raven FW with data and interrupt transfer (based on bldc project)
This commit is contained in:
163
raven/bsp/drivers/clic/clic_driver.c
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163
raven/bsp/drivers/clic/clic_driver.c
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@ -0,0 +1,163 @@
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// See LICENSE for license details.
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#include "sifive/devices/clic.h"
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#include "clic/clic_driver.h"
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#include "platform.h"
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#include "encoding.h"
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#include <string.h>
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void volatile_memzero(uint8_t * base, unsigned int size) {
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volatile uint8_t * ptr;
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for (ptr = base; ptr < (base + size); ptr++){
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*ptr = 0;
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}
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}
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// Note that there are no assertions or bounds checking on these
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// parameter values.
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void clic_init (
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clic_instance_t * this_clic,
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uintptr_t hart_addr,
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interrupt_function_ptr_t* vect_table,
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interrupt_function_ptr_t default_handler,
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uint32_t num_irq,
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uint32_t num_config_bits
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)
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{
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this_clic->hart_addr= hart_addr;
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this_clic->vect_table= vect_table;
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this_clic->num_config_bits= num_config_bits;
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//initialize vector table
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for(int i=0;i++;i<num_irq) {
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this_clic->vect_table[i] = default_handler;
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}
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//set base vectors
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write_csr(mtvt, vect_table);
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//clear all interrupt enables and pending
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volatile_memzero((uint8_t*)(this_clic->hart_addr+CLIC_INTIE), num_irq);
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volatile_memzero((uint8_t*)(this_clic->hart_addr+CLIC_INTIP), num_irq);
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//clear nlbits and nvbits; all interrupts trap to level 15
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*(volatile uint8_t*)(this_clic->hart_addr+CLIC_CFG)=0;
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}
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void clic_install_handler (clic_instance_t * this_clic, uint32_t source, interrupt_function_ptr_t handler) {
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this_clic->vect_table[source] = handler;
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}
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void clic_enable_interrupt (clic_instance_t * this_clic, uint32_t source) {
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*(volatile uint8_t*)(this_clic->hart_addr+CLIC_INTIE+source) = 1;
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}
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void clic_disable_interrupt (clic_instance_t * this_clic, uint32_t source){
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*(volatile uint8_t*)(this_clic->hart_addr+CLIC_INTIE+source) = 0;
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}
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void clic_set_pending(clic_instance_t * this_clic, uint32_t source){
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*(volatile uint8_t*)(this_clic->hart_addr+CLIC_INTIP+source) = 1;
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}
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void clic_clear_pending(clic_instance_t * this_clic, uint32_t source){
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*(volatile uint8_t*)(this_clic->hart_addr+CLIC_INTIP+source) = 0;
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}
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void clic_set_intcfg (clic_instance_t * this_clic, uint32_t source, uint32_t intcfg){
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*(volatile uint8_t*)(this_clic->hart_addr+CLIC_INTCFG+source) = intcfg;
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}
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uint8_t clic_get_intcfg (clic_instance_t * this_clic, uint32_t source){
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return *(volatile uint8_t*)(this_clic->hart_addr+CLIC_INTCFG+source);
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}
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void clic_set_cliccfg (clic_instance_t * this_clic, uint32_t cfg){
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*(volatile uint8_t*)(this_clic->hart_addr+CLIC_CFG) = cfg;
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}
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uint8_t clic_get_cliccfg (clic_instance_t * this_clic){
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return *(volatile uint8_t*)(this_clic->hart_addr+CLIC_CFG);
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}
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//sets an interrupt level based encoding of nmbits, nlbits
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uint8_t clic_set_int_level( clic_instance_t * this_clic, uint32_t source, uint8_t level) {
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//extract nlbits
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uint8_t nlbits = clic_get_cliccfg(this_clic);
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nlbits = (nlbits >>1) & 0x7;
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//shift level right to mask off unused bits
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level = level>>((this_clic->num_config_bits)-nlbits); //plus this_clic->nmbits which is always 0 for now.
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//shift level into correct bit position
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level = level << (8-this_clic->num_config_bits) + (this_clic->num_config_bits - nlbits);
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//write to clicintcfg
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uint8_t current_intcfg = clic_get_intcfg(this_clic, source);
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clic_set_intcfg(this_clic, source, (current_intcfg | level));
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return level;
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}
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//gets an interrupt level based encoding of nmbits, nlbits
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uint8_t clic_get_int_level( clic_instance_t * this_clic, uint32_t source) {
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uint8_t level;
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level = clic_get_intcfg(this_clic, source);
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//extract nlbits
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uint8_t nlbits = clic_get_cliccfg(this_clic);
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nlbits = (nlbits >>1) & 0x7;
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//shift level
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level = level >> (8-(this_clic->num_config_bits));
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//shift level right to mask off priority bits
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level = level>>(this_clic->num_config_bits-nlbits); //this_clic->nmbits which is always 0 for now.
