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| Original file line number | Diff line number | Diff line change |
|---|---|---|
| @@ -0,0 +1,53 @@ | ||
| Understanding fbdev's cmap | ||
| -------------------------- | ||
|
|
||
| These notes explain how X's dix layer uses fbdev's cmap structures. | ||
|
|
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| *. example of relevant structures in fbdev as used for a 3-bit grayscale cmap | ||
| struct fb_var_screeninfo { | ||
| .bits_per_pixel = 8, | ||
| .grayscale = 1, | ||
| .red = { 4, 3, 0 }, | ||
| .green = { 0, 0, 0 }, | ||
| .blue = { 0, 0, 0 }, | ||
| } | ||
| struct fb_fix_screeninfo { | ||
| .visual = FB_VISUAL_STATIC_PSEUDOCOLOR, | ||
| } | ||
| for (i = 0; i < 8; i++) | ||
| info->cmap.red[i] = (((2*i)+1)*(0xFFFF))/16; | ||
| memcpy(info->cmap.green, info->cmap.red, sizeof(u16)*8); | ||
| memcpy(info->cmap.blue, info->cmap.red, sizeof(u16)*8); | ||
|
|
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| *. X11 apps do something like the following when trying to use grayscale. | ||
| for (i=0; i < 8; i++) { | ||
| char colorspec[64]; | ||
| memset(colorspec,0,64); | ||
| sprintf(colorspec, "rgb:%x/%x/%x", i*36,i*36,i*36); | ||
| if (!XParseColor(outputDisplay, testColormap, colorspec, &wantedColor)) | ||
| printf("Can't get color %s\n",colorspec); | ||
| XAllocColor(outputDisplay, testColormap, &wantedColor); | ||
| grays[i] = wantedColor; | ||
| } | ||
| There's also named equivalents like gray1..x provided you have an rgb.txt. | ||
|
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| Somewhere in X's callchain, this results in a call to X code that handles the | ||
| colormap. For example, Xfbdev hits the following: | ||
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| xc-011010/programs/Xserver/dix/colormap.c: | ||
|
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| FindBestPixel(pentFirst, size, prgb, channel) | ||
|
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| dr = (long) pent->co.local.red - prgb->red; | ||
| dg = (long) pent->co.local.green - prgb->green; | ||
| db = (long) pent->co.local.blue - prgb->blue; | ||
| sq = dr * dr; | ||
| UnsignedToBigNum (sq, &sum); | ||
| BigNumAdd (&sum, &temp, &sum); | ||
|
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| co.local.red are entries that were brought in through FBIOGETCMAP which come | ||
| directly from the info->cmap.red that was listed above. The prgb is the rgb | ||
| that the app wants to match to. The above code is doing what looks like a least | ||
| squares matching function. That's why the cmap entries can't be set to the left | ||
| hand side boundaries of a color range. | ||
|
|
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| Original file line number | Diff line number | Diff line change |
|---|---|---|
| @@ -0,0 +1,38 @@ | ||
| Metronomefb | ||
| ----------- | ||
| Maintained by Jaya Kumar <jayakumar.lkml.gmail.com> | ||
| Last revised: Nov 20, 2007 | ||
|
|
||
| Metronomefb is a driver for the Metronome display controller. The controller | ||
| is from E-Ink Corporation. It is intended to be used to drive the E-Ink | ||
| Vizplex display media. E-Ink hosts some details of this controller and the | ||
| display media here http://www.e-ink.com/products/matrix/metronome.html . | ||
|
|
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| Metronome is interfaced to the host CPU through the AMLCD interface. The | ||
| host CPU generates the control information and the image in a framebuffer | ||
| which is then delivered to the AMLCD interface by a host specific method. | ||
| Currently, that's implemented for the PXA's LCDC controller. The display and | ||
| error status are each pulled through individual GPIOs. | ||
|
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| Metronomefb was written for the PXA255/gumstix/lyre combination and | ||
| therefore currently has board set specific code in it. If other boards based on | ||
| other architectures are available, then the host specific code can be separated | ||
| and abstracted out. | ||
|
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||
| Metronomefb requires waveform information which is delivered via the AMLCD | ||
| interface to the metronome controller. The waveform information is expected to | ||
| be delivered from userspace via the firmware class interface. The waveform file | ||
| can be compressed as long as your udev or hotplug script is aware of the need | ||
