Version bump to v0.2.0

Cargo.toml

@@ -1,6 +1,6 @@
 [package]
 name = "hardware-tests"
-version = "0.2.0"
+version = "0.2.2"
 edition = "2021"
 
 [[bin]]

README.md

@@ -1,6 +1,6 @@
 # Bit Goblin Hardware Tests
 
-Scripts used for testing hardware in Bit Goblin's videos.
+Benchmarking suite used for testing hardware in Bit Goblin's videos.
 
 ## Download & Installation
 
@@ -8,9 +8,16 @@ Check out the [Releases page](https://git.metaunix.net/BitGoblin/hardware-tests/
 
 Currently there is no installation method other than downloading the provided release binaries. In the future I want to build Linux package repositories for this, and have a Windows installer.
 
+## Running
+
+Simply run the tool with `./bgbench` and you'll be presented with the available subcommands.
+
+### Runtime requirements:
+* disk - requires `fio`.
+
 ## Building
 
-The easiest way to build the program is using the official Rust image from Docker Hub, for which there's a wrapper script at `bin/docker-build.sh` that can be used to build the test programs. These will be available under `target/debug/`.
+The easiest way to build the program is using the official Rust image from Docker Hub, for which there's a wrapper script at `bin/docker-build.sh` that can be used to build the test program. These will be available under `target/debug/`. Else you can just run a `cargo build` to compile the program.
 
 ## License
 

src/main.rs

@@ -28,11 +28,39 @@ struct Disk {
 
 #[derive(Subcommand)]
 enum DiskCommands {
-    #[clap(name = "write-test", about = "Write a large file to determine sequential disk speeds.")]
-    WriteTest {
+    // sequential disk read subcommand
+    #[clap(name = "read_seq", about = "Sequential disk read speed test.")]
+    ReadSeqTest {
+        #[clap(short = 'f', default_value_t = String::from("/tmp/disk-test.tmp"))]
+        tempfile: String,
+        #[clap(short = 's', default_value_t = 15)]
+        size: u8,
+    },
+
+    // random disk read subcommand
+    #[clap(name = "read_rand", about = "Random 4K disk read speed test.")]
+    ReadRandTest {
+        #[clap(short = 'f', default_value_t = String::from("/tmp/disk-test.tmp"))]
+        tempfile: String,
+        #[clap(short = 's', default_value_t = 15)]
+        size: u8,
+    },
+
+    // sequential disk write subcommand
+    #[clap(name = "write_seq", about = "Write a large file to determine sequential disk write speeds.")]
+    WriteSeqTest {
         #[clap(short = 't', default_value_t = String::from("/tmp/disk-test.tmp"))]
         tempfile: String,
-        #[clap(short = 's', default_value_t = 5)]
+        #[clap(short = 's', default_value_t = 15)]
+        size: u8,
+    },
+
+    // random 4K disk write subcommand
+    #[clap(name = "write_rand", about = "Write a bunch of smallfiles to determine random disk write speeds.")]
+    WriteRandTest {
+        #[clap(short = 't', default_value_t = String::from("/tmp/disk-test.tmp"))]
+        tempfile: String,
+        #[clap(short = 's', default_value_t = 15)]
         size: u8,
     },
 }
@@ -70,7 +98,10 @@ fn main() {
     // map subcommands back to the main command
     match &cli.command {
         Commands::Disk(args) => match &args.disk_commands {
-            DiskCommands::WriteTest { tempfile, size } => tests::disk::disk_write_test(tempfile, size),
+            DiskCommands::ReadSeqTest { tempfile, size } => tests::disk::disk_read_seq_test(tempfile, size),
+            DiskCommands::ReadRandTest { tempfile, size } => tests::disk::disk_read_rand_test(tempfile, size),
+            DiskCommands::WriteSeqTest { tempfile, size } => tests::disk::disk_write_seq_test(tempfile, size),
+            DiskCommands::WriteRandTest { tempfile, size } => tests::disk::disk_write_rand_test(tempfile, size),
         }
 
         Commands::Net(args) => match &args.net_commands {

src/tests/disk.rs

@@ -1,29 +1,109 @@
-use std::fs;
 use std::process::Command;
 
