blob: 43864d3b707bc35a79559ca7c74d61d25fc7d1cd [file] [log] [blame]
// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "cc/ipc/cc_param_traits.h"
#include <stddef.h>
#include <utility>
#include "base/numerics/safe_conversions.h"
#include "base/time/time.h"
#include "cc/output/compositor_frame.h"
#include "cc/output/filter_operations.h"
#include "cc/quads/debug_border_draw_quad.h"
#include "cc/quads/draw_quad.h"
#include "cc/quads/largest_draw_quad.h"
#include "cc/quads/render_pass_draw_quad.h"
#include "cc/quads/solid_color_draw_quad.h"
#include "cc/quads/surface_draw_quad.h"
#include "cc/quads/tile_draw_quad.h"
#include "cc/quads/yuv_video_draw_quad.h"
#include "cc/surfaces/surface_id.h"
#include "third_party/skia/include/core/SkData.h"
#include "third_party/skia/include/core/SkFlattenableSerialization.h"
#include "third_party/skia/include/core/SkImageFilter.h"
#include "third_party/skia/include/core/SkRefCnt.h"
#include "ui/gfx/ipc/geometry/gfx_param_traits.h"
#include "ui/gfx/ipc/skia/gfx_skia_param_traits.h"
namespace IPC {
void ParamTraits<cc::FilterOperation>::GetSize(base::PickleSizer* s,
const param_type& p) {
GetParamSize(s, p.type());
switch (p.type()) {
case cc::FilterOperation::GRAYSCALE:
case cc::FilterOperation::SEPIA:
case cc::FilterOperation::SATURATE:
case cc::FilterOperation::HUE_ROTATE:
case cc::FilterOperation::INVERT:
case cc::FilterOperation::BRIGHTNESS:
case cc::FilterOperation::SATURATING_BRIGHTNESS:
case cc::FilterOperation::CONTRAST:
case cc::FilterOperation::OPACITY:
case cc::FilterOperation::BLUR:
GetParamSize(s, p.amount());
break;
case cc::FilterOperation::DROP_SHADOW:
GetParamSize(s, p.drop_shadow_offset());
GetParamSize(s, p.amount());
GetParamSize(s, p.drop_shadow_color());
break;
case cc::FilterOperation::COLOR_MATRIX:
for (int i = 0; i < 20; ++i)
GetParamSize(s, p.matrix()[i]);
break;
case cc::FilterOperation::ZOOM:
GetParamSize(s, p.amount());
GetParamSize(s, p.zoom_inset());
break;
case cc::FilterOperation::REFERENCE:
GetParamSize(s, p.image_filter());
break;
case cc::FilterOperation::ALPHA_THRESHOLD:
NOTREACHED();
break;
}
}
void ParamTraits<cc::FilterOperation>::Write(base::Pickle* m,
const param_type& p) {
WriteParam(m, p.type());
switch (p.type()) {
case cc::FilterOperation::GRAYSCALE:
case cc::FilterOperation::SEPIA:
case cc::FilterOperation::SATURATE:
case cc::FilterOperation::HUE_ROTATE:
case cc::FilterOperation::INVERT:
case cc::FilterOperation::BRIGHTNESS:
case cc::FilterOperation::SATURATING_BRIGHTNESS:
case cc::FilterOperation::CONTRAST:
case cc::FilterOperation::OPACITY:
case cc::FilterOperation::BLUR:
WriteParam(m, p.amount());
break;
case cc::FilterOperation::DROP_SHADOW:
WriteParam(m, p.drop_shadow_offset());
WriteParam(m, p.amount());
WriteParam(m, p.drop_shadow_color());
break;
case cc::FilterOperation::COLOR_MATRIX:
for (int i = 0; i < 20; ++i)
WriteParam(m, p.matrix()[i]);
break;
case cc::FilterOperation::ZOOM:
WriteParam(m, p.amount());
WriteParam(m, p.zoom_inset());
break;
case cc::FilterOperation::REFERENCE:
WriteParam(m, p.image_filter());
break;
case cc::FilterOperation::ALPHA_THRESHOLD:
NOTREACHED();
break;
}
}
bool ParamTraits<cc::FilterOperation>::Read(const base::Pickle* m,
base::PickleIterator* iter,
param_type* r) {
cc::FilterOperation::FilterType type;
float amount;
gfx::Point drop_shadow_offset;
SkColor drop_shadow_color;
SkScalar matrix[20];
int zoom_inset;
