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      1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
      2 // Use of this source code is governed by a BSD-style license that can be
      3 // found in the LICENSE file.
      4 
      5 // This file defines the GLES2 command buffer commands.
      6 
      7 #ifndef GPU_COMMAND_BUFFER_COMMON_GLES2_CMD_FORMAT_H_
      8 #define GPU_COMMAND_BUFFER_COMMON_GLES2_CMD_FORMAT_H_
      9 
     10 
     11 #include <KHR/khrplatform.h>
     12 
     13 #include <stdint.h>
     14 #include <string.h>
     15 
     16 #include "base/atomicops.h"
     17 #include "base/logging.h"
     18 #include "base/macros.h"
     19 #include "gpu/command_buffer/common/bitfield_helpers.h"
     20 #include "gpu/command_buffer/common/cmd_buffer_common.h"
     21 #include "gpu/command_buffer/common/gles2_cmd_ids.h"
     22 
     23 // GL types are forward declared to avoid including the GL headers. The problem
     24 // is determining which GL headers to include from code that is common to the
     25 // client and service sides (GLES2 or one of several GL implementations).
     26 typedef unsigned int GLenum;
     27 typedef unsigned int GLbitfield;
     28 typedef unsigned int GLuint;
     29 typedef int GLint;
     30 typedef int GLsizei;
     31 typedef unsigned char GLboolean;
     32 typedef signed char GLbyte;
     33 typedef short GLshort;
     34 typedef unsigned char GLubyte;
     35 typedef unsigned short GLushort;
     36 typedef unsigned long GLulong;
     37 typedef float GLfloat;
     38 typedef float GLclampf;
     39 typedef double GLdouble;
     40 typedef double GLclampd;
     41 typedef void GLvoid;
     42 typedef khronos_intptr_t GLintptr;
     43 typedef khronos_ssize_t  GLsizeiptr;
     44 
     45 namespace gpu {
     46 namespace gles2 {
     47 
     48 // Command buffer is GPU_COMMAND_BUFFER_ENTRY_ALIGNMENT byte aligned.
     49 #pragma pack(push, GPU_COMMAND_BUFFER_ENTRY_ALIGNMENT)
     50 
     51 namespace id_namespaces {
     52 
     53 // These are used when contexts share resources.
     54 enum IdNamespaces {
     55   kBuffers,
     56   kFramebuffers,
     57   kProgramsAndShaders,
     58   kRenderbuffers,
     59   kTextures,
     60   kQueries,
     61   kVertexArrays,
     62   kNumIdNamespaces
     63 };
     64 
     65 // These numbers must not change
     66 COMPILE_ASSERT(kBuffers == 0, kBuffers_is_not_0);
     67 COMPILE_ASSERT(kFramebuffers == 1, kFramebuffers_is_not_1);
     68 COMPILE_ASSERT(kProgramsAndShaders == 2, kProgramsAndShaders_is_not_2);
     69 COMPILE_ASSERT(kRenderbuffers == 3, kRenderbuffers_is_not_3);
     70 COMPILE_ASSERT(kTextures == 4, kTextures_is_not_4);
     71 
     72 }  // namespace id_namespaces
     73 
     74 // Used for some glGetXXX commands that return a result through a pointer. We
     75 // need to know if the command succeeded or not and the size of the result. If
     76 // the command failed its result size will 0.
     77 template <typename T>
     78 struct SizedResult {
     79   typedef T Type;
     80 
     81   T* GetData() {
     82     return static_cast<T*>(static_cast<void*>(&data));
     83   }
     84 
     85   // Returns the total size in bytes of the SizedResult for a given number of
     86   // results including the size field.
     87   static size_t ComputeSize(size_t num_results) {
     88     return sizeof(T) * num_results + sizeof(uint32_t);  // NOLINT
     89   }
     90 
     91   // Returns the total size in bytes of the SizedResult for a given size of
     92   // results.
     93   static size_t ComputeSizeFromBytes(size_t size_of_result_in_bytes) {
     94     return size_of_result_in_bytes + sizeof(uint32_t);  // NOLINT
     95   }
     96 
     97   // Returns the maximum number of results for a given buffer size.
     98   static uint32_t ComputeMaxResults(size_t size_of_buffer) {
     99     return (size_of_buffer >= sizeof(uint32_t)) ?
    100         ((size_of_buffer - sizeof(uint32_t)) / sizeof(T)) : 0;  // NOLINT
    101   }
    102 
    103   // Set the size for a given number of results.
