Commit graph

18 commits

Author SHA1 Message Date
Andreas Kling
21d5f4ada1 Kernel: Absorb LibBareMetal back into the kernel
This was supposed to be the foundation for some kind of pre-kernel
environment, but nobody is working on it right now, so let's move
everything back into the kernel and remove all the confusion.
2020-05-16 12:00:04 +02:00
Andreas Kling
2d35810e0a Kernel: Add TimeManagement::now_as_timeval()
Hide the implementation of time-of-day computation in TimeManagement.
2020-05-16 11:34:01 +02:00
Andreas Kling
85aafe492d Kernel: Remove dubious use of "volatile" in HPET code 2020-05-16 10:55:54 +02:00
Andreas Kling
c24304dca3 Kernel: Use NonnullRefPtrVector for HardwareTimer and HPETComparator 2020-05-08 21:22:58 +02:00
Andreas Kling
e3b450005f Kernel: Remove CommandLine::get() in favor of lookup()
lookup() returns an Optional<String> which allows us to implement easy
default values using lookup(key).value_or(default_value);
2020-04-18 14:22:42 +02:00
Andreas Kling
905519bc76 Kernel: Fix dumb logic typo in HardwareTimer::handle_irq() 2020-04-16 18:53:38 +02:00
Andreas Kling
c891c87cb5 Kernel: Rename HardwareTimer::change_function() => set_callback()
Also make it non-virtual since nothing needs to override it.
2020-04-16 18:51:39 +02:00
Andreas Kling
b035267afa Kernel: Remove "stale callback" concept from time management
If a hardware timer doesn't have a callback registered, it's now simply
represented by a null m_callback.
2020-04-16 18:50:22 +02:00
Andreas Kling
4b1f056e3a Kernel: Rename HardwareTimer::m_function_to_call => m_callback 2020-04-16 18:49:20 +02:00
Andreas Kling
1e89f7d64e Kernel: Remove an unnecessary indirection between timer and scheduler
We don't need a wrapper Function object that just forwards the timer
callback to the scheduler tick function. It already has the same
signature, so we can just plug it in directly. :^)

Same with the clock updating function.
2020-04-16 18:49:20 +02:00
Andreas Kling
44d58b85ef Kernel: Simplify the way we pass HardwareTimers around a bit
Instead of passing around indices into the m_hardware_timers vector,
just pass around a HardwareTimer* instead.
2020-04-16 18:49:20 +02:00
Liav A
a7c5a1fe69 Kernel: Simplify the Time management initialization 2020-04-09 19:59:53 +02:00
Andreas Kling
871d450b93 Kernel: Remove redundant "ACPI" from filenames in ACPI/ 2020-04-09 18:17:27 +02:00
Andreas Kling
4644217094 Kernel: Remove "non-operational" ACPI parser state
If we don't support ACPI, just don't instantiate an ACPI parser.
This is way less confusing than having a special parser class whose
only purpose is to do nothing.

We now search for the RSDP in ACPI::initialize() instead of letting
the parser constructor do it. This allows us to defer the decision
to create a parser until we're sure we can make a useful one.
2020-04-09 17:19:11 +02:00
Andreas Kling
a7bbfda034 Kernel: Rename KParams => Kernel::CommandLine
Let's make this read more like English.
2020-04-08 17:19:46 +02:00
Liav A
b1365d94f4 Kernel: Align read operation in HPET registers' block 2020-04-01 18:35:57 +02:00
Andreas Kling
7d862dd5fc AK: Reduce header dependency graph of String.h
String.h no longer pulls in StringView.h. We do this by moving a bunch
of String functions out-of-line.
2020-03-23 13:48:44 +01:00
Liav A
9db291d885 Kernel: Introduce the new Time management subsystem
This new subsystem includes better abstractions of how time will be
handled in the OS. We take advantage of the existing RTC timer to aid
in keeping time synchronized. This is standing in contrast to how we
handled time-keeping in the kernel, where the PIT was responsible for
that function in addition to update the scheduler about ticks.
With that new advantage, we can easily change the ticking dynamically
and still keep the time synchronized.

In the process context, we no longer use a fixed declaration of
TICKS_PER_SECOND, but we call the TimeManagement singleton class to
provide us the right value. This allows us to use dynamic ticking in
the future, a feature known as tickless kernel.

The scheduler no longer does by himself the calculation of real time
(Unix time), and just calls the TimeManagment singleton class to provide
the value.

Also, we can use 2 new boot arguments:
- the "time" boot argument accpets either the value "modern", or
  "legacy". If "modern" is specified, the time management subsystem will
  try to setup HPET. Otherwise, for "legacy" value, the time subsystem
  will revert to use the PIT & RTC, leaving HPET disabled.
  If this boot argument is not specified, the default pattern is to try
  to setup HPET.
- the "hpet" boot argumet accepts either the value "periodic" or
  "nonperiodic". If "periodic" is specified, the HPET will scan for
  periodic timers, and will assert if none are found. If only one is
  found, that timer will be assigned for the time-keeping task. If more
  than one is found, both time-keeping task & scheduler-ticking task
  will be assigned to periodic timers.
  If this boot argument is not specified, the default pattern is to try
  to scan for HPET periodic timers. This boot argument has no effect if
  HPET is disabled.

In hardware context, PIT & RealTimeClock classes are merely inheriting
from the HardwareTimer class, and they allow to use the old i8254 (PIT)
and RTC devices, managing them via IO ports. By default, the RTC will be
programmed to a frequency of 1024Hz. The PIT will be programmed to a
frequency close to 1000Hz.

About HPET, depending if we need to scan for periodic timers or not,
we try to set a frequency close to 1000Hz for the time-keeping timer
and scheduler-ticking timer. Also, if possible, we try to enable the
Legacy replacement feature of the HPET. This feature if exists,
instructs the chipset to disconnect both i8254 (PIT) and RTC.
This behavior is observable on QEMU, and was verified against the source
code:
ce967e2f33

The HPETComparator class is inheriting from HardwareTimer class, and is
responsible for an individual HPET comparator, which is essentially a
timer. Therefore, it needs to call the singleton HPET class to perform
HPET-related operations.

The new abstraction of Hardware timers brings an opportunity of more new
features in the foreseeable future. For example, we can change the
callback function of each hardware timer, thus it makes it possible to
swap missions between hardware timers, or to allow to use a hardware
timer for other temporary missions (e.g. calibrating the LAPIC timer,
measuring the CPU frequency, etc).
2020-03-19 15:48:00 +01:00