/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "WebGLProgram.h" #include "GLContext.h" #include "mozilla/CheckedInt.h" #include "mozilla/dom/WebGL2RenderingContextBinding.h" #include "mozilla/dom/WebGLRenderingContextBinding.h" #include "mozilla/RefPtr.h" #include "WebGLActiveInfo.h" #include "WebGLContext.h" #include "WebGLShader.h" #include "WebGLUniformLocation.h" #include "WebGLValidateStrings.h" namespace mozilla { /* If `name`: "foo[3]" * Then returns true, with * `out_baseName`: "foo" * `out_isArray`: true * `out_index`: 3 * * If `name`: "foo" * Then returns true, with * `out_baseName`: "foo" * `out_isArray`: false * `out_index`: */ static bool ParseName(const nsCString& name, nsCString* const out_baseName, bool* const out_isArray, size_t* const out_arrayIndex) { int32_t indexEnd = name.RFind("]"); if (indexEnd == -1 || (uint32_t)indexEnd != name.Length() - 1) { *out_baseName = name; *out_isArray = false; return true; } int32_t indexOpenBracket = name.RFind("["); if (indexOpenBracket == -1) return false; uint32_t indexStart = indexOpenBracket + 1; uint32_t indexLen = indexEnd - indexStart; if (indexLen == 0) return false; const nsAutoCString indexStr(Substring(name, indexStart, indexLen)); nsresult errorcode; int32_t indexNum = indexStr.ToInteger(&errorcode); if (NS_FAILED(errorcode)) return false; if (indexNum < 0) return false; *out_baseName = StringHead(name, indexOpenBracket); *out_isArray = true; *out_arrayIndex = indexNum; return true; } static void AddActiveInfo(WebGLContext* webgl, GLint elemCount, GLenum elemType, bool isArray, const nsACString& baseUserName, const nsACString& baseMappedName, std::vector>* activeInfoList, std::map* infoLocMap) { RefPtr info = new WebGLActiveInfo(webgl, elemCount, elemType, isArray, baseUserName, baseMappedName); activeInfoList->push_back(info); infoLocMap->insert(std::make_pair(info->mBaseUserName, info.get())); } static void AddActiveBlockInfo(const nsACString& baseUserName, const nsACString& baseMappedName, std::vector>* activeInfoList) { RefPtr info = new webgl::UniformBlockInfo(baseUserName, baseMappedName); activeInfoList->push_back(info); } //#define DUMP_SHADERVAR_MAPPINGS static already_AddRefed QueryProgramInfo(WebGLProgram* prog, gl::GLContext* gl) { RefPtr info(new webgl::LinkedProgramInfo(prog)); GLuint maxAttribLenWithNull = 0; gl->fGetProgramiv(prog->mGLName, LOCAL_GL_ACTIVE_ATTRIBUTE_MAX_LENGTH, (GLint*)&maxAttribLenWithNull); if (maxAttribLenWithNull < 1) maxAttribLenWithNull = 1; GLuint maxUniformLenWithNull = 0; gl->fGetProgramiv(prog->mGLName, LOCAL_GL_ACTIVE_UNIFORM_MAX_LENGTH, (GLint*)&maxUniformLenWithNull); if (maxUniformLenWithNull < 1) maxUniformLenWithNull = 1; GLuint maxUniformBlockLenWithNull = 0; if (gl->IsSupported(gl::GLFeature::uniform_buffer_object)) { gl->fGetProgramiv(prog->mGLName, LOCAL_GL_ACTIVE_UNIFORM_BLOCK_MAX_NAME_LENGTH, (GLint*)&maxUniformBlockLenWithNull); if (maxUniformBlockLenWithNull < 1) maxUniformBlockLenWithNull = 1; } GLuint maxTransformFeedbackVaryingLenWithNull = 0; if (gl->IsSupported(gl::GLFeature::transform_feedback2)) { gl->fGetProgramiv(prog->mGLName, LOCAL_GL_TRANSFORM_FEEDBACK_VARYING_MAX_LENGTH, (GLint*)&maxTransformFeedbackVaryingLenWithNull); if (maxTransformFeedbackVaryingLenWithNull < 1) maxTransformFeedbackVaryingLenWithNull = 1; } #ifdef DUMP_SHADERVAR_MAPPINGS printf_stderr("maxAttribLenWithNull: %d\n", maxAttribLenWithNull); printf_stderr("maxUniformLenWithNull: %d\n", maxUniformLenWithNull); printf_stderr("maxUniformBlockLenWithNull: %d\n", maxUniformBlockLenWithNull); #endif // Attribs GLuint numActiveAttribs = 0; gl->fGetProgramiv(prog->mGLName, LOCAL_GL_ACTIVE_ATTRIBUTES, (GLint*)&numActiveAttribs); for (GLuint i = 0; i < numActiveAttribs; i++) { nsAutoCString mappedName; mappedName.SetLength(maxAttribLenWithNull - 1); GLsizei lengthWithoutNull = 0; GLint elemCount = 0; // `size` GLenum elemType = 