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#include <linux/atmdev.h>
#include <linux/irq.h>
#include "common.h"
void mailbox_signal(unsigned int channel, int is_tx)
{
if(is_tx)
{
while(MBOX_IGU3_ISR_ISR(channel + 16));
*MBOX_IGU3_ISRS = MBOX_IGU3_ISRS_SET(channel + 16);
} else {
while(MBOX_IGU3_ISR_ISR(channel));
*MBOX_IGU3_ISRS = MBOX_IGU3_ISRS_SET(channel);
}
}
static int mailbox_rx_irq_handler(unsigned int channel, unsigned int *len)
{
int conn;
int skb_base;
register struct rx_descriptor reg_desc;
struct rx_descriptor *desc;
struct sk_buff *skb;
struct atm_vcc *vcc;
struct rx_inband_trailer *trailer;
/* get sk_buff pointer and descriptor */
skb_base = ppe_dev.dma.rx_descriptor_number * channel + ppe_dev.dma.rx_desc_read_pos[channel];
desc = &ppe_dev.dma.rx_descriptor_base[skb_base];
reg_desc = *desc;
if ( reg_desc.own || !reg_desc.c )
return -EAGAIN;
if ( ++ppe_dev.dma.rx_desc_read_pos[channel] == ppe_dev.dma.rx_descriptor_number )
ppe_dev.dma.rx_desc_read_pos[channel] = 0;
skb = *(struct sk_buff **)((((u32)reg_desc.dataptr << 2) | KSEG0) - 4);
if ( (u32)skb <= 0x80000000 )
{
int key = 0;
printk("skb problem: skb = %08X, system is panic!\n", (u32)skb);
for ( ; !key; );
}
conn = reg_desc.id;
if ( conn == ppe_dev.oam_rx_queue )
{
/* OAM */
struct uni_cell_header *header = (struct uni_cell_header *)skb->data;
if ( header->pti == ATM_PTI_SEGF5 || header->pti == ATM_PTI_E2EF5 )
conn = find_vpivci(header->vpi, header->vci);
else if ( header->vci == 0x03 || header->vci == 0x04 )
conn = find_vpi(header->vpi);
else
conn = -1;
if ( conn >= 0 && ppe_dev.connection[conn].vcc != NULL )
{
vcc = ppe_dev.connection[conn].vcc;
ppe_dev.connection[conn].access_time = xtime;
if ( vcc->push_oam != NULL )
vcc->push_oam(vcc, skb->data);
}
/* don't need resize */
}
else
{
if ( len )
*len = 0;
if ( ppe_dev.connection[conn].vcc != NULL )
{
vcc = ppe_dev.connection[conn].vcc;
if ( !reg_desc.err )
if ( vcc->qos.aal == ATM_AAL5 )
{
/* AAL5 packet */
resize_skb_rx(skb, reg_desc.datalen + reg_desc.byteoff, 0);
skb_reserve(skb, reg_desc.byteoff);
skb_put(skb, reg_desc.datalen);
if ( (u32)ATM_SKB(skb) <= 0x80000000 )
{
int key = 0;
printk("ATM_SKB(skb) problem: ATM_SKB(skb) = %08X, system is panic!\n", (u32)ATM_SKB(skb));
for ( ; !key; );
}
ATM_SKB(skb)->vcc = vcc;
ppe_dev.connection[conn].access_time = xtime;
if ( atm_charge(vcc, skb->truesize) )
{
struct sk_buff *new_skb;
new_skb = alloc_skb_rx();
if ( new_skb )
{
UPDATE_VCC_STAT(conn, rx_pdu, 1);
ppe_dev.mib.wrx_pdu++;
if ( vcc->stats )
atomic_inc(&vcc->stats->rx);
vcc->push(vcc, skb);
{
struct k_atm_aal_stats stats = *vcc->stats;
int flag = 0;
vcc->push(vcc, skb);
if ( vcc->stats->rx.counter != stats.rx.counter )
{
printk("vcc->stats->rx (diff) = %d", vcc->stats->rx.counter - stats.rx.counter);
flag++;
}
