1 /******************************************************************************
3 ** FILE NAME : ifxmips_atm_core.c
9 ** DESCRIPTION : ATM driver common source file (core functions)
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 *******************************************************************************/
27 * ####################################
29 * ####################################
32 #define IFX_ATM_VER_MAJOR 1
33 #define IFX_ATM_VER_MID 0
34 #define IFX_ATM_VER_MINOR 19
39 * ####################################
41 * ####################################
47 #include <linux/kernel.h>
48 #include <linux/vmalloc.h>
49 #include <linux/module.h>
50 #include <linux/version.h>
51 #include <linux/types.h>
52 #include <linux/errno.h>
53 #include <linux/proc_fs.h>
54 #include <linux/init.h>
55 #include <linux/ioctl.h>
56 #include <linux/atmdev.h>
57 #include <linux/atm.h>
58 #include <linux/clk.h>
59 #include <linux/interrupt.h>
62 * Chip Specific Head File
64 #include <lantiq_soc.h>
65 #include "ifxmips_compat.h"
67 #include "ifxmips_mei_interface.h"
68 #include "ifxmips_atm_core.h"
73 * ####################################
74 * Kernel Version Adaption
75 * ####################################
77 #if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,11)
78 #define MODULE_PARM_ARRAY(a, b) module_param_array(a, int, NULL, 0)
79 #define MODULE_PARM(a, b) module_param(a, int, 0)
81 #define MODULE_PARM_ARRAY(a, b) MODULE_PARM(a, b)
87 \addtogroup IFXMIPS_ATM_MODULE_PARAMS
91 * ####################################
92 * Parameters to Configure PPE
93 * ####################################
96 \brief QSB cell delay variation due to concurrency
98 static int qsb_tau = 1; /* QSB cell delay variation due to concurrency */
100 \brief QSB scheduler burst length
102 static int qsb_srvm = 0x0F; /* QSB scheduler burst length */
104 \brief QSB time step, all legal values are 1, 2, 4
106 static int qsb_tstep = 4 ; /* QSB time step, all legal values are 1, 2, 4 */
109 \brief Write descriptor delay
111 static int write_descriptor_delay = 0x20; /* Write descriptor delay */
114 \brief AAL5 padding byte ('~')
116 static int aal5_fill_pattern = 0x007E; /* AAL5 padding byte ('~') */
118 \brief Max frame size for RX
120 static int aal5r_max_packet_size = 0x0700; /* Max frame size for RX */
122 \brief Min frame size for RX
124 static int aal5r_min_packet_size = 0x0000; /* Min frame size for RX */
126 \brief Max frame size for TX
128 static int aal5s_max_packet_size = 0x0700; /* Max frame size for TX */
130 \brief Min frame size for TX
132 static int aal5s_min_packet_size = 0x0000; /* Min frame size for TX */
134 \brief Drop error packet in RX path
136 static int aal5r_drop_error_packet = 1; /* Drop error packet in RX path */
139 \brief Number of descriptors per DMA RX channel
141 static int dma_rx_descriptor_length = 128; /* Number of descriptors per DMA RX channel */
143 \brief Number of descriptors per DMA TX channel
145 static int dma_tx_descriptor_length = 64; /* Number of descriptors per DMA TX channel */
147 \brief PPE core clock cycles between descriptor write and effectiveness in external RAM
149 static int dma_rx_clp1_descriptor_threshold = 38;
152 MODULE_PARM(qsb_tau, "i");
153 MODULE_PARM_DESC(qsb_tau, "Cell delay variation. Value must be > 0");
154 MODULE_PARM(qsb_srvm, "i");
155 MODULE_PARM_DESC(qsb_srvm, "Maximum burst size");
156 MODULE_PARM(qsb_tstep, "i");
157 MODULE_PARM_DESC(qsb_tstep, "n*32 cycles per sbs cycles n=1,2,4");
159 MODULE_PARM(write_descriptor_delay, "i");
160 MODULE_PARM_DESC(write_descriptor_delay, "PPE core clock cycles between descriptor write and effectiveness in external RAM");
162 MODULE_PARM(aal5_fill_pattern, "i");
163 MODULE_PARM_DESC(aal5_fill_pattern, "Filling pattern (PAD) for AAL5 frames");
164 MODULE_PARM(aal5r_max_packet_size, "i");
165 MODULE_PARM_DESC(aal5r_max_packet_size, "Max packet size in byte for downstream AAL5 frames");
166 MODULE_PARM(aal5r_min_packet_size, "i");
167 MODULE_PARM_DESC(aal5r_min_packet_size, "Min packet size in byte for downstream AAL5 frames");
168 MODULE_PARM(aal5s_max_packet_size, "i");
169 MODULE_PARM_DESC(aal5s_max_packet_size, "Max packet size in byte for upstream AAL5 frames");
170 MODULE_PARM(aal5s_min_packet_size, "i");
171 MODULE_PARM_DESC(aal5s_min_packet_size, "Min packet size in byte for upstream AAL5 frames");
172 MODULE_PARM(aal5r_drop_error_packet, "i");
173 MODULE_PARM_DESC(aal5r_drop_error_packet, "Non-zero value to drop error packet for downstream");
175 MODULE_PARM(dma_rx_descriptor_length, "i");
176 MODULE_PARM_DESC(dma_rx_descriptor_length, "Number of descriptor assigned to DMA RX channel (>16)");
177 MODULE_PARM(dma_tx_descriptor_length, "i");
178 MODULE_PARM_DESC(dma_tx_descriptor_length, "Number of descriptor assigned to DMA TX channel (>16)");
179 MODULE_PARM(dma_rx_clp1_descriptor_threshold, "i");
180 MODULE_PARM_DESC(dma_rx_clp1_descriptor_threshold, "Descriptor threshold for cells with cell loss priority 1");
185 * ####################################
187 * ####################################
190 #define ENABLE_LED_FRAMEWORK 1
192 #define DUMP_SKB_LEN ~0
197 * ####################################
199 * ####################################
205 static int ppe_ioctl(struct atm_dev *, unsigned int, void *);
206 static int ppe_open(struct atm_vcc *);
207 static void ppe_close(struct atm_vcc *);
208 static int ppe_send(struct atm_vcc *, struct sk_buff *);
209 static int ppe_send_oam(struct atm_vcc *, void *, int);
210 static int ppe_change_qos(struct atm_vcc *, struct atm_qos *, int);
215 static INLINE void adsl_led_flash(void);
218 * 64-bit operation used by MIB calculation
220 static INLINE void u64_add_u32(ppe_u64_t, unsigned int, ppe_u64_t *);
223 * buffer manage functions
225 static INLINE struct sk_buff* alloc_skb_rx(void);
226 static INLINE struct sk_buff* alloc_skb_tx(unsigned int);
227 struct sk_buff* atm_alloc_tx(struct atm_vcc *, unsigned int);
228 static INLINE void atm_free_tx_skb_vcc(struct sk_buff *, struct atm_vcc *);
229 static INLINE struct sk_buff *get_skb_rx_pointer(unsigned int);
230 static INLINE int get_tx_desc(unsigned int);
233 * mailbox handler and signal function
235 static INLINE void mailbox_oam_rx_handler(void);
236 static INLINE void mailbox_aal_rx_handler(void);
237 #if defined(ENABLE_TASKLET) && ENABLE_TASKLET
238 static void do_ppe_tasklet(unsigned long);
240 static irqreturn_t mailbox_irq_handler(int, void *);
241 static INLINE void mailbox_signal(unsigned int, int);
244 * QSB & HTU setting functions
246 static void set_qsb(struct atm_vcc *, struct atm_qos *, unsigned int);
247 static void qsb_global_set(void);
248 static INLINE void set_htu_entry(unsigned int, unsigned int, unsigned int, int, int);
249 static INLINE void clear_htu_entry(unsigned int);
250 static void validate_oam_htu_entry(void);
251 static void invalidate_oam_htu_entry(void);
254 * look up for connection ID
256 static INLINE int find_vpi(unsigned int);
257 static INLINE int find_vpivci(unsigned int, unsigned int);
258 static INLINE int find_vcc(struct atm_vcc *);
263 #if defined(ENABLE_ATM_RETX) && ENABLE_ATM_RETX
264 static void retx_polling_func(unsigned long);
265 static int init_atm_tc_retrans_param(void);
266 static void clear_atm_tc_retrans_param(void);
273 #if defined(DEBUG_DUMP_SKB) && DEBUG_DUMP_SKB
274 static void dump_skb(struct sk_buff *, unsigned int, char *, int, int, int);
276 #define dump_skb(skb, len, title, port, ch, is_tx) do {} while (0)
278 #if defined(ENABLE_DBG_PROC) && ENABLE_DBG_PROC
279 static void skb_swap(struct sk_buff *, unsigned int);
281 #define skb_swap(skb, byteoff) do {} while (0)
285 * Proc File Functions
287 static INLINE void proc_file_create(void);
288 static INLINE void proc_file_delete(void);
289 static int proc_read_version(char *, char **, off_t, int, int *, void *);
290 static int proc_read_mib(char *, char **, off_t, int, int *, void *);
291 static int proc_write_mib(struct file *, const char *, unsigned long, void *);
292 #if defined(ENABLE_ATM_RETX) && ENABLE_ATM_RETX
293 static int proc_read_retx_mib(char *, char **, off_t, int, int *, void *);
294 static int proc_write_retx_mib(struct file *, const char *, unsigned long, void *);
296 #if defined(ENABLE_DBG_PROC) && ENABLE_DBG_PROC
297 static int proc_read_dbg(char *, char **, off_t, int, int *, void *);
298 static int proc_write_dbg(struct file *, const char *, unsigned long, void *);
299 static int proc_write_mem(struct file *, const char *, unsigned long, void *);
300 #if defined(CONFIG_AR9) || defined(CONFIG_VR9) || defined(CONFIG_DANUBE) || defined(CONFIG_AMAZON_SE)
301 static int proc_read_pp32(char *, char **, off_t, int, int *, void *);
302 static int proc_write_pp32(struct file *, const char *, unsigned long, void *);
305 #if defined(ENABLE_FW_PROC) && ENABLE_FW_PROC
306 static int proc_read_htu(char *, char **, off_t, int, int *, void *);
307 static int proc_read_txq(char *, char **, off_t, int, int *, void *);
308 #if defined(ENABLE_ATM_RETX) && ENABLE_ATM_RETX
309 static int proc_read_retx_fw(char *, char **, off_t, int, int *, void *);
310 static int proc_read_retx_stats(char *, char **, off_t, int, int *, void *);
311 static int proc_write_retx_stats(struct file *, const char *, unsigned long, void *);
312 static int proc_read_retx_cfg(char *, char **, off_t, int, int *, void *);
313 static int proc_write_retx_cfg(struct file *, const char *, unsigned long, void *);
314 static int proc_read_retx_dsl_param(char *, char **, off_t, int, int *, void *);
319 * Proc Help Functions
321 static int stricmp(const char *, const char *);
322 #if defined(ENABLE_DBG_PROC) && ENABLE_DBG_PROC
323 static int strincmp(const char *, const char *, int);
324 static int get_token(char **, char **, int *, int *);
325 static unsigned int get_number(char **, int *, int);
326 static void ignore_space(char **, int *);
328 static INLINE int ifx_atm_version(char *);
331 * Init & clean-up functions
333 static INLINE void check_parameters(void);
334 static INLINE int init_priv_data(void);
335 static INLINE void clear_priv_data(void);
336 static INLINE void init_rx_tables(void);
337 static INLINE void init_tx_tables(void);
342 #if defined(CONFIG_IFX_OAM) || defined(CONFIG_IFX_OAM_MODULE)
343 extern void ifx_push_oam(unsigned char *);
345 static inline void ifx_push_oam(unsigned char *dummy) {}
347 #if defined(CONFIG_IFXMIPS_DSL_CPE_MEI) || defined(CONFIG_IFXMIPS_DSL_CPE_MEI_MODULE)
348 #if !defined(ENABLE_LED_FRAMEWORK) || !ENABLE_LED_FRAMEWORK
349 extern int ifx_mei_atm_led_blink(void) __attribute__ ((weak));
351 extern int ifx_mei_atm_showtime_check(int *is_showtime, struct port_cell_info *port_cell, void **xdata_addr) __attribute__ ((weak));
353 #if !defined(ENABLE_LED_FRAMEWORK) || !ENABLE_LED_FRAMEWORK
354 static inline int ifx_mei_atm_led_blink(void) { return IFX_SUCCESS; }
356 static inline int ifx_mei_atm_showtime_check(int *is_showtime, struct port_cell_info *port_cell, void **xdata_addr)
358 if ( is_showtime != NULL )
367 struct sk_buff* (*ifx_atm_alloc_tx)(struct atm_vcc *, unsigned int) = NULL;
370 //extern struct sk_buff* (*ifx_atm_alloc_tx)(struct atm_vcc *, unsigned int);
371 #if defined(CONFIG_IFXMIPS_DSL_CPE_MEI) || defined(CONFIG_IFXMIPS_DSL_CPE_MEI_MODULE)
372 extern int (*ifx_mei_atm_showtime_enter)(struct port_cell_info *, void *) __attribute__ ((weak));
373 extern int (*ifx_mei_atm_showtime_exit)(void) __attribute__ ((weak));
375 int (*ifx_mei_atm_showtime_enter)(struct port_cell_info *, void *) = NULL;
376 EXPORT_SYMBOL(ifx_mei_atm_showtime_enter);
377 int (*ifx_mei_atm_showtime_exit)(void) = NULL;
378 EXPORT_SYMBOL(ifx_mei_atm_showtime_exit);
384 * ####################################
386 * ####################################
389 static struct atm_priv_data g_atm_priv_data;
391 static struct atmdev_ops g_ifx_atm_ops = {
396 .send_oam = ppe_send_oam,
397 .change_qos = ppe_change_qos,
398 .owner = THIS_MODULE,
401 #if defined(ENABLE_TASKLET) && ENABLE_TASKLET
402 DECLARE_TASKLET(g_dma_tasklet, do_ppe_tasklet, 0);
405 static int g_showtime = 0;
406 static void *g_xdata_addr = NULL;
408 #if 0 /*--- defined(ENABLE_LED_FRAMEWORK) && ENABLE_LED_FRAMEWORK ---*/
409 static void *g_data_led_trigger = NULL;
412 #if defined(ENABLE_ATM_RETX) && ENABLE_ATM_RETX
413 static unsigned long g_retx_playout_buffer = 0;
415 static volatile int g_retx_htu = 1;
416 static struct dsl_param g_dsl_param = {0};
417 static int g_retx_polling_cnt = HZ;
418 static struct timeval g_retx_polling_start = {0}, g_retx_polling_end = {0};
419 static struct timer_list g_retx_polling_timer;
422 unsigned int ifx_atm_dbg_enable = 0;
424 static struct proc_dir_entry* g_atm_dir = NULL;
429 * ####################################
431 * ####################################
434 static int ppe_ioctl(struct atm_dev *dev, unsigned int cmd, void *arg)
437 atm_cell_ifEntry_t mib_cell;
438 atm_aal5_ifEntry_t mib_aal5;
439 atm_aal5_vcc_x_t mib_vcc;
443 if ( _IOC_TYPE(cmd) != PPE_ATM_IOC_MAGIC
444 || _IOC_NR(cmd) >= PPE_ATM_IOC_MAXNR )
447 if ( _IOC_DIR(cmd) & _IOC_READ )
448 ret = !access_ok(VERIFY_WRITE, arg, _IOC_SIZE(cmd));
449 else if ( _IOC_DIR(cmd) & _IOC_WRITE )
450 ret = !access_ok(VERIFY_READ, arg, _IOC_SIZE(cmd));
456 case PPE_ATM_MIB_CELL: /* cell level MIB */
457 /* These MIB should be read at ARC side, now put zero only. */
458 mib_cell.ifHCInOctets_h = 0;
459 mib_cell.ifHCInOctets_l = 0;
460 mib_cell.ifHCOutOctets_h = 0;
461 mib_cell.ifHCOutOctets_l = 0;
462 mib_cell.ifInErrors = 0;
463 mib_cell.ifInUnknownProtos = WAN_MIB_TABLE->wrx_drophtu_cell;
464 mib_cell.ifOutErrors = 0;
466 ret = sizeof(mib_cell) - copy_to_user(arg, &mib_cell, sizeof(mib_cell));
469 case PPE_ATM_MIB_AAL5: /* AAL5 MIB */
470 value = WAN_MIB_TABLE->wrx_total_byte;
471 u64_add_u32(g_atm_priv_data.wrx_total_byte, value - g_atm_priv_data.prev_wrx_total_byte, &g_atm_priv_data.wrx_total_byte);
472 g_atm_priv_data.prev_wrx_total_byte = value;
473 mib_aal5.ifHCInOctets_h = g_atm_priv_data.wrx_total_byte.h;
474 mib_aal5.ifHCInOctets_l = g_atm_priv_data.wrx_total_byte.l;
476 value = WAN_MIB_TABLE->wtx_total_byte;
477 u64_add_u32(g_atm_priv_data.wtx_total_byte, value - g_atm_priv_data.prev_wtx_total_byte, &g_atm_priv_data.wtx_total_byte);
478 g_atm_priv_data.prev_wtx_total_byte = value;
479 mib_aal5.ifHCOutOctets_h = g_atm_priv_data.wtx_total_byte.h;
480 mib_aal5.ifHCOutOctets_l = g_atm_priv_data.wtx_total_byte.l;
482 mib_aal5.ifInUcastPkts = g_atm_priv_data.wrx_pdu;
483 mib_aal5.ifOutUcastPkts = WAN_MIB_TABLE->wtx_total_pdu;
484 mib_aal5.ifInErrors = WAN_MIB_TABLE->wrx_err_pdu;
485 mib_aal5.ifInDiscards = WAN_MIB_TABLE->wrx_dropdes_pdu + g_atm_priv_data.wrx_drop_pdu;
486 mib_aal5.ifOutErros = g_atm_priv_data.wtx_err_pdu;
487 mib_aal5.ifOutDiscards = g_atm_priv_data.wtx_drop_pdu;
489 ret = sizeof(mib_aal5) - copy_to_user(arg, &mib_aal5, sizeof(mib_aal5));
492 case PPE_ATM_MIB_VCC: /* VCC related MIB */
493 copy_from_user(&mib_vcc, arg, sizeof(mib_vcc));
494 conn = find_vpivci(mib_vcc.vpi, mib_vcc.vci);
497 mib_vcc.mib_vcc.aal5VccCrcErrors = g_atm_priv_data.conn[conn].aal5_vcc_crc_err;
498 mib_vcc.mib_vcc.aal5VccOverSizedSDUs = g_atm_priv_data.conn[conn].aal5_vcc_oversize_sdu;
499 mib_vcc.mib_vcc.aal5VccSarTimeOuts = 0; /* no timer support */
500 ret = sizeof(mib_vcc) - copy_to_user(arg, &mib_vcc, sizeof(mib_vcc));
513 static int ppe_open(struct atm_vcc *vcc)
516 short vpi = vcc->vpi;
518 struct port *port = &g_atm_priv_data.port[(int)vcc->dev->dev_data];
520 int f_enable_irq = 0;
521 #if defined(ENABLE_ATM_RETX) && ENABLE_ATM_RETX
525 if ( vcc->qos.aal != ATM_AAL5 && vcc->qos.aal != ATM_AAL0 )
526 return -EPROTONOSUPPORT;
528 #if !defined(DISABLE_QOS_WORKAROUND) || !DISABLE_QOS_WORKAROUND
529 /* check bandwidth */
531 if (vcc->qos.txtp.traffic_class == ATM_CBR &&
532 vcc->qos.txtp.max_pcr > (port->tx_max_cell_rate - port->tx_current_cell_rate))
534 printk("CBR set. %s, line %d returns EINVAL\n", __FUNCTION__, __LINE__);
538 if(vcc->qos.txtp.traffic_class == ATM_VBR_RT &&
539 vcc->qos.txtp.max_pcr > (port->tx_max_cell_rate - port->tx_current_cell_rate))
541 printk("VBR RT set. %s, line %d returns EINVAL\n", __FUNCTION__, __LINE__);
546 if (vcc->qos.txtp.traffic_class == ATM_VBR_NRT &&
547 vcc->qos.txtp.scr > (port->tx_max_cell_rate - port->tx_current_cell_rate))
549 printk("VBR NRT set. %s, line %d returns EINVAL\n", __FUNCTION__, __LINE__);
554 if (vcc->qos.txtp.traffic_class == ATM_UBR_PLUS &&
555 vcc->qos.txtp.min_pcr > (port->tx_max_cell_rate - port->tx_current_cell_rate))
557 printk("UBR PLUS set. %s, line %d returns EINVAL\n", __FUNCTION__, __LINE__);
564 /* check existing vpi,vci */
565 conn = find_vpivci(vpi, vci);
571 /* check whether it need to enable irq */
572 if ( g_atm_priv_data.conn_table == 0 )
575 /* allocate connection */
576 for ( conn = 0; conn < MAX_PVC_NUMBER; conn++ ) {
577 if ( test_and_set_bit(conn, &g_atm_priv_data.conn_table) == 0 ) {
578 g_atm_priv_data.conn[conn].vcc = vcc;
582 if ( conn == MAX_PVC_NUMBER )
584 printk("max_pvc_number reached\n");
589 /* reserve bandwidth */
590 switch ( vcc->qos.txtp.traffic_class ) {
593 port->tx_current_cell_rate += vcc->qos.txtp.max_pcr;
596 port->tx_current_cell_rate += vcc->qos.txtp.scr;
599 port->tx_current_cell_rate += vcc->qos.txtp.min_pcr;
604 set_qsb(vcc, &vcc->qos, conn);
606 /* update atm_vcc structure */
607 vcc->itf = (int)vcc->dev->dev_data;
610 set_bit(ATM_VF_READY, &vcc->flags);
614 ifx_atm_alloc_tx = atm_alloc_tx;