if (!ReadParam(m, iter, &type))
return false;
r->set_type(type);
bool success = false;
switch (type) {
case cc::FilterOperation::GRAYSCALE:
case cc::FilterOperation::SEPIA:
case cc::FilterOperation::SATURATE:
case cc::FilterOperation::HUE_ROTATE:
case cc::FilterOperation::INVERT:
case cc::FilterOperation::BRIGHTNESS:
case cc::FilterOperation::SATURATING_BRIGHTNESS:
case cc::FilterOperation::CONTRAST:
case cc::FilterOperation::OPACITY:
case cc::FilterOperation::BLUR:
if (ReadParam(m, iter, &amount)) {
r->set_amount(amount);
success = true;
}
break;
case cc::FilterOperation::DROP_SHADOW:
if (ReadParam(m, iter, &drop_shadow_offset) &&
ReadParam(m, iter, &amount) &&
ReadParam(m, iter, &drop_shadow_color)) {
r->set_drop_shadow_offset(drop_shadow_offset);
r->set_amount(amount);
r->set_drop_shadow_color(drop_shadow_color);
success = true;
}
break;
case cc::FilterOperation::COLOR_MATRIX: {
int i;
for (i = 0; i < 20; ++i) {
if (!ReadParam(m, iter, &matrix[i]))
break;
}
if (i == 20) {
r->set_matrix(matrix);
success = true;
}
break;
}
case cc::FilterOperation::ZOOM:
if (ReadParam(m, iter, &amount) && ReadParam(m, iter, &zoom_inset) &&
amount >= 0.f && zoom_inset >= 0) {
r->set_amount(amount);
r->set_zoom_inset(zoom_inset);
success = true;
}
break;
case cc::FilterOperation::REFERENCE: {
sk_sp<SkImageFilter> filter;
if (!ReadParam(m, iter, &filter)) {
success = false;
break;
}
r->set_image_filter(std::move(filter));
success = true;
break;
}
case cc::FilterOperation::ALPHA_THRESHOLD:
break;
}
return success;
}
void ParamTraits<cc::FilterOperation>::Log(const param_type& p,
std::string* l) {
l->append("(");
LogParam(static_cast<unsigned>(p.type()), l);
l->append(", ");
switch (p.type()) {
case cc::FilterOperation::GRAYSCALE:
case cc::FilterOperation::SEPIA:
case cc::FilterOperation::SATURATE:
case cc::FilterOperation::HUE_ROTATE:
case cc::FilterOperation::INVERT:
case cc::FilterOperation::BRIGHTNESS:
case cc::FilterOperation::SATURATING_BRIGHTNESS:
case cc::FilterOperation::CONTRAST:
case cc::FilterOperation::OPACITY:
case cc::FilterOperation::BLUR:
LogParam(p.amount(), l);
break;
case cc::FilterOperation::DROP_SHADOW:
LogParam(p.drop_shadow_offset(), l);
l->append(", ");
LogParam(p.amount(), l);
l->append(", ");
LogParam(p.drop_shadow_color(), l);
break;
case cc::FilterOperation::COLOR_MATRIX:
for (int i = 0; i < 20; ++i) {
if (i)
l->append(", ");
LogParam(p.matrix()[i], l);
}
break;
case cc::FilterOperation::ZOOM:
LogParam(p.amount(), l);
l->append(", ");
LogParam(p.zoom_inset(), l);
break;
case cc::FilterOperation::REFERENCE:
LogParam(p.image_filter(), l);
break;
case cc::FilterOperation::ALPHA_THRESHOLD:
NOTREACHED();
break;
}
l->append(")");
}
void ParamTraits<cc::FilterOperations>::GetSize(base::PickleSizer* s,
const param_type& p) {
GetParamSize(s, base::checked_cast<uint32_t>(p.size()));
for (std::size_t i = 0; i < p.size(); ++i) {
GetParamSize(s, p.at(i));
}
}
void ParamTraits<cc::FilterOperations>::Write(base::Pickle* m,
const param_type& p) {
WriteParam(m, base::checked_cast<uint32_t>(p.size()));
for (std::size_t i = 0; i < p.size(); ++i) {
WriteParam(m, p.at(i));
}
}
bool ParamTraits<cc::FilterOperations>::Read(const base::Pickle* m,
base::PickleIterator* iter,
param_type* r) {
uint32_t count;
if (!ReadParam(m, iter, &count))
return false;
for (std::size_t i = 0; i < count; ++i) {
cc::FilterOperation op = cc::FilterOperation::CreateEmptyFilter();
