/*
* Copyright (C) 2011 The Android Open Source Project
*
* 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 "HostConnection.h"
#include "GLEncoder.h"
#include "GL2Encoder.h"
#include "ProcessPipe.h"
#include "QemuPipeStream.h"
#include "TcpStream.h"
#include "ThreadInfo.h"
#include <cutils/log.h>
#define STREAM_BUFFER_SIZE (4*1024*1024)
#define STREAM_PORT_NUM 22468
/* Set to 1 to use a QEMU pipe, or 0 for a TCP connection */
#define USE_QEMU_PIPE 1
HostConnection::HostConnection() :
m_stream(NULL),
m_glEnc(NULL),
m_gl2Enc(NULL),
m_rcEnc(NULL),
m_checksumHelper(),
m_glExtensions(),
m_grallocOnly(true),
m_noHostError(false)
{
}
HostConnection::~HostConnection()
{
delete m_stream;
delete m_glEnc;
delete m_gl2Enc;
delete m_rcEnc;
}
HostConnection *HostConnection::get() {
return getWithThreadInfo(getEGLThreadInfo());
}
HostConnection *HostConnection::getWithThreadInfo(EGLThreadInfo* tinfo) {
/* TODO: Make this configurable with a system property */
const int useQemuPipe = USE_QEMU_PIPE;
// Get thread info
if (!tinfo) {
return NULL;
}
if (tinfo->hostConn == NULL) {
HostConnection *con = new HostConnection();
if (NULL == con) {
return NULL;
}
if (useQemuPipe) {
QemuPipeStream *stream = new QemuPipeStream(STREAM_BUFFER_SIZE);
if (!stream) {
ALOGE("Failed to create QemuPipeStream for host connection!!!\n");
delete con;
return NULL;
}
if (stream->connect() < 0) {
ALOGE("Failed to connect to host (QemuPipeStream)!!!\n");
delete stream;
delete con;
return NULL;
}
con->m_stream = stream;
con->m_pipeFd = stream->getSocket();
}
else /* !useQemuPipe */
{
TcpStream *stream = new TcpStream(STREAM_BUFFER_SIZE);
if (!stream) {
ALOGE("Failed to create TcpStream for host connection!!!\n");
delete con;
return NULL;
}
if (stream->connect("10.0.2.2", STREAM_PORT_NUM) < 0) {
ALOGE("Failed to connect to host (TcpStream)!!!\n");
delete stream;
delete con;
return NULL;
}
con->m_stream = stream;
}
// send zero 'clientFlags' to the host.
unsigned int *pClientFlags =
(unsigned int *)con->m_stream->allocBuffer(sizeof(unsigned int));
*pClientFlags = 0;
con->m_stream->commitBuffer(sizeof(unsigned int));
ALOGD("HostConnection::get() New Host Connection established %p, tid %d\n", con, gettid());
tinfo->hostConn = con;
}
return tinfo->hostConn;
}
void HostConnection::exit() {
EGLThreadInfo *tinfo = getEGLThreadInfo();
if (!tinfo) {
return;
}
if (tinfo->hostConn) {
delete tinfo->hostConn;
tinfo->hostConn = NULL;
}
}
GLEncoder *HostConnection::glEncoder()
{
if (!m_glEnc) {
m_glEnc = new GLEncoder(m_stream, checksumHelper());
DBG("HostConnection::glEncoder new encoder %p, tid %d", m_glEnc, gettid());
m_glEnc->setContextAccessor(s_getGLContext);
}
return m_glEnc;
}
GL2Encoder *HostConnection::gl2Encoder()
{
if (!m_gl2Enc) {
m_gl2Enc = new GL2Encoder(m_stream, checksumHelper());
DBG("HostConnection::gl2Encoder new encoder %p, tid %d", m_gl2Enc, gettid());
m_gl2Enc->setContextAccessor(s_getGL2Context);
m_gl2Enc->setNoHostError(m_noHostError);
}
return m_gl2Enc;
}
ExtendedRCEncoderContext *HostConnection::rcEncoder()
{
if (!m_rcEnc) {
m_rcEnc = new ExtendedRCEncoderContext(m_stream, checksumHelper());
setChecksumHelper(m_rcEnc);
queryAndSetSyncImpl(m_rcEnc);
queryAndSetDmaImpl(m_rcEnc);
queryAndSetGLESMaxVersion(m_rcEnc);
queryAndSetNoErrorState(m_rcEnc);
processPipeInit(m_rcEnc);
}
return m_rcEnc;
}
gl_client_context_t *HostConnection::s_getGLContext()
{
EGLThreadInfo *ti = getEGLThreadInfo();
if (ti->hostConn) {
return ti->hostConn->m_glEnc;
}
return NULL;
}
gl2_client_context_t *HostConnection::s_getGL2Context()
{
EGLThreadInfo *ti = getEGLThreadInfo();
if (ti->hostConn) {
return ti->hostConn->m_gl2Enc;
}
return NULL;
}
const std::string& HostConnection::queryGLExtensions(ExtendedRCEncoderContext *rcEnc) {
if (!m_glExtensions.empty()) {
return m_glExtensions;
}
// Extensions strings are usually quite long, preallocate enough here.