616 *MBOX_IGU1_ISRC = (1 << RX_DMA_CH_AAL) | (1 << RX_DMA_CH_OAM);
617 *MBOX_IGU1_IER = (1 << RX_DMA_CH_AAL) | (1 << RX_DMA_CH_OAM);
619 enable_irq(PPE_MAILBOX_IGU1_INT);
623 WTX_QUEUE_CONFIG(conn + FIRST_QSB_QID)->sbid = (int)vcc->dev->dev_data;
626 set_htu_entry(vpi, vci, conn, vcc->qos.aal == ATM_AAL5 ? 1 : 0, 0);
628 #if defined(ENABLE_ATM_RETX) && ENABLE_ATM_RETX
629 // ReTX: occupy second QID
630 local_irq_save(sys_flag);
631 if ( g_retx_htu && vcc->qos.aal == ATM_AAL5 )
633 int retx_conn = (conn + 8) % 16; // ReTX queue
635 if ( retx_conn < MAX_PVC_NUMBER && test_and_set_bit(retx_conn, &g_atm_priv_data.conn_table) == 0 ) {
636 g_atm_priv_data.conn[retx_conn].vcc = vcc;
637 set_htu_entry(vpi, vci, retx_conn, vcc->qos.aal == ATM_AAL5 ? 1 : 0, 1);
640 local_irq_restore(sys_flag);
649 static void ppe_close(struct atm_vcc *vcc)
653 struct connection *connection;
654 #if defined(ENABLE_ATM_RETX) && ENABLE_ATM_RETX
661 /* get connection id */
662 conn = find_vcc(vcc);
664 err("can't find vcc");
667 connection = &g_atm_priv_data.conn[conn];
668 port = &g_atm_priv_data.port[connection->port];
671 clear_htu_entry(conn);
673 #if defined(ENABLE_ATM_RETX) && ENABLE_ATM_RETX
674 // ReTX: release second QID
675 local_irq_save(sys_flag);
676 if ( g_retx_htu && vcc->qos.aal == ATM_AAL5 )
678 int retx_conn = (conn + 8) % 16; // ReTX queue
680 if ( retx_conn < MAX_PVC_NUMBER && g_atm_priv_data.conn[retx_conn].vcc == vcc ) {
681 clear_htu_entry(retx_conn);
682 g_atm_priv_data.conn[retx_conn].vcc = NULL;
683 g_atm_priv_data.conn[retx_conn].aal5_vcc_crc_err = 0;
684 g_atm_priv_data.conn[retx_conn].aal5_vcc_oversize_sdu = 0;
685 clear_bit(retx_conn, &g_atm_priv_data.conn_table);
688 local_irq_restore(sys_flag);
691 /* release connection */
692 connection->vcc = NULL;
693 connection->aal5_vcc_crc_err = 0;
694 connection->aal5_vcc_oversize_sdu = 0;
695 clear_bit(conn, &g_atm_priv_data.conn_table);
698 if ( g_atm_priv_data.conn_table == 0 ) {
699 disable_irq(PPE_MAILBOX_IGU1_INT);
700 ifx_atm_alloc_tx = NULL;
703 /* release bandwidth */
704 switch ( vcc->qos.txtp.traffic_class )
708 port->tx_current_cell_rate -= vcc->qos.txtp.max_pcr;
711 port->tx_current_cell_rate -= vcc->qos.txtp.scr;
714 port->tx_current_cell_rate -= vcc->qos.txtp.min_pcr;
722 static int ppe_send(struct atm_vcc *vcc, struct sk_buff *skb)
727 struct tx_descriptor reg_desc = {0};
729 if ( vcc == NULL || skb == NULL )
734 atm_free_tx_skb_vcc(skb, vcc);
736 conn = find_vcc(vcc);
743 err("not in showtime");
748 if ( vcc->qos.aal == ATM_AAL5 ) {
751 struct tx_inband_header *header;
754 byteoff = (unsigned int)skb->data & (DATA_BUFFER_ALIGNMENT - 1);
756 if ( skb_headroom(skb) < byteoff + TX_INBAND_HEADER_LENGTH ) {
757 struct sk_buff *new_skb;
759 new_skb = alloc_skb_tx(datalen);
760 if ( new_skb == NULL ) {
761 err("ALLOC_SKB_TX_FAIL");
765 skb_put(new_skb, datalen);
766 memcpy(new_skb->data, skb->data, datalen);
767 dev_kfree_skb_any(skb);
769 byteoff = (unsigned int)skb->data & (DATA_BUFFER_ALIGNMENT - 1);
772 skb_push(skb, byteoff + TX_INBAND_HEADER_LENGTH);
774 header = (struct tx_inband_header *)skb->data;
776 /* setup inband trailer */
779 header->pad = aal5_fill_pattern;
782 /* setup cell header */
783 header->clp = (vcc->atm_options & ATM_ATMOPT_CLP) ? 1 : 0;
784 header->pti = ATM_PTI_US0;
785 header->vci = vcc->vci;
786 header->vpi = vcc->vpi;
789 /* setup descriptor */
790 reg_desc.dataptr = (unsigned int)skb->data >> 2;
791 reg_desc.datalen = datalen;
792 reg_desc.byteoff = byteoff;
796 /* if data pointer is not aligned, allocate new sk_buff */
797 if ( ((unsigned int)skb->data & (DATA_BUFFER_ALIGNMENT - 1)) != 0 ) {
798 struct sk_buff *new_skb;
800 err("skb->data not aligned");
802 new_skb = alloc_skb_tx(skb->len);
803 if ( new_skb == NULL ) {
804 err("ALLOC_SKB_TX_FAIL");
808 skb_put(new_skb, skb->len);
809 memcpy(new_skb->data, skb->data, skb->len);
810 dev_kfree_skb_any(skb);
814 reg_desc.dataptr = (unsigned int)skb->data >> 2;
815 reg_desc.datalen = skb->len;
816 reg_desc.byteoff = 0;
822 reg_desc.sop = reg_desc.eop = 1;
824 desc_base = get_tx_desc(conn);
825 if ( desc_base < 0 ) {
826 err("ALLOC_TX_CONNECTION_FAIL");
832 atomic_inc(&vcc->stats->tx);
833 if ( vcc->qos.aal == ATM_AAL5 )
834 g_atm_priv_data.wtx_pdu++;
836 /* update descriptor send pointer */
837 if ( g_atm_priv_data.conn[conn].tx_skb[desc_base] != NULL )
838 dev_kfree_skb_any(g_atm_priv_data.conn[conn].tx_skb[desc_base]);
839 g_atm_priv_data.conn[conn].tx_skb[desc_base] = skb;
841 /* write discriptor to memory and write back cache */
842 #ifdef CONFIG_DEBUG_SLAB
843 /* be sure that "redzone 1" is written back to memory */
844 dma_cache_wback((unsigned long)skb->head, 32);
846 dma_cache_wback((unsigned long)skb_shinfo(skb), sizeof(struct skb_shared_info));
847 dma_cache_wback((unsigned long)skb->data, skb->len);
848 g_atm_priv_data.conn[conn].tx_desc[desc_base] = reg_desc;
850 dump_skb(skb, DUMP_SKB_LEN, (char *)__func__, 0, conn, 1);
852 mailbox_signal(conn, 1);
859 err("FIND_VCC_FAIL");
860 g_atm_priv_data.wtx_err_pdu++;
861 dev_kfree_skb_any(skb);
865 if ( vcc->qos.aal == ATM_AAL5 )
866 g_atm_priv_data.wtx_drop_pdu++;
868 atomic_inc(&vcc->stats->tx_err);
869 dev_kfree_skb_any(skb);
873 static int ppe_send_oam(struct atm_vcc *vcc, void *cell, int flags)
876 struct uni_cell_header *uni_cell_header = (struct uni_cell_header *)cell;
879 struct tx_descriptor reg_desc = {0};
881 if ( ((uni_cell_header->pti == ATM_PTI_SEGF5 || uni_cell_header->pti == ATM_PTI_E2EF5)
882 && find_vpivci(uni_cell_header->vpi, uni_cell_header->vci) < 0)
883 || ((uni_cell_header->vci == 0x03 || uni_cell_header->vci == 0x04)
884 && find_vpi(uni_cell_header->vpi) < 0) )
888 err("not in showtime");
892 conn = find_vcc(vcc);
894 err("FIND_VCC_FAIL");
898 skb = alloc_skb_tx(CELL_SIZE);
900 err("ALLOC_SKB_TX_FAIL");
903 memcpy(skb->data, cell, CELL_SIZE);
905 reg_desc.dataptr = (unsigned int)skb->data >> 2;
906 reg_desc.datalen = CELL_SIZE;
907 reg_desc.byteoff = 0;
912 reg_desc.sop = reg_desc.eop = 1;
914 desc_base = get_tx_desc(conn);
915 if ( desc_base < 0 ) {
916 dev_kfree_skb_any(skb);
917 err("ALLOC_TX_CONNECTION_FAIL");
922 atomic_inc(&vcc->stats->tx);
924 /* update descriptor send pointer */
925 if ( g_atm_priv_data.conn[conn].tx_skb[desc_base] != NULL )
926 dev_kfree_skb_any(g_atm_priv_data.conn[conn].tx_skb[desc_base]);
927 g_atm_priv_data.conn[conn].tx_skb[desc_base] = skb;
929 /* write discriptor to memory and write back cache */
930 g_atm_priv_data.conn[conn].tx_desc[desc_base] = reg_desc;
931 dma_cache_wback((unsigned long)skb->data, CELL_SIZE);
933 dump_skb(skb, DUMP_SKB_LEN, (char *)__func__, 0, conn, 1);
935 if ( vcc->qos.aal == ATM_AAL5 && (ifx_atm_dbg_enable & DBG_ENABLE_MASK_MAC_SWAP) ) {
936 skb_swap(skb, reg_desc.byteoff);
939 mailbox_signal(conn, 1);
946 static int ppe_change_qos(struct atm_vcc *vcc, struct atm_qos *qos, int flags)
950 if ( vcc == NULL || qos == NULL )
953 conn = find_vcc(vcc);
957 set_qsb(vcc, qos, conn);
962 static INLINE void adsl_led_flash(void)
965 #if defined(ENABLE_LED_FRAMEWORK) && ENABLE_LED_FRAMEWORK
966 if ( g_data_led_trigger != NULL )
967 ifx_led_trigger_activate(g_data_led_trigger);
969 if (!IS_ERR(&ifx_mei_atm_led_blink) && &ifx_mei_atm_led_blink )
970 ifx_mei_atm_led_blink();
977 * Add a 32-bit value to 64-bit value, and put result in a 64-bit variable.
979 * opt1 --- ppe_u64_t, first operand, a 64-bit unsigned integer value
980 * opt2 --- unsigned int, second operand, a 32-bit unsigned integer value
981 * ret --- ppe_u64_t, pointer to a variable to hold result
985 static INLINE void u64_add_u32(ppe_u64_t opt1, unsigned int opt2, ppe_u64_t *ret)
987 ret->l = opt1.l + opt2;
988 if ( ret->l < opt1.l || ret->l < opt2 )
992 static INLINE struct sk_buff* alloc_skb_rx(void)
996 skb = dev_alloc_skb(RX_DMA_CH_AAL_BUF_SIZE + DATA_BUFFER_ALIGNMENT);
998 /* must be burst length alignment */
999 if ( ((unsigned int)skb->data & (DATA_BUFFER_ALIGNMENT - 1)) != 0 )
1000 skb_reserve(skb, ~((unsigned int)skb->data + (DATA_BUFFER_ALIGNMENT - 1)) & (DATA_BUFFER_ALIGNMENT - 1));
1001 /* pub skb in reserved area "skb->data - 4" */
1002 *((struct sk_buff **)skb->data - 1) = skb;
1003 /* write back and invalidate cache */
1004 dma_cache_wback_inv((unsigned long)skb->data - sizeof(skb), sizeof(skb));
1005 /* invalidate cache */
1006 dma_cache_inv((unsigned long)skb->data, (unsigned int)skb->end - (unsigned int)skb->data);
1012 static INLINE struct sk_buff* alloc_skb_tx(unsigned int size)
1014 struct sk_buff *skb;
1016 /* allocate memory including header and padding */
1017 size += TX_INBAND_HEADER_LENGTH + MAX_TX_PACKET_ALIGN_BYTES + MAX_TX_PACKET_PADDING_BYTES;
1018 size &= ~(DATA_BUFFER_ALIGNMENT - 1);
1019 skb = dev_alloc_skb(size + DATA_BUFFER_ALIGNMENT);
1020 /* must be burst length alignment */
1022 skb_reserve(skb, (~((unsigned int)skb->data + (DATA_BUFFER_ALIGNMENT - 1)) & (DATA_BUFFER_ALIGNMENT - 1)) + TX_INBAND_HEADER_LENGTH);
1026 struct sk_buff* atm_alloc_tx(struct atm_vcc *vcc, unsigned int size)
1029 struct sk_buff *skb;
1031 /* oversize packet */
1032 if ( size > aal5s_max_packet_size ) {
1033 err("atm_alloc_tx: oversize packet");
1036 /* send buffer overflow */
1037 if ( atomic_read(&sk_atm(vcc)->sk_wmem_alloc) && !atm_may_send(vcc, size) ) {
1038 err("atm_alloc_tx: send buffer overflow");
1041 conn = find_vcc(vcc);
1043 err("atm_alloc_tx: unknown VCC");
1047 skb = dev_alloc_skb(size);
1048 if ( skb == NULL ) {
1049 err("atm_alloc_tx: sk buffer is used up");
1053 atomic_add(skb->truesize, &sk_atm(vcc)->sk_wmem_alloc);
1058 static INLINE void atm_free_tx_skb_vcc(struct sk_buff *skb, struct atm_vcc *vcc)
1060 if ( vcc->pop != NULL )
1063 dev_kfree_skb_any(skb);
1066 static INLINE struct sk_buff *get_skb_rx_pointer(unsigned int dataptr)
1068 unsigned int skb_dataptr;
1069 struct sk_buff *skb;
1071 skb_dataptr = ((dataptr - 1) << 2) | KSEG1;
1072 skb = *(struct sk_buff **)skb_dataptr;
1074 ASSERT((unsigned int)skb >= KSEG0, "invalid skb - skb = %#08x, dataptr = %#08x", (unsigned int)skb, dataptr);
1075 ASSERT(((unsigned int)skb->data | KSEG1) == ((dataptr << 2) | KSEG1), "invalid skb - skb = %#08x, skb->data = %#08x, dataptr = %#08x", (unsigned int)skb, (unsigned int)skb->data, dataptr);
1080 static INLINE int get_tx_desc(unsigned int conn)
1083 struct connection *p_conn = &g_atm_priv_data.conn[conn];
1085 if ( p_conn->tx_desc[p_conn->tx_desc_pos].own == 0 ) {
1086 desc_base = p_conn->tx_desc_pos;
1087 if ( ++(p_conn->tx_desc_pos) == dma_tx_descriptor_length )
1088 p_conn->tx_desc_pos = 0;
1094 static INLINE void mailbox_oam_rx_handler(void)
1096 unsigned int vlddes = WRX_DMA_CHANNEL_CONFIG(RX_DMA_CH_OAM)->vlddes;
1097 struct rx_descriptor reg_desc;
1098 struct uni_cell_header *header;
1100 struct atm_vcc *vcc;
1103 for ( i = 0; i < vlddes; i++ ) {
1105 reg_desc = g_atm_priv_data.oam_desc[g_atm_priv_data.oam_desc_pos];
1106 } while ( reg_desc.own || !reg_desc.c ); // keep test OWN and C bit until data is ready
1108 header = (struct uni_cell_header *)&g_atm_priv_data.oam_buf[g_atm_priv_data.oam_desc_pos * RX_DMA_CH_OAM_BUF_SIZE];
1110 if ( header->pti == ATM_PTI_SEGF5 || header->pti == ATM_PTI_E2EF5 )
1111 conn = find_vpivci(header->vpi, header->vci);
1112 else if ( header->vci == 0x03 || header->vci == 0x04 )
1113 conn = find_vpi(header->vpi);
1117 if ( conn >= 0 && g_atm_priv_data.conn[conn].vcc != NULL ) {
1118 vcc = g_atm_priv_data.conn[conn].vcc;
1120 if ( vcc->push_oam != NULL )
1121 vcc->push_oam(vcc, header);
1123 ifx_push_oam((unsigned char *)header);
1127 reg_desc.byteoff = 0;
1128 reg_desc.datalen = RX_DMA_CH_OAM_BUF_SIZE;
1132 g_atm_priv_data.oam_desc[g_atm_priv_data.oam_desc_pos] = reg_desc;
1133 if ( ++g_atm_priv_data.oam_desc_pos == RX_DMA_CH_OAM_DESC_LEN )
1134 g_atm_priv_data.oam_desc_pos = 0;
1136 mailbox_signal(RX_DMA_CH_OAM, 0);
1140 static INLINE void mailbox_aal_rx_handler(void)
1142 unsigned int vlddes = WRX_DMA_CHANNEL_CONFIG(RX_DMA_CH_AAL)->vlddes;
1143 struct rx_descriptor reg_desc;
1145 struct atm_vcc *vcc;
1146 struct sk_buff *skb, *new_skb;
1147 struct rx_inband_trailer *trailer;
1150 for ( i = 0; i < vlddes; i++ ) {
1152 reg_desc = g_atm_priv_data.aal_desc[g_atm_priv_data.aal_desc_pos];
1153 } while ( reg_desc.own || !reg_desc.c ); // keep test OWN and C bit until data is ready
1157 if ( g_atm_priv_data.conn[conn].vcc != NULL ) {
1158 vcc = g_atm_priv_data.conn[conn].vcc;
1160 skb = get_skb_rx_pointer(reg_desc.dataptr);
1162 if ( reg_desc.err ) {
1163 if ( vcc->qos.aal == ATM_AAL5 ) {
1164 trailer = (struct rx_inband_trailer *)((unsigned int)skb->data + ((reg_desc.byteoff + reg_desc.datalen + MAX_RX_PACKET_PADDING_BYTES) & ~MAX_RX_PACKET_PADDING_BYTES));
1165 if ( trailer->stw_crc )
1166 g_atm_priv_data.conn[conn].aal5_vcc_crc_err++;
1167 if ( trailer->stw_ovz )
1168 g_atm_priv_data.conn[conn].aal5_vcc_oversize_sdu++;
1169 g_atm_priv_data.wrx_drop_pdu++;
1172 atomic_inc(&vcc->stats->rx_drop);
1173 atomic_inc(&vcc->stats->rx_err);
1176 else if ( atm_charge(vcc, skb->truesize) ) {
1177 new_skb = alloc_skb_rx();
1178 if ( new_skb != NULL ) {
1179 skb_reserve(skb, reg_desc.byteoff);
1180 skb_put(skb, reg_desc.datalen);
1181 ATM_SKB(skb)->vcc = vcc;
1183 dump_skb(skb, DUMP_SKB_LEN, (char *)__func__, 0, conn, 0);
1185 vcc->push(vcc, skb);
1187 if ( vcc->qos.aal == ATM_AAL5 )
1188 g_atm_priv_data.wrx_pdu++;
1190 atomic_inc(&vcc->stats->rx);
1193 reg_desc.dataptr = (unsigned int)new_skb->data >> 2;
1196 atm_return(vcc, skb->truesize);
1197 if ( vcc->qos.aal == ATM_AAL5 )
1198 g_atm_priv_data.wrx_drop_pdu++;
1200 atomic_inc(&vcc->stats->rx_drop);
1204 if ( vcc->qos.aal == ATM_AAL5 )
1205 g_atm_priv_data.wrx_drop_pdu++;
1207 atomic_inc(&vcc->stats->rx_drop);
1211 g_atm_priv_data.wrx_drop_pdu++;
1214 reg_desc.byteoff = 0;
1215 reg_desc.datalen = RX_DMA_CH_AAL_BUF_SIZE;
1219 g_atm_priv_data.aal_desc[g_atm_priv_data.aal_desc_pos] = reg_desc;
1220 if ( ++g_atm_priv_data.aal_desc_pos == dma_rx_descriptor_length )
1221 g_atm_priv_data.aal_desc_pos = 0;
1223 mailbox_signal(RX_DMA_CH_AAL, 0);
1227 #if defined(ENABLE_TASKLET) && ENABLE_TASKLET
1228 static void do_ppe_tasklet(unsigned long arg)
1230 *MBOX_IGU1_ISRC = *MBOX_IGU1_ISR;
1231 mailbox_oam_rx_handler();
1232 mailbox_aal_rx_handler();
1233 if ( (*MBOX_IGU1_ISR & ((1 << RX_DMA_CH_AAL) | (1 << RX_DMA_CH_OAM))) != 0 )
1234 tasklet_schedule(&g_dma_tasklet);
1236 enable_irq(PPE_MAILBOX_IGU1_INT);
1240 static irqreturn_t mailbox_irq_handler(int irq, void *dev_id)
1242 if ( !*MBOX_IGU1_ISR )
1245 #if defined(ENABLE_TASKLET) && ENABLE_TASKLET
1246 disable_irq(PPE_MAILBOX_IGU1_INT);
1247 tasklet_schedule(&g_dma_tasklet);
1249 *MBOX_IGU1_ISRC = *MBOX_IGU1_ISR;
1250 mailbox_oam_rx_handler();
1251 mailbox_aal_rx_handler();
1257 static INLINE void mailbox_signal(unsigned int queue, int is_tx)
1262 while ( MBOX_IGU3_ISR_ISR(queue + FIRST_QSB_QID + 16) && count)
1264 *MBOX_IGU3_ISRS = MBOX_IGU3_ISRS_SET(queue + FIRST_QSB_QID + 16);
1267 while ( MBOX_IGU3_ISR_ISR(queue) && count)
1269 *MBOX_IGU3_ISRS = MBOX_IGU3_ISRS_SET(queue);
1271 ASSERT(count != 0, "MBOX_IGU3_ISR = 0x%08x", ltq_r32(MBOX_IGU3_ISR));
1274 static void set_qsb(struct atm_vcc *vcc, struct atm_qos *qos, unsigned int queue)
1276 struct clk *clk = clk_get(0, "fpi");
1277 unsigned int qsb_clk = clk_get_rate(clk);
1278 unsigned int qsb_qid = queue + FIRST_QSB_QID;
1279 union qsb_queue_parameter_table qsb_queue_parameter_table = {{0}};
1280 union qsb_queue_vbr_parameter_table qsb_queue_vbr_parameter_table = {{0}};
1283 #if defined(DEBUG_QOS) && DEBUG_QOS
1284 if ( (ifx_atm_dbg_enable & DBG_ENABLE_MASK_DUMP_QOS) ) {
1285 static char *str_traffic_class[9] = {
1296 printk(KERN_INFO "QoS Parameters:\n");
1297 printk(KERN_INFO "\tAAL : %d\n", qos->aal);
1298 printk(KERN_INFO "\tTX Traffic Class: %s\n", str_traffic_class[qos->txtp.traffic_class]);
1299 printk(KERN_INFO "\tTX Max PCR : %d\n", qos->txtp.max_pcr);
1300 printk(KERN_INFO "\tTX Min PCR : %d\n", qos->txtp.min_pcr);
1301 printk(KERN_INFO "\tTX PCR : %d\n", qos->txtp.pcr);
1302 printk(KERN_INFO "\tTX Max CDV : %d\n", qos->txtp.max_cdv);
1303 printk(KERN_INFO "\tTX Max SDU : %d\n", qos->txtp.max_sdu);
1304 printk(KERN_INFO "\tTX SCR : %d\n", qos->txtp.scr);
1305 printk(KERN_INFO "\tTX MBS : %d\n", qos->txtp.mbs);
1306 printk(KERN_INFO "\tTX CDV : %d\n", qos->txtp.cdv);
1307 printk(KERN_INFO "\tRX Traffic Class: %s\n", str_traffic_class[qos->rxtp.traffic_class]);
1308 printk(KERN_INFO "\tRX Max PCR : %d\n", qos->rxtp.max_pcr);
1309 printk(KERN_INFO "\tRX Min PCR : %d\n", qos->rxtp.min_pcr);
1310 printk(KERN_INFO "\tRX PCR : %d\n", qos->rxtp.pcr);
1311 printk(KERN_INFO "\tRX Max CDV : %d\n", qos->rxtp.max_cdv);
1312 printk(KERN_INFO "\tRX Max SDU : %d\n", qos->rxtp.max_sdu);
1313 printk(KERN_INFO "\tRX SCR : %d\n", qos->rxtp.scr);
1314 printk(KERN_INFO "\tRX MBS : %d\n", qos->rxtp.mbs);
1315 printk(KERN_INFO "\tRX CDV : %d\n", qos->rxtp.cdv);
1317 #endif // defined(DEBUG_QOS) && DEBUG_QOS
1320 * Peak Cell Rate (PCR) Limiter
1322 if ( qos->txtp.max_pcr == 0 )
1323 qsb_queue_parameter_table.bit.tp = 0; /* disable PCR limiter */
1325 /* peak cell rate would be slightly lower than requested [maximum_rate / pcr = (qsb_clock / 8) * (time_step / 4) / pcr] */
1326 tmp = ((qsb_clk * qsb_tstep) >> 5) / qos->txtp.max_pcr + 1;
1327 /* check if overflow takes place */
1328 qsb_queue_parameter_table.bit.tp = tmp > QSB_TP_TS_MAX ? QSB_TP_TS_MAX : tmp;
1331 // A funny issue. Create two PVCs, one UBR and one UBR with max_pcr.