| to uncompress it before delivering it. metronomefb will ask for waveform.wbf | ||
| which would typically go into /lib/firmware/waveform.wbf depending on your | ||
| udev/hotplug setup. I have only tested with a single waveform file which was | ||
| originally labeled 23P01201_60_WT0107_MTC. I do not know what it stands for. | ||
| Caution should be exercised when manipulating the waveform as there may be | ||
| a possibility that it could have some permanent effects on the display media. | ||
| I neither have access to nor know exactly what the waveform does in terms of | ||
| the physical media. | ||
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||
| Metronomefb uses the deferred IO interface so that it can provide a memory | ||
| mappable frame buffer. It has been tested with tinyx (Xfbdev). It is known | ||
| to work at this time with xeyes, xclock, xloadimage, xpdf. | ||
|
|
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| Original file line number | Diff line number | Diff line change |
|---|---|---|
|
|
@@ -172,16 +172,6 @@ Who: Len Brown <[email protected]> | |
|
|
||
| --------------------------- | ||
|
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||
| What: ide-tape driver | ||
| When: July 2008 | ||
| Files: drivers/ide/ide-tape.c | ||
| Why: This driver might not have any users anymore and maintaining it for no | ||
| reason is an effort no one wants to make. | ||
| Who: Bartlomiej Zolnierkiewicz <[email protected]>, Borislav Petkov | ||
| <[email protected]> | ||
|
|
||
| --------------------------- | ||
|
|
||
| What: libata spindown skipping and warning | ||
| When: Dec 2008 | ||
| Why: Some halt(8) implementations synchronize caches for and spin | ||
|
|
||
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| Original file line number | Diff line number | Diff line change |
|---|---|---|
| @@ -1,33 +1,26 @@ | ||
| Hardware driver for Intel/AMD/VIA Random Number Generators (RNG) | ||
| Copyright 2000,2001 Jeff Garzik <[email protected]> | ||
| Copyright 2000,2001 Philipp Rumpf <[email protected]> | ||
|
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| Introduction: | ||
|
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||
| The hw_random device driver is software that makes use of a | ||
| The hw_random framework is software that makes use of a | ||
| special hardware feature on your CPU or motherboard, | ||
| a Random Number Generator (RNG). | ||
| a Random Number Generator (RNG). The software has two parts: | ||
| a core providing the /dev/hw_random character device and its | ||
| sysfs support, plus a hardware-specific driver that plugs | ||
| into that core. | ||
|
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||
| In order to make effective use of this device driver, you | ||
| To make the most effective use of these mechanisms, you | ||
| should download the support software as well. Download the | ||
| latest version of the "rng-tools" package from the | ||
| hw_random driver's official Web site: | ||
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| http://sourceforge.net/projects/gkernel/ | ||
|
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| About the Intel RNG hardware, from the firmware hub datasheet: | ||
|
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| The Firmware Hub integrates a Random Number Generator (RNG) | ||
| using thermal noise generated from inherently random quantum | ||
| mechanical properties of silicon. When not generating new random | ||
| bits the RNG circuitry will enter a low power state. Intel will | ||
| provide a binary software driver to give third party software | ||
| access to our RNG for use as a security feature. At this time, | ||
| the RNG is only to be used with a system in an OS-present state. | ||
| Those tools use /dev/hw_random to fill the kernel entropy pool, | ||
| which is used internally and exported by the /dev/urandom and | ||
| /dev/random special files. | ||
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| Theory of operation: | ||
|
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| Character driver. Using the standard open() | ||
| CHARACTER DEVICE. Using the standard open() | ||
| and read() system calls, you can read random data from | ||
| the hardware RNG device. This data is NOT CHECKED by any | ||
| fitness tests, and could potentially be bogus (if the | ||
|
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@@ -36,9 +29,37 @@ Theory of operation: | |
| a security-conscious person would run fitness tests on the | ||
