1 /******************************************************************************
3 ** FILE NAME : ifxmips_ptm_vdsl.c
9 ** DESCRIPTION : PTM driver common source file (core functions for VR9)
10 ** COPYRIGHT : Copyright (c) 2006
11 ** Infineon Technologies AG
12 ** Am Campeon 1-12, 85579 Neubiberg, Germany
14 ** This program is free software; you can redistribute it and/or modify
15 ** it under the terms of the GNU General Public License as published by
16 ** the Free Software Foundation; either version 2 of the License, or
17 ** (at your option) any later version.
20 ** $Date $Author $Comment
21 ** 07 JUL 2009 Xu Liang Init Version
22 *******************************************************************************/
24 #include <linux/version.h>
25 #include <linux/kernel.h>
26 #include <linux/module.h>
27 #include <linux/types.h>
28 #include <linux/ctype.h>
29 #include <linux/errno.h>
30 #include <linux/proc_fs.h>
31 #include <linux/init.h>
32 #include <linux/ioctl.h>
33 #include <linux/etherdevice.h>
34 #include <linux/interrupt.h>
35 #include <linux/netdevice.h>
37 #include "ifxmips_ptm_vdsl.h"
38 #include <lantiq_soc.h>
40 #define MODULE_PARM_ARRAY(a, b) module_param_array(a, int, NULL, 0)
41 #define MODULE_PARM(a, b) module_param(a, int, 0)
43 static int wanqos_en
= 0;
44 static int queue_gamma_map
[4] = {0xFE, 0x01, 0x00, 0x00};
46 MODULE_PARM(wanqos_en
, "i");
47 MODULE_PARM_DESC(wanqos_en
, "WAN QoS support, 1 - enabled, 0 - disabled.");
49 MODULE_PARM_ARRAY(queue_gamma_map
, "4-4i");
50 MODULE_PARM_DESC(queue_gamma_map
, "TX QoS queues mapping to 4 TX Gamma interfaces.");
52 extern int (*ifx_mei_atm_showtime_enter
)(struct port_cell_info
*, void *);
53 extern int (*ifx_mei_atm_showtime_exit
)(void);
54 extern int ifx_mei_atm_showtime_check(int *is_showtime
, struct port_cell_info
*port_cell
, void **xdata_addr
);
56 static int g_showtime
= 0;
57 static void *g_xdata_addr
= NULL
;
60 #define ENABLE_TMP_DBG 0
62 unsigned long cgu_get_pp32_clock(void)
64 struct clk
*c
= clk_get_ppe();
65 unsigned long rate
= clk_get_rate(c
);
70 static void ptm_setup(struct net_device
*, int);
71 static struct net_device_stats
*ptm_get_stats(struct net_device
*);
72 static int ptm_open(struct net_device
*);
73 static int ptm_stop(struct net_device
*);
74 static unsigned int ptm_poll(int, unsigned int);
75 static int ptm_napi_poll(struct napi_struct
*, int);
76 static int ptm_hard_start_xmit(struct sk_buff
*, struct net_device
*);
77 static int ptm_change_mtu(struct net_device
*, int);
78 static int ptm_ioctl(struct net_device
*, struct ifreq
*, int);
79 static void ptm_tx_timeout(struct net_device
*);
81 static inline struct sk_buff
* alloc_skb_rx(void);
82 static inline struct sk_buff
* alloc_skb_tx(unsigned int);
83 static inline struct sk_buff
*get_skb_pointer(unsigned int);
84 static inline int get_tx_desc(unsigned int, unsigned int *);
87 * Mailbox handler and signal function
89 static irqreturn_t
mailbox_irq_handler(int, void *);
92 * Tasklet to Handle Swap Descriptors
94 static void do_swap_desc_tasklet(unsigned long);
98 * Init & clean-up functions
100 static inline int init_priv_data(void);
101 static inline void clear_priv_data(void);
102 static inline int init_tables(void);
103 static inline void clear_tables(void);
105 static int g_wanqos_en
= 0;
107 static int g_queue_gamma_map
[4];
109 static struct ptm_priv_data g_ptm_priv_data
;
111 static struct net_device_ops g_ptm_netdev_ops
= {
112 .ndo_get_stats
= ptm_get_stats
,
113 .ndo_open
= ptm_open
,
114 .ndo_stop
= ptm_stop
,
115 .ndo_start_xmit
= ptm_hard_start_xmit
,
116 .ndo_validate_addr
= eth_validate_addr
,
117 .ndo_set_mac_address
= eth_mac_addr
,
118 .ndo_change_mtu
= ptm_change_mtu
,
119 .ndo_do_ioctl
= ptm_ioctl
,
