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libcamera/utils/ipc/generators/libcamera_templates/module_ipa_proxy.cpp.tmpl
Paul Elder 9dc601cf7a utils: ipc: Fix event functions with no parameters 
If an event function is defined with no parameters, there would be a
compilation error complaining about unused parameters in the generated
code for the data and dataSize parameters that would normally correspond
to serialized data. Fix this by simply marking the parameters as
maybe_unused.

Signed-off-by: Paul Elder <paul.elder@ideasonboard.com>
Reviewed-by: Laurent Pinchart <laurent.pinchart@ideasonboard.com>
2024-04-10 16:40:34 +09:00

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{#-
# SPDX-License-Identifier: LGPL-2.1-or-later
# Copyright (C) 2020, Google Inc.
-#}
{%- import "proxy_functions.tmpl" as proxy_funcs -%}
/* SPDX-License-Identifier: LGPL-2.1-or-later */
/*
* Copyright (C) 2020, Google Inc.
*
* {{module_name}}_ipa_proxy.cpp - Image Processing Algorithm proxy for {{module_name}}
*
* This file is auto-generated. Do not edit.
*/
#include <libcamera/ipa/{{module_name}}_ipa_proxy.h>
#include <memory>
#include <string>
#include <vector>
#include <libcamera/ipa/ipa_module_info.h>
#include <libcamera/ipa/{{module_name}}_ipa_interface.h>
#include <libcamera/ipa/{{module_name}}_ipa_serializer.h>
#include <libcamera/base/log.h>
#include <libcamera/base/thread.h>
#include "libcamera/internal/control_serializer.h"
#include "libcamera/internal/ipa_data_serializer.h"
#include "libcamera/internal/ipa_module.h"
#include "libcamera/internal/ipa_proxy.h"
#include "libcamera/internal/ipc_pipe.h"
#include "libcamera/internal/ipc_pipe_unixsocket.h"
#include "libcamera/internal/ipc_unixsocket.h"
#include "libcamera/internal/process.h"
namespace libcamera {
LOG_DECLARE_CATEGORY(IPAProxy)
{%- if has_namespace %}
{% for ns in namespace %}
namespace {{ns}} {
{% endfor %}
{%- endif %}
{{proxy_name}}::{{proxy_name}}(IPAModule *ipam, bool isolate)
: IPAProxy(ipam), isolate_(isolate),
controlSerializer_(ControlSerializer::Role::Proxy), seq_(0)
{
LOG(IPAProxy, Debug)
<< "initializing {{module_name}} proxy: loading IPA from "
<< ipam->path();
if (isolate_) {
const std::string proxyWorkerPath = resolvePath("{{module_name}}_ipa_proxy");
if (proxyWorkerPath.empty()) {
LOG(IPAProxy, Error)
<< "Failed to get proxy worker path";
return;
}
ipc_ = std::make_unique<IPCPipeUnixSocket>(ipam->path().c_str(),
proxyWorkerPath.c_str());
if (!ipc_->isConnected()) {
LOG(IPAProxy, Error) << "Failed to create IPCPipe";
return;
}
ipc_->recv.connect(this, &{{proxy_name}}::recvMessage);
valid_ = true;
return;
}
if (!ipam->load())
return;
IPAInterface *ipai = ipam->createInterface();
if (!ipai) {
LOG(IPAProxy, Error)
<< "Failed to create IPA context for " << ipam->path();
return;
}
ipa_ = std::unique_ptr<{{interface_name}}>(static_cast<{{interface_name}} *>(ipai));
proxy_.setIPA(ipa_.get());
{% for method in interface_event.methods %}
ipa_->{{method.mojom_name}}.connect(this, &{{proxy_name}}::{{method.mojom_name}}Thread);
{%- endfor %}
valid_ = true;
}
{{proxy_name}}::~{{proxy_name}}()
{
if (isolate_) {
IPCMessage::Header header =
{ static_cast<uint32_t>({{cmd_enum_name}}::Exit), seq_++ };
IPCMessage msg(header);
ipc_->sendAsync(msg);
}
}
{% if interface_event.methods|length > 0 %}
void {{proxy_name}}::recvMessage(const IPCMessage &data)
{
size_t dataSize = data.data().size();
{{cmd_event_enum_name}} _cmd = static_cast<{{cmd_event_enum_name}}>(data.header().cmd);
switch (_cmd) {
{%- for method in interface_event.methods %}
case {{cmd_event_enum_name}}::{{method.mojom_name|cap}}: {
{{method.mojom_name}}IPC(data.data().cbegin(), dataSize, data.fds());
break;
}
{%- endfor %}
default:
LOG(IPAProxy, Error) << "Unknown command " << static_cast<uint32_t>(_cmd);
}
}
{%- endif %}
{% for method in interface_main.methods %}
{{proxy_funcs.func_sig(proxy_name, method)}}
{
if (isolate_)
{{"return " if method|method_return_value != "void"}}{{method.mojom_name}}IPC(
