commit | 79e973f9a13431e309fad77f1aa0ea045bc5baac | [log] [tgz] |
---|---|---|
author | Suraj Malhotra <surajmalhotra@google.com> | Thu Jun 28 17:30:00 2018 -0700 |
committer | Suraj Malhotra <surajmalhotra@google.com> | Fri Jun 29 09:52:39 2018 -0700 |
tree | 57066d6623c0b24ca2bd03d7988d63d082a014aa | |
parent | c595fd5d7df62d8de2669b68365ee328f5afb068 [diff] |
[paver] Add support for non-managed NAND partitions. On several NAND parts, we have NAND partitions managed by a special skip-block algorithm, rather than an FTL. These do not expose a block IOCTL interface, but rather a different Change-Id: Icb6bbdcb151b1127f95509aee55683db52ab80b6 Tested: TODO: Paved ZIRCON-R to a gauss.
Zircon is the core platform that powers the Fuchsia OS. Zircon is composed of a microkernel (source in kernel/...) as well as a small set of userspace services, drivers, and libraries (source in system/...) necessary for the system to boot, talk to hardware, load userspace processes and run them, etc. Fuchsia builds a much larger OS on top of this foundation.
The canonical Zircon Git repository is located at: https://fuchsia.googlesource.com/zircon
A read-only mirror of the code is present at: https://github.com/fuchsia-mirror/zircon
The Zircon Kernel provides syscalls to manage processes, threads, virtual memory, inter-process communication, waiting on object state changes, and locking (via futexes).
Currently there are some temporary syscalls that have been used for early bringup work, which will be going away in the future as the long term syscall API/ABI surface is finalized. The expectation is that there will be about 100 syscalls.
Zircon syscalls are generally non-blocking. The wait_one, wait_many port_wait and thread sleep being the notable exceptions.
This page is a non-comprehensive index of the zircon documentation.