0; // `type` gl->fGetActiveAttrib(prog->mGLName, i, mappedName.Length()+1, &lengthWithoutNull, &elemCount, &elemType, mappedName.BeginWriting()); mappedName.SetLength(lengthWithoutNull); // Collect ActiveInfos: // Attribs can't be arrays, so we can skip some of the mess we have in the Uniform // path. nsDependentCString userName; if (!prog->FindAttribUserNameByMappedName(mappedName, &userName)) userName.Rebind(mappedName, 0); #ifdef DUMP_SHADERVAR_MAPPINGS printf_stderr("[attrib %i] %s/%s\n", i, mappedName.BeginReading(), userName.BeginReading()); printf_stderr(" lengthWithoutNull: %d\n", lengthWithoutNull); #endif const bool isArray = false; AddActiveInfo(prog->mContext, elemCount, elemType, isArray, userName, mappedName, &info->activeAttribs, &info->attribMap); // Collect active locations: GLint loc = gl->fGetAttribLocation(prog->mGLName, mappedName.BeginReading()); if (loc == -1) MOZ_CRASH("Active attrib has no location."); info->activeAttribLocs.insert(loc); } // Uniforms const bool needsCheckForArrays = gl->WorkAroundDriverBugs(); GLuint numActiveUniforms = 0; gl->fGetProgramiv(prog->mGLName, LOCAL_GL_ACTIVE_UNIFORMS, (GLint*)&numActiveUniforms); for (GLuint i = 0; i < numActiveUniforms; i++) { nsAutoCString mappedName; mappedName.SetLength(maxUniformLenWithNull - 1); GLsizei lengthWithoutNull = 0; GLint elemCount = 0; // `size` GLenum elemType = 0; // `type` gl->fGetActiveUniform(prog->mGLName, i, mappedName.Length()+1, &lengthWithoutNull, &elemCount, &elemType, mappedName.BeginWriting()); mappedName.SetLength(lengthWithoutNull); nsAutoCString baseMappedName; bool isArray; size_t arrayIndex; if (!ParseName(mappedName, &baseMappedName, &isArray, &arrayIndex)) MOZ_CRASH("Failed to parse `mappedName` received from driver."); // Note that for good drivers, `isArray` should already be correct. // However, if FindUniform succeeds, it will be validator-guaranteed correct. nsAutoCString baseUserName; if (!prog->FindUniformByMappedName(baseMappedName, &baseUserName, &isArray)) { baseUserName = baseMappedName; if (needsCheckForArrays && !isArray) { // By GLES 3, GetUniformLocation("foo[0]") should return -1 if `foo` is // not an array. Our current linux Try slaves return the location of `foo` // anyways, though. std::string mappedNameStr = baseMappedName.BeginReading(); mappedNameStr += "[0]"; GLint loc = gl->fGetUniformLocation(prog->mGLName, mappedNameStr.c_str()); if (loc != -1) isArray = true; } } #ifdef DUMP_SHADERVAR_MAPPINGS printf_stderr("[uniform %i] %s/%i/%s/%s\n", i, mappedName.BeginReading(), (int)isArray, baseMappedName.BeginReading(), baseUserName.BeginReading()); printf_stderr(" lengthWithoutNull: %d\n", lengthWithoutNull); printf_stderr(" isArray: %d\n", (int)isArray); #endif AddActiveInfo(prog->mContext, elemCount, elemType, isArray, baseUserName, baseMappedName, &info->activeUniforms, &info->uniformMap); } // Uniform Blocks if (gl->IsSupported(gl::GLFeature::uniform_buffer_object)) { GLuint numActiveUniformBlocks = 0; gl->fGetProgramiv(prog->mGLName, LOCAL_GL_ACTIVE_UNIFORM_BLOCKS, (GLint*)&numActiveUniformBlocks); for (GLuint i = 0; i < numActiveUniformBlocks; i++) { nsAutoCString mappedName; mappedName.SetLength(maxUniformBlockLenWithNull - 1); GLint lengthWithoutNull; gl->fGetActiveUniformBlockiv(prog->mGLName, i, LOCAL_GL_UNIFORM_BLOCK_NAME_LENGTH, &lengthWithoutNull); gl->fGetActiveUniformBlockName(prog->mGLName, i, maxUniformBlockLenWithNull, &lengthWithoutNull, mappedName.BeginWriting()); mappedName.SetLength(lengthWithoutNull); nsAutoCString baseMappedName; bool isArray; size_t arrayIndex; if (!ParseName(mappedName, &baseMappedName, &isArray, &arrayIndex)) MOZ_CRASH("Failed to parse `mappedName` received from driver."); nsAutoCString baseUserName; if (!prog->FindUniformBlockByMappedName(baseMappedName, &baseUserName, &isArray)) { baseUserName = baseMappedName; if (needsCheckForArrays && !isArray) { std::string mappedNameStr = baseMappedName.BeginReading(); mappedNameStr += "[0]"; GLuint loc = gl->fGetUniformBlockIndex(prog->mGLName, mappedNameStr.c_str()); if (loc != LOCAL_GL_INVALID_INDEX) isArray = true; } } #ifdef DUMP_SHADERVAR_MAPPINGS printf_stderr("[uniform block %i] %s/%i/%s/%s\n", i, mappedName.BeginReading(), (int)isArray, baseMappedName.BeginReading(), baseUserName.BeginReading()); printf_stderr(" lengthWithoutNull: %d\n", lengthWithoutNull); printf_stderr(" isArray: %d\n", (int)isArray); #endif AddActiveBlockInfo(baseUserName, baseMappedName, &info->uniformBlocks); } } // Transform feedback varyings if (gl->IsSupported(gl::GLFeature::transform_feedback2)) { GLuint numTransformFeedbackVaryings = 0; gl->fGetProgramiv(prog->mGLName, LOCAL_GL_TRANSFORM_FEEDBACK_VARYINGS, (GLint*)&numTransformFeedbackVaryings); for (GLuint i = 0; i < numTransformFeedbackVaryings; i++) { nsAutoCString mappedName; mappedName.SetLength(maxTransformFeedbackVaryingLenWithNull - 1); GLint lengthWithoutNull; GLsizei size; GLenum type; gl->fGetTransformFeedbackVarying(prog->mGLName, i, maxTransformFeedbackVaryingLenWithNull, &lengthWithoutNull, &size, &type, mappedName.BeginWriting()); mappedName.SetLength(lengthWithoutNull); nsAutoCString baseMappedName; bool isArray; size_t arrayIndex; if (!ParseName(mappedName, &baseMappedName, &isArray, &arrayIndex)) MOZ_CRASH("Failed to parse `mappedName` received from driver."); nsAutoCString baseUserName; if (!prog->FindVaryingByMappedName(mappedName, &baseUserName, &isArray)) { baseUserName = baseMappedName; if (needsCheckForArrays && !isArray) { std::string mappedNameStr = baseMappedName.BeginReading(); mappedNameStr += "[0]"; GLuint loc = gl->fGetUniformBlockIndex(prog->mGLName, mappedNameStr.c_str()); if (loc != LOCAL_GL_INVALID_INDEX) isArray = true; } } AddActiveInfo(prog->mContext, size, type, isArray, baseUserName, mappedName, &info->transformFeedbackVaryings, &info->transformFeedbackVaryingsMap); } } return info.forget(); } //////////////////////////////////////////////////////////////////////////////// webgl::LinkedProgramInfo::LinkedProgramInfo(WebGLProgram* prog) : prog(prog) , fragDataMap(nullptr) { } //////////////////////////////////////////////////////////////////////////////// // WebGLProgram static GLuint CreateProgram(gl::GLContext* gl) { gl->MakeCurrent(); return gl->fCreateProgram(); } WebGLProgram::WebGLProgram(WebGLContext* webgl) : WebGLContextBoundObject(webgl) , mGLName(CreateProgram(webgl->GL())) , mTransformFeedbackBufferMode(LOCAL_GL_NONE) { mContext->mPrograms.insertBack(this); } WebGLProgram::~WebGLProgram() { DeleteOnce(); } void WebGLProgram::Delete() { gl::GLContext* gl = mContext->GL(); gl->MakeCurrent(); gl->fDeleteProgram(mGLName); mVertShader = nullptr; mFragShader = nullptr; mMostRecentLinkInfo = nullptr; LinkedListElement::removeFrom(mContext->mPrograms); } //////////////////////////////////////////////////////////////////////////////// // GL funcs void WebGLProgram::AttachShader(WebGLShader* shader) { WebGLRefPtr* shaderSlot; switch (shader->mType) { case LOCAL_GL_VERTEX_SHADER: shaderSlot = &mVertShader; break; case LOCAL_GL_FRAGMENT_SHADER: shaderSlot = &mFragShader; break; default: mContext->ErrorInvalidOperation("attachShader: Bad type for shader."); return; } if (*shaderSlot) { if (shader == *shaderSlot) { mContext->ErrorInvalidOperation("attachShader: `shader` is already attached."); } else { mContext->ErrorInvalidOperation("attachShader: Only one of each type of" " shader may be attached to a program."); } return; } *shaderSlot = shader; mContext->MakeContextCurrent(); mContext->gl->fAttachShader(mGLName, shader->mGLName); } void WebGLProgram::BindAttribLocation(GLuint loc, const nsAString& name) { if (!ValidateGLSLVariableName(name, mContext, "bindAttribLocation")) return; if (loc >= mContext->MaxVertexAttribs()) { mContext->ErrorInvalidValue("bindAttribLocation: `location` must be less than" " MAX_VERTEX_ATTRIBS."); return; } if (StringBeginsWith(name, NS_LITERAL_STRING("gl_"))) { mContext->ErrorInvalidOperation("bindAttribLocation: Can't set the location of a" " name that starts with 'gl_'."); return; } NS_LossyConvertUTF16toASCII asciiName(name); auto res = mBoundAttribLocs.insert(std::pair(asciiName, loc)); const bool wasInserted = res.second; if (!wasInserted) { auto itr = res.first; itr->second = loc; } } void WebGLProgram::DetachShader(WebGLShader* shader) { MOZ_ASSERT(shader); WebGLRefPtr* shaderSlot; switch (shader->mType) { case LOCAL_GL_VERTEX_SHADER: shaderSlot = &mVertShader; break; case LOCAL_GL_FRAGMENT_SHADER: shaderSlot = &mFragShader; break; default: mContext->ErrorInvalidOperation("attachShader: Bad type for shader."); return; } if (*shaderSlot != shader) { mContext->ErrorInvalidOperation("detachShader: `shader` is not attached."); return; } *shaderSlot = nullptr; mContext->MakeContextCurrent(); mContext->gl->fDetachShader(mGLName, shader->mGLName); } already_AddRefed WebGLProgram::GetActiveAttrib(GLuint index) const { if (!mMostRecentLinkInfo) { RefPtr ret = WebGLActiveInfo::CreateInvalid(mContext); return ret.forget(); } const auto& activeList = mMostRecentLinkInfo->activeAttribs; if (index >= activeList.size()) { mContext->ErrorInvalidValue("`index` (%i) must be less than %s (%i).", index, "ACTIVE_ATTRIBS", activeList.size()); return nullptr; } RefPtr ret = activeList[index]; return ret.forget(); } already_AddRefed WebGLProgram::GetActiveUniform(GLuint index) const { if (!mMostRecentLinkInfo) { // According to the spec, this can return null. RefPtr ret = WebGLActiveInfo::CreateInvalid(mContext); return ret.forget(); } const auto& activeList = mMostRecentLinkInfo->activeUniforms; if (index >= activeList.size()) { mContext->ErrorInvalidValue("`index` (%i) must be less than %s (%i).", index, "ACTIVE_UNIFORMS", activeList.size()); return nullptr; } RefPtr ret = activeList[index]; return ret.forget(); } void WebGLProgram::GetAttachedShaders(nsTArray>* const out) const { out->TruncateLength(0); if (mVertShader) out->AppendElement(mVertShader); if (mFragShader) out->AppendElement(mFragShader); } GLint WebGLProgram::GetAttribLocation(const nsAString& userName_wide) const { if (!ValidateGLSLVariableName(userName_wide, mContext, "getAttribLocation")) return -1; if (!IsLinked()) { mContext->ErrorInvalidOperation("getAttribLocation: `program` must be linked."); return -1; } const NS_LossyConvertUTF16toASCII userName(userName_wide); const WebGLActiveInfo* info; if (!LinkInfo()->FindAttrib(userName, &info)) return -1; const nsCString& mappedName = info->mBaseMappedName; gl::GLContext* gl = mContext->GL(); gl->MakeCurrent(); return gl->fGetAttribLocation(mGLName, mappedName.BeginReading()); } GLint WebGLProgram::GetFragDataLocation(const nsAString& userName_wide) const { if (!ValidateGLSLVariableName(userName_wide, mContext, "getFragDataLocation")) return -1; if (!IsLinked()) { mContext->ErrorInvalidOperation("getFragDataLocation: `program` must be linked."); return -1; } const NS_LossyConvertUTF16toASCII userName(userName_wide); nsCString mappedName; if (!LinkInfo()->FindFragData(userName, &mappedName)) return -1; gl::GLContext* gl = mContext->GL(); gl->MakeCurrent(); return gl->fGetFragDataLocation(mGLName, mappedName.BeginReading()); } void WebGLProgram::GetProgramInfoLog(nsAString* const out) const { CopyASCIItoUTF16(mLinkLog, *out); } static GLint GetProgramiv(gl::GLContext* gl, GLuint program, GLenum pname) { GLint ret = 0; gl->fGetProgramiv(program, pname, &ret); return ret; } JS::Value WebGLProgram::GetProgramParameter(GLenum pname) const { gl::GLContext* gl = mContext->gl; gl->MakeCurrent(); if (mContext->IsWebGL2()) { switch (pname) { case LOCAL_GL_ACTIVE_UNIFORM_BLOCKS: return JS::Int32Value(GetProgramiv(gl, mGLName, pname)); case LOCAL_GL_TRANSFORM_FEEDBACK_VARYINGS: return JS::Int32Value(mTransformFeedbackVaryings.size()); } } switch (pname) { case LOCAL_GL_ATTACHED_SHADERS: case LOCAL_GL_ACTIVE_UNIFORMS: case LOCAL_GL_ACTIVE_ATTRIBUTES: return