TEST_F(ServerCollectTest, get_range_blocks_)
{
srand(time(NULL));
DataServerStatInfo info;
memset(&info, 0, sizeof(info));
info.status_ = DATASERVER_STATUS_ALIVE;
info.id_ = 0xfffffff0;
time_t now = Func::get_monotonic_time();
bool master = true;
bool writable = true;
ServerCollect server(info, now);
const int32_t BLOCK_COUNT = random() % 10000 + 40960;
BlockCollect* blocks[BLOCK_COUNT];
for (int32_t i = 0; i < BLOCK_COUNT; ++i)
blocks[i] = new BlockCollect(100 + i);
for (int32_t k = 0; k < BLOCK_COUNT; ++k)
{
EXPECT_TRUE(server.add(blocks[k], writable, master));
}
for (int32_t j = 0; j < BLOCK_COUNT; ++j)
tbsys::gDelete(blocks[j]);
EXPECT_EQ(BLOCK_COUNT, server.hold_->size());
const int32_t MAX_QUERY_NUMS = random() % 512 + 1024;
BlockCollect* pblock = NULL;
BlockCollect* tmp[MAX_QUERY_NUMS];
ArrayHelper<BlockCollect*> helper(MAX_QUERY_NUMS, tmp);
int32_t actual = 0;
uint32_t begin = 0;
bool complete = true;
do
{
helper.clear();
complete = server.get_range_blocks_(helper, begin, MAX_QUERY_NUMS);
if (!helper.empty())
{
actual += helper.get_array_index();
pblock = *helper.at(helper.get_array_index() - 1);
begin = pblock->id();
}
}
while (!complete);
EXPECT_EQ(BLOCK_COUNT, actual);
}
TEST_F(ServerCollectTest, touch)
{
srand(time(NULL));
DataServerStatInfo info;
memset(&info, 0, sizeof(info));
info.status_ = DATASERVER_STATUS_ALIVE;
info.id_ = 0xfffffff0;
info.use_capacity_ = 0xffffff;
info.total_capacity_ = 0xffffffff;
time_t now = Func::get_monotonic_time();
bool master = true;
bool writable = true;
ServerCollect server(layout_manager_, info, now);
info.id_++;
ServerCollect server2(layout_manager_, info,now);
const int32_t BLOCK_COUNT = random() % 10000 + 40960;
for (int32_t i = 0; i < BLOCK_COUNT; ++i)
{
BlockCollect* block = layout_manager_.get_block_manager().insert(100 + i, now);
EXPECT_TRUE(NULL != block);
block->add(writable, master, server.id(), now);
EXPECT_EQ(TFS_SUCCESS, server.add(block->id(), writable, master));
}
EXPECT_TRUE(server.writable_->size() > 0);
EXPECT_EQ(0, server.hold_master_->size());
EXPECT_EQ(BLOCK_COUNT, server.hold_->size());
bool promote = false;
int32_t count = 0;
int64_t average_used_capacity = 0xfff;
EXPECT_FALSE(server.touch(promote, count, average_used_capacity));
count = 3;
EXPECT_FALSE(server.touch(promote, count, average_used_capacity));
count = 3;
promote = true;
EXPECT_TRUE(server.touch(promote, count, average_used_capacity));
EXPECT_EQ(3, count);
average_used_capacity = 0xffffff;
EXPECT_TRUE(server.touch(promote, count, average_used_capacity));
EXPECT_EQ(3, count);
for (int32_t i = 0; i < BLOCK_COUNT; ++i)
{
BlockCollect* block = layout_manager_.get_block_manager().get(100 + i);
EXPECT_TRUE(NULL != block);
block->add(writable, master, server2.id(), now);
server2.add(block->id(), writable, master);
}
EXPECT_TRUE(server2.touch(promote, count, average_used_capacity));
EXPECT_EQ(0, count);
EXPECT_TRUE(server2.hold_master_->size() == 3);
EXPECT_EQ(BLOCK_COUNT, server.hold_->size());
}
bool ServerCollect::remove_writable_(const common::ArrayHelper<BlockCollect*>& blocks)
{
RWLock::Lock lock(mutex_, WRITE_LOCKER);
BlockCollect* block = NULL;
for (int32_t i = 0; i < blocks.get_array_index(); ++i)
{
block = *blocks.at(i);
TBSYS_LOG(DEBUG, "%s remove_writable: is_full: %d, servers size: %d",
tbsys::CNetUtil::addrToString(id()).c_str(), block->is_full(), block->get_servers_size());
if (!block->is_writable() || !is_equal_group(block->id()))
hold_master_->erase(block);
if (block->is_full() || !is_equal_group(block->id()))
writable_->erase(block);
}
return true;
}
bool ServerCollect::touch(bool& promote, int32_t& count, const double average_used_capacity)
{
bool ret = ((is_report_block_complete() || promote) /*&& !is_full()*/ && count > 0);
if (!ret)
{
count = 0;
}
else
{
BlockCollect* invalid_blocks[1024];
ArrayHelper<BlockCollect*> helper(1024, invalid_blocks);
RWLock::Lock lock(mutex_, WRITE_LOCKER);
int32_t current = hold_master_->size();
TBSYS_LOG(DEBUG, "%s touch current %d, writable size: %d", CNetUtil::addrToString(id()).c_str(),current, writable_->size());
if (current >= SYSPARAM_NAMESERVER.max_write_file_count_)
{
count = 0;
}
else
{
count = std::min(count, (SYSPARAM_NAMESERVER.max_write_file_count_ - current));
if (count <= 0)
{
TBSYS_LOG(DEBUG, "%s", "there is any block need add into hold_master_");
}
else
{
int32_t actual = 0;
double use_capacity_ratio = use_capacity_ / total_capacity_;
double max_average_use_capacity_ratio = average_used_capacity * AVERAGE_USED_CAPACITY_MULTIPLE;
BlockCollect* block = NULL;
TfsVector<BlockCollect*>::iterator where;
while ((!writable_->empty())
&& (writable_index_ < writable_->size())
&& (actual < count))
{
block = writable_->at(writable_index_);
++writable_index_;
if (!block->is_writable())
{
if (block->is_full())
helper.push_back(block);
continue;
}
if (!is_equal_group(block->id()))
{
helper.push_back(block);
continue;
}
if (!block->is_master(this))
continue;
where = hold_master_->find(block);
if (hold_master_->end() == where)
{
++actual;
hold_master_->push_back(block);
}
}
if (writable_index_ >= writable_->size())
writable_index_ = 0;
for (int32_t i = 0; i < helper.get_array_index(); ++i)
{
block = *helper.at(i);
writable_->erase(block);
}
if (!is_full() && ((use_capacity_ratio < max_average_use_capacity_ratio)
|| max_average_use_capacity_ratio <= PERCENTAGE_MIN))
{
count -= actual;
}
else
{
count = 0;
}
}
}
}
return ret;
}