1332 // Send packets to these two PVCs at same time, it trigger strange behavior.
1333 // In A1, RAM from 0x80000000 to 0x0x8007FFFF was corrupted with fixed pattern 0x00000000 0x40000000.
1334 // In A4, PPE firmware keep emiting unknown cell and do not respond to driver.
1335 // To work around, create UBR always with max_pcr.
1336 // If user want to create UBR without max_pcr, we give a default one larger than line-rate.
1337 if ( qos->txtp.traffic_class == ATM_UBR && qsb_queue_parameter_table.bit.tp == 0 ) {
1338 int port = g_atm_priv_data.conn[queue].port;
1339 unsigned int max_pcr = g_atm_priv_data.port[port].tx_max_cell_rate + 1000;
1341 tmp = ((qsb_clk * qsb_tstep) >> 5) / max_pcr + 1;
1342 if ( tmp > QSB_TP_TS_MAX )
1343 tmp = QSB_TP_TS_MAX;
1346 qsb_queue_parameter_table.bit.tp = tmp;
1350 * Weighted Fair Queueing Factor (WFQF)
1352 switch ( qos->txtp.traffic_class ) {
1355 /* real time queue gets weighted fair queueing bypass */
1356 qsb_queue_parameter_table.bit.wfqf = 0;
1360 /* WFQF calculation here is based on virtual cell rates, to reduce granularity for high rates */
1361 /* WFQF is maximum cell rate / garenteed cell rate */
1362 /* wfqf = qsb_minimum_cell_rate * QSB_WFQ_NONUBR_MAX / requested_minimum_peak_cell_rate */
1363 if ( qos->txtp.min_pcr == 0 )
1364 qsb_queue_parameter_table.bit.wfqf = QSB_WFQ_NONUBR_MAX;
1367 tmp = QSB_GCR_MIN * QSB_WFQ_NONUBR_MAX / qos->txtp.min_pcr;
1369 qsb_queue_parameter_table.bit.wfqf = 1;
1370 else if ( tmp > QSB_WFQ_NONUBR_MAX )
1371 qsb_queue_parameter_table.bit.wfqf = QSB_WFQ_NONUBR_MAX;
1373 qsb_queue_parameter_table.bit.wfqf = tmp;
1378 qsb_queue_parameter_table.bit.wfqf = QSB_WFQ_UBR_BYPASS;
1382 * Sustained Cell Rate (SCR) Leaky Bucket Shaper VBR.0/VBR.1
1384 if ( qos->txtp.traffic_class == ATM_VBR_RT || qos->txtp.traffic_class == ATM_VBR_NRT ) {
1385 if ( qos->txtp.scr == 0 ) {
1386 /* disable shaper */
1387 qsb_queue_vbr_parameter_table.bit.taus = 0;
1388 qsb_queue_vbr_parameter_table.bit.ts = 0;
1391 /* Cell Loss Priority (CLP) */
1392 if ( (vcc->atm_options & ATM_ATMOPT_CLP) )
1394 qsb_queue_parameter_table.bit.vbr = 1;
1397 qsb_queue_parameter_table.bit.vbr = 0;
1398 /* Rate Shaper Parameter (TS) and Burst Tolerance Parameter for SCR (tauS) */
1399 tmp = ((qsb_clk * qsb_tstep) >> 5) / qos->txtp.scr + 1;
1400 qsb_queue_vbr_parameter_table.bit.ts = tmp > QSB_TP_TS_MAX ? QSB_TP_TS_MAX : tmp;
1401 tmp = (qos->txtp.mbs - 1) * (qsb_queue_vbr_parameter_table.bit.ts - qsb_queue_parameter_table.bit.tp) / 64;
1403 qsb_queue_vbr_parameter_table.bit.taus = 1;
1404 else if ( tmp > QSB_TAUS_MAX )
1405 qsb_queue_vbr_parameter_table.bit.taus = QSB_TAUS_MAX;
1407 qsb_queue_vbr_parameter_table.bit.taus = tmp;
1411 qsb_queue_vbr_parameter_table.bit.taus = 0;
1412 qsb_queue_vbr_parameter_table.bit.ts = 0;
1415 /* Queue Parameter Table (QPT) */
1416 *QSB_RTM = QSB_RTM_DM_SET(QSB_QPT_SET_MASK);
1417 *QSB_RTD = QSB_RTD_TTV_SET(qsb_queue_parameter_table.dword);
1418 *QSB_RAMAC = QSB_RAMAC_RW_SET(QSB_RAMAC_RW_WRITE) | QSB_RAMAC_TSEL_SET(QSB_RAMAC_TSEL_QPT) | QSB_RAMAC_LH_SET(QSB_RAMAC_LH_LOW) | QSB_RAMAC_TESEL_SET(qsb_qid);
1419 #if defined(DEBUG_QOS) && DEBUG_QOS
1420 if ( (ifx_atm_dbg_enable & DBG_ENABLE_MASK_DUMP_QOS) )
1421 printk("QPT: QSB_RTM (%08X) = 0x%08X, QSB_RTD (%08X) = 0x%08X, QSB_RAMAC (%08X) = 0x%08X\n", (unsigned int)QSB_RTM, *QSB_RTM, (unsigned int)QSB_RTD, *QSB_RTD, (unsigned int)QSB_RAMAC, *QSB_RAMAC);
1423 /* Queue VBR Paramter Table (QVPT) */
1424 *QSB_RTM = QSB_RTM_DM_SET(QSB_QVPT_SET_MASK);
1425 *QSB_RTD = QSB_RTD_TTV_SET(qsb_queue_vbr_parameter_table.dword);
1426 *QSB_RAMAC = QSB_RAMAC_RW_SET(QSB_RAMAC_RW_WRITE) | QSB_RAMAC_TSEL_SET(QSB_RAMAC_TSEL_VBR) | QSB_RAMAC_LH_SET(QSB_RAMAC_LH_LOW) | QSB_RAMAC_TESEL_SET(qsb_qid);
1427 #if defined(DEBUG_QOS) && DEBUG_QOS
1428 if ( (ifx_atm_dbg_enable & DBG_ENABLE_MASK_DUMP_QOS) )
1429 printk("QVPT: QSB_RTM (%08X) = 0x%08X, QSB_RTD (%08X) = 0x%08X, QSB_RAMAC (%08X) = 0x%08X\n", (unsigned int)QSB_RTM, *QSB_RTM, (unsigned int)QSB_RTD, *QSB_RTD, (unsigned int)QSB_RAMAC, *QSB_RAMAC);
1432 #if defined(DEBUG_QOS) && DEBUG_QOS
1433 if ( (ifx_atm_dbg_enable & DBG_ENABLE_MASK_DUMP_QOS) ) {
1434 printk("set_qsb\n");
1435 printk(" qsb_clk = %lu\n", (unsigned long)qsb_clk);
1436 printk(" qsb_queue_parameter_table.bit.tp = %d\n", (int)qsb_queue_parameter_table.bit.tp);
1437 printk(" qsb_queue_parameter_table.bit.wfqf = %d (0x%08X)\n", (int)qsb_queue_parameter_table.bit.wfqf, (int)qsb_queue_parameter_table.bit.wfqf);
1438 printk(" qsb_queue_parameter_table.bit.vbr = %d\n", (int)qsb_queue_parameter_table.bit.vbr);
1439 printk(" qsb_queue_parameter_table.dword = 0x%08X\n", (int)qsb_queue_parameter_table.dword);
1440 printk(" qsb_queue_vbr_parameter_table.bit.ts = %d\n", (int)qsb_queue_vbr_parameter_table.bit.ts);
1441 printk(" qsb_queue_vbr_parameter_table.bit.taus = %d\n", (int)qsb_queue_vbr_parameter_table.bit.taus);
1442 printk(" qsb_queue_vbr_parameter_table.dword = 0x%08X\n", (int)qsb_queue_vbr_parameter_table.dword);
1447 static void qsb_global_set(void)
1449 struct clk *clk = clk_get(0, "fpi");
1450 unsigned int qsb_clk = clk_get_rate(clk);
1452 unsigned int tmp1, tmp2, tmp3;
1454 *QSB_ICDV = QSB_ICDV_TAU_SET(qsb_tau);
1455 *QSB_SBL = QSB_SBL_SBL_SET(qsb_srvm);
1456 *QSB_CFG = QSB_CFG_TSTEPC_SET(qsb_tstep >> 1);
1457 #if defined(DEBUG_QOS) && DEBUG_QOS
1458 if ( (ifx_atm_dbg_enable & DBG_ENABLE_MASK_DUMP_QOS) ) {
1459 printk("qsb_clk = %u\n", qsb_clk);
1460 printk("QSB_ICDV (%08X) = %d (%d), QSB_SBL (%08X) = %d (%d), QSB_CFG (%08X) = %d (%d)\n", (unsigned int)QSB_ICDV, *QSB_ICDV, QSB_ICDV_TAU_SET(qsb_tau), (unsigned int)QSB_SBL, *QSB_SBL, QSB_SBL_SBL_SET(qsb_srvm), (unsigned int)QSB_CFG, *QSB_CFG, QSB_CFG_TSTEPC_SET(qsb_tstep >> 1));
1465 * set SCT and SPT per port
1467 for ( i = 0; i < ATM_PORT_NUMBER; i++ ) {
1468 if ( g_atm_priv_data.port[i].tx_max_cell_rate != 0 ) {
1469 tmp1 = ((qsb_clk * qsb_tstep) >> 1) / g_atm_priv_data.port[i].tx_max_cell_rate;
1470 tmp2 = tmp1 >> 6; /* integer value of Tsb */
1471 tmp3 = (tmp1 & ((1 << 6) - 1)) + 1; /* fractional part of Tsb */
1472 /* carry over to integer part (?) */
1473 if ( tmp3 == (1 << 6) )
1481 /* 2. write value to data transfer register */
1482 /* 3. start the tranfer */
1483 /* SCT (FracRate) */
1484 *QSB_RTM = QSB_RTM_DM_SET(QSB_SET_SCT_MASK);
1485 *QSB_RTD = QSB_RTD_TTV_SET(tmp3);
1486 *QSB_RAMAC = QSB_RAMAC_RW_SET(QSB_RAMAC_RW_WRITE) | QSB_RAMAC_TSEL_SET(QSB_RAMAC_TSEL_SCT) | QSB_RAMAC_LH_SET(QSB_RAMAC_LH_LOW) | QSB_RAMAC_TESEL_SET(i & 0x01);
1487 #if defined(DEBUG_QOS) && DEBUG_QOS
1488 if ( (ifx_atm_dbg_enable & DBG_ENABLE_MASK_DUMP_QOS) )
1489 printk("SCT: QSB_RTM (%08X) = 0x%08X, QSB_RTD (%08X) = 0x%08X, QSB_RAMAC (%08X) = 0x%08X\n", (unsigned int)QSB_RTM, *QSB_RTM, (unsigned int)QSB_RTD, *QSB_RTD, (unsigned int)QSB_RAMAC, *QSB_RAMAC);
1491 /* SPT (SBV + PN + IntRage) */
1492 *QSB_RTM = QSB_RTM_DM_SET(QSB_SET_SPT_MASK);
1493 *QSB_RTD = QSB_RTD_TTV_SET(QSB_SPT_SBV_VALID | QSB_SPT_PN_SET(i & 0x01) | QSB_SPT_INTRATE_SET(tmp2));
1494 *QSB_RAMAC = QSB_RAMAC_RW_SET(QSB_RAMAC_RW_WRITE) | QSB_RAMAC_TSEL_SET(QSB_RAMAC_TSEL_SPT) | QSB_RAMAC_LH_SET(QSB_RAMAC_LH_LOW) | QSB_RAMAC_TESEL_SET(i & 0x01);
1495 #if defined(DEBUG_QOS) && DEBUG_QOS
1496 if ( (ifx_atm_dbg_enable & DBG_ENABLE_MASK_DUMP_QOS) )
1497 printk("SPT: QSB_RTM (%08X) = 0x%08X, QSB_RTD (%08X) = 0x%08X, QSB_RAMAC (%08X) = 0x%08X\n", (unsigned int)QSB_RTM, *QSB_RTM, (unsigned int)QSB_RTD, *QSB_RTD, (unsigned int)QSB_RAMAC, *QSB_RAMAC);
1503 static INLINE void set_htu_entry(unsigned int vpi, unsigned int vci, unsigned int queue, int aal5, int is_retx)
1505 struct htu_entry htu_entry = { res1: 0x00,
1506 clp: is_retx ? 0x01 : 0x00,
1507 pid: g_atm_priv_data.conn[queue].port & 0x01,
1513 struct htu_mask htu_mask = { set: 0x01,
1514 #if !defined(ENABLE_ATM_RETX) || !ENABLE_ATM_RETX
1518 clp: g_retx_htu ? 0x00 : 0x01,
1519 pid_mask: RETX_MODE_CFG->retx_en ? 0x03 : 0x02,
1522 #if !defined(ENABLE_ATM_RETX) || !ENABLE_ATM_RETX
1525 vci_mask: RETX_MODE_CFG->retx_en ? 0xFF00 : 0x0000,
1527 pti_mask: 0x03, // 0xx, user data
1530 struct htu_result htu_result = {res1: 0x00,
1533 type: aal5 ? 0x00 : 0x01,
1538 *HTU_RESULT(queue + OAM_HTU_ENTRY_NUMBER) = htu_result;
1539 *HTU_MASK(queue + OAM_HTU_ENTRY_NUMBER) = htu_mask;
1540 *HTU_ENTRY(queue + OAM_HTU_ENTRY_NUMBER) = htu_entry;
1543 static INLINE void clear_htu_entry(unsigned int queue)
1545 HTU_ENTRY(queue + OAM_HTU_ENTRY_NUMBER)->vld = 0;
1548 static void validate_oam_htu_entry(void)
1550 HTU_ENTRY(OAM_F4_SEG_HTU_ENTRY)->vld = 1;
1551 HTU_ENTRY(OAM_F4_TOT_HTU_ENTRY)->vld = 1;
1552 HTU_ENTRY(OAM_F5_HTU_ENTRY)->vld = 1;
1553 #if defined(ENABLE_ATM_RETX) && ENABLE_ATM_RETX
1554 HTU_ENTRY(OAM_ARQ_HTU_ENTRY)->vld = 1;
1558 static void invalidate_oam_htu_entry(void)
1560 HTU_ENTRY(OAM_F4_SEG_HTU_ENTRY)->vld = 0;
1561 HTU_ENTRY(OAM_F4_TOT_HTU_ENTRY)->vld = 0;
1562 HTU_ENTRY(OAM_F5_HTU_ENTRY)->vld = 0;
1563 #if defined(ENABLE_ATM_RETX) && ENABLE_ATM_RETX
1564 HTU_ENTRY(OAM_ARQ_HTU_ENTRY)->vld = 0;
1568 static INLINE int find_vpi(unsigned int vpi)
1573 for ( i = 0, bit = 1; i < MAX_PVC_NUMBER; i++, bit <<= 1 ) {
1574 if ( (g_atm_priv_data.conn_table & bit) != 0
1575 && g_atm_priv_data.conn[i].vcc != NULL
1576 && vpi == g_atm_priv_data.conn[i].vcc->vpi )
1583 static INLINE int find_vpivci(unsigned int vpi, unsigned int vci)
1588 for ( i = 0, bit = 1; i < MAX_PVC_NUMBER; i++, bit <<= 1 ) {
1589 if ( (g_atm_priv_data.conn_table & bit) != 0
1590 && g_atm_priv_data.conn[i].vcc != NULL
1591 && vpi == g_atm_priv_data.conn[i].vcc->vpi
1592 && vci == g_atm_priv_data.conn[i].vcc->vci )
1599 static INLINE int find_vcc(struct atm_vcc *vcc)
1604 for ( i = 0, bit = 1; i < MAX_PVC_NUMBER; i++, bit <<= 1 ) {
1605 if ( (g_atm_priv_data.conn_table & bit) != 0
1606 && g_atm_priv_data.conn[i].vcc == vcc )
1613 #if defined(ENABLE_ATM_RETX) && ENABLE_ATM_RETX
1615 static void retx_polling_func(unsigned long arg)
1618 volatile struct dsl_param *p_dsl_param;
1623 local_irq_save(sys_flag);
1624 if ( g_retx_playout_buffer == 0 && g_xdata_addr != NULL && (((volatile struct dsl_param *)g_xdata_addr)->RetxEnable || ((volatile struct dsl_param *)g_xdata_addr)->ServiceSpecificReTx) ) {
1625 local_irq_restore(sys_flag);
1626 g_retx_playout_buffer = __get_free_pages(GFP_KERNEL, RETX_PLAYOUT_BUFFER_ORDER);
1627 if ( g_retx_playout_buffer == 0 )
1628 panic("no memory for g_retx_playout_buffer\n");
1629 memset((void *)g_retx_playout_buffer, 0, RETX_PLAYOUT_BUFFER_SIZE);
1630 dma_cache_inv(g_retx_playout_buffer, RETX_PLAYOUT_BUFFER_SIZE);
1633 local_irq_restore(sys_flag);
1636 local_irq_save(sys_flag);
1637 if ( g_xdata_addr != NULL ) {
1638 p_dsl_param = (volatile struct dsl_param *)g_xdata_addr;
1639 g_retx_polling_cnt += RETX_POLLING_INTERVAL;
1641 if ( p_dsl_param->update_flag ) {
1642 do_gettimeofday(&g_retx_polling_start);
1644 g_dsl_param = *p_dsl_param;
1646 // we always enable retx (just for test purpose)
1647 //g_dsl_param.RetxEnable = 1;
1648 //RETX_TSYNC_CFG->fw_alpha = 0;
1650 if ( g_dsl_param.RetxEnable || g_dsl_param.ServiceSpecificReTx ) {
1652 // MIB counter updated for each polling
1653 p_dsl_param->RxDtuCorruptedCNT = *RxDTUCorruptedCNT;
1654 p_dsl_param->RxRetxDtuUnCorrectedCNT = *RxRetxDTUUncorrectedCNT;
1655 p_dsl_param->RxLastEFB = *RxLastEFBCNT;
1656 p_dsl_param->RxDtuCorrectedCNT = *RxDTUCorrectedCNT;
1658 // for RETX paramters, we check only once for every second
1659 if ( g_retx_polling_cnt < HZ )
1660 goto _clear_update_flag;
1662 g_retx_polling_cnt -= HZ;
1664 if ( g_dsl_param.ServiceSpecificReTx && g_dsl_param.ReTxPVC == 0 )
1669 // default fw_alpha equals to default hardware alpha
1670 RETX_TSYNC_CFG->fw_alpha = 0;
1672 RETX_TD_CFG->td_max = g_dsl_param.MaxDelayrt;
1673 RETX_TD_CFG->td_min = g_dsl_param.MinDelayrt;
1675 *RETX_PLAYOUT_BUFFER_BASE = ((((unsigned int)g_retx_playout_buffer | KSEG1) + 15) & 0xFFFFFFF0) >> 2;
1677 if ( g_dsl_param.ServiceSpecificReTx ) {
1678 *RETX_SERVICE_HEADER_CFG= g_dsl_param.ReTxPVC << 4;
1679 if ( g_dsl_param.ReTxPVC == 0 )
1680 *RETX_MASK_HEADER_CFG = 1;
1682 *RETX_MASK_HEADER_CFG = 0;
1685 *RETX_SERVICE_HEADER_CFG= 0;
1686 *RETX_MASK_HEADER_CFG = 0;
1696 RETX_TSYNC_CFG->fw_alpha = 7;
1698 *RETX_SERVICE_HEADER_CFG = 0;
1699 *RETX_MASK_HEADER_CFG = 0;
1705 if ( retx_en != RETX_MODE_CFG->retx_en ) {
1706 unsigned int pid_mask, vci_mask;
1717 max_htu = *CFG_WRX_HTUTS;
1718 for ( i = OAM_HTU_ENTRY_NUMBER; i < max_htu; i++ )
1719 if ( HTU_ENTRY(i)->vld ) {
1720 HTU_MASK(i)->pid_mask = pid_mask;
1721 HTU_MASK(i)->vci_mask = vci_mask;
1725 if ( new_retx_htu != g_retx_htu ) {
1726 int conn, retx_conn;
1728 g_retx_htu = new_retx_htu;
1731 max_htu = *CFG_WRX_HTUTS;
1732 for ( i = OAM_HTU_ENTRY_NUMBER; i < max_htu; i++ )
1733 if ( HTU_ENTRY(i)->vld )
1734 HTU_MASK(i)->clp = 0;
1736 for ( conn = 0; conn < MAX_PVC_NUMBER; conn++ )
1737 if ( g_atm_priv_data.conn[conn].vcc && g_atm_priv_data.conn[conn].vcc->qos.aal == ATM_AAL5 && !HTU_ENTRY(conn + OAM_HTU_ENTRY_NUMBER)->clp ) {
1738 retx_conn = (conn + 8) % 16; // ReTX queue
1740 if ( retx_conn < MAX_PVC_NUMBER && test_and_set_bit(retx_conn, &g_atm_priv_data.conn_table) == 0 ) {
1741 g_atm_priv_data.conn[retx_conn].vcc = g_atm_priv_data.conn[conn].vcc;
1742 set_htu_entry(g_atm_priv_data.conn[conn].vcc->vpi, g_atm_priv_data.conn[conn].vcc->vci, retx_conn, g_atm_priv_data.conn[conn].vcc->qos.aal == ATM_AAL5 ? 1 : 0, 1);
1745 err("Queue number %d for ReTX queue of PVC(%d.%d) is not available!", retx_conn, g_atm_priv_data.conn[conn].vcc->vpi, g_atm_priv_data.conn[conn].vcc->vci);
1751 for ( retx_conn = 0; retx_conn < MAX_PVC_NUMBER; retx_conn++ )
1752 if ( g_atm_priv_data.conn[retx_conn].vcc && HTU_ENTRY(retx_conn + OAM_HTU_ENTRY_NUMBER)->clp ) {
1753 clear_htu_entry(retx_conn);
1754 g_atm_priv_data.conn[retx_conn].vcc = NULL;
1755 g_atm_priv_data.conn[retx_conn].aal5_vcc_crc_err = 0;
1756 g_atm_priv_data.conn[retx_conn].aal5_vcc_oversize_sdu = 0;
1757 clear_bit(retx_conn, &g_atm_priv_data.conn_table);
1760 max_htu = *CFG_WRX_HTUTS;
1761 for ( i = OAM_HTU_ENTRY_NUMBER; i < max_htu; i++ )
1762 if ( HTU_ENTRY(i)->vld )
1763 HTU_MASK(i)->clp = 1;
1767 RETX_MODE_CFG->retx_en = retx_en;
1770 p_dsl_param->update_flag = 0;
1772 do_gettimeofday(&g_retx_polling_end);
1775 g_retx_polling_timer.expires = jiffies + RETX_POLLING_INTERVAL;
1776 add_timer(&g_retx_polling_timer);
1778 local_irq_restore(sys_flag);
1781 static int init_atm_tc_retrans_param(void)
1784 struct DTU_stat_info reset_val;
1786 RETX_MODE_CFG->invld_range = 128;
1787 RETX_MODE_CFG->buff_size = RETX_PLAYOUT_FW_BUFF_SIZE > 4096/32 ? 4096/32 : RETX_PLAYOUT_FW_BUFF_SIZE ;
1788 RETX_MODE_CFG->retx_en = 1;
1790 // default fw_alpha equals to default hardware alpha
1791 RETX_TSYNC_CFG->fw_alpha = 7;
1792 RETX_TSYNC_CFG->sync_inp = 0;
1794 RETX_TD_CFG->td_max = 0;
1795 RETX_TD_CFG->td_min = 0;
1797 // *RETX_PLAYOUT_BUFFER_BASE = KSEG1ADDR(g_retx_playout_buffer); // need " >> 2 " ?