120 .ndo_tx_timeout
= ptm_tx_timeout
,
123 static struct net_device
*g_net_dev
[1] = {0};
124 static char *g_net_dev_name
[1] = {"ptm0"};
126 static int g_ptm_prio_queue_map
[8];
128 static DECLARE_TASKLET(g_swap_desc_tasklet
, do_swap_desc_tasklet
, 0);
131 unsigned int ifx_ptm_dbg_enable
= DBG_ENABLE_MASK_ERR
;
134 * ####################################
136 * ####################################
139 static void ptm_setup(struct net_device
*dev
, int ndev
)
141 netif_carrier_off(dev
);
143 dev
->netdev_ops
= &g_ptm_netdev_ops
;
144 netif_napi_add(dev
, &g_ptm_priv_data
.itf
[ndev
].napi
, ptm_napi_poll
, 16);
145 dev
->watchdog_timeo
= ETH_WATCHDOG_TIMEOUT
;
147 dev
->dev_addr
[0] = 0x00;
148 dev
->dev_addr
[1] = 0x20;
149 dev
->dev_addr
[2] = 0xda;
150 dev
->dev_addr
[3] = 0x86;
151 dev
->dev_addr
[4] = 0x23;
152 dev
->dev_addr
[5] = 0x75 + ndev
;
155 static struct net_device_stats
*ptm_get_stats(struct net_device
*dev
)
157 struct net_device_stats
*s
;
159 if ( dev
!= g_net_dev
[0] )
161 s
= &g_ptm_priv_data
.itf
[0].stats
;
166 static int ptm_open(struct net_device
*dev
)
168 ASSERT(dev
== g_net_dev
[0], "incorrect device");
170 napi_enable(&g_ptm_priv_data
.itf
[0].napi
);
172 IFX_REG_W32_MASK(0, 1, MBOX_IGU1_IER
);
174 netif_start_queue(dev
);
179 static int ptm_stop(struct net_device
*dev
)
181 ASSERT(dev
== g_net_dev
[0], "incorrect device");
183 IFX_REG_W32_MASK(1 | (1 << 17), 0, MBOX_IGU1_IER
);
185 napi_disable(&g_ptm_priv_data
.itf
[0].napi
);
187 netif_stop_queue(dev
);
192 static unsigned int ptm_poll(int ndev
, unsigned int work_to_do
)
194 unsigned int work_done
= 0;
195 volatile struct rx_descriptor
*desc
;
196 struct rx_descriptor reg_desc
;
197 struct sk_buff
*skb
, *new_skb
;
199 ASSERT(ndev
>= 0 && ndev
< ARRAY_SIZE(g_net_dev
), "ndev = %d (wrong value)", ndev
);
201 while ( work_done
< work_to_do
) {
202 desc
= &WAN_RX_DESC_BASE
[g_ptm_priv_data
.itf
[0].rx_desc_pos
];
203 if ( desc
->own
/* || !desc->c */ ) // if PP32 hold descriptor or descriptor not completed
205 if ( ++g_ptm_priv_data
.itf
[0].rx_desc_pos
== WAN_RX_DESC_NUM
)
206 g_ptm_priv_data
.itf
[0].rx_desc_pos
= 0;
209 skb
= get_skb_pointer(reg_desc
.dataptr
);
210 ASSERT(skb
!= NULL
, "invalid pointer skb == NULL");
212 new_skb
= alloc_skb_rx();
213 if ( new_skb
!= NULL
) {
214 skb_reserve(skb
, reg_desc
.byteoff
);
215 skb_put(skb
, reg_desc
.datalen
);
217 // parse protocol header
218 skb
->dev
= g_net_dev
[0];
219 skb
->protocol
= eth_type_trans(skb
, skb
->dev
);
221 g_net_dev
[0]->last_rx
= jiffies
;
223 netif_receive_skb(skb
);
225 g_ptm_priv_data
.itf
[0].stats
.rx_packets
++;
226 g_ptm_priv_data
.itf
[0].stats
.rx_bytes
+= reg_desc
.datalen
;
228 reg_desc
.dataptr
= (unsigned int)new_skb
->data
& 0x0FFFFFFF;
229 reg_desc
.byteoff
= RX_HEAD_MAC_ADDR_ALIGNMENT
;
232 reg_desc
.datalen
= RX_MAX_BUFFER_SIZE
- RX_HEAD_MAC_ADDR_ALIGNMENT
;
236 /* write discriptor to memory */
237 *((volatile unsigned int *)desc
+ 1) = *((unsigned int *)®_desc
+ 1);
239 *(volatile unsigned int *)desc
= *(unsigned int *)®_desc
;
247 static int ptm_napi_poll(struct napi_struct
*napi
, int budget
)
250 unsigned int work_done
;
252 work_done
= ptm_poll(ndev
, budget
);
255 if ( !netif_running(napi
->dev
) ) {
261 IFX_REG_W32_MASK(0, 1, MBOX_IGU1_ISRC
);
263 if (work_done
< budget
) {
265 IFX_REG_W32_MASK(0, 1, MBOX_IGU1_IER
);
273 static int ptm_hard_start_xmit(struct sk_buff
*skb
, struct net_device
*dev
)
277 volatile struct tx_descriptor
*desc
;
278 struct tx_descriptor reg_desc
= {0};
279 struct sk_buff
*skb_to_free
;
280 unsigned int byteoff
;
282 ASSERT(dev
== g_net_dev
[0], "incorrect device");
285 err("not in showtime");
286 goto PTM_HARD_START_XMIT_FAIL
;
289 /* allocate descriptor */
290 desc_base
= get_tx_desc(0, &f_full