| data before assuming it is truly random. | ||
|
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||
| /dev/hwrandom is char device major 10, minor 183. | ||
| The rng-tools package uses such tests in "rngd", and lets you | ||
| run them by hand with a "rngtest" utility. | ||
|
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| /dev/hw_random is char device major 10, minor 183. | ||
|
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| CLASS DEVICE. There is a /sys/class/misc/hw_random node with | ||
| two unique attributes, "rng_available" and "rng_current". The | ||
| "rng_available" attribute lists the hardware-specific drivers | ||
| available, while "rng_current" lists the one which is currently | ||
| connected to /dev/hw_random. If your system has more than one | ||
| RNG available, you may change the one used by writing a name from | ||
| the list in "rng_available" into "rng_current". | ||
|
|
||
| ========================================================================== | ||
|
|
||
| Hardware driver for Intel/AMD/VIA Random Number Generators (RNG) | ||
| Copyright 2000,2001 Jeff Garzik <[email protected]> | ||
| Copyright 2000,2001 Philipp Rumpf <[email protected]> | ||
|
|
||
|
|
||
| About the Intel RNG hardware, from the firmware hub datasheet: | ||
|
|
||
| The Firmware Hub integrates a Random Number Generator (RNG) | ||
| using thermal noise generated from inherently random quantum | ||
| mechanical properties of silicon. When not generating new random | ||
| bits the RNG circuitry will enter a low power state. Intel will | ||
| provide a binary software driver to give third party software | ||
| access to our RNG for use as a security feature. At this time, | ||
| the RNG is only to be used with a system in an OS-present state. | ||
|
|
||
| Driver notes: | ||
| Intel RNG Driver notes: | ||
|
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||
| * FIXME: support poll(2) | ||
|
|
||
|
|
||
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| Original file line number | Diff line number | Diff line change |
|---|---|---|
| @@ -0,0 +1,52 @@ | ||
| Keyboard notifier | ||
|
|
||
| One can use register_keyboard_notifier to get called back on keyboard | ||
| events (see kbd_keycode() function for details). The passed structure is | ||
| keyboard_notifier_param: | ||
|
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||
| - 'vc' always provide the VC for which the keyboard event applies; | ||
| - 'down' is 1 for a key press event, 0 for a key release; | ||
| - 'shift' is the current modifier state, mask bit indexes are KG_*; | ||
| - 'value' depends on the type of event. | ||
|
|
||
| - KBD_KEYCODE events are always sent before other events, value is the keycode. | ||
| - KBD_UNBOUND_KEYCODE events are sent if the keycode is not bound to a keysym. | ||
| value is the keycode. | ||
| - KBD_UNICODE events are sent if the keycode -> keysym translation produced a | ||
| unicode character. value is the unicode value. | ||
| - KBD_KEYSYM events are sent if the keycode -> keysym translation produced a | ||
| non-unicode character. value is the keysym. | ||
| - KBD_POST_KEYSYM events are sent after the treatment of non-unicode keysyms. | ||
| That permits one to inspect the resulting LEDs for instance. | ||
|
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| For each kind of event but the last, the callback may return NOTIFY_STOP in | ||
| order to "eat" the event: the notify loop is stopped and the keyboard event is | ||
| dropped. | ||
|
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| In a rough C snippet, we have: | ||
|
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| kbd_keycode(keycode) { | ||
| ... | ||
| params.value = keycode; | ||
| if (notifier_call_chain(KBD_KEYCODE,¶ms) == NOTIFY_STOP) | ||
| || !bound) { | ||
| notifier_call_chain(KBD_UNBOUND_KEYCODE,¶ms); | ||
| return; | ||
| } | ||
|
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||
| if (unicode) { | ||
| param.value = unicode; | ||
| if (notifier_call_chain(KBD_UNICODE,¶ms) == NOTIFY_STOP) | ||
| return; | ||
| emit unicode; | ||
| return; | ||
| } | ||
|
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| params.value = keysym; | ||
| if (notifier_call_chain(KBD_KEYSYM,¶ms) == NOTIFY_STOP) | ||
| return; | ||
| apply keysym; | ||
| notifier_call_chain(KBD_POST_KEYSYM,¶ms); | ||
| } | ||
|
|
||
| NOTE: This notifier is usually called from interrupt context. |
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