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return level;
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}
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//sets an interrupt priority based encoding of nmbits, nlbits
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uint8_t clic_set_int_priority( clic_instance_t * this_clic, uint32_t source, uint8_t priority) {
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//priority bits = num_config_bits - nlbits
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//extract nlbits
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uint8_t nlbits = clic_get_cliccfg(this_clic);
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nlbits = (nlbits >>1) & 0x7;
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uint8_t priority_bits = this_clic->num_config_bits-nlbits;
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if(priority_bits = 0) {
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//no bits to set
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return 0;
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}
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//mask off unused bits
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priority = priority >> (8-priority_bits);
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//shift into the correct bit position
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priority = priority << (8-(this_clic->num_config_bits));
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//write to clicintcfg
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uint8_t current_intcfg = clic_get_intcfg(this_clic, source);
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clic_set_intcfg(this_clic, source, (current_intcfg | priority));
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return current_intcfg;
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}
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//gets an interrupt priority based encoding of nmbits, nlbits
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uint8_t clic_get_int_priority( clic_instance_t * this_clic, uint32_t source) {
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uint8_t priority;
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priority = clic_get_intcfg(this_clic, source);
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//extract nlbits
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uint8_t nlbits = clic_get_cliccfg(this_clic);
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nlbits = (nlbits >>1) & 0x7;
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//shift left to mask off level bits
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priority = priority << nlbits;
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//shift priority
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priority = priority >> (8-((this_clic->num_config_bits)+nlbits));
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return priority;
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}
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44
raven/bsp/drivers/clic/clic_driver.h
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44
raven/bsp/drivers/clic/clic_driver.h
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@ -0,0 +1,44 @@
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// See LICENSE file for licence details
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#ifndef PLIC_DRIVER_H
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#define PLIC_DRIVER_H
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__BEGIN_DECLS
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#include "platform.h"
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typedef void (*interrupt_function_ptr_t) (void);
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typedef struct __clic_instance_t
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{
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uintptr_t hart_addr;
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interrupt_function_ptr_t* vect_table;
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uint32_t num_config_bits;
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uint32_t num_sources;
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} clic_instance_t;
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// Note that there are no assertions or bounds checking on these
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// parameter values.
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void clic_init (clic_instance_t * this_clic, uintptr_t hart_addr, interrupt_function_ptr_t* vect_table, interrupt_function_ptr_t default_handler, uint32_t num_irq,uint32_t num_config_bits);
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void clic_install_handler (clic_instance_t * this_clic, uint32_t source, interrupt_function_ptr_t handler);
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void clic_enable_interrupt (clic_instance_t * this_clic, uint32_t source);
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void clic_disable_interrupt (clic_instance_t * this_clic, uint32_t source);
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void clic_set_pending(clic_instance_t * this_clic, uint32_t source);
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void clic_clear_pending(clic_instance_t * this_clic, uint32_t source);
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void clic_set_intcfg (clic_instance_t * this_clic, uint32_t source, uint32_t intcfg);
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uint8_t clic_get_intcfg (clic_instance_t * this_clic, uint32_t source);
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void clic_set_cliccfg (clic_instance_t * this_clic, uint32_t cfg);
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uint8_t clic_get_cliccfg (clic_instance_t * this_clic);
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//sets an interrupt level based encoding of nmbits, nlbits
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uint8_t clic_set_int_level( clic_instance_t * this_clic, uint32_t source, uint8_t level);
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//get an interrupt level based encoding of nmbits, nlbits
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uint8_t clic_get_int_level( clic_instance_t * this_clic, uint32_t source);
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//sets an interrupt priority based encoding of nmbits, nlbits
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uint8_t clic_set_int_priority( clic_instance_t * this_clic, uint32_t source, uint8_t priority);
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//sets an interrupt priority based encoding of nmbits, nlbits
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uint8_t clic_get_int_priority( clic_instance_t * this_clic, uint32_t source);
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__END_DECLS
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#endif
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@ -2,7 +2,7 @@
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#include "platform.h"
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#ifdef PRCI_BASE_ADDR
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#ifdef PRCI_CTRL_ADDR
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#include "fe300prci/fe300prci_driver.h"
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#include <unistd.h>
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@ -22,19 +22,20 @@ void PLIC_init (
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plic_instance_t * this_plic,
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uintptr_t base_addr,
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uint32_t num_sources,
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uint32_t num_priorities
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uint32_t num_priorities,
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uint32_t target_hartid
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)
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{
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this_plic->base_addr = base_addr;
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this_plic->num_sources = num_sources;
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this_plic->num_priorities = num_priorities;
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this_plic->target_hartid = target_hartid;
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// Disable all interrupts (don't assume that these registers are reset).