);
292 #if LINUX_VERSION_CODE >= KERNEL_VERSION(4,7,0)
293 netif_trans_update(dev
);
295 dev
->trans_start
= jiffies
;
297 netif_stop_queue(dev
);
299 IFX_REG_W32_MASK(0, 1 << 17, MBOX_IGU1_ISRC
);
300 IFX_REG_W32_MASK(0, 1 << 17, MBOX_IGU1_IER
);
303 goto PTM_HARD_START_XMIT_FAIL
;
304 desc
= &CPU_TO_WAN_TX_DESC_BASE
[desc_base
];
306 byteoff
= (unsigned int)skb
->data
& (DATA_BUFFER_ALIGNMENT
- 1);
307 if ( skb_headroom(skb
) < sizeof(struct sk_buff
*) + byteoff
|| skb_cloned(skb
) ) {
308 struct sk_buff
*new_skb
;
310 ASSERT(skb_headroom(skb
) >= sizeof(struct sk_buff
*) + byteoff
, "skb_headroom(skb) < sizeof(struct sk_buff *) + byteoff");
311 ASSERT(!skb_cloned(skb
), "skb is cloned");
313 new_skb
= alloc_skb_tx(skb
->len
);
314 if ( new_skb
== NULL
) {
316 goto ALLOC_SKB_TX_FAIL
;
318 skb_put(new_skb
, skb
->len
);
319 memcpy(new_skb
->data
, skb
->data
, skb
->len
);
320 dev_kfree_skb_any(skb
);
322 byteoff
= (unsigned int)skb
->data
& (DATA_BUFFER_ALIGNMENT
- 1);
323 /* write back to physical memory */
324 dma_cache_wback((unsigned long)skb
->data
, skb
->len
);
327 *(struct sk_buff
**)((unsigned int)skb
->data
- byteoff
- sizeof(struct sk_buff
*)) = skb
;
328 /* write back to physical memory */
329 dma_cache_wback((unsigned long)skb
->data
- byteoff
- sizeof(struct sk_buff
*), skb
->len
+ byteoff
+ sizeof(struct sk_buff
*));
331 /* free previous skb */
332 skb_to_free
= get_skb_pointer(desc
->dataptr
);
333 if ( skb_to_free
!= NULL
)
334 dev_kfree_skb_any(skb_to_free
);
336 /* update descriptor */
338 reg_desc
.dataptr
= (unsigned int)skb
->data
& (0x0FFFFFFF ^ (DATA_BUFFER_ALIGNMENT
- 1));
339 reg_desc
.datalen
= skb
->len
< ETH_ZLEN
? ETH_ZLEN
: skb
->len
;
340 reg_desc
.qid
= g_ptm_prio_queue_map
[skb
->priority
> 7 ? 7 : skb
->priority
];
341 reg_desc
.byteoff
= byteoff
;
344 reg_desc
.sop
= reg_desc
.eop
= 1;
347 g_ptm_priv_data
.itf
[0].stats
.tx_packets
++;
348 g_ptm_priv_data
.itf
[0].stats
.tx_bytes
+= reg_desc
.datalen
;
350 /* write discriptor to memory */
351 *((volatile unsigned int *)desc
+ 1) = *((unsigned int *)®_desc
+ 1);
353 *(volatile unsigned int *)desc
= *(unsigned int *)®_desc
;
355 #if LINUX_VERSION_CODE >= KERNEL_VERSION(4,7,0)
356 netif_trans_update(dev
);
358 dev
->trans_start
= jiffies
;
364 PTM_HARD_START_XMIT_FAIL
:
365 dev_kfree_skb_any(skb
);
366 g_ptm_priv_data
.itf
[0].stats
.tx_dropped
++;
370 static int ptm_change_mtu(struct net_device
*dev
, int mtu
)
372 /* Allow up to 1508 bytes, for RFC4638 */
373 if (mtu
< 68 || mtu
> ETH_DATA_LEN
+ 8)
379 static int ptm_ioctl(struct net_device
*dev
, struct ifreq
*ifr
, int cmd
)
381 ASSERT(dev
== g_net_dev
[0], "incorrect device");
385 case IFX_PTM_MIB_CW_GET
:
386 ((PTM_CW_IF_ENTRY_T
*)ifr
->ifr_data
)->ifRxNoIdleCodewords
= IFX_REG_R32(DREG_AR_CELL0
) + IFX_REG_R32(DREG_AR_CELL1
);
387 ((PTM_CW_IF_ENTRY_T
*)ifr
->ifr_data
)->ifRxIdleCodewords
= IFX_REG_R32(DREG_AR_IDLE_CNT0
) + IFX_REG_R32(DREG_AR_IDLE_CNT1
);
388 ((PTM_CW_IF_ENTRY_T
*)ifr
->ifr_data
)->ifRxCodingViolation
= IFX_REG_R32(DREG_AR_CVN_CNT0
) + IFX_REG_R32(DREG_AR_CVN_CNT1
) + IFX_REG_R32(DREG_AR_CVNP_CNT0
) + IFX_REG_R32(DREG_AR_CVNP_CNT1
);
389 ((PTM_CW_IF_ENTRY_T
*)ifr
->ifr_data
)->ifTxNoIdleCodewords
= IFX_REG_R32(DREG_AT_CELL0
) + IFX_REG_R32(DREG_AT_CELL1
);
390 ((PTM_CW_IF_ENTRY_T
*)ifr
->ifr_data
)->ifTxIdleCodewords
= IFX_REG_R32(DREG_AT_IDLE_CNT0
) + IFX_REG_R32(DREG_AT_IDLE_CNT1
);
392 case IFX_PTM_MIB_FRAME_GET
:
394 PTM_FRAME_MIB_T data
= {0};
397 data
.RxCorrect
= IFX_REG_R32(DREG_AR_HEC_CNT0
) + IFX_REG_R32(DREG_AR_HEC_CNT1
) + IFX_REG_R32(DREG_AR_AIIDLE_CNT0
) + IFX_REG_R32(DREG_AR_AIIDLE_CNT1
);
398 for ( i
= 0; i
< 4; i
++ )
399 data
.RxDropped
+= WAN_RX_MIB_TABLE(i
)->wrx_dropdes_pdu
;
400 for ( i
= 0; i
< 8; i
