| A zygote process is one that listens for spawn requests from a master process |
| and forks itself in response. Generally they are used because forking a process |
| after some expensive setup has been performed can save time and share extra |
| memory pages. |
| |
| More specifically, on Linux, it allows to: |
| * Amortize the runtime and memory cost of the dynamic loader's relocations, |
| which is respectively ~6 MB and 60 ms/GHz per process. |
| See [Appendix A](#appendix-a-runtime-impact-of-relocations) and |
| [Appendix B](#appendix-b-memory-impact-of-relocations). |
| * Amortize the runtime and memory cost for initializing common |
| libraries, such as ICU, NSS, the V8 snapshot and anything else in |
| `ContentMainRunnerImpl::Initialize()`. With the above, this saves |
| up to ~8 MB per process. See [Appendix C](#appendix-c-overall-memory-impact). |
| |
| Security-wise, the Zygote is responsible for setting up and bookkeeping the |
| [namespace sandbox](linux_sandboxing.md). |
| |
| Furthermore it is the only reasonable way to keep a reference to a binary |
| and a set of shared libraries that can be exec'ed. In the model used on Windows |
| and Mac, renderers are exec'ed as needed from the chrome binary. However, if the |
| chrome binary, or any of its shared libraries are updated while Chrome is |
| running, we'll end up exec'ing the wrong version. A version _x_ browser might be |
| talking to a version _y_ renderer. Our IPC system does not support this (and |
| does not want to!). |
| |
| So we would like to keep a reference to a binary and its shared libraries and |
| exec from these. However, unless we are going to write our own `ld.so`, there's |
| no way to do this. |
| |
| Instead, we exec the prototypical renderer at the beginning of the browser |
| execution. When we need more renderers, we signal this prototypical process (the |
| zygote) to fork itself. The zygote is always the correct version and, by |
| exec'ing one, we make sure the renderers have a different address space |
| randomisation than the browser. |
| |
| The zygote process is triggered by the `--type=zygote` command line flag, which |
| causes `ZygoteMain` (in `chrome/browser/zygote_main_linux.cc`) to be run. The |
| zygote is launched from `content/browser/zygote_host/zygote_host_impl_linux.cc`. |
| |
| Signaling the zygote for a new renderer happens in |
| `chrome/browser/child_process_launcher.cc`. |
| |
| You can use the `--zygote-cmd-prefix` flag to debug the zygote process. If you |
| use `--renderer-cmd-prefix` then the zygote will be bypassed and renderers will |
| be exec'ed afresh every time. |
| |
| ## Appendix A: Runtime impact of relocations |
| Measured on a Z620: |
| |
| $ LD_DEBUG=statistics /opt/google/chrome-beta/chrome --help |
| runtime linker statistics: |
| total startup time in dynamic loader: 73899158 clock cycles |
| time needed for relocation: 56836478 clock cycles (76.9%) |
| number of relocations: 4271 |
| number of relocations from cache: 11347 |
| number of relative relocations: 502740 |
| time needed to load objects: 15789844 clock cycles (21.3%) |
| |
| 56836478 clock cycles -> ~56 ms/GHz |
| |
| ## Appendix B: Memory impact of relocations |
| |
| $ readelf -WS /opt/google/chrome-beta/chrome |
| [Nr] Name Type Address Off Size ES Flg Lk Inf Al |
| ... |
| [25] .data.rel.ro PROGBITS 0000000006a8b590 6a8a590 5b5500 00 WA 0 0 16 |
| ... |
| Note: 0x5b5500 -> 5.98 MB |
| |
| Actual impact in terms of memory pages that get shared due to CoW: |
| |
| $ cat /proc/.../smaps |
| 7fbdd1c81000-7fbdd2233000 r--p 06a5d000 fc:00 665771 /opt/google/chrome-unstable/chrome |
| ... |
| Shared_Dirty: 5796 kB |
| |
| ## Appendix C: Overall memory impact |
| $ cat /proc/$PID_OF_ZYGOTE/smaps | grep Shared_Dirty | awk '{TOTAL += $2} END {print TOTAL}' |
| 8092 # KB for dirty pages shared with other processes (mostly forked child processes). |
