COPYRIGHT = """\ /* * Copyright 2020 Intel 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, sub license, 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 (including the * next paragraph) 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 NON-INFRINGEMENT. * IN NO EVENT SHALL VMWARE AND/OR ITS SUPPLIERS 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. */ """ import argparse import math import os from mako.template import Template # Mesa-local imports must be declared in meson variable # '{file_without_suffix}_depend_files'. from vk_entrypoints import get_entrypoints_from_xml # We generate a static hash table for entry point lookup # (vkGetProcAddress). We use a linear congruential generator for our hash # function and a power-of-two size table. The prime numbers are determined # experimentally. TEMPLATE_H = Template(COPYRIGHT + """\ /* This file generated from ${filename}, don't edit directly. */ #ifndef VK_DISPATCH_TABLE_H #define VK_DISPATCH_TABLE_H #include "vulkan/vulkan.h" #include "vulkan/vk_android_native_buffer.h" #include "vk_extensions.h" /* Windows api conflict */ #ifdef _WIN32 #include #ifdef CreateSemaphore #undef CreateSemaphore #endif #ifdef CreateEvent #undef CreateEvent #endif #endif #ifdef __cplusplus extern "C" { #endif #ifdef _MSC_VER VKAPI_ATTR void VKAPI_CALL vk_entrypoint_stub(void); #endif <%def name="dispatch_table(entrypoints)"> % for e in entrypoints: % if e.alias: <% continue %> % endif % if e.guard is not None: #ifdef ${e.guard} % endif % if e.aliases: union { PFN_vk${e.name} ${e.name}; % for a in e.aliases: PFN_vk${a.name} ${a.name}; % endfor }; % else: PFN_vk${e.name} ${e.name}; % endif % if e.guard is not None: #else % if e.aliases: union { PFN_vkVoidFunction ${e.name}; % for a in e.aliases: PFN_vkVoidFunction ${a.name}; % endfor }; % else: PFN_vkVoidFunction ${e.name}; % endif #endif % endif % endfor <%def name="entrypoint_table(type, entrypoints)"> struct vk_${type}_entrypoint_table { % for e in entrypoints: % if e.guard is not None: #ifdef ${e.guard} % endif PFN_vk${e.name} ${e.name}; % if e.guard is not None: #else PFN_vkVoidFunction ${e.name}; # endif % endif % endfor }; struct vk_instance_dispatch_table { ${dispatch_table(instance_entrypoints)} }; struct vk_physical_device_dispatch_table { ${dispatch_table(physical_device_entrypoints)} }; struct vk_device_dispatch_table { ${dispatch_table(device_entrypoints)} }; struct vk_dispatch_table { union { struct { struct vk_instance_dispatch_table instance; struct vk_physical_device_dispatch_table physical_device; struct vk_device_dispatch_table device; }; struct { ${dispatch_table(instance_entrypoints)} ${dispatch_table(physical_device_entrypoints)} ${dispatch_table(device_entrypoints)} }; }; }; ${entrypoint_table('instance', instance_entrypoints)} ${entrypoint_table('physical_device', physical_device_entrypoints)} ${entrypoint_table('device', device_entrypoints)} <%def name="uncompacted_dispatch_table(entrypoints)"> % for e in entrypoints: % if e.alias: <% continue %> % endif % if e.guard is not None: #ifdef ${e.guard} % endif PFN_vk${e.name} ${e.name}; % if e.aliases: % for a in e.aliases: PFN_vk${a.name} ${a.name}; % endfor % endif % if e.guard is not None: #else PFN_vkVoidFunction ${e.name}; % if e.aliases: % for a in e.aliases: PFN_vkVoidFunction ${a.name}; % endfor % endif #endif % endif % endfor struct vk_instance_uncompacted_dispatch_table { ${uncompacted_dispatch_table(instance_entrypoints)} }; struct vk_physical_device_uncompacted_dispatch_table { ${uncompacted_dispatch_table(physical_device_entrypoints)} }; struct