From 1018e225ddee3d87564ed52579994867493d187a Mon Sep 17 00:00:00 2001 From: "Richard W.M. Jones" Date: Wed, 7 Sep 2011 15:21:37 +0100 Subject: [PATCH] docs: Add a section explaining the appliance boot process. (cherry picked from commit b3f1457fddd19b1e540866fa01c665aeb371cb44) --- src/guestfs.pod | 93 +++++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 93 insertions(+) diff --git a/src/guestfs.pod b/src/guestfs.pod index 03f6796..5eb17f2 100644 --- a/src/guestfs.pod +++ b/src/guestfs.pod @@ -2227,6 +2227,99 @@ callback to receive these messages. =head1 INTERNALS +=head2 APPLIANCE BOOT PROCESS + +This process has evolved and continues to evolve. The description +here corresponds only to the current version of libguestfs and is +provided for information only. + +In order to follow the stages involved below, enable libguestfs +debugging (set the environment variable C). + +=over 4 + +=item Create the appliance + +C is invoked to create the kernel, a +small initrd and the appliance. + +The appliance is cached in CUIDE> (or in +another directory if C is set). + +For a complete description of how the appliance is created and cached, +read the L and L man +pages. + +=item Start qemu and boot the kernel + +qemu is invoked to boot the kernel. + +=item Run the initrd + +C builds a small initrd. The initrd is +not the appliance. The purpose of the initrd is to load enough kernel +modules in order that the appliance itself can be mounted and started. + +The initrd is a cpio archive called +CUIDE/initrd>. + +When the initrd has started you will see messages showing that kernel +modules are being loaded, similar to this: + + febootstrap: ext2 mini initrd starting up + febootstrap: mounting /sys + febootstrap: internal insmod libcrc32c.ko + febootstrap: internal insmod crc32c-intel.ko + +=item Find and mount the appliance device + +The appliance is a sparse file containing an ext2 filesystem which +contains a familiar (although reduced in size) Linux operating system. +It would normally be called CUIDE/root>. + +The regular disks being inspected by libguestfs are the first +devices exposed by qemu (eg. as C). + +The last disk added to qemu is the appliance itself (eg. C +if there was only one regular disk). + +Thus the final job of the initrd is to locate the appliance disk, +mount it, and switch root into the appliance, and run C from +the appliance. + +If this works successfully you will see messages such as: + + febootstrap: picked /sys/block/vdb/dev as root device + febootstrap: creating /dev/root as block special 252:16 + febootstrap: mounting new root on /root + febootstrap: chroot + Starting /init script ... + +Note that C indicates that the appliance's +init script is now running. + +=item Initialize the appliance + +The appliance itself now initializes itself. This involves starting +certain processes like C, possibly printing some debug +information, and finally running the daemon (C). + +=item The daemon + +Finally the daemon (C) runs inside the appliance. If it +runs you should see: + + verbose daemon enabled + +The daemon expects to see a named virtio-serial port exposed by qemu +and connected on the other end to the library. + +The daemon connects to this port (and hence to the library) and sends +a four byte message C, which initiates the +communication protocol (see below). + +=back + =head2 COMMUNICATION PROTOCOL Don't rely on using this protocol directly. This section documents -- 1.8.3.1