1SCHED_EXT EXAMPLE SCHEDULERS 2============================ 3 4# Introduction 5 6This directory contains a number of example sched_ext schedulers. These 7schedulers are meant to provide examples of different types of schedulers 8that can be built using sched_ext, and illustrate how various features of 9sched_ext can be used. 10 11Some of the examples are performant, production-ready schedulers. That is, for 12the correct workload and with the correct tuning, they may be deployed in a 13production environment with acceptable or possibly even improved performance. 14Others are just examples that in practice, would not provide acceptable 15performance (though they could be improved to get there). 16 17This README will describe these example schedulers, including describing the 18types of workloads or scenarios they're designed to accommodate, and whether or 19not they're production ready. For more details on any of these schedulers, 20please see the header comment in their .bpf.c file. 21 22 23# Compiling the examples 24 25There are a few toolchain dependencies for compiling the example schedulers. 26 27## Toolchain dependencies 28 291. clang >= 16.0.0 30 31The schedulers are BPF programs, and therefore must be compiled with clang. gcc 32is actively working on adding a BPF backend compiler as well, but are still 33missing some features such as BTF type tags which are necessary for using 34kptrs. 35 362. pahole >= 1.25 37 38You may need pahole in order to generate BTF from DWARF. 39 403. rust >= 1.70.0 41 42Rust schedulers uses features present in the rust toolchain >= 1.70.0. You 43should be able to use the stable build from rustup, but if that doesn't 44work, try using the rustup nightly build. 45 46There are other requirements as well, such as make, but these are the main / 47non-trivial ones. 48 49## Compiling the kernel 50 51In order to run a sched_ext scheduler, you'll have to run a kernel compiled 52with the patches in this repository, and with a minimum set of necessary 53Kconfig options: 54 55``` 56CONFIG_BPF=y 57CONFIG_SCHED_CLASS_EXT=y 58CONFIG_BPF_SYSCALL=y 59CONFIG_BPF_JIT=y 60CONFIG_DEBUG_INFO_BTF=y 61``` 62 63It's also recommended that you also include the following Kconfig options: 64 65``` 66CONFIG_BPF_JIT_ALWAYS_ON=y 67CONFIG_BPF_JIT_DEFAULT_ON=y 68CONFIG_PAHOLE_HAS_SPLIT_BTF=y 69CONFIG_PAHOLE_HAS_BTF_TAG=y 70``` 71 72There is a `Kconfig` file in this directory whose contents you can append to 73your local `.config` file, as long as there are no conflicts with any existing 74options in the file. 75 76## Getting a vmlinux.h file 77 78You may notice that most of the example schedulers include a "vmlinux.h" file. 79This is a large, auto-generated header file that contains all of the types 80defined in some vmlinux binary that was compiled with 81[BTF](https://docs.kernel.org/bpf/btf.html) (i.e. with the BTF-related Kconfig 82options specified above). 83 84The header file is created using `bpftool`, by passing it a vmlinux binary 85compiled with BTF as follows: 86 87```bash 88$ bpftool btf dump file /path/to/vmlinux format c > vmlinux.h 89``` 90 91`bpftool` analyzes all of the BTF encodings in the binary, and produces a 92header file that can be included by BPF programs to access those types. For 93example, using vmlinux.h allows a scheduler to access fields defined directly 94in vmlinux as follows: 95 96```c 97#include "vmlinux.h" 98// vmlinux.h is also implicitly included by scx_common.bpf.h. 99#include "scx_common.bpf.h" 100 101/* 102 * vmlinux.h provides definitions for struct task_struct and 103 * struct scx_enable_args. 104 */ 105void BPF_STRUCT_OPS(example_enable, struct task_struct *p, 106 struct scx_enable_args *args) 107{ 108 bpf_printk("Task %s enabled in example scheduler", p->comm); 109} 110 111// vmlinux.h provides the definition for struct sched_ext_ops. 112SEC(".struct_ops.link") 113struct sched_ext_ops example_ops { 114 .enable = (void *)example_enable, 115 .name = "example", 116} 117``` 118 119The scheduler build system will generate this vmlinux.h file as part of the 120scheduler build pipeline. It looks for a vmlinux file in the following 121dependency order: 122 1231. If the O= environment variable is defined, at `$O/vmlinux` 1242. If the KBUILD_OUTPUT= environment variable is defined, at 125 `$KBUILD_OUTPUT/vmlinux` 1263. At `../../vmlinux` (i.e. at the root of the kernel tree where you're 127 compiling the schedulers) 1283. `/sys/kernel/btf/vmlinux` 1294. `/boot/vmlinux-$(uname -r)` 130 131In other words, if you have compiled a kernel in your local repo, its vmlinux 132file will be used to generate vmlinux.h. Otherwise, it will be the vmlinux of 133the kernel you're currently running on. This means that if you're running on a 134kernel with sched_ext support, you may not need to compile a local kernel at 135all. 136 137### Aside on CO-RE 138 139One of the cooler features of BPF is that it supports 140[CO-RE](https://nakryiko.com/posts/bpf-core-reference-guide/) (Compile Once Run 141Everywhere). This feature allows you to reference fields inside of structs with 142types defined internal to the kernel, and not have to recompile if you load the 143BPF program on a different kernel with the field at a different offset. In our 144example above, we print out a task name with `p->comm`. CO-RE would perform 145relocations for that access when the program is loaded to ensure that it's 146referencing the correct offset for the currently running kernel. 