Remove |start| and |size| from buffer mapping

This is part of making buffer mapping match WebGPU

Bug: dawn:7
Change-Id: Ia97c872e398112aef0f93c98618c8a7f3ff0c19a
Reviewed-on: https://dawn-review.googlesource.com/c/4580
Commit-Queue: Austin Eng <enga@chromium.org>
Reviewed-by: Kai Ninomiya <kainino@chromium.org>
This commit is contained in:
Austin Eng 2019-02-14 19:31:17 +00:00 committed by Commit Bot service account
parent 1198270483
commit 1541c8ba7a
29 changed files with 375 additions and 472 deletions

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@ -164,21 +164,15 @@
] ]
}, },
{ {
"_comment": "Contrary to set sub data, this is in char size",
"name": "map read async", "name": "map read async",
"args": [ "args": [
{"name": "start", "type": "uint32_t"},
{"name": "size", "type": "uint32_t"},
{"name": "callback", "type": "buffer map read callback"}, {"name": "callback", "type": "buffer map read callback"},
{"name": "userdata", "type": "callback userdata"} {"name": "userdata", "type": "callback userdata"}
] ]
}, },
{ {
"_comment": "Contrary to set sub data, this is in char size",
"name": "map write async", "name": "map write async",
"args": [ "args": [
{"name": "start", "type": "uint32_t"},
{"name": "size", "type": "uint32_t"},
{"name": "callback", "type": "buffer map write callback"}, {"name": "callback", "type": "buffer map write callback"},
{"name": "userdata", "type": "callback userdata"} {"name": "userdata", "type": "callback userdata"}
] ]

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@ -18,8 +18,6 @@
"buffer map async": [ "buffer map async": [
{ "name": "buffer id", "type": "ObjectId" }, { "name": "buffer id", "type": "ObjectId" },
{ "name": "request serial", "type": "uint32_t" }, { "name": "request serial", "type": "uint32_t" },
{ "name": "start", "type": "uint32_t" },
{ "name": "size", "type": "uint32_t" },
{ "name": "is write", "type": "bool" } { "name": "is write", "type": "bool" }
], ],
"buffer update mapped data": [ "buffer update mapped data": [
@ -43,7 +41,8 @@
"buffer map write async callback": [ "buffer map write async callback": [
{ "name": "buffer", "type": "ObjectHandle", "handle_type": "buffer" }, { "name": "buffer", "type": "ObjectHandle", "handle_type": "buffer" },
{ "name": "request serial", "type": "uint32_t" }, { "name": "request serial", "type": "uint32_t" },
{ "name": "status", "type": "uint32_t" } { "name": "status", "type": "uint32_t" },
{ "name": "data length", "type": "uint32_t" }
], ],
"device error callback": [ "device error callback": [
{ "name": "message", "type": "char", "annotation": "const*", "length": "strlen" } { "name": "message", "type": "char", "annotation": "const*", "length": "strlen" }

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@ -51,8 +51,8 @@
typedef uint64_t dawnCallbackUserdata; typedef uint64_t dawnCallbackUserdata;
typedef void (*dawnDeviceErrorCallback)(const char* message, dawnCallbackUserdata userdata); typedef void (*dawnDeviceErrorCallback)(const char* message, dawnCallbackUserdata userdata);
typedef void (*dawnBuilderErrorCallback)(dawnBuilderErrorStatus status, const char* message, dawnCallbackUserdata userdata1, dawnCallbackUserdata userdata2); typedef void (*dawnBuilderErrorCallback)(dawnBuilderErrorStatus status, const char* message, dawnCallbackUserdata userdata1, dawnCallbackUserdata userdata2);
typedef void (*dawnBufferMapReadCallback)(dawnBufferMapAsyncStatus status, const void* data, dawnCallbackUserdata userdata); typedef void (*dawnBufferMapReadCallback)(dawnBufferMapAsyncStatus status, const void* data, uint32_t dataLength, dawnCallbackUserdata userdata);
typedef void (*dawnBufferMapWriteCallback)(dawnBufferMapAsyncStatus status, void* data, dawnCallbackUserdata userdata); typedef void (*dawnBufferMapWriteCallback)(dawnBufferMapAsyncStatus status, void* data, uint32_t dataLength, dawnCallbackUserdata userdata);
typedef void (*dawnFenceOnCompletionCallback)(dawnFenceCompletionStatus status, typedef void (*dawnFenceOnCompletionCallback)(dawnFenceCompletionStatus status,
dawnCallbackUserdata userdata); dawnCallbackUserdata userdata);

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@ -56,20 +56,20 @@ void ProcTableAsClass::DeviceSetErrorCallback(dawnDevice self, dawnDeviceErrorCa
OnDeviceSetErrorCallback(self, callback, userdata); OnDeviceSetErrorCallback(self, callback, userdata);
} }
void ProcTableAsClass::BufferMapReadAsync(dawnBuffer self, uint32_t start, uint32_t size, dawnBufferMapReadCallback callback, dawnCallbackUserdata userdata) { void ProcTableAsClass::BufferMapReadAsync(dawnBuffer self, dawnBufferMapReadCallback callback, dawnCallbackUserdata userdata) {
auto object = reinterpret_cast<ProcTableAsClass::Object*>(self); auto object = reinterpret_cast<ProcTableAsClass::Object*>(self);
object->mapReadCallback = callback; object->mapReadCallback = callback;
object->userdata1 = userdata; object->userdata1 = userdata;
OnBufferMapReadAsyncCallback(self, start, size, callback, userdata); OnBufferMapReadAsyncCallback(self, callback, userdata);
} }
void ProcTableAsClass::BufferMapWriteAsync(dawnBuffer self, uint32_t start, uint32_t size, dawnBufferMapWriteCallback callback, dawnCallbackUserdata userdata) { void ProcTableAsClass::BufferMapWriteAsync(dawnBuffer self, dawnBufferMapWriteCallback callback, dawnCallbackUserdata userdata) {
auto object = reinterpret_cast<ProcTableAsClass::Object*>(self); auto object = reinterpret_cast<ProcTableAsClass::Object*>(self);
object->mapWriteCallback = callback; object->mapWriteCallback = callback;
object->userdata1 = userdata; object->userdata1 = userdata;
OnBufferMapWriteAsyncCallback(self, start, size, callback, userdata); OnBufferMapWriteAsyncCallback(self, callback, userdata);
} }
void ProcTableAsClass::FenceOnCompletion(dawnFence self, void ProcTableAsClass::FenceOnCompletion(dawnFence self,
@ -91,14 +91,14 @@ void ProcTableAsClass::CallBuilderErrorCallback(void* builder , dawnBuilderError
auto object = reinterpret_cast<ProcTableAsClass::Object*>(builder); auto object = reinterpret_cast<ProcTableAsClass::Object*>(builder);
object->builderErrorCallback(status, message, object->userdata1, object->userdata2); object->builderErrorCallback(status, message, object->userdata1, object->userdata2);
} }
void ProcTableAsClass::CallMapReadCallback(dawnBuffer buffer, dawnBufferMapAsyncStatus status, const void* data) { void ProcTableAsClass::CallMapReadCallback(dawnBuffer buffer, dawnBufferMapAsyncStatus status, const void* data, uint32_t dataLength) {
auto object = reinterpret_cast<ProcTableAsClass::Object*>(buffer); auto object = reinterpret_cast<ProcTableAsClass::Object*>(buffer);
object->mapReadCallback(status, data, object->userdata1); object->mapReadCallback(status, data, dataLength, object->userdata1);
} }
void ProcTableAsClass::CallMapWriteCallback(dawnBuffer buffer, dawnBufferMapAsyncStatus status, void* data) { void ProcTableAsClass::CallMapWriteCallback(dawnBuffer buffer, dawnBufferMapAsyncStatus status, void* data, uint32_t dataLength) {
auto object = reinterpret_cast<ProcTableAsClass::Object*>(buffer); auto object = reinterpret_cast<ProcTableAsClass::Object*>(buffer);
object->mapWriteCallback(status, data, object->userdata1); object->mapWriteCallback(status, data, dataLength, object->userdata1);
} }
void ProcTableAsClass::CallFenceOnCompletionCallback(dawnFence fence, void ProcTableAsClass::CallFenceOnCompletionCallback(dawnFence fence,

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@ -57,8 +57,8 @@ class ProcTableAsClass {
// Stores callback and userdata and calls the On* methods // Stores callback and userdata and calls the On* methods
void DeviceSetErrorCallback(dawnDevice self, dawnDeviceErrorCallback callback, dawnCallbackUserdata userdata); void DeviceSetErrorCallback(dawnDevice self, dawnDeviceErrorCallback callback, dawnCallbackUserdata userdata);
void BufferMapReadAsync(dawnBuffer self, uint32_t start, uint32_t size, dawnBufferMapReadCallback callback, dawnCallbackUserdata userdata); void BufferMapReadAsync(dawnBuffer self, dawnBufferMapReadCallback callback, dawnCallbackUserdata userdata);
void BufferMapWriteAsync(dawnBuffer self, uint32_t start, uint32_t size, dawnBufferMapWriteCallback callback, dawnCallbackUserdata userdata); void BufferMapWriteAsync(dawnBuffer self, dawnBufferMapWriteCallback callback, dawnCallbackUserdata userdata);
void FenceOnCompletion(dawnFence self, void FenceOnCompletion(dawnFence self,
uint64_t value, uint64_t value,
dawnFenceOnCompletionCallback callback, dawnFenceOnCompletionCallback callback,
@ -67,8 +67,8 @@ class ProcTableAsClass {
// Special cased mockable methods // Special cased mockable methods
virtual void OnDeviceSetErrorCallback(dawnDevice device, dawnDeviceErrorCallback callback, dawnCallbackUserdata userdata) = 0; virtual void OnDeviceSetErrorCallback(dawnDevice device, dawnDeviceErrorCallback callback, dawnCallbackUserdata userdata) = 0;
virtual void OnBuilderSetErrorCallback(dawnBufferBuilder builder, dawnBuilderErrorCallback callback, dawnCallbackUserdata userdata1, dawnCallbackUserdata userdata2) = 0; virtual void OnBuilderSetErrorCallback(dawnBufferBuilder builder, dawnBuilderErrorCallback callback, dawnCallbackUserdata userdata1, dawnCallbackUserdata userdata2) = 0;
virtual void OnBufferMapReadAsyncCallback(dawnBuffer buffer, uint32_t start, uint32_t size, dawnBufferMapReadCallback callback, dawnCallbackUserdata userdata) = 0; virtual void OnBufferMapReadAsyncCallback(dawnBuffer buffer, dawnBufferMapReadCallback callback, dawnCallbackUserdata userdata) = 0;
virtual void OnBufferMapWriteAsyncCallback(dawnBuffer buffer, uint32_t start, uint32_t size, dawnBufferMapWriteCallback callback, dawnCallbackUserdata userdata) = 0; virtual void OnBufferMapWriteAsyncCallback(dawnBuffer buffer, dawnBufferMapWriteCallback callback, dawnCallbackUserdata userdata) = 0;
virtual void OnFenceOnCompletionCallback(dawnFence fence, virtual void OnFenceOnCompletionCallback(dawnFence fence,
uint64_t value, uint64_t value,
dawnFenceOnCompletionCallback callback, dawnFenceOnCompletionCallback callback,
@ -77,8 +77,8 @@ class ProcTableAsClass {
// Calls the stored callbacks // Calls the stored callbacks
void CallDeviceErrorCallback(dawnDevice device, const char* message); void CallDeviceErrorCallback(dawnDevice device, const char* message);
void CallBuilderErrorCallback(void* builder , dawnBuilderErrorStatus status, const char* message); void CallBuilderErrorCallback(void* builder , dawnBuilderErrorStatus status, const char* message);
void CallMapReadCallback(dawnBuffer buffer, dawnBufferMapAsyncStatus status, const void* data); void CallMapReadCallback(dawnBuffer buffer, dawnBufferMapAsyncStatus status, const void* data, uint32_t dataLength);
void CallMapWriteCallback(dawnBuffer buffer, dawnBufferMapAsyncStatus status, void* data); void CallMapWriteCallback(dawnBuffer buffer, dawnBufferMapAsyncStatus status, void* data, uint32_t dataLength);
void CallFenceOnCompletionCallback(dawnFence fence, dawnFenceCompletionStatus status); void CallFenceOnCompletionCallback(dawnFence fence, dawnFenceCompletionStatus status);
struct Object { struct Object {
@ -119,8 +119,8 @@ class MockProcTable : public ProcTableAsClass {
MOCK_METHOD3(OnDeviceSetErrorCallback, void(dawnDevice device, dawnDeviceErrorCallback callback, dawnCallbackUserdata userdata)); MOCK_METHOD3(OnDeviceSetErrorCallback, void(dawnDevice device, dawnDeviceErrorCallback callback, dawnCallbackUserdata userdata));
MOCK_METHOD4(OnBuilderSetErrorCallback, void(dawnBufferBuilder builder, dawnBuilderErrorCallback callback, dawnCallbackUserdata userdata1, dawnCallbackUserdata userdata2)); MOCK_METHOD4(OnBuilderSetErrorCallback, void(dawnBufferBuilder builder, dawnBuilderErrorCallback callback, dawnCallbackUserdata userdata1, dawnCallbackUserdata userdata2));
MOCK_METHOD5(OnBufferMapReadAsyncCallback, void(dawnBuffer buffer, uint32_t start, uint32_t size, dawnBufferMapReadCallback callback, dawnCallbackUserdata userdata)); MOCK_METHOD3(OnBufferMapReadAsyncCallback, void(dawnBuffer buffer, dawnBufferMapReadCallback callback, dawnCallbackUserdata userdata));
MOCK_METHOD5(OnBufferMapWriteAsyncCallback, void(dawnBuffer buffer, uint32_t start, uint32_t size, dawnBufferMapWriteCallback callback, dawnCallbackUserdata userdata)); MOCK_METHOD3(OnBufferMapWriteAsyncCallback, void(dawnBuffer buffer, dawnBufferMapWriteCallback callback, dawnCallbackUserdata userdata));
MOCK_METHOD4(OnFenceOnCompletionCallback, MOCK_METHOD4(OnFenceOnCompletionCallback,
void(dawnFence fence, void(dawnFence fence,
uint64_t value, uint64_t value,