if ( vcc->stats->rx_err.counter != stats.rx_err.counter )
{
printk("vcc->stats->rx_err (diff) = %d", vcc->stats->rx_err.counter - stats.rx_err.counter);
flag++;
}
if ( vcc->stats->rx_drop.counter != stats.rx_drop.counter )
{
printk("vcc->stats->rx_drop (diff) = %d", vcc->stats->rx_drop.counter - stats.rx_drop.counter);
flag++;
}
if ( vcc->stats->tx.counter != stats.tx.counter )
{
printk("vcc->stats->tx (diff) = %d", vcc->stats->tx.counter - stats.tx.counter);
flag++;
}
if ( vcc->stats->tx_err.counter != stats.tx_err.counter )
{
printk("vcc->stats->tx_err (diff) = %d", vcc->stats->tx_err.counter - stats.tx_err.counter);
flag++;
}
if ( !flag )
printk("vcc->stats not changed");
}
reg_desc.dataptr = (u32)new_skb->data >> 2;
if ( len )
*len = reg_desc.datalen;
}
else
{
/* no sk buffer */
UPDATE_VCC_STAT(conn, rx_sw_drop_pdu, 1);
ppe_dev.mib.wrx_drop_pdu++;
if ( vcc->stats )
atomic_inc(&vcc->stats->rx_drop);
resize_skb_rx(skb, ppe_dev.aal5.rx_buffer_size, 0);
}
}
else
{
/* no enough space */
UPDATE_VCC_STAT(conn, rx_sw_drop_pdu, 1);
ppe_dev.mib.wrx_drop_pdu++;
if ( vcc->stats )
atomic_inc(&vcc->stats->rx_drop);
resize_skb_rx(skb, ppe_dev.aal5.rx_buffer_size, 0);
}
}
else
{
/* AAL0 cell */
resize_skb_rx(skb, CELL_SIZE, 1);
skb_put(skb, CELL_SIZE);
ATM_SKB(skb)->vcc = vcc;
ppe_dev.connection[conn].access_time = xtime;
if ( atm_charge(vcc, skb->truesize) )
{
struct sk_buff *new_skb;
new_skb = alloc_skb_rx();
if ( new_skb )
{
if ( vcc->stats )
atomic_inc(&vcc->stats->rx);
vcc->push(vcc, skb);
reg_desc.dataptr = (u32)new_skb->data >> 2;
if ( len )
*len = CELL_SIZE;
}
else
{
if ( vcc->stats )
atomic_inc(&vcc->stats->rx_drop);
resize_skb_rx(skb, ppe_dev.aal5.rx_buffer_size, 0);
}
}
else
{
if ( vcc->stats )
atomic_inc(&vcc->stats->rx_drop);
resize_skb_rx(skb, ppe_dev.aal5.rx_buffer_size, 0);
}
}
else
{
printk("reg_desc.err\n");
/* drop packet/cell */
if ( vcc->qos.aal == ATM_AAL5 )
{
UPDATE_VCC_STAT(conn, rx_err_pdu, 1);
trailer = (struct rx_inband_trailer *)((u32)skb->data + ((reg_desc.byteoff + reg_desc.datalen + DMA_ALIGNMENT - 1) & ~ (DMA_ALIGNMENT - 1)));
if ( trailer->stw_crc )
ppe_dev.connection[conn].aal5_vcc_crc_err++;
if ( trailer->stw_ovz )
ppe_dev.connection[conn].aal5_vcc_oversize_sdu++;
}
if ( vcc->stats )
atomic_inc(&vcc->stats->rx_err);
/* don't need resize */
}
}
else
{
printk("ppe_dev.connection[%d].vcc == NULL\n", conn);
ppe_dev.mib.wrx_drop_pdu++;
/* don't need resize */
}
}
reg_desc.byteoff = 0;
reg_desc.datalen = ppe_dev.aal5.rx_buffer_size;
reg_desc.own = 1;
reg_desc.c = 0;
/* write discriptor to memory */
*desc = reg_desc;
printk("leave mailbox_rx_irq_handler");
return 0;
}
static inline void mailbox_tx_irq_handler(unsigned int conn)
{
if ( ppe_dev.dma.tx_desc_alloc_flag[conn] )
{
int desc_base;
int *release_pos;
struct sk_buff *skb;
release_pos = &ppe_dev.dma.tx_desc_release_pos[conn];