    104   void SetNumResults(size_t num_results) {
    105     size = sizeof(T) * num_results;  // NOLINT
    106   }
    107 
    108   // Get the number of elements in the result
    109   int32_t GetNumResults() const {
    110     return size / sizeof(T);  // NOLINT
    111   }
    112 
    113   // Copy the result.
    114   void CopyResult(void* dst) const {
    115     memcpy(dst, &data, size);
    116   }
    117 
    118   uint32_t size;  // in bytes.
    119   int32_t data;  // this is just here to get an offset.
    120 };
    121 
    122 COMPILE_ASSERT(sizeof(SizedResult<int8_t>) == 8, SizedResult_size_not_8);
    123 COMPILE_ASSERT(offsetof(SizedResult<int8_t>, size) == 0,
    124                OffsetOf_SizedResult_size_not_0);
    125 COMPILE_ASSERT(offsetof(SizedResult<int8_t>, data) == 4,
    126                OffsetOf_SizedResult_data_not_4);
    127 
    128 // The data for one attrib or uniform from GetProgramInfoCHROMIUM.
    129 struct ProgramInput {
    130   uint32_t type;             // The type (GL_VEC3, GL_MAT3, GL_SAMPLER_2D, etc.
    131   int32_t size;              // The size (how big the array is for uniforms)
    132   uint32_t location_offset;  // offset from ProgramInfoHeader to 'size'
    133                              // locations for uniforms, 1 for attribs.
    134   uint32_t name_offset;      // offset from ProgrmaInfoHeader to start of name.
    135   uint32_t name_length;      // length of the name.
    136 };
    137 
    138 // The format of the bucket filled out by GetProgramInfoCHROMIUM
    139 struct ProgramInfoHeader {
    140   uint32_t link_status;
    141   uint32_t num_attribs;
    142   uint32_t num_uniforms;
    143   // ProgramInput inputs[num_attribs + num_uniforms];
    144 };
    145 
    146 // The format of QuerySync used by EXT_occlusion_query_boolean
    147 struct QuerySync {
    148   void Reset() {
    149     process_count = 0;
    150     result = 0;
    151   }
    152 
    153   base::subtle::Atomic32 process_count;
    154   uint64_t result;
    155 };
    156 
    157 struct AsyncUploadSync {
    158   void Reset() {
    159     base::subtle::Release_Store(&async_upload_token, 0);
    160   }
    161 
    162   void SetAsyncUploadToken(uint32_t token) {
    163     DCHECK_NE(token, 0u);
    164     base::subtle::Release_Store(&async_upload_token, token);
    165   }
    166 
    167   bool HasAsyncUploadTokenPassed(uint32_t token) {
    168     DCHECK_NE(token, 0u);
    169     uint32_t current_token = base::subtle::Acquire_Load(&async_upload_token);
    170     return (current_token - token < 0x80000000);
    171   }
    172 
    173   base::subtle::Atomic32 async_upload_token;
    174 };
    175 
    176 COMPILE_ASSERT(sizeof(ProgramInput) == 20, ProgramInput_size_not_20);
    177 COMPILE_ASSERT(offsetof(ProgramInput, type) == 0,
    178                OffsetOf_ProgramInput_type_not_0);
    179 COMPILE_ASSERT(offsetof(ProgramInput, size) == 4,
    180                OffsetOf_ProgramInput_size_not_4);
    181 COMPILE_ASSERT(offsetof(ProgramInput, location_offset) == 8,
    182                OffsetOf_ProgramInput_location_offset_not_8);
    183 COMPILE_ASSERT(offsetof(ProgramInput, name_offset) == 12,
    184                OffsetOf_ProgramInput_name_offset_not_12);
    185 COMPILE_ASSERT(offsetof(ProgramInput, name_length) == 16,
    186                OffsetOf_ProgramInput_name_length_not_16);
    187 
    188 COMPILE_ASSERT(sizeof(ProgramInfoHeader) == 12, ProgramInfoHeader_size_not_12);
    189 COMPILE_ASSERT(offsetof(ProgramInfoHeader, link_status) == 0,
    190                OffsetOf_ProgramInfoHeader_link_status_not_0);
    191 COMPILE_ASSERT(offsetof(ProgramInfoHeader, num_attribs) == 4,
    192                OffsetOf_ProgramInfoHeader_num_attribs_not_4);
    193 COMPILE_ASSERT(offsetof(ProgramInfoHeader, num_uniforms) == 8,
    194                OffsetOf_ProgramInfoHeader_num_uniforms_not_8);
    195 
    196 namespace cmds {
    197 
    198 #include "../common/gles2_cmd_format_autogen.h"
    199 
    200 // These are hand written commands.
