Rewrite the loop to update the framebuffer by rows rather
than by columns. This should (a) be more efficient on the
majority of targets using horizontal stride framebuffers,
(b) skimp a bit on code size and (c) avoid AddressSanitizer
errors caused by reading past the end of the source buffer.
Change-Id: I238d191d63bfdecd25336fd8879a63d9d6ab7087
Future-proofing against newer versions of GCC/binutils which
are stricter about the use of 'inline' functions in headers.
Change-Id: Id620812ed340f0d790ba6c5b8b5cb1d700acfbbf
This handles the case where the host sends a new setup packet
in the middle of an ongoing control transfer.
Change-Id: I1d2e02467e9b813c9827cc0699cb87a500515e31
The FT6x06 driver used for the Shanling Q1's touchscreen
has been extended to report more than one touch point. It
can also return the gesture detected by the controller,
but this doesn't seem to report anything useful on the Q1.
Multi-touch is only useful in 3x3 grid mode since the Rockbox
button API cannot report more than one touch point.
The FiiO M3K uses the same driver so it's been updated to the
multi-touch API, but functionality is unchanged.
Change-Id: I4de42f44808d6eb902e3da212d8f936b7a5042c7
Touch devices have physical buttons too, and these should be
subject to repeat acceleration. That feature was disabled for
the sake of better touch event responsiveness (apparently).
So, re-enable the acceleration feature & add a special case
to exempt BUTTON_TOUCHSCREEN from acceleration.
Change-Id: I9e097e27457fbd6b824f098e8b325ff35c59dde4
Based on a patch by Amaury Pouly which was based on a patch from Ryan
Hitchman.
I mainly moved the code for polling into the tuner driver so it can be
reused by other targets. I added the CONFIG parameter for the polling
frequency (in ticks) to save energy. Also, I did some minor cleanups.
Change-Id: I95a62e7e1e42c62dbf47ecb27a3b312a42be62aa
All three X1000 native targets turned out to have a very
similar boot configuration and used a nearly identical
makefile. Eliminate this duplication by moving the logic
into the main makefile.
Change-Id: I13044b9675c0abd605b8accdb2fee4f54549b020
Due to how the old control request API worked, the request
pointer (and the pointed-to contents) passed by the driver
must remain valid for the lifetime of the request.
The buffered copy wasn't used consistently anyway, so it
should be safe to just get rid of it.
(This only affects the old API compatibility layer.)
Change-Id: I00294c718a7515a91b84f7c7cae5220c73aa5960
In the old API, usb_core_transfer_complete() would ignore
any completions on EP0. The legacy control API will also
ignore most completions on EP0, but it only did so after
filling in the completion event.
If the driver submits a spurious completion on EP0, then
this could clobber a previously queued completion event.
Fix this by deciding whether to ignore the completion
*before* modifying the event data.
Change-Id: I68526898a96efa594ada4e94bb6851aaaf12e92a
Appears to return 0 until the axp has (presumably) completed
its first real measurement.
Note about erosq: keep the power_inint() delay large to ensure
nothing breaks in the bootloader for the time being.
Change-Id: I444e858207cc401c42f1e6ceacf067ad543d4ff8
The address from the packet needs to be saved before sending
the response -- after the response the request being pointed
to could get overwritten. This used to be done correctly but
I unintentionally broke it when updating the handler to the
new control request API.
Change-Id: I9b11548baf20dce44a82301731405dc8e8f1cef3
Ive seen no ill effects having this disabled on target so
limit it to the sim to stop Address Sanitizer from dumping
on the extra byte read. the bad data is never used AFAICT
since the loop ends
Change-Id: I8cb54e9d1f8fe28747867d861a015edb3dbfa5ff
Because usb_core_legacy_control_request() is called by an
interrupt handler the global variables used to track the
current control request at the very least need to be volatile.
It might also be necessary to disable IRQs but I'm not sure
of that.
Change-Id: I0f0bb86d0ad63734e8d3c73cb1c52fedf5a98120
We have this nice event library laying around probably a few more places
we could use event callbacks
Change-Id: I9180fa9d78788d161f2587110644ca3e08df6f50
OST timer fix (7a5130a277) causes a boot failure on some units,
the battery voltage reading needs more time to stabilize.