vk_device_uncompacted_dispatch_table { ${uncompacted_dispatch_table(device_entrypoints)} }; struct vk_uncompacted_dispatch_table { union { struct { struct vk_instance_uncompacted_dispatch_table instance; struct vk_physical_device_uncompacted_dispatch_table physical_device; struct vk_device_uncompacted_dispatch_table device; }; struct { ${uncompacted_dispatch_table(instance_entrypoints)} ${uncompacted_dispatch_table(physical_device_entrypoints)} ${uncompacted_dispatch_table(device_entrypoints)} }; }; }; void vk_instance_dispatch_table_load(struct vk_instance_dispatch_table *table, PFN_vkGetInstanceProcAddr gpa, VkInstance instance); void vk_physical_device_dispatch_table_load(struct vk_physical_device_dispatch_table *table, PFN_vkGetInstanceProcAddr gpa, VkInstance instance); void vk_device_dispatch_table_load(struct vk_device_dispatch_table *table, PFN_vkGetDeviceProcAddr gpa, VkDevice device); void vk_instance_uncompacted_dispatch_table_load(struct vk_instance_uncompacted_dispatch_table *table, PFN_vkGetInstanceProcAddr gpa, VkInstance instance); void vk_physical_device_uncompacted_dispatch_table_load(struct vk_physical_device_uncompacted_dispatch_table *table, PFN_vkGetInstanceProcAddr gpa, VkInstance instance); void vk_device_uncompacted_dispatch_table_load(struct vk_device_uncompacted_dispatch_table *table, PFN_vkGetDeviceProcAddr gpa, VkDevice device); void vk_instance_dispatch_table_from_entrypoints( struct vk_instance_dispatch_table *dispatch_table, const struct vk_instance_entrypoint_table *entrypoint_table, bool overwrite); void vk_physical_device_dispatch_table_from_entrypoints( struct vk_physical_device_dispatch_table *dispatch_table, const struct vk_physical_device_entrypoint_table *entrypoint_table, bool overwrite); void vk_device_dispatch_table_from_entrypoints( struct vk_device_dispatch_table *dispatch_table, const struct vk_device_entrypoint_table *entrypoint_table, bool overwrite); PFN_vkVoidFunction vk_instance_dispatch_table_get(const struct vk_instance_dispatch_table *table, const char *name); PFN_vkVoidFunction vk_physical_device_dispatch_table_get(const struct vk_physical_device_dispatch_table *table, const char *name); PFN_vkVoidFunction vk_device_dispatch_table_get(const struct vk_device_dispatch_table *table, const char *name); PFN_vkVoidFunction vk_instance_dispatch_table_get_if_supported( const struct vk_instance_dispatch_table *table, const char *name, uint32_t core_version, const struct vk_instance_extension_table *instance_exts); PFN_vkVoidFunction vk_physical_device_dispatch_table_get_if_supported( const struct vk_physical_device_dispatch_table *table, const char *name, uint32_t core_version, const struct vk_instance_extension_table *instance_exts); PFN_vkVoidFunction vk_device_dispatch_table_get_if_supported( const struct vk_device_dispatch_table *table, const char *name, uint32_t core_version, const struct vk_instance_extension_table *instance_exts, const struct vk_device_extension_table *device_exts); #ifdef __cplusplus } #endif #endif /* VK_DISPATCH_TABLE_H */ """) TEMPLATE_C = Template(COPYRIGHT + """\ /* This file generated from ${filename}, don't edit directly. */ #include "vk_dispatch_table.h" #include "util/macros.h" #include "string.h" <%def name="load_dispatch_table(type, VkType, ProcAddr, entrypoints)"> void vk_${type}_dispatch_table_load(struct vk_${type}_dispatch_table *table, PFN_vk${ProcAddr} gpa, ${VkType} obj) { % if type != 'physical_device': table->${ProcAddr} = gpa; % endif % for e in entrypoints: % if e.alias or e.name == '${ProcAddr}': <% continue %> % endif % if e.guard is not None: #ifdef ${e.guard} % endif table->${e.name} = (PFN_vk${e.name}) gpa(obj, "vk${e.name}"); % for a in e.aliases: if (table->${e.name} == NULL) { table->${e.name} = (PFN_vk${e.name}) gpa(obj, "vk${a.name}"); } % endfor % if e.guard is not None: #endif % endif % endfor } ${load_dispatch_table('instance', 'VkInstance', 'GetInstanceProcAddr', instance_entrypoints)} ${load_dispatch_table('physical_device', 'VkInstance', 'GetInstanceProcAddr', physical_device_entrypoints)} ${load_dispatch_table('device', 'VkDevice', 'GetDeviceProcAddr', device_entrypoints)} <%def name="load_uncompacted_dispatch_table(type, VkType, ProcAddr, entrypoints)"> void vk_${type}_uncompacted_dispatch_table_load(struct vk_${type}_uncompacted_dispatch_table *table, PFN_vk${ProcAddr} gpa, ${VkType} obj) { % if type != 'physical_device': table->${ProcAddr} = gpa; % endif % for e in entrypoints: % if e.alias or e.name == '${ProcAddr}': <% continue %> % endif % if e.guard is not None: #ifdef ${e.guard} % endif table->${e.name} = (PFN_vk${e.name}) gpa(obj, "vk${e.name}"); % for a in e.aliases: table->${a.name} = (PFN_vk${a.name}) gpa(obj, "vk${a.name}"); if (table->${e.name} && !table->${a.name}) table->${a.name} = (PFN_vk${a.name}) table->${e.name}; if (!table->${e.name}) table->${e.name} = (PFN_vk${e.name}) table->${a.name}; % endfor % if e.guard is not None: #endif % endif % endfor } ${load_uncompacted_dispatch_table('instance', 'VkInstance', 'GetInstanceProcAddr', instance_entrypoints)} ${load_uncompacted_dispatch_table('physical_device', 'VkInstance', 'GetInstanceProcAddr', physical_device_entrypoints)} ${load_uncompacted_dispatch_table('device', 'VkDevice', 'GetDeviceProcAddr', device_entrypoints)} struct string_map_entry { uint32_t name; uint32_t hash; uint32_t num; }; /* We use a big string constant to avoid lots of reloctions from the entry * point table to lots of little strings. The entries in the entry point table * store the index into this big string. */ <%def name="strmap(strmap, prefix)"> static const char ${prefix}_strings[] = % for s in strmap.sorted_strings: "${s.string}\\0" % endfor ; static const struct string_map_entry ${prefix}_string_map_entries[] = { % for s in strmap.sorted_strings: { ${s.offset}, ${'{:0=#8x}'.format(s.hash)}, ${s.num} }, /* ${s.string} */ % endfor }; /* Hash table stats: * size ${len(strmap.sorted_strings)} entries * collisions entries: % for i in range(10): * ${i}${'+' if i == 9 else ' '} ${strmap.collisions[i]} % endfor */ #define none 0xffff static const uint16_t ${prefix}_string_map[${strmap.hash_size}] = { % for e in strmap.mapping: ${ '{:0=#6x}'.format(e) if e >= 0 else 'none' }, % endfor }; static int ${prefix}_string_map_lookup(const char *str) { static const uint32_t prime_factor = ${strmap.prime_factor}; static const uint32_t prime_step = ${strmap.prime_step}; const struct string_map_entry *e; uint32_t hash, h; uint16_t i; const char *p; hash = 0; for (p = str; *p; p++) hash = hash * prime_factor + *p; h = hash; while (1) { i = ${prefix}_string_map[h & ${strmap.hash_mask}]; if (i == none) return -1; e = &${prefix}_string_map_entries[i]; if (e->hash == hash && strcmp(str, ${prefix}_strings + e->name) == 0) return e->num; h += prime_step; } return -1; } ${strmap(instance_strmap, 'instance')} ${strmap(physical_device_strmap, 'physical_device')} ${strmap(device_strmap, 'device')} <% assert len(instance_entrypoints) < 2**8 %> static const uint8_t instance_compaction_table[] = { % for e in instance_entrypoints: ${e.disp_table_index}, % endfor }; <% assert len(physical_device_entrypoints) < 2**8 %> static const uint8_t physical_device_compaction_table[] = { % for e in physical_device_entrypoints: ${e.disp_table_index}, % endfor }; <% assert len(device_entrypoints) < 2**16 %> static const uint16_t device_compaction_table[] = { % for e in device_entrypoints: ${e.disp_table_index}, % endfor }; static bool vk_instance_entrypoint_is_enabled(int index, uint32_t core_version, const struct vk_instance_extension_table *instance) { switch (index) { % for e in instance_entrypoints: case ${e.entry_table_index}: /* ${e.name} */ % if e.core_version: return ${e.core_version.c_vk_version()} <= core_version; % elif e.extensions: % for ext in e.extensions: % if ext.type == 'instance': if (instance->${ext.name[3:]}) return true; % else: /* All device extensions are considered enabled at the instance level */ return true; % endif % endfor return false; % else: return true; % endif % endfor default: return false; } } /** Return true if the core version or extension in which the given entrypoint * is defined is enabled. * * If device is NULL, all device extensions are considered enabled. */ static bool vk_physical_device_entrypoint_is_enabled(int index, uint32_t core_version, const struct vk_instance_extension_table *instance) { switch (index) { % for e in physical_device_entrypoints: case ${e.entry_table_index}: /* ${e.name} */ % if e.core_version: return ${e.core_version.c_vk_version()} <= core_version; % elif e.extensions: % for ext in e.extensions: % if ext.type == 'instance': if (instance->${ext.name[3:]}) return true; % else: /* All device extensions are considered enabled at the instance level */ return true; % endif % endfor return false; % else: return true; % endif % endfor default: return false; } } /** Return true if the core version or extension in which the given entrypoint * is defined is enabled. * * If device is NULL, all device extensions are considered enabled. */ static bool vk_device_entrypoint_is_enabled(int index, uint32_t core_version, const struct vk_instance_extension_table *instance, const struct vk_device_extension_table *device) { switch (index) { % for e in device_entrypoints: case ${e.entry_table_index}: /* ${e.name} */ % if e.core_version: return ${e.core_version.c_vk_version()} <= core_version; % elif e.extensions: % for ext in e.extensions: % if ext.type == 'instance': if (instance->${ext.name[3:]}) return true; % else: if (!device || device->${ext.name[3:]}) return true; % endif % endfor return false; % else: return true; % endif % endfor default: return false; } } #ifdef _MSC_VER VKAPI_ATTR void VKAPI_CALL vk_entrypoint_stub(void) { unreachable("Entrypoint not implemented"); } static const void *get_function_target(const void *func) { const uint8_t *address = func; #ifdef _M_X64 /* Incremental linking may indirect through relative jump */ if (*address == 0xE9) { /* Compute JMP target if the first byte is opcode 0xE9 */ uint32_t offset; memcpy(&offset, address + 1, 4); address += offset + 5; } #else /* Add other platforms here if necessary */ #endif return address; } static bool vk_function_is_stub(PFN_vkVoidFunction func) { return (func == vk_entrypoint_stub) || (get_function_target(func) == get_function_target(vk_entrypoint_stub)); } #endif <%def name="dispatch_table_from_entrypoints(type)"> void vk_${type}_dispatch_table_from_entrypoints( struct vk_${type}_dispatch_table *dispatch_table, const struct vk_${type}_entrypoint_table *entrypoint_table, bool overwrite) { PFN_vkVoidFunction *disp = (PFN_vkVoidFunction *)dispatch_table; PFN_vkVoidFunction *entry = (PFN_vkVoidFunction *)entrypoint_table; if (overwrite) { memset(dispatch_table, 0, sizeof(*dispatch_table)); for (unsigned i = 0; i < ARRAY_SIZE(${type}_compaction_table); i++) { #ifdef _MSC_VER assert(entry[i] != NULL); if (vk_function_is_stub(entry[i])) #else if (entry[i] == NULL) #endif continue; unsigned disp_index = ${type}_compaction_table[i]; assert(disp[disp_index] == NULL); disp[disp_index] = entry[i]; } } else { for (unsigned i = 0; i < ARRAY_SIZE(${type}_compaction_table); i++) { unsigned disp_index = ${type}_compaction_table[i]; #ifdef _MSC_VER assert(entry[i] != NULL); if (disp[disp_index] == NULL && !vk_function_is_stub(entry[i])) #else if (disp[disp_index] == NULL) #endif disp[disp_index] = entry[i]; } } } ${dispatch_table_from_entrypoints('instance')} ${dispatch_table_from_entrypoints('physical_device')} ${dispatch_table_from_entrypoints('device')} <%def name="lookup_funcs(type)"> static PFN_vkVoidFunction vk_${type}_dispatch_table_get_for_entry_index( const struct vk_${type}_dispatch_table *table, int entry_index) { assert(entry_index < ARRAY_SIZE(${type}_compaction_table)); int disp_index = ${type}_compaction_table[entry_index]; return ((PFN_vkVoidFunction *)table)[disp_index]; } PFN_vkVoidFunction vk_${type}_dispatch_table_get( const struct vk_${type}_dispatch_table *table, const char *name) { int entry_index = ${type}_string_map_lookup(name); if (entry_index < 0) return NULL; return vk_${type}_dispatch_table_get_for_entry_index(table, entry_index); } ${lookup_funcs('instance')} ${lookup_funcs('physical_device')} ${lookup_funcs('device')} PFN_vkVoidFunction vk_instance_dispatch_table_get_if_supported( const struct vk_instance_dispatch_table *table, const char *name, uint32_t core_version, const struct vk_instance_extension_table *instance_exts) { int entry_index = instance_string_map_lookup(name); if (entry_index < 0) return NULL; if (!vk_instance_entrypoint_is_enabled(entry_index, core_version, instance_exts)) return NULL; return vk_instance_dispatch_table_get_for_entry_index(table, entry_index); } PFN_vkVoidFunction vk_physical_device_dispatch_table_get_if_supported( const struct vk_physical_device_dispatch_table *table, const char *name, uint32_t core_version, const struct vk_instance_extension_table *instance_exts) { int entry_index = physical_device_string_map_lookup(name); if (entry_index < 0) return NULL; if (!vk_physical_device_entrypoint_is_enabled(entry_index, core_version, instance_exts)) return NULL; return vk_physical_device_dispatch_table_get_for_entry_index(table, entry_index); } PFN_vkVoidFunction vk_device_dispatch_table_get_if_supported( const struct vk_device_dispatch_table *table, const char *name, uint32_t core_version, const struct vk_instance_extension_table *instance_exts, const struct vk_device_extension_table *device_exts) { int entry_index = device_string_map_lookup(name); if (entry_index < 0) return NULL; if (!vk_device_entrypoint_is_enabled(entry_index, core_version, instance_exts, device_exts)) return NULL; return vk_device_dispatch_table_get_for_entry_index(table, entry_index); } """) U32_MASK = 2**32 - 1 PRIME_FACTOR = 5024183 PRIME_STEP = 19 class StringIntMapEntry: def __init__(self, string, num): self.string = string self.num = num # Calculate the same hash value that we will calculate in C. h = 0 for c in string: h = ((h * PRIME_FACTOR) + ord(c)) & U32_MASK self.hash = h self.offset = None def round_to_pow2(x): return 2**int(math.ceil(math.log(x, 2))) class StringIntMap: def __init__(self): self.baked = False