123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144 |
- .TH ARCH 3
- .SH NAME
- arch \- architecture-specific information and control
- .SH SYNOPSIS
- .nf
- .B bind -a #P /dev
- .sp 0.3v
- .B /dev/archctl
- .B /dev/cputype
- .B /dev/ioalloc
- .B /dev/iob
- .B /dev/iol
- .B /dev/iow
- .B /dev/irqalloc
- .SH DESCRIPTION
- This device presents textual information about PC hardware and allows
- user-level control of the I/O ports on x86-class and DEC Alpha machines.
- .PP
- Reads from
- .I cputype
- recover the processor type and clock rate in MHz in the first line, followed
- by further lines with CPU information values as provided by the processor.
- Reads from
- .I archctl
- yield at least data of this form:
- .IP
- .EX
- cpu AMD64 2201 pge
- pge on
- coherence mfence
- cmpswap cmpswap486
- i8253set on
- cache default uc
- cache 0x0 1073741824 wb
- cache 0x3ff00000 1048576 uc
- .EE
- .LP
- Where
- .L AMD64
- is the processor type,
- .L 2201
- is the processor speed in MHz,
- and
- .L pge
- is present only if the `page global extension' capability is present;
- the next line reflects its setting.
- .L coherence
- is followed by one of
- .LR mb386 ,
- .LR mb586 ,
- .L mfence
- or
- .LR nop ,
- showing the form of memory barrier used by the kernel.
- .L cmpswap
- is followed by
- .L cmpswap386
- or
- .LR cmpswap486 ,
- reflecting the form of `compare and swap' used by the kernel.
- .L i8253set
- is a flag, indicating the need to explicitly set
- the Intel 8253 or equivalent timer.
- There may be lines starting with
- .L cache
- that reflect the state of memory caching via MTRRs
- (memory-type region registers).
- The second word on the line is
- .L default
- or a C-style number which is the base physical address of the region;
- the third is a C-style length of the region;
- and the fourth is one of
- .LR uc
- (for uncachable),
- .LR wb
- (write-back),
- .LR wc
- (write-combining),
- .LR wp
- (write-protected),
- or
- .LR wt
- (write-through).
- A region may be a subset of another region, and the smaller region
- takes precedence.
- This may be used to make I/O registers uncachable
- in the midst of a write-combining region mostly used
- for a video framebuffer, for example.
- Control messages may be written to
- .I archctl
- and use the same syntax as the data read from
- .IR archctl .
- Known commands include
- .LR cache ,
- .LR coherence ,
- .LR i8253set ,
- and
- .LR pge .
- .
- .PP
- Reads from
- .I ioalloc
- return I/O ranges used by each device, one line
- per range.
- Each line contains three fields separated by white space: first address
- in hexadecimal,
- last address, name of device.
- .PP
- Reads from
- .I irqalloc
- return the enabled interrupts, one line per
- interrupt. Each line contains three fields separated by white space:
- the trap number, the IRQ it is assigned to, and the name of
- the device using it.
- .PP
- Reads and writes to
- .IR iob ,
- .IR iow ,
- and
- .I iol
- cause 8-bit wide, 16-bit wide, and 32-bit wide requests to
- I/O ports.
- The port accessed is determined by the byte offset of the
- file descriptor.
- .SH EXAMPLE
- The following code reads from an x86 byte I/O port.
- .IP
- .EX
- uchar
- inportb(unsigned port)
- {
- uchar data;
- if(iobfd == -1)
- iobfd = open("#P/iob", ORDWR);
- seek(iobfd, port, 0);
- if(read(iobfd, &data, sizeof(data)) != sizeof(data))
- sysfatal("inportb(0x%4.4ux): %r", port);
- return data;
- }
- .EE
- .SH SOURCE
- .B /sys/src/9/pc/devarch.c
|