if (!ReadParam(m, iter, &op))
return false;
r->Append(op);
}
return true;
}
void ParamTraits<cc::FilterOperations>::Log(const param_type& p,
std::string* l) {
l->append("(");
for (std::size_t i = 0; i < p.size(); ++i) {
if (i)
l->append(", ");
LogParam(p.at(i), l);
}
l->append(")");
}
void ParamTraits<sk_sp<SkImageFilter>>::GetSize(base::PickleSizer* s,
const param_type& p) {
SkImageFilter* filter = p.get();
if (filter) {
sk_sp<SkData> data(SkValidatingSerializeFlattenable(filter));
s->AddData(base::checked_cast<int>(data->size()));
} else {
s->AddData(0);
}
}
void ParamTraits<sk_sp<SkImageFilter>>::Write(base::Pickle* m,
const param_type& p) {
SkImageFilter* filter = p.get();
if (filter) {
sk_sp<SkData> data(SkValidatingSerializeFlattenable(filter));
m->WriteData(static_cast<const char*>(data->data()),
base::checked_cast<int>(data->size()));
} else {
m->WriteData(0, 0);
}
}
bool ParamTraits<sk_sp<SkImageFilter>>::Read(const base::Pickle* m,
base::PickleIterator* iter,
param_type* r) {
const char* data = 0;
int length = 0;
if (!iter->ReadData(&data, &length))
return false;
if (length > 0) {
SkFlattenable* flattenable = SkValidatingDeserializeFlattenable(
data, length, SkImageFilter::GetFlattenableType());
*r = sk_sp<SkImageFilter>(static_cast<SkImageFilter*>(flattenable));
} else {
r->reset();
}
return true;
}
void ParamTraits<sk_sp<SkImageFilter>>::Log(const param_type& p,
std::string* l) {
l->append("(");
LogParam(p.get() ? p->countInputs() : 0, l);
l->append(")");
}
void ParamTraits<cc::RenderPass>::Write(base::Pickle* m, const param_type& p) {
WriteParam(m, p.id);
WriteParam(m, p.output_rect);
WriteParam(m, p.damage_rect);
WriteParam(m, p.transform_to_root_target);
WriteParam(m, p.has_transparent_background);
WriteParam(m, base::checked_cast<uint32_t>(p.quad_list.size()));
cc::SharedQuadStateList::ConstIterator shared_quad_state_iter =
p.shared_quad_state_list.begin();
cc::SharedQuadStateList::ConstIterator last_shared_quad_state_iter =
p.shared_quad_state_list.end();
for (const auto& quad : p.quad_list) {
DCHECK(quad->rect.Contains(quad->visible_rect))
<< quad->material << " rect: " << quad->rect.ToString()
<< " visible_rect: " << quad->visible_rect.ToString();
DCHECK(quad->opaque_rect.IsEmpty() ||
quad->rect.Contains(quad->opaque_rect))
<< quad->material << " rect: " << quad->rect.ToString()
<< " opaque_rect: " << quad->opaque_rect.ToString();
switch (quad->material) {
case cc::DrawQuad::DEBUG_BORDER:
WriteParam(m, *cc::DebugBorderDrawQuad::MaterialCast(quad));
break;
case cc::DrawQuad::PICTURE_CONTENT:
NOTREACHED();
break;
case cc::DrawQuad::TEXTURE_CONTENT:
WriteParam(m, *cc::TextureDrawQuad::MaterialCast(quad));
break;
case cc::DrawQuad::RENDER_PASS:
WriteParam(m, *cc::RenderPassDrawQuad::MaterialCast(quad));
break;
case cc::DrawQuad::SOLID_COLOR:
WriteParam(m, *cc::SolidColorDrawQuad::MaterialCast(quad));
break;
case cc::DrawQuad::SURFACE_CONTENT:
WriteParam(m, *cc::SurfaceDrawQuad::MaterialCast(quad));
break;
case cc::DrawQuad::TILED_CONTENT:
WriteParam(m, *cc::TileDrawQuad::MaterialCast(quad));
break;
case cc::DrawQuad::STREAM_VIDEO_CONTENT:
WriteParam(m, *cc::StreamVideoDrawQuad::MaterialCast(quad));
break;
case cc::DrawQuad::YUV_VIDEO_CONTENT:
WriteParam(m, *cc::YUVVideoDrawQuad::MaterialCast(quad));
break;
case cc::DrawQuad::INVALID:
break;
}
// Null shared quad states should not occur.
