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message_channel.c
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#include "message_channel.h"
#include "debug.h"
#include "vcpu.h"
#include "page_table.h"
#include "memory_define.h"
#include "memory_manage.h"
extern volatile void *_channel_area_start;
extern volatile void *_channel_area_end;
static UW area_start;
static message_channel_t channels[16];
static UW channel_num = 0;
void message_channel_init(void){
area_start = (UW)&_channel_area_start;
}
void message_channel_hyp_interface(void){
UW *sp = vcpu_get_current_sp()->reg;
message_channel_t *channel;
switch(sp[0]){
case 0:
channel = message_channel_alloc(sp[1], sp[2], sp[3]);
if(channel==NULL) sp[0] = -1;
else sp[0] = channel->id;
break;
case 1:
sp[0] = message_channel_find(sp[1],sp[2]);
break;
case 2:
channel = &(channels[sp[1]]);
if(channel->state==MESSAGE_CHANNEL_EMPTY){
message_channel_write_start(channel,sp[2]);
} else {
channel->sender_wait = true;
channel->wait_arg = sp[2];
vcpu_make_wait(vcpu_find_by_id(channel->sender_id));
}
break;
case 3:
channel = &(channels[sp[1]]);
message_channel_write_end(channel);
if(channel->receiver_wait){
channel->receiver_wait = false;
message_channel_read_start(channel, channel->wait_arg);
vcpu_wakeup(vcpu_find_by_id(channel->receiver_id));
}
break;
case 4:
channel = &(channels[sp[1]]);
if(channel->state==MESSAGE_CHANNEL_READY){
message_channel_read_start(channel,sp[2]);
} else {
channel->receiver_wait = true;
channel->wait_arg = sp[2];
vcpu_make_wait(vcpu_find_by_id(channel->receiver_id));
}
break;
case 5:
channel = &(channels[sp[1]]);
message_channel_read_end(channel);
if(channel->sender_wait){
channel->sender_wait = false;
message_channel_write_start(channel, channel->wait_arg);
vcpu_wakeup(vcpu_find_by_id(channel->sender_id));
}
break;
default:
tv_abort("!!! unknown operation !!!\n");
}
}
W message_channel_find(UB sender_id, UB receiver_id){
UW i;
for(i=0;i<channel_num;i++){
if(channels[i].sender_id==sender_id&&channels[i].receiver_id==receiver_id)
return i;
}
return -1;
}
message_channel_t *message_channel_find_by_id(UB id){
return &(channels[(UW)id]);
}
message_channel_t *message_channel_alloc(UB sender_id, UB receiver_id, UW size)
{
if(area_start+size >= (UW)&_channel_area_end || channel_num >= sizeof(channels)/sizeof(channels[0])){
tv_abort("! allocation failed\n");
return NULL;
}
message_channel_t *ret = &(channels[channel_num]);
ret->id = channel_num++;
ret->receiver_id = receiver_id;
ret->sender_id = sender_id;
ret->addr = area_start;
ret->state = MESSAGE_CHANNEL_EMPTY;
area_start = (area_start+size+0xfff)&(0xfffff000);
ret->addr_end = area_start;
ret->receiver_wait = false;
ret->sender_wait = false;
return ret;
}
void message_channel_write_start(message_channel_t *channel, UW virt_addr){
T_VCPU *sender = vcpu_find_by_id(channel->sender_id);
memory_area_t area = { channel->addr, channel->addr_end, virt_addr, MEM_AREA_VNORMAL | MEM_AREA_VRW | (1 << 10), 0};
vcpu_add_page(sender, &area);
channel->state = MESSAGE_CHANNEL_BUSY;
channel->virt_addr = virt_addr;
}
void message_channel_write_end(message_channel_t *channel){
T_VCPU *sender = vcpu_find_by_id(channel->sender_id);
memory_area_t area = { channel->addr, channel->addr_end, channel->virt_addr, MEM_AREA_VNO , 0};
vcpu_add_page(sender, &area);
flush_cache();
FlushTLB();
channel->state = MESSAGE_CHANNEL_READY;
}
void message_channel_read_start(message_channel_t *channel, UW virt_addr){
T_VCPU *sender = vcpu_find_by_id(channel->receiver_id);
memory_area_t area = { channel->addr, channel->addr_end, virt_addr, MEM_AREA_VNORMAL | MEM_AREA_VRO | (1 << 10), 0};
vcpu_add_page(sender, &area);
channel->state = MESSAGE_CHANNEL_BUSY;
channel->virt_addr = virt_addr;
}
void message_channel_read_end(message_channel_t *channel){
T_VCPU *sender = vcpu_find_by_id(channel->receiver_id);
memory_area_t area = { channel->addr, channel->addr_end, channel->virt_addr, MEM_AREA_VNO , 0};
vcpu_add_page(sender, &area);
flush_cache();
FlushTLB();
channel->state = MESSAGE_CHANNEL_EMPTY;
}