    201 // TODO(gman): Attempt to make these auto-generated.
    202 
    203 struct GenMailboxCHROMIUM {
    204   typedef GenMailboxCHROMIUM ValueType;
    205   static const CommandId kCmdId = kGenMailboxCHROMIUM;
    206   static const cmd::ArgFlags kArgFlags = cmd::kFixed;
    207   static const uint8 cmd_flags = CMD_FLAG_SET_TRACE_LEVEL(3);
    208   CommandHeader header;
    209 };
    210 
    211 struct InsertSyncPointCHROMIUM {
    212   typedef InsertSyncPointCHROMIUM ValueType;
    213   static const CommandId kCmdId = kInsertSyncPointCHROMIUM;
    214   static const cmd::ArgFlags kArgFlags = cmd::kFixed;
    215   static const uint8 cmd_flags = CMD_FLAG_SET_TRACE_LEVEL(3);
    216   CommandHeader header;
    217 };
    218 
    219 struct CreateAndConsumeTextureCHROMIUMImmediate {
    220   typedef CreateAndConsumeTextureCHROMIUMImmediate ValueType;
    221   static const CommandId kCmdId = kCreateAndConsumeTextureCHROMIUMImmediate;
    222   static const cmd::ArgFlags kArgFlags = cmd::kAtLeastN;
    223   static const uint8 cmd_flags = CMD_FLAG_SET_TRACE_LEVEL(1);
    224 
    225   static uint32_t ComputeDataSize() {
    226     return static_cast<uint32_t>(sizeof(GLbyte) * 64);  // NOLINT
    227   }
    228 
    229   static uint32_t ComputeSize() {
    230     return static_cast<uint32_t>(sizeof(ValueType) +
    231                                  ComputeDataSize());  // NOLINT
    232   }
    233 
    234   void SetHeader(uint32_t size_in_bytes) {
    235     header.SetCmdByTotalSize<ValueType>(size_in_bytes);
    236   }
    237 
    238   void Init(GLenum _target, uint32_t _client_id, const GLbyte* _mailbox) {
    239     SetHeader(ComputeSize());
    240     target = _target;
    241     client_id = _client_id;
    242     memcpy(ImmediateDataAddress(this), _mailbox, ComputeDataSize());
    243   }
    244 
    245   void* Set(void* cmd,
    246             GLenum _target,
    247             uint32_t _client_id,
    248             const GLbyte* _mailbox) {
    249     static_cast<ValueType*>(cmd)->Init(_target, _client_id, _mailbox);
    250     const uint32_t size = ComputeSize();
    251     return NextImmediateCmdAddressTotalSize<ValueType>(cmd, size);
    252   }
    253 
    254   gpu::CommandHeader header;
    255   uint32_t target;
    256   uint32_t client_id;
    257 };
    258 
    259 COMPILE_ASSERT(sizeof(CreateAndConsumeTextureCHROMIUMImmediate) == 12,
    260                Sizeof_CreateAndConsumeTextureCHROMIUMImmediate_is_not_12);
    261 COMPILE_ASSERT(offsetof(CreateAndConsumeTextureCHROMIUMImmediate, header) == 0,
    262                OffsetOf_CreateAndConsumeTextureCHROMIUMImmediate_header_not_0);
    263 COMPILE_ASSERT(offsetof(CreateAndConsumeTextureCHROMIUMImmediate, target) == 4,
    264                OffsetOf_CreateAndConsumeTextureCHROMIUMImmediate_target_not_4);
    265 COMPILE_ASSERT(
    266     offsetof(CreateAndConsumeTextureCHROMIUMImmediate, client_id) == 8,
    267     OffsetOf_CreateAndConsumeTextureCHROMIUMImmediate_client_id_not_8);
    268 
    269 
    270 #pragma pack(pop)
    271 
    272 }  // namespace cmd
    273 }  // namespace gles2
    274 }  // namespace gpu
    275 
    276 #endif  // GPU_COMMAND_BUFFER_COMMON_GLES2_CMD_FORMAT_H_
    277