DCHECK(quad->shared_quad_state);
// SharedQuadStates should appear in the order they are used by DrawQuads.
// Find the SharedQuadState for this DrawQuad.
while (shared_quad_state_iter != p.shared_quad_state_list.end() &&
quad->shared_quad_state != *shared_quad_state_iter)
++shared_quad_state_iter;
DCHECK(shared_quad_state_iter != p.shared_quad_state_list.end());
if (shared_quad_state_iter != last_shared_quad_state_iter) {
WriteParam(m, true);
WriteParam(m, **shared_quad_state_iter);
last_shared_quad_state_iter = shared_quad_state_iter;
} else {
WriteParam(m, false);
}
}
}
static size_t ReserveSizeForRenderPassWrite(const cc::RenderPass& p) {
size_t to_reserve = sizeof(cc::RenderPass);
// Whether the quad points to a new shared quad state for each quad.
to_reserve += p.quad_list.size() * sizeof(bool);
// Shared quad state is only written when a quad contains a shared quad state
// that has not been written.
to_reserve += p.shared_quad_state_list.size() * sizeof(cc::SharedQuadState);
// The largest quad type, verified by a unit test.
to_reserve += p.quad_list.size() * cc::LargestDrawQuadSize();
return to_reserve;
}
template <typename QuadType>
static cc::DrawQuad* ReadDrawQuad(const base::Pickle* m,
base::PickleIterator* iter,
cc::RenderPass* render_pass) {
QuadType* quad = render_pass->CreateAndAppendDrawQuad<QuadType>();
if (!ReadParam(m, iter, quad))
return NULL;
return quad;
}
bool ParamTraits<cc::RenderPass>::Read(const base::Pickle* m,
base::PickleIterator* iter,
param_type* p) {
cc::RenderPassId id;
gfx::Rect output_rect;
gfx::Rect damage_rect;
gfx::Transform transform_to_root_target;
bool has_transparent_background;
uint32_t quad_list_size;
if (!ReadParam(m, iter, &id) || !ReadParam(m, iter, &output_rect) ||
!ReadParam(m, iter, &damage_rect) ||
!ReadParam(m, iter, &transform_to_root_target) ||
!ReadParam(m, iter, &has_transparent_background) ||
!ReadParam(m, iter, &quad_list_size))
return false;
p->SetAll(id, output_rect, damage_rect, transform_to_root_target,
has_transparent_background);
for (uint32_t i = 0; i < quad_list_size; ++i) {
cc::DrawQuad::Material material;
base::PickleIterator temp_iter = *iter;
if (!ReadParam(m, &temp_iter, &material))
return false;
cc::DrawQuad* draw_quad = NULL;
switch (material) {
case cc::DrawQuad::DEBUG_BORDER:
draw_quad = ReadDrawQuad<cc::DebugBorderDrawQuad>(m, iter, p);
break;
case cc::DrawQuad::PICTURE_CONTENT:
NOTREACHED();
return false;
case cc::DrawQuad::SURFACE_CONTENT:
draw_quad = ReadDrawQuad<cc::SurfaceDrawQuad>(m, iter, p);
break;
case cc::DrawQuad::TEXTURE_CONTENT:
draw_quad = ReadDrawQuad<cc::TextureDrawQuad>(m, iter, p);
break;
case cc::DrawQuad::RENDER_PASS:
draw_quad = ReadDrawQuad<cc::RenderPassDrawQuad>(m, iter, p);
break;
case cc::DrawQuad::SOLID_COLOR:
draw_quad = ReadDrawQuad<cc::SolidColorDrawQuad>(m, iter, p);
break;
case cc::DrawQuad::TILED_CONTENT:
draw_quad = ReadDrawQuad<cc::TileDrawQuad>(m, iter, p);
break;
case cc::DrawQuad::STREAM_VIDEO_CONTENT:
draw_quad = ReadDrawQuad<cc::StreamVideoDrawQuad>(m, iter, p);
break;
case cc::DrawQuad::YUV_VIDEO_CONTENT:
draw_quad = ReadDrawQuad<cc::YUVVideoDrawQuad>(m, iter, p);
break;