1798 *RETX_PLAYOUT_BUFFER_BASE = ((((unsigned int)g_retx_playout_buffer | KSEG1) + 15) & 0xFFFFFFF0) >> 2;
1800 *RETX_SERVICE_HEADER_CFG = 0;
1801 *RETX_MASK_HEADER_CFG = 0;
1804 RETX_MIB_TIMER_CFG->tick_cycle = 4800;
1805 RETX_MIB_TIMER_CFG->ticks_per_sec = 50000;
1807 *LAST_DTU_SID_IN = 255;
1809 // init DTU_STAT_INFO
1811 memset(&reset_val, 0, sizeof(reset_val));
1812 reset_val.dtu_rd_ptr = reset_val.dtu_wr_ptr = 0xffff;
1814 for(i = 0 ; i < 256; i ++) {
1815 DTU_STAT_INFO[i] = reset_val;
1820 static void clear_atm_tc_retrans_param(void)
1822 if ( g_retx_playout_buffer ) {
1823 free_pages(g_retx_playout_buffer, RETX_PLAYOUT_BUFFER_ORDER);
1824 g_retx_playout_buffer = 0;
1830 #if defined(DEBUG_DUMP_SKB) && DEBUG_DUMP_SKB
1831 static void dump_skb(struct sk_buff *skb, unsigned int len, char *title, int port, int ch, int is_tx)
1835 if ( !(ifx_atm_dbg_enable & (is_tx ? DBG_ENABLE_MASK_DUMP_SKB_TX : DBG_ENABLE_MASK_DUMP_SKB_RX)) )
1838 if ( skb->len < len )
1841 if ( len > RX_DMA_CH_AAL_BUF_SIZE ) {
1842 printk("too big data length: skb = %08x, skb->data = %08x, skb->len = %d\n", (unsigned int)skb, (unsigned int)skb->data, skb->len);
1847 printk("%s (port %d, ch %d)\n", title, port, ch);
1849 printk("%s\n", title);
1850 printk(" skb->data = %08X, skb->tail = %08X, skb->len = %d\n", (unsigned int)skb->data, (unsigned int)skb->tail, (int)skb->len);
1851 for ( i = 1; i <= len; i++ ) {
1853 printk(" %4d:", i - 1);
1854 printk(" %02X", (int)(*((char*)skb->data + i - 1) & 0xFF));
1858 if ( (i - 1) % 16 != 0 )
1863 #if defined(ENABLE_DBG_PROC) && ENABLE_DBG_PROC
1864 static void skb_swap(struct sk_buff *skb, unsigned int byteoff)
1866 unsigned int mac_offset = ~0;
1867 unsigned int ip_offset = ~0;
1868 unsigned char tmp[8];
1869 unsigned char *p = NULL;
1871 skb_pull(skb, byteoff + TX_INBAND_HEADER_LENGTH);
1873 if ( skb->data[0] == 0xAA && skb->data[1] == 0xAA && skb->data[2] == 0x03 ) {
1875 if ( skb->data[3] == 0x00 && skb->data[4] == 0x80 && skb->data[5] == 0xC2 ) {
1877 if ( skb->data[22] == 0x08 && skb->data[23] == 0x00 ) {
1882 else if ( skb->data[31] == 0x21 ) {
1890 if ( skb->data[6] == 0x08 && skb->data[7] == 0x00 ) {
1896 else if ( skb->data[0] == 0xFE && skb->data[1] == 0xFE && skb->data[2] == 0x03 ) {
1898 if ( skb->data[4] == 0x00 && skb->data[5] == 0x21 ) {
1905 if ( skb->data[0] == 0x00 && skb->data[1] == 0x21 ) {
1909 else if ( skb->data[0] == 0x00 && skb->data[1] == 0x00 ) {
1911 if ( skb->data[14] == 0x08 && skb->data[15] ==0x00 ) {
1916 else if ( skb->data[23] == 0x21 ) {
1928 if ( mac_offset != ~0 && !(skb->data[mac_offset] & 0x01) ) {
1929 p = skb->data + mac_offset;
1932 memcpy(p, p + 6, 6);
1933 memcpy(p + 6, tmp, 6);
1937 if ( ip_offset != ~0 ) {
1938 p = skb->data + ip_offset + 12;
1941 memcpy(p, p + 4, 4);
1942 memcpy(p + 4, tmp, 4);
1947 dma_cache_wback((unsigned long)skb->data, (unsigned long)p - (unsigned long)skb->data);
1950 skb_push(skb, byteoff + TX_INBAND_HEADER_LENGTH);
1954 static INLINE void proc_file_create(void)
1956 struct proc_dir_entry *res;
1958 g_atm_dir = proc_mkdir("driver/ifx_atm", NULL);
1960 create_proc_read_entry("version",
1966 res = create_proc_entry("mib",
1969 if ( res != NULL ) {
1970 res->read_proc = proc_read_mib;
1971 res->write_proc = proc_write_mib;
1974 #if defined(ENABLE_ATM_RETX) && ENABLE_ATM_RETX
1975 res = create_proc_entry("retx_mib",
1978 if ( res != NULL ) {
1979 res->read_proc = proc_read_retx_mib;
1980 res->write_proc = proc_write_retx_mib;
1984 #if defined(ENABLE_DBG_PROC) && ENABLE_DBG_PROC
1985 res = create_proc_entry("dbg",
1988 if ( res != NULL ) {
1989 res->read_proc = proc_read_dbg;
1990 res->write_proc = proc_write_dbg;
1993 res = create_proc_entry("mem",
1997 res->write_proc = proc_write_mem;
1999 #if defined(CONFIG_AR9) || defined(CONFIG_VR9) || defined(CONFIG_DANUBE) || defined(CONFIG_AMAZON_SE)
2000 res = create_proc_entry("pp32",
2003 if ( res != NULL ) {
2004 res->read_proc = proc_read_pp32;
2005 res->write_proc = proc_write_pp32;
2010 #if defined(ENABLE_FW_PROC) && ENABLE_FW_PROC
2011 create_proc_read_entry("htu",
2017 create_proc_read_entry("txq",
2023 #if defined(ENABLE_ATM_RETX) && ENABLE_ATM_RETX
2024 create_proc_read_entry("retx_fw",
2030 res = create_proc_entry("retx_stats",
2033 if ( res != NULL ) {
2034 res->read_proc = proc_read_retx_stats;
2035 res->write_proc = proc_write_retx_stats;
2038 res = create_proc_entry("retx_cfg",
2041 if ( res != NULL ) {
2042 res->read_proc = proc_read_retx_cfg;
2043 res->write_proc = proc_write_retx_cfg;
2046 create_proc_read_entry("retx_dsl_param",
2049 proc_read_retx_dsl_param,
2055 static INLINE void proc_file_delete(void)
2057 #if defined(ENABLE_FW_PROC) && ENABLE_FW_PROC
2058 #if defined(ENABLE_ATM_RETX) && ENABLE_ATM_RETX
2059 remove_proc_entry("retx_dsl_param", g_atm_dir);
2061 remove_proc_entry("retx_cfg", g_atm_dir);
2063 remove_proc_entry("retx_stats", g_atm_dir);
2065 remove_proc_entry("retx_fw", g_atm_dir);
2068 remove_proc_entry("txq", g_atm_dir);
2070 remove_proc_entry("htu", g_atm_dir);
2073 #if defined(ENABLE_DBG_PROC) && ENABLE_DBG_PROC
2074 #if defined(CONFIG_AR9) || defined(CONFIG_VR9) || defined(CONFIG_DANUBE) || defined(CONFIG_AMAZON_SE)
2075 remove_proc_entry("pp32", g_atm_dir);
2078 remove_proc_entry("mem", g_atm_dir);
2080 remove_proc_entry("dbg", g_atm_dir);
2083 #if defined(ENABLE_ATM_RETX) && ENABLE_ATM_RETX
2084 remove_proc_entry("retx_mib", g_atm_dir);
2087 remove_proc_entry("mib", g_atm_dir);
2089 remove_proc_entry("version", g_atm_dir);
2091 remove_proc_entry("driver/ifx_atm", NULL);
2094 static int proc_read_version(char *buf, char **start, off_t offset, int count, int *eof, void *data)
2098 len += ifx_atm_version(buf + len);
2100 if ( offset >= len ) {
2105 *start = buf + offset;
2106 if ( (len -= offset) > count )
2112 static int proc_read_mib(char *page, char **start, off_t off, int count, int *eof, void *data)
2116 len += sprintf(page + off + len, "Firmware\n");
2117 len += sprintf(page + off + len, " wrx_drophtu_cell = %u\n", WAN_MIB_TABLE->wrx_drophtu_cell);
2118 len += sprintf(page + off + len, " wrx_dropdes_pdu = %u\n", WAN_MIB_TABLE->wrx_dropdes_pdu);
2119 len += sprintf(page + off + len, " wrx_correct_pdu = %u\n", WAN_MIB_TABLE->wrx_correct_pdu);
2120 len += sprintf(page + off + len, " wrx_err_pdu = %u\n", WAN_MIB_TABLE->wrx_err_pdu);
2121 len += sprintf(page + off + len, " wrx_dropdes_cell = %u\n", WAN_MIB_TABLE->wrx_dropdes_cell);
2122 len += sprintf(page + off + len, " wrx_correct_cell = %u\n", WAN_MIB_TABLE->wrx_correct_cell);
2123 len += sprintf(page + off + len, " wrx_err_cell = %u\n", WAN_MIB_TABLE->wrx_err_cell);
2124 len += sprintf(page + off + len, " wrx_total_byte = %u\n", WAN_MIB_TABLE->wrx_total_byte);
2125 len += sprintf(page + off + len, " wtx_total_pdu = %u\n", WAN_MIB_TABLE->wtx_total_pdu);
2126 len += sprintf(page + off + len, " wtx_total_cell = %u\n", WAN_MIB_TABLE->wtx_total_cell);
2127 len += sprintf(page + off + len, " wtx_total_byte = %u\n", WAN_MIB_TABLE->wtx_total_byte);
2128 len += sprintf(page + off + len, "Driver\n");
2129 len += sprintf(page + off + len, " wrx_pdu = %u\n", g_atm_priv_data.wrx_pdu);
2130 len += sprintf(page + off + len, " wrx_drop_pdu = %u\n", g_atm_priv_data.wrx_drop_pdu);
2131 len += sprintf(page + off + len, " wtx_pdu = %u\n", g_atm_priv_data.wtx_pdu);
2132 len += sprintf(page + off + len, " wtx_err_pdu = %u\n", g_atm_priv_data.wtx_err_pdu);
2133 len += sprintf(page + off + len, " wtx_drop_pdu = %u\n", g_atm_priv_data.wtx_drop_pdu);
2140 static int proc_write_mib(struct file *file, const char *buf, unsigned long count, void *data)
2146 len = count < sizeof(str) ? count : sizeof(str) - 1;
2147 rlen = len - copy_from_user(str, buf, len);
2148 while ( rlen && str[rlen - 1] <= ' ' )
2151 for ( p = str; *p && *p <= ' '; p++, rlen-- );
2155 if ( stricmp(p, "clear") == 0 || stricmp(p, "clear all") == 0
2156 || stricmp(p, "clean") == 0 || stricmp(p, "clean all") == 0 ) {
2157 memset(WAN_MIB_TABLE, 0, sizeof(*WAN_MIB_TABLE));
2158 g_atm_priv_data.wrx_pdu = 0;
2159 g_atm_priv_data.wrx_drop_pdu = 0;
2160 g_atm_priv_data.wtx_pdu = 0;
2161 g_atm_priv_data.wtx_err_pdu = 0;
2162 g_atm_priv_data.wtx_drop_pdu = 0;
2168 #if defined(ENABLE_ATM_RETX) && ENABLE_ATM_RETX
2170 static int proc_read_retx_mib(char *page, char **start, off_t off, int count, int *eof, void *data)
2174 printk("Retx FW DTU MIB :\n");
2175 printk(" rx_total_dtu = %u\n", *URETX_RX_TOTAL_DTU);
2176 printk(" rx_bad_dtu = %u\n", *URETX_RX_BAD_DTU);
2177 printk(" rx_good_dtu = %u\n", *URETX_RX_GOOD_DTU);
2178 printk(" rx_corrected_dtu = %u\n", *URETX_RX_CORRECTED_DTU);
2179 printk(" rx_outofdate_dtu = %u\n", *URETX_RX_OUTOFDATE_DTU);
2180 printk(" rx_duplicate_dtu = %u\n", *URETX_RX_DUPLICATE_DTU);
2181 printk(" rx_timeout_dtu = %u\n", *URETX_RX_TIMEOUT_DTU);
2182 printk(" RxDTURetransmittedCNT = %u\n", *RxDTURetransmittedCNT);
2185 printk("Retx Standard DTU MIB:\n");
2186 printk(" RxLastEFB = %u\n", *RxLastEFBCNT);
2187 printk(" RxDTUCorrectedCNT = %u\n", *RxDTUCorrectedCNT);
2188 printk(" RxDTUCorruptedCNT = %u\n", *RxDTUCorruptedCNT);
2189 printk(" RxRetxDTUUncorrectedCNT = %u\n", *RxRetxDTUUncorrectedCNT);
2192 printk("Retx FW Cell MIB :\n");
2193 printk(" bc0_total_cell = %u\n", *WRX_BC0_CELL_NUM);
2194 printk(" bc0_drop_cell = %u\n", *WRX_BC0_DROP_CELL_NUM);
2195 printk(" bc0_nonretx_cell = %u\n", *WRX_BC0_NONRETX_CELL_NUM);
2196 printk(" bc0_retx_cell = %u\n", *WRX_BC0_RETX_CELL_NUM);
2197 printk(" bc0_outofdate_cell = %u\n", *WRX_BC0_OUTOFDATE_CELL_NUM);
2198 printk(" bc0_directup_cell = %u\n", *WRX_BC0_DIRECTUP_NUM);
2199 printk(" bc0_to_pb_total_cell = %u\n", *WRX_BC0_PBW_TOTAL_NUM);
2200 printk(" bc0_to_pb_succ_cell = %u\n", *WRX_BC0_PBW_SUCC_NUM);
2201 printk(" bc0_to_pb_fail_cell = %u\n", *WRX_BC0_PBW_FAIL_NUM);
2202 printk(" bc1_total_cell = %u\n", *WRX_BC1_CELL_NUM);
2206 printk("ATM Rx AAL5/OAM MIB:\n");
2207 printk(" wrx_drophtu_cell = %u\n", WAN_MIB_TABLE->wrx_drophtu_cell);
2208 printk(" wrx_dropdes_pdu = %u\n", WAN_MIB_TABLE->wrx_dropdes_pdu);
2210 printk(" wrx_correct_pdu = %-10u ", WAN_MIB_TABLE->wrx_correct_pdu);
2211 if ( WAN_MIB_TABLE->wrx_correct_pdu == 0 )
2217 for ( i = 0; i < 16; ++i ) {
2218 if ( WRX_PER_PVC_CORRECT_PDU_BASE[i] )
2219 printk("q%-2d = %-10u , ", i, WRX_PER_PVC_CORRECT_PDU_BASE[i]);
2224 printk(" wrx_err_pdu = %-10u ", WAN_MIB_TABLE->wrx_err_pdu);
2225 if ( WAN_MIB_TABLE->wrx_err_pdu == 0 )
2231 for ( i = 0; i < 16; ++i ) {
2232 if ( WRX_PER_PVC_ERROR_PDU_BASE[i] )
2233 printk("q%-2d = %-10u , ", i, WRX_PER_PVC_ERROR_PDU_BASE[i] );
2238 printk(" wrx_dropdes_cell = %u\n", WAN_MIB_TABLE->wrx_dropdes_cell);
2239 printk(" wrx_correct_cell = %u\n", WAN_MIB_TABLE->wrx_correct_cell);
2240 printk(" wrx_err_cell = %u\n", WAN_MIB_TABLE->wrx_err_cell);
2241 printk(" wrx_total_byte = %u\n", WAN_MIB_TABLE->wrx_total_byte);
2244 printk("ATM Tx MIB:\n");
2245 printk(" wtx_total_pdu = %u\n", WAN_MIB_TABLE->wtx_total_pdu);
2246 printk(" wtx_total_cell = %u\n", WAN_MIB_TABLE->wtx_total_cell);
2247 printk(" wtx_total_byte = %u\n", WAN_MIB_TABLE->wtx_total_byte);
2250 printk("Debugging Info:\n");
2251 printk(" Firmware version = %d.%d.%d.%d.%d.%d\n",
2252 (int)FW_VER_ID->family, (int)FW_VER_ID->fwtype, (int)FW_VER_ID->interface,
2253 (int)FW_VER_ID->fwmode, (int)FW_VER_ID->major, (int)FW_VER_ID->minor);
2255 printk(" retx_alpha_switch_to_hunt_times = %u\n", *URETX_ALPHA_SWITCH_TO_HUNT_TIMES);
2264 static int proc_write_retx_mib(struct file *file, const char *buf, unsigned long count, void *data)
2271 len = count < sizeof(str) ? count : sizeof(str) - 1;
2272 rlen = len - copy_from_user(str, buf, len);
2273 while ( rlen && str[rlen - 1] <= ' ' )
2276 for ( p = str; *p && *p <= ' '; p++, rlen-- );
2280 if ( stricmp(p, "clean") == 0 || stricmp(p, "clear") == 0 || stricmp(p, "clear_all") == 0) {
2281 *URETX_RX_TOTAL_DTU = 0;
2282 *URETX_RX_BAD_DTU = 0;
2283 *URETX_RX_GOOD_DTU = 0;
2284 *URETX_RX_CORRECTED_DTU = 0;
2285 *URETX_RX_OUTOFDATE_DTU = 0;
2286 *URETX_RX_DUPLICATE_DTU = 0;
2287 *URETX_RX_TIMEOUT_DTU = 0;
2288 *RxDTURetransmittedCNT = 0;
2290 *WRX_BC0_CELL_NUM = 0;
2291 *WRX_BC0_DROP_CELL_NUM = 0;
2292 *WRX_BC0_NONRETX_CELL_NUM = 0;
2293 *WRX_BC0_RETX_CELL_NUM = 0;
2294 *WRX_BC0_OUTOFDATE_CELL_NUM = 0;
2295 *WRX_BC0_DIRECTUP_NUM = 0;
2296 *WRX_BC0_PBW_TOTAL_NUM = 0;
2297 *WRX_BC0_PBW_SUCC_NUM = 0;
2298 *WRX_BC0_PBW_FAIL_NUM = 0;
2299 *WRX_BC1_CELL_NUM = 0;
2301 for ( i = 0; i < 16; ++i ) {
2302 WRX_PER_PVC_CORRECT_PDU_BASE[i] = 0;
2303 WRX_PER_PVC_ERROR_PDU_BASE[i] = 0;
2306 WAN_MIB_TABLE->wrx_drophtu_cell = 0;
2307 WAN_MIB_TABLE->wrx_dropdes_pdu = 0;
2308 WAN_MIB_TABLE->wrx_correct_pdu = 0;
2309 WAN_MIB_TABLE->wrx_err_pdu = 0;
2310 WAN_MIB_TABLE->wrx_dropdes_cell = 0;
2311 WAN_MIB_TABLE->wrx_correct_cell = 0;
2312 WAN_MIB_TABLE->wrx_err_cell = 0;
2313 WAN_MIB_TABLE->wrx_total_byte = 0;
2315 WAN_MIB_TABLE->wtx_total_pdu = 0;
2316 WAN_MIB_TABLE->wtx_total_cell = 0;
2317 WAN_MIB_TABLE->wtx_total_byte = 0;
2319 *URETX_ALPHA_SWITCH_TO_HUNT_TIMES = 0;
2321 if (stricmp(p, "clear_all") == 0) {
2323 *RxDTUCorrectedCNT = 0;
2324 *RxDTUCorruptedCNT = 0;
2325 *RxRetxDTUUncorrectedCNT = 0;
2334 #if defined(ENABLE_DBG_PROC) && ENABLE_DBG_PROC
2336 static int proc_read_dbg(char *page, char **start, off_t off, int count, int *eof, void *data)
2340 len += sprintf(page + off + len, "error print - %s\n", (ifx_atm_dbg_enable & DBG_ENABLE_MASK_ERR) ? "enabled" : "disabled");
2341 len += sprintf(page + off + len, "debug print - %s\n", (ifx_atm_dbg_enable & DBG_ENABLE_MASK_DEBUG_PRINT) ? "enabled" : "disabled");
2342 len += sprintf(page + off + len, "assert - %s\n", (ifx_atm_dbg_enable & DBG_ENABLE_MASK_ASSERT) ? "enabled" : "disabled");
