2
0
mirror of https://github.com/xcat2/xNBA.git synced 2024-12-14 23:31:39 +00:00

Ripped out everything except the ability to send EOI to the PIC.

This commit is contained in:
Michael Brown 2007-01-04 19:36:18 +00:00
parent de2fc50f4c
commit b12cd68726
2 changed files with 71 additions and 360 deletions

View File

@ -1,263 +1,37 @@
/*
* Basic support for controlling the 8259 Programmable Interrupt Controllers.
* Copyright (C) 2007 Michael Brown <mbrown@fensystems.co.uk>.
*
* Initially written by Michael Brown (mcb30).
*/
#include <etherboot.h>
#include "pic8259.h"
#include "old_realmode.h"
/* State of trivial IRQ handler */
irq_t trivial_irq_installed_on = IRQ_NONE;
static uint16_t trivial_irq_previous_trigger_count = 0;
/* The actual trivial IRQ handler
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of the
* License, or any later version.
*
* Note: we depend on the C compiler not realising that we're putting
* variables in the ".text16" section and therefore not forcing them
* back to the ".data" section. I don't see any reason to expect this
* behaviour to change.
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* These must *not* be the first variables to appear in this file; the
* first variable to appear gets the ".data" directive.
*/
RM_FRAGMENT(_trivial_irq_handler,
"pushw %bx\n\t"
"call 1f\n1:\tpopw %bx\n\t" /* PIC access to variables */
"incw %cs:(_trivial_irq_trigger_count-1b)(%bx)\n\t"
"popw %bx\n\t"
"iret\n\t"
"\n\t"
".globl _trivial_irq_trigger_count\n\t"
"_trivial_irq_trigger_count: .short 0\n\t"
"\n\t"
".globl _trivial_irq_chain_to\n\t"
"_trivial_irq_chain_to: .short 0,0\n\t"
"\n\t"
".globl _trivial_irq_chain\n\t"
"_trivial_irq_chain: .byte 0\n\t"
);
extern volatile uint16_t _trivial_irq_trigger_count;
extern segoff_t _trivial_irq_chain_to;
extern int8_t _trivial_irq_chain;
/* Current locations of trivial IRQ handler. These will change at
* runtime when relocation is used; the handler needs to be copied to
* base memory before being installed.
*/
void (*trivial_irq_handler)P((void)) = _trivial_irq_handler;
uint16_t volatile *trivial_irq_trigger_count = &_trivial_irq_trigger_count;
segoff_t *trivial_irq_chain_to = &_trivial_irq_chain_to;
uint8_t *trivial_irq_chain = &_trivial_irq_chain;
/* Install a handler for the specified IRQ. Address of previous
* handler will be stored in previous_handler. Enabled/disabled state
* of IRQ will be preserved across call, therefore if the handler does
* chaining, ensure that either (a) IRQ is disabled before call, or
* (b) previous_handler points directly to the place that the handler
* picks up its chain-to address.
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
int install_irq_handler ( irq_t irq, segoff_t *handler,
uint8_t *previously_enabled,
segoff_t *previous_handler ) {
segoff_t *irq_vector = IRQ_VECTOR ( irq );
*previously_enabled = irq_enabled ( irq );
#include <pic8259.h>
if ( irq > IRQ_MAX ) {
DBG ( "Invalid IRQ number %d\n" );
return 0;
}
previous_handler->segment = irq_vector->segment;
previous_handler->offset = irq_vector->offset;
if ( *previously_enabled ) disable_irq ( irq );
DBG ( "Installing handler at %hx:%hx for IRQ %d (vector 0000:%hx),"
" leaving %s\n",
handler->segment, handler->offset, irq, virt_to_phys(irq_vector),
( *previously_enabled ? "enabled" : "disabled" ) );
DBG ( "...(previous handler at %hx:%hx)\n",
previous_handler->segment, previous_handler->offset );
irq_vector->segment = handler->segment;
irq_vector->offset = handler->offset;
if ( *previously_enabled ) enable_irq ( irq );
return 1;
}
/* Remove handler for the specified IRQ. Routine checks that another
* handler has not been installed that chains to handler before
* uninstalling handler. Enabled/disabled state of the IRQ will be
* restored to that specified by previously_enabled.
*/
int remove_irq_handler ( irq_t irq, segoff_t *handler,
uint8_t *previously_enabled,
segoff_t *previous_handler ) {
segoff_t *irq_vector = IRQ_VECTOR ( irq );
if ( irq > IRQ_MAX ) {
DBG ( "Invalid IRQ number %d\n" );
return 0;
}
if ( ( irq_vector->segment != handler->segment ) ||
( irq_vector->offset != handler->offset ) ) {
DBG ( "Cannot remove handler for IRQ %d\n" );
return 0;
}
DBG ( "Removing handler for IRQ %d\n", irq );
disable_irq ( irq );
irq_vector->segment = previous_handler->segment;
irq_vector->offset = previous_handler->offset;
if ( *previously_enabled ) enable_irq ( irq );
return 1;
}
/* Install the trivial IRQ handler. This routine installs the
* handler, tests it and enables the IRQ.