case cc::DrawQuad::INVALID:
break;
}
if (!draw_quad)
return false;
if (!draw_quad->rect.Contains(draw_quad->visible_rect)) {
LOG(ERROR) << "Quad with invalid visible rect " << draw_quad->material
<< " rect: " << draw_quad->rect.ToString()
<< " visible_rect: " << draw_quad->visible_rect.ToString();
return false;
}
if (!draw_quad->opaque_rect.IsEmpty() &&
!draw_quad->rect.Contains(draw_quad->opaque_rect)) {
LOG(ERROR) << "Quad with invalid opaque rect " << draw_quad->material
<< " rect: " << draw_quad->rect.ToString()
<< " opaque_rect: " << draw_quad->opaque_rect.ToString();
return false;
}
bool has_new_shared_quad_state;
if (!ReadParam(m, iter, &has_new_shared_quad_state))
return false;
// If the quad has a new shared quad state, read it in.
if (has_new_shared_quad_state) {
cc::SharedQuadState* state = p->CreateAndAppendSharedQuadState();
if (!ReadParam(m, iter, state))
return false;
}
draw_quad->shared_quad_state = p->shared_quad_state_list.back();
}
return true;
}
void ParamTraits<cc::RenderPass>::Log(const param_type& p, std::string* l) {
l->append("RenderPass((");
LogParam(p.id, l);
l->append("), ");
LogParam(p.output_rect, l);
l->append(", ");
LogParam(p.damage_rect, l);
l->append(", ");
LogParam(p.transform_to_root_target, l);
l->append(", ");
LogParam(p.has_transparent_background, l);
l->append(", ");
l->append("[");
for (const auto& shared_quad_state : p.shared_quad_state_list) {
if (shared_quad_state != p.shared_quad_state_list.front())
l->append(", ");
LogParam(*shared_quad_state, l);
}
l->append("], [");
for (const auto& quad : p.quad_list) {
if (quad != p.quad_list.front())
l->append(", ");
switch (quad->material) {
case cc::DrawQuad::DEBUG_BORDER:
LogParam(*cc::DebugBorderDrawQuad::MaterialCast(quad), l);
break;
case cc::DrawQuad::PICTURE_CONTENT:
NOTREACHED();
break;
case cc::DrawQuad::TEXTURE_CONTENT:
LogParam(*cc::TextureDrawQuad::MaterialCast(quad), l);
break;
case cc::DrawQuad::RENDER_PASS:
LogParam(*cc::RenderPassDrawQuad::MaterialCast(quad), l);
break;
case cc::DrawQuad::SOLID_COLOR:
LogParam(*cc::SolidColorDrawQuad::MaterialCast(quad), l);
break;
case cc::DrawQuad::SURFACE_CONTENT:
LogParam(*cc::SurfaceDrawQuad::MaterialCast(quad), l);
break;
case cc::DrawQuad::TILED_CONTENT:
LogParam(*cc::TileDrawQuad::MaterialCast(quad), l);
break;
case cc::DrawQuad::STREAM_VIDEO_CONTENT:
LogParam(*cc::StreamVideoDrawQuad::MaterialCast(quad), l);
break;
case cc::DrawQuad::YUV_VIDEO_CONTENT:
LogParam(*cc::YUVVideoDrawQuad::MaterialCast(quad), l);
break;
case cc::DrawQuad::INVALID:
break;
}
}
l->append("])");
}
void ParamTraits<cc::SurfaceId>::GetSize(base::PickleSizer* s,
const param_type& p) {
GetParamSize(s, p.id_namespace());
GetParamSize(s, p.local_id());
GetParamSize(s, p.nonce());
}
void ParamTraits<cc::SurfaceId>::Write(base::Pickle* m, const param_type& p) {
WriteParam(m, p.id_namespace());
WriteParam(m, p.local_id());
WriteParam(m, p.nonce());
}
bool ParamTraits<cc::SurfaceId>::Read(const base::Pickle* m,
base::PickleIterator* iter,
param_type* p) {
uint32_t id_namespace;
if (!ReadParam(m, iter, &id_namespace))
return false;
uint32_t local_id;
if (!ReadParam(m, iter, &local_id))