++ )
401 data
.TxSend
+= WAN_TX_MIB_TABLE(i
)->wtx_total_pdu
;
403 *((PTM_FRAME_MIB_T
*)ifr
->ifr_data
) = data
;
406 case IFX_PTM_CFG_GET
:
407 // use bear channel 0 preemption gamma interface settings
408 ((IFX_PTM_CFG_T
*)ifr
->ifr_data
)->RxEthCrcPresent
= 1;
409 ((IFX_PTM_CFG_T
*)ifr
->ifr_data
)->RxEthCrcCheck
= RX_GAMMA_ITF_CFG(0)->rx_eth_fcs_ver_dis
== 0 ? 1 : 0;
410 ((IFX_PTM_CFG_T
*)ifr
->ifr_data
)->RxTcCrcCheck
= RX_GAMMA_ITF_CFG(0)->rx_tc_crc_ver_dis
== 0 ? 1 : 0;;
411 ((IFX_PTM_CFG_T
*)ifr
->ifr_data
)->RxTcCrcLen
= RX_GAMMA_ITF_CFG(0)->rx_tc_crc_size
== 0 ? 0 : (RX_GAMMA_ITF_CFG(0)->rx_tc_crc_size
* 16);
412 ((IFX_PTM_CFG_T
*)ifr
->ifr_data
)->TxEthCrcGen
= TX_GAMMA_ITF_CFG(0)->tx_eth_fcs_gen_dis
== 0 ? 1 : 0;
413 ((IFX_PTM_CFG_T
*)ifr
->ifr_data
)->TxTcCrcGen
= TX_GAMMA_ITF_CFG(0)->tx_tc_crc_size
== 0 ? 0 : 1;
414 ((IFX_PTM_CFG_T
*)ifr
->ifr_data
)->TxTcCrcLen
= TX_GAMMA_ITF_CFG(0)->tx_tc_crc_size
== 0 ? 0 : (TX_GAMMA_ITF_CFG(0)->tx_tc_crc_size
* 16);
416 case IFX_PTM_CFG_SET
:
420 for ( i
= 0; i
< 4; i
++ ) {
421 RX_GAMMA_ITF_CFG(i
)->rx_eth_fcs_ver_dis
= ((IFX_PTM_CFG_T
*)ifr
->ifr_data
)->RxEthCrcCheck
? 0 : 1;
423 RX_GAMMA_ITF_CFG(0)->rx_tc_crc_ver_dis
= ((IFX_PTM_CFG_T
*)ifr
->ifr_data
)->RxTcCrcCheck
? 0 : 1;
425 switch ( ((IFX_PTM_CFG_T
*)ifr
->ifr_data
)->RxTcCrcLen
) {
426 case 16: RX_GAMMA_ITF_CFG(0)->rx_tc_crc_size
= 1; break;
427 case 32: RX_GAMMA_ITF_CFG(0)->rx_tc_crc_size
= 2; break;
428 default: RX_GAMMA_ITF_CFG(0)->rx_tc_crc_size
= 0;
431 TX_GAMMA_ITF_CFG(0)->tx_eth_fcs_gen_dis
= ((IFX_PTM_CFG_T
*)ifr
->ifr_data
)->TxEthCrcGen
? 0 : 1;
433 if ( ((IFX_PTM_CFG_T
*)ifr
->ifr_data
)->TxTcCrcGen
) {
434 switch ( ((IFX_PTM_CFG_T
*)ifr
->ifr_data
)->TxTcCrcLen
) {
435 case 16: TX_GAMMA_ITF_CFG(0)->tx_tc_crc_size
= 1; break;
436 case 32: TX_GAMMA_ITF_CFG(0)->tx_tc_crc_size
= 2; break;
437 default: TX_GAMMA_ITF_CFG(0)->tx_tc_crc_size
= 0;
441 TX_GAMMA_ITF_CFG(0)->tx_tc_crc_size
= 0;
445 case IFX_PTM_MAP_PKT_PRIO_TO_Q
:
447 struct ppe_prio_q_map cmd
;
449 if ( copy_from_user(&cmd
, ifr
->ifr_data
, sizeof(cmd
)) )
452 if ( cmd
.pkt_prio
< 0 || cmd
.pkt_prio
>= ARRAY_SIZE(g_ptm_prio_queue_map
) )
455 if ( cmd
.qid
< 0 || cmd
.qid
>= g_wanqos_en
)
458 g_ptm_prio_queue_map
[cmd
.pkt_prio
] = cmd
.qid
;
468 static void ptm_tx_timeout(struct net_device
*dev
)
470 ASSERT(dev
== g_net_dev
[0], "incorrect device");
472 /* disable TX irq, release skb when sending new packet */
473 IFX_REG_W32_MASK(1 << 17, 0, MBOX_IGU1_IER
);
475 /* wake up TX queue */
476 netif_wake_queue(dev
);
481 static inline struct sk_buff
* alloc_skb_rx(void)
485 /* allocate memroy including trailer and padding */
486 skb
= dev_alloc_skb(RX_MAX_BUFFER_SIZE
+ DATA_BUFFER_ALIGNMENT
);
488 /* must be burst length alignment and reserve two more bytes for MAC address alignment */
489 if ( ((unsigned int)skb
->data
& (DATA_BUFFER_ALIGNMENT
- 1)) != 0 )
490 skb_reserve(skb
, ~((unsigned int)skb
->data
+ (DATA_BUFFER_ALIGNMENT
- 1)) & (DATA_BUFFER_ALIGNMENT
- 1));
491 /* pub skb in reserved area "skb->data - 4" */
492 *((struct sk_buff
**)skb
->data
- 1) = skb
;
494 /* write back and invalidate cache */
495 dma_cache_wback_inv((unsigned long)skb
->data
- sizeof(skb
), sizeof(skb
));
496 /* invalidate cache */
497 dma_cache_inv((unsigned long)skb
->data
, (unsigned int)skb
->end
- (unsigned int)skb
->data
);
503 static inline struct sk_buff
* alloc_skb_tx(unsigned int size
)
507 /* allocate memory including padding */
508 size
= RX_MAX_BUFFER_SIZE
;
509 size
= (size
+ DATA_BUFFER_ALIGNMENT
- 1) & ~(DATA_BUFFER_ALIGNMENT
- 1);
510 skb
= dev_alloc_skb(size
+ DATA_BUFFER_ALIGNMENT
);
511 /* must be burst length alignment */
513 skb_reserve(skb
, ~((unsigned int)skb
->data
+ (DATA_BUFFER_ALIGNMENT