*/
int install_trivial_irq_handler ( irq_t irq ) {
segoff_t trivial_irq_handler_segoff = SEGOFF(trivial_irq_handler);
if ( trivial_irq_installed_on != IRQ_NONE ) {
DBG ( "Can install trivial IRQ handler only once\n" );
return 0;
}
if ( SEGMENT(trivial_irq_handler) > 0xffff ) {
DBG ( "Trivial IRQ handler not in base memory\n" );
return 0;
}
DBG ( "Installing trivial IRQ handler on IRQ %d\n", irq );
if ( ! install_irq_handler ( irq, &trivial_irq_handler_segoff,
trivial_irq_chain,
trivial_irq_chain_to ) )
return 0;
trivial_irq_installed_on = irq;
DBG ( "Testing trivial IRQ handler\n" );
disable_irq ( irq );
*trivial_irq_trigger_count = 0;
trivial_irq_previous_trigger_count = 0;
fake_irq ( irq );
if ( ! trivial_irq_triggered ( irq ) ) {
DBG ( "Installation of trivial IRQ handler failed\n" );
remove_trivial_irq_handler ( irq );
return 0;
}
/* Send EOI just in case there was a leftover interrupt */
send_specific_eoi ( irq );
DBG ( "Trivial IRQ handler installed successfully\n" );
enable_irq ( irq );
return 1;
}
/* Remove the trivial IRQ handler.
*/
int remove_trivial_irq_handler ( irq_t irq ) {
segoff_t trivial_irq_handler_segoff = SEGOFF(trivial_irq_handler);
if ( trivial_irq_installed_on == IRQ_NONE ) return 1;
if ( irq != trivial_irq_installed_on ) {
DBG ( "Cannot uninstall trivial IRQ handler from IRQ %d; "
"is installed on IRQ %d\n", irq,
trivial_irq_installed_on );
return 0;
}
if ( ! remove_irq_handler ( irq, &trivial_irq_handler_segoff,
trivial_irq_chain,
trivial_irq_chain_to ) )
return 0;
if ( trivial_irq_triggered ( trivial_irq_installed_on ) ) {
DBG ( "Sending EOI for unwanted trivial IRQ\n" );
send_specific_eoi ( trivial_irq_installed_on );
}
trivial_irq_installed_on = IRQ_NONE;
return 1;
}
/* Safe method to detect whether or not trivial IRQ has been
* triggered. Using this call avoids potential race conditions. This
* call will return success only once per trigger.
*/
int trivial_irq_triggered ( irq_t irq ) {
uint16_t trivial_irq_this_trigger_count = *trivial_irq_trigger_count;
int triggered = ( trivial_irq_this_trigger_count -
trivial_irq_previous_trigger_count );
/* irq is not used at present, but we have it in the API for
* future-proofing; in case we want the facility to have
* multiple trivial IRQ handlers installed simultaneously.
*
* Avoid compiler warning about unused variable.
*/
if ( irq == IRQ_NONE ) {};
trivial_irq_previous_trigger_count = trivial_irq_this_trigger_count;
return triggered ? 1 : 0;
}
/* Copy trivial IRQ handler to a new location. Typically used to copy
* the handler into base memory; when relocation is being used we need
* to do this before installing the handler.
/** @file
*
* Minimal support for the 8259 Programmable Interrupt Controller
*
* Call with target=NULL in order to restore the handler to its
* original location.
*/
int copy_trivial_irq_handler ( void *target, size_t target_size ) {
irq_t currently_installed_on = trivial_irq_installed_on;
uint32_t offset = ( target == NULL ? 0 :
target - (void*)_trivial_irq_handler );
if (( target != NULL ) && ( target_size < TRIVIAL_IRQ_HANDLER_SIZE )) {
DBG ( "Insufficient space to copy trivial IRQ handler\n" );
return 0;
}
if ( currently_installed_on != IRQ_NONE ) {
DBG ("WARNING: relocating trivial IRQ handler while in use\n");
if ( ! remove_trivial_irq_handler ( currently_installed_on ) )
return 0;
}
/* Do the actual copy */
if ( target != NULL ) {
DBG ( "Copying trivial IRQ handler to %hx:%hx\n",
SEGMENT(target), OFFSET(target) );
memcpy ( target, _trivial_irq_handler,
TRIVIAL_IRQ_HANDLER_SIZE );
} else {
DBG ( "Restoring trivial IRQ handler to original location\n" );
}
/* Update all the pointers to structures within the handler */
trivial_irq_handler = ( void (*)P((void)) )
( (void*)_trivial_irq_handler + offset );
trivial_irq_trigger_count = (uint16_t*)
( (void*)&_trivial_irq_trigger_count + offset );
trivial_irq_chain_to = (segoff_t*)
( (void*)&_trivial_irq_chain_to + offset );
trivial_irq_chain = (uint8_t*)
( (void*)&_trivial_irq_chain + offset );
if ( currently_installed_on != IRQ_NONE ) {
if ( ! install_trivial_irq_handler ( currently_installed_on ) )
return 0;
}
return 1;
}
/* Send non-specific EOI(s). This seems to be inherently unsafe.