self.strings = {} def add_string(self, string, num): assert not self.baked assert string not in self.strings assert 0 <= num < 2**31 self.strings[string] = StringIntMapEntry(string, num) def bake(self): self.sorted_strings = \ sorted(self.strings.values(), key=lambda x: x.string) offset = 0 for entry in self.sorted_strings: entry.offset = offset offset += len(entry.string) + 1 # Save off some values that we'll need in C self.hash_size = round_to_pow2(len(self.strings) * 1.25) self.hash_mask = self.hash_size - 1 self.prime_factor = PRIME_FACTOR self.prime_step = PRIME_STEP self.mapping = [-1] * self.hash_size self.collisions = [0] * 10 for idx, s in enumerate(self.sorted_strings): level = 0 h = s.hash while self.mapping[h & self.hash_mask] >= 0: h = h + PRIME_STEP level = level + 1 self.collisions[min(level, 9)] += 1 self.mapping[h & self.hash_mask] = idx def main(): parser = argparse.ArgumentParser() parser.add_argument('--out-c', help='Output C file.') parser.add_argument('--out-h', help='Output H file.') parser.add_argument('--beta', required=True, help='Enable beta extensions.') parser.add_argument('--xml', help='Vulkan API XML file.', required=True, action='append', dest='xml_files') args = parser.parse_args() entrypoints = get_entrypoints_from_xml(args.xml_files, args.beta) device_entrypoints = [] physical_device_entrypoints = [] instance_entrypoints = [] for e in entrypoints: if e.is_device_entrypoint(): device_entrypoints.append(e) elif e.is_physical_device_entrypoint(): physical_device_entrypoints.append(e) else: instance_entrypoints.append(e) for i, e in enumerate(e for e in device_entrypoints if not e.alias): e.disp_table_index = i device_strmap = StringIntMap() for i, e in enumerate(device_entrypoints): e.entry_table_index = i device_strmap.add_string("vk" + e.name, e.entry_table_index) device_strmap.bake() for i, e in enumerate(e for e in physical_device_entrypoints if not e.alias): e.disp_table_index = i physical_device_strmap = StringIntMap() for i, e in enumerate(physical_device_entrypoints): e.entry_table_index = i physical_device_strmap.add_string("vk" + e.name, e.entry_table_index) physical_device_strmap.bake() for i, e in enumerate(e for e in instance_entrypoints if not e.alias): e.disp_table_index = i instance_strmap = StringIntMap() for i, e in enumerate(instance_entrypoints): e.entry_table_index = i instance_strmap.add_string("vk" + e.name, e.entry_table_index) instance_strmap.bake() # For outputting entrypoints.h we generate a anv_EntryPoint() prototype # per entry point. try: if args.out_h: with open(args.out_h, 'w', encoding='utf-8') as f: f.write(TEMPLATE_H.render(instance_entrypoints=instance_entrypoints, physical_device_entrypoints=physical_device_entrypoints, device_entrypoints=device_entrypoints, filename=os.path.basename(__file__))) if args.out_c: with open(args.out_c, 'w', encoding='utf-8') as f: f.write(TEMPLATE_C.render(instance_entrypoints=instance_entrypoints, physical_device_entrypoints=physical_device_entrypoints, device_entrypoints=device_entrypoints, instance_strmap=instance_strmap, physical_device_strmap=physical_device_strmap, device_strmap=device_strmap, filename=os.path.basename(__file__))) except Exception: # In the event there's an error, this imports some helpers from mako # to print a useful stack trace and prints it, then exits with # status 1, if python is run with debug; otherwise it just raises # the exception import sys from mako import exceptions print(exceptions.text_error_template().render(), file=sys.stderr) sys.exit(1) if __name__ == '__main__': main()