-// test disk write speeds by continually writing zeroes to it
-pub fn disk_write_test(tempfile: &str, size: &u8) {
-    // convert size in Gigabytes down to Megabytes
-    let size_gigs: u32 = (*size as u32 * 1024).into();
-
-    // run the dd command with a block size of 1 MB
-    let output = Command::new("dd")
-        .arg("bs=1M")
-        .arg(format!("count={}", size_gigs))
-        .arg("if=/dev/zero")
-        .arg(format!("of={}", tempfile))
+// test disk sequential read speeds w/ fio
+pub fn disk_read_seq_test(tempfile: &str, size: &u8) {
+    // run the fio command
+    let output = Command::new("fio")
+        .arg("--name=TEST")
+        .arg(format!("--filename={}", tempfile))
+        .arg("--rw=read")
+        .arg("--size=2g")
+        .arg(format!("--io_size={}g", size))
+        .arg("--blocksize=1024k")
+        .arg("--ioengine=libaio")
+        .arg("--fsync=10000")
+        .arg("--iodepth=32")
+        .arg("--direct=1")
+        .arg("--numjobs=1")
+        .arg("--runtime=60")
+        .arg("--group_reporting")
         .output()
         .expect("Failed to execute command");
 
     // check that the command succeeded
     assert!(output.status.success());
 
-    // for whatever reason, `dd` output ends up in stderr
-    println!("{}", String::from_utf8_lossy(&output.stderr));
+    // print the test's output
+    println!("{}", String::from_utf8_lossy(&output.stdout));
+}
 
-    // remove the test file
-    match fs::remove_file(tempfile) {
-        Ok(()) => println!("Cleaning up..."),
-        Err(e) => println!("There was a problem during cleanup - {}", e),
+// test disk 4K random read speeds w/ fio
+pub fn disk_read_rand_test(tempfile: &str, size: &u8) {
+    // run the fio command
+    let output = Command::new("fio")
+        .arg("--name=TEST")
+        .arg(format!("--filename={}", tempfile))
+        .arg("--rw=randread")
+        .arg("--size=2g")
+        .arg(format!("--io_size={}g", size))
+        .arg("--blocksize=4k")
+        .arg("--ioengine=libaio")
+        .arg("--fsync=1")
+        .arg("--iodepth=1")
+        .arg("--direct=1")
+        .arg("--numjobs=32")
+        .arg("--runtime=60")
+        .arg("--group_reporting")
+        .output()
+        .expect("Failed to execute command");
+
+    // check that the command succeeded
+    assert!(output.status.success());
+
+    // print the test's output
+    println!("{}", String::from_utf8_lossy(&output.stdout));
 }
+
+// test sequential disk write speeds w/ fio
+pub fn disk_write_seq_test(tempfile: &str, size: &u8) {
+    // run the fio command
+    let output = Command::new("fio")
+        .arg("--name=TEST")
+        .arg(format!("--filename={}", tempfile))
+        .arg("--rw=write")
+        .arg("--size=2g")
+        .arg(format!("--io_size={}g", size))
+        .arg("--blocksize=1024k")
+        .arg("--ioengine=libaio")
+        .arg("--fsync=10000")
+        .arg("--iodepth=32")
+        .arg("--direct=1")
+        .arg("--numjobs=1")
+        .arg("--runtime=60")
+        .arg("--group_reporting")
+        .output()
+        .expect("Failed to execute command");
+
+    // check that the command succeeded
+    assert!(output.status.success());
+
+    // print the test's output
+    println!("{}", String::from_utf8_lossy(&output.stdout));
+}
+
+// test random 4K disk write speeds w/ fio
+pub fn disk_write_rand_test(tempfile: &str, size: &u8) {
+    // run the fio command
+    let output = Command::new("fio")
+        .arg("--name=TEST")
+        .arg(format!("--filename={}", tempfile))
+        .arg("--rw=randrw")
+        .arg("--size=2g")
+        .arg(format!("--io_size={}g", size))
+        .arg("--blocksize=4k")
+        .arg("--ioengine=libaio")
+        .arg("--fsync=1")
+        .arg("--iodepth=1")
+        .arg("--direct=1")
+        .arg("--numjobs=32")
+        .arg("--runtime=60")
+        .arg("--group_reporting")
+        .output()
+        .expect("Failed to execute command");
+
+    // check that the command succeeded
+    assert!(output.status.success());
+
+    // print the test's output
+    println!("{}", String::from_utf8_lossy(&output.stdout));
 }