JS::Int32Value(GetProgramiv(gl, mGLName, pname)); case LOCAL_GL_DELETE_STATUS: return JS::BooleanValue(IsDeleteRequested()); case LOCAL_GL_LINK_STATUS: return JS::BooleanValue(IsLinked()); case LOCAL_GL_VALIDATE_STATUS: #ifdef XP_MACOSX // See comment in ValidateProgram. if (gl->WorkAroundDriverBugs()) return JS::BooleanValue(true); #endif return JS::BooleanValue(bool(GetProgramiv(gl, mGLName, pname))); default: mContext->ErrorInvalidEnumInfo("getProgramParameter: `pname`", pname); return JS::NullValue(); } } GLuint WebGLProgram::GetUniformBlockIndex(const nsAString& userName_wide) const { if (!ValidateGLSLVariableName(userName_wide, mContext, "getUniformBlockIndex")) return LOCAL_GL_INVALID_INDEX; if (!IsLinked()) { mContext->ErrorInvalidOperation("getUniformBlockIndex: `program` must be linked."); return LOCAL_GL_INVALID_INDEX; } const NS_LossyConvertUTF16toASCII userName(userName_wide); nsDependentCString baseUserName; bool isArray; size_t arrayIndex; if (!ParseName(userName, &baseUserName, &isArray, &arrayIndex)) return LOCAL_GL_INVALID_INDEX; RefPtr info; if (!LinkInfo()->FindUniformBlock(baseUserName, &info)) { return LOCAL_GL_INVALID_INDEX; } const nsCString& baseMappedName = info->mBaseMappedName; nsAutoCString mappedName(baseMappedName); if (isArray) { mappedName.AppendLiteral("["); mappedName.AppendInt(uint32_t(arrayIndex)); mappedName.AppendLiteral("]"); } gl::GLContext* gl = mContext->GL(); gl->MakeCurrent(); return gl->fGetUniformBlockIndex(mGLName, mappedName.BeginReading()); } void WebGLProgram::GetActiveUniformBlockName(GLuint uniformBlockIndex, nsAString& retval) const { if (!IsLinked()) { mContext->ErrorInvalidOperation("getActiveUniformBlockName: `program` must be linked."); return; } const webgl::LinkedProgramInfo* linkInfo = LinkInfo(); GLuint uniformBlockCount = (GLuint) linkInfo->uniformBlocks.size(); if (uniformBlockIndex >= uniformBlockCount) { mContext->ErrorInvalidValue("getActiveUniformBlockName: index %u invalid.", uniformBlockIndex); return; } const webgl::UniformBlockInfo* blockInfo = linkInfo->uniformBlocks[uniformBlockIndex]; retval.Assign(NS_ConvertASCIItoUTF16(blockInfo->mBaseUserName)); } void WebGLProgram::GetActiveUniformBlockParam(GLuint uniformBlockIndex, GLenum pname, dom::Nullable& retval) const { retval.SetNull(); if (!IsLinked()) { mContext->ErrorInvalidOperation("getActiveUniformBlockParameter: `program` must be linked."); return; } const webgl::LinkedProgramInfo* linkInfo = LinkInfo(); GLuint uniformBlockCount = (GLuint)linkInfo->uniformBlocks.size(); if (uniformBlockIndex >= uniformBlockCount) { mContext->ErrorInvalidValue("getActiveUniformBlockParameter: index %u invalid.", uniformBlockIndex); return; } gl::GLContext* gl = mContext->GL(); GLint param = 0; switch (pname) { case LOCAL_GL_UNIFORM_BLOCK_REFERENCED_BY_VERTEX_SHADER: case LOCAL_GL_UNIFORM_BLOCK_REFERENCED_BY_FRAGMENT_SHADER: gl->fGetActiveUniformBlockiv(mGLName, uniformBlockIndex, pname, ¶m); retval.SetValue().SetAsBoolean() = (param != 0); return; case LOCAL_GL_UNIFORM_BLOCK_BINDING: case LOCAL_GL_UNIFORM_BLOCK_DATA_SIZE: case LOCAL_GL_UNIFORM_BLOCK_ACTIVE_UNIFORMS: gl->fGetActiveUniformBlockiv(mGLName, uniformBlockIndex, pname, ¶m); retval.SetValue().SetAsUnsignedLong() = param; return; } } void WebGLProgram::GetActiveUniformBlockActiveUniforms(JSContext* cx, GLuint uniformBlockIndex, dom::Nullable& retval, ErrorResult& rv) const { if (!IsLinked()) { mContext->ErrorInvalidOperation("getActiveUniformBlockParameter: `program` must be linked."); return; } const webgl::LinkedProgramInfo* linkInfo = LinkInfo(); GLuint uniformBlockCount = (GLuint)linkInfo->uniformBlocks.size(); if (uniformBlockIndex >= uniformBlockCount) { mContext->ErrorInvalidValue("getActiveUniformBlockParameter: index %u invalid.", uniformBlockIndex); return; } gl::GLContext* gl = mContext->GL(); GLint activeUniformCount = 0; gl->fGetActiveUniformBlockiv(mGLName, uniformBlockIndex, LOCAL_GL_UNIFORM_BLOCK_ACTIVE_UNIFORMS, &activeUniformCount); JS::RootedObject