return false;
uint64_t nonce;
if (!ReadParam(m, iter, &nonce))
return false;
*p = cc::SurfaceId(id_namespace, local_id, nonce);
return true;
}
void ParamTraits<cc::SurfaceId>::Log(const param_type& p, std::string* l) {
l->append("SurfaceId(");
LogParam(p.id_namespace(), l);
l->append(", ");
LogParam(p.local_id(), l);
l->append(", ");
LogParam(p.nonce(), l);
l->append(")");
}
namespace {
enum CompositorFrameType {
NO_FRAME,
DELEGATED_FRAME,
GL_FRAME,
};
}
void ParamTraits<cc::CompositorFrame>::Write(base::Pickle* m,
const param_type& p) {
WriteParam(m, p.metadata);
if (p.delegated_frame_data) {
DCHECK(!p.gl_frame_data);
WriteParam(m, static_cast<int>(DELEGATED_FRAME));
WriteParam(m, *p.delegated_frame_data);
} else if (p.gl_frame_data) {
WriteParam(m, static_cast<int>(GL_FRAME));
WriteParam(m, *p.gl_frame_data);
} else {
WriteParam(m, static_cast<int>(NO_FRAME));
}
}
bool ParamTraits<cc::CompositorFrame>::Read(const base::Pickle* m,
base::PickleIterator* iter,
param_type* p) {
if (!ReadParam(m, iter, &p->metadata))
return false;
int compositor_frame_type;
if (!ReadParam(m, iter, &compositor_frame_type))
return false;
switch (compositor_frame_type) {
case DELEGATED_FRAME:
p->delegated_frame_data.reset(new cc::DelegatedFrameData());
if (!ReadParam(m, iter, p->delegated_frame_data.get()))
return false;
break;
case GL_FRAME:
p->gl_frame_data.reset(new cc::GLFrameData());
if (!ReadParam(m, iter, p->gl_frame_data.get()))
return false;
break;
case NO_FRAME:
break;
default:
return false;
}
return true;
}
void ParamTraits<cc::CompositorFrame>::Log(const param_type& p,
std::string* l) {
l->append("CompositorFrame(");
LogParam(p.metadata, l);
l->append(", ");
if (p.delegated_frame_data)
LogParam(*p.delegated_frame_data, l);
else if (p.gl_frame_data)
LogParam(*p.gl_frame_data, l);
l->append(")");
}
void ParamTraits<cc::CompositorFrameAck>::Write(base::Pickle* m,
const param_type& p) {
WriteParam(m, p.resources);
if (p.gl_frame_data) {
WriteParam(m, static_cast<int>(GL_FRAME));
WriteParam(m, *p.gl_frame_data);
} else {
WriteParam(m, static_cast<int>(NO_FRAME));
}
}
bool ParamTraits<cc::CompositorFrameAck>::Read(const base::Pickle* m,
base::PickleIterator* iter,
param_type* p) {
if (!ReadParam(m, iter, &p->resources))
return false;
int compositor_frame_type;
if (!ReadParam(m, iter, &compositor_frame_type))
return false;
switch (compositor_frame_type) {
case NO_FRAME:
break;
case GL_FRAME:
p->gl_frame_data.reset(new cc::GLFrameData());
if (!ReadParam(m, iter, p->gl_frame_data.get()))
return false;
break;
default:
return false;
}
return true;
}
void ParamTraits<cc::CompositorFrameAck>::Log(const param_type& p,
std::string* l) {
l->append("CompositorFrameAck(");
LogParam(p.resources, l);
l->append(", ");
if (p.gl_frame_data)
LogParam(*p.gl_frame_data, l);
l->append(")");
}
void ParamTraits<cc::DelegatedFrameData>::Write(base::Pickle* m,
const param_type& p) {
DCHECK_NE(0u, p.render_pass_list.size());
size_t to_reserve = 0u;
to_reserve += p.resource_list.size() * sizeof(cc::TransferableResource);
for (const auto& pass : p.render_pass_list) {
to_reserve += sizeof(size_t) * 2;
to_reserve += ReserveSizeForRenderPassWrite(*pass);