/**
* Send non-specific EOI(s)
*
* @v irq IRQ number
*
* This seems to be inherently unsafe.
*/
void send_nonspecific_eoi ( irq_t irq ) {
static inline void send_nonspecific_eoi ( unsigned int irq ) {
DBG ( "Sending non-specific EOI for IRQ %d\n", irq );
if ( irq >= IRQ_PIC_CUTOFF ) {
outb ( ICR_EOI_NON_SPECIFIC, PIC2_ICR );
@ -265,61 +39,25 @@ void send_nonspecific_eoi ( irq_t irq ) {
outb ( ICR_EOI_NON_SPECIFIC, PIC1_ICR );
}
/* Send specific EOI(s).
/**
* Send specific EOI(s)
*
* @v irq IRQ number
*/
void send_specific_eoi ( irq_t irq ) {
static inline void send_specific_eoi ( unsigned int irq ) {
DBG ( "Sending specific EOI for IRQ %d\n", irq );
outb ( ICR_EOI_SPECIFIC | ICR_VALUE(irq), ICR_REG(irq) );
outb ( ( ICR_EOI_SPECIFIC | ICR_VALUE ( irq ) ), ICR_REG ( irq ) );
if ( irq >= IRQ_PIC_CUTOFF ) {
outb ( ICR_EOI_SPECIFIC | ICR_VALUE(CHAINED_IRQ),
ICR_REG(CHAINED_IRQ) );
outb ( ( ICR_EOI_SPECIFIC | ICR_VALUE ( CHAINED_IRQ ) ),
ICR_REG ( CHAINED_IRQ ) );
}
}
/* Fake an IRQ
/**
* Send End-Of-Interrupt to the PIC
*
* @v irq IRQ number
*/
void fake_irq ( irq_t irq ) {
struct {
uint16_t int_number;
} PACKED in_stack;
/* Convert IRQ to INT number:
*
* subb $0x08,%cl Invert bit 3, set bits 4-7 iff irq < 8
* xorb $0x70,%cl Invert bits 4-6
* andb $0x7f,%cl Clear bit 7
*
* No, it's not the most intuitive method, but I was proud to
* get it down to three lines of assembler when this routine
* was originally implemented in pcbios.S.
*/
in_stack.int_number = ( ( irq - 8 ) ^ 0x70 ) & 0x7f;
RM_FRAGMENT(rm_fake_irq,
"popw %ax\n\t" /* %ax = INT number */
"call 1f\n1:\tpop %bx\n\t"
"movb %al, %cs:(2f-1b+1)(%bx)\n\t" /* Overwrite INT number..*/
"\n2:\tint $0x00\n\t" /* ..in this instruction */
);
real_call ( rm_fake_irq, &in_stack, NULL );
void send_eoi ( unsigned int irq ) {
send_specific_eoi ( irq );
}
/* Dump current 8259 status: enabled IRQs and handler addresses.