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@ -37,10 +37,10 @@ namespace dawn_native {
UNREACHABLE(); UNREACHABLE();
return {}; return {};
} }
void MapReadAsyncImpl(uint32_t serial, uint32_t start, uint32_t size) override { void MapReadAsyncImpl(uint32_t serial) override {
UNREACHABLE(); UNREACHABLE();
} }
void MapWriteAsyncImpl(uint32_t serial, uint32_t start, uint32_t size) override { void MapWriteAsyncImpl(uint32_t serial) override {
UNREACHABLE(); UNREACHABLE();
} }
void UnmapImpl() override { void UnmapImpl() override {
@ -90,8 +90,8 @@ namespace dawn_native {
BufferBase::~BufferBase() { BufferBase::~BufferBase() {
if (mState == BufferState::Mapped) { if (mState == BufferState::Mapped) {
ASSERT(!IsError()); ASSERT(!IsError());
CallMapReadCallback(mMapSerial, DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr); CallMapReadCallback(mMapSerial, DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, 0u);
CallMapWriteCallback(mMapSerial, DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr); CallMapWriteCallback(mMapSerial, DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, 0u);
} }
} }
@ -125,31 +125,31 @@ namespace dawn_native {
void BufferBase::CallMapReadCallback(uint32_t serial, void BufferBase::CallMapReadCallback(uint32_t serial,
dawnBufferMapAsyncStatus status, dawnBufferMapAsyncStatus status,
const void* pointer) { const void* pointer,
uint32_t dataLength) {
ASSERT(!IsError()); ASSERT(!IsError());
if (mMapReadCallback != nullptr && serial == mMapSerial) { if (mMapReadCallback != nullptr && serial == mMapSerial) {
ASSERT(mMapWriteCallback == nullptr); ASSERT(mMapWriteCallback == nullptr);
// Tag the callback as fired before firing it, otherwise it could fire a second time if // Tag the callback as fired before firing it, otherwise it could fire a second time if
// for example buffer.Unmap() is called inside the application-provided callback. // for example buffer.Unmap() is called inside the application-provided callback.
dawnBufferMapReadCallback callback = mMapReadCallback; dawnBufferMapReadCallback callback = mMapReadCallback;
mMapReadCallback = nullptr; mMapReadCallback = nullptr;
callback(status, pointer, mMapUserdata); callback(status, pointer, dataLength, mMapUserdata);
} }
} }
void BufferBase::CallMapWriteCallback(uint32_t serial, void BufferBase::CallMapWriteCallback(uint32_t serial,
dawnBufferMapAsyncStatus status, dawnBufferMapAsyncStatus status,
void* pointer) { void* pointer,
uint32_t dataLength) {
ASSERT(!IsError()); ASSERT(!IsError());
if (mMapWriteCallback != nullptr && serial == mMapSerial) { if (mMapWriteCallback != nullptr && serial == mMapSerial) {
ASSERT(mMapReadCallback == nullptr); ASSERT(mMapReadCallback == nullptr);
// Tag the callback as fired before firing it, otherwise it could fire a second time if // Tag the callback as fired before firing it, otherwise it could fire a second time if
// for example buffer.Unmap() is called inside the application-provided callback. // for example buffer.Unmap() is called inside the application-provided callback.
dawnBufferMapWriteCallback callback = mMapWriteCallback; dawnBufferMapWriteCallback callback = mMapWriteCallback;
mMapWriteCallback = nullptr; mMapWriteCallback = nullptr;
callback(status, pointer, mMapUserdata); callback(status, pointer, dataLength, mMapUserdata);
} }
} }
@ -164,12 +164,10 @@ namespace dawn_native {
} }
} }
void BufferBase::MapReadAsync(uint32_t start, void BufferBase::MapReadAsync(dawnBufferMapReadCallback callback,
uint32_t size,
dawnBufferMapReadCallback callback,
dawnCallbackUserdata userdata) { dawnCallbackUserdata userdata) {
if (GetDevice()->ConsumedError(ValidateMap(start, size, dawn::BufferUsageBit::MapRead))) { if (GetDevice()->ConsumedError(ValidateMap(dawn::BufferUsageBit::MapRead))) {
callback(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, userdata); callback(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, 0, userdata);
return; return;
} }
ASSERT(!IsError()); ASSERT(!IsError());
@ -182,15 +180,13 @@ namespace dawn_native {
mMapUserdata = userdata; mMapUserdata = userdata;
mState = BufferState::Mapped; mState = BufferState::Mapped;
MapReadAsyncImpl(mMapSerial, start, size); MapReadAsyncImpl(mMapSerial);
} }
void BufferBase::MapWriteAsync(uint32_t start, void BufferBase::MapWriteAsync(dawnBufferMapWriteCallback callback,
uint32_t size,
dawnBufferMapWriteCallback callback,
dawnCallbackUserdata userdata) { dawnCallbackUserdata userdata) {
if (GetDevice()->ConsumedError(ValidateMap(start, size, dawn::BufferUsageBit::MapWrite))) { if (GetDevice()->ConsumedError(ValidateMap(dawn::BufferUsageBit::MapWrite))) {
callback(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, userdata); callback(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, 0, userdata);
return; return;
} }
ASSERT(!IsError()); ASSERT(!IsError());
@ -203,7 +199,7 @@ namespace dawn_native {
mMapUserdata = userdata; mMapUserdata = userdata;
mState = BufferState::Mapped; mState = BufferState::Mapped;
MapWriteAsyncImpl(mMapSerial, start, size); MapWriteAsyncImpl(mMapSerial);
} }
void BufferBase::Destroy() { void BufferBase::Destroy() {
@ -226,8 +222,8 @@ namespace dawn_native {
// A map request can only be called once, so this will fire only if the request wasn't // A map request can only be called once, so this will fire only if the request wasn't
// completed before the Unmap // completed before the Unmap
CallMapReadCallback(mMapSerial, DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr); CallMapReadCallback(mMapSerial, DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, 0u);
CallMapWriteCallback(mMapSerial, DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr); CallMapWriteCallback(mMapSerial, DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, 0u);
UnmapImpl(); UnmapImpl();
mState = BufferState::Unmapped; mState = BufferState::Unmapped;
mMapReadCallback = nullptr; mMapReadCallback = nullptr;
@ -262,20 +258,9 @@ namespace dawn_native {
return {}; return {};
} }
MaybeError BufferBase::ValidateMap(uint32_t start, MaybeError BufferBase::ValidateMap(dawn::BufferUsageBit requiredUsage) const {
uint32_t size,
dawn::BufferUsageBit requiredUsage) const {
DAWN_TRY(GetDevice()->ValidateObject(this)); DAWN_TRY(GetDevice()->ValidateObject(this));
if (size > GetSize()) {
return DAWN_VALIDATION_ERROR("Buffer mapping with too big a region");
}
// Note that no overflow can happen because we already checked for GetSize() >= size
if (start > GetSize() - size) {
return DAWN_VALIDATION_ERROR("Buffer mapping out of range");
}
if (mState == BufferState::Destroyed) { if (mState == BufferState::Destroyed) {
return DAWN_VALIDATION_ERROR("Buffer is destroyed"); return DAWN_VALIDATION_ERROR("Buffer is destroyed");
} }

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@ -54,14 +54,8 @@ namespace dawn_native {
// Dawn API // Dawn API
void SetSubData(uint32_t start, uint32_t count, const uint8_t* data); void SetSubData(uint32_t start, uint32_t count, const uint8_t* data);
void MapReadAsync(uint32_t start, void MapReadAsync(dawnBufferMapReadCallback callback, dawnCallbackUserdata userdata);
uint32_t size, void MapWriteAsync(dawnBufferMapWriteCallback callback, dawnCallbackUserdata userdata);
dawnBufferMapReadCallback callback,
dawnCallbackUserdata userdata);
void MapWriteAsync(uint32_t start,
uint32_t size,
dawnBufferMapWriteCallback callback,
dawnCallbackUserdata userdata);
void Unmap(); void Unmap();
void Destroy(); void Destroy();
@ -70,19 +64,21 @@ namespace dawn_native {
void CallMapReadCallback(uint32_t serial, void CallMapReadCallback(uint32_t serial,
dawnBufferMapAsyncStatus status, dawnBufferMapAsyncStatus status,
const void* pointer); const void* pointer,
void CallMapWriteCallback(uint32_t serial, dawnBufferMapAsyncStatus status, void* pointer); uint32_t dataLength);
void CallMapWriteCallback(uint32_t serial,
dawnBufferMapAsyncStatus status,
void* pointer,
uint32_t dataLength);
private: private:
virtual MaybeError SetSubDataImpl(uint32_t start, uint32_t count, const uint8_t* data) = 0; virtual MaybeError SetSubDataImpl(uint32_t start, uint32_t count, const uint8_t* data) = 0;
virtual void MapReadAsyncImpl(uint32_t serial, uint32_t start, uint32_t size) = 0; virtual void MapReadAsyncImpl(uint32_t serial) = 0;
virtual void MapWriteAsyncImpl(uint32_t serial, uint32_t start, uint32_t size) = 0; virtual void MapWriteAsyncImpl(uint32_t serial) = 0;
virtual void UnmapImpl() = 0; virtual void UnmapImpl() = 0;
MaybeError ValidateSetSubData(uint32_t start, uint32_t count) const; MaybeError ValidateSetSubData(uint32_t start, uint32_t count) const;
MaybeError ValidateMap(uint32_t start, MaybeError ValidateMap(dawn::BufferUsageBit requiredUsage) const;
uint32_t size,
dawn::BufferUsageBit requiredUsage) const;
MaybeError ValidateUnmap() const; MaybeError ValidateUnmap() const;
MaybeError ValidateDestroy() const; MaybeError ValidateDestroy() const;

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@ -155,9 +155,9 @@ namespace dawn_native { namespace d3d12 {
void Buffer::OnMapCommandSerialFinished(uint32_t mapSerial, void* data, bool isWrite) { void Buffer::OnMapCommandSerialFinished(uint32_t mapSerial, void* data, bool isWrite) {
if (isWrite) { if (isWrite) {
CallMapWriteCallback(mapSerial, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, data); CallMapWriteCallback(mapSerial, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, data, GetSize());
} else { } else {
CallMapReadCallback(mapSerial, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, data); CallMapReadCallback(mapSerial, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, data, GetSize());
} }
} }
@ -179,27 +179,27 @@ namespace dawn_native { namespace d3d12 {
return {}; return {};
} }
void Buffer::MapReadAsyncImpl(uint32_t serial, uint32_t start, uint32_t count) { void Buffer::MapReadAsyncImpl(uint32_t serial) {
mWrittenMappedRange = {}; mWrittenMappedRange = {};
D3D12_RANGE readRange = {start, start + count}; D3D12_RANGE readRange = {0, GetSize()};
char* data = nullptr; char* data = nullptr;
ASSERT_SUCCESS(mResource->Map(0, &readRange, reinterpret_cast<void**>(&data))); ASSERT_SUCCESS(mResource->Map(0, &readRange, reinterpret_cast<void**>(&data)));
// There is no need to transition the resource to a new state: D3D12 seems to make the GPU // There is no need to transition the resource to a new state: D3D12 seems to make the GPU
// writes available when the fence is passed. // writes available when the fence is passed.
MapRequestTracker* tracker = ToBackend(GetDevice())->GetMapRequestTracker(); MapRequestTracker* tracker = ToBackend(GetDevice())->GetMapRequestTracker();
tracker->Track(this, serial, data + start, false); tracker->Track(this, serial, data, false);
} }
void Buffer::MapWriteAsyncImpl(uint32_t serial, uint32_t start, uint32_t count) { void Buffer::MapWriteAsyncImpl(uint32_t serial) {
mWrittenMappedRange = {start, start + count}; mWrittenMappedRange = {0, GetSize()};
char* data = nullptr; char* data = nullptr;
ASSERT_SUCCESS(mResource->Map(0, &mWrittenMappedRange, reinterpret_cast<void**>(&data))); ASSERT_SUCCESS(mResource->Map(0, &mWrittenMappedRange, reinterpret_cast<void**>(&data)));
// There is no need to transition the resource to a new state: D3D12 seems to make the CPU // There is no need to transition the resource to a new state: D3D12 seems to make the CPU
// writes available on queue submission. // writes available on queue submission.
MapRequestTracker* tracker = ToBackend(GetDevice())->GetMapRequestTracker(); MapRequestTracker* tracker = ToBackend(GetDevice())->GetMapRequestTracker();
tracker->Track(this, serial, data + start, true); tracker->Track(this, serial, data, true);
} }
void Buffer::UnmapImpl() { void Buffer::UnmapImpl() {

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@ -40,8 +40,8 @@ namespace dawn_native { namespace d3d12 {
private: private:
// Dawn API // Dawn API
MaybeError SetSubDataImpl(uint32_t start, uint32_t count, const uint8_t* data) override; MaybeError SetSubDataImpl(uint32_t start, uint32_t count, const uint8_t* data) override;
void MapReadAsyncImpl(uint32_t serial, uint32_t start, uint32_t count) override; void MapReadAsyncImpl(uint32_t serial) override;
void MapWriteAsyncImpl(uint32_t serial, uint32_t start, uint32_t count) override; void MapWriteAsyncImpl(uint32_t serial) override;
void UnmapImpl() override; void UnmapImpl() override;
// TODO(b-brber): Remove once alignment constraint is added to validation (dawn:73). // TODO(b-brber): Remove once alignment constraint is added to validation (dawn:73).

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@ -31,12 +31,12 @@ namespace dawn_native { namespace metal {
id<MTLBuffer> GetMTLBuffer(); id<MTLBuffer> GetMTLBuffer();
void OnMapCommandSerialFinished(uint32_t mapSerial, uint32_t offset, bool isWrite); void OnMapCommandSerialFinished(uint32_t mapSerial, bool isWrite);
private: private:
MaybeError SetSubDataImpl(uint32_t start, uint32_t count, const uint8_t* data) override; MaybeError SetSubDataImpl(uint32_t start, uint32_t count, const uint8_t* data) override;
void MapReadAsyncImpl(uint32_t serial, uint32_t start, uint32_t count) override; void MapReadAsyncImpl(uint32_t serial) override;
void MapWriteAsyncImpl(uint32_t serial, uint32_t start, uint32_t count) override; void MapWriteAsyncImpl(uint32_t serial) override;
void UnmapImpl() override; void UnmapImpl() override;
id<MTLBuffer> mMtlBuffer = nil; id<MTLBuffer> mMtlBuffer = nil;
@ -47,7 +47,7 @@ namespace dawn_native { namespace metal {
MapRequestTracker(Device* device); MapRequestTracker(Device* device);
~MapRequestTracker(); ~MapRequestTracker();
void Track(Buffer* buffer, uint32_t mapSerial, uint32_t offset, bool isWrite); void Track(Buffer* buffer, uint32_t mapSerial, bool isWrite);
void Tick(Serial finishedSerial); void Tick(Serial finishedSerial);
private: private:
@ -56,7 +56,6 @@ namespace dawn_native { namespace metal {
struct Request { struct Request {
Ref<Buffer> buffer; Ref<Buffer> buffer;
uint32_t mapSerial; uint32_t mapSerial;
uint32_t offset;
bool isWrite; bool isWrite;
}; };
SerialQueue<Request> mInflightRequests; SerialQueue<Request> mInflightRequests;

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@ -40,12 +40,12 @@ namespace dawn_native { namespace metal {
return mMtlBuffer; return mMtlBuffer;
} }
void Buffer::OnMapCommandSerialFinished(uint32_t mapSerial, uint32_t offset, bool isWrite) { void Buffer::OnMapCommandSerialFinished(uint32_t mapSerial, bool isWrite) {
char* data = reinterpret_cast<char*>([mMtlBuffer contents]); char* data = reinterpret_cast<char*>([mMtlBuffer contents]);
if (isWrite) { if (isWrite) {
CallMapWriteCallback(mapSerial, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, data + offset); CallMapWriteCallback(mapSerial, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, data, GetSize());
} else { } else {
CallMapReadCallback(mapSerial, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, data + offset); CallMapReadCallback(mapSerial, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, data, GetSize());
} }
} }
@ -55,14 +55,14 @@ namespace dawn_native { namespace metal {
return {}; return {};
} }
void Buffer::MapReadAsyncImpl(uint32_t serial, uint32_t start, uint32_t) { void Buffer::MapReadAsyncImpl(uint32_t serial) {
MapRequestTracker* tracker = ToBackend(GetDevice())->GetMapTracker(); MapRequestTracker* tracker = ToBackend(GetDevice())->GetMapTracker();
tracker->Track(this, serial, start, false); tracker->Track(this, serial, false);
} }
void Buffer::MapWriteAsyncImpl(uint32_t serial, uint32_t start, uint32_t) { void Buffer::MapWriteAsyncImpl(uint32_t serial) {
MapRequestTracker* tracker = ToBackend(GetDevice())->GetMapTracker(); MapRequestTracker* tracker = ToBackend(GetDevice())->GetMapTracker();
tracker->Track(this, serial, start, true); tracker->Track(this, serial, true);
} }
void Buffer::UnmapImpl() { void Buffer::UnmapImpl() {
@ -78,12 +78,10 @@ namespace dawn_native { namespace metal {
void MapRequestTracker::Track(Buffer* buffer, void MapRequestTracker::Track(Buffer* buffer,
uint32_t mapSerial, uint32_t mapSerial,
uint32_t offset,
bool isWrite) { bool isWrite) {
Request request; Request request;
request.buffer = buffer; request.buffer = buffer;
request.mapSerial = mapSerial; request.mapSerial = mapSerial;
request.offset = offset;
request.isWrite = isWrite; request.isWrite = isWrite;
mInflightRequests.Enqueue(std::move(request), mDevice->GetPendingCommandSerial()); mInflightRequests.Enqueue(std::move(request), mDevice->GetPendingCommandSerial());
@ -91,8 +89,7 @@ namespace dawn_native { namespace metal {
void MapRequestTracker::Tick(Serial finishedSerial) { void MapRequestTracker::Tick(Serial finishedSerial) {
for (auto& request : mInflightRequests.IterateUpTo(finishedSerial)) { for (auto& request : mInflightRequests.IterateUpTo(finishedSerial)) {
request.buffer->OnMapCommandSerialFinished(request.mapSerial, request.offset, request.buffer->OnMapCommandSerialFinished(request.mapSerial, request.isWrite);
request.isWrite);
} }
mInflightRequests.ClearUpTo(finishedSerial); mInflightRequests.ClearUpTo(finishedSerial);
} }