- 1)) & (DATA_BUFFER_ALIGNMENT
- 1));
517 static inline struct sk_buff
*get_skb_pointer(unsigned int dataptr
)
519 unsigned int skb_dataptr
;
522 // usually, CPE memory is less than 256M bytes
523 // so NULL means invalid pointer
524 if ( dataptr
== 0 ) {
525 dbg("dataptr is 0, it's supposed to be invalid pointer");
529 skb_dataptr
= (dataptr
- 4) | KSEG1
;
530 skb
= *(struct sk_buff
**)skb_dataptr
;
532 ASSERT((unsigned int)skb
>= KSEG0
, "invalid skb - skb = %#08x, dataptr = %#08x", (unsigned int)skb
, dataptr
);
533 ASSERT((((unsigned int)skb
->data
& (0x0FFFFFFF ^ (DATA_BUFFER_ALIGNMENT
- 1))) | KSEG1
) == (dataptr
| KSEG1
), "invalid skb - skb = %#08x, skb->data = %#08x, dataptr = %#08x", (unsigned int)skb
, (unsigned int)skb
->data
, dataptr
);
538 static inline int get_tx_desc(unsigned int itf
, unsigned int *f_full
)
541 struct ptm_itf
*p_itf
= &g_ptm_priv_data
.itf
[0];
543 // assume TX is serial operation
544 // no protection provided
548 if ( CPU_TO_WAN_TX_DESC_BASE
[p_itf
->tx_desc_pos
].own
== 0 ) {
549 desc_base
= p_itf
->tx_desc_pos
;
550 if ( ++(p_itf
->tx_desc_pos
) == CPU_TO_WAN_TX_DESC_NUM
)
551 p_itf
->tx_desc_pos
= 0;
552 if ( CPU_TO_WAN_TX_DESC_BASE
[p_itf
->tx_desc_pos
].own
== 0 )
559 static irqreturn_t
mailbox_irq_handler(int irq
, void *dev_id
)
564 isr
= IFX_REG_R32(MBOX_IGU1_ISR
);
565 IFX_REG_W32(isr
, MBOX_IGU1_ISRC
);
566 isr
&= IFX_REG_R32(MBOX_IGU1_IER
);
569 IFX_REG_W32_MASK(1, 0, MBOX_IGU1_IER
);
570 napi_schedule(&g_ptm_priv_data
.itf
[0].napi
);
571 #if defined(ENABLE_TMP_DBG) && ENABLE_TMP_DBG
573 volatile struct rx_descriptor
*desc
= &WAN_RX_DESC_BASE
[g_ptm_priv_data
.itf
[0].rx_desc_pos
];
575 if ( desc
->own
) { // PP32 hold
576 err("invalid interrupt");
582 IFX_REG_W32_MASK(1 << 16, 0, MBOX_IGU1_IER
);
583 tasklet_hi_schedule(&g_swap_desc_tasklet
);
586 IFX_REG_W32_MASK(1 << 17, 0, MBOX_IGU1_IER
);
587 netif_wake_queue(g_net_dev
[0]);
593 static void do_swap_desc_tasklet(unsigned long arg
)
596 volatile struct tx_descriptor
*desc
;
598 unsigned int byteoff
;
600 while ( budget
-- > 0 ) {
601 if ( WAN_SWAP_DESC_BASE
[g_ptm_priv_data
.itf
[0].tx_swap_desc_pos
].own
) // if PP32 hold descriptor
604 desc
= &WAN_SWAP_DESC_BASE
[g_ptm_priv_data
.itf
[0].tx_swap_desc_pos
];
605 if ( ++g_ptm_priv_data
.itf
[0].tx_swap_desc_pos
== WAN_SWAP_DESC_NUM
)
606 g_ptm_priv_data
.itf
[0].tx_swap_desc_pos
= 0;
608 skb
= get_skb_pointer(desc
->dataptr
);
610 dev_kfree_skb_any(skb
);
612 skb
= alloc_skb_tx(RX_MAX_BUFFER_SIZE
);
614 panic("can't allocate swap buffer for PPE firmware use\n");
615 byteoff
= (unsigned int)skb
->data
& (DATA_BUFFER_ALIGNMENT
- 1);
616 *(struct sk_buff
**)((unsigned int)skb
->data
- byteoff
- sizeof(struct sk_buff
*)) = skb
;
618 desc
->dataptr
= (unsigned int)skb
->data
& 0x0FFFFFFF;
623 IFX_REG_W32_MASK(0, 16, MBOX_IGU1_ISRC
);
624 // no more skb to be replaced
625 if ( WAN_SWAP_DESC_BASE
[g_ptm_priv_data
.itf
[0].tx_swap_desc_pos
].own
) { // if PP32 hold descriptor
626 IFX_REG_W32_MASK(0, 1 << 16, MBOX_IGU1_IER
);
630 tasklet_hi_schedule(&g_swap_desc_tasklet
);
635 static inline int ifx_ptm_version(char *buf
)
638 unsigned int major
, minor
;
640 ifx_ptm_get_fw_ver(&major
, &minor
);
642 len
+= sprintf(buf
+ len
, "PTM %d.%d.%d", IFX_PTM_VER_MAJOR
, IFX_PTM_VER_MID
, IFX_PTM_VER_MINOR
);
643 len
+= sprintf(buf
+ len
, " PTM (E1) firmware version %d.%d\n", major
, minor
);
648 static inline int init_priv_data(void)
652 g_wanqos_en
= wanqos_en
? wanqos_en
: 8;
653 if ( g_wanqos_en
> 8 )
656 for ( i
= 0; i
< ARRAY_SIZE(g_queue_gamma_map
); i
++ )
658 g_queue_gamma_map
[i
] = queue_gamma_map
[i
] & ((1 << g_wanqos_en
) - 1);
659 for ( j
= 0; j
< i
; j
++ )
660 g_queue_gamma_map
[i
] &= ~g_queue_gamma_map
[j
];
663 memset(&g_ptm_priv_data