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unsigned long hart_id = read_csr(mhartid);
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volatile_memzero((uint8_t*) (this_plic->base_addr +
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PLIC_ENABLE_OFFSET +
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(hart_id << PLIC_ENABLE_SHIFT_PER_TARGET)),
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(this_plic->target_hartid << PLIC_ENABLE_SHIFT_PER_TARGET)),
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(num_sources + 8) / 8);
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// Set all priorities to 0 (equal priority -- don't assume that these are reset).
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@ -46,7 +47,7 @@ void PLIC_init (
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volatile plic_threshold* threshold = (plic_threshold*)
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(this_plic->base_addr +
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PLIC_THRESHOLD_OFFSET +
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(hart_id << PLIC_THRESHOLD_SHIFT_PER_TARGET));
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(this_plic->target_hartid << PLIC_THRESHOLD_SHIFT_PER_TARGET));
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*threshold = 0;
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@ -55,10 +56,9 @@ void PLIC_init (
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void PLIC_set_threshold (plic_instance_t * this_plic,
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plic_threshold threshold){
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unsigned long hart_id = read_csr(mhartid);
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volatile plic_threshold* threshold_ptr = (plic_threshold*) (this_plic->base_addr +
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PLIC_THRESHOLD_OFFSET +
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(hart_id << PLIC_THRESHOLD_SHIFT_PER_TARGET));
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(this_plic->target_hartid << PLIC_THRESHOLD_SHIFT_PER_TARGET));
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*threshold_ptr = threshold;
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@ -67,10 +67,9 @@ void PLIC_set_threshold (plic_instance_t * this_plic,
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void PLIC_enable_interrupt (plic_instance_t * this_plic, plic_source source){
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unsigned long hart_id = read_csr(mhartid);
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volatile uint8_t * current_ptr = (volatile uint8_t *)(this_plic->base_addr +
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PLIC_ENABLE_OFFSET +
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(hart_id << PLIC_ENABLE_SHIFT_PER_TARGET) +
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(this_plic->target_hartid << PLIC_ENABLE_SHIFT_PER_TARGET) +
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(source >> 3));
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uint8_t current = *current_ptr;
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current = current | ( 1 << (source & 0x7));
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@ -80,10 +79,9 @@ void PLIC_enable_interrupt (plic_instance_t * this_plic, plic_source source){
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void PLIC_disable_interrupt (plic_instance_t * this_plic, plic_source source){
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unsigned long hart_id = read_csr(mhartid);
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volatile uint8_t * current_ptr = (volatile uint8_t *) (this_plic->base_addr +
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PLIC_ENABLE_OFFSET +
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(hart_id << PLIC_ENABLE_SHIFT_PER_TARGET) +
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(this_plic->target_hartid << PLIC_ENABLE_SHIFT_PER_TARGET) +
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(source >> 3));
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uint8_t current = *current_ptr;
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current = current & ~(( 1 << (source & 0x7)));
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@ -104,12 +102,10 @@ void PLIC_set_priority (plic_instance_t * this_plic, plic_source source, plic_pr
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plic_source PLIC_claim_interrupt(plic_instance_t * this_plic){
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unsigned long hart_id = read_csr(mhartid);
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volatile plic_source * claim_addr = (volatile plic_source * )
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(this_plic->base_addr +
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PLIC_CLAIM_OFFSET +
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(hart_id << PLIC_CLAIM_SHIFT_PER_TARGET));
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(this_plic->target_hartid << PLIC_CLAIM_SHIFT_PER_TARGET));
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return *claim_addr;
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@ -117,10 +113,9 @@ plic_source PLIC_claim_interrupt(plic_instance_t * this_plic){
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void PLIC_complete_interrupt(plic_instance_t * this_plic, plic_source source){
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unsigned long hart_id = read_csr(mhartid);
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volatile plic_source * claim_addr = (volatile plic_source *) (this_plic->base_addr +
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PLIC_CLAIM_OFFSET +
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(hart_id << PLIC_CLAIM_SHIFT_PER_TARGET));
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(this_plic->target_hartid << PLIC_CLAIM_SHIFT_PER_TARGET));
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*claim_addr = source;
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}
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@ -14,7 +14,7 @@ typedef struct __plic_instance_t
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uint32_t num_sources;
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uint32_t num_priorities;
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uint32_t target_hartid;
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} plic_instance_t;
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typedef uint32_t plic_source;
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@ -25,7 +25,8 @@ void PLIC_init (
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plic_instance_t * this_plic,
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uintptr_t base_addr,
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uint32_t num_sources,
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uint32_t num_priorities
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uint32_t num_priorities,
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uint32_t target_hartid
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);
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void PLIC_set_threshold (plic_instance_t * this_plic,
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