}
m->Reserve(to_reserve);
WriteParam(m, p.resource_list);
WriteParam(m, base::checked_cast<uint32_t>(p.render_pass_list.size()));
for (const auto& pass : p.render_pass_list) {
WriteParam(m, base::checked_cast<uint32_t>(pass->quad_list.size()));
WriteParam(
m, base::checked_cast<uint32_t>(pass->shared_quad_state_list.size()));
WriteParam(m, *pass);
}
}
bool ParamTraits<cc::DelegatedFrameData>::Read(const base::Pickle* m,
base::PickleIterator* iter,
param_type* p) {
const size_t kMaxRenderPasses = 10000;
const size_t kMaxSharedQuadStateListSize = 100000;
const size_t kMaxQuadListSize = 1000000;
std::set<cc::RenderPassId> pass_set;
uint32_t num_render_passes;
if (!ReadParam(m, iter, &p->resource_list) ||
!ReadParam(m, iter, &num_render_passes) ||
num_render_passes > kMaxRenderPasses || num_render_passes == 0)
return false;
for (uint32_t i = 0; i < num_render_passes; ++i) {
uint32_t quad_list_size;
uint32_t shared_quad_state_list_size;
if (!ReadParam(m, iter, &quad_list_size) ||
!ReadParam(m, iter, &shared_quad_state_list_size) ||
quad_list_size > kMaxQuadListSize ||
shared_quad_state_list_size > kMaxSharedQuadStateListSize)
return false;
std::unique_ptr<cc::RenderPass> render_pass =
cc::RenderPass::Create(static_cast<size_t>(shared_quad_state_list_size),
static_cast<size_t>(quad_list_size));
if (!ReadParam(m, iter, render_pass.get()))
return false;
// Validate that each RenderPassDrawQuad points at a valid RenderPass
// earlier in the frame.
for (const auto* quad : render_pass->quad_list) {
if (quad->material != cc::DrawQuad::RENDER_PASS)
continue;
const cc::RenderPassDrawQuad* rpdq =
cc::RenderPassDrawQuad::MaterialCast(quad);
if (!pass_set.count(rpdq->render_pass_id))
return false;
}
pass_set.insert(render_pass->id);
p->render_pass_list.push_back(std::move(render_pass));
}
return true;
}
void ParamTraits<cc::DelegatedFrameData>::Log(const param_type& p,
std::string* l) {
l->append("DelegatedFrameData(");
LogParam(p.resource_list, l);
l->append(", [");
for (size_t i = 0; i < p.render_pass_list.size(); ++i) {
if (i)
l->append(", ");
LogParam(*p.render_pass_list[i], l);
}
l->append("])");
}
void ParamTraits<cc::DrawQuad::Resources>::GetSize(base::PickleSizer* s,
const param_type& p) {
GetParamSize(s, p.count);
for (size_t i = 0; i < p.count; ++i)
GetParamSize(s, p.ids[i]);
}
void ParamTraits<cc::DrawQuad::Resources>::Write(base::Pickle* m,
const param_type& p) {
DCHECK_LE(p.count, cc::DrawQuad::Resources::kMaxResourceIdCount);
WriteParam(m, p.count);
for (size_t i = 0; i < p.count; ++i)
WriteParam(m, p.ids[i]);
}
bool ParamTraits<cc::DrawQuad::Resources>::Read(const base::Pickle* m,
base::PickleIterator* iter,
param_type* p) {
if (!ReadParam(m, iter, &p->count))
return false;
if (p->count > cc::DrawQuad::Resources::kMaxResourceIdCount)
return false;
for (size_t i = 0; i < p->count; ++i) {
if (!ReadParam(m, iter, &p->ids[i]))
return false;
}
return true;
}
void ParamTraits<cc::DrawQuad::Resources>::Log(const param_type& p,
std::string* l) {
l->append("DrawQuad::Resources(");
LogParam(p.count, l);
l->append(", [");
if (p.count > cc::DrawQuad::Resources::kMaxResourceIdCount) {