desc_base = ppe_dev.dma.tx_descriptor_number * (conn - QSB_QUEUE_NUMBER_BASE) + *release_pos;
while ( !ppe_dev.dma.tx_descriptor_base[desc_base].own )
{
skb = ppe_dev.dma.tx_skb_pointers[desc_base];
ppe_dev.dma.tx_descriptor_base[desc_base].own = 1; // pretend PP32 hold owner bit, so that won't be released more than once, so allocation process don't check this bit
if ( ++*release_pos == ppe_dev.dma.tx_descriptor_number )
*release_pos = 0;
if ( *release_pos == ppe_dev.dma.tx_desc_alloc_pos[conn] )
{
ppe_dev.dma.tx_desc_alloc_flag[conn] = 0;
atm_free_tx_skb_vcc(skb);
break;
}
if ( *release_pos == 0 )
desc_base = ppe_dev.dma.tx_descriptor_number * (conn - QSB_QUEUE_NUMBER_BASE);
else
desc_base++;
atm_free_tx_skb_vcc(skb);
}
}
}
#if defined(ENABLE_RX_QOS) && ENABLE_RX_QOS
static inline int check_desc_valid(unsigned int channel)
{
int skb_base;
struct rx_descriptor *desc;
skb_base = ppe_dev.dma.rx_descriptor_number * channel + ppe_dev.dma.rx_desc_read_pos[channel];
desc = &ppe_dev.dma.rx_descriptor_base[skb_base];
return !desc->own && desc->c ? 1 : 0;
}
#endif
irqreturn_t mailbox_irq_handler(int irq, void *dev_id)
{
int channel_mask; /* DMA channel accordant IRQ bit mask */
int channel;
unsigned int rx_irq_number[MAX_RX_DMA_CHANNEL_NUMBER] = {0};
unsigned int total_rx_irq_number = 0;
printk("mailbox_irq_handler");
if ( !*MBOX_IGU1_ISR )
return IRQ_RETVAL(1);
channel_mask = 1;
channel = 0;
while ( channel < ppe_dev.dma.rx_total_channel_used )
{
if ( (*MBOX_IGU1_ISR & channel_mask) )
{
/* RX */
/* clear IRQ */
*MBOX_IGU1_ISRC = channel_mask;
printk(" RX: *MBOX_IGU1_ISR = 0x%08X\n", *MBOX_IGU1_ISR);
/* wait for mailbox cleared */
while ( (*MBOX_IGU3_ISR & channel_mask) );
/* shadow the number of valid descriptor */
rx_irq_number[channel] = WRX_DMA_CHANNEL_CONFIG(channel)->vlddes;
total_rx_irq_number += rx_irq_number[channel];
printk("total_rx_irq_number = %d", total_rx_irq_number);
printk("vlddes = %d, rx_irq_number[%d] = %d, total_rx_irq_number = %d\n", WRX_DMA_CHANNEL_CONFIG(channel)->vlddes, channel, rx_irq_number[channel], total_rx_irq_number);
}
channel_mask <<= 1;
channel++;
}
channel_mask = 1 << (16 + QSB_QUEUE_NUMBER_BASE);
channel = QSB_QUEUE_NUMBER_BASE;
while ( channel - QSB_QUEUE_NUMBER_BASE < ppe_dev.dma.tx_total_channel_used )
{
if ( (*MBOX_IGU1_ISR & channel_mask) )
{
// if ( channel != 1 )
// {
printk("TX irq error\n");
// while ( 1 )
// {
// }
// }
/* TX */
/* clear IRQ */
*MBOX_IGU1_ISRC = channel_mask;
printk(" TX: *MBOX_IGU1_ISR = 0x%08X\n", *MBOX_IGU1_ISR);
mailbox_tx_irq_handler(channel);
}
channel_mask <<= 1;
channel++;
}
#if defined(ENABLE_RX_QOS) && ENABLE_RX_QOS
channel = 0;
while ( total_rx_irq_number )
{
switch ( channel )
{
case RX_DMA_CH_CBR:
case RX_DMA_CH_OAM:
/* handle it as soon as possible */
