Commit Graph

21 Commits

Author SHA1 Message Date
Alexander Boettcher
035e28d7d9 sel4: apply patches in deterministic order
Issue #2242
2017-08-30 10:01:36 +02:00
Alexander Boettcher
4ac0bd514f sel4: add uefi boot support via mbi2
Multiboot2 provides the ACPI RSDP pointer from the GRUB2 bootloader.

Issue #2242
2017-08-28 16:49:47 +02:00
Alexander Boettcher
a8227e80af sel4: kernel patch to get ACPI information
Issue #2242
2017-08-28 16:49:47 +02:00
Martin Stein
abc80b7782 prepare_port sel4: check required python modules
This prevents undescriptive errors when building sel4.

Ref #2490
2017-08-28 16:49:36 +02:00
Alexander Boettcher
fd0b256f7c sel4: support cpu utilization via TRACE service
using benchmark infrastructure of the seL4 kernel

Issue #2451
2017-08-18 10:24:47 +02:00
Alexander Boettcher
f825775e40 sel4: update to kernel 6.0
Issue #2451
2017-08-18 10:24:45 +02:00
Alexander Boettcher
da5441292a sel4: add Wandboard Quad (iMX6) support
Issue #2451
2017-08-17 11:04:21 +02:00
Alexander Boettcher
66c0c7b6f1 sel4: add x86_64 support
Issue #2451
2017-08-17 11:04:20 +02:00
Alexander Boettcher
95329c82e2 sel4: update to 5.2.0
Issue #2451
2017-08-17 11:04:19 +02:00
Christian Helmuth
d3fcb38545 sel4: fix UART access (patch)
See https://github.com/seL4/seL4/issues/36.
2016-09-14 11:53:04 +02:00
Alexander Boettcher
d511b09aef sel4: adjust syscall patch to fPIC define
Use same patch as the one going upstream on seL4 soon.
2016-08-30 17:17:19 +02:00
Alexander Boettcher
356e6498b6 sel4: update to 3.2.0
- disable iommu
- increase root_cnode further for native boot
- support vesa driver on native hardware
- don't mask edge triggered ioapic irqs
- increase various allocators to get noux_tool_chain_* booting natively

Issue #2044
2016-08-10 11:07:56 +02:00
Alexander Boettcher
b2a8cfde85 sel4: avoid corruption during ipc marshalling
Issue #2044
2016-08-10 11:07:55 +02:00
Alexander Boettcher
4d10a28411 sel4: disable large mappings for device memory
Issue #2044
2016-08-10 11:07:54 +02:00
Alexander Boettcher
90390fe053 sel4: increase root cnode size in kernel
required to boot setups like noux*

Issue #2044
2016-08-10 11:07:53 +02:00
Alexander Boettcher
99b8fc4408 sel4: enable vesa driver
kernel : add required and reserved boot regions to device memory

Issue #2044
2016-08-10 11:07:52 +02:00
Alexander Boettcher
af93f8d01b sel4: update to 3.1.0
- adjust syscall bindings to support -fPIC
- read serial i/o ports from BIOS data area
- use autoconf.h provided by sel4
-- to avoid ambiguity between sel4 kernel and user libraries
-- remove manual set defines
- remove debug messages
- increase user virtual area to 3GB

Issue #1720
Issue #2044
2016-08-10 11:07:50 +02:00
Norman Feske
9e6f3be806 sel4: update to version 2.1
This patch updates seL4 from the experimental branch of one year ago to
the master branch of version 2.1. The transition has the following
implications.

In contrast to the experimental branch, the master branch has no way to
manually define the allocation of kernel objects within untyped memory
ranges. Instead, the kernel maintains a built-in allocation policy. This
policy rules out the deallocation of once-used parts of untyped memory.
The only way to reuse memory is to revoke the entire untyped memory
range. Consequently, we cannot share a large untyped memory range for
kernel objects of different protection domains. In order to reuse memory
at a reasonably fine granularity, we need to split the initial untyped
memory ranges into small chunks that can be individually revoked. Those
chunks are called "untyped pages". An untyped page is a 4 KiB untyped
memory region.

The bootstrapping of core has to employ a two-stage allocation approach
now. For creating the initial kernel objects for core, which remain
static during the entire lifetime of the system, kernel objects are
created directly out of the initial untyped memory regions as reported
by the kernel. The so-called "initial untyped pool" keeps track of the
consumption of those untyped memory ranges by mimicking the kernel's
internal allocation policy. Kernel objects created this way can be of
any size. For example the phys CNode, which is used to store page-frame
capabilities is 16 MiB in size. Also, core's CSpace uses a relatively
large CNode.

After the initial setup phase, all remaining untyped memory is turned
into untyped pages. From this point on, new created kernel objects
cannot exceed 4 KiB in size because one kernel object cannot span
multiple untyped memory regions. The capability selectors for untyped
pages are organized similarly to those of page-frame capabilities. There
is a new 2nd-level CNode (UNTYPED_CORE_CNODE) that is dimensioned
according to the maximum amount of physical memory (1M entries, each
entry representing 4 KiB). The CNode is organized such that an index
into the CNode directly corresponds to the physical frame number of the
underlying memory. This way, we can easily determine a untyped page
selector for any physical addresses, i.e., for revoking the kernel
objects allocated at a specific physical page. The downside is the need
for another 16 MiB chunk of meta data. Also, we need to keep in mind
that this approach won't scale to 64-bit systems. We will eventually
need to replace the PHYS_CORE_CNODE and UNTYPED_CORE_CNODE by CNode
hierarchies to model a sparsely populated CNode.

The size constrain of kernel objects has the immediate implication that
the VM CSpaces of protection domains must be organized via several
levels of CNodes. I.e., as the top-level CNode of core has a size of
2^12, the remaining 20 PD-specific CSpace address bits are organized as
a 2nd-level 2^4 padding CNode, a 3rd-level 2^8 CNode, and several
4th-level 2^8 leaf CNodes. The latter contain the actual selectors for
the page tables and page-table entries of the respective PD.

As another slight difference from the experimental branch, the master
branch requires the explicit assignment of page directories to an ASID
pool.

Besides the adjustment to the new seL4 version, the patch introduces a
dedicated type for capability selectors. Previously, we just used to
represent them as unsigned integer values, which became increasingly
confusing. The new type 'Cap_sel' is a PD-local capability selector. The
type 'Cnode_index' is an index into a CNode (which is not generally not
the entire CSpace of the PD).

Fixes #1887
2016-02-26 11:36:55 +01:00
Norman Feske
9bf7568909 sel4: replace syscalls.patch by macros.patch 2015-05-26 09:39:54 +02:00
Norman Feske
666c74345f sel4: add patch for sel4/syscalls.h 2015-05-26 09:39:54 +02:00
Norman Feske
456d81f517 New base-sel4 repository 2015-05-26 09:39:53 +02:00