*/
#ifdef DEBUG_IRQ
void dump_irq_status ( void ) {
int irq = 0;
for ( irq = 0; irq < 16; irq++ ) {
if ( irq_enabled ( irq ) ) {
printf ( "IRQ%d enabled, ISR at %hx:%hx\n", irq,
IRQ_VECTOR(irq)->segment,
IRQ_VECTOR(irq)->offset );
}
}
}
#endif

View File

@ -10,38 +10,38 @@
/* For segoff_t */
#include "realmode.h"
#define IRQ_PIC_CUTOFF (8)
#define IRQ_PIC_CUTOFF 8
/* 8259 register locations */
#define PIC1_ICW1 (0x20)
#define PIC1_OCW2 (0x20)
#define PIC1_OCW3 (0x20)
#define PIC1_ICR (0x20)
#define PIC1_IRR (0x20)
#define PIC1_ISR (0x20)
#define PIC1_ICW2 (0x21)
#define PIC1_ICW3 (0x21)
#define PIC1_ICW4 (0x21)
#define PIC1_IMR (0x21)
#define PIC2_ICW1 (0xa0)
#define PIC2_OCW2 (0xa0)
#define PIC2_OCW3 (0xa0)
#define PIC2_ICR (0xa0)
#define PIC2_IRR (0xa0)
#define PIC2_ISR (0xa0)
#define PIC2_ICW2 (0xa1)
#define PIC2_ICW3 (0xa1)
#define PIC2_ICW4 (0xa1)
#define PIC2_IMR (0xa1)
#define PIC1_ICW1 0x20
#define PIC1_OCW2 0x20
#define PIC1_OCW3 0x20
#define PIC1_ICR 0x20
#define PIC1_IRR 0x20
#define PIC1_ISR 0x20
#define PIC1_ICW2 0x21
#define PIC1_ICW3 0x21
#define PIC1_ICW4 0x21
#define PIC1_IMR 0x21
#define PIC2_ICW1 0xa0
#define PIC2_OCW2 0xa0
#define PIC2_OCW3 0xa0
#define PIC2_ICR 0xa0
#define PIC2_IRR 0xa0
#define PIC2_ISR 0xa0
#define PIC2_ICW2 0xa1
#define PIC2_ICW3 0xa1
#define PIC2_ICW4 0xa1
#define PIC2_IMR 0xa1
/* Register command values */
#define OCW3_ID (0x08)
#define OCW3_READ_IRR (0x03)
#define OCW3_READ_ISR (0x02)
#define ICR_EOI_NON_SPECIFIC (0x20)
#define ICR_EOI_NOP (0x40)
#define ICR_EOI_SPECIFIC (0x60)
#define ICR_EOI_SET_PRIORITY (0xc0)
#define OCW3_ID 0x08
#define OCW3_READ_IRR 0x03
#define OCW3_READ_ISR 0x02
#define ICR_EOI_NON_SPECIFIC 0x20
#define ICR_EOI_NOP 0x40
#define ICR_EOI_SPECIFIC 0x60
#define ICR_EOI_SET_PRIORITY 0xc0
/* Macros to enable/disable IRQs */
#define IMR_REG(x) ( (x) < IRQ_PIC_CUTOFF ? PIC1_IMR : PIC2_IMR )
@ -51,46 +51,19 @@
#define disable_irq(x) outb ( inb( IMR_REG(x) ) | IMR_BIT(x), IMR_REG(x) )
/* Macros for acknowledging IRQs */
#define ICR_REG(x) ( (x) < IRQ_PIC_CUTOFF ? PIC1_ICR : PIC2_ICR )
#define ICR_VALUE(x) ( (x) % IRQ_PIC_CUTOFF )
#define ICR_REG( irq ) ( (irq) < IRQ_PIC_CUTOFF ? PIC1_ICR : PIC2_ICR )
#define ICR_VALUE( irq ) ( (irq) % IRQ_PIC_CUTOFF )
#define CHAINED_IRQ 2
/* Utility macros to convert IRQ numbers to INT numbers and INT vectors */
#define IRQ_INT(x) ( (x)<IRQ_PIC_CUTOFF ? (x)+0x08 : (x)-IRQ_PIC_CUTOFF+0x70 )
#define INT_VECTOR(x) ( (segoff_t*) phys_to_virt( 4 * (x) ) )
#define IRQ_VECTOR(x) ( INT_VECTOR ( IRQ_INT(x) ) )
#define IRQ_INT( irq ) ( ( ( (irq) - IRQ_PIC_CUTOFF ) ^ 0x70 ) & 0x7f )
/* Other constants */
typedef uint8_t irq_t;
#define IRQ_MAX (15)
#define IRQ_NONE (0xff)
#define IRQ_MAX 15
#define IRQ_NONE -1U
/* Function prototypes
*/
int install_irq_handler ( irq_t irq, segoff_t *handler,
uint8_t *previously_enabled,
segoff_t *previous_handler );
int remove_irq_handler ( irq_t irq, segoff_t *handler,
uint8_t *previously_enabled,
segoff_t *previous_handler );
int install_trivial_irq_handler ( irq_t irq );
int remove_trivial_irq_handler ( irq_t irq );
int trivial_irq_triggered ( irq_t irq );
int copy_trivial_irq_handler ( void *target, size_t target_size );
void send_non_specific_eoi ( irq_t irq );
void send_specific_eoi ( irq_t irq );
void fake_irq ( irq_t irq );
#ifdef DEBUG_IRQ
void dump_irq_status ( void );
#else
#define dump_irq_status()
#endif
/* Other code (e.g. undi.c) needs to know the size of the trivial IRQ
* handler code, so we put prototypes and the size macro here.
*/
extern void _trivial_irq_handler ( void );
extern char _trivial_irq_handler_size[];
#define TRIVIAL_IRQ_HANDLER_SIZE FRAGMENT_SIZE(_trivial_irq_handler)
void send_eoi ( unsigned int irq );
#endif /* PIC8259_H */