while ( rx_irq_number[channel] != 0 && mailbox_rx_irq_handler(channel, NULL) == 0 )
{
rx_irq_number[channel]--;
total_rx_irq_number--;
printk("RX_DMA_CH_CBR, total_rx_irq_number = %d", total_rx_irq_number);
printk("RX_DMA_CH_CBR, total_rx_irq_number = %d, rx_irq_number[%d] = %d\n", total_rx_irq_number, channel, rx_irq_number[channel]);
/* signal firmware that descriptor is updated */
mailbox_signal(channel, 0);
}
// if ( rx_irq_number[channel] != 0 )
printk("RX_DMA_CH_CBR, rx_irq_number[channel] = %d", rx_irq_number[channel]);
break;
case RX_DMA_CH_VBR_RT:
/* WFQ */
if ( rx_irq_number[RX_DMA_CH_VBR_RT] != 0
&& (rx_irq_number[RX_DMA_CH_VBR_NRT] == 0 || !check_desc_valid(RX_DMA_CH_VBR_NRT) || ppe_dev.dma.rx_weight[RX_DMA_CH_VBR_NRT] < ppe_dev.dma.rx_weight[RX_DMA_CH_VBR_RT])
&& (rx_irq_number[RX_DMA_CH_AVR] == 0 || !check_desc_valid(RX_DMA_CH_AVR) || ppe_dev.dma.rx_weight[RX_DMA_CH_AVR] < ppe_dev.dma.rx_weight[RX_DMA_CH_VBR_RT])
)
{
unsigned int len;
if ( mailbox_rx_irq_handler(RX_DMA_CH_VBR_RT, &len) == 0 )
{
rx_irq_number[RX_DMA_CH_VBR_RT]--;
total_rx_irq_number--;
printk("RX_DMA_CH_VBR_RT, total_rx_irq_number = %d", total_rx_irq_number);
printk("RX_DMA_CH_VBR_RT, total_rx_irq_number = %d, rx_irq_number[%d] = %d\n", total_rx_irq_number, channel, rx_irq_number[channel]);
/* signal firmware that descriptor is updated */
mailbox_signal(channel, 0);
len = (len + CELL_SIZE - 1) / CELL_SIZE;
if ( ppe_dev.dma.rx_weight[RX_DMA_CH_VBR_RT] <= len )
ppe_dev.dma.rx_weight[RX_DMA_CH_VBR_RT] = ppe_dev.dma.rx_default_weight[RX_DMA_CH_VBR_RT] + ppe_dev.dma.rx_weight[RX_DMA_CH_VBR_RT] - len;
}
}
// if ( rx_irq_number[channel] != 0 )
// {
printk("RX_DMA_CH_VBR_RT, rx_irq_number[channel] = %d, total_rx_irq_number = %d", rx_irq_number[channel], total_rx_irq_number);
// rx_irq_number[channel] = 0;
// total_rx_irq_number = 0;
// }
break;
case RX_DMA_CH_VBR_NRT:
/* WFQ */
if ( rx_irq_number[RX_DMA_CH_VBR_NRT] != 0
&& (rx_irq_number[RX_DMA_CH_VBR_RT] == 0 || !check_desc_valid(RX_DMA_CH_VBR_RT) || ppe_dev.dma.rx_weight[RX_DMA_CH_VBR_RT] < ppe_dev.dma.rx_weight[RX_DMA_CH_VBR_NRT])
&& (rx_irq_number[RX_DMA_CH_AVR] == 0 || !check_desc_valid(RX_DMA_CH_AVR) || ppe_dev.dma.rx_weight[RX_DMA_CH_AVR] < ppe_dev.dma.rx_weight[RX_DMA_CH_VBR_NRT])
)
{
unsigned int len;
if ( mailbox_rx_irq_handler(RX_DMA_CH_VBR_NRT, &len) == 0 )
{
rx_irq_number[RX_DMA_CH_VBR_NRT]--;
total_rx_irq_number--;
printk("RX_DMA_CH_VBR_NRT, total_rx_irq_number = %d", total_rx_irq_number);
printk("RX_DMA_CH_VBR_NRT, total_rx_irq_number = %d, rx_irq_number[%d] = %d\n", total_rx_irq_number, channel, rx_irq_number[channel]);
/* signal firmware that descriptor is updated */
mailbox_signal(channel, 0);
len = (len + CELL_SIZE - 1) / CELL_SIZE;
if ( ppe_dev.dma.rx_weight[RX_DMA_CH_VBR_NRT] <= len )