2343 len += sprintf(page + off + len, "dump rx skb - %s\n", (ifx_atm_dbg_enable & DBG_ENABLE_MASK_DUMP_SKB_RX) ? "enabled" : "disabled");
2344 len += sprintf(page + off + len, "dump tx skb - %s\n", (ifx_atm_dbg_enable & DBG_ENABLE_MASK_DUMP_SKB_TX) ? "enabled" : "disabled");
2345 len += sprintf(page + off + len, "qos - %s\n", (ifx_atm_dbg_enable & DBG_ENABLE_MASK_DUMP_QOS) ? "enabled" : "disabled");
2346 len += sprintf(page + off + len, "dump init - %s\n", (ifx_atm_dbg_enable & DBG_ENABLE_MASK_DUMP_INIT) ? "enabled" : "disabled");
2347 len += sprintf(page + off + len, "mac swap - %s\n", (ifx_atm_dbg_enable & DBG_ENABLE_MASK_MAC_SWAP) ? "enabled" : "disabled");
2354 static int proc_write_dbg(struct file *file, const char *buf, unsigned long count, void *data)
2356 static const char *dbg_enable_mask_str[] = {
2375 static const int dbg_enable_mask_str_len[] = {
2386 unsigned int dbg_enable_mask[] = {
2387 DBG_ENABLE_MASK_ERR,
2388 DBG_ENABLE_MASK_DEBUG_PRINT,
2389 DBG_ENABLE_MASK_ASSERT,
2390 DBG_ENABLE_MASK_DUMP_SKB_RX,
2391 DBG_ENABLE_MASK_DUMP_SKB_TX,
2392 DBG_ENABLE_MASK_DUMP_QOS,
2393 DBG_ENABLE_MASK_DUMP_INIT,
2394 DBG_ENABLE_MASK_MAC_SWAP,
2399 int str_buff_len = 1024;
2407 str = vmalloc(str_buff_len);
2412 len = count < str_buff_len ? count : str_buff_len - 1;
2413 rlen = len - copy_from_user(str, buf, len);
2414 while ( rlen && str[rlen - 1] <= ' ' )
2417 for ( p = str; *p && *p <= ' '; p++, rlen-- );
2423 if ( strincmp(p, "enable", 6) == 0 ) {
2427 else if ( strincmp(p, "disable", 7) == 0 ) {
2431 else if ( strincmp(p, "help", 4) == 0 || *p == '?' ) {
2432 printk("echo <enable/disable> [err/dbg/assert/rx/tx/init/all] > /proc/eth/dbg\n");
2438 ifx_atm_dbg_enable |= DBG_ENABLE_MASK_ALL & ~DBG_ENABLE_MASK_MAC_SWAP;
2440 ifx_atm_dbg_enable &= ~DBG_ENABLE_MASK_ALL | DBG_ENABLE_MASK_MAC_SWAP;
2444 for ( i = 0; i < NUM_ENTITY(dbg_enable_mask_str); i++ )
2445 if ( strincmp(p, dbg_enable_mask_str[i], dbg_enable_mask_str_len[i]) == 0 ) {
2447 ifx_atm_dbg_enable |= dbg_enable_mask[i >> 1];
2449 ifx_atm_dbg_enable &= ~dbg_enable_mask[i >> 1];
2450 p += dbg_enable_mask_str_len[i];
2453 } while ( i < NUM_ENTITY(dbg_enable_mask_str) );
2461 static inline unsigned long sb_addr_to_fpi_addr_convert(unsigned long sb_addr)
2463 #define PP32_SB_ADDR_END 0xFFFF
2465 if ( sb_addr < PP32_SB_ADDR_END )
2466 return (unsigned long)SB_BUFFER(sb_addr);
2471 static int proc_write_mem(struct file *file, const char *buf, unsigned long count, void *data)
2478 int local_buf_size = 1024;
2479 char *local_buf = NULL;
2481 local_buf = vmalloc(local_buf_size);
2486 len = local_buf_size < count ? local_buf_size - 1 : count;
2487 len = len - copy_from_user(local_buf, buf, len);
2492 while ( get_token(&p1, &p2, &len, &colon) ) {
2493 if ( stricmp(p1, "w") == 0 || stricmp(p1, "write") == 0 || stricmp(p1, "r") == 0 || stricmp(p1, "read") == 0 )
2501 ignore_space(&p2, &len);
2502 p = (unsigned long *)get_number(&p2, &len, 1);
2503 p = (unsigned long *)sb_addr_to_fpi_addr_convert((unsigned long)p);
2505 if ( (unsigned int)p >= KSEG0 )
2507 ignore_space(&p2, &len);
2508 if ( !len || !((*p2 >= '0' && *p2 <= '9') || (*p2 >= 'a' && *p2 <= 'f') || (*p2 >= 'A' && *p2 <= 'F')) )
2511 *p++ = (unsigned int)get_number(&p2, &len, 1);
2514 else if ( *p1 == 'r' ) {
2515 ignore_space(&p2, &len);
2516 p = (unsigned long *)get_number(&p2, &len, 1);
2517 p = (unsigned long *)sb_addr_to_fpi_addr_convert((unsigned long)p);
2519 if ( (unsigned int)p >= KSEG0 ) {
2520 ignore_space(&p2, &len);
2521 n = (int)get_number(&p2, &len, 0);
2529 n += (l = ((int)p >> 2) & 0x03);
2530 p = (unsigned long *)((unsigned int)p & ~0x0F);
2531 for ( i = 0; i < n; i++ ) {
2532 if ( (i & 0x03) == 0 ) {
2533 printk("%08X:", (unsigned int)p);
2541 data = (unsigned int)*p;
2542 printk(" %08X", data);
2543 for ( k = 0; k < 4; k++ ) {
2544 c = ((char*)&data)[k];
2545 pch[k] = c < ' ' ? '.' : c;
2550 if ( (i & 0x03) == 0x03 ) {
2552 printk(" ; %s\n", str);
2555 if ( (n & 0x03) != 0x00 ) {
2556 for ( k = 4 - (n & 0x03); k > 0; k-- )
2559 printk(" ; %s\n", str);
2569 #if defined(CONFIG_AR9) || defined(CONFIG_VR9)
2571 static int proc_read_pp32(char *page, char **start, off_t off, int count, int *eof, void *data)
2573 static const char *stron = " on";
2574 static const char *stroff = "off";
2585 for ( pp32 = 0; pp32 < NUM_OF_PP32; pp32++ ) {
2588 len += sprintf(page + off + len, "===== pp32 core %d =====\n", pp32);
2591 if ( (*PP32_FREEZE & (1 << (pp32 << 4))) != 0 ) {
2592 sprintf(str, "freezed");
2599 else if ( PP32_CPU_USER_STOPPED(pp32) || PP32_CPU_USER_BREAKIN_RCV(pp32) || PP32_CPU_USER_BREAKPOINT_MET(pp32) ) {
2601 if ( PP32_CPU_USER_STOPPED(pp32) )
2602 strlength += sprintf(str + strlength, "stopped");
2603 if ( PP32_CPU_USER_BREAKPOINT_MET(pp32) )
2604 strlength += sprintf(str + strlength, strlength ? " | breakpoint" : "breakpoint");
2605 if ( PP32_CPU_USER_BREAKIN_RCV(pp32) )
2606 strlength += sprintf(str + strlength, strlength ? " | breakin" : "breakin");
2610 else if ( PP32_CPU_CUR_PC(pp32) == PP32_CPU_CUR_PC(pp32) ) {
2611 sprintf(str, "hang");
2616 sprintf(str, "running");
2617 cur_context = PP32_BRK_CUR_CONTEXT(pp32);
2618 len += sprintf(page + off + len, "Context: %d, PC: 0x%04x, %s\n", cur_context, PP32_CPU_CUR_PC(pp32), str);
2620 if ( PP32_CPU_USER_BREAKPOINT_MET(pp32) ) {
2622 if ( PP32_BRK_PC_MET(pp32, 0) )
2623 strlength += sprintf(str + strlength, "pc0");
2624 if ( PP32_BRK_PC_MET(pp32, 1) )
2625 strlength += sprintf(str + strlength, strlength ? " | pc1" : "pc1");
2626 if ( PP32_BRK_DATA_ADDR_MET(pp32, 0) )
2627 strlength += sprintf(str + strlength, strlength ? " | daddr0" : "daddr0");
2628 if ( PP32_BRK_DATA_ADDR_MET(pp32, 1) )
2629 strlength += sprintf(str + strlength, strlength ? " | daddr1" : "daddr1");
2630 if ( PP32_BRK_DATA_VALUE_RD_MET(pp32, 0) ) {
2631 strlength += sprintf(str + strlength, strlength ? " | rdval0" : "rdval0");
2632 if ( PP32_BRK_DATA_VALUE_RD_LO_EQ(pp32, 0) ) {
2633 if ( PP32_BRK_DATA_VALUE_RD_GT_EQ(pp32, 0) )
2634 strlength += sprintf(str + strlength, " ==");
2636 strlength += sprintf(str + strlength, " <=");
2638 else if ( PP32_BRK_DATA_VALUE_RD_GT_EQ(pp32, 0) )
2639 strlength += sprintf(str + strlength, " >=");
2641 if ( PP32_BRK_DATA_VALUE_RD_MET(pp32, 1) ) {
2642 strlength += sprintf(str + strlength, strlength ? " | rdval1" : "rdval1");
2643 if ( PP32_BRK_DATA_VALUE_RD_LO_EQ(pp32, 1) ) {
2644 if ( PP32_BRK_DATA_VALUE_RD_GT_EQ(pp32, 1) )
2645 strlength += sprintf(str + strlength, " ==");
2647 strlength += sprintf(str + strlength, " <=");
2649 else if ( PP32_BRK_DATA_VALUE_RD_GT_EQ(pp32, 1) )
2650 strlength += sprintf(str + strlength, " >=");
2652 if ( PP32_BRK_DATA_VALUE_WR_MET(pp32, 0) ) {
2653 strlength += sprintf(str + strlength, strlength ? " | wtval0" : "wtval0");
2654 if ( PP32_BRK_DATA_VALUE_WR_LO_EQ(pp32, 0) ) {
2655 if ( PP32_BRK_DATA_VALUE_WR_GT_EQ(pp32, 0) )
2656 strlength += sprintf(str + strlength, " ==");
2658 strlength += sprintf(str + strlength, " <=");
2660 else if ( PP32_BRK_DATA_VALUE_WR_GT_EQ(pp32, 0) )
2661 strlength += sprintf(str + strlength, " >=");
2663 if ( PP32_BRK_DATA_VALUE_WR_MET(pp32, 1) ) {
2664 strlength += sprintf(str + strlength, strlength ? " | wtval1" : "wtval1");
2665 if ( PP32_BRK_DATA_VALUE_WR_LO_EQ(pp32, 1) ) {
2666 if ( PP32_BRK_DATA_VALUE_WR_GT_EQ(pp32, 1) )
2667 strlength += sprintf(str + strlength, " ==");
2669 strlength += sprintf(str + strlength, " <=");
2671 else if ( PP32_BRK_DATA_VALUE_WR_GT_EQ(pp32, 1) )
2672 strlength += sprintf(str + strlength, " >=");
2674 len += sprintf(page + off + len, "break reason: %s\n", str);
2679 len += sprintf(page + off + len, "General Purpose Register (Context %d):\n", cur_context);
2680 for ( i = 0; i < 4; i++ ) {
2681 for ( j = 0; j < 4; j++ )
2682 len += sprintf(page + off + len, " %2d: %08x", i + j * 4, *PP32_GP_CONTEXTi_REGn(pp32, cur_context, i + j * 4));
2683 len += sprintf(page + off + len, "\n");
2687 len += sprintf(page + off + len, "break out on: break in - %s, stop - %s\n",
2688 PP32_CTRL_OPT_BREAKOUT_ON_BREAKIN(pp32) ? stron : stroff,
2689 PP32_CTRL_OPT_BREAKOUT_ON_STOP(pp32) ? stron : stroff);
2690 len += sprintf(page + off + len, " stop on: break in - %s, break point - %s\n",
2691 PP32_CTRL_OPT_STOP_ON_BREAKIN(pp32) ? stron : stroff,
2692 PP32_CTRL_OPT_STOP_ON_BREAKPOINT(pp32) ? stron : stroff);
2693 len += sprintf(page + off + len, "breakpoint:\n");
2694 len += sprintf(page + off + len, " pc0: 0x%08x, %s\n", *PP32_BRK_PC(pp32, 0), PP32_BRK_GRPi_PCn(pp32, 0, 0) ? "group 0" : "off");
2695 len += sprintf(page + off + len, " pc1: 0x%08x, %s\n", *PP32_BRK_PC(pp32, 1), PP32_BRK_GRPi_PCn(pp32, 1, 1) ? "group 1" : "off");
2696 len += sprintf(page + off + len, " daddr0: 0x%08x, %s\n", *PP32_BRK_DATA_ADDR(pp32, 0), PP32_BRK_GRPi_DATA_ADDRn(pp32, 0, 0) ? "group 0" : "off");
2697 len += sprintf(page + off + len, " daddr1: 0x%08x, %s\n", *PP32_BRK_DATA_ADDR(pp32, 1), PP32_BRK_GRPi_DATA_ADDRn(pp32, 1, 1) ? "group 1" : "off");
2698 len += sprintf(page + off + len, " rdval0: 0x%08x\n", *PP32_BRK_DATA_VALUE_RD(pp32, 0));
2699 len += sprintf(page + off + len, " rdval1: 0x%08x\n", *PP32_BRK_DATA_VALUE_RD(pp32, 1));
2700 len += sprintf(page + off + len, " wrval0: 0x%08x\n", *PP32_BRK_DATA_VALUE_WR(pp32, 0));
2701 len += sprintf(page + off + len, " wrval1: 0x%08x\n", *PP32_BRK_DATA_VALUE_WR(pp32, 1));
2709 static int proc_write_pp32(struct file *file, const char *buf, unsigned long count, void *data)
2714 int str_buff_len = 1024;
2720 str = vmalloc(str_buff_len);
2725 len = count < str_buff_len ? count : str_buff_len - 1;
2726 rlen = len - copy_from_user(str, buf, len);
2727 while ( rlen && str[rlen - 1] <= ' ' )
2730 for ( p = str; *p && *p <= ' '; p++, rlen-- );
2736 if ( strincmp(p, "pp32 ", 5) == 0 ) {
2740 while ( rlen > 0 && *p >= '0' && *p <= '9' ) {
2745 while ( rlen > 0 && *p && *p <= ' ' ) {
2750 if ( pp32 >= NUM_OF_PP32 ) {
2751 err("incorrect pp32 index - %d", pp32);
2757 if ( stricmp(p, "start") == 0 )
2758 *PP32_CTRL_CMD(pp32) = PP32_CTRL_CMD_RESTART;
2759 else if ( stricmp(p, "stop") == 0 )
2760 *PP32_CTRL_CMD(pp32) = PP32_CTRL_CMD_STOP;
2761 else if ( stricmp(p, "step") == 0 )
2762 *PP32_CTRL_CMD(pp32) = PP32_CTRL_CMD_STEP;
2764 else if ( stricmp(p, "restart") == 0 )
2765 *PP32_FREEZE &= ~(1 << (pp32 << 4));
2766 else if ( stricmp(p, "freeze") == 0 )
2767 *PP32_FREEZE |= 1 << (pp32 << 4);
2769 else if ( strincmp(p, "pc0 ", 4) == 0 ) {
2772 if ( stricmp(p, "off") == 0 ) {
2773 *PP32_BRK_TRIG(pp32) = PP32_BRK_GRPi_PCn_OFF(0, 0);
2774 *PP32_BRK_PC_MASK(pp32, 0) = PP32_BRK_CONTEXT_MASK_EN;
2775 *PP32_BRK_PC(pp32, 0) = 0;
2778 addr = get_number(&p, &rlen, 1);
2779 *PP32_BRK_PC(pp32, 0) = addr;
2780 *PP32_BRK_PC_MASK(pp32, 0) = PP32_BRK_CONTEXT_MASK_EN | PP32_BRK_CONTEXT_MASK(0) | PP32_BRK_CONTEXT_MASK(1) | PP32_BRK_CONTEXT_MASK(2) | PP32_BRK_CONTEXT_MASK(3);
2781 *PP32_BRK_TRIG(pp32) = PP32_BRK_GRPi_PCn_ON(0, 0);
2784 else if ( strincmp(p, "pc1 ", 4) == 0 ) {
2787 if ( stricmp(p, "off") == 0 ) {
2788 *PP32_BRK_TRIG(pp32) = PP32_BRK_GRPi_PCn_OFF(1, 1);
2789 *PP32_BRK_PC_MASK(pp32, 1) = PP32_BRK_CONTEXT_MASK_EN;
2790 *PP32_BRK_PC(pp32, 1) = 0;
2793 addr = get_number(&p, &rlen, 1);
2794 *PP32_BRK_PC(pp32, 1) = addr;
2795 *PP32_BRK_PC_MASK(pp32, 1) = PP32_BRK_CONTEXT_MASK_EN | PP32_BRK_CONTEXT_MASK(0) | PP32_BRK_CONTEXT_MASK(1) | PP32_BRK_CONTEXT_MASK(2) | PP32_BRK_CONTEXT_MASK(3);
2796 *PP32_BRK_TRIG(pp32) = PP32_BRK_GRPi_PCn_ON(1, 1);
2799 else if ( strincmp(p, "daddr0 ", 7) == 0 ) {
2802 if ( stricmp(p, "off") == 0 ) {
2803 *PP32_BRK_TRIG(pp32) = PP32_BRK_GRPi_DATA_ADDRn_OFF(0, 0);
2804 *PP32_BRK_DATA_ADDR_MASK(pp32, 0) = PP32_BRK_CONTEXT_MASK_EN;
2805 *PP32_BRK_DATA_ADDR(pp32, 0) = 0;
2808 addr = get_number(&p, &rlen, 1);
2809 *PP32_BRK_DATA_ADDR(pp32, 0) = addr;
2810 *PP32_BRK_DATA_ADDR_MASK(pp32, 0) = PP32_BRK_CONTEXT_MASK_EN | PP32_BRK_CONTEXT_MASK(0) | PP32_BRK_CONTEXT_MASK(1) | PP32_BRK_CONTEXT_MASK(2) | PP32_BRK_CONTEXT_MASK(3);
2811 *PP32_BRK_TRIG(pp32) = PP32_BRK_GRPi_DATA_ADDRn_ON(0, 0);
2814 else if ( strincmp(p, "daddr1 ", 7) == 0 ) {
2817 if ( stricmp(p, "off") == 0 ) {
2818 *PP32_BRK_TRIG(pp32) = PP32_BRK_GRPi_DATA_ADDRn_OFF(1, 1);
2819 *PP32_BRK_DATA_ADDR_MASK(pp32, 1) = PP32_BRK_CONTEXT_MASK_EN;
2820 *PP32_BRK_DATA_ADDR(pp32, 1) = 0;
2823 addr = get_number(&p, &rlen, 1);
2824 *PP32_BRK_DATA_ADDR(pp32, 1) = addr;
2825 *PP32_BRK_DATA_ADDR_MASK(pp32, 1) = PP32_BRK_CONTEXT_MASK_EN | PP32_BRK_CONTEXT_MASK(0) | PP32_BRK_CONTEXT_MASK(1) | PP32_BRK_CONTEXT_MASK(2) | PP32_BRK_CONTEXT_MASK(3);
2826 *PP32_BRK_TRIG(pp32) = PP32_BRK_GRPi_DATA_ADDRn_ON(1, 1);
2831 printk("echo \"<command>\" > /proc/driver/ifx_ptm/pp32\n");
2832 printk(" command:\n");
2833 printk(" start - run pp32\n");
2834 printk(" stop - stop pp32\n");
2835 printk(" step - run pp32 with one step only\n");
2836 printk(" pc0 - pc0 <addr>/off, set break point PC0\n");
2837 printk(" pc1 - pc1 <addr>/off, set break point PC1\n");
2838 printk(" daddr0 - daddr0 <addr>/off, set break point data address 0\n");
2839 printk(" daddr0 - daddr1 <addr>/off, set break point data address 1\n");
2840 printk(" help - print this screen\n");
2843 if ( *PP32_BRK_TRIG(pp32) )
2844 *PP32_CTRL_OPT(pp32) = PP32_CTRL_OPT_STOP_ON_BREAKPOINT_ON;
2846 *PP32_CTRL_OPT(pp32) = PP32_CTRL_OPT_STOP_ON_BREAKPOINT_OFF;
2851 #elif defined(CONFIG_DANUBE)
2853 static int proc_read_pp32(char *page, char **start, off_t off, int count, int *eof, void *data)
2855 static const char *halt_stat[] = {
2864 static const char *brk_src_data[] = {
2874 static const char *brk_src_code[] = {
2885 tsk = *PP32_DBG_TASK_NO & 0x03;