l->append("])");
return;
}
for (size_t i = 0; i < p.count; ++i) {
LogParam(p.ids[i], l);
if (i < (p.count - 1))
l->append(", ");
}
l->append("])");
}
void ParamTraits<cc::StreamVideoDrawQuad::OverlayResources>::GetSize(
base::PickleSizer* s,
const param_type& p) {
for (size_t i = 0; i < cc::DrawQuad::Resources::kMaxResourceIdCount; ++i) {
GetParamSize(s, p.size_in_pixels[i]);
}
}
void ParamTraits<cc::StreamVideoDrawQuad::OverlayResources>::Write(
base::Pickle* m,
const param_type& p) {
for (size_t i = 0; i < cc::DrawQuad::Resources::kMaxResourceIdCount; ++i) {
WriteParam(m, p.size_in_pixels[i]);
}
}
bool ParamTraits<cc::StreamVideoDrawQuad::OverlayResources>::Read(
const base::Pickle* m,
base::PickleIterator* iter,
param_type* p) {
for (size_t i = 0; i < cc::DrawQuad::Resources::kMaxResourceIdCount; ++i) {
if (!ReadParam(m, iter, &p->size_in_pixels[i]))
return false;
}
return true;
}
void ParamTraits<cc::StreamVideoDrawQuad::OverlayResources>::Log(
const param_type& p,
std::string* l) {
l->append("StreamVideoDrawQuad::OverlayResources([");
for (size_t i = 0; i < cc::DrawQuad::Resources::kMaxResourceIdCount; ++i) {
LogParam(p.size_in_pixels[i], l);
if (i < (cc::DrawQuad::Resources::kMaxResourceIdCount - 1))
l->append(", ");
}
l->append("])");
}
void ParamTraits<cc::TextureDrawQuad::OverlayResources>::GetSize(
base::PickleSizer* s,
const param_type& p) {
for (size_t i = 0; i < cc::DrawQuad::Resources::kMaxResourceIdCount; ++i) {
GetParamSize(s, p.size_in_pixels[i]);
}
}
void ParamTraits<cc::TextureDrawQuad::OverlayResources>::Write(
base::Pickle* m,
const param_type& p) {
for (size_t i = 0; i < cc::DrawQuad::Resources::kMaxResourceIdCount; ++i) {
WriteParam(m, p.size_in_pixels[i]);
}
}
bool ParamTraits<cc::TextureDrawQuad::OverlayResources>::Read(
const base::Pickle* m,
base::PickleIterator* iter,
param_type* p) {
for (size_t i = 0; i < cc::DrawQuad::Resources::kMaxResourceIdCount; ++i) {
if (!ReadParam(m, iter, &p->size_in_pixels[i]))
return false;
}
return true;
}
void ParamTraits<cc::TextureDrawQuad::OverlayResources>::Log(
const param_type& p,
std::string* l) {
l->append("TextureDrawQuad::OverlayResources([");
for (size_t i = 0; i < cc::DrawQuad::Resources::kMaxResourceIdCount; ++i) {
LogParam(p.size_in_pixels[i], l);
if (i < (cc::DrawQuad::Resources::kMaxResourceIdCount - 1))
l->append(", ");
}
l->append("])");
}
} // namespace IPC
// Generate param traits size methods.
#include "ipc/param_traits_size_macros.h"
namespace IPC {
#undef CC_IPC_CC_PARAM_TRAITS_MACROS_H_
#include "cc/ipc/cc_param_traits_macros.h"
}
// Generate param traits write methods.
#include "ipc/param_traits_write_macros.h"
namespace IPC {
#undef CC_IPC_CC_PARAM_TRAITS_MACROS_H_
#include "cc/ipc/cc_param_traits_macros.h"
} // namespace IPC
// Generate param traits read methods.
#include "ipc/param_traits_read_macros.h"
namespace IPC {
#undef CC_IPC_CC_PARAM_TRAITS_MACROS_H_
#include "cc/ipc/cc_param_traits_macros.h"
} // namespace IPC
// Generate param traits log methods.
#include "ipc/param_traits_log_macros.h"
namespace IPC {
#undef CC_IPC_CC_PARAM_TRAITS_MACROS_H_
#include "cc/ipc/cc_param_traits_macros.h"
} // namespace IPC