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@ -193,9 +193,9 @@ namespace dawn_native { namespace null {
void Buffer::MapReadOperationCompleted(uint32_t serial, void* ptr, bool isWrite) { void Buffer::MapReadOperationCompleted(uint32_t serial, void* ptr, bool isWrite) {
if (isWrite) { if (isWrite) {
CallMapWriteCallback(serial, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, ptr); CallMapWriteCallback(serial, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, ptr, GetSize());
} else { } else {
CallMapReadCallback(serial, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, ptr); CallMapReadCallback(serial, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, ptr, GetSize());
} }
} }
@ -206,21 +206,20 @@ namespace dawn_native { namespace null {
return {}; return {};
} }
void Buffer::MapReadAsyncImpl(uint32_t serial, uint32_t start, uint32_t count) { void Buffer::MapReadAsyncImpl(uint32_t serial) {
MapAsyncImplCommon(serial, start, count, false); MapAsyncImplCommon(serial, false);
} }
void Buffer::MapWriteAsyncImpl(uint32_t serial, uint32_t start, uint32_t count) { void Buffer::MapWriteAsyncImpl(uint32_t serial) {
MapAsyncImplCommon(serial, start, count, true); MapAsyncImplCommon(serial, true);
} }
void Buffer::MapAsyncImplCommon(uint32_t serial, uint32_t start, uint32_t count, bool isWrite) { void Buffer::MapAsyncImplCommon(uint32_t serial, bool isWrite) {
ASSERT(start + count <= GetSize());
ASSERT(mBackingData); ASSERT(mBackingData);
auto operation = new BufferMapReadOperation; auto operation = new BufferMapReadOperation;
operation->buffer = this; operation->buffer = this;
operation->ptr = mBackingData.get() + start; operation->ptr = mBackingData.get();
operation->serial = serial; operation->serial = serial;
operation->isWrite = isWrite; operation->isWrite = isWrite;

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@ -147,11 +147,11 @@ namespace dawn_native { namespace null {
private: private:
MaybeError SetSubDataImpl(uint32_t start, uint32_t count, const uint8_t* data) override; MaybeError SetSubDataImpl(uint32_t start, uint32_t count, const uint8_t* data) override;
void MapReadAsyncImpl(uint32_t serial, uint32_t start, uint32_t count) override; void MapReadAsyncImpl(uint32_t serial) override;
void MapWriteAsyncImpl(uint32_t serial, uint32_t start, uint32_t count) override; void MapWriteAsyncImpl(uint32_t serial) override;
void UnmapImpl() override; void UnmapImpl() override;
void MapAsyncImplCommon(uint32_t serial, uint32_t start, uint32_t count, bool isWrite); void MapAsyncImplCommon(uint32_t serial, bool isWrite);
std::unique_ptr<char[]> mBackingData; std::unique_ptr<char[]> mBackingData;
}; };

View File

@ -37,20 +37,20 @@ namespace dawn_native { namespace opengl {
return {}; return {};
} }
void Buffer::MapReadAsyncImpl(uint32_t serial, uint32_t start, uint32_t count) { void Buffer::MapReadAsyncImpl(uint32_t serial) {
// TODO(cwallez@chromium.org): this does GPU->CPU synchronization, we could require a high // TODO(cwallez@chromium.org): this does GPU->CPU synchronization, we could require a high
// version of OpenGL that would let us map the buffer unsynchronized. // version of OpenGL that would let us map the buffer unsynchronized.
glBindBuffer(GL_ARRAY_BUFFER, mBuffer); glBindBuffer(GL_ARRAY_BUFFER, mBuffer);
void* data = glMapBufferRange(GL_ARRAY_BUFFER, start, count, GL_MAP_READ_BIT); void* data = glMapBuffer(GL_ARRAY_BUFFER, GL_READ_ONLY);
CallMapReadCallback(serial, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, data); CallMapReadCallback(serial, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, data, GetSize());
} }
void Buffer::MapWriteAsyncImpl(uint32_t serial, uint32_t start, uint32_t count) { void Buffer::MapWriteAsyncImpl(uint32_t serial) {
// TODO(cwallez@chromium.org): this does GPU->CPU synchronization, we could require a high // TODO(cwallez@chromium.org): this does GPU->CPU synchronization, we could require a high
// version of OpenGL that would let us map the buffer unsynchronized. // version of OpenGL that would let us map the buffer unsynchronized.
glBindBuffer(GL_ARRAY_BUFFER, mBuffer); glBindBuffer(GL_ARRAY_BUFFER, mBuffer);
void* data = glMapBufferRange(GL_ARRAY_BUFFER, start, count, GL_MAP_WRITE_BIT); void* data = glMapBuffer(GL_ARRAY_BUFFER, GL_WRITE_ONLY);
CallMapWriteCallback(serial, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, data); CallMapWriteCallback(serial, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, data, GetSize());
} }
void Buffer::UnmapImpl() { void Buffer::UnmapImpl() {

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@ -31,8 +31,8 @@ namespace dawn_native { namespace opengl {
private: private:
MaybeError SetSubDataImpl(uint32_t start, uint32_t count, const uint8_t* data) override; MaybeError SetSubDataImpl(uint32_t start, uint32_t count, const uint8_t* data) override;
void MapReadAsyncImpl(uint32_t serial, uint32_t start, uint32_t count) override; void MapReadAsyncImpl(uint32_t serial) override;
void MapWriteAsyncImpl(uint32_t serial, uint32_t start, uint32_t count) override; void MapWriteAsyncImpl(uint32_t serial) override;
void UnmapImpl() override; void UnmapImpl() override;
GLuint mBuffer = 0; GLuint mBuffer = 0;

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@ -149,11 +149,11 @@ namespace dawn_native { namespace vulkan {
} }
void Buffer::OnMapReadCommandSerialFinished(uint32_t mapSerial, const void* data) { void Buffer::OnMapReadCommandSerialFinished(uint32_t mapSerial, const void* data) {
CallMapReadCallback(mapSerial, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, data); CallMapReadCallback(mapSerial, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, data, GetSize());
} }
void Buffer::OnMapWriteCommandSerialFinished(uint32_t mapSerial, void* data) { void Buffer::OnMapWriteCommandSerialFinished(uint32_t mapSerial, void* data) {
CallMapWriteCallback(mapSerial, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, data); CallMapWriteCallback(mapSerial, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, data, GetSize());
} }
VkBuffer Buffer::GetHandle() const { VkBuffer Buffer::GetHandle() const {
@ -214,7 +214,7 @@ namespace dawn_native { namespace vulkan {
return {}; return {};
} }
void Buffer::MapReadAsyncImpl(uint32_t serial, uint32_t start, uint32_t /*count*/) { void Buffer::MapReadAsyncImpl(uint32_t serial) {
Device* device = ToBackend(GetDevice()); Device* device = ToBackend(GetDevice());
VkCommandBuffer commands = device->GetPendingCommandBuffer(); VkCommandBuffer commands = device->GetPendingCommandBuffer();
@ -224,10 +224,10 @@ namespace dawn_native { namespace vulkan {
ASSERT(memory != nullptr); ASSERT(memory != nullptr);
MapRequestTracker* tracker = device->GetMapRequestTracker(); MapRequestTracker* tracker = device->GetMapRequestTracker();
tracker->Track(this, serial, memory + start, false); tracker->Track(this, serial, memory, false);
} }
void Buffer::MapWriteAsyncImpl(uint32_t serial, uint32_t start, uint32_t /*count*/) { void Buffer::MapWriteAsyncImpl(uint32_t serial) {
Device* device = ToBackend(GetDevice()); Device* device = ToBackend(GetDevice());
VkCommandBuffer commands = device->GetPendingCommandBuffer(); VkCommandBuffer commands = device->GetPendingCommandBuffer();
@ -237,7 +237,7 @@ namespace dawn_native { namespace vulkan {
ASSERT(memory != nullptr); ASSERT(memory != nullptr);
MapRequestTracker* tracker = device->GetMapRequestTracker(); MapRequestTracker* tracker = device->GetMapRequestTracker();
tracker->Track(this, serial, memory + start, true); tracker->Track(this, serial, memory, true);
} }
void Buffer::UnmapImpl() { void Buffer::UnmapImpl() {

View File

@ -42,8 +42,8 @@ namespace dawn_native { namespace vulkan {
private: private:
MaybeError SetSubDataImpl(uint32_t start, uint32_t count, const uint8_t* data) override; MaybeError SetSubDataImpl(uint32_t start, uint32_t count, const uint8_t* data) override;
void MapReadAsyncImpl(uint32_t serial, uint32_t start, uint32_t count) override; void MapReadAsyncImpl(uint32_t serial) override;
void MapWriteAsyncImpl(uint32_t serial, uint32_t start, uint32_t count) override; void MapWriteAsyncImpl(uint32_t serial) override;
void UnmapImpl() override; void UnmapImpl() override;
// TODO(b-brber): Remove once alignment constraint is added to validation (dawn:73). // TODO(b-brber): Remove once alignment constraint is added to validation (dawn:73).

View File

@ -19,8 +19,6 @@
namespace dawn_wire { namespace client { namespace dawn_wire { namespace client {
void ClientBufferMapReadAsync(dawnBuffer cBuffer, void ClientBufferMapReadAsync(dawnBuffer cBuffer,
uint32_t start,
uint32_t size,
dawnBufferMapReadCallback callback, dawnBufferMapReadCallback callback,
dawnCallbackUserdata userdata) { dawnCallbackUserdata userdata) {
Buffer* buffer = reinterpret_cast<Buffer*>(cBuffer); Buffer* buffer = reinterpret_cast<Buffer*>(cBuffer);
@ -31,15 +29,12 @@ namespace dawn_wire { namespace client {
Buffer::MapRequestData request; Buffer::MapRequestData request;
request.readCallback = callback; request.readCallback = callback;
request.userdata = userdata; request.userdata = userdata;
request.size = size;
request.isWrite = false; request.isWrite = false;
buffer->requests[serial] = request; buffer->requests[serial] = request;
BufferMapAsyncCmd cmd; BufferMapAsyncCmd cmd;
cmd.bufferId = buffer->id; cmd.bufferId = buffer->id;
cmd.requestSerial = serial; cmd.requestSerial = serial;
cmd.start = start;
cmd.size = size;
cmd.isWrite = false; cmd.isWrite = false;
size_t requiredSize = cmd.GetRequiredSize(); size_t requiredSize = cmd.GetRequiredSize();
@ -49,8 +44,6 @@ namespace dawn_wire { namespace client {
} }
void ClientBufferMapWriteAsync(dawnBuffer cBuffer, void ClientBufferMapWriteAsync(dawnBuffer cBuffer,
uint32_t start,
uint32_t size,
dawnBufferMapWriteCallback callback, dawnBufferMapWriteCallback callback,
dawnCallbackUserdata userdata) { dawnCallbackUserdata userdata) {
Buffer* buffer = reinterpret_cast<Buffer*>(cBuffer); Buffer* buffer = reinterpret_cast<Buffer*>(cBuffer);
@ -61,15 +54,12 @@ namespace dawn_wire { namespace client {
Buffer::MapRequestData request; Buffer::MapRequestData request;
request.writeCallback = callback; request.writeCallback = callback;
request.userdata = userdata; request.userdata = userdata;
request.size = size;
request.isWrite = true; request.isWrite = true;
buffer->requests[serial] = request; buffer->requests[serial] = request;
BufferMapAsyncCmd cmd; BufferMapAsyncCmd cmd;
cmd.bufferId = buffer->id; cmd.bufferId = buffer->id;
cmd.requestSerial = serial; cmd.requestSerial = serial;
cmd.start = start;
cmd.size = size;
cmd.isWrite = true; cmd.isWrite = true;
size_t requiredSize = cmd.GetRequiredSize(); size_t requiredSize = cmd.GetRequiredSize();

View File

@ -29,9 +29,9 @@ namespace dawn_wire { namespace client {
void Buffer::ClearMapRequests(dawnBufferMapAsyncStatus status) { void Buffer::ClearMapRequests(dawnBufferMapAsyncStatus status) {
for (auto& it : requests) { for (auto& it : requests) {
if (it.second.isWrite) { if (it.second.isWrite) {
it.second.writeCallback(status, nullptr, it.second.userdata); it.second.writeCallback(status, nullptr, 0, it.second.userdata);
} else { } else {
it.second.readCallback(status, nullptr, it.second.userdata); it.second.readCallback(status, nullptr, 0, it.second.userdata);
} }
} }
requests.clear(); requests.clear();

View File

@ -36,7 +36,6 @@ namespace dawn_wire { namespace client {
dawnBufferMapReadCallback readCallback = nullptr; dawnBufferMapReadCallback readCallback = nullptr;
dawnBufferMapWriteCallback writeCallback = nullptr; dawnBufferMapWriteCallback writeCallback = nullptr;
dawnCallbackUserdata userdata = 0; dawnCallbackUserdata userdata = 0;
uint32_t size = 0;
bool isWrite = false; bool isWrite = false;
}; };
std::map<uint32_t, MapRequestData> requests; std::map<uint32_t, MapRequestData> requests;

View File

@ -27,7 +27,7 @@ namespace dawn_wire { namespace client {
bool Client::DoBufferMapReadAsyncCallback(Buffer* buffer, bool Client::DoBufferMapReadAsyncCallback(Buffer* buffer,
uint32_t requestSerial, uint32_t requestSerial,
uint32_t status, uint32_t status,
uint32_t count, uint32_t dataLength,
const uint8_t* data) { const uint8_t* data) {
// The buffer might have been deleted or recreated so this isn't an error. // The buffer might have been deleted or recreated so this isn't an error.
if (buffer == nullptr) { if (buffer == nullptr) {
@ -53,12 +53,6 @@ namespace dawn_wire { namespace client {
// On success, we copy the data locally because the IPC buffer isn't valid outside of this // On success, we copy the data locally because the IPC buffer isn't valid outside of this
// function // function
if (status == DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS) { if (status == DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS) {
// The server didn't send the right amount of data, this is an error and could cause
// the application to crash if we did call the callback.
if (request.size != count) {
return false;
}
ASSERT(data != nullptr); ASSERT(data != nullptr);
if (buffer->mappedData != nullptr) { if (buffer->mappedData != nullptr) {
@ -66,14 +60,14 @@ namespace dawn_wire { namespace client {
} }
buffer->isWriteMapped = false; buffer->isWriteMapped = false;
buffer->mappedDataSize = request.size; buffer->mappedDataSize = dataLength;
buffer->mappedData = malloc(request.size); buffer->mappedData = malloc(dataLength);
memcpy(buffer->mappedData, data, request.size); memcpy(buffer->mappedData, data, dataLength);
request.readCallback(static_cast<dawnBufferMapAsyncStatus>(status), buffer->mappedData, request.readCallback(static_cast<dawnBufferMapAsyncStatus>(status), buffer->mappedData,
request.userdata); dataLength, request.userdata);
} else { } else {
request.readCallback(static_cast<dawnBufferMapAsyncStatus>(status), nullptr, request.readCallback(static_cast<dawnBufferMapAsyncStatus>(status), nullptr, 0,
request.userdata); request.userdata);
} }
@ -82,7 +76,8 @@ namespace dawn_wire { namespace client {
bool Client::DoBufferMapWriteAsyncCallback(Buffer* buffer, bool Client::DoBufferMapWriteAsyncCallback(Buffer* buffer,
uint32_t requestSerial, uint32_t requestSerial,
uint32_t status) { uint32_t status,
uint32_t dataLength) {
// The buffer might have been deleted or recreated so this isn't an error. // The buffer might have been deleted or recreated so this isn't an error.
if (buffer == nullptr) { if (buffer == nullptr) {
return true; return true;
@ -112,14 +107,14 @@ namespace dawn_wire { namespace client {
} }
buffer->isWriteMapped = true; buffer->isWriteMapped = true;
buffer->mappedDataSize = request.size; buffer->mappedDataSize = dataLength;
buffer->mappedData = malloc(request.size); buffer->mappedData = malloc(dataLength);
memset(buffer->mappedData, 0, request.size); memset(buffer->mappedData, 0, dataLength);
request.writeCallback(static_cast<dawnBufferMapAsyncStatus>(status), buffer->mappedData, request.writeCallback(static_cast<dawnBufferMapAsyncStatus>(status), buffer->mappedData,
request.userdata); dataLength, request.userdata);
} else { } else {
request.writeCallback(static_cast<dawnBufferMapAsyncStatus>(status), nullptr, request.writeCallback(static_cast<dawnBufferMapAsyncStatus>(status), nullptr, 0,
request.userdata); request.userdata);
} }

