % proto.params[0].name +
' layer_data *my_device_data = get_my_data_ptr(get_dispatch_key(*pDevice), layer_data_map);\n'
' my_device_data->report_data = layer_debug_report_create_device(my_instance_data->report_data, *pDevice);\n'
' }\n'
'\n'
' return result;'
'}')
return "\n".join(funcs)
elif proto.params[0].ty == "VkPhysicalDevice":
return None
# Functions changing command buffers need thread safe use of first parameter
if proto.params[0].ty == "VkCommandBuffer":
funcs.append('%s' % self.lineinfo.get())
funcs.append('%s%s\n' % (qual, decl) +
'{\n'
' use%s((const void *) %s, %s);\n' % (proto.params[0].ty, proto.params[0].name, proto.params[0].name) +
' VkLayerDispatchTable *pDeviceTable = get_dispatch_table(Threading_%s_table_map, %s);\n' % (table, proto.params[0].name) +
' %spDeviceTable->%s;\n' % (ret_val, proto.c_call()) +
' finishUsing%s(%s);\n' % (proto.params[0].ty, proto.params[0].name) +
'%s' % stmt +
'}')
return "\n".join(funcs)
# Non-Cmd functions that do a Wait are thread safe
if 'Wait' in proto.name:
return None
# Watch use of certain types of objects passed as any parameter
checked_params = []
for param in proto.params:
if param.ty in self.thread_check_dispatchable_objects or param.ty in self.thread_check_nondispatchable_objects:
checked_params.append(param)
if proto.name == "DestroyDevice":
funcs.append('%s%s\n' % (qual, decl) +
'{\n'
' dispatch_key key = get_dispatch_key(device);\n'
' VkLayerDispatchTable *pDeviceTable = get_dispatch_table(Threading_%s_table_map, %s);\n' % (table, proto.params[0].name) +
' %spDeviceTable->%s;\n' % (ret_val, proto.c_call()) +
' Threading_device_table_map.erase(key);\n'
'}\n')
return "\n".join(funcs);
elif proto.name == "DestroyInstance":
funcs.append('%s%s\n' % (qual, decl) +
'{\n'
' dispatch_key key = get_dispatch_key(instance);\n'
' VkLayerInstanceDispatchTable *pInstanceTable = get_dispatch_table(Threading_instance_table_map, %s);\n' % proto.params[0].name +
' %spInstanceTable->%s;\n' % (ret_val, proto.c_call()) +
' destroy_instance_dispatch_table(key);\n'
'\n'
' // Clean up logging callback, if any\n'
' layer_data *my_data = get_my_data_ptr(key, layer_data_map);\n'
' if (my_data->logging_callback) {\n'
' layer_destroy_msg_callback(my_data->report_data, my_data->logging_callback, pAllocator);\n'
' }\n'
'\n'
' layer_debug_report_destroy_instance(my_data->report_data);\n'
' layer_data_map.erase(pInstanceTable);\n'
'\n'
' Threading_instance_table_map.erase(key);\n'
'}\n')
return "\n".join(funcs);
elif proto.name == "CreateInstance":
funcs.append('%s%s\n'
'{\n'
' VkLayerInstanceDispatchTable *pInstanceTable = get_dispatch_table(Threading_instance_table_map, *pInstance);\n'
' VkResult result = pInstanceTable->CreateInstance(pCreateInfo, pAllocator, pInstance);\n'
'\n'
' if (result == VK_SUCCESS) {\n'
' layer_data *my_data = get_my_data_ptr(get_dispatch_key(*pInstance), layer_data_map);\n'
' my_data->report_data = debug_report_create_instance(\n'
' pInstanceTable,\n'
' *pInstance,\n'
' pCreateInfo->enabledExtensionNameCount,\n'
' pCreateInfo->ppEnabledExtensionNames);\n'
' initThreading(my_data, pAllocator);\n'
' }\n'
' return result;\n'
'}\n' % (qual, decl))
return "\n".join(funcs);
if len(checked_params) == 0:
return None
# Surround call with useObject and finishUsingObject for each checked_param
funcs.append('%s' % self.lineinfo.get())
funcs.append('%s%s' % (qual, decl))
funcs.append('{')
for param in checked_params:
funcs.append(' use%s((const void *) %s, %s);' % (param.ty, proto.params[0].name, param.name))
funcs.append(' VkLayerDispatchTable *pDeviceTable = get_dispatch_table(Threading_%s_table_map, %s);' % (table, proto.params[0].name));
funcs.append(' %spDeviceTable->%s;' % (ret_val, proto.c_call()))
for param in checked_params:
funcs.append(' finishUsing%s(%s);' % (param.ty, param.name))
funcs.append('%s'
'}' % stmt)
return "\n".join(funcs)
def generate_body(self):
self.layer_name = "Threading"
body = [self._generate_new_layer_initialization(True, lockname='threading', condname='threading'),
self._generate_dispatch_entrypoints("VK_LAYER_EXPORT"),
self._generate_layer_gpa_function(extensions=[],
instance_extensions=[('msg_callback_get_proc_addr', [])]),
self._gen_create_msg_callback(),
self._gen_destroy_msg_callback()]
return "\n\n".join(body)
def main():
subcommands = {
"layer-funcs" : LayerFuncsSubcommand,
"Generic" : GenericLayerSubcommand,
"APIDump" : APIDumpSubcommand,
"ObjectTracker" : ObjectTrackerSubcommand,
"Threading" : ThreadingSubcommand,
}
if len(sys.argv) < 3 or sys.argv[1] not in subcommands or not os.path.exists(sys.argv[2]):
print("Usage: %s <subcommand> <input_header> [options]" % sys.argv[0])
print
print("Available subcommands are: %s" % " ".join(subcommands))
exit(1)
hfp = vk_helper.HeaderFileParser(sys.argv[2])
hfp.parse()
vk_helper.enum_val_dict = hfp.get_enum_val_dict()
vk_helper.enum_type_dict = hfp.get_enum_type_dict()
vk_helper.struct_dict = hfp.get_struct_dict()
vk_helper.typedef_fwd_dict = hfp.get_typedef_fwd_dict()
vk_helper.typedef_rev_dict = hfp.get_typedef_rev_dict()
vk_helper.types_dict = hfp.get_types_dict()
subcmd = subcommands[sys.argv[1]](sys.argv[2:])
subcmd.run()
if __name__ == "__main__":
main()
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