Change-Id: Ic4a9ba90a16fab8ac6d27dbbe7af381f7c810f8f
The battery stabilization delay call seems to need to be
about 170 at minimum now, let's do 190 for safety (+20ms).
Change-Id: Ifd0248891abe827dfcc3e6baf48cc5bef0d0cc1c
It turns out the prescaler fields in OST_CTRL are 2 bits wide,
not 3. The programming manual (as usual) is ambiguous and its
diagram shows 2-bit wide fields, but the bit positions in the
text give a 3-bit wide field. Ingenic's Linux code and my own
testing shows that they are, in fact, 2 bits wide.
This caused the OST2 divisor to be 16 instead of 4; the OST1
divisor was correct. This means that all udelay/mdelay calls
took 4x longer than they should've. After this change the OST2
prescaler will be 4, as intended, and udelay/mdelay calls will
wait for the intended duration.
Change-Id: I2ac0a9190f49b59a840c649bf586131f5f9fde82
This boosts USB transfer performance a bit, ~10% for reads and
~25% for writes, for large-ish file transfers. Rockbox is still
around 33-50% slower than the OF.
Change-Id: I236a1e5c69a290c47ed27b70cb2631111fc157ed
When performing an OUT transfer which is not a multiple of the
max packet size, the last packet of the OUT transfer should be
a short packet. However, there's no guarantee the host sends
the expected amount of data in the final packet.
The DWC2 USB controller handles this case by accepting any size
packet and copying it out to memory. So if the packet is bigger
than expected, it'll overrun the caller's buffer and Bad Things
will happen.
The USB 2.0 spec seems to endorse this behavior. Section 8.5.1
says "an ACK handshake indicates the endpoint has space for a
wMaxPacketSize data payload." So it is possible that other USB
controllers share the DWC2's behavior.
The simplest solution is to force all USB RX buffers to be big
enough to hold the transfer size, rounded up to a multiple of
the max packet size. For example, a transfer of 700 bytes would
require a 1024-byte buffer if the MPS = 512 bytes.
Change-Id: Ibb84d2b2d53aec8800a3a7c2449f7a17480acbcf
All existing USB drivers now define USB_LEGACY_CONTROL_API to
enable the emulation layer.
Control request handlers will be ported in follow-up commits.
Change-Id: I4be1ce7c372f2f6fee5978a4858c841b72e77405
This makes it possible for macros of conditionally included string
descriptors to get a correct index no matter what other usb drivers
are enabled or disabled due to the nature behavior of enums.
Change-Id: I8ccebbd316605bed0f5d90b6b73fab4a333c02fa
Write -1 to AIC_DR to initialize the "last sample"
to -1 in order to prevent power-on clicks.
It appears necessary to completely fill the FIFO,
otherwise I was able to get a click out of it, however
uncommon it was.
Not only does this prevent a click when first
playing a song after power-on, but it also seems to prevent
any click at all when powering on - previously, a small
click may have been heard when first booting.
Change-Id: I2b81c2fa6af9809ef1c354d7a08ca8f9893a7690
Previously it used the last sample, which turns out to be broken.
The AIC appears to send out a random non-zero sample continously
after boot -- probably because the last sample is uninitialized by
the hardware. Disabling playback is supposed to make it send zero
samples irregardless of the LSMP bit according to the docs, but it
doesn't seem to work this way.
- Change eliminates the white noise heard on the M3K after boot.
- Change has no adverse effects on the Q1.
- Leave Eros Q on the old setting since sending zeros exacerbates
clicking due to DAC's automute feature.
Change-Id: I9996793fc34f4475b19700d076b11505353b3836
According to a forum user, there's an audible click when changing
the volume between -32 and -32.5 dB with some headphones. Fix this
by not (ab)using the DAC digital mixer for volume control.
The mixer only provides an extra -6 dB of hardware volume range,
so the only side effect is that software volume will now kick in
at -32 dB instead of -38 dB.
Change-Id: If24d9bc0058eff3c1a29aefb155a2e378522623c