thin-provisioning-tools/base/io_generator.cc
Ming-Hung Tsai ce8945e829 [io_generator] Fix address boundary for doing IO
Limit the addresses to be within the specified range
2020-06-30 17:12:42 +08:00

240 lines
5.7 KiB
C++

#include "base/io_generator.h"
#include <stdexcept>
#include <cstdlib>
#include <cstring>
using namespace base;
//----------------------------------------------------------------
namespace {
std::pair<char const*, io_pattern::pattern> patterns[] = {
{"read", io_pattern::READ},
{"write", io_pattern::WRITE},
{"trim", io_pattern::TRIM},
{"readwrite", io_pattern::READ_WRITE},
{"trimwrite", io_pattern::TRIM_WRITE},
{"randread", io_pattern::RAND_READ},
{"randwrite", io_pattern::RAND_WRITE},
{"randtrim", io_pattern::RAND_TRIM},
{"randrw", io_pattern::RAND_RW},
{"randtw", io_pattern::RAND_TW}
};
unsigned const nr_patterns = sizeof(patterns) / sizeof(patterns[0]);
//--------------------------------
class offset_generator {
public:
typedef std::shared_ptr<offset_generator> ptr;
virtual base::sector_t next_offset() = 0;
};
class sequential_offset_generator: public offset_generator {
public:
sequential_offset_generator(base::sector_t offset,
base::sector_t size,
base::sector_t block_size)
: block_size_(block_size),
begin_(offset),
end_(offset + size),
current_(offset) {
if (size < block_size)
throw std::runtime_error("size must be greater than block_size");
}
base::sector_t next_offset() {
sector_t r = current_;
current_ += block_size_;
if (current_ > end_) {
current_ = begin_;
return begin_;
}
return r;
}
private:
unsigned block_size_;
base::sector_t begin_;
base::sector_t end_;
base::sector_t current_;
};
class random_offset_generator: public offset_generator {
public:
random_offset_generator(sector_t offset,
sector_t size,
sector_t block_size)
: block_begin_(offset / block_size),
nr_blocks_(size / block_size),
block_size_(block_size) {
}
sector_t next_offset() {
return ((std::rand() % nr_blocks_) + block_begin_) * block_size_;
}
private:
uint64_t block_begin_;
uint64_t nr_blocks_;
unsigned block_size_;
};
//--------------------------------
class op_generator {
public:
typedef std::shared_ptr<op_generator> ptr;
op_generator(base::req_op op1)
: op1_(op1), op2_(op1), op1_pct_(100) {
}
op_generator(base::req_op op1,
base::req_op op2,
unsigned op1_pct)
: op1_(op1), op2_(op2), op1_pct_(op1_pct) {
if (op1_pct > 100)
throw std::runtime_error("invalid percentage");
}
base::req_op next_op() {
if (static_cast<unsigned>(std::rand()) % 100 > op1_pct_)
return op2_;
return op1_;
}
private:
base::req_op op1_;
base::req_op op2_;
unsigned op1_pct_;
};
//--------------------------------
class base_io_generator: public io_generator {
public:
base_io_generator(io_generator_options const &opts);
virtual bool next(base::io &next_io);
private:
offset_generator::ptr
create_offset_generator(io_generator_options const &opts);
op_generator::ptr
create_op_generator(io_generator_options const &opts);
offset_generator::ptr offset_gen_;
op_generator::ptr op_gen_;
sector_t block_size_;
size_t io_size_finished_;
size_t io_size_total_;
};
base_io_generator::base_io_generator(io_generator_options const &opts)
: offset_gen_(create_offset_generator(opts)),
op_gen_(create_op_generator(opts)),
block_size_(opts.block_size_),
io_size_finished_(0),
io_size_total_(opts.io_size_) {
}
bool base_io_generator::next(base::io &next_io) {
if (io_size_finished_ >= io_size_total_)
return false;
next_io.op_ = op_gen_->next_op();
next_io.sector_ = offset_gen_->next_offset();
next_io.size_ = block_size_;
io_size_finished_ += block_size_;
return true;
}
offset_generator::ptr
base_io_generator::create_offset_generator(io_generator_options const &opts) {
if (opts.pattern_.is_random())
return offset_generator::ptr(
new random_offset_generator(opts.offset_,
opts.size_,
opts.block_size_));
return offset_generator::ptr(
new sequential_offset_generator(opts.offset_,
opts.size_,
opts.block_size_));
}
op_generator::ptr
base_io_generator::create_op_generator(io_generator_options const &opts) {
// FIXME: elimiate the switch-case and hide enum values
switch (opts.pattern_.val_) {
case io_pattern::READ:
case io_pattern::RAND_READ:
return op_generator::ptr(new op_generator(base::REQ_OP_READ));
case io_pattern::WRITE:
case io_pattern::RAND_WRITE:
return op_generator::ptr(new op_generator(base::REQ_OP_WRITE));
case io_pattern::TRIM:
case io_pattern::RAND_TRIM:
return op_generator::ptr(new op_generator(base::REQ_OP_DISCARD));
case io_pattern::READ_WRITE:
case io_pattern::RAND_RW:
return op_generator::ptr(new op_generator(base::REQ_OP_READ,
base::REQ_OP_WRITE,
50));
case io_pattern::TRIM_WRITE:
case io_pattern::RAND_TW:
return op_generator::ptr(new op_generator(base::REQ_OP_DISCARD,
base::REQ_OP_WRITE,
50));
default:
throw std::runtime_error("unknown pattern");
}
}
}
//----------------------------------------------------------------
io_pattern::io_pattern()
: val_(pattern::READ) {
}
io_pattern::io_pattern(char const *pattern) {
parse(pattern);
}
void
io_pattern::parse(char const *pattern) {
bool found = false;
unsigned i = 0;
for (i = 0; i < nr_patterns; i++) {
if (!strcmp(patterns[i].first, pattern)) {
found = true;
break;
}
}
if (!found)
throw std::runtime_error("unknow pattern");
val_ = patterns[i].second;
}
bool
io_pattern::is_random() const {
return val_ & pattern::RANDOM;
}
//----------------------------------------------------------------
io_generator::ptr
base::create_io_generator(io_generator_options const &opts) {
return io_generator::ptr(new base_io_generator(opts));
}
//----------------------------------------------------------------