{%- for param in method|method_param_names -%}
{{param}}{{- ", " if not loop.last}}
{%- endfor -%}
);
else
{{"return " if method|method_return_value != "void"}}{{method.mojom_name}}Thread(
{%- for param in method|method_param_names -%}
{{param}}{{- ", " if not loop.last}}
{%- endfor -%}
);
}
{{proxy_funcs.func_sig(proxy_name, method, "Thread")}}
{
{%- if method.mojom_name == "stop" %}
{{proxy_funcs.stop_thread_body()}}
{%- elif method.mojom_name == "init" %}
{{ method|method_return_value + " _ret = " if method|method_return_value != "void" -}}
ipa_->{{method.mojom_name}}(
{%- for param in method|method_param_names -%}
{{param}}{{- ", " if not loop.last}}
{%- endfor -%}
);
proxy_.moveToThread(&thread_);
return {{ "_ret" if method|method_return_value != "void" }};
{%- elif method.mojom_name == "start" %}
state_ = ProxyRunning;
thread_.start();
{{ "return " if method|method_return_value != "void" -}}
proxy_.invokeMethod(&ThreadProxy::start, ConnectionTypeBlocking
{{- ", " if method|method_param_names}}
{%- for param in method|method_param_names -%}
{{param}}{{- ", " if not loop.last}}
{%- endfor -%}
);
{%- elif not method|is_async %}
{{ "return " if method|method_return_value != "void" -}}
ipa_->{{method.mojom_name}}(
{%- for param in method|method_param_names -%}
{{param}}{{- ", " if not loop.last}}
{%- endfor -%}
);
{% elif method|is_async %}
ASSERT(state_ == ProxyRunning);
proxy_.invokeMethod(&ThreadProxy::{{method.mojom_name}}, ConnectionTypeQueued,
{%- for param in method|method_param_names -%}
{{param}}{{- ", " if not loop.last}}
{%- endfor -%}
);
{%- endif %}
}
{{proxy_funcs.func_sig(proxy_name, method, "IPC")}}
{
{%- if method.mojom_name == "configure" %}
controlSerializer_.reset();
{%- endif %}
{%- set has_output = true if method|method_param_outputs|length > 0 or method|method_return_value != "void" %}
{%- set cmd = cmd_enum_name + "::" + method.mojom_name|cap %}
IPCMessage::Header _header = { static_cast<uint32_t>({{cmd}}), seq_++ };
IPCMessage _ipcInputBuf(_header);
{%- if has_output %}
IPCMessage _ipcOutputBuf;
{%- endif %}
{{proxy_funcs.serialize_call(method|method_param_inputs, '_ipcInputBuf.data()', '_ipcInputBuf.fds()')}}
{% if method|is_async %}
int _ret = ipc_->sendAsync(_ipcInputBuf);
{%- else %}
int _ret = ipc_->sendSync(_ipcInputBuf
{{- ", &_ipcOutputBuf" if has_output -}}
);
{%- endif %}
if (_ret < 0) {
LOG(IPAProxy, Error) << "Failed to call {{method.mojom_name}}";
{%- if method|method_return_value != "void" %}
return static_cast<{{method|method_return_value}}>(_ret);
{%- else %}
return;
{%- endif %}
}
{% if method|method_return_value != "void" %}
{{method|method_return_value}} _retValue = IPADataSerializer<{{method|method_return_value}}>::deserialize(_ipcOutputBuf.data(), 0);
{{proxy_funcs.deserialize_call(method|method_param_outputs, '_ipcOutputBuf.data()', '_ipcOutputBuf.fds()', init_offset = method|method_return_value|byte_width|int)}}
return _retValue;
{% elif method|method_param_outputs|length > 0 %}
{{proxy_funcs.deserialize_call(method|method_param_outputs, '_ipcOutputBuf.data()', '_ipcOutputBuf.fds()')}}
{% endif -%}
}
{% endfor %}
{% for method in interface_event.methods %}
{{proxy_funcs.func_sig(proxy_name, method, "Thread")}}
{
ASSERT(state_ != ProxyStopped);
{{method.mojom_name}}.emit({{method.parameters|params_comma_sep}});
}
void {{proxy_name}}::{{method.mojom_name}}IPC(
[[maybe_unused]] std::vector<uint8_t>::const_iterator data,
[[maybe_unused]] size_t dataSize,
[[maybe_unused]] const std::vector<SharedFD> &fds)
{
{%- for param in method.parameters %}
{{param|name}} {{param.mojom_name}};
{%- endfor %}
{{proxy_funcs.deserialize_call(method.parameters, 'data', 'fds', false, false, true, 'dataSize')}}
{{method.mojom_name}}.emit({{method.parameters|params_comma_sep}});
}
{% endfor %}
{%- if has_namespace %}
{% for ns in namespace|reverse %}
} /* namespace {{ns}} */
{% endfor %}
{%- endif %}
} /* namespace libcamera */
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