2886 len += sprintf(page + off + len, "Task No %d, PC %04x\n", tsk, *PP32_DBG_CUR_PC & 0xFFFF);
2888 if ( !(*PP32_HALT_STAT & 0x01) )
2889 len += sprintf(page + off + len, " Halt State: Running\n");
2891 len += sprintf(page + off + len, " Halt State: Stopped");
2893 for ( bit = 2, i = 0; bit <= (1 << 7); bit <<= 1, i++ )
2894 if ( (*PP32_HALT_STAT & bit) ) {
2896 len += sprintf(page + off + len, ", ");
2900 len += sprintf(page + off + len, " | ");
2901 len += sprintf(page + off + len, halt_stat[i]);
2904 len += sprintf(page + off + len, "\n");
2906 len += sprintf(page + off + len, " Regs (Task %d):\n", tsk);
2907 for ( i = 0; i < 8; i++ )
2908 len += sprintf(page + off + len, " %2d. %08x %2d. %08x\n", i, *PP32_DBG_REG_BASE(tsk, i), i + 8, *PP32_DBG_REG_BASE(tsk, i + 8));
2911 len += sprintf(page + off + len, " Break Src: data1 - %s, data0 - %s, pc3 - %s, pc2 - %s, pc1 - %s, pc0 - %s\n",
2912 brk_src_data[(*PP32_BRK_SRC >> 11) & 0x07],
2913 brk_src_data[(*PP32_BRK_SRC >> 8) & 0x07],
2914 brk_src_code[(*PP32_BRK_SRC >> 3) & 0x01],
2915 brk_src_code[(*PP32_BRK_SRC >> 2) & 0x01],
2916 brk_src_code[(*PP32_BRK_SRC >> 1) & 0x01],
2917 brk_src_code[*PP32_BRK_SRC & 0x01]);
2919 for ( i = 0; i < 4; i++ )
2920 len += sprintf(page + off + len, " pc%d: %04x - %04x\n", i, *PP32_DBG_PC_MIN(i), *PP32_DBG_PC_MAX(i));
2922 for ( i = 0; i < 2; i++ )
2923 len += sprintf(page + off + len, " data%d: %04x - %04x (%08x)\n", i, *PP32_DBG_DATA_MIN(i), *PP32_DBG_DATA_MAX(i), *PP32_DBG_DATA_VAL(i));
2930 static int proc_write_pp32(struct file *file, const char *buf, unsigned long count, void *data)
2936 int str_buff_len = 2048;
2937 str = vmalloc(str_buff_len);
2941 len = count < str_buff_len ? count : str_buff_len - 1;
2942 rlen = len - copy_from_user(str, buf, len);
2943 while ( rlen && str[rlen - 1] <= ' ' )
2946 for ( p = str; *p && *p <= ' '; p++, rlen-- );
2951 if ( stricmp(p, "start") == 0 )
2952 *PP32_DBG_CTRL = DBG_CTRL_START_SET(1);
2953 else if ( stricmp(p, "stop") == 0 )
2954 *PP32_DBG_CTRL = DBG_CTRL_STOP_SET(1);
2955 else if ( stricmp(p, "step") == 0 )
2956 *PP32_DBG_CTRL = DBG_CTRL_STEP_SET(1);
2957 else if ( strincmp(p, "pc", 2) == 0 && p[2] >= '0' && p[2] <= '3' && p[3] <= ' ' ) {
2959 int on_off_flag = -1;
2960 int addr_min, addr_max;
2964 ignore_space(&p, &rlen);
2966 if ( strincmp(p, "off", 3) == 0 && p[3] <= ' ' ) {
2971 else if ( strincmp(p, "on", 2) == 0 && p[2] <= ' ' ) {
2976 ignore_space(&p, &rlen);
2979 addr_min = get_number(&p, &rlen, 1);
2980 ignore_space(&p, &rlen);
2982 addr_max = get_number(&p, &rlen, 1);
2984 addr_max = addr_min;
2986 *PP32_DBG_PC_MIN(n) = addr_min;
2987 *PP32_DBG_PC_MAX(n) = addr_max;
2990 if ( on_off_flag == 0 )
2991 *PP32_BRK_SRC &= ~(1 << n);
2992 else if ( on_off_flag > 0 )
2993 *PP32_BRK_SRC |= 1 << n;
2995 else if ( strincmp(p, "data", 4) == 0 && p[4] >= '0' && p[4] <= '1' && p[5] <= ' ' ) {
2996 const static char *data_cmd_str[] = {"r", "w", "rw", "w=", "off", "min", "min addr", "max", "max addr", "val", "value"};
2997 const static int data_cmd_len[] = {1, 1, 2, 2, 3, 3, 8, 3, 8, 3, 5};
2998 const static int data_cmd_idx[] = {1, 2, 3, 4, 0, 5, 5, 6, 6, 7, 7};
3000 int on_off_flag = -1, on_off_mask = 0;
3001 int addr_min = -1, addr_max = -1;
3002 int value = 0, f_got_value = 0;
3011 ignore_space(&p, &rlen);
3014 for ( i = 0; i < NUM_ENTITY(data_cmd_str); i++ )
3015 if ( strincmp(p, data_cmd_str[i], data_cmd_len[i]) == 0 && p[data_cmd_len[i]] <= ' ' ) {
3016 p += data_cmd_len[i];
3017 rlen -= data_cmd_len[i];
3018 stat = data_cmd_idx[i];
3025 if ( i == NUM_ENTITY(data_cmd_str) ) {
3026 if ( (*p >= '0' && *p <= '9') || (*p >= 'a' && *p <= 'f') || (*p >= 'A' && *p <= 'F') ) {
3027 tmp = get_number(&p, &rlen, 1);
3032 else if ( stat >= 7 ) {
3042 for ( ; rlen && *p > ' '; rlen--, p++ );
3046 if ( addr_min >= 0 )
3047 *PP32_DBG_DATA_MIN(n) = *PP32_DBG_DATA_MAX(n) = addr_min;
3048 if ( addr_max >= 0 )
3049 *PP32_DBG_DATA_MAX(n) = addr_max;
3051 *PP32_DBG_DATA_VAL(n) = value;
3052 if ( on_off_mask && on_off_flag >= 0 ) {
3053 on_off_flag <<= n ? 11 : 8;
3054 on_off_mask <<= n ? 11 : 8;
3055 *PP32_BRK_SRC = (*PP32_BRK_SRC & ~on_off_mask) | on_off_flag;
3059 printk("echo \"<command>\" > /proc/eth/etop\n");
3060 printk(" command:\n");
3061 printk(" start - run pp32\n");
3062 printk(" stop - stop pp32\n");
3063 printk(" step - run pp32 with one step only\n");
3064 printk(" pc - pc? [on/off] [min addr] [max addr], set PC break point\n");
3065 printk(" data - data? [r/w/rw/w=/off] [min <addr>] [max <addr>] [val <value>], set data break point\n");
3066 printk(" help - print this screen\n");
3073 #elif defined(CONFIG_AMAZON_SE)
3075 static int proc_read_pp32(char *page, char **start, off_t off, int count, int *eof, void *data)
3077 static const char *halt_stat[] = {
3086 static const char *brk_src_data[] = {
3096 static const char *brk_src_code[] = {
3106 len += sprintf(page + off + len, "Task No %d, PC %04x\n", *PP32_DBG_TASK_NO & 0x03, *PP32_DBG_CUR_PC & 0xFFFF);
3108 if ( !(*PP32_HALT_STAT & 0x01) )
3109 len += sprintf(page + off + len, " Halt State: Running\n");
3112 len += sprintf(page + off + len, " Halt State: Stopped");
3114 for ( bit = 2, i = 0; bit <= (1 << 7); bit <<= 1, i++ )
3115 if ( (*PP32_HALT_STAT & bit) )
3119 len += sprintf(page + off + len, ", ");
3123 len += sprintf(page + off + len, " | ");
3124 len += sprintf(page + off + len, halt_stat[i]);
3127 len += sprintf(page + off + len, "\n");
3130 len += sprintf(page + off + len, " Break Src: data1 - %s, data0 - %s, pc3 - %s, pc2 - %s, pc1 - %s, pc0 - %s\n",
3131 brk_src_data[(*PP32_BRK_SRC >> 11) & 0x07], brk_src_data[(*PP32_BRK_SRC >> 8) & 0x07], brk_src_code[(*PP32_BRK_SRC >> 3) & 0x01], brk_src_code[(*PP32_BRK_SRC >> 2) & 0x01], brk_src_code[(*PP32_BRK_SRC >> 1) & 0x01], brk_src_code[*PP32_BRK_SRC & 0x01]);
3133 // for ( i = 0; i < 4; i++ )
3134 // len += sprintf(page + off + len, " pc%d: %04x - %04x\n", i, *PP32_DBG_PC_MIN(i), *PP32_DBG_PC_MAX(i));
3136 // for ( i = 0; i < 2; i++ )
3137 // len += sprintf(page + off + len, " data%d: %04x - %04x (%08x)\n", i, *PP32_DBG_DATA_MIN(i), *PP32_DBG_DATA_MAX(i), *PP32_DBG_DATA_VAL(i));
3144 static int proc_write_pp32(struct file *file, const char *buf, unsigned long count, void *data)
3151 len = count < sizeof(str) ? count : sizeof(str) - 1;
3152 rlen = len - copy_from_user(str, buf, len);
3153 while ( rlen && str[rlen - 1] <= ' ' )
3156 for ( p = str; *p && *p <= ' '; p++, rlen-- );
3160 if ( stricmp(str, "start") == 0 )
3161 *PP32_DBG_CTRL = DBG_CTRL_RESTART;
3162 else if ( stricmp(str, "stop") == 0 )
3163 *PP32_DBG_CTRL = DBG_CTRL_STOP;
3164 // else if ( stricmp(str, "step") == 0 )
3165 // *PP32_DBG_CTRL = DBG_CTRL_STEP_SET(1);
3168 printk("echo \"<command>\" > /proc/eth/etop\n");
3169 printk(" command:\n");
3170 printk(" start - run pp32\n");
3171 printk(" stop - stop pp32\n");
3172 // printk(" step - run pp32 with one step only\n");
3173 printk(" help - print this screen\n");
3183 #if defined(ENABLE_FW_PROC) && ENABLE_FW_PROC
3185 static INLINE int print_htu(char *buf, int i)
3189 if ( HTU_ENTRY(i)->vld ) {
3190 len += sprintf(buf + len, "%2d. valid\n", i);
3191 len += sprintf(buf + len, " entry 0x%08x - pid %01x vpi %02x vci %04x pti %01x\n", *(unsigned int*)HTU_ENTRY(i), HTU_ENTRY(i)->pid, HTU_ENTRY(i)->vpi, HTU_ENTRY(i)->vci, HTU_ENTRY(i)->pti);
3192 len += sprintf(buf + len, " mask 0x%08x - pid %01x vpi %02x vci %04x pti %01x\n", *(unsigned int*)HTU_MASK(i), HTU_MASK(i)->pid_mask, HTU_MASK(i)->vpi_mask, HTU_MASK(i)->vci_mask, HTU_MASK(i)->pti_mask);
3193 len += sprintf(buf + len, " result 0x%08x - type: %s, qid: %d", *(unsigned int*)HTU_RESULT(i), HTU_RESULT(i)->type ? "cell" : "AAL5", HTU_RESULT(i)->qid);
3194 if ( HTU_RESULT(i)->type )
3195 len += sprintf(buf + len, ", cell id: %d, verification: %s", HTU_RESULT(i)->cellid, HTU_RESULT(i)->ven ? "on" : "off");
3196 len += sprintf(buf + len, "\n");
3199 len += sprintf(buf + len, "%2d. invalid\n", i);
3204 static int proc_read_htu(char *page, char **start, off_t off, int count, int *eof, void *data)
3207 int len_max = off + count;
3211 int htuts = *CFG_WRX_HTUTS;
3214 str = vmalloc (1024);
3218 pstr = *start = page;
3220 llen = sprintf(pstr, "HTU Table (Max %d):\n", htuts);
3224 for ( i = 0; i < htuts; i++ ) {
3225 llen = print_htu(str, i);
3226 if ( len <= off && len + llen > off ) {
3227 memcpy(pstr, str + off - len, len + llen - off);
3228 pstr += len + llen - off;
3230 else if ( len > off ) {
3231 memcpy(pstr, str, llen);
3235 if ( len >= len_max )
3236 goto PROC_READ_HTU_OVERRUN_END;
3243 PROC_READ_HTU_OVERRUN_END:
3245 return len - llen - off;
3248 static INLINE int print_tx_queue(char *buf, int i)
3252 if ( (*WTX_DMACH_ON & (1 << i)) ) {
3253 len += sprintf(buf + len, "%2d. valid\n", i);
3254 len += sprintf(buf + len, " queue 0x%08x - sbid %u, qsb vcid %u, qsb %s\n", (unsigned int)WTX_QUEUE_CONFIG(i), (unsigned int)WTX_QUEUE_CONFIG(i)->sbid, (unsigned int)WTX_QUEUE_CONFIG(i)->qsb_vcid, WTX_QUEUE_CONFIG(i)->qsben ? "enable" : "disable");
3255 len += sprintf(buf + len, " dma 0x%08x - base %08x, len %u, vlddes %u\n", (unsigned int)WTX_DMA_CHANNEL_CONFIG(i), WTX_DMA_CHANNEL_CONFIG(i)->desba, WTX_DMA_CHANNEL_CONFIG(i)->deslen, WTX_DMA_CHANNEL_CONFIG(i)->vlddes);
3258 len += sprintf(buf + len, "%2d. invalid\n", i);
3263 static int proc_read_txq(char *page, char **start, off_t off, int count, int *eof, void *data)
3266 int len_max = off + count;
3269 int str_buff_len = 1024;
3274 str = vmalloc(str_buff_len);
3278 pstr = *start = page;
3280 llen = sprintf(pstr, "TX Queue Config (Max %d):\n", *CFG_WTX_DCHNUM);
3284 for ( i = 0; i < 16; i++ ) {
3285 llen = print_tx_queue(str, i);
3286 if ( len <= off && len + llen > off ) {
3287 memcpy(pstr, str + off - len, len + llen - off);
3288 pstr += len + llen - off;
3290 else if ( len > off ) {
3291 memcpy(pstr, str, llen);
3295 if ( len >= len_max )
3296 goto PROC_READ_HTU_OVERRUN_END;
3305 PROC_READ_HTU_OVERRUN_END:
3307 return len - llen - off;
3310 #if defined(ENABLE_ATM_RETX) && ENABLE_ATM_RETX
3312 static int proc_read_retx_fw(char *page, char **start, off_t off, int count, int *eof, void *data)
3316 unsigned int next_dtu_sid_out, last_dtu_sid_in, next_cell_sid_out, isr_cell_id;
3317 unsigned int curr_time, sec_counter, curr_efb;
3318 struct Retx_adsl_ppe_intf adsl_ppe_intf;
3320 adsl_ppe_intf = *RETX_ADSL_PPE_INTF;
3321 next_dtu_sid_out = *NEXT_DTU_SID_OUT;
3322 last_dtu_sid_in = *LAST_DTU_SID_IN;
3323 next_cell_sid_out = *NEXT_CELL_SID_OUT;
3324 isr_cell_id = *ISR_CELL_ID;
3326 curr_time = *URetx_curr_time;
3327 sec_counter = *URetx_sec_counter;
3328 curr_efb = *RxCURR_EFB;
3331 len += sprintf(page + off + len, "Adsl-PPE Interface:\n");
3332 len += sprintf(page + off + len, " dtu_sid = 0x%02x [%3u]\n", adsl_ppe_intf.dtu_sid, adsl_ppe_intf.dtu_sid);
3333 len += sprintf(page + off + len, " dtu_timestamp = 0x%02x\n", adsl_ppe_intf.dtu_timestamp);
3334 len += sprintf(page + off + len, " local_time = 0x%02x\n", adsl_ppe_intf.local_time);
3335 len += sprintf(page + off + len, " is_last_cw = %u\n", adsl_ppe_intf.is_last_cw);
3336 len += sprintf(page + off + len, " reinit_flag = %u\n", adsl_ppe_intf.reinit_flag);
3337 len += sprintf(page + off + len, " is_bad_cw = %u\n", adsl_ppe_intf.is_bad_cw);
3338 len += sprintf(page + off + len, "\n");
3341 len += sprintf(page + off + len, "Retx Firmware Context:\n");
3342 len += sprintf(page + off + len, " next_dtu_sid_out (0x%08x) = 0x%02x [%3u]\n", (unsigned int )NEXT_DTU_SID_OUT, next_dtu_sid_out, next_dtu_sid_out);
3343 len += sprintf(page + off + len, " last_dtu_sid_in (0x%08x) = 0x%02x [%3u]\n", (unsigned int )LAST_DTU_SID_IN, last_dtu_sid_in, last_dtu_sid_in);
3344 len += sprintf(page + off + len, " next_cell_sid_out (0x%08x) = %u\n", (unsigned int )NEXT_CELL_SID_OUT, next_cell_sid_out);
3345 len += sprintf(page + off + len, " isr_cell_id (0x%08x) = %u\n", (unsigned int )ISR_CELL_ID, isr_cell_id);
3346 len += sprintf(page + off + len, " pb_cell_search_idx (0x%08x) = %u\n", (unsigned int )PB_CELL_SEARCH_IDX, *PB_CELL_SEARCH_IDX);
3347 len += sprintf(page + off + len, " pb_read_pend_flag (0x%08x) = %u\n", (unsigned int )PB_READ_PEND_FLAG, *PB_READ_PEND_FLAG);
3348 len += sprintf(page + off + len, " rfbi_first_cw (0x%08x) = %u\n", (unsigned int )RFBI_FIRST_CW, *RFBI_FIRST_CW);
3349 len += sprintf(page + off + len, " rfbi_bad_cw (0x%08x) = %u\n", (unsigned int )RFBI_BAD_CW, *RFBI_BAD_CW);
3350 len += sprintf(page + off + len, " rfbi_invalid_cw (0x%08x) = %u\n", (unsigned int )RFBI_INVALID_CW, *RFBI_INVALID_CW);
3351 len += sprintf(page + off + len, " rfbi_retx_cw (0x%08x) = %u\n", (unsigned int )RFBI_RETX_CW, *RFBI_RETX_CW);
3352 len += sprintf(page + off + len, " rfbi_chk_dtu_status (0x%08x) = %u\n", (unsigned int )RFBI_CHK_DTU_STATUS,*RFBI_CHK_DTU_STATUS);
3353 len += sprintf(page + off + len, "\n");
3356 len += sprintf(page + off + len, "SFSM Status: bc0 bc1 \n\n");
3357 len += sprintf(page + off + len, " state = %-22s , %s\n",
3358 (*__WRXCTXT_PortState(0) & 3) == 0 ? "Hunt" :
3359 (*__WRXCTXT_PortState(0) & 3) == 1 ? "Pre_sync" :
3360 (*__WRXCTXT_PortState(0) & 3) == 2 ? "Sync" :
3362 (*__WRXCTXT_PortState(1) & 3) == 0 ? "Hunt" :
3363 (*__WRXCTXT_PortState(1) & 3) == 1 ? "Pre_sync" :
3364 (*__WRXCTXT_PortState(1) & 3) == 2 ? "Sync" :
3366 len += sprintf(page + off + len, " dbase = 0x%04x ( 0x%08x ) , 0x%04x ( 0x%08x )\n",
3367 SFSM_DBA(0)->dbase, (unsigned int)PPM_INT_UNIT_ADDR(SFSM_DBA(0)->dbase + 0x2000),
3368 SFSM_DBA(1)->dbase, (unsigned int)PPM_INT_UNIT_ADDR(SFSM_DBA(1)->dbase + 0x2000));
3369 len += sprintf(page + off + len, " cbase = 0x%04x ( 0x%08x ) , 0x%04x ( 0x%08x )\n",
3370 SFSM_CBA(0)->cbase, (unsigned int)PPM_INT_UNIT_ADDR(SFSM_CBA(0)->cbase + 0x2000),
