dawn-cmake/generator/templates/wire/WireServer.cpp

508 lines
23 KiB
C++

//* Copyright 2017 The NXT Authors
//*
//* Licensed under the Apache License, Version 2.0 (the "License");
//* you may not use this file except in compliance with the License.
//* You may obtain a copy of the License at
//*
//* http://www.apache.org/licenses/LICENSE-2.0
//*
//* Unless required by applicable law or agreed to in writing, software
//* distributed under the License is distributed on an "AS IS" BASIS,
//* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
//* See the License for the specific language governing permissions and
//* limitations under the License.
#include "wire/Wire.h"
#include "wire/WireCmd.h"
#include "common/Assert.h"
#include <cstring>
#include <vector>
namespace nxt {
namespace wire {
namespace server {
class Server;
struct MapReadUserdata {
Server* server;
uint32_t bufferId;
uint32_t bufferSerial;
uint32_t requestSerial;
uint32_t size;
};
//* Stores what the backend knows about the type.
template<typename T>
struct ObjectDataBase {
//* The backend-provided handle and serial to this object.
T handle;
uint32_t serial = 0;
//* Built object ID and serial, needed to send to the client along with builder error callbacks
//* TODO(cwallez@chromium.org) only have this for builder T
uint32_t builtObjectId = 0;
uint32_t builtObjectSerial = 0;
//* Used by the error-propagation mechanism to know if this object is an error.
//* TODO(cwallez@chromium.org): this is doubling the memory usage of
//* std::vector<ObjectDataBase> consider making it a special marker value in handle instead.
bool valid;
//* Whether this object has been allocated, used by the KnownObjects queries
//* TODO(cwallez@chromium.org): make this an internal bit vector in KnownObjects.
bool allocated;
};
//* Keeps track of the mapping between client IDs and backend objects.
template<typename T>
class KnownObjects {
public:
using Data = ObjectDataBase<T>;
KnownObjects() {
//* Pre-allocate ID 0 to refer to the null handle.
Data nullObject;
nullObject.handle = nullptr;
nullObject.valid = true;
nullObject.allocated = true;
mKnown.push_back(nullObject);
}
//* Get a backend objects for a given client ID.
//* Returns nullptr if the ID hasn't previously been allocated.
Data* Get(uint32_t id) {
if (id >= mKnown.size()) {
return nullptr;
}
Data* data = &mKnown[id];
if (!data->allocated) {
return nullptr;
}
return data;
}
//* Allocates the data for a given ID and returns it.
//* Returns nullptr if the ID is already allocated, or too far ahead.
//* Invalidates all the Data*
Data* Allocate(uint32_t id) {
if (id > mKnown.size()) {
return nullptr;
}
Data data;
data.allocated = true;
data.valid = false;
data.handle = nullptr;
if (id >= mKnown.size()) {
mKnown.push_back(data);
return &mKnown.back();
}
if (mKnown[id].allocated) {
return nullptr;
}
mKnown[id] = data;
return &mKnown[id];
}
//* Marks an ID as deallocated
void Free(uint32_t id) {
ASSERT(id < mKnown.size());
mKnown[id].allocated = false;
}
private:
std::vector<Data> mKnown;
};
void ForwardDeviceErrorToServer(const char* message, nxtCallbackUserdata userdata);
{% for type in by_category["object"] if type.is_builder%}
void Forward{{type.name.CamelCase()}}ToClient(nxtBuilderErrorStatus status, const char* message, nxtCallbackUserdata userdata1, nxtCallbackUserdata userdata2);
{% endfor %}
void ForwardBufferMapReadAsync(nxtBufferMapReadStatus status, const void* ptr, nxtCallbackUserdata userdata);
class Server : public CommandHandler {
public:
Server(nxtDevice device, const nxtProcTable& procs, CommandSerializer* serializer)
: mProcs(procs), mSerializer(serializer) {
//* The client-server knowledge is bootstrapped with device 1.
