ARCH(3) ARCH(3) NAME arch - architecture-specific information and control SYNOPSIS bind -a #P /dev /dev/archctl /dev/cputype /dev/cputemp /dev/ioalloc /dev/iob /dev/iol /dev/iow /dev/irqalloc 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. Reads from cputype recover the processor type and clock rate in MHz. Reads from cputemp recover one line containing per processor containing two fields: the processor temperature and precision in degrees Celsius. Reads from archctl yield at least data of this form: cpu AMD64 2201 pge pge on coherence mfence cmpswap cmpswap486 i8253set on cache default uc cache 0x0 1073741824 wb cache 0x3ff00000 1048576 uc Where `AMD64' is the processor type, `2201' is the processor speed in MHz, and `pge' is present only if the `page global extension' capability is present; the next line reflects its setting. `coherence' is followed by one of `mb386', `mb586', `mfence' or `nop', showing the form of memory bar- rier used by the kernel. `cmpswap' is followed by `cmpswap386' or `cmpswap486', reflecting the form of `com- pare and swap' used by the kernel. `i8253set' is a flag, indicating the need to explicitly set the Intel 8253 or equivalent timer. There may be lines starting with `cache' that reflect the state of memory caching via MTRRs (memory- type region registers). The second word on the line is `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 `uc' (for uncachable), `wb' (write-back), `wc' (write-combining), `wp' (write- Page 1 Plan 9 (printed 12/21/24) ARCH(3) ARCH(3) protected), or `wt' (write-through). A region may be a sub- set of another region, and the smaller region takes prece- dence. 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 archctl and use the same syntax as the data read from archctl. Known commands include `cache', `coherence', `i8253set', and `pge'. Reads from ioalloc return I/O ranges used by each device, one line per range. Each line contains three fields sepa- rated by white space: first address in hexadecimal, last address, name of device. Reads from irqalloc return the enabled interrupts, one line per interrupt. Each line contains six fields separated by white space: the trap number, the IRQ it is assigned to, the number of interrupts from this source, the CPU cycles spent servicing this interrupt, the type of interrupt, and the name of the device using it. Interrupt types are architec- ture dependent. Reads and writes to iob, iow, and 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. EXAMPLE The following code reads from an x86 byte I/O port. 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; } SOURCE /sys/src/9/pc/devarch.c Page 2 Plan 9 (printed 12/21/24)