View File

@ -49,9 +49,11 @@ namespace dawn_wire { namespace server {
static void ForwardDeviceError(const char* message, dawnCallbackUserdata userdata); static void ForwardDeviceError(const char* message, dawnCallbackUserdata userdata);
static void ForwardBufferMapReadAsync(dawnBufferMapAsyncStatus status, static void ForwardBufferMapReadAsync(dawnBufferMapAsyncStatus status,
const void* ptr, const void* ptr,
uint32_t dataLength,
dawnCallbackUserdata userdata); dawnCallbackUserdata userdata);
static void ForwardBufferMapWriteAsync(dawnBufferMapAsyncStatus status, static void ForwardBufferMapWriteAsync(dawnBufferMapAsyncStatus status,
void* ptr, void* ptr,
uint32_t dataLength,
dawnCallbackUserdata userdata); dawnCallbackUserdata userdata);
static void ForwardFenceCompletedValue(dawnFenceCompletionStatus status, static void ForwardFenceCompletedValue(dawnFenceCompletionStatus status,
dawnCallbackUserdata userdata); dawnCallbackUserdata userdata);
@ -60,9 +62,11 @@ namespace dawn_wire { namespace server {
void OnDeviceError(const char* message); void OnDeviceError(const char* message);
void OnBufferMapReadAsyncCallback(dawnBufferMapAsyncStatus status, void OnBufferMapReadAsyncCallback(dawnBufferMapAsyncStatus status,
const void* ptr, const void* ptr,
uint32_t dataLength,
MapUserdata* userdata); MapUserdata* userdata);
void OnBufferMapWriteAsyncCallback(dawnBufferMapAsyncStatus status, void OnBufferMapWriteAsyncCallback(dawnBufferMapAsyncStatus status,
void* ptr, void* ptr,
uint32_t dataLength,
MapUserdata* userdata); MapUserdata* userdata);
void OnFenceCompletedValueUpdated(FenceCompletionUserdata* userdata); void OnFenceCompletedValueUpdated(FenceCompletionUserdata* userdata);

View File

@ -30,8 +30,6 @@ namespace dawn_wire { namespace server {
bool Server::DoBufferMapAsync(ObjectId bufferId, bool Server::DoBufferMapAsync(ObjectId bufferId,
uint32_t requestSerial, uint32_t requestSerial,
uint32_t start,
uint32_t size,
bool isWrite) { bool isWrite) {
// These requests are just forwarded to the buffer, with userdata containing what the // These requests are just forwarded to the buffer, with userdata containing what the
// client will require in the return command. // client will require in the return command.
@ -50,7 +48,6 @@ namespace dawn_wire { namespace server {
data->server = this; data->server = this;
data->buffer = ObjectHandle{bufferId, buffer->serial}; data->buffer = ObjectHandle{bufferId, buffer->serial};
data->requestSerial = requestSerial; data->requestSerial = requestSerial;
data->size = size;
data->isWrite = isWrite; data->isWrite = isWrite;
auto userdata = static_cast<uint64_t>(reinterpret_cast<uintptr_t>(data)); auto userdata = static_cast<uint64_t>(reinterpret_cast<uintptr_t>(data));
@ -58,19 +55,18 @@ namespace dawn_wire { namespace server {
if (!buffer->valid) { if (!buffer->valid) {
// Fake the buffer returning a failure, data will be freed in this call. // Fake the buffer returning a failure, data will be freed in this call.
if (isWrite) { if (isWrite) {
ForwardBufferMapWriteAsync(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, userdata); ForwardBufferMapWriteAsync(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, 0,
userdata);
} else { } else {
ForwardBufferMapReadAsync(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, userdata); ForwardBufferMapReadAsync(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, 0, userdata);
} }
return true; return true;
} }
if (isWrite) { if (isWrite) {
mProcs.bufferMapWriteAsync(buffer->handle, start, size, ForwardBufferMapWriteAsync, mProcs.bufferMapWriteAsync(buffer->handle, ForwardBufferMapWriteAsync, userdata);
userdata);
} else { } else {
mProcs.bufferMapReadAsync(buffer->handle, start, size, ForwardBufferMapReadAsync, mProcs.bufferMapReadAsync(buffer->handle, ForwardBufferMapReadAsync, userdata);
userdata);
} }
return true; return true;
@ -99,20 +95,23 @@ namespace dawn_wire { namespace server {
void Server::ForwardBufferMapReadAsync(dawnBufferMapAsyncStatus status, void Server::ForwardBufferMapReadAsync(dawnBufferMapAsyncStatus status,
const void* ptr, const void* ptr,
uint32_t dataLength,
dawnCallbackUserdata userdata) { dawnCallbackUserdata userdata) {
auto data = reinterpret_cast<MapUserdata*>(static_cast<uintptr_t>(userdata)); auto data = reinterpret_cast<MapUserdata*>(static_cast<uintptr_t>(userdata));
data->server->OnBufferMapReadAsyncCallback(status, ptr, data); data->server->OnBufferMapReadAsyncCallback(status, ptr, dataLength, data);
} }
void Server::ForwardBufferMapWriteAsync(dawnBufferMapAsyncStatus status, void Server::ForwardBufferMapWriteAsync(dawnBufferMapAsyncStatus status,
void* ptr, void* ptr,
uint32_t dataLength,
dawnCallbackUserdata userdata) { dawnCallbackUserdata userdata) {
auto data = reinterpret_cast<MapUserdata*>(static_cast<uintptr_t>(userdata)); auto data = reinterpret_cast<MapUserdata*>(static_cast<uintptr_t>(userdata));
data->server->OnBufferMapWriteAsyncCallback(status, ptr, data); data->server->OnBufferMapWriteAsyncCallback(status, ptr, dataLength, data);
} }
void Server::OnBufferMapReadAsyncCallback(dawnBufferMapAsyncStatus status, void Server::OnBufferMapReadAsyncCallback(dawnBufferMapAsyncStatus status,
const void* ptr, const void* ptr,
uint32_t dataLength,
MapUserdata* userdata) { MapUserdata* userdata) {
std::unique_ptr<MapUserdata> data(userdata); std::unique_ptr<MapUserdata> data(userdata);
@ -130,7 +129,7 @@ namespace dawn_wire { namespace server {
cmd.data = reinterpret_cast<const uint8_t*>(ptr); cmd.data = reinterpret_cast<const uint8_t*>(ptr);
if (status == DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS) { if (status == DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS) {
cmd.dataLength = data->size; cmd.dataLength = dataLength;
} }
size_t requiredSize = cmd.GetRequiredSize(); size_t requiredSize = cmd.GetRequiredSize();
@ -140,6 +139,7 @@ namespace dawn_wire { namespace server {
void Server::OnBufferMapWriteAsyncCallback(dawnBufferMapAsyncStatus status, void Server::OnBufferMapWriteAsyncCallback(dawnBufferMapAsyncStatus status,
void* ptr, void* ptr,
uint32_t dataLength,
MapUserdata* userdata) { MapUserdata* userdata) {
std::unique_ptr<MapUserdata> data(userdata); std::unique_ptr<MapUserdata> data(userdata);
@ -153,6 +153,7 @@ namespace dawn_wire { namespace server {
cmd.buffer = data->buffer; cmd.buffer = data->buffer;
cmd.requestSerial = data->requestSerial; cmd.requestSerial = data->requestSerial;
cmd.status = status; cmd.status = status;
cmd.dataLength = dataLength;
size_t requiredSize = cmd.GetRequiredSize(); size_t requiredSize = cmd.GetRequiredSize();
char* allocatedBuffer = static_cast<char*>(GetCmdSpace(requiredSize)); char* allocatedBuffer = static_cast<char*>(GetCmdSpace(requiredSize));
@ -160,7 +161,7 @@ namespace dawn_wire { namespace server {
if (status == DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS) { if (status == DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS) {
bufferData->mappedData = ptr; bufferData->mappedData = ptr;
bufferData->mappedDataSize = data->size; bufferData->mappedDataSize = dataLength;
} }
} }

View File

@ -386,9 +386,8 @@ void DawnTest::MapSlotsSynchronously() {
auto userdata = new MapReadUserdata{this, i}; auto userdata = new MapReadUserdata{this, i};
auto& slot = mReadbackSlots[i]; auto& slot = mReadbackSlots[i];
slot.buffer.MapReadAsync( slot.buffer.MapReadAsync(SlotMapReadCallback, static_cast<dawn::CallbackUserdata>(
0, slot.bufferSize, SlotMapReadCallback, reinterpret_cast<uintptr_t>(userdata)));
static_cast<dawn::CallbackUserdata>(reinterpret_cast<uintptr_t>(userdata)));
} }
// Busy wait until all map operations are done. // Busy wait until all map operations are done.
@ -400,6 +399,7 @@ void DawnTest::MapSlotsSynchronously() {
// static // static
void DawnTest::SlotMapReadCallback(dawnBufferMapAsyncStatus status, void DawnTest::SlotMapReadCallback(dawnBufferMapAsyncStatus status,
const void* data, const void* data,
uint32_t,
dawnCallbackUserdata userdata_) { dawnCallbackUserdata userdata_) {
DAWN_ASSERT(status == DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS); DAWN_ASSERT(status == DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS);

View File

@ -148,6 +148,7 @@ class DawnTest : public ::testing::TestWithParam<dawn_native::BackendType> {
void MapSlotsSynchronously(); void MapSlotsSynchronously();
static void SlotMapReadCallback(dawnBufferMapAsyncStatus status, static void SlotMapReadCallback(dawnBufferMapAsyncStatus status,
const void* data, const void* data,
uint32_t dataLength,
dawnCallbackUserdata userdata); dawnCallbackUserdata userdata);
size_t mNumPendingMapOperations = 0; size_t mNumPendingMapOperations = 0;

View File

@ -18,7 +18,10 @@
class BufferMapReadTests : public DawnTest { class BufferMapReadTests : public DawnTest {
protected: protected:
static void MapReadCallback(dawnBufferMapAsyncStatus status, const void* data, dawnCallbackUserdata userdata) { static void MapReadCallback(dawnBufferMapAsyncStatus status,
const void* data,
uint32_t,
dawnCallbackUserdata userdata) {
ASSERT_EQ(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, status); ASSERT_EQ(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, status);
ASSERT_NE(nullptr, data); ASSERT_NE(nullptr, data);
@ -26,8 +29,9 @@ class BufferMapReadTests : public DawnTest {
test->mappedData = data; test->mappedData = data;
} }
const void* MapReadAsyncAndWait(const dawn::Buffer& buffer, uint32_t start, uint32_t offset) { const void* MapReadAsyncAndWait(const dawn::Buffer& buffer) {
buffer.MapReadAsync(start, offset, MapReadCallback, static_cast<dawn::CallbackUserdata>(reinterpret_cast<uintptr_t>(this))); buffer.MapReadAsync(MapReadCallback, static_cast<dawn::CallbackUserdata>(
reinterpret_cast<uintptr_t>(this)));
while (mappedData == nullptr) { while (mappedData == nullptr) {
WaitABit(); WaitABit();
@ -40,7 +44,7 @@ class BufferMapReadTests : public DawnTest {
const void* mappedData = nullptr; const void* mappedData = nullptr;
}; };
// Test that the simplest map read (one u8 at offset 0) works. // Test that the simplest map read works.
TEST_P(BufferMapReadTests, SmallReadAtZero) { TEST_P(BufferMapReadTests, SmallReadAtZero) {
dawn::BufferDescriptor descriptor; dawn::BufferDescriptor descriptor;
descriptor.size = 1; descriptor.size = 1;
@ -50,45 +54,13 @@ TEST_P(BufferMapReadTests, SmallReadAtZero) {
uint8_t myData = 187; uint8_t myData = 187;
buffer.SetSubData(0, sizeof(myData), &myData); buffer.SetSubData(0, sizeof(myData), &myData);
const void* mappedData = MapReadAsyncAndWait(buffer, 0, 1); const void* mappedData = MapReadAsyncAndWait(buffer);
ASSERT_EQ(myData, *reinterpret_cast<const uint8_t*>(mappedData)); ASSERT_EQ(myData, *reinterpret_cast<const uint8_t*>(mappedData));
buffer.Unmap(); buffer.Unmap();
} }
// Test mapping a buffer at an offset. // Test mapping a large buffer.
TEST_P(BufferMapReadTests, SmallReadAtOffset) {
dawn::BufferDescriptor descriptor;
descriptor.size = 4000;
descriptor.usage = dawn::BufferUsageBit::MapRead | dawn::BufferUsageBit::TransferDst;
dawn::Buffer buffer = device.CreateBuffer(&descriptor);
uint8_t myData = 234;
buffer.SetSubData(2048, sizeof(myData), &myData);
const void* mappedData = MapReadAsyncAndWait(buffer, 2048, 4);
ASSERT_EQ(myData, *reinterpret_cast<const uint8_t*>(mappedData));
buffer.Unmap();
}
// Test mapping a buffer at an offset that's not uint32-aligned.
TEST_P(BufferMapReadTests, SmallReadAtUnalignedOffset) {
dawn::BufferDescriptor descriptor;
descriptor.size = 4000;
descriptor.usage = dawn::BufferUsageBit::MapRead | dawn::BufferUsageBit::TransferDst;
dawn::Buffer buffer = device.CreateBuffer(&descriptor);
uint8_t myData = 213;
buffer.SetSubData(3, 1, &myData);
const void* mappedData = MapReadAsyncAndWait(buffer, 3, 1);
ASSERT_EQ(myData, *reinterpret_cast<const uint8_t*>(mappedData));
buffer.Unmap();
}
// Test mapping large ranges of a buffer.
TEST_P(BufferMapReadTests, LargeRead) { TEST_P(BufferMapReadTests, LargeRead) {
constexpr uint32_t kDataSize = 1000 * 1000; constexpr uint32_t kDataSize = 1000 * 1000;
std::vector<uint32_t> myData; std::vector<uint32_t> myData;
@ -103,7 +75,7 @@ TEST_P(BufferMapReadTests, LargeRead) {
buffer.SetSubData(0, kDataSize * sizeof(uint32_t), reinterpret_cast<uint8_t*>(myData.data())); buffer.SetSubData(0, kDataSize * sizeof(uint32_t), reinterpret_cast<uint8_t*>(myData.data()));
const void* mappedData = MapReadAsyncAndWait(buffer, 0, static_cast<uint32_t>(kDataSize * sizeof(uint32_t))); const void* mappedData = MapReadAsyncAndWait(buffer);
ASSERT_EQ(0, memcmp(mappedData, myData.data(), kDataSize * sizeof(uint32_t))); ASSERT_EQ(0, memcmp(mappedData, myData.data(), kDataSize * sizeof(uint32_t)));
buffer.Unmap(); buffer.Unmap();
@ -113,8 +85,10 @@ DAWN_INSTANTIATE_TEST(BufferMapReadTests, D3D12Backend, MetalBackend, OpenGLBack
class BufferMapWriteTests : public DawnTest { class BufferMapWriteTests : public DawnTest {
protected: protected:
static void MapWriteCallback(dawnBufferMapAsyncStatus status,
static void MapWriteCallback(dawnBufferMapAsyncStatus status, void* data, dawnCallbackUserdata userdata) { void* data,
uint32_t,
dawnCallbackUserdata userdata) {
ASSERT_EQ(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, status); ASSERT_EQ(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, status);
ASSERT_NE(nullptr, data); ASSERT_NE(nullptr, data);
@ -122,8 +96,9 @@ class BufferMapWriteTests : public DawnTest {
test->mappedData = data; test->mappedData = data;
} }
void* MapWriteAsyncAndWait(const dawn::Buffer& buffer, uint32_t start, uint32_t offset) { void* MapWriteAsyncAndWait(const dawn::Buffer& buffer) {
buffer.MapWriteAsync(start, offset, MapWriteCallback, static_cast<dawn::CallbackUserdata>(reinterpret_cast<uintptr_t>(this))); buffer.MapWriteAsync(MapWriteCallback, static_cast<dawn::CallbackUserdata>(
reinterpret_cast<uintptr_t>(this)));
while (mappedData == nullptr) { while (mappedData == nullptr) {
WaitABit(); WaitABit();
@ -136,7 +111,7 @@ class BufferMapWriteTests : public DawnTest {
void* mappedData = nullptr; void* mappedData = nullptr;
}; };
// Test that the simplest map write (one u32 at offset 0) works. // Test that the simplest map write works.
TEST_P(BufferMapWriteTests, SmallWriteAtZero) { TEST_P(BufferMapWriteTests, SmallWriteAtZero) {
dawn::BufferDescriptor descriptor; dawn::BufferDescriptor descriptor;
descriptor.size = 4; descriptor.size = 4;
@ -144,29 +119,14 @@ TEST_P(BufferMapWriteTests, SmallWriteAtZero) {
dawn::Buffer buffer = device.CreateBuffer(&descriptor); dawn::Buffer buffer = device.CreateBuffer(&descriptor);
uint32_t myData = 2934875; uint32_t myData = 2934875;
void* mappedData = MapWriteAsyncAndWait(buffer, 0, 4); void* mappedData = MapWriteAsyncAndWait(buffer);
memcpy(mappedData, &myData, sizeof(myData)); memcpy(mappedData, &myData, sizeof(myData));
buffer.Unmap(); buffer.Unmap();
EXPECT_BUFFER_U32_EQ(myData, buffer, 0); EXPECT_BUFFER_U32_EQ(myData, buffer, 0);
} }
// Test mapping a buffer at an offset. // Test mapping a large buffer.
TEST_P(BufferMapWriteTests, SmallWriteAtOffset) {
dawn::BufferDescriptor descriptor;
descriptor.size = 4000;
descriptor.usage = dawn::BufferUsageBit::MapWrite | dawn::BufferUsageBit::TransferSrc;
dawn::Buffer buffer = device.CreateBuffer(&descriptor);
uint32_t myData = 2934875;
void* mappedData = MapWriteAsyncAndWait(buffer, 2048, 4);
memcpy(mappedData, &myData, sizeof(myData));
buffer.Unmap();
EXPECT_BUFFER_U32_EQ(myData, buffer, 2048);
}
// Test mapping large ranges of a buffer.
TEST_P(BufferMapWriteTests, LargeWrite) { TEST_P(BufferMapWriteTests, LargeWrite) {
constexpr uint32_t kDataSize = 1000 * 1000; constexpr uint32_t kDataSize = 1000 * 1000;
std::vector<uint32_t> myData; std::vector<uint32_t> myData;
@ -179,7 +139,7 @@ TEST_P(BufferMapWriteTests, LargeWrite) {
descriptor.usage = dawn::BufferUsageBit::MapWrite | dawn::BufferUsageBit::TransferSrc; descriptor.usage = dawn::BufferUsageBit::MapWrite | dawn::BufferUsageBit::TransferSrc;
dawn::Buffer buffer = device.CreateBuffer(&descriptor); dawn::Buffer buffer = device.CreateBuffer(&descriptor);
void* mappedData = MapWriteAsyncAndWait(buffer, 0, kDataSize * sizeof(uint32_t)); void* mappedData = MapWriteAsyncAndWait(buffer);
memcpy(mappedData, myData.data(), kDataSize * sizeof(uint32_t)); memcpy(mappedData, myData.data(), kDataSize * sizeof(uint32_t));
buffer.Unmap(); buffer.Unmap();