auto* deviceData = mKnownDevice.Allocate(1);
deviceData->handle = device;
deviceData->valid = true;
auto userdata = static_cast<nxtCallbackUserdata>(reinterpret_cast<intptr_t>(this));
procs.deviceSetErrorCallback(device, ForwardDeviceErrorToServer, userdata);
}
void OnDeviceError(const char* message) {
ReturnDeviceErrorCallbackCmd cmd;
cmd.messageStrlen = std::strlen(message);
auto allocCmd = reinterpret_cast<ReturnDeviceErrorCallbackCmd*>(GetCmdSpace(cmd.GetRequiredSize()));
*allocCmd = cmd;
strcpy(allocCmd->GetMessage(), message);
}
{% for type in by_category["object"] if type.is_builder%}
{% set Type = type.name.CamelCase() %}
void On{{Type}}Error(nxtBuilderErrorStatus status, const char* message, uint32_t id, uint32_t serial) {
auto* builder = mKnown{{Type}}.Get(id);
if (builder == nullptr || builder->serial != serial) {
return;
}
if (status != NXT_BUILDER_ERROR_STATUS_SUCCESS) {
builder->valid = false;
}
if (status != NXT_BUILDER_ERROR_STATUS_UNKNOWN) {
//* Unknown is the only status that can be returned without a call to GetResult
//* so we are guaranteed to have created an object.
ASSERT(builder->builtObjectId != 0);
Return{{Type}}ErrorCallbackCmd cmd;
cmd.builtObjectId = builder->builtObjectId;
cmd.builtObjectSerial = builder->builtObjectSerial;
cmd.status = status;
cmd.messageStrlen = std::strlen(message);
auto allocCmd = reinterpret_cast<Return{{Type}}ErrorCallbackCmd*>(GetCmdSpace(cmd.GetRequiredSize()));
*allocCmd = cmd;
strcpy(allocCmd->GetMessage(), message);
}
}
{% endfor %}
void OnMapReadAsyncCallback(nxtBufferMapReadStatus status, const void* ptr, MapReadUserdata* data) {
ReturnBufferMapReadAsyncCallbackCmd cmd;
cmd.bufferId = data->bufferId;
cmd.bufferSerial = data->bufferSerial;
cmd.requestSerial = data->requestSerial;
cmd.status = status;
cmd.dataLength = 0;
if (status == NXT_BUFFER_MAP_READ_STATUS_SUCCESS) {
cmd.dataLength = data->size;
}
auto allocCmd = reinterpret_cast<ReturnBufferMapReadAsyncCallbackCmd*>(GetCmdSpace(cmd.GetRequiredSize()));
*allocCmd = cmd;
if (status == NXT_BUFFER_MAP_READ_STATUS_SUCCESS) {
memcpy(allocCmd->GetData(), ptr, data->size);
}
delete data;
}
const uint8_t* HandleCommands(const uint8_t* commands, size_t size) override {
mProcs.deviceTick(mKnownDevice.Get(1)->handle);
while (size > sizeof(WireCmd)) {
WireCmd cmdId = *reinterpret_cast<const WireCmd*>(commands);
bool success = false;
switch (cmdId) {
{% for type in by_category["object"] %}
{% for method in type.methods %}
{% set Suffix = as_MethodSuffix(type.name, method.name) %}
case WireCmd::{{Suffix}}:
success = Handle{{Suffix}}(&commands, &size);
break;
{% endfor %}
{% set Suffix = as_MethodSuffix(type.name, Name("destroy")) %}
case WireCmd::{{Suffix}}:
success = Handle{{Suffix}}(&commands, &size);
break;
{% endfor %}
case WireCmd::BufferMapReadAsync:
success = HandleBufferMapReadAsync(&commands, &size);
break;
default:
success = false;
}
if (!success) {
return nullptr;
}
}
if (size != 0) {
return nullptr;
}
return commands;
}
private:
nxtProcTable mProcs;
CommandSerializer* mSerializer = nullptr;
void* GetCmdSpace(size_t size) {
return mSerializer->GetCmdSpace(size);
}
//* The list of known IDs for each object type.
{% for type in by_category["object"] %}
KnownObjects<{{as_cType(type.name)}}> mKnown{{type.name.CamelCase()}};
{% endfor %}
//* Helper function for the getting of the command data in command handlers.