obj(cx, dom::Uint32Array::Create(cx, mContext, activeUniformCount, nullptr)); if (!obj) { rv = NS_ERROR_OUT_OF_MEMORY; return; } dom::Uint32Array result; DebugOnly inited = result.Init(obj); MOZ_ASSERT(inited); result.ComputeLengthAndData(); gl->fGetActiveUniformBlockiv(mGLName, uniformBlockIndex, LOCAL_GL_UNIFORM_BLOCK_ACTIVE_UNIFORM_INDICES, (GLint*)result.Data()); inited = retval.SetValue().SetAsUint32Array().Init(obj); MOZ_ASSERT(inited); } already_AddRefed WebGLProgram::GetUniformLocation(const nsAString& userName_wide) const { if (!ValidateGLSLVariableName(userName_wide, mContext, "getUniformLocation")) return nullptr; if (!IsLinked()) { mContext->ErrorInvalidOperation("getUniformLocation: `program` must be linked."); return nullptr; } const NS_LossyConvertUTF16toASCII userName(userName_wide); nsDependentCString baseUserName; bool isArray = false; // GLES 2.0.25, Section 2.10, p35 // If the the uniform location is an array, then the location of the first // element of that array can be retrieved by either using the name of the // uniform array, or the name of the uniform array appended with "[0]". // The ParseName() can't recognize this rule. So always initialize // arrayIndex with 0. size_t arrayIndex = 0; if (!ParseName(userName, &baseUserName, &isArray, &arrayIndex)) return nullptr; const WebGLActiveInfo* activeInfo; if (!LinkInfo()->FindUniform(baseUserName, &activeInfo)) return nullptr; const nsCString& baseMappedName = activeInfo->mBaseMappedName; nsAutoCString mappedName(baseMappedName); if (isArray) { mappedName.AppendLiteral("["); mappedName.AppendInt(uint32_t(arrayIndex)); mappedName.AppendLiteral("]"); } gl::GLContext* gl = mContext->GL(); gl->MakeCurrent(); GLint loc = gl->fGetUniformLocation(mGLName, mappedName.BeginReading()); if (loc == -1) return nullptr; RefPtr locObj = new WebGLUniformLocation(mContext, LinkInfo(), loc, arrayIndex, activeInfo); return locObj.forget(); } void WebGLProgram::GetUniformIndices(const dom::Sequence& uniformNames, dom::Nullable< nsTArray >& retval) const { size_t count = uniformNames.Length(); nsTArray& arr = retval.SetValue(); gl::GLContext* gl = mContext->GL(); gl->MakeCurrent(); for (size_t i = 0; i < count; i++) { const NS_LossyConvertUTF16toASCII userName(uniformNames[i]); nsDependentCString baseUserName; bool isArray; size_t arrayIndex; if (!ParseName(userName, &baseUserName, &isArray, &arrayIndex)) { arr.AppendElement(LOCAL_GL_INVALID_INDEX); continue; } const WebGLActiveInfo* activeInfo; if (!LinkInfo()->FindUniform(baseUserName, &activeInfo)) { arr.AppendElement(LOCAL_GL_INVALID_INDEX); continue; } const nsCString& baseMappedName = activeInfo->mBaseMappedName; nsAutoCString mappedName(baseMappedName); if (isArray) { mappedName.AppendLiteral("["); mappedName.AppendInt(uint32_t(arrayIndex)); mappedName.AppendLiteral("]"); } const GLchar* mappedNameBytes = mappedName.BeginReading(); GLuint index = 0; gl->fGetUniformIndices(mGLName, 1, &mappedNameBytes, &index); arr.AppendElement(index); } } void WebGLProgram::UniformBlockBinding(GLuint uniformBlockIndex, GLuint uniformBlockBinding) const { if (!IsLinked()) { mContext->ErrorInvalidOperation("getActiveUniformBlockName: `program` must be linked."); return; } const webgl::LinkedProgramInfo* linkInfo = LinkInfo(); GLuint uniformBlockCount = (GLuint)linkInfo->uniformBlocks.size(); if (uniformBlockIndex >= uniformBlockCount) { mContext->ErrorInvalidValue("getActiveUniformBlockName: index %u invalid.", uniformBlockIndex); return; } if (uniformBlockBinding > mContext->mGLMaxUniformBufferBindings) { mContext->ErrorInvalidEnum("getActiveUniformBlockName: binding %u invalid.", uniformBlockBinding); return; } gl::GLContext* gl = mContext->GL(); gl->MakeCurrent(); gl->fUniformBlockBinding(mGLName, uniformBlockIndex, uniformBlockBinding); } bool WebGLProgram::LinkProgram() { mContext->InvalidateBufferFetching(); // we do it early in this function // as some of