, 0, sizeof(g_ptm_priv_data
));
666 int max_packet_priority
= ARRAY_SIZE(g_ptm_prio_queue_map
);
668 int q_step
, q_accum
, p_step
;
670 tx_num_q
= __ETH_WAN_TX_QUEUE_NUM
;
671 q_step
= tx_num_q
- 1;
672 p_step
= max_packet_priority
- 1;
673 for ( j
= 0, q_accum
= 0; j
< max_packet_priority
; j
++, q_accum
+= q_step
)
674 g_ptm_prio_queue_map
[j
] = q_step
- (q_accum
+ (p_step
>> 1)) / p_step
;
680 static inline void clear_priv_data(void)
684 static inline int init_tables(void)
686 struct sk_buff
*skb_pool
[WAN_RX_DESC_NUM
] = {0};
687 struct cfg_std_data_len cfg_std_data_len
= {0};
688 struct tx_qos_cfg tx_qos_cfg
= {0};
689 struct psave_cfg psave_cfg
= {0};
690 struct eg_bwctrl_cfg eg_bwctrl_cfg
= {0};
691 struct test_mode test_mode
= {0};
692 struct rx_bc_cfg rx_bc_cfg
= {0};
693 struct tx_bc_cfg tx_bc_cfg
= {0};
694 struct gpio_mode gpio_mode
= {0};
695 struct gpio_wm_cfg gpio_wm_cfg
= {0};
696 struct rx_gamma_itf_cfg rx_gamma_itf_cfg
= {0};
697 struct tx_gamma_itf_cfg tx_gamma_itf_cfg
= {0};
698 struct wtx_qos_q_desc_cfg wtx_qos_q_desc_cfg
= {0};
699 struct rx_descriptor rx_desc
= {0};
700 struct tx_descriptor tx_desc
= {0};
703 for ( i
= 0; i
< WAN_RX_DESC_NUM
; i
++ ) {
704 skb_pool
[i
] = alloc_skb_rx();
705 if ( skb_pool
[i
] == NULL
)
706 goto ALLOC_SKB_RX_FAIL
;
709 cfg_std_data_len
.byte_off
= RX_HEAD_MAC_ADDR_ALIGNMENT
; // this field replaces byte_off in rx descriptor of VDSL ingress
710 cfg_std_data_len
.data_len
= 1600;
711 *CFG_STD_DATA_LEN
= cfg_std_data_len
;
713 tx_qos_cfg
.time_tick
= cgu_get_pp32_clock() / 62500; // 16 * (cgu_get_pp32_clock() / 1000000)
714 tx_qos_cfg
.overhd_bytes
= 0;
715 tx_qos_cfg
.eth1_eg_qnum
= __ETH_WAN_TX_QUEUE_NUM
;
716 tx_qos_cfg
.eth1_burst_chk
= 1;
717 tx_qos_cfg
.eth1_qss
= 0;
718 tx_qos_cfg
.shape_en
= 0; // disable
719 tx_qos_cfg
.wfq_en
= 0; // strict priority
720 *TX_QOS_CFG
= tx_qos_cfg
;
722 psave_cfg
.start_state
= 0;
723 psave_cfg
.sleep_en
= 1; // enable sleep mode
724 *PSAVE_CFG
= psave_cfg
;
726 eg_bwctrl_cfg
.fdesc_wm
= 16;
727 eg_bwctrl_cfg
.class_len
= 128;
728 *EG_BWCTRL_CFG
= eg_bwctrl_cfg
;
730 //*GPIO_ADDR = (unsigned int)IFX_GPIO_P0_OUT;
731 *GPIO_ADDR
= (unsigned int)0x00000000; // disabled by default
733 gpio_mode
.gpio_bit_bc1
= 2;
734 gpio_mode
.gpio_bit_bc0
= 1;
735 gpio_mode
.gpio_bc1_en
= 0;
736 gpio_mode
.gpio_bc0_en
= 0;
737 *GPIO_MODE
= gpio_mode
;
739 gpio_wm_cfg
.stop_wm_bc1
= 2;
740 gpio_wm_cfg
.start_wm_bc1
= 4;
741 gpio_wm_cfg
.stop_wm_bc0
= 2;
742 gpio_wm_cfg
.start_wm_bc0
= 4;
743 *GPIO_WM_CFG
= gpio_wm_cfg
;
745 test_mode
.mib_clear_mode
= 0;
746 test_mode
.test_mode
= 0;
747 *TEST_MODE
= test_mode
;
749 rx_bc_cfg
.local_state
= 0;
750 rx_bc_cfg
.remote_state
= 0;
751 rx_bc_cfg
.to_false_th
= 7;
752 rx_bc_cfg
.to_looking_th
= 3;
753 *RX_BC_CFG(0) = rx_bc_cfg
;
754 *RX_BC_CFG(1) = rx_bc_cfg
;
756 tx_bc_cfg
.fill_wm
= 2;
757 tx_bc_cfg
.uflw_wm
= 2;
758 *TX_BC_CFG(0) = tx_bc_cfg
;
759 *TX_BC_CFG(1) = tx_bc_cfg
;
761 rx_gamma_itf_cfg
.receive_state
= 0;
762 rx_gamma_itf_cfg
.rx_min_len
= 60;
763 rx_gamma_itf_cfg
.rx_pad_en
= 1;
764 rx_gamma_itf_cfg
.rx_eth_fcs_ver_dis
= 0;
765 rx_gamma_itf_cfg
.rx_rm_eth_fcs
= 1;
766 rx_gamma_itf_cfg
.rx_tc_crc_ver_dis
= 0;
767 rx_gamma_itf_cfg
.rx_tc_crc_size
= 1;
768 rx_gamma_itf_cfg
.rx_eth_fcs_result
= 0xC704DD7B;
769 rx_gamma_itf_cfg
.rx_tc_crc_result
= 0x1D0F1D0F;
770 rx_gamma_itf_cfg
.rx_crc_cfg
= 0x2500;
771 rx_gamma_itf_cfg
.rx_eth_fcs_init_value
= 0xFFFFFFFF;
772 rx_gamma_itf_cfg
.rx_tc_crc_init_value
= 0x0000FFFF;
773 rx_gamma_itf_cfg
.rx_max_len_sel
= 0;
774 rx_gamma_itf_cfg
.rx_edit_num2
= 0;
775 rx_gamma_itf_cfg
.rx_edit_pos2
= 0;
776 rx_gamma_itf_cfg
.rx_edit_type2
= 0;
777 rx_gamma_itf_cfg
.rx_edit_en2
= 0;
778 rx_gamma_itf_cfg
.rx_edit_num1
= 0;
