freebsd-dev/sys/mips/conf/BERI_DE4_MDROOT

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#
# BERI_DE4 -- Kernel for the SRI/Cambridge "BERI" (Bluespec Extensible RISC
# Implementation) FPGA soft core, as configured in its Terasic DE-4 reference
# configuration.
#
# $FreeBSD$
#
include "BERI_TEMPLATE"
ident BERI_DE4_MDROOT
hints "BERI_DE4.hints" #Default places to look for devices.
#
# This kernel configuration uses an embedded 8MB memory root file system.
# Adjust the following path based on local requirements.
#
options MD_ROOT # MD is a potential root device
options MD_ROOT_SIZE=8192
options ROOTDEVNAME=\"ufs:md0\"
device altera_avgen
device altera_jtag_uart
device altera_sdcard
device terasic_de4led
Add terasic_mtl(4), a device driver for the Terasic Multi-Touch LCD, used with Terasic's DE-4 and other similar FPGA boards. This display is 800x480 and includes a capacitive touch screen, multi-touch gesture recognition, etc. This device driver depends on a Cambridge- provided IP core that allows the MTL device to be hooked up to the Altera Avalon SoC bus, and also provides a VGA-like text frame buffer. Although it is compiled as a single device driver, it actually implements a number of different device nodes exporting various aspects of this multi-function device to userspace: - Simple memory-mapped driver for the MTL 24-bit pixel frame buffer. - Simple memory-mapped driver for the MTL control register set. - Simple memory-mapped driver for the MTL text frame buffer. - syscons attachment for the MTL text frame buffer. This driver attaches directly to Nexus as is common for SoC device drivers, and for the time being is considered BERI-specific, although in principle it might be used with other hard and soft cores on Altera FPGAs. Control registers, including touchscreen input, are simply memory mapped; in the future it would be desirable to hook up a more conventional device node that can stream events, support kqueue(2)/ poll(2)/select(2), etc. This is the first use of syscons on MIPS, as far as I can tell, and there are some loose ends, such as an inability to use the hardware cursor. More fundamentally, it appears that syscons(4) assumes that either a host is PC-like (i386, amd64) *or* it must be using a graphical frame buffer. While the MTL supports a graphical frame buffer, using the text frame buffer is preferable for console use. Fixing this issue in syscons(4) requires non-trivial changes, as the text frame buffer support assumes that direct memory access can be done to the text frame buffer without using bus accessor methods, which is not the case on MIPS. As a workaround for this, we instead double-buffer and pretend to be a graphical frame buffer exposing text accessor methods, leading to some quirks in syscons behaviour. Sponsored by: DARPA, AFRL
2012-08-25 22:35:29 +00:00
device terasic_mtl
device isf
Add terasic_mtl(4), a device driver for the Terasic Multi-Touch LCD, used with Terasic's DE-4 and other similar FPGA boards. This display is 800x480 and includes a capacitive touch screen, multi-touch gesture recognition, etc. This device driver depends on a Cambridge- provided IP core that allows the MTL device to be hooked up to the Altera Avalon SoC bus, and also provides a VGA-like text frame buffer. Although it is compiled as a single device driver, it actually implements a number of different device nodes exporting various aspects of this multi-function device to userspace: - Simple memory-mapped driver for the MTL 24-bit pixel frame buffer. - Simple memory-mapped driver for the MTL control register set. - Simple memory-mapped driver for the MTL text frame buffer. - syscons attachment for the MTL text frame buffer. This driver attaches directly to Nexus as is common for SoC device drivers, and for the time being is considered BERI-specific, although in principle it might be used with other hard and soft cores on Altera FPGAs. Control registers, including touchscreen input, are simply memory mapped; in the future it would be desirable to hook up a more conventional device node that can stream events, support kqueue(2)/ poll(2)/select(2), etc. This is the first use of syscons on MIPS, as far as I can tell, and there are some loose ends, such as an inability to use the hardware cursor. More fundamentally, it appears that syscons(4) assumes that either a host is PC-like (i386, amd64) *or* it must be using a graphical frame buffer. While the MTL supports a graphical frame buffer, using the text frame buffer is preferable for console use. Fixing this issue in syscons(4) requires non-trivial changes, as the text frame buffer support assumes that direct memory access can be done to the text frame buffer without using bus accessor methods, which is not the case on MIPS. As a workaround for this, we instead double-buffer and pretend to be a graphical frame buffer exposing text accessor methods, leading to some quirks in syscons behaviour. Sponsored by: DARPA, AFRL
2012-08-25 22:35:29 +00:00
device sc