3371 SFSM_CBA(1)->cbase, (unsigned int)PPM_INT_UNIT_ADDR(SFSM_CBA(1)->cbase + 0x2000));
3372 len += sprintf(page + off + len, " sen = %-22d , %d\n", SFSM_CFG(0)->sen, SFSM_CFG(1)->sen );
3373 len += sprintf(page + off + len, " idlekeep = %-22d , %d\n", SFSM_CFG(0)->idlekeep, SFSM_CFG(1)->idlekeep );
3374 len += sprintf(page + off + len, " pnum = %-22d , %d\n", SFSM_CFG(0)->pnum, SFSM_CFG(1)->pnum );
3375 len += sprintf(page + off + len, " pptr = %-22d , %d\n", SFSM_PGCNT(0)->pptr, SFSM_PGCNT(1)->pptr);
3376 len += sprintf(page + off + len, " upage = %-22d , %d\n", SFSM_PGCNT(0)->upage, SFSM_PGCNT(1)->upage);
3377 len += sprintf(page + off + len, " l2_rdptr = %-22d , %d\n", *__WRXCTXT_L2_RdPtr(0), *__WRXCTXT_L2_RdPtr(1) );
3378 len += sprintf(page + off + len, " l2_page = %-22d , %d\n", *__WRXCTXT_L2Pages(0), *__WRXCTXT_L2Pages(1) );
3379 len += sprintf(page + off + len, "\n");
3382 len += sprintf(page + off + len, "FFSM Status: bc0 bc1 \n\n");
3383 len += sprintf(page + off + len, " dbase = 0x%04x ( 0x%08x ) , 0x%04x ( 0x%08x )\n",
3384 FFSM_DBA(0)->dbase, (unsigned int)PPM_INT_UNIT_ADDR(FFSM_DBA(0)->dbase + 0x2000),
3385 FFSM_DBA(1)->dbase, (unsigned int)PPM_INT_UNIT_ADDR(FFSM_DBA(1)->dbase + 0x2000));
3386 len += sprintf(page + off + len, " pnum = %-22d , %d\n", FFSM_CFG(0)->pnum, FFSM_CFG(1)->pnum);
3387 len += sprintf(page + off + len, " vpage = %-22d , %d\n", FFSM_PGCNT(0)->vpage, FFSM_PGCNT(1)->vpage);
3388 len += sprintf(page + off + len, " ival = %-22d , %d\n", FFSM_PGCNT(0)->ival, FFSM_PGCNT(1)->ival);
3389 len += sprintf(page + off + len, " tc_wrptr = %-22d , %d\n", *__WTXCTXT_TC_WRPTR(0), *__WTXCTXT_TC_WRPTR(1));
3390 len += sprintf(page + off + len, "\n");
3393 len += sprintf(page + off + len, "Misc: \n\n");
3394 len += sprintf(page + off + len, " curr_time = %08x\n", curr_time );
3395 len += sprintf(page + off + len, " sec_counter = %d\n", sec_counter );
3396 len += sprintf(page + off + len, " curr_efb = %d\n", curr_efb );
3397 len += sprintf(page + off + len, "\n");
3404 static inline int is_valid(unsigned int * dtu_vld_stat, int dtu_sid)
3406 int dw_idx = (dtu_sid / 32) & 7;
3407 int bit_pos = dtu_sid % 32;
3409 return dtu_vld_stat[dw_idx] & (0x80000000 >> bit_pos);
3412 static int proc_read_retx_stats(char *page, char **start, off_t off, int count, int *eof, void *data)
3416 int len_max = off + count;
3421 unsigned int next_dtu_sid_out, last_dtu_sid_in, next_cell_sid_out;
3422 unsigned int dtu_vld_stat[8];
3423 struct DTU_stat_info dtu_stat_info[256];
3424 struct Retx_adsl_ppe_intf adsl_ppe_intf;
3426 pstr = *start = page;
3430 // capture a snapshot of internal status
3431 next_dtu_sid_out = *NEXT_DTU_SID_OUT;
3432 last_dtu_sid_in = *LAST_DTU_SID_IN;
3433 next_cell_sid_out = *NEXT_CELL_SID_OUT;
3434 adsl_ppe_intf = *RETX_ADSL_PPE_INTF;
3436 memcpy(&dtu_vld_stat, (void *)DTU_VLD_STAT, sizeof(dtu_vld_stat));
3437 memcpy(&dtu_stat_info, (void *)DTU_STAT_INFO, sizeof(dtu_stat_info));
3440 llen += sprintf(str + llen, "Adsl-PPE Interface:\n");
3441 llen += sprintf(str + llen, " dtu_sid = 0x%02x [%3u]\n", adsl_ppe_intf.dtu_sid, adsl_ppe_intf.dtu_sid);
3442 llen += sprintf(str + llen, " dtu_timestamp = 0x%02x\n", adsl_ppe_intf.dtu_timestamp);
3443 llen += sprintf(str + llen, " local_time = 0x%02x\n", adsl_ppe_intf.local_time);
3444 llen += sprintf(str + llen, " is_last_cw = %u\n", adsl_ppe_intf.is_last_cw);
3445 llen += sprintf(str + llen, " reinit_flag = %u\n", adsl_ppe_intf.reinit_flag);
3446 llen += sprintf(str + llen, " is_bad_cw = %u\n", adsl_ppe_intf.is_bad_cw);
3447 llen += sprintf(str + llen, "\n");
3449 llen += sprintf(str + llen, "Retx Internal State:\n");
3450 llen += sprintf(str + llen, " next_dtu_sid_out (0x%08x) = 0x%02x [%3u]\n", (unsigned int )NEXT_DTU_SID_OUT, next_dtu_sid_out, next_dtu_sid_out);
3451 llen += sprintf(str + llen, " last_dtu_sid_in (0x%08x) = 0x%02x [%3u]\n", (unsigned int )LAST_DTU_SID_IN, last_dtu_sid_in, last_dtu_sid_in);
3452 llen += sprintf(str + llen, " next_cell_sid_out (0x%08x) = %u\n", (unsigned int )NEXT_CELL_SID_OUT, next_cell_sid_out);
3453 llen += sprintf(str + llen, " dtu_valid_stat (0x%08x)\n", (unsigned int )DTU_VLD_STAT);
3454 llen += sprintf(str + llen, " dtu_stat_info (0x%08x)\n", (unsigned int )DTU_STAT_INFO);
3455 llen += sprintf(str + llen, " pb_buffer_usage (0x%08x)\n", (unsigned int )PB_BUFFER_USAGE);
3457 if ( len <= off && len + llen > off ) {
3458 memcpy(pstr, str + off - len, len + llen - off);
3459 pstr += len + llen - off;
3461 else if ( len > off ) {
3462 memcpy(pstr, str, llen);
3466 if ( len >= len_max )
3467 goto PROC_READ_RETX_STATS_OVERRUN_END;
3471 llen += sprintf(str + llen, "\n");
3472 llen += sprintf(str + llen, "DTU_VALID_STAT: [0x%08x]:\n", (unsigned int)DTU_VLD_STAT);
3473 llen += sprintf(str + llen, "%08X: %08X %08X %08X %08X %08X %08X %08X %08X\n",
3474 (unsigned int)DTU_VLD_STAT,
3475 dtu_vld_stat[0], dtu_vld_stat[1], dtu_vld_stat[2], dtu_vld_stat[3],
3476 dtu_vld_stat[4], dtu_vld_stat[5], dtu_vld_stat[6], dtu_vld_stat[7]);
3478 if ( len <= off && len + llen > off ) {
3479 memcpy(pstr, str + off - len, len + llen - off);
3480 pstr += len + llen - off;
3482 else if ( len > off ) {
3483 memcpy(pstr, str, llen);
3487 if ( len >= len_max )
3488 goto PROC_READ_RETX_STATS_OVERRUN_END;
3492 llen += sprintf(str + llen, "\n");
3493 llen += sprintf(str + llen, "DTU_STAT_INFO: [0x%08x]:\n", (unsigned int)DTU_STAT_INFO);
3494 llen += sprintf(str + llen, "dtu_id ts complete bad cell_cnt dtu_rd_ptr dtu_wr_ptr\n");
3495 llen += sprintf(str + llen, "---------------------------------------------------------------------\n");
3496 for ( i = 0; i < 256; i++ ) {
3497 if ( !is_valid(dtu_vld_stat, i) )
3500 llen += sprintf(str + llen, "0x%02x [%3u] 0x%02x %d %d %3d %5d %5d\n",
3502 DTU_STAT_INFO[i].time_stamp,
3503 DTU_STAT_INFO[i].complete,
3504 DTU_STAT_INFO[i].bad,
3505 DTU_STAT_INFO[i].cell_cnt,
3506 DTU_STAT_INFO[i].dtu_rd_ptr,
3507 DTU_STAT_INFO[i].dtu_wr_ptr );
3509 if ( len <= off && len + llen > off ) {
3510 memcpy(pstr, str + off - len, len + llen - off);
3511 pstr += len + llen - off;
3513 else if ( len > off )
3515 memcpy(pstr, str, llen);
3519 if ( len >= len_max )
3520 goto PROC_READ_RETX_STATS_OVERRUN_END;
3525 llen += sprintf(str + llen, "\n");
3526 llen += sprintf(str + llen, "Playout buffer status --- valid status [0x%08x]:\n", (unsigned int)PB_BUFFER_USAGE);
3527 for( i = 0; i < RETX_MODE_CFG->buff_size; i += 8 ) {
3528 llen += sprintf(str + llen, "%08X: %08X %08X %08X %08X %08X %08X %08X %08X\n",
3529 (unsigned int)PB_BUFFER_USAGE + i * sizeof(unsigned int),
3530 PB_BUFFER_USAGE[i], PB_BUFFER_USAGE[i+1], PB_BUFFER_USAGE[i+2], PB_BUFFER_USAGE[i+3],
3531 PB_BUFFER_USAGE[i+4], PB_BUFFER_USAGE[i+5], PB_BUFFER_USAGE[i+6], PB_BUFFER_USAGE[i+7]);
3534 if ( len <= off && len + llen > off ) {
3535 memcpy(pstr, str + off - len, len + llen - off);
3536 pstr += len + llen - off;
3538 else if ( len > off ) {
3539 memcpy(pstr, str, llen);
3543 if ( len >= len_max )
3544 goto PROC_READ_RETX_STATS_OVERRUN_END;
3552 PROC_READ_RETX_STATS_OVERRUN_END:
3553 return len - llen - off;
3556 static int proc_write_retx_stats(struct file *file, const char *buf, unsigned long count, void *data)
3563 len = count < sizeof(str) ? count : sizeof(str) - 1;
3564 rlen = len - copy_from_user(str, buf, len);
3565 while ( rlen && str[rlen - 1] <= ' ' )
3568 for ( p = str; *p && *p <= ' '; p++, rlen-- );
3572 if ( stricmp(p, "help") == 0 ) {
3573 printk("echo clear_pb > /proc/driver/ifx_atm/retx_stats \n");
3574 printk(" :clear context in playout buffer\n\n");
3575 printk("echo read_pb <pb_index> <cell_num> > /proc/driver/ifx_atm/retx_stats\n");
3576 printk(" : read playout buffer contents\n\n");
3577 printk("echo read_[r|t]x_cb > /proc/driver/ifx_atm/retx_stats\n");
3578 printk(" : read cell buffer\n\n");
3579 printk("echo clear_[r|t]x_cb > /proc/driver/ifx_atm/retx_stats\n");
3580 printk(" : clear cell buffer\n\n");
3581 printk("echo read_bad_dtu_intf_rec > /proc/driver/ifx_atm/retx_stats\n");
3582 printk(" : read bad dtu intrface information record\n\n");
3583 printk("echo clear_bad_dtu_intf_rec > /proc/driver/ifx_atm/retx_stats\n");
3584 printk(" : clear bad dtu interface information record\n\n");
3585 printk("echo read_wrx_context [i] > /proc/driver/ifx_atm/retx_stats\n");
3586 printk(" : clear bad dtu interface information record\n\n");
3587 printk("echo read_intf_rec > /proc/driver/ifx_atm/retx_stats\n");
3588 printk(" : read interface info record buffer\n\n");
3589 printk("echo reinit_intf_rec > /proc/driver/ifx_atm/retx_stats\n");
3590 printk(" : reinit intf record, must be called before showtime\n\n");
3592 else if ( stricmp(p, "reinit_intf_rec") == 0 ) {
3594 struct Retx_adsl_ppe_intf_rec rec[16];
3596 *DBG_DTU_INTF_WRPTR = 0;
3597 *DBG_INTF_FCW_DUP_CNT = 0;
3598 *DBG_INTF_SID_CHANGE_IN_DTU_CNT = 0;
3599 *DBG_INTF_LCW_DUP_CNT = 0;
3601 *DBG_RFBI_DONE_INT_CNT = 0;
3602 *DBG_RFBI_INTV0 = 0;
3603 *DBG_RFBI_INTV1 = 0;
3604 *DBG_RFBI_BC0_INVALID_CNT = 0;
3605 *DBG_RFBI_LAST_T = 0;
3606 *DBG_DREG_BEG_END = 0;
3608 memset((void *) DBG_INTF_INFO(0), 0, sizeof(rec));
3609 for( i = 0; i < 16; i++ )
3610 DBG_INTF_INFO(i)->res1_1 = 1;
3611 DBG_INTF_INFO(15)->dtu_sid = 255;
3613 else if ( stricmp(p, "read_intf_rec") == 0 ) {
3615 unsigned int dtu_intf_wrptr, fcw_dup_cnt, sid_change_in_dtu_cnt, lcw_dup_cnt ;
3616 unsigned int rfbi_done_int_cnt, rfbi_intv0, rfbi_intv1, rfbi_bc0_invalid_cnt, dreg_beg_end;
3617 struct Retx_adsl_ppe_intf_rec rec[16];
3619 memcpy((void *) rec, (void *) DBG_INTF_INFO(0), sizeof(rec));
3621 dtu_intf_wrptr = *DBG_DTU_INTF_WRPTR;
3622 fcw_dup_cnt = *DBG_INTF_FCW_DUP_CNT;
3623 sid_change_in_dtu_cnt = *DBG_INTF_SID_CHANGE_IN_DTU_CNT;
3624 lcw_dup_cnt = *DBG_INTF_LCW_DUP_CNT;
3626 rfbi_done_int_cnt = *DBG_RFBI_DONE_INT_CNT;
3627 rfbi_intv0 = *DBG_RFBI_INTV0;
3628 rfbi_intv1 = *DBG_RFBI_INTV1;
3629 rfbi_bc0_invalid_cnt = *DBG_RFBI_BC0_INVALID_CNT;
3630 dreg_beg_end = *DBG_DREG_BEG_END;
3632 printk("PPE-Adsl Interface recrod [addr 0x23F0]:\n\n");
3634 printk(" rfbi_done_int_cnt = %d [0x%x] \n", rfbi_done_int_cnt, rfbi_done_int_cnt);
3635 printk(" rfbi_intv = 0x%08x 0x%08x [%d, %d, %d, %d, %d, %d, %d, %d]\n",
3636 rfbi_intv0, rfbi_intv1,
3637 rfbi_intv0 >> 24, (rfbi_intv0>>16) & 0xff, (rfbi_intv0>>8) & 0xff, rfbi_intv0 & 0xff,
3638 rfbi_intv1 >> 24, (rfbi_intv1>>16) & 0xff, (rfbi_intv1>>8) & 0xff, rfbi_intv1 & 0xff
3640 printk(" rfbi_bc0_invld_cnt = %d\n", rfbi_bc0_invalid_cnt);
3641 printk(" dreg_beg_end = %d, %d\n\n", dreg_beg_end >> 16, dreg_beg_end & 0xffff);
3643 printk(" wrptr = %d [0x%x] \n", dtu_intf_wrptr, dtu_intf_wrptr);
3644 printk(" fcw_dup_cnt = %d\n", fcw_dup_cnt);
3645 printk(" sid_chg_cnt = %d\n", sid_change_in_dtu_cnt);
3646 printk(" lcw_dup_cnt = %d\n\n", lcw_dup_cnt);
3649 printk(" idx itf_dw0 itf_dw1 dtu_sid timestamp local_time res1 last_cw bad_flag reinit\n");
3650 printk(" -------------------------------------------------------------------------------------\n");
3651 for ( i = (dtu_intf_wrptr + 1) % 16, cnt = 0; cnt < 16; cnt ++, i = (i + 1) % 16 ) {
3656 printk("%3d %04x %04x %3d[%02x] %3d[%02x] %3d[%02x] 0x%02x %d %d %d\n",
3658 (*(unsigned int *)&rec[i]) & 0xffff,
3659 (*(unsigned int *)&rec[i]) >> 16,
3660 rec[i].dtu_sid, rec[i].dtu_sid,
3661 rec[i].dtu_timestamp, rec[i].dtu_timestamp,
3662 rec[i].local_time, rec[i].local_time,
3666 rec[i].reinit_flag );
3669 else if ( stricmp(p, "read_wrx_context") == 0 ) {
3672 for( i = 0; i < 8; ++i ) {
3673 if ( !WRX_QUEUE_CONTEXT(i)->curr_des0 || !WRX_QUEUE_CONTEXT(i)->curr_des1 )
3677 printk("WRX queue context [ %d ]: \n", i);
3678 printk(" curr_len = %4d, mfs = %d, ec = %d, clp1 = %d, aal5dp = %d\n",
3679 WRX_QUEUE_CONTEXT(i)->curr_len, WRX_QUEUE_CONTEXT(i)->mfs,
3680 WRX_QUEUE_CONTEXT(i)->ec, WRX_QUEUE_CONTEXT(i)->clp1,
3681 WRX_QUEUE_CONTEXT(i)->aal5dp);
3682 printk(" initcrc = %08x\n", WRX_QUEUE_CONTEXT(i)->intcrc);
3683 printk(" currdes = %08x %08x\n",
3684 WRX_QUEUE_CONTEXT(i)->curr_des0, WRX_QUEUE_CONTEXT(i)->curr_des1);
3685 printk(" last_dw = %08x\n\n", WRX_QUEUE_CONTEXT(i)->last_dword);
3686 if( WRX_QUEUE_CONTEXT(i)->curr_len ) {
3688 unsigned char *p_char;
3689 struct rx_descriptor *desc = (struct rx_descriptor *)&(WRX_QUEUE_CONTEXT(i)->curr_des0);
3690 p_char = (unsigned char *)(((unsigned int)desc->dataptr << 2) | KSEG1);
3691 printk(" Data in SDRAM:\n ");
3693 for ( j = 0 ; j < WRX_QUEUE_CONTEXT(i)->curr_len; ++j ) {
3694 printk ("%02x", p_char[j]);
3697 else if ( j % 4 == 3 )
3704 printk("No active wrx queue context\n");
3707 else if ( stricmp(p, "clear_pb") == 0 ) {
3708 if ( g_retx_playout_buffer )
3709 memset((void *)g_retx_playout_buffer, 0, RETX_PLAYOUT_BUFFER_SIZE);
3711 else if ( stricmp(p, "read_bad_dtu_intf_rec") == 0 ) {
3712 struct Retx_adsl_ppe_intf first_dtu_intf, last_dtu_intf;
3713 first_dtu_intf = *FIRST_BAD_REC_RETX_ADSL_PPE_INTF;
3714 last_dtu_intf = *BAD_REC_RETX_ADSL_PPE_INTF;
3716 printk("\nAdsl-PPE Interface for first and last DTU of recent noise:\n\n");
3717 printk(" dtu_sid = 0x%02x [%3u], 0x%02x [%3u]\n",
3718 first_dtu_intf.dtu_sid, first_dtu_intf.dtu_sid,
3719 last_dtu_intf.dtu_sid, last_dtu_intf.dtu_sid);
3720 printk(" dtu_timestamp = 0x%02x , 0x%02x\n",
3721 first_dtu_intf.dtu_timestamp, last_dtu_intf.dtu_timestamp);
3722 printk(" local_time = 0x%02x , 0x%02x\n",
3723 first_dtu_intf.local_time, last_dtu_intf.local_time);
3724 printk(" is_last_cw = %u , %u\n",
3725 first_dtu_intf.is_last_cw, last_dtu_intf.is_last_cw);
3726 printk(" reinit_flag = %u , %u\n",
3727 first_dtu_intf.reinit_flag, last_dtu_intf.reinit_flag);
3728 printk(" is_bad_cw = %u , %u\n\n",