ppe_dev.dma.rx_weight[RX_DMA_CH_VBR_NRT] = ppe_dev.dma.rx_default_weight[RX_DMA_CH_VBR_NRT] + ppe_dev.dma.rx_weight[RX_DMA_CH_VBR_NRT] - len;
}
}
// if ( rx_irq_number[channel] != 0 )
printk("RX_DMA_CH_VBR_NRT, rx_irq_number[channel] = %d", rx_irq_number[channel]);
break;
case RX_DMA_CH_AVR:
/* WFQ */
if ( rx_irq_number[RX_DMA_CH_AVR] != 0
&& (rx_irq_number[RX_DMA_CH_VBR_RT] == 0 || !check_desc_valid(RX_DMA_CH_VBR_RT) || ppe_dev.dma.rx_weight[RX_DMA_CH_VBR_RT] < ppe_dev.dma.rx_weight[RX_DMA_CH_AVR])
&& (rx_irq_number[RX_DMA_CH_VBR_NRT] == 0 || !check_desc_valid(RX_DMA_CH_VBR_NRT) || ppe_dev.dma.rx_weight[RX_DMA_CH_VBR_NRT] < ppe_dev.dma.rx_weight[RX_DMA_CH_AVR])
)
{
unsigned int len;
if ( mailbox_rx_irq_handler(RX_DMA_CH_AVR, &len) == 0 )
{
rx_irq_number[RX_DMA_CH_AVR]--;
total_rx_irq_number--;
printk("RX_DMA_CH_AVR, total_rx_irq_number = %d", total_rx_irq_number);
printk("RX_DMA_CH_AVR, total_rx_irq_number = %d, rx_irq_number[%d] = %d\n", total_rx_irq_number, channel, rx_irq_number[channel]);
/* signal firmware that descriptor is updated */
mailbox_signal(channel, 0);
len = (len + CELL_SIZE - 1) / CELL_SIZE;
if ( ppe_dev.dma.rx_weight[RX_DMA_CH_AVR] <= len )
ppe_dev.dma.rx_weight[RX_DMA_CH_AVR] = ppe_dev.dma.rx_default_weight[RX_DMA_CH_AVR] + ppe_dev.dma.rx_weight[RX_DMA_CH_AVR] - len;
}
}
// if ( rx_irq_number[channel] != 0 )
printk("RX_DMA_CH_AVR, rx_irq_number[channel] = %d", rx_irq_number[channel]);
break;
case RX_DMA_CH_UBR:
default:
/* Handle it when all others are handled or others are not available to handle. */
if ( rx_irq_number[channel] != 0
&& (rx_irq_number[RX_DMA_CH_VBR_RT] == 0 || !check_desc_valid(RX_DMA_CH_VBR_RT))
&& (rx_irq_number[RX_DMA_CH_VBR_NRT] == 0 || !check_desc_valid(RX_DMA_CH_VBR_NRT))
&& (rx_irq_number[RX_DMA_CH_AVR] == 0 || !check_desc_valid(RX_DMA_CH_AVR)) )
if ( mailbox_rx_irq_handler(channel, NULL) == 0 )
{
rx_irq_number[channel]--;
total_rx_irq_number--;
printk("RX_DMA_CH_UBR, total_rx_irq_number = %d, rx_irq_number[%d] = %d", total_rx_irq_number, channel, rx_irq_number[channel]);
printk("RX_DMA_CH_UBR, total_rx_irq_number = %d, rx_irq_number[%d] = %d\n", total_rx_irq_number, channel, rx_irq_number[channel]);
/* signal firmware that descriptor is updated */
mailbox_signal(channel, 0);
}
printk("RX_DMA_CH_UBR, rx_irq_number[channel] = %d", rx_irq_number[channel]);
}
if ( ++channel == ppe_dev.dma.rx_total_channel_used )
channel = 0;
}
#else
channel = 0;
while ( total_rx_irq_number )
{
while ( rx_irq_number[channel] != 0 && mailbox_rx_irq_handler(channel, NULL) == 0 )
{
rx_irq_number[channel]--;
total_rx_irq_number--;
/* signal firmware that descriptor is updated */
mailbox_signal(channel, 0);
}
if ( ++channel == ppe_dev.dma.rx_total_channel_used )
channel = 0;
}
#endif // defined(ENABLE_RX_QOS) && ENABLE_RX_QOS
return IRQ_RETVAL(1);
}
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