779 rx_gamma_itf_cfg
.rx_edit_pos1
= 0;
780 rx_gamma_itf_cfg
.rx_edit_type1
= 0;
781 rx_gamma_itf_cfg
.rx_edit_en1
= 0;
782 rx_gamma_itf_cfg
.rx_inserted_bytes_1l
= 0;
783 rx_gamma_itf_cfg
.rx_inserted_bytes_1h
= 0;
784 rx_gamma_itf_cfg
.rx_inserted_bytes_2l
= 0;
785 rx_gamma_itf_cfg
.rx_inserted_bytes_2h
= 0;
786 rx_gamma_itf_cfg
.rx_len_adj
= -6;
787 for ( i
= 0; i
< 4; i
++ )
788 *RX_GAMMA_ITF_CFG(i
) = rx_gamma_itf_cfg
;
790 tx_gamma_itf_cfg
.tx_len_adj
= 6;
791 tx_gamma_itf_cfg
.tx_crc_off_adj
= 6;
792 tx_gamma_itf_cfg
.tx_min_len
= 0;
793 tx_gamma_itf_cfg
.tx_eth_fcs_gen_dis
= 0;
794 tx_gamma_itf_cfg
.tx_tc_crc_size
= 1;
795 tx_gamma_itf_cfg
.tx_crc_cfg
= 0x2F00;
796 tx_gamma_itf_cfg
.tx_eth_fcs_init_value
= 0xFFFFFFFF;
797 tx_gamma_itf_cfg
.tx_tc_crc_init_value
= 0x0000FFFF;
798 for ( i
= 0; i
< ARRAY_SIZE(g_queue_gamma_map
); i
++ ) {
799 tx_gamma_itf_cfg
.queue_mapping
= g_queue_gamma_map
[i
];
800 *TX_GAMMA_ITF_CFG(i
) = tx_gamma_itf_cfg
;
803 for ( i
= 0; i
< __ETH_WAN_TX_QUEUE_NUM
; i
++ ) {
804 wtx_qos_q_desc_cfg
.length
= WAN_TX_DESC_NUM
;
805 wtx_qos_q_desc_cfg
.addr
= __ETH_WAN_TX_DESC_BASE(i
);
806 *WTX_QOS_Q_DESC_CFG(i
) = wtx_qos_q_desc_cfg
;
809 // default TX queue QoS config is all ZERO
812 IFX_REG_W32(0x90111293, TX_CTRL_K_TABLE(0));
813 IFX_REG_W32(0x14959617, TX_CTRL_K_TABLE(1));
814 IFX_REG_W32(0x18999A1B, TX_CTRL_K_TABLE(2));
815 IFX_REG_W32(0x9C1D1E9F, TX_CTRL_K_TABLE(3));
816 IFX_REG_W32(0xA02122A3, TX_CTRL_K_TABLE(4));
817 IFX_REG_W32(0x24A5A627, TX_CTRL_K_TABLE(5));
818 IFX_REG_W32(0x28A9AA2B, TX_CTRL_K_TABLE(6));
819 IFX_REG_W32(0xAC2D2EAF, TX_CTRL_K_TABLE(7));
820 IFX_REG_W32(0x30B1B233, TX_CTRL_K_TABLE(8));
821 IFX_REG_W32(0xB43536B7, TX_CTRL_K_TABLE(9));
822 IFX_REG_W32(0xB8393ABB, TX_CTRL_K_TABLE(10));
823 IFX_REG_W32(0x3CBDBE3F, TX_CTRL_K_TABLE(11));
824 IFX_REG_W32(0xC04142C3, TX_CTRL_K_TABLE(12));
825 IFX_REG_W32(0x44C5C647, TX_CTRL_K_TABLE(13));
826 IFX_REG_W32(0x48C9CA4B, TX_CTRL_K_TABLE(14));
827 IFX_REG_W32(0xCC4D4ECF, TX_CTRL_K_TABLE(15));
829 // init RX descriptor
834 rx_desc
.byteoff
= RX_HEAD_MAC_ADDR_ALIGNMENT
;
835 rx_desc
.datalen
= RX_MAX_BUFFER_SIZE
- RX_HEAD_MAC_ADDR_ALIGNMENT
;
836 for ( i
= 0; i
< WAN_RX_DESC_NUM
; i
++ ) {
837 rx_desc
.dataptr
= (unsigned int)skb_pool
[i
]->data
& 0x0FFFFFFF;
838 WAN_RX_DESC_BASE
[i
] = rx_desc
;
841 // init TX descriptor
851 for ( i
= 0; i
< CPU_TO_WAN_TX_DESC_NUM
; i
++ )
852 CPU_TO_WAN_TX_DESC_BASE
[i
] = tx_desc
;
853 for ( i
= 0; i
< WAN_TX_DESC_NUM_TOTAL
; i
++ )
854 WAN_TX_DESC_BASE(0)[i
] = tx_desc
;
856 // init Swap descriptor
857 for ( i
= 0; i
< WAN_SWAP_DESC_NUM
; i
++ )
858 WAN_SWAP_DESC_BASE
[i
] = tx_desc
;
860 // init fastpath TX descriptor
862 for ( i
= 0; i
< FASTPATH_TO_WAN_TX_DESC_NUM
; i
++ )
863 FASTPATH_TO_WAN_TX_DESC_BASE
[i
] = tx_desc
;
869 dev_kfree_skb_any(skb_pool
[i
]);
873 static inline void clear_tables(void)
878 for ( i
= 0; i
< WAN_RX_DESC_NUM
; i
++ ) {
879 skb
= get_skb_pointer(WAN_RX_DESC_BASE
[i
].dataptr
);
881 dev_kfree_skb_any(skb
);
884 for ( i
= 0; i
< CPU_TO_WAN_TX_DESC_NUM
; i
++ ) {
885 skb
= get_skb_pointer(CPU_TO_WAN_TX_DESC_BASE
[i
].dataptr
);
887 dev_kfree_skb_any(skb
);
890 for ( j
= 0; j
< 8; j
++ )
891 for ( i
= 0; i
< WAN_TX_DESC_NUM
; i
++ ) {
892 skb
= get_skb_pointer(WAN_TX_DESC_BASE(j
)[i
].dataptr
);
894 dev_kfree_skb_any(skb
);
897 for ( i
= 0; i
< WAN_SWAP_DESC_NUM
; i
++ ) {
898 skb
= get_skb_pointer(WAN_SWAP_DESC_BASE
[i
].dataptr
);
900 dev_kfree_skb_any(skb
);
903 for ( i
= 0; i
< FASTPATH_TO_WAN_TX_DESC_NUM
; i
++ ) {
904 skb
= get_skb_pointer(FASTPATH_TO_WAN_TX_DESC_BASE
[i
].dataptr
);
906 dev_kfree_skb_any(skb
);
910 static int ptm_showtime_enter(struct port_cell_info
*port_cell
, void *xdata_addr
)
914 ASSERT(port_cell
!= NULL