the validation below changes program state mLinkLog.Truncate(); mMostRecentLinkInfo = nullptr; if (!mVertShader || !mVertShader->IsCompiled()) { mLinkLog.AssignLiteral("Must have a compiled vertex shader attached."); mContext->GenerateWarning("linkProgram: %s", mLinkLog.BeginReading()); return false; } if (!mFragShader || !mFragShader->IsCompiled()) { mLinkLog.AssignLiteral("Must have an compiled fragment shader attached."); mContext->GenerateWarning("linkProgram: %s", mLinkLog.BeginReading()); return false; } if (!mFragShader->CanLinkTo(mVertShader, &mLinkLog)) { mContext->GenerateWarning("linkProgram: %s", mLinkLog.BeginReading()); return false; } gl::GLContext* gl = mContext->gl; gl->MakeCurrent(); if (gl->WorkAroundDriverBugs() && mContext->mIsMesa) { // Bug 777028: Mesa can't handle more than 16 samplers per program, // counting each array entry. size_t numSamplerUniforms_upperBound = mVertShader->CalcNumSamplerUniforms() + mFragShader->CalcNumSamplerUniforms(); if (numSamplerUniforms_upperBound > 16) { mLinkLog.AssignLiteral("Programs with more than 16 samplers are disallowed on" " Mesa drivers to avoid crashing."); mContext->GenerateWarning("linkProgram: %s", mLinkLog.BeginReading()); return false; } // Bug 1203135: Mesa crashes internally if we exceed the reported maximum attribute count. if (mVertShader->NumAttributes() > mContext->MaxVertexAttribs()) { mLinkLog.AssignLiteral("Number of attributes exceeds Mesa's reported max attribute count."); mContext->GenerateWarning("linkProgram: %s", mLinkLog.BeginReading()); return false; } } // Bind the attrib locations. // This can't be done trivially, because we have to deal with mapped attrib names. for (auto itr = mBoundAttribLocs.begin(); itr != mBoundAttribLocs.end(); ++itr) { const nsCString& name = itr->first; GLuint index = itr->second; mVertShader->BindAttribLocation(mGLName, name, index); } if (!mTransformFeedbackVaryings.empty()) { // Bind the transform feedback varyings. // This can't be done trivially, because we have to deal with mapped names too. mVertShader->ApplyTransformFeedbackVaryings(mGLName, mTransformFeedbackVaryings, mTransformFeedbackBufferMode, &mTempMappedVaryings); } if (LinkAndUpdate()) return true; // Failed link. if (mContext->ShouldGenerateWarnings()) { // report shader/program infoLogs as warnings. // note that shader compilation errors can be deferred to linkProgram, // which is why we can't do anything in compileShader. In practice we could // report in compileShader the translation errors generated by ANGLE, // but it seems saner to keep a single way of obtaining shader infologs. if (!mLinkLog.IsEmpty()) { mContext->GenerateWarning("linkProgram: Failed to link, leaving the following" " log:\n%s\n", mLinkLog.BeginReading()); } } return false; } bool WebGLProgram::UseProgram() const { if (!mMostRecentLinkInfo) { mContext->ErrorInvalidOperation("useProgram: Program has not been successfully" " linked."); return false; } mContext->MakeContextCurrent(); mContext->InvalidateBufferFetching(); mContext->gl->fUseProgram(mGLName); return true; } void WebGLProgram::ValidateProgram() const { mContext->MakeContextCurrent(); gl::GLContext* gl = mContext->gl; #ifdef XP_MACOSX // See bug 593867 for NVIDIA and bug 657201 for ATI. The latter is confirmed // with Mac OS 10.6.7. if (gl->WorkAroundDriverBugs()) { mContext->GenerateWarning("validateProgram: Implemented as a no-op on" " Mac to work around crashes."); return; } #endif gl->fValidateProgram(mGLName); } //////////////////////////////////////////////////////////////////////////////// bool WebGLProgram::LinkAndUpdate() { mMostRecentLinkInfo = nullptr; gl::GLContext* gl = mContext->gl; gl->fLinkProgram(mGLName); // Grab the program log. GLuint logLenWithNull = 0; gl->fGetProgramiv(mGLName, LOCAL_GL_INFO_LOG_LENGTH, (GLint*)&logLenWithNull); if (logLenWithNull > 1) { mLinkLog.SetLength(logLenWithNull - 1); gl->fGetProgramInfoLog(mGLName, logLenWithNull, nullptr, mLinkLog.BeginWriting()); } else { mLinkLog.SetLength(0); } // Post link, temporary mapped varying names for transform feedback can be discarded. // The memory can only be deleted after log is queried or the link status will fail. std::vector empty; empty.swap(mTempMappedVaryings); GLint ok = 0; gl->fGetProgramiv(mGLName, LOCAL_GL_LINK_STATUS, &ok); if (!ok) return false; mMostRecentLinkInfo = QueryProgramInfo(this, gl); MOZ_ASSERT(mMostRecentLinkInfo); if (!mMostRecentLinkInfo) mLinkLog.AssignLiteral("Failed to gather program info."); return mMostRecentLinkInfo; } bool WebGLProgram::FindAttribUserNameByMappedName(const nsACString& mappedName, nsDependentCString* const out_userName) const { if (mVertShader->FindAttribUserNameByMappedName(mappedName, out_userName)) return true; return false; } bool WebGLProgram::FindVaryingByMappedName(const nsACString& mappedName, nsCString* const out_userName, bool* const out_isArray) const { if (mVertShader->FindVaryingByMappedName(mappedName, out_userName, out_isArray)) return true; return false; } bool WebGLProgram::FindUniformByMappedName(const nsACString& mappedName, nsCString* const out_userName, bool* const out_isArray) const { if (mVertShader->FindUniformByMappedName(mappedName, out_userName, out_isArray)) return true; if (mFragShader->FindUniformByMappedName(mappedName, out_userName, out_isArray)) return true; return false; } void WebGLProgram::TransformFeedbackVaryings(const dom::Sequence& varyings, GLenum bufferMode) { if (bufferMode != LOCAL_GL_INTERLEAVED_ATTRIBS && bufferMode != LOCAL_GL_SEPARATE_ATTRIBS) { mContext->ErrorInvalidEnum("transformFeedbackVaryings: `bufferMode` %s is " "invalid. Must be one of gl.INTERLEAVED_ATTRIBS or " "gl.SEPARATE_ATTRIBS.", mContext->EnumName(bufferMode)); return; } size_t varyingsCount = varyings.Length(); if (bufferMode == LOCAL_GL_SEPARATE_ATTRIBS && varyingsCount >= mContext->mGLMaxTransformFeedbackSeparateAttribs) { mContext->ErrorInvalidValue("transformFeedbackVaryings: Number of `varyings` exc" "eeds gl.MAX_TRANSFORM_FEEDBACK_SEPARATE_ATTRIBS."); return; } std::vector asciiVaryings; for (size_t i = 0; i < varyingsCount; i++) { if (!ValidateGLSLVariableName(varyings[i], mContext, "transformFeedbackVaryings")) return; NS_LossyConvertUTF16toASCII asciiName(varyings[i]); asciiVaryings.push_back(asciiName); } // All validated. Translate the strings and store them until // program linking. mTransformFeedbackBufferMode = bufferMode; mTransformFeedbackVaryings.swap(asciiVaryings); } already_AddRefed WebGLProgram::GetTransformFeedbackVarying(GLuint index) { // No docs in the WebGL 2 spec for this function. Taking the language for // getActiveAttrib, which states that the function returns null on any error. if (!IsLinked()) { mContext->ErrorInvalidOperation("getTransformFeedbackVarying: `program` must be " "linked."); return nullptr; } if (index >= LinkInfo()->transformFeedbackVaryings.size()) { mContext->ErrorInvalidValue("getTransformFeedbackVarying: `index` is greater or " "equal to TRANSFORM_FEEDBACK_VARYINGS."); return nullptr; } RefPtr ret = LinkInfo()->transformFeedbackVaryings[index]; return ret.forget(); } bool WebGLProgram::FindUniformBlockByMappedName(const nsACString& mappedName, nsCString* const out_userName, bool* const out_isArray) const { if (mVertShader->FindUniformBlockByMappedName(mappedName, out_userName, out_isArray)) return true; if (mFragShader->FindUniformBlockByMappedName(mappedName, out_userName, out_isArray)) return true; return false; } //////////////////////////////////////////////////////////////////////////////// JSObject* WebGLProgram::WrapObject(JSContext* js, JS::Handle givenProto) { return dom::WebGLProgramBinding::Wrap(js, this, givenProto); } NS_IMPL_CYCLE_COLLECTION_WRAPPERCACHE(WebGLProgram, mVertShader, mFragShader) NS_IMPL_CYCLE_COLLECTION_ROOT_NATIVE(WebGLProgram, AddRef) NS_IMPL_CYCLE_COLLECTION_UNROOT_NATIVE(WebGLProgram, Release) } // namespace mozilla