std::string extensions_buffer(1023, '\0');
// rcGetGLString() returns required size including the 0-terminator, so
// account it when passing/using the sizes.
int extensionSize = rcEnc->rcGetGLString(rcEnc, GL_EXTENSIONS,
&extensions_buffer[0],
extensions_buffer.size() + 1);
if (extensionSize < 0) {
extensions_buffer.resize(-extensionSize);
extensionSize = rcEnc->rcGetGLString(rcEnc, GL_EXTENSIONS,
&extensions_buffer[0],
-extensionSize + 1);
}
if (extensionSize > 0) {
extensions_buffer.resize(extensionSize - 1);
m_glExtensions.swap(extensions_buffer);
}
return m_glExtensions;
}
void HostConnection::setChecksumHelper(ExtendedRCEncoderContext *rcEnc) {
const std::string& glExtensions = queryGLExtensions(rcEnc);
// check the host supported version
uint32_t checksumVersion = 0;
const char* checksumPrefix = ChecksumCalculator::getMaxVersionStrPrefix();
const char* glProtocolStr = strstr(glExtensions.c_str(), checksumPrefix);
if (glProtocolStr) {
uint32_t maxVersion = ChecksumCalculator::getMaxVersion();
sscanf(glProtocolStr+strlen(checksumPrefix), "%d", &checksumVersion);
if (maxVersion < checksumVersion) {
checksumVersion = maxVersion;
}
// The ordering of the following two commands matters!
// Must tell the host first before setting it in the guest
rcEnc->rcSelectChecksumHelper(rcEnc, checksumVersion, 0);
m_checksumHelper.setVersion(checksumVersion);
}
}
void HostConnection::queryAndSetSyncImpl(ExtendedRCEncoderContext *rcEnc) {
const std::string& glExtensions = queryGLExtensions(rcEnc);
#if PLATFORM_SDK_VERSION <= 16 || (!defined(__i386__) && !defined(__x86_64__))
rcEnc->setSyncImpl(SYNC_IMPL_NONE);
#else
if (glExtensions.find(kRCNativeSyncV3) != std::string::npos) {
rcEnc->setSyncImpl(SYNC_IMPL_NATIVE_SYNC_V3);
} else if (glExtensions.find(kRCNativeSyncV2) != std::string::npos) {
rcEnc->setSyncImpl(SYNC_IMPL_NATIVE_SYNC_V2);
} else {
rcEnc->setSyncImpl(SYNC_IMPL_NONE);
}
#endif
}
void HostConnection::queryAndSetDmaImpl(ExtendedRCEncoderContext *rcEnc) {
std::string glExtensions = queryGLExtensions(rcEnc);
#if PLATFORM_SDK_VERSION <= 16 || (!defined(__i386__) && !defined(__x86_64__))
rcEnc->setDmaImpl(DMA_IMPL_NONE);
#else
if (glExtensions.find(kDmaExtStr_v1) != std::string::npos) {
rcEnc->setDmaImpl(DMA_IMPL_v1);
} else {
rcEnc->setDmaImpl(DMA_IMPL_NONE);
}
#endif
}
void HostConnection::queryAndSetGLESMaxVersion(ExtendedRCEncoderContext* rcEnc) {
std::string glExtensions = queryGLExtensions(rcEnc);
if (glExtensions.find(kGLESMaxVersion_2) != std::string::npos) {
rcEnc->setGLESMaxVersion(GLES_MAX_VERSION_2);
} else if (glExtensions.find(kGLESMaxVersion_3_0) != std::string::npos) {
rcEnc->setGLESMaxVersion(GLES_MAX_VERSION_3_0);
} else if (glExtensions.find(kGLESMaxVersion_3_1) != std::string::npos) {
rcEnc->setGLESMaxVersion(GLES_MAX_VERSION_3_1);
} else if (glExtensions.find(kGLESMaxVersion_3_2) != std::string::npos) {
rcEnc->setGLESMaxVersion(GLES_MAX_VERSION_3_2);
} else {
ALOGW("Unrecognized GLES max version string in extensions: %s",
glExtensions.c_str());
rcEnc->setGLESMaxVersion(GLES_MAX_VERSION_2);
}
}
void HostConnection::queryAndSetNoErrorState(ExtendedRCEncoderContext* rcEnc) {
std::string glExtensions = queryGLExtensions(rcEnc);
if (glExtensions.find(kGLESNoHostError) != std::string::npos) {
m_noHostError = true;
}
}