, "port_cell is NULL");
915 ASSERT(xdata_addr
!= NULL
, "xdata_addr is NULL");
917 // TODO: ReTX set xdata_addr
918 g_xdata_addr
= xdata_addr
;
922 for ( i
= 0; i
< ARRAY_SIZE(g_net_dev
); i
++ )
923 netif_carrier_on(g_net_dev
[i
]);
925 IFX_REG_W32(0x0F, UTP_CFG
);
928 // IFX_REG_W32_MASK(1 << 17, 0, FFSM_CFG0);
931 printk("enter showtime\n");
936 static int ptm_showtime_exit(void)
944 // IFX_REG_W32_MASK(0, 1 << 17, FFSM_CFG0);
947 IFX_REG_W32(0x00, UTP_CFG
);
949 for ( i
= 0; i
< ARRAY_SIZE(g_net_dev
); i
++ )
950 netif_carrier_off(g_net_dev
[i
]);
954 // TODO: ReTX clean state
957 printk("leave showtime\n");
964 static int ifx_ptm_init(void)
969 struct port_cell_info port_cell
= {0};
971 ret
= init_priv_data();
973 err("INIT_PRIV_DATA_FAIL");
974 goto INIT_PRIV_DATA_FAIL
;
980 err("INIT_TABLES_FAIL");
981 goto INIT_TABLES_FAIL
;
984 for ( i
= 0; i
< ARRAY_SIZE(g_net_dev
); i
++ ) {
985 g_net_dev
[i
] = alloc_netdev(0, g_net_dev_name
[i
], NET_NAME_UNKNOWN
, ether_setup
);
986 if ( g_net_dev
[i
] == NULL
)
987 goto ALLOC_NETDEV_FAIL
;
988 ptm_setup(g_net_dev
[i
], i
);
991 for ( i
= 0; i
< ARRAY_SIZE(g_net_dev
); i
++ ) {
992 ret
= register_netdev(g_net_dev
[i
]);
994 goto REGISTER_NETDEV_FAIL
;
997 /* register interrupt handler */
998 #if LINUX_VERSION_CODE >= KERNEL_VERSION(4,1,0)
999 ret
= request_irq(PPE_MAILBOX_IGU1_INT
, mailbox_irq_handler
, 0, "ptm_mailbox_isr", &g_ptm_priv_data
);
1001 ret
= request_irq(PPE_MAILBOX_IGU1_INT
, mailbox_irq_handler
, IRQF_DISABLED
, "ptm_mailbox_isr", &g_ptm_priv_data
);
1004 if ( ret
== -EBUSY
) {
1005 err("IRQ may be occupied by other driver, please reconfig to disable it.");
1008 err("request_irq fail");
1010 goto REQUEST_IRQ_PPE_MAILBOX_IGU1_INT_FAIL
;
1012 disable_irq(PPE_MAILBOX_IGU1_INT
);
1014 ret
= ifx_pp32_start(0);
1016 err("ifx_pp32_start fail!");
1017 goto PP32_START_FAIL
;
1019 IFX_REG_W32(1 << 16, MBOX_IGU1_IER
); // enable SWAP interrupt
1020 IFX_REG_W32(~0, MBOX_IGU1_ISRC
);
1022 enable_irq(PPE_MAILBOX_IGU1_INT
);
1024 ifx_mei_atm_showtime_check(&g_showtime
, &port_cell
, &g_xdata_addr
);
1026 ptm_showtime_enter(&port_cell
, &g_xdata_addr
);
1029 ifx_mei_atm_showtime_enter
= ptm_showtime_enter
;
1030 ifx_mei_atm_showtime_exit
= ptm_showtime_exit
;
1032 ifx_ptm_version(ver_str
);
1033 printk(KERN_INFO
"%s", ver_str
);
1035 printk("ifxmips_ptm: PTM init succeed\n");
1040 free_irq(PPE_MAILBOX_IGU1_INT
, &g_ptm_priv_data
);
1041 REQUEST_IRQ_PPE_MAILBOX_IGU1_INT_FAIL
:
1042 i
= ARRAY_SIZE(g_net_dev
);
1043 REGISTER_NETDEV_FAIL
:
1045 unregister_netdev(g_net_dev
[i
]);
1046 i
= ARRAY_SIZE(g_net_dev
);
1049 free_netdev(g_net_dev
[i
]);
1050 g_net_dev
[i
] = NULL
;
1053 INIT_PRIV_DATA_FAIL
:
1055 printk("ifxmips_ptm: PTM init failed\n");
1059 static void __exit
ifx_ptm_exit(void)
1062 ifx_mei_atm_showtime_enter
= NULL
;
1063 ifx_mei_atm_showtime_exit
= NULL
;
1068 free_irq(PPE_MAILBOX_IGU1_INT
, &g_ptm_priv_data
);
1070 for ( i
= 0; i
< ARRAY_SIZE(g_net_dev
); i
++ )
1071 unregister_netdev(g_net_dev
[i
]);
1073 for ( i
= 0; i
< ARRAY_SIZE(g_net_dev
); i
++ ) {
1074 free_netdev(g_net_dev
[i
]);
1075 g_net_dev
[i
] = NULL
;
1080 ifx_ptm_uninit_chip();
1086 static int __init
wanqos_en_setup(char *line
)
1088 wanqos_en
= simple_strtoul(line
, NULL
, 0);
1090 if ( wanqos_en
< 1 || wanqos_en
> 8 )
1096 static int __init
queue_gamma_map_setup(char *line
)
1101 for ( i
= 0, p
= line
; i
< ARRAY_SIZE(queue_gamma_map
) && isxdigit(*p
); i
++ )
1103 queue_gamma_map
[i
] = simple_strtoul(p
, &p
, 0);
1104 if ( *p
== ',' || *p
== ';' || *p
== ':' )
1111 module_init(ifx_ptm_init
);
1112 module_exit(ifx_ptm_exit
);
1114 __setup("wanqos_en=", wanqos_en_setup
);
1115 __setup("queue_gamma_map=", queue_gamma_map_setup
);
1118 MODULE_LICENSE("GPL");