3729 first_dtu_intf.is_bad_cw, last_dtu_intf.is_bad_cw);
3731 else if ( stricmp(p, "clear_bad_dtu_intf_rec") == 0 ) {
3732 memset((void *)BAD_REC_RETX_ADSL_PPE_INTF, 0, sizeof(struct Retx_adsl_ppe_intf));
3733 memset((void *)FIRST_BAD_REC_RETX_ADSL_PPE_INTF, 0, sizeof(struct Retx_adsl_ppe_intf));
3735 else if ( stricmp(p, "clear_tx_cb") == 0 ) {
3736 unsigned int *dbase0;
3739 dbase0 = (unsigned int *)PPM_INT_UNIT_ADDR( FFSM_DBA(0)->dbase + 0x2000);
3740 pnum0 = FFSM_CFG(0)->pnum;
3741 memset(dbase0, 0, 14 * sizeof(unsigned int ) * pnum0);
3743 else if ( stricmp(p, "clear_rx_cb") == 0 ) {
3744 unsigned int *dbase0, *cbase0, *dbase1, *cbase1;
3747 dbase0 = (unsigned int *)PPM_INT_UNIT_ADDR( SFSM_DBA(0)->dbase + 0x2000);
3748 cbase0 = (unsigned int *)PPM_INT_UNIT_ADDR( SFSM_CBA(0)->cbase + 0x2000);
3750 dbase1 = (unsigned int *)PPM_INT_UNIT_ADDR( SFSM_DBA(1)->dbase + 0x2000);
3751 cbase1 = (unsigned int *)PPM_INT_UNIT_ADDR( SFSM_CBA(1)->cbase + 0x2000);
3753 pnum0 = SFSM_CFG(0)->pnum;
3755 memset(dbase0, 0, 14 * sizeof(unsigned int ) * pnum0);
3756 memset(cbase0, 0, sizeof(unsigned int ) * pnum0);
3758 memset(dbase1, 0, 14 * sizeof(unsigned int ));
3759 memset(cbase1, 0, sizeof(unsigned int ));
3761 else if ( strnicmp(p, "read_tx_cb", 10) == 0 ) {
3762 unsigned int *dbase0;
3763 unsigned int pnum0, i;
3764 unsigned int * cell;
3766 dbase0 = (unsigned int *)PPM_INT_UNIT_ADDR( FFSM_DBA(0)->dbase + 0x2000);
3767 pnum0 = FFSM_CFG(0)->pnum;
3769 printk("ATM TX BC 0 CELL data/ctrl buffer:\n\n");
3770 for(i = 0; i < pnum0 ; ++ i) {
3771 cell = dbase0 + i * 14;
3772 printk("cell %2d: %08x %08x\n", i, cell[0], cell[1]);
3773 printk(" %08x %08x %08x %08x\n", cell[2], cell[3], cell[4], cell[5]);
3774 printk(" %08x %08x %08x %08x\n", cell[6], cell[7], cell[8], cell[9]);
3775 printk(" %08x %08x %08x %08x\n", cell[10], cell[11], cell[12], cell[13]);
3778 else if ( strnicmp(p, "read_rx_cb", 10) == 0 ) {
3779 unsigned int *dbase0, *cbase0, *dbase1, *cbase1;
3780 unsigned int pnum0, i;
3781 unsigned int * cell;
3783 dbase0 = (unsigned int *)PPM_INT_UNIT_ADDR( SFSM_DBA(0)->dbase + 0x2000);
3784 cbase0 = (unsigned int *)PPM_INT_UNIT_ADDR( SFSM_CBA(0)->cbase + 0x2000);
3786 dbase1 = (unsigned int *)PPM_INT_UNIT_ADDR( SFSM_DBA(1)->dbase + 0x2000);
3787 cbase1 = (unsigned int *)PPM_INT_UNIT_ADDR( SFSM_CBA(1)->cbase + 0x2000);
3789 pnum0 = SFSM_CFG(0)->pnum;
3791 printk("ATM RX BC 0 CELL data/ctrl buffer:\n\n");
3792 for(i = 0; i < pnum0 ; ++ i) {
3793 struct Retx_ctrl_field * p_ctrl;
3795 cell = dbase0 + i * 14;
3796 p_ctrl = (struct Retx_ctrl_field *) ( &cbase0[i]);
3797 printk("cell %2d: %08x %08x -- [%08x]:", i, cell[0], cell[1], cbase0[i]);
3799 printk("l2_drop: %d, retx: %d", p_ctrl->l2_drop, p_ctrl->retx);
3800 if ( p_ctrl->retx ) {
3801 printk(", dtu_sid = %u, cell_sid = %u", p_ctrl->dtu_sid, p_ctrl->cell_sid);
3806 printk(" %08x %08x %08x %08x\n", cell[2], cell[3], cell[4], cell[5]);
3807 printk(" %08x %08x %08x %08x\n", cell[6], cell[7], cell[8], cell[9]);
3808 printk(" %08x %08x %08x %08x\n", cell[10], cell[11], cell[12], cell[13]);
3812 printk("ATM RX BC 1 CELL data/ctrl buffer:\n\n");
3814 printk("cell %2d: %08x %08x -- [%08x]: dtu_sid:%3d, cell_sid:%3d, next_ptr: %4d\n",
3815 0, cell[0], cell[1], cbase0[i], ( cell[1] >> 16) & 0xff, (cell[1] >> 24) & 0xff, cell[1] & 0xffff );
3816 printk(" %08x %08x %08x %08x\n", cell[2], cell[3], cell[4], cell[5]);
3817 printk(" %08x %08x %08x %08x\n", cell[6], cell[7], cell[8], cell[9]);
3818 printk(" %08x %08x %08x %08x\n", cell[10], cell[11], cell[12], cell[13]);
3820 else if ( strnicmp(p, "read_pb ", 8) == 0 )
3822 int start_cell_idx = 0;
3825 unsigned int pb_buff_size = RETX_MODE_CFG->buff_size * 32;
3829 ignore_space(&p, &rlen);
3831 start_cell_idx = get_number(&p, &rlen, 0);
3832 ignore_space(&p, &rlen);
3833 cell_num = get_number(&p, &rlen, 0);
3835 if ( start_cell_idx >= pb_buff_size ) {
3836 printk(" Invalid cell index\n");
3843 if ( cell_num + start_cell_idx > pb_buff_size )
3844 cell_num = pb_buff_size - start_cell_idx;
3846 for ( i = 0; i < cell_num ; ++i ) {
3847 cell = (unsigned int *)((unsigned int *)g_retx_playout_buffer + (14 * (start_cell_idx + i)));
3848 printk("cell %4d: %08x %08x [next_ptr = %4u, dtu_sid = %3u, cell_sid = %3u]\n",
3849 start_cell_idx + i, cell[0], cell[1], cell[1] & 0xffff, (cell[1] >> 16) & 0xff, (cell[1] >> 24) & 0xff);
3850 printk(" %08x %08x %08x %08x\n", cell[2], cell[3], cell[4], cell[5]);
3851 printk(" %08x %08x %08x %08x\n", cell[6], cell[7], cell[8], cell[9]);
3852 printk(" %08x %08x %08x %08x\n", cell[10], cell[11], cell[12], cell[13]);
3860 static int proc_read_retx_cfg(char *page, char **start, off_t off, int count, int *eof, void *data)
3864 len += sprintf(page + off + len, "ReTX FW Config:\n");
3865 len += sprintf(page + off + len, " RETX_MODE_CFG = 0x%08x, invld_range=%u, buff_size=%u, retx=%u\n", *(volatile unsigned int *)RETX_MODE_CFG, (unsigned int)RETX_MODE_CFG->invld_range, (unsigned int)RETX_MODE_CFG->buff_size * 32, (unsigned int)RETX_MODE_CFG->retx_en);
3866 len += sprintf(page + off + len, " RETX_TSYNC_CFG = 0x%08x, fw_alpha=%u, sync_inp=%u\n", *(volatile unsigned int *)RETX_TSYNC_CFG, (unsigned int)RETX_TSYNC_CFG->fw_alpha, (unsigned int)RETX_TSYNC_CFG->sync_inp);
3867 len += sprintf(page + off + len, " RETX_TD_CFG = 0x%08x, td_max=%u, td_min=%u\n", *(volatile unsigned int *)RETX_TD_CFG, (unsigned int)RETX_TD_CFG->td_max, (unsigned int)RETX_TD_CFG->td_min);
3868 len += sprintf(page + off + len, " RETX_PLAYOUT_BUFFER_BASE = 0x%08x\n", *RETX_PLAYOUT_BUFFER_BASE);
3869 len += sprintf(page + off + len, " RETX_SERVICE_HEADER_CFG = 0x%08x\n", *RETX_SERVICE_HEADER_CFG);
3870 len += sprintf(page + off + len, " RETX_MASK_HEADER_CFG = 0x%08x\n", *RETX_MASK_HEADER_CFG);
3871 len += sprintf(page + off + len, " RETX_MIB_TIMER_CFG = 0x%08x, tick_cycle = %d, ticks_per_sec = %d\n",
3872 *(unsigned int *)RETX_MIB_TIMER_CFG, RETX_MIB_TIMER_CFG->tick_cycle, RETX_MIB_TIMER_CFG->ticks_per_sec);
3879 static int proc_write_retx_cfg(struct file *file, const char *buf, unsigned long count, void *data)
3884 char local_buf[1024];
3885 char *tokens[4] = {0};
3886 unsigned int token_num = 0;
3888 len = sizeof(local_buf) < count ? sizeof(local_buf) - 1 : count;
3889 len = len - copy_from_user(local_buf, buf, len);
3894 while ( token_num < NUM_ENTITY(tokens) && get_token(&p1, &p2, &len, &colon) ) {
3895 tokens[token_num++] = p1;
3900 if ( token_num > 0 ) {
3901 if ( stricmp(tokens[0], "help") == 0 ) {
3902 printk("echo help > /proc/driver/ifx_atm/retx_cfg ==> \n\tprint this help message\n\n");
3904 printk("echo set retx <enable|disable|0|1|on|off> > /proc/driver/ifx_atm/retx_cfg\n");
3905 printk("\t:enable or disable retx feature\n\n");
3907 printk("echo set <td_max|td_min|fw_alpha|sync_inp|invld_range|buff_size> <number> > /proc/driver/ifx_atm/retx_cfg\n");
3908 printk("\t: set td_max, td_min, fw_alpha, sync_inp, invalid_range, buff_size\n\n");
3910 printk("echo set <service_header|service_mask> <hex_number> /proc/driver/ifx_atm/retx_cfg \n");
3911 printk("\t: set service_header, service_mask\n\n");
3913 else if ( stricmp(tokens[0], "set") == 0 && token_num >= 3 ) {
3915 if ( stricmp(tokens[1], "retx") == 0 ) {
3916 if ( stricmp(tokens[2], "enable") == 0 ||
3917 stricmp(tokens[2], "on") == 0 ||
3918 stricmp(tokens[2], "1") == 0 )
3919 RETX_MODE_CFG->retx_en = 1;
3920 else if ( stricmp(tokens[2], "disable") == 0 ||
3921 stricmp(tokens[2], "off") == 0 ||
3922 stricmp(tokens[2], "0") == 0 )
3923 RETX_MODE_CFG->retx_en = 0;
3924 printk("RETX_MODE_CFG->retx_en - %d\n", RETX_MODE_CFG->retx_en);
3927 unsigned int dec_val, hex_val;
3930 dec_val = (unsigned int)get_number(&p1, NULL, 0);
3932 hex_val = (unsigned int)get_number(&p2, NULL, 1);
3935 if ( stricmp(tokens[1], "service_header") == 0 ) {
3936 *RETX_SERVICE_HEADER_CFG = hex_val;
3937 printk("RETX_SERVICE_HEADER_CFG - 0x%08x\n", *RETX_SERVICE_HEADER_CFG);
3939 else if ( stricmp(tokens[1], "service_mask") == 0 ) {
3940 *RETX_MASK_HEADER_CFG = hex_val;
3941 printk("RETX_MASK_HEADER_CFG - 0x%08x\n", *RETX_MASK_HEADER_CFG);
3945 if ( stricmp(tokens[1], "td_max") == 0 ) {
3946 (unsigned int)RETX_TD_CFG->td_max = (dec_val >= 0xff ? 0Xff : dec_val);
3947 printk("RETX_TD_CFG->td_max - %d\n", RETX_TD_CFG->td_max);
3949 else if ( stricmp(tokens[1], "td_min") == 0 ) {
3950 (unsigned int)RETX_TD_CFG->td_min = (dec_val >= 0xff ? 0Xff : dec_val);
3951 printk("RETX_TD_CFG->td_min - %d\n", RETX_TD_CFG->td_min);
3953 else if ( stricmp(tokens[1], "fw_alpha") == 0 ) {
3954 RETX_TSYNC_CFG->fw_alpha = dec_val >= 0x7FFE ? 0X7EEE : dec_val;
3955 printk("RETX_TSYNC_CFG->fw_alpha - %d\n", RETX_TSYNC_CFG->fw_alpha);
3957 else if ( stricmp(tokens[1], "sync_inp") == 0 ) {
3958 RETX_TSYNC_CFG->sync_inp = dec_val >= 0x7FFE ? 0X7EEE : dec_val;
3959 printk("RETX_TSYNC_CFG->sync_inp - %d\n", RETX_TSYNC_CFG->sync_inp);
3961 else if ( stricmp(tokens[1], "invld_range") == 0 ) {
3962 RETX_MODE_CFG->invld_range = dec_val >= 250 ? 250 : dec_val;
3963 printk("RETX_MODE_CFG->invld_range - %d\n", RETX_MODE_CFG->invld_range);
3965 else if ( stricmp(tokens[1], "buff_size") == 0 ) {
3966 dec_val = (dec_val + 31) / 32;
3967 RETX_MODE_CFG->buff_size = dec_val >= 4096 / 32 ? 4096 / 32 : dec_val;
3968 printk("RETX_MODE_CFG->buff_size - %d\n", RETX_MODE_CFG->buff_size);
3979 static int proc_read_retx_dsl_param(char *page, char **start, off_t off, int count, int *eof, void *data)
3983 len += sprintf(page + off + len, "DSL Param [timestamp %ld.%ld]:\n", g_retx_polling_start.tv_sec, g_retx_polling_start.tv_usec);
3985 if ( g_xdata_addr == NULL )
3986 len += sprintf(page + off + len, " DSL parameters not available !\n");
3988 volatile struct dsl_param *p_dsl_param = (volatile struct dsl_param *)g_xdata_addr;
3990 len += sprintf(page + off + len, " update_flag = %u\n", p_dsl_param->update_flag);
3991 len += sprintf(page + off + len, " MinDelayrt = %u\n", p_dsl_param->MinDelayrt);
3992 len += sprintf(page + off + len, " MaxDelayrt = %u\n", p_dsl_param->MaxDelayrt);
3993 len += sprintf(page + off + len, " RetxEnable = %u\n", p_dsl_param->RetxEnable);
3994 len += sprintf(page + off + len, " ServiceSpecificReTx = %u\n", p_dsl_param->ServiceSpecificReTx);
3995 len += sprintf(page + off + len, " ReTxPVC = 0x%08x\n", p_dsl_param->ReTxPVC);
3996 len += sprintf(page + off + len, " RxDtuCorruptedCNT = %u\n", p_dsl_param->RxDtuCorruptedCNT);
3997 len += sprintf(page + off + len, " RxRetxDtuUnCorrectedCNT = %u\n", p_dsl_param->RxRetxDtuUnCorrectedCNT);
3998 len += sprintf(page + off + len, " RxLastEFB = %u\n", p_dsl_param->RxLastEFB);
3999 len += sprintf(page + off + len, " RxDtuCorrectedCNT = %u\n", p_dsl_param->RxDtuCorrectedCNT);
4001 if ( g_retx_polling_end.tv_sec != 0 || g_retx_polling_end.tv_usec != 0 ) {
4002 unsigned long polling_time_usec;
4004 polling_time_usec = (g_retx_polling_end.tv_sec - g_retx_polling_start.tv_sec) * 1000000 + (g_retx_polling_end.tv_usec - g_retx_polling_start.tv_usec);
4005 len += sprintf(page + off + len, "DSL Param Update Time: %lu.%03lums\n", polling_time_usec / 1000, polling_time_usec % 1000);
4015 static int stricmp(const char *p1, const char *p2)
4019 while ( *p1 && *p2 ) {
4020 c1 = *p1 >= 'A' && *p1 <= 'Z' ? *p1 + 'a' - 'A' : *p1;
4021 c2 = *p2 >= 'A' && *p2 <= 'Z' ? *p2 + 'a' - 'A' : *p2;
4031 #if defined(ENABLE_DBG_PROC) && ENABLE_DBG_PROC
4033 static int strincmp(const char *p1, const char *p2, int n)
4037 while ( n && *p1 && *p2 ) {
4038 c1 = *p1 >= 'A' && *p1 <= 'Z' ? *p1 + 'a' - 'A' : *p1;
4039 c2 = *p2 >= 'A' && *p2 <= 'Z' ? *p2 + 'a' - 'A' : *p2;
4047 return n ? *p1 - *p2 : c1;
4050 static int get_token(char **p1, char **p2, int *len, int *colon)
4054 while ( *len && !((**p1 >= 'A' && **p1 <= 'Z') || (**p1 >= 'a' && **p1<= 'z') || (**p1 >= '0' && **p1<= '9')) )
4066 while ( *len && **p2 > ' ' && **p2 != ',' )
4082 while ( *len && **p2 > ' ' && **p2 != ',' )
4094 static unsigned int get_number(char **p, int *len, int is_hex)
4096 unsigned int ret = 0;
4099 if ( (*p)[0] == '0' && (*p)[1] == 'x' )
4109 while ( (!len || *len) && ((**p >= '0' && **p <= '9') || (**p >= 'a' && **p <= 'f') || (**p >= 'A' && **p <= 'F')) )
4111 if ( **p >= '0' && **p <= '9' )
4113 else if ( **p >= 'a' && **p <= 'f' )
4115 else if ( **p >= 'A' && **p <= 'F' )
4117 ret = (ret << 4) | n;
4125 while ( (!len || *len) && **p >= '0' && **p <= '9' )
4138 static void ignore_space(char **p, int *len)
4140 while ( *len && (**p <= ' ' || **p == ':' || **p == '.' || **p == ',') )
4149 static INLINE int ifx_atm_version(char *buf)
4152 unsigned int major, minor;
4154 ifx_atm_get_fw_ver(&major, &minor);
4156 len += sprintf(buf + len, " ATM (A1) firmware version %d.%d.%d\n", IFX_ATM_VER_MAJOR, IFX_ATM_VER_MID,IFX_ATM_VER_MINOR);
4161 static INLINE void check_parameters(void)
4163 /* Please refer to Amazon spec 15.4 for setting these values. */
4166 if ( qsb_tstep < 1 )
4168 else if ( qsb_tstep > 4 )
4170 else if ( qsb_tstep == 3 )
4173 /* There is a delay between PPE write descriptor and descriptor is */
4174 /* really stored in memory. Host also has this delay when writing */
4175 /* descriptor. So PPE will use this value to determine if the write */
4176 /* operation makes effect. */
4177 if ( write_descriptor_delay < 0 )
4178 write_descriptor_delay = 0;
4180 if ( aal5_fill_pattern < 0 )
4181 aal5_fill_pattern = 0;
4183 aal5_fill_pattern &= 0xFF;
4185 /* Because of the limitation of length field in descriptors, the packet */
4186 /* size could not be larger than 64K minus overhead size. */
4187 if ( aal5r_max_packet_size < 0 )
4188 aal5r_max_packet_size = 0;
4189 else if ( aal5r_max_packet_size >= 65535 - MAX_RX_FRAME_EXTRA_BYTES )
4190 