147 148## Compiling the schedulers 149 150Once you have your toolchain setup, and a vmlinux that can be used to generate 151a full vmlinux.h file, you can compile the schedulers using `make`: 152 153```bash 154$ make -j($nproc) 155``` 156 157# Example schedulers 158 159This directory contains the following example schedulers. These schedulers are 160for testing and demonstrating different aspects of sched_ext. While some may be 161useful in limited scenarios, they are not intended to be practical. 162 163For more scheduler implementations, tools and documentation, visit 164https://github.com/sched-ext/scx. 165 166## scx_simple 167 168A simple scheduler that provides an example of a minimal sched_ext scheduler. 169scx_simple can be run in either global weighted vtime mode, or FIFO mode. 170 171Though very simple, in limited scenarios, this scheduler can perform reasonably 172well on single-socket systems with a unified L3 cache. 173 174## scx_qmap 175 176Another simple, yet slightly more complex scheduler that provides an example of 177a basic weighted FIFO queuing policy. It also provides examples of some common 178useful BPF features, such as sleepable per-task storage allocation in the 179`ops.prep_enable()` callback, and using the `BPF_MAP_TYPE_QUEUE` map type to 180enqueue tasks. It also illustrates how core-sched support could be implemented. 181 182## scx_central 183 184A "central" scheduler where scheduling decisions are made from a single CPU. 185This scheduler illustrates how scheduling decisions can be dispatched from a 186single CPU, allowing other cores to run with infinite slices, without timer 187ticks, and without having to incur the overhead of making scheduling decisions. 188 189The approach demonstrated by this scheduler may be useful for any workload that 190benefits from minimizing scheduling overhead and timer ticks. An example of 191where this could be particularly useful is running VMs, where running with 192infinite slices and no timer ticks allows the VM to avoid unnecessary expensive 193vmexits. 194 195 196# Troubleshooting 197 198There are a number of common issues that you may run into when building the 199schedulers. We'll go over some of the common ones here. 200 201## Build Failures 202 203### Old version of clang 204 205``` 206error: static assertion failed due to requirement 'SCX_DSQ_FLAG_BUILTIN': bpftool generated vmlinux.h is missing high bits for 64bit enums, upgrade clang and pahole 207 _Static_assert(SCX_DSQ_FLAG_BUILTIN, 208 ^~~~~~~~~~~~~~~~~~~~ 2091 error generated. 210``` 211 212This means you built the kernel or the schedulers with an older version of 213clang than what's supported (i.e. older than 16.0.0). To remediate this: 214 2151. `which clang` to make sure you're using a sufficiently new version of clang. 216 2172. `make fullclean` in the root path of the repository, and rebuild the kernel 218 and schedulers. 219 2203. Rebuild the kernel, and then your example schedulers. 221 222The schedulers are also cleaned if you invoke `make mrproper` in the root 223directory of the tree. 224 225### Stale kernel build / incomplete vmlinux.h file 226 227As described above, you'll need a `vmlinux.h` file that was generated from a 228vmlinux built with BTF, and with sched_ext support enabled. If you don't, 229you'll see errors such as the following which indicate that a type being 230referenced in a scheduler is unknown: 231 232``` 233/path/to/sched_ext/tools/sched_ext/user_exit_info.h:25:23: note: forward declaration of 'struct scx_exit_info' 234 235const struct scx_exit_info *ei) 236 237^ 238``` 239 240In order to resolve this, please follow the steps above in 241[Getting a vmlinux.h file](#getting-a-vmlinuxh-file) in order to ensure your 242schedulers are using a vmlinux.h file that includes the requisite types. 243 244## Misc 245 246### llvm: [OFF] 247 248You may see the following output when building the schedulers: 249 250``` 251Auto-detecting system features: 252... clang-bpf-co-re: [ on ] 253... llvm: [ OFF ] 254... libcap: [ on ] 255... libbfd: [ on ] 256``` 257 258Seeing `llvm: [ OFF ]` here is not an issue. You can safely ignore. 259