//* Checks there is enough data left, updates the buffer / size and returns
//* the command (or nullptr for an error).
template<typename T>
static const T* GetCommand(const uint8_t** commands, size_t* size) {
if (*size < sizeof(T)) {
return nullptr;
}
const T* cmd = reinterpret_cast<const T*>(*commands);
size_t cmdSize = cmd->GetRequiredSize();
if (*size < cmdSize) {
return nullptr;
}
*commands += cmdSize;
*size -= cmdSize;
return cmd;
}
//* Implementation of the command handlers
{% for type in by_category["object"] %}
{% for method in type.methods %}
{% set Suffix = as_MethodSuffix(type.name, method.name) %}
//* The generic command handlers
bool Handle{{Suffix}}(const uint8_t** commands, size_t* size) {
//* Get command ptr, and check it fits in the buffer.
const auto* cmd = GetCommand<{{Suffix}}Cmd>(commands, size);
if (cmd == nullptr) {
return false;
}
//* While unpacking arguments, if any of them is an error, valid will be set to false.
bool valid = true;
//* Unpack 'self'
{% set Type = type.name.CamelCase() %}
{{as_cType(type.name)}} self;
auto* selfData = mKnown{{Type}}.Get(cmd->self);
{
if (selfData == nullptr) {
return false;
}
valid = valid && selfData->valid;
self = selfData->handle;
}
//* Unpack value objects from IDs.
{% for arg in method.arguments if arg.annotation == "value" and arg.type.category == "object" %}
{% set Type = arg.type.name.CamelCase() %}
{{as_cType(arg.type.name)}} arg_{{as_varName(arg.name)}};
{
auto* data = mKnown{{Type}}.Get(cmd->{{as_varName(arg.name)}});
if (data == nullptr) {
return false;
}
valid = valid && data->valid;
arg_{{as_varName(arg.name)}} = data->handle;
}
{% endfor %}
//* Unpack pointer arguments
{% for arg in method.arguments if arg.annotation != "value" %}
{% set argName = as_varName(arg.name) %}
const {{as_cType(arg.type.name)}}* arg_{{argName}};
{% if arg.length == "strlen" %}
//* Unpack strings, checking they are null-terminated.
arg_{{argName}} = reinterpret_cast<const {{as_cType(arg.type.name)}}*>(cmd->GetPtr_{{argName}}());
if (arg_{{argName}}[cmd->{{argName}}Strlen] != 0) {
return false;
}
{% elif arg.type.category == "object" %}
//* Unpack arrays of objects.
//* TODO(cwallez@chromium.org) do not allocate when there are few objects.
std::vector<{{as_cType(arg.type.name)}}> {{argName}}Storage(cmd->{{as_varName(arg.length.name)}});
auto {{argName}}Ids = reinterpret_cast<const uint32_t*>(cmd->GetPtr_{{argName}}());
for (size_t i = 0; i < cmd->{{as_varName(arg.length.name)}}; i++) {
{% set Type = arg.type.name.CamelCase() %}
auto* data = mKnown{{Type}}.Get({{argName}}Ids[i]);
if (data == nullptr) {
return false;
}
{{argName}}Storage[i] = data->handle;
valid = valid && data->valid;
}
arg_{{argName}} = {{argName}}Storage.data();
{% else %}
//* For anything else, just get the pointer.
arg_{{argName}} = reinterpret_cast<const {{as_cType(arg.type.name)}}*>(cmd->GetPtr_{{argName}}());
{% endif %}
{% endfor %}
//* At that point all the data has been upacked in cmd->* or arg_*
//* In all cases allocate the object data as it will be refered-to by the client.
{% set return_type = method.return_type %}
{% set returns = return_type.name.canonical_case() != "void" %}
{% if returns %}
{% set Type = method.return_type.name.CamelCase() %}
auto* resultData = mKnown{{Type}}.Allocate(cmd->resultId);
if (resultData == nullptr) {
return false;
}
resultData->serial = cmd->resultSerial;
{% if type.is_builder %}
selfData->builtObjectId = cmd->resultId;
selfData->builtObjectSerial = cmd->resultSerial;
{% endif %}
{% endif %}
//* After the data is allocated, apply the argument error propagation mechanism
if (!valid) {
{% if type.is_builder %}
selfData->valid = false;
//* If we are in GetResult, fake an error callback
{% if returns %}
On{{type.name.CamelCase()}}Error(NXT_BUILDER_ERROR_STATUS_ERROR, "Maybe monad", cmd->self, selfData->serial);
{% endif %}
{% endif %}
return true;
}
{% if returns %}
auto result ={{" "}}
{%- endif %}
mProcs.{{as_varName(type.name, method.name)}}(self
{%- for arg in method.arguments -%}
{%- if arg.annotation == "value" and arg.type.category != "object" -%}
, cmd->{{as_varName(arg.name)}}
{%- else -%}
, arg_{{as_varName(arg.name)}}
{%- endif -%}
{%- endfor -%}
);
{% if returns %}
resultData->handle = result;
resultData->valid = result != nullptr;
//* builders remember the ID of the object they built so that they can send it
//* in the callback to the client.