View File

@ -22,24 +22,40 @@ using namespace testing;
class MockBufferMapReadCallback { class MockBufferMapReadCallback {
public: public:
MOCK_METHOD3(Call, void(dawnBufferMapAsyncStatus status, const uint32_t* ptr, dawnCallbackUserdata userdata)); MOCK_METHOD4(Call,
void(dawnBufferMapAsyncStatus status,
const uint32_t* ptr,
uint32_t dataLength,
dawnCallbackUserdata userdata));
}; };
static std::unique_ptr<MockBufferMapReadCallback> mockBufferMapReadCallback; static std::unique_ptr<MockBufferMapReadCallback> mockBufferMapReadCallback;
static void ToMockBufferMapReadCallback(dawnBufferMapAsyncStatus status, const void* ptr, dawnCallbackUserdata userdata) { static void ToMockBufferMapReadCallback(dawnBufferMapAsyncStatus status,
const void* ptr,
uint32_t dataLength,
dawnCallbackUserdata userdata) {
// Assume the data is uint32_t to make writing matchers easier // Assume the data is uint32_t to make writing matchers easier
mockBufferMapReadCallback->Call(status, reinterpret_cast<const uint32_t*>(ptr), userdata); mockBufferMapReadCallback->Call(status, reinterpret_cast<const uint32_t*>(ptr), dataLength,
userdata);
} }
class MockBufferMapWriteCallback { class MockBufferMapWriteCallback {
public: public:
MOCK_METHOD3(Call, void(dawnBufferMapAsyncStatus status, uint32_t* ptr, dawnCallbackUserdata userdata)); MOCK_METHOD4(Call,
void(dawnBufferMapAsyncStatus status,
uint32_t* ptr,
uint32_t dataLength,
dawnCallbackUserdata userdata));
}; };
static std::unique_ptr<MockBufferMapWriteCallback> mockBufferMapWriteCallback; static std::unique_ptr<MockBufferMapWriteCallback> mockBufferMapWriteCallback;
static void ToMockBufferMapWriteCallback(dawnBufferMapAsyncStatus status, void* ptr, dawnCallbackUserdata userdata) { static void ToMockBufferMapWriteCallback(dawnBufferMapAsyncStatus status,
void* ptr,
uint32_t dataLength,
dawnCallbackUserdata userdata) {
// Assume the data is uint32_t to make writing matchers easier // Assume the data is uint32_t to make writing matchers easier
mockBufferMapWriteCallback->Call(status, reinterpret_cast<uint32_t*>(ptr), userdata); mockBufferMapWriteCallback->Call(status, reinterpret_cast<uint32_t*>(ptr), dataLength,
userdata);
} }
class BufferValidationTest : public ValidationTest { class BufferValidationTest : public ValidationTest {
@ -142,9 +158,10 @@ TEST_F(BufferValidationTest, MapReadSuccess) {
dawn::Buffer buf = CreateMapReadBuffer(4); dawn::Buffer buf = CreateMapReadBuffer(4);
dawn::CallbackUserdata userdata = 40598; dawn::CallbackUserdata userdata = 40598;
buf.MapReadAsync(0, 4, ToMockBufferMapReadCallback, userdata); buf.MapReadAsync(ToMockBufferMapReadCallback, userdata);
EXPECT_CALL(*mockBufferMapReadCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Ne(nullptr), userdata)) EXPECT_CALL(*mockBufferMapReadCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Ne(nullptr), 4u, userdata))
.Times(1); .Times(1);
queue.Submit(0, nullptr); queue.Submit(0, nullptr);
@ -156,67 +173,16 @@ TEST_F(BufferValidationTest, MapWriteSuccess) {
dawn::Buffer buf = CreateMapWriteBuffer(4); dawn::Buffer buf = CreateMapWriteBuffer(4);
dawn::CallbackUserdata userdata = 40598; dawn::CallbackUserdata userdata = 40598;
buf.MapWriteAsync(0, 4, ToMockBufferMapWriteCallback, userdata); buf.MapWriteAsync(ToMockBufferMapWriteCallback, userdata);
EXPECT_CALL(*mockBufferMapWriteCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Ne(nullptr), userdata)) EXPECT_CALL(*mockBufferMapWriteCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Ne(nullptr), 4u, userdata))
.Times(1); .Times(1);
queue.Submit(0, nullptr); queue.Submit(0, nullptr);
buf.Unmap(); buf.Unmap();
} }
// Test map reading out of range causes an error
TEST_F(BufferValidationTest, MapReadOutOfRange) {
dawn::Buffer buf = CreateMapReadBuffer(4);
dawn::CallbackUserdata userdata = 40599;
EXPECT_CALL(*mockBufferMapReadCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, userdata))
.Times(1);
ASSERT_DEVICE_ERROR(buf.MapReadAsync(0, 5, ToMockBufferMapReadCallback, userdata));
}
// Test map writing out of range causes an error
TEST_F(BufferValidationTest, MapWriteOutOfRange) {
dawn::Buffer buf = CreateMapWriteBuffer(4);
dawn::CallbackUserdata userdata = 40599;
EXPECT_CALL(*mockBufferMapWriteCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, userdata))
.Times(1);
ASSERT_DEVICE_ERROR(buf.MapWriteAsync(0, 5, ToMockBufferMapWriteCallback, userdata));
}
// Test map reading out of range causes an error, with an overflow
TEST_F(BufferValidationTest, MapReadOutOfRangeOverflow) {
dawn::Buffer buf = CreateMapReadBuffer(4);
dawn::CallbackUserdata userdata = 40599;
EXPECT_CALL(*mockBufferMapReadCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, userdata))
.Times(1);
// An offset that when added to "2" would overflow to be zero and pass validation without
// overflow checks.
uint32_t offset = uint32_t(int32_t(0) - int32_t(2));
ASSERT_DEVICE_ERROR(buf.MapReadAsync(offset, 2, ToMockBufferMapReadCallback, userdata));
}
// Test map writing out of range causes an error, with an overflow
TEST_F(BufferValidationTest, MapWriteOutOfRangeOverflow) {
dawn::Buffer buf = CreateMapWriteBuffer(4);
dawn::CallbackUserdata userdata = 40599;
EXPECT_CALL(*mockBufferMapWriteCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, userdata))
.Times(1);
// An offset that when added to "2" would overflow to be zero and pass validation without
// overflow checks.
uint32_t offset = uint32_t(int32_t(0) - int32_t(2));
ASSERT_DEVICE_ERROR(buf.MapWriteAsync(offset, 5, ToMockBufferMapWriteCallback, userdata));
}
// Test map reading a buffer with wrong current usage // Test map reading a buffer with wrong current usage
TEST_F(BufferValidationTest, MapReadWrongUsage) { TEST_F(BufferValidationTest, MapReadWrongUsage) {
dawn::BufferDescriptor descriptor; dawn::BufferDescriptor descriptor;
@ -226,10 +192,11 @@ TEST_F(BufferValidationTest, MapReadWrongUsage) {
dawn::Buffer buf = device.CreateBuffer(&descriptor); dawn::Buffer buf = device.CreateBuffer(&descriptor);
dawn::CallbackUserdata userdata = 40600; dawn::CallbackUserdata userdata = 40600;
EXPECT_CALL(*mockBufferMapReadCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, userdata)) EXPECT_CALL(*mockBufferMapReadCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, 0u, userdata))
.Times(1); .Times(1);
ASSERT_DEVICE_ERROR(buf.MapReadAsync(0, 4, ToMockBufferMapReadCallback, userdata)); ASSERT_DEVICE_ERROR(buf.MapReadAsync(ToMockBufferMapReadCallback, userdata));
} }
// Test map writing a buffer with wrong current usage // Test map writing a buffer with wrong current usage
@ -241,10 +208,11 @@ TEST_F(BufferValidationTest, MapWriteWrongUsage) {
dawn::Buffer buf = device.CreateBuffer(&descriptor); dawn::Buffer buf = device.CreateBuffer(&descriptor);
dawn::CallbackUserdata userdata = 40600; dawn::CallbackUserdata userdata = 40600;
EXPECT_CALL(*mockBufferMapWriteCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, userdata)) EXPECT_CALL(*mockBufferMapWriteCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, 0u, userdata))
.Times(1); .Times(1);
ASSERT_DEVICE_ERROR(buf.MapWriteAsync(0, 4, ToMockBufferMapWriteCallback, userdata)); ASSERT_DEVICE_ERROR(buf.MapWriteAsync(ToMockBufferMapWriteCallback, userdata));
} }
// Test map reading a buffer that is already mapped // Test map reading a buffer that is already mapped
@ -252,14 +220,16 @@ TEST_F(BufferValidationTest, MapReadAlreadyMapped) {
dawn::Buffer buf = CreateMapReadBuffer(4); dawn::Buffer buf = CreateMapReadBuffer(4);
dawn::CallbackUserdata userdata1 = 40601; dawn::CallbackUserdata userdata1 = 40601;
buf.MapReadAsync(0, 4, ToMockBufferMapReadCallback, userdata1); buf.MapReadAsync(ToMockBufferMapReadCallback, userdata1);
EXPECT_CALL(*mockBufferMapReadCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Ne(nullptr), userdata1)) EXPECT_CALL(*mockBufferMapReadCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Ne(nullptr), 4u, userdata1))
.Times(1); .Times(1);
dawn::CallbackUserdata userdata2 = 40602; dawn::CallbackUserdata userdata2 = 40602;
EXPECT_CALL(*mockBufferMapReadCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, userdata2)) EXPECT_CALL(*mockBufferMapReadCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, 0u, userdata2))
.Times(1); .Times(1);
ASSERT_DEVICE_ERROR(buf.MapReadAsync(0, 4, ToMockBufferMapReadCallback, userdata2)); ASSERT_DEVICE_ERROR(buf.MapReadAsync(ToMockBufferMapReadCallback, userdata2));
queue.Submit(0, nullptr); queue.Submit(0, nullptr);
} }
@ -269,14 +239,16 @@ TEST_F(BufferValidationTest, MapWriteAlreadyMapped) {
dawn::Buffer buf = CreateMapWriteBuffer(4); dawn::Buffer buf = CreateMapWriteBuffer(4);
dawn::CallbackUserdata userdata1 = 40601; dawn::CallbackUserdata userdata1 = 40601;
buf.MapWriteAsync(0, 4, ToMockBufferMapWriteCallback, userdata1); buf.MapWriteAsync(ToMockBufferMapWriteCallback, userdata1);
EXPECT_CALL(*mockBufferMapWriteCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Ne(nullptr), userdata1)) EXPECT_CALL(*mockBufferMapWriteCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Ne(nullptr), 4u, userdata1))
.Times(1); .Times(1);
dawn::CallbackUserdata userdata2 = 40602; dawn::CallbackUserdata userdata2 = 40602;
EXPECT_CALL(*mockBufferMapWriteCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, userdata2)) EXPECT_CALL(*mockBufferMapWriteCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, 0u, userdata2))
.Times(1); .Times(1);
ASSERT_DEVICE_ERROR(buf.MapWriteAsync(0, 4, ToMockBufferMapWriteCallback, userdata2)); ASSERT_DEVICE_ERROR(buf.MapWriteAsync(ToMockBufferMapWriteCallback, userdata2));
queue.Submit(0, nullptr); queue.Submit(0, nullptr);
} }
@ -287,9 +259,10 @@ TEST_F(BufferValidationTest, MapReadUnmapBeforeResult) {
dawn::Buffer buf = CreateMapReadBuffer(4); dawn::Buffer buf = CreateMapReadBuffer(4);
dawn::CallbackUserdata userdata = 40603; dawn::CallbackUserdata userdata = 40603;
buf.MapReadAsync(0, 4, ToMockBufferMapReadCallback, userdata); buf.MapReadAsync(ToMockBufferMapReadCallback, userdata);
EXPECT_CALL(*mockBufferMapReadCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, userdata)) EXPECT_CALL(*mockBufferMapReadCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, 0u, userdata))
.Times(1); .Times(1);
buf.Unmap(); buf.Unmap();
@ -303,9 +276,10 @@ TEST_F(BufferValidationTest, MapWriteUnmapBeforeResult) {
dawn::Buffer buf = CreateMapWriteBuffer(4); dawn::Buffer buf = CreateMapWriteBuffer(4);
dawn::CallbackUserdata userdata = 40603; dawn::CallbackUserdata userdata = 40603;
buf.MapWriteAsync(0, 4, ToMockBufferMapWriteCallback, userdata); buf.MapWriteAsync(ToMockBufferMapWriteCallback, userdata);
EXPECT_CALL(*mockBufferMapWriteCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, userdata)) EXPECT_CALL(*mockBufferMapWriteCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, 0u, userdata))
.Times(1); .Times(1);
buf.Unmap(); buf.Unmap();
@ -322,9 +296,10 @@ TEST_F(BufferValidationTest, DISABLED_MapReadDestroyBeforeResult) {
dawn::Buffer buf = CreateMapReadBuffer(4); dawn::Buffer buf = CreateMapReadBuffer(4);
dawn::CallbackUserdata userdata = 40604; dawn::CallbackUserdata userdata = 40604;
buf.MapReadAsync(0, 4, ToMockBufferMapReadCallback, userdata); buf.MapReadAsync(ToMockBufferMapReadCallback, userdata);
EXPECT_CALL(*mockBufferMapReadCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, userdata)) EXPECT_CALL(*mockBufferMapReadCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, 0u, userdata))
.Times(1); .Times(1);
} }
@ -341,9 +316,10 @@ TEST_F(BufferValidationTest, DISABLED_MapWriteDestroyBeforeResult) {
dawn::Buffer buf = CreateMapWriteBuffer(4); dawn::Buffer buf = CreateMapWriteBuffer(4);
dawn::CallbackUserdata userdata = 40604; dawn::CallbackUserdata userdata = 40604;
buf.MapWriteAsync(0, 4, ToMockBufferMapWriteCallback, userdata); buf.MapWriteAsync(ToMockBufferMapWriteCallback, userdata);
EXPECT_CALL(*mockBufferMapWriteCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, userdata)) EXPECT_CALL(*mockBufferMapWriteCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, 0u, userdata))
.Times(1); .Times(1);
} }
@ -358,17 +334,19 @@ TEST_F(BufferValidationTest, MapReadUnmapBeforeResultThenMapAgain) {
dawn::Buffer buf = CreateMapReadBuffer(4); dawn::Buffer buf = CreateMapReadBuffer(4);
dawn::CallbackUserdata userdata = 40605; dawn::CallbackUserdata userdata = 40605;
buf.MapReadAsync(0, 4, ToMockBufferMapReadCallback, userdata); buf.MapReadAsync(ToMockBufferMapReadCallback, userdata);
EXPECT_CALL(*mockBufferMapReadCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, userdata)) EXPECT_CALL(*mockBufferMapReadCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, 0u, userdata))
.Times(1); .Times(1);
buf.Unmap(); buf.Unmap();
userdata ++; userdata ++;
buf.MapReadAsync(0, 4, ToMockBufferMapReadCallback, userdata); buf.MapReadAsync(ToMockBufferMapReadCallback, userdata);
EXPECT_CALL(*mockBufferMapReadCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Ne(nullptr), userdata)) EXPECT_CALL(*mockBufferMapReadCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Ne(nullptr), 4u, userdata))
.Times(1); .Times(1);
queue.Submit(0, nullptr); queue.Submit(0, nullptr);
} }
@ -380,17 +358,19 @@ TEST_F(BufferValidationTest, MapWriteUnmapBeforeResultThenMapAgain) {
dawn::Buffer buf = CreateMapWriteBuffer(4); dawn::Buffer buf = CreateMapWriteBuffer(4);
dawn::CallbackUserdata userdata = 40605; dawn::CallbackUserdata userdata = 40605;
buf.MapWriteAsync(0, 4, ToMockBufferMapWriteCallback, userdata); buf.MapWriteAsync(ToMockBufferMapWriteCallback, userdata);
EXPECT_CALL(*mockBufferMapWriteCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, userdata)) EXPECT_CALL(*mockBufferMapWriteCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, 0u, userdata))
.Times(1); .Times(1);
buf.Unmap(); buf.Unmap();
userdata ++; userdata ++;
buf.MapWriteAsync(0, 4, ToMockBufferMapWriteCallback, userdata); buf.MapWriteAsync(ToMockBufferMapWriteCallback, userdata);
EXPECT_CALL(*mockBufferMapWriteCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Ne(nullptr), userdata)) EXPECT_CALL(*mockBufferMapWriteCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Ne(nullptr), 4u, userdata))
.Times(1); .Times(1);
queue.Submit(0, nullptr); queue.Submit(0, nullptr);
} }
@ -400,12 +380,11 @@ TEST_F(BufferValidationTest, UnmapInsideMapReadCallback) {
dawn::Buffer buf = CreateMapReadBuffer(4); dawn::Buffer buf = CreateMapReadBuffer(4);
dawn::CallbackUserdata userdata = 40678; dawn::CallbackUserdata userdata = 40678;
buf.MapReadAsync(0, 4, ToMockBufferMapReadCallback, userdata); buf.MapReadAsync(ToMockBufferMapReadCallback, userdata);
EXPECT_CALL(*mockBufferMapReadCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Ne(nullptr), userdata)) EXPECT_CALL(*mockBufferMapReadCallback,
.WillOnce(InvokeWithoutArgs([&]() { Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Ne(nullptr), 4u, userdata))
buf.Unmap(); .WillOnce(InvokeWithoutArgs([&]() { buf.Unmap(); }));
}));
queue.Submit(0, nullptr); queue.Submit(0, nullptr);
} }
@ -415,12 +394,11 @@ TEST_F(BufferValidationTest, UnmapInsideMapWriteCallback) {
dawn::Buffer buf = CreateMapWriteBuffer(4); dawn::Buffer buf = CreateMapWriteBuffer(4);
dawn::CallbackUserdata userdata = 40678; dawn::CallbackUserdata userdata = 40678;
buf.MapWriteAsync(0, 4, ToMockBufferMapWriteCallback, userdata); buf.MapWriteAsync(ToMockBufferMapWriteCallback, userdata);
EXPECT_CALL(*mockBufferMapWriteCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Ne(nullptr), userdata)) EXPECT_CALL(*mockBufferMapWriteCallback,
.WillOnce(InvokeWithoutArgs([&]() { Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Ne(nullptr), 4u, userdata))
buf.Unmap(); .WillOnce(InvokeWithoutArgs([&]() { buf.Unmap(); }));
}));
queue.Submit(0, nullptr); queue.Submit(0, nullptr);
} }
@ -430,12 +408,11 @@ TEST_F(BufferValidationTest, DestroyInsideMapReadCallback) {
dawn::Buffer buf = CreateMapReadBuffer(4); dawn::Buffer buf = CreateMapReadBuffer(4);
dawn::CallbackUserdata userdata = 40679; dawn::CallbackUserdata userdata = 40679;
buf.MapReadAsync(0, 4, ToMockBufferMapReadCallback, userdata); buf.MapReadAsync(ToMockBufferMapReadCallback, userdata);
EXPECT_CALL(*mockBufferMapReadCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Ne(nullptr), userdata)) EXPECT_CALL(*mockBufferMapReadCallback,
.WillOnce(InvokeWithoutArgs([&]() { Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Ne(nullptr), 4u, userdata))
buf = dawn::Buffer(); .WillOnce(InvokeWithoutArgs([&]() { buf = dawn::Buffer(); }));
}));
queue.Submit(0, nullptr); queue.Submit(0, nullptr);
} }
@ -445,12 +422,11 @@ TEST_F(BufferValidationTest, DestroyInsideMapWriteCallback) {
dawn::Buffer buf = CreateMapWriteBuffer(4); dawn::Buffer buf = CreateMapWriteBuffer(4);
dawn::CallbackUserdata userdata = 40679; dawn::CallbackUserdata userdata = 40679;
buf.MapWriteAsync(0, 4, ToMockBufferMapWriteCallback, userdata); buf.MapWriteAsync(ToMockBufferMapWriteCallback, userdata);
EXPECT_CALL(*mockBufferMapWriteCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Ne(nullptr), userdata)) EXPECT_CALL(*mockBufferMapWriteCallback,
.WillOnce(InvokeWithoutArgs([&]() { Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Ne(nullptr), 4u, userdata))
buf = dawn::Buffer(); .WillOnce(InvokeWithoutArgs([&]() { buf = dawn::Buffer(); }));
}));
queue.Submit(0, nullptr); queue.Submit(0, nullptr);
} }
@ -512,12 +488,12 @@ TEST_F(BufferValidationTest, DestroyUnmappedBuffer) {
TEST_F(BufferValidationTest, DestroyMappedBuffer) { TEST_F(BufferValidationTest, DestroyMappedBuffer) {
{ {
dawn::Buffer buf = CreateMapReadBuffer(4); dawn::Buffer buf = CreateMapReadBuffer(4);
buf.MapReadAsync(0, 4, ToMockBufferMapReadCallback, 30303); buf.MapReadAsync(ToMockBufferMapReadCallback, 30303);
buf.Destroy(); buf.Destroy();
} }
{ {
dawn::Buffer buf = CreateMapWriteBuffer(4); dawn::Buffer buf = CreateMapWriteBuffer(4);
buf.MapWriteAsync(0, 4, ToMockBufferMapWriteCallback, 30233); buf.MapWriteAsync(ToMockBufferMapWriteCallback, 30233);
buf.Destroy(); buf.Destroy();
} }
} }
@ -527,10 +503,10 @@ TEST_F(BufferValidationTest, DestroyMappedBufferCausesImplicitUnmap) {
{ {
dawn::Buffer buf = CreateMapReadBuffer(4); dawn::Buffer buf = CreateMapReadBuffer(4);
dawn::CallbackUserdata userdata = 40598; dawn::CallbackUserdata userdata = 40598;
buf.MapReadAsync(0, 4, ToMockBufferMapReadCallback, userdata); buf.MapReadAsync(ToMockBufferMapReadCallback, userdata);
// Buffer is destroyed. Callback should be called with UNKNOWN status // Buffer is destroyed. Callback should be called with UNKNOWN status
EXPECT_CALL(*mockBufferMapReadCallback, EXPECT_CALL(*mockBufferMapReadCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, userdata)) Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, 0, userdata))
.Times(1); .Times(1);
buf.Destroy(); buf.Destroy();
queue.Submit(0, nullptr); queue.Submit(0, nullptr);
@ -538,10 +514,10 @@ TEST_F(BufferValidationTest, DestroyMappedBufferCausesImplicitUnmap) {
{ {
dawn::Buffer buf = CreateMapWriteBuffer(4); dawn::Buffer buf = CreateMapWriteBuffer(4);
dawn::CallbackUserdata userdata = 23980; dawn::CallbackUserdata userdata = 23980;
buf.MapWriteAsync(0, 4, ToMockBufferMapWriteCallback, userdata); buf.MapWriteAsync(ToMockBufferMapWriteCallback, userdata);
// Buffer is destroyed. Callback should be called with UNKNOWN status // Buffer is destroyed. Callback should be called with UNKNOWN status
EXPECT_CALL(*mockBufferMapWriteCallback, EXPECT_CALL(*mockBufferMapWriteCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, userdata)) Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, 0, userdata))
.Times(1); .Times(1);
buf.Destroy(); buf.Destroy();
queue.Submit(0, nullptr); queue.Submit(0, nullptr);
@ -574,12 +550,12 @@ TEST_F(BufferValidationTest, MapDestroyedBuffer) {
{ {
dawn::Buffer buf = CreateMapReadBuffer(4); dawn::Buffer buf = CreateMapReadBuffer(4);
buf.Destroy(); buf.Destroy();
ASSERT_DEVICE_ERROR(buf.MapReadAsync(0, 4, ToMockBufferMapReadCallback, 11303)); ASSERT_DEVICE_ERROR(buf.MapReadAsync(ToMockBufferMapReadCallback, 11303));
} }
{ {
dawn::Buffer buf = CreateMapWriteBuffer(4); dawn::Buffer buf = CreateMapWriteBuffer(4);
buf.Destroy(); buf.Destroy();
ASSERT_DEVICE_ERROR(buf.MapWriteAsync(0, 4, ToMockBufferMapWriteCallback, 56303)); ASSERT_DEVICE_ERROR(buf.MapWriteAsync(ToMockBufferMapWriteCallback, 56303));
} }
} }
@ -595,14 +571,14 @@ TEST_F(BufferValidationTest, SetSubDataDestroyedBuffer) {
TEST_F(BufferValidationTest, MapMappedbuffer) { TEST_F(BufferValidationTest, MapMappedbuffer) {
{ {
dawn::Buffer buf = CreateMapReadBuffer(4); dawn::Buffer buf = CreateMapReadBuffer(4);
buf.MapReadAsync(0, 4, ToMockBufferMapReadCallback, 43309); buf.MapReadAsync(ToMockBufferMapReadCallback, 43309);
ASSERT_DEVICE_ERROR(buf.MapReadAsync(0, 4, ToMockBufferMapReadCallback, 34309)); ASSERT_DEVICE_ERROR(buf.MapReadAsync(ToMockBufferMapReadCallback, 34309));
queue.Submit(0, nullptr); queue.Submit(0, nullptr);
} }
{ {
dawn::Buffer buf = CreateMapWriteBuffer(4); dawn::Buffer buf = CreateMapWriteBuffer(4);
buf.MapWriteAsync(0, 4, ToMockBufferMapWriteCallback, 20301); buf.MapWriteAsync(ToMockBufferMapWriteCallback, 20301);
ASSERT_DEVICE_ERROR(buf.MapWriteAsync(0, 4, ToMockBufferMapWriteCallback, 40303)); ASSERT_DEVICE_ERROR(buf.MapWriteAsync(ToMockBufferMapWriteCallback, 40303));
queue.Submit(0, nullptr); queue.Submit(0, nullptr);
} }
} }
@ -611,14 +587,14 @@ TEST_F(BufferValidationTest, MapMappedbuffer) {
TEST_F(BufferValidationTest, SetSubDataMappedBuffer) { TEST_F(BufferValidationTest, SetSubDataMappedBuffer) {
{ {
dawn::Buffer buf = CreateMapReadBuffer(4); dawn::Buffer buf = CreateMapReadBuffer(4);
buf.MapReadAsync(0, 4, ToMockBufferMapReadCallback, 42899); buf.MapReadAsync(ToMockBufferMapReadCallback, 42899);
uint8_t foo = 0; uint8_t foo = 0;
ASSERT_DEVICE_ERROR(buf.SetSubData(0, sizeof(foo), &foo)); ASSERT_DEVICE_ERROR(buf.SetSubData(0, sizeof(foo), &foo));
queue.Submit(0, nullptr); queue.Submit(0, nullptr);
} }
{ {
dawn::Buffer buf = CreateMapWriteBuffer(4); dawn::Buffer buf = CreateMapWriteBuffer(4);
buf.MapWriteAsync(0, 4, ToMockBufferMapWriteCallback, 40329); buf.MapWriteAsync(ToMockBufferMapWriteCallback, 40329);
uint8_t foo = 0; uint8_t foo = 0;
ASSERT_DEVICE_ERROR(buf.SetSubData(0, sizeof(foo), &foo)); ASSERT_DEVICE_ERROR(buf.SetSubData(0, sizeof(foo), &foo));
queue.Submit(0, nullptr); queue.Submit(0, nullptr);
@ -657,7 +633,7 @@ TEST_F(BufferValidationTest, SubmitMappedBuffer) {
dawn::Buffer bufA = device.CreateBuffer(&descriptorA); dawn::Buffer bufA = device.CreateBuffer(&descriptorA);
dawn::Buffer bufB = device.CreateBuffer(&descriptorB); dawn::Buffer bufB = device.CreateBuffer(&descriptorB);
bufA.MapWriteAsync(0, 4, ToMockBufferMapWriteCallback, 40329); bufA.MapWriteAsync(ToMockBufferMapWriteCallback, 40329);
dawn::CommandBufferBuilder builder = device.CreateCommandBufferBuilder(); dawn::CommandBufferBuilder builder = device.CreateCommandBufferBuilder();
builder.CopyBufferToBuffer(bufA, 0, bufB, 0, 4); builder.CopyBufferToBuffer(bufA, 0, bufB, 0, 4);
@ -669,7 +645,7 @@ TEST_F(BufferValidationTest, SubmitMappedBuffer) {
dawn::Buffer bufA = device.CreateBuffer(&descriptorA); dawn::Buffer bufA = device.CreateBuffer(&descriptorA);
dawn::Buffer bufB = device.CreateBuffer(&descriptorB); dawn::Buffer bufB = device.CreateBuffer(&descriptorB);
bufB.MapReadAsync(0, 4, ToMockBufferMapReadCallback, 11329); bufB.MapReadAsync(ToMockBufferMapReadCallback, 11329);
dawn::CommandBufferBuilder builder = device.CreateCommandBufferBuilder(); dawn::CommandBufferBuilder builder = device.CreateCommandBufferBuilder();
builder.CopyBufferToBuffer(bufA, 0, bufB, 0, 4); builder.CopyBufferToBuffer(bufA, 0, bufB, 0, 4);
@ -711,7 +687,7 @@ TEST_F(BufferValidationTest, UnmapUnmappedBuffer) {
dawn::Buffer buf = CreateMapReadBuffer(4); dawn::Buffer buf = CreateMapReadBuffer(4);
// Buffer starts unmapped. Unmap should succeed. // Buffer starts unmapped. Unmap should succeed.
buf.Unmap(); buf.Unmap();
buf.MapReadAsync(0, 4, ToMockBufferMapReadCallback, 30603); buf.MapReadAsync(ToMockBufferMapReadCallback, 30603);
buf.Unmap(); buf.Unmap();
// Unmapping twice should succeed // Unmapping twice should succeed
buf.Unmap(); buf.Unmap();
@ -720,7 +696,7 @@ TEST_F(BufferValidationTest, UnmapUnmappedBuffer) {
dawn::Buffer buf = CreateMapWriteBuffer(4); dawn::Buffer buf = CreateMapWriteBuffer(4);
// Buffer starts unmapped. Unmap should succeed. // Buffer starts unmapped. Unmap should succeed.
buf.Unmap(); buf.Unmap();
buf.MapWriteAsync(0, 4, ToMockBufferMapWriteCallback, 23890); buf.MapWriteAsync(ToMockBufferMapWriteCallback, 23890);
// Unmapping twice should succeed // Unmapping twice should succeed
buf.Unmap(); buf.Unmap();
buf.Unmap(); buf.Unmap();

View File

@ -21,7 +21,10 @@ namespace {
class QueueSubmitValidationTest : public ValidationTest { class QueueSubmitValidationTest : public ValidationTest {
}; };
static void StoreTrueMapWriteCallback(dawnBufferMapAsyncStatus status, void*, dawnCallbackUserdata userdata) { static void StoreTrueMapWriteCallback(dawnBufferMapAsyncStatus status,
void*,
uint32_t,
dawnCallbackUserdata userdata) {
bool* userdataPtr = reinterpret_cast<bool*>(static_cast<intptr_t>(userdata)); bool* userdataPtr = reinterpret_cast<bool*>(static_cast<intptr_t>(userdata));
*userdataPtr = true; *userdataPtr = true;
} }
@ -55,7 +58,7 @@ TEST_F(QueueSubmitValidationTest, SubmitWithMappedBuffer) {
// Map the buffer, submitting when the buffer is mapped should fail // Map the buffer, submitting when the buffer is mapped should fail
bool mapWriteFinished = false; bool mapWriteFinished = false;
dawnCallbackUserdata userdata = static_cast<dawnCallbackUserdata>(reinterpret_cast<intptr_t>(&mapWriteFinished)); dawnCallbackUserdata userdata = static_cast<dawnCallbackUserdata>(reinterpret_cast<intptr_t>(&mapWriteFinished));
buffer.MapWriteAsync(0, 4, StoreTrueMapWriteCallback, userdata); buffer.MapWriteAsync(StoreTrueMapWriteCallback, userdata);
queue.Submit(0, nullptr); queue.Submit(0, nullptr);
ASSERT_TRUE(mapWriteFinished); ASSERT_TRUE(mapWriteFinished);

View File

@ -22,25 +22,29 @@ namespace {
// Mock classes to add expectations on the wire calling callbacks // Mock classes to add expectations on the wire calling callbacks
class MockBufferMapReadCallback { class MockBufferMapReadCallback {
public: public:
MOCK_METHOD3(Call, MOCK_METHOD4(Call,
void(dawnBufferMapAsyncStatus status, void(dawnBufferMapAsyncStatus status,
const uint32_t* ptr, const uint32_t* ptr,
uint32_t dataLength,
dawnCallbackUserdata userdata)); dawnCallbackUserdata userdata));
}; };
std::unique_ptr<MockBufferMapReadCallback> mockBufferMapReadCallback; std::unique_ptr<MockBufferMapReadCallback> mockBufferMapReadCallback;
void ToMockBufferMapReadCallback(dawnBufferMapAsyncStatus status, void ToMockBufferMapReadCallback(dawnBufferMapAsyncStatus status,
const void* ptr, const void* ptr,
uint32_t dataLength,
dawnCallbackUserdata userdata) { dawnCallbackUserdata userdata) {
// Assume the data is uint32_t to make writing matchers easier // Assume the data is uint32_t to make writing matchers easier
mockBufferMapReadCallback->Call(status, static_cast<const uint32_t*>(ptr), userdata); mockBufferMapReadCallback->Call(status, static_cast<const uint32_t*>(ptr), dataLength,
userdata);
} }
class MockBufferMapWriteCallback { class MockBufferMapWriteCallback {
public: public:
MOCK_METHOD3(Call, MOCK_METHOD4(Call,
void(dawnBufferMapAsyncStatus status, void(dawnBufferMapAsyncStatus status,
uint32_t* ptr, uint32_t* ptr,
uint32_t dataLength,
dawnCallbackUserdata userdata)); dawnCallbackUserdata userdata));
}; };
@ -48,10 +52,11 @@ namespace {
uint32_t* lastMapWritePointer = nullptr; uint32_t* lastMapWritePointer = nullptr;
void ToMockBufferMapWriteCallback(dawnBufferMapAsyncStatus status, void ToMockBufferMapWriteCallback(dawnBufferMapAsyncStatus status,
void* ptr, void* ptr,
uint32_t dataLength,
dawnCallbackUserdata userdata) { dawnCallbackUserdata userdata) {
// Assume the data is uint32_t to make writing matchers easier // Assume the data is uint32_t to make writing matchers easier
lastMapWritePointer = static_cast<uint32_t*>(ptr); lastMapWritePointer = static_cast<uint32_t*>(ptr);
mockBufferMapWriteCallback->Call(status, lastMapWritePointer, userdata); mockBufferMapWriteCallback->Call(status, lastMapWritePointer, dataLength, userdata);
} }
} // anonymous namespace } // anonymous namespace
@ -116,19 +121,20 @@ class WireBufferMappingTests : public WireTest {
// Check mapping for reading a succesfully created buffer // Check mapping for reading a succesfully created buffer
TEST_F(WireBufferMappingTests, MappingForReadSuccessBuffer) { TEST_F(WireBufferMappingTests, MappingForReadSuccessBuffer) {
dawnCallbackUserdata userdata = 8653; dawnCallbackUserdata userdata = 8653;
dawnBufferMapReadAsync(buffer, 40, sizeof(uint32_t), ToMockBufferMapReadCallback, userdata); dawnBufferMapReadAsync(buffer, ToMockBufferMapReadCallback, userdata);
uint32_t bufferContent = 31337; uint32_t bufferContent = 31337;
EXPECT_CALL(api, OnBufferMapReadAsyncCallback(apiBuffer, 40, sizeof(uint32_t), _, _)) EXPECT_CALL(api, OnBufferMapReadAsyncCallback(apiBuffer, _, _))
.WillOnce(InvokeWithoutArgs([&]() { .WillOnce(InvokeWithoutArgs([&]() {
api.CallMapReadCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, api.CallMapReadCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, &bufferContent,
&bufferContent); sizeof(uint32_t));
})); }));
FlushClient(); FlushClient();
EXPECT_CALL(*mockBufferMapReadCallback, EXPECT_CALL(*mockBufferMapReadCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Pointee(Eq(bufferContent)), userdata)) Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Pointee(Eq(bufferContent)),
sizeof(uint32_t), userdata))
.Times(1); .Times(1);
FlushServer(); FlushServer();
@ -143,17 +149,17 @@ TEST_F(WireBufferMappingTests, MappingForReadSuccessBuffer) {
// reading // reading
TEST_F(WireBufferMappingTests, ErrorWhileMappingForRead) { TEST_F(WireBufferMappingTests, ErrorWhileMappingForRead) {
dawnCallbackUserdata userdata = 8654; dawnCallbackUserdata userdata = 8654;
dawnBufferMapReadAsync(buffer, 40, sizeof(uint32_t), ToMockBufferMapReadCallback, userdata); dawnBufferMapReadAsync(buffer, ToMockBufferMapReadCallback, userdata);
EXPECT_CALL(api, OnBufferMapReadAsyncCallback(apiBuffer, 40, sizeof(uint32_t), _, _)) EXPECT_CALL(api, OnBufferMapReadAsyncCallback(apiBuffer, _, _))
.WillOnce(InvokeWithoutArgs([&]() { .WillOnce(InvokeWithoutArgs([&]() {
api.CallMapReadCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr); api.CallMapReadCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, 0);
})); }));
FlushClient(); FlushClient();
EXPECT_CALL(*mockBufferMapReadCallback, EXPECT_CALL(*mockBufferMapReadCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, userdata)) Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, 0, userdata))
.Times(1); .Times(1);
FlushServer(); FlushServer();
@ -162,13 +168,12 @@ TEST_F(WireBufferMappingTests, ErrorWhileMappingForRead) {
// Check mapping for reading a buffer that didn't get created on the server side // Check mapping for reading a buffer that didn't get created on the server side
TEST_F(WireBufferMappingTests, MappingForReadErrorBuffer) { TEST_F(WireBufferMappingTests, MappingForReadErrorBuffer) {
dawnCallbackUserdata userdata = 8655; dawnCallbackUserdata userdata = 8655;
dawnBufferMapReadAsync(errorBuffer, 40, sizeof(uint32_t), ToMockBufferMapReadCallback, dawnBufferMapReadAsync(errorBuffer, ToMockBufferMapReadCallback, userdata);
userdata);
FlushClient(); FlushClient();
EXPECT_CALL(*mockBufferMapReadCallback, EXPECT_CALL(*mockBufferMapReadCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, userdata)) Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, 0, userdata))
.Times(1); .Times(1);
FlushServer(); FlushServer();
@ -182,11 +187,10 @@ TEST_F(WireBufferMappingTests, MappingForReadErrorBuffer) {
// request is finished // request is finished
TEST_F(WireBufferMappingTests, DestroyBeforeReadRequestEnd) { TEST_F(WireBufferMappingTests, DestroyBeforeReadRequestEnd) {
dawnCallbackUserdata userdata = 8656; dawnCallbackUserdata userdata = 8656;
dawnBufferMapReadAsync(errorBuffer, 40, sizeof(uint32_t), ToMockBufferMapReadCallback, dawnBufferMapReadAsync(errorBuffer, ToMockBufferMapReadCallback, userdata);
userdata);
EXPECT_CALL(*mockBufferMapReadCallback, EXPECT_CALL(*mockBufferMapReadCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, userdata)) Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, 0, userdata))
.Times(1); .Times(1);
dawnBufferRelease(errorBuffer); dawnBufferRelease(errorBuffer);
@ -196,20 +200,20 @@ TEST_F(WireBufferMappingTests, DestroyBeforeReadRequestEnd) {
// Unmap was called // Unmap was called
TEST_F(WireBufferMappingTests, UnmapCalledTooEarlyForRead) { TEST_F(WireBufferMappingTests, UnmapCalledTooEarlyForRead) {
dawnCallbackUserdata userdata = 8657; dawnCallbackUserdata userdata = 8657;
dawnBufferMapReadAsync(buffer, 40, sizeof(uint32_t), ToMockBufferMapReadCallback, userdata); dawnBufferMapReadAsync(buffer, ToMockBufferMapReadCallback, userdata);
uint32_t bufferContent = 31337; uint32_t bufferContent = 31337;
EXPECT_CALL(api, OnBufferMapReadAsyncCallback(apiBuffer, 40, sizeof(uint32_t), _, _)) EXPECT_CALL(api, OnBufferMapReadAsyncCallback(apiBuffer, _, _))
.WillOnce(InvokeWithoutArgs([&]() { .WillOnce(InvokeWithoutArgs([&]() {
api.CallMapReadCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, api.CallMapReadCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, &bufferContent,
&bufferContent); sizeof(uint32_t));
})); }));
FlushClient(); FlushClient();
// Oh no! We are calling Unmap too early! // Oh no! We are calling Unmap too early!
EXPECT_CALL(*mockBufferMapReadCallback, EXPECT_CALL(*mockBufferMapReadCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, userdata)) Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, 0, userdata))
.Times(1); .Times(1);
dawnBufferUnmap(buffer); dawnBufferUnmap(buffer);
@ -221,36 +225,37 @@ TEST_F(WireBufferMappingTests, UnmapCalledTooEarlyForRead) {
TEST_F(WireBufferMappingTests, MappingForReadingErrorWhileAlreadyMappedGetsNullptr) { TEST_F(WireBufferMappingTests, MappingForReadingErrorWhileAlreadyMappedGetsNullptr) {
// Successful map // Successful map
dawnCallbackUserdata userdata = 34098; dawnCallbackUserdata userdata = 34098;
dawnBufferMapReadAsync(buffer, 40, sizeof(uint32_t), ToMockBufferMapReadCallback, userdata); dawnBufferMapReadAsync(buffer, ToMockBufferMapReadCallback, userdata);
uint32_t bufferContent = 31337; uint32_t bufferContent = 31337;
EXPECT_CALL(api, OnBufferMapReadAsyncCallback(apiBuffer, 40, sizeof(uint32_t), _, _)) EXPECT_CALL(api, OnBufferMapReadAsyncCallback(apiBuffer, _, _))
.WillOnce(InvokeWithoutArgs([&]() { .WillOnce(InvokeWithoutArgs([&]() {
api.CallMapReadCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, api.CallMapReadCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, &bufferContent,
&bufferContent); sizeof(uint32_t));
})) }))
.RetiresOnSaturation(); .RetiresOnSaturation();
FlushClient(); FlushClient();
EXPECT_CALL(*mockBufferMapReadCallback, EXPECT_CALL(*mockBufferMapReadCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Pointee(Eq(bufferContent)), userdata)) Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Pointee(Eq(bufferContent)),
sizeof(uint32_t), userdata))
.Times(1); .Times(1);
FlushServer(); FlushServer();
// Map failure while the buffer is already mapped // Map failure while the buffer is already mapped
userdata++; userdata++;
dawnBufferMapReadAsync(buffer, 40, sizeof(uint32_t), ToMockBufferMapReadCallback, userdata); dawnBufferMapReadAsync(buffer, ToMockBufferMapReadCallback, userdata);
EXPECT_CALL(api, OnBufferMapReadAsyncCallback(apiBuffer, 40, sizeof(uint32_t), _, _)) EXPECT_CALL(api, OnBufferMapReadAsyncCallback(apiBuffer, _, _))
.WillOnce(InvokeWithoutArgs([&]() { .WillOnce(InvokeWithoutArgs([&]() {
api.CallMapReadCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr); api.CallMapReadCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, 0);
})); }));
FlushClient(); FlushClient();
EXPECT_CALL(*mockBufferMapReadCallback, EXPECT_CALL(*mockBufferMapReadCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, userdata)) Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, 0, userdata))
.Times(1); .Times(1);
FlushServer(); FlushServer();
@ -259,19 +264,20 @@ TEST_F(WireBufferMappingTests, MappingForReadingErrorWhileAlreadyMappedGetsNullp
// Test that the MapReadCallback isn't fired twice when unmap() is called inside the callback // Test that the MapReadCallback isn't fired twice when unmap() is called inside the callback
TEST_F(WireBufferMappingTests, UnmapInsideMapReadCallback) { TEST_F(WireBufferMappingTests, UnmapInsideMapReadCallback) {
dawnCallbackUserdata userdata = 2039; dawnCallbackUserdata userdata = 2039;
dawnBufferMapReadAsync(buffer, 40, sizeof(uint32_t), ToMockBufferMapReadCallback, userdata); dawnBufferMapReadAsync(buffer, ToMockBufferMapReadCallback, userdata);
uint32_t bufferContent = 31337; uint32_t bufferContent = 31337;
EXPECT_CALL(api, OnBufferMapReadAsyncCallback(apiBuffer, 40, sizeof(uint32_t), _, _)) EXPECT_CALL(api, OnBufferMapReadAsyncCallback(apiBuffer, _, _))
.WillOnce(InvokeWithoutArgs([&]() { .WillOnce(InvokeWithoutArgs([&]() {
api.CallMapReadCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, api.CallMapReadCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, &bufferContent,
&bufferContent); sizeof(uint32_t));
})); }));
FlushClient(); FlushClient();
EXPECT_CALL(*mockBufferMapReadCallback, EXPECT_CALL(*mockBufferMapReadCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Pointee(Eq(bufferContent)), userdata)) Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Pointee(Eq(bufferContent)),
sizeof(uint32_t), userdata))
.WillOnce(InvokeWithoutArgs([&]() { dawnBufferUnmap(buffer); })); .WillOnce(InvokeWithoutArgs([&]() { dawnBufferUnmap(buffer); }));
FlushServer(); FlushServer();
@ -285,19 +291,20 @@ TEST_F(WireBufferMappingTests, UnmapInsideMapReadCallback) {
// callback // callback
TEST_F(WireBufferMappingTests, DestroyInsideMapReadCallback) { TEST_F(WireBufferMappingTests, DestroyInsideMapReadCallback) {
dawnCallbackUserdata userdata = 2039; dawnCallbackUserdata userdata = 2039;
dawnBufferMapReadAsync(buffer, 40, sizeof(uint32_t), ToMockBufferMapReadCallback, userdata); dawnBufferMapReadAsync(buffer, ToMockBufferMapReadCallback, userdata);
uint32_t bufferContent = 31337; uint32_t bufferContent = 31337;
EXPECT_CALL(api, OnBufferMapReadAsyncCallback(apiBuffer, 40, sizeof(uint32_t), _, _)) EXPECT_CALL(api, OnBufferMapReadAsyncCallback(apiBuffer, _, _))
.WillOnce(InvokeWithoutArgs([&]() { .WillOnce(InvokeWithoutArgs([&]() {
api.CallMapReadCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, api.CallMapReadCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, &bufferContent,
&bufferContent); sizeof(uint32_t));
})); }));
FlushClient(); FlushClient();
EXPECT_CALL(*mockBufferMapReadCallback, EXPECT_CALL(*mockBufferMapReadCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Pointee(Eq(bufferContent)), userdata)) Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Pointee(Eq(bufferContent)),
sizeof(uint32_t), userdata))
.WillOnce(InvokeWithoutArgs([&]() { dawnBufferRelease(buffer); })); .WillOnce(InvokeWithoutArgs([&]() { dawnBufferRelease(buffer); }));
FlushServer(); FlushServer();
@ -310,23 +317,23 @@ TEST_F(WireBufferMappingTests, DestroyInsideMapReadCallback) {
// Check mapping for writing a succesfully created buffer // Check mapping for writing a succesfully created buffer
TEST_F(WireBufferMappingTests, MappingForWriteSuccessBuffer) { TEST_F(WireBufferMappingTests, MappingForWriteSuccessBuffer) {
dawnCallbackUserdata userdata = 8653; dawnCallbackUserdata userdata = 8653;
dawnBufferMapWriteAsync(buffer, 40, sizeof(uint32_t), ToMockBufferMapWriteCallback, userdata); dawnBufferMapWriteAsync(buffer, ToMockBufferMapWriteCallback, userdata);
uint32_t serverBufferContent = 31337; uint32_t serverBufferContent = 31337;
uint32_t updatedContent = 4242; uint32_t updatedContent = 4242;
uint32_t zero = 0; uint32_t zero = 0;
EXPECT_CALL(api, OnBufferMapWriteAsyncCallback(apiBuffer, 40, sizeof(uint32_t), _, _)) EXPECT_CALL(api, OnBufferMapWriteAsyncCallback(apiBuffer, _, _))
.WillOnce(InvokeWithoutArgs([&]() { .WillOnce(InvokeWithoutArgs([&]() {
api.CallMapWriteCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, api.CallMapWriteCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS,
&serverBufferContent); &serverBufferContent, sizeof(uint32_t));
})); }));
FlushClient(); FlushClient();
// The map write callback always gets a buffer full of zeroes. // The map write callback always gets a buffer full of zeroes.
EXPECT_CALL(*mockBufferMapWriteCallback, EXPECT_CALL(*mockBufferMapWriteCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Pointee(Eq(zero)), userdata)) Pointee(Eq(zero)), sizeof(uint32_t), userdata))
.Times(1); .Times(1);
FlushServer(); FlushServer();
@ -347,17 +354,17 @@ TEST_F(WireBufferMappingTests, MappingForWriteSuccessBuffer) {
// writing // writing
TEST_F(WireBufferMappingTests, ErrorWhileMappingForWrite) { TEST_F(WireBufferMappingTests, ErrorWhileMappingForWrite) {
dawnCallbackUserdata userdata = 8654; dawnCallbackUserdata userdata = 8654;
dawnBufferMapWriteAsync(buffer, 40, sizeof(uint32_t), ToMockBufferMapWriteCallback, userdata); dawnBufferMapWriteAsync(buffer, ToMockBufferMapWriteCallback, userdata);
EXPECT_CALL(api, OnBufferMapWriteAsyncCallback(apiBuffer, 40, sizeof(uint32_t), _, _)) EXPECT_CALL(api, OnBufferMapWriteAsyncCallback(apiBuffer, _, _))
.WillOnce(InvokeWithoutArgs([&]() { .WillOnce(InvokeWithoutArgs([&]() {
api.CallMapWriteCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr); api.CallMapWriteCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, 0);
})); }));
FlushClient(); FlushClient();
EXPECT_CALL(*mockBufferMapWriteCallback, EXPECT_CALL(*mockBufferMapWriteCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, userdata)) Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, 0, userdata))
.Times(1); .Times(1);
FlushServer(); FlushServer();
@ -366,13 +373,12 @@ TEST_F(WireBufferMappingTests, ErrorWhileMappingForWrite) {
// Check mapping for writing a buffer that didn't get created on the server side // Check mapping for writing a buffer that didn't get created on the server side
TEST_F(WireBufferMappingTests, MappingForWriteErrorBuffer) { TEST_F(WireBufferMappingTests, MappingForWriteErrorBuffer) {
dawnCallbackUserdata userdata = 8655; dawnCallbackUserdata userdata = 8655;
dawnBufferMapWriteAsync(errorBuffer, 40, sizeof(uint32_t), ToMockBufferMapWriteCallback, dawnBufferMapWriteAsync(errorBuffer, ToMockBufferMapWriteCallback, userdata);
userdata);
FlushClient(); FlushClient();
EXPECT_CALL(*mockBufferMapWriteCallback, EXPECT_CALL(*mockBufferMapWriteCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, userdata)) Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, 0, userdata))
.Times(1); .Times(1);
FlushServer(); FlushServer();
@ -386,11 +392,10 @@ TEST_F(WireBufferMappingTests, MappingForWriteErrorBuffer) {
// request is finished // request is finished
TEST_F(WireBufferMappingTests, DestroyBeforeWriteRequestEnd) { TEST_F(WireBufferMappingTests, DestroyBeforeWriteRequestEnd) {
dawnCallbackUserdata userdata = 8656; dawnCallbackUserdata userdata = 8656;
dawnBufferMapWriteAsync(errorBuffer, 40, sizeof(uint32_t), ToMockBufferMapWriteCallback, dawnBufferMapWriteAsync(errorBuffer, ToMockBufferMapWriteCallback, userdata);
userdata);
EXPECT_CALL(*mockBufferMapWriteCallback, EXPECT_CALL(*mockBufferMapWriteCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, userdata)) Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, 0, userdata))
.Times(1); .Times(1);
dawnBufferRelease(errorBuffer); dawnBufferRelease(errorBuffer);
@ -400,20 +405,20 @@ TEST_F(WireBufferMappingTests, DestroyBeforeWriteRequestEnd) {
// Unmap was called // Unmap was called
TEST_F(WireBufferMappingTests, UnmapCalledTooEarlyForWrite) { TEST_F(WireBufferMappingTests, UnmapCalledTooEarlyForWrite) {
dawnCallbackUserdata userdata = 8657; dawnCallbackUserdata userdata = 8657;
dawnBufferMapWriteAsync(buffer, 40, sizeof(uint32_t), ToMockBufferMapWriteCallback, userdata); dawnBufferMapWriteAsync(buffer, ToMockBufferMapWriteCallback, userdata);
uint32_t bufferContent = 31337; uint32_t bufferContent = 31337;
EXPECT_CALL(api, OnBufferMapWriteAsyncCallback(apiBuffer, 40, sizeof(uint32_t), _, _)) EXPECT_CALL(api, OnBufferMapWriteAsyncCallback(apiBuffer, _, _))
.WillOnce(InvokeWithoutArgs([&]() { .WillOnce(InvokeWithoutArgs([&]() {
api.CallMapWriteCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, api.CallMapWriteCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS,
&bufferContent); &bufferContent, sizeof(uint32_t));
})); }));
FlushClient(); FlushClient();
// Oh no! We are calling Unmap too early! // Oh no! We are calling Unmap too early!
EXPECT_CALL(*mockBufferMapWriteCallback, EXPECT_CALL(*mockBufferMapWriteCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, userdata)) Call(DAWN_BUFFER_MAP_ASYNC_STATUS_UNKNOWN, nullptr, 0, userdata))
.Times(1); .Times(1);
dawnBufferUnmap(buffer); dawnBufferUnmap(buffer);
@ -425,37 +430,37 @@ TEST_F(WireBufferMappingTests, UnmapCalledTooEarlyForWrite) {
TEST_F(WireBufferMappingTests, MappingForWritingErrorWhileAlreadyMappedGetsNullptr) { TEST_F(WireBufferMappingTests, MappingForWritingErrorWhileAlreadyMappedGetsNullptr) {
// Successful map // Successful map
dawnCallbackUserdata userdata = 34098; dawnCallbackUserdata userdata = 34098;
dawnBufferMapWriteAsync(buffer, 40, sizeof(uint32_t), ToMockBufferMapWriteCallback, userdata); dawnBufferMapWriteAsync(buffer, ToMockBufferMapWriteCallback, userdata);
uint32_t bufferContent = 31337; uint32_t bufferContent = 31337;
uint32_t zero = 0; uint32_t zero = 0;
EXPECT_CALL(api, OnBufferMapWriteAsyncCallback(apiBuffer, 40, sizeof(uint32_t), _, _)) EXPECT_CALL(api, OnBufferMapWriteAsyncCallback(apiBuffer, _, _))
.WillOnce(InvokeWithoutArgs([&]() { .WillOnce(InvokeWithoutArgs([&]() {
api.CallMapWriteCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, api.CallMapWriteCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS,
&bufferContent); &bufferContent, sizeof(uint32_t));
})) }))
.RetiresOnSaturation(); .RetiresOnSaturation();
FlushClient(); FlushClient();
EXPECT_CALL(*mockBufferMapWriteCallback, EXPECT_CALL(*mockBufferMapWriteCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Pointee(Eq(zero)), userdata)) Pointee(Eq(zero)), sizeof(uint32_t), userdata))
.Times(1); .Times(1);
FlushServer(); FlushServer();
// Map failure while the buffer is already mapped // Map failure while the buffer is already mapped
userdata++; userdata++;
dawnBufferMapWriteAsync(buffer, 40, sizeof(uint32_t), ToMockBufferMapWriteCallback, userdata); dawnBufferMapWriteAsync(buffer, ToMockBufferMapWriteCallback, userdata);
EXPECT_CALL(api, OnBufferMapWriteAsyncCallback(apiBuffer, 40, sizeof(uint32_t), _, _)) EXPECT_CALL(api, OnBufferMapWriteAsyncCallback(apiBuffer, _, _))
.WillOnce(InvokeWithoutArgs([&]() { .WillOnce(InvokeWithoutArgs([&]() {
api.CallMapWriteCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr); api.CallMapWriteCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, 0);
})); }));
FlushClient(); FlushClient();
EXPECT_CALL(*mockBufferMapWriteCallback, EXPECT_CALL(*mockBufferMapWriteCallback,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, userdata)) Call(DAWN_BUFFER_MAP_ASYNC_STATUS_ERROR, nullptr, 0, userdata))
.Times(1); .Times(1);
FlushServer(); FlushServer();
@ -464,20 +469,20 @@ TEST_F(WireBufferMappingTests, MappingForWritingErrorWhileAlreadyMappedGetsNullp
// Test that the MapWriteCallback isn't fired twice when unmap() is called inside the callback // Test that the MapWriteCallback isn't fired twice when unmap() is called inside the callback
TEST_F(WireBufferMappingTests, UnmapInsideMapWriteCallback) { TEST_F(WireBufferMappingTests, UnmapInsideMapWriteCallback) {
dawnCallbackUserdata userdata = 2039; dawnCallbackUserdata userdata = 2039;
dawnBufferMapWriteAsync(buffer, 40, sizeof(uint32_t), ToMockBufferMapWriteCallback, userdata); dawnBufferMapWriteAsync(buffer, ToMockBufferMapWriteCallback, userdata);
uint32_t bufferContent = 31337; uint32_t bufferContent = 31337;
uint32_t zero = 0; uint32_t zero = 0;
EXPECT_CALL(api, OnBufferMapWriteAsyncCallback(apiBuffer, 40, sizeof(uint32_t), _, _)) EXPECT_CALL(api, OnBufferMapWriteAsyncCallback(apiBuffer, _, _))
.WillOnce(InvokeWithoutArgs([&]() { .WillOnce(InvokeWithoutArgs([&]() {
api.CallMapWriteCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, api.CallMapWriteCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS,
&bufferContent); &bufferContent, sizeof(uint32_t));
})); }));
FlushClient(); FlushClient();
EXPECT_CALL(*mockBufferMapWriteCallback, EXPECT_CALL(*mockBufferMapWriteCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Pointee(Eq(zero)), userdata)) Pointee(Eq(zero)), sizeof(uint32_t), userdata))
.WillOnce(InvokeWithoutArgs([&]() { dawnBufferUnmap(buffer); })); .WillOnce(InvokeWithoutArgs([&]() { dawnBufferUnmap(buffer); }));
FlushServer(); FlushServer();
@ -491,20 +496,20 @@ TEST_F(WireBufferMappingTests, UnmapInsideMapWriteCallback) {
// callback // callback
TEST_F(WireBufferMappingTests, DestroyInsideMapWriteCallback) { TEST_F(WireBufferMappingTests, DestroyInsideMapWriteCallback) {
dawnCallbackUserdata userdata = 2039; dawnCallbackUserdata userdata = 2039;
dawnBufferMapWriteAsync(buffer, 40, sizeof(uint32_t), ToMockBufferMapWriteCallback, userdata); dawnBufferMapWriteAsync(buffer, ToMockBufferMapWriteCallback, userdata);
uint32_t bufferContent = 31337; uint32_t bufferContent = 31337;
uint32_t zero = 0; uint32_t zero = 0;
EXPECT_CALL(api, OnBufferMapWriteAsyncCallback(apiBuffer, 40, sizeof(uint32_t), _, _)) EXPECT_CALL(api, OnBufferMapWriteAsyncCallback(apiBuffer, _, _))
.WillOnce(InvokeWithoutArgs([&]() { .WillOnce(InvokeWithoutArgs([&]() {
api.CallMapWriteCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, api.CallMapWriteCallback(apiBuffer, DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS,
&bufferContent); &bufferContent, sizeof(uint32_t));
})); }));
FlushClient(); FlushClient();
EXPECT_CALL(*mockBufferMapWriteCallback, EXPECT_CALL(*mockBufferMapWriteCallback, Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS,
Call(DAWN_BUFFER_MAP_ASYNC_STATUS_SUCCESS, Pointee(Eq(zero)), userdata)) Pointee(Eq(zero)), sizeof(uint32_t), userdata))
.WillOnce(InvokeWithoutArgs([&]() { dawnBufferRelease(buffer); })); .WillOnce(InvokeWithoutArgs([&]() { dawnBufferRelease(buffer); }));
FlushServer(); FlushServer();