{% if return_type.is_builder %}
if (result != nullptr) {
uint64_t userdata1 = static_cast<uint64_t>(reinterpret_cast<uintptr_t>(this));
uint64_t userdata2 = (uint64_t(resultData->serial) << uint64_t(32)) + cmd->resultId;
mProcs.{{as_varName(return_type.name, Name("set error callback"))}}(result, Forward{{return_type.name.CamelCase()}}ToClient, userdata1, userdata2);
}
{% endif %}
{% endif %}
return true;
}
{% endfor %}
//* Handlers for the destruction of objects: clients do the tracking of the
//* reference / release and only send destroy on refcount = 0.
{% set Suffix = as_MethodSuffix(type.name, Name("destroy")) %}
bool Handle{{Suffix}}(const uint8_t** commands, size_t* size) {
const auto* cmd = GetCommand<{{Suffix}}Cmd>(commands, size);
if (cmd == nullptr) {
return false;
}
//* ID 0 are reserved for nullptr and cannot be destroyed.
if (cmd->objectId == 0) {
return false;
}
auto* data = mKnown{{type.name.CamelCase()}}.Get(cmd->objectId);
if (data == nullptr) {
return false;
}
if (data->valid) {
mProcs.{{as_varName(type.name, Name("release"))}}(data->handle);
}
mKnown{{type.name.CamelCase()}}.Free(cmd->objectId);
return true;
}
{% endfor %}
bool HandleBufferMapReadAsync(const uint8_t** commands, size_t* size) {
//* These requests are just forwarded to the buffer, with userdata containing what the client
//* will require in the return command.
const auto* cmd = GetCommand<BufferMapReadAsyncCmd>(commands, size);
if (cmd == nullptr) {
return false;
}
auto* buffer = mKnownBuffer.Get(cmd->bufferId);
if (buffer == nullptr) {
return false;
}
auto* data = new MapReadUserdata;
data->server = this;
data->bufferId = cmd->bufferId;
data->bufferSerial = buffer->serial;
data->requestSerial = cmd->requestSerial;
data->size = cmd->size;
auto userdata = static_cast<uint64_t>(reinterpret_cast<uintptr_t>(data));
if (!buffer->valid) {
//* Fake the buffer returning a failure, data will be freed in this call.
ForwardBufferMapReadAsync(NXT_BUFFER_MAP_READ_STATUS_ERROR, nullptr, userdata);
return true;
}
mProcs.bufferMapReadAsync(buffer->handle, cmd->start, cmd->size, ForwardBufferMapReadAsync, userdata);
return true;
}
};
void ForwardDeviceErrorToServer(const char* message, nxtCallbackUserdata userdata) {
auto server = reinterpret_cast<Server*>(static_cast<intptr_t>(userdata));
server->OnDeviceError(message);
}
{% for type in by_category["object"] if type.is_builder%}
void Forward{{type.name.CamelCase()}}ToClient(nxtBuilderErrorStatus status, const char* message, nxtCallbackUserdata userdata1, nxtCallbackUserdata userdata2) {
auto server = reinterpret_cast<Server*>(static_cast<uintptr_t>(userdata1));
uint32_t id = userdata2 & 0xFFFFFFFFu;
uint32_t serial = userdata2 >> uint64_t(32);
server->On{{type.name.CamelCase()}}Error(status, message, id, serial);
}
{% endfor %}
void ForwardBufferMapReadAsync(nxtBufferMapReadStatus status, const void* ptr, nxtCallbackUserdata userdata) {
auto data = reinterpret_cast<MapReadUserdata*>(static_cast<uintptr_t>(userdata));
data->server->OnMapReadAsyncCallback(status, ptr, data);
}
}
CommandHandler* NewServerCommandHandler(nxtDevice device, const nxtProcTable& procs, CommandSerializer* serializer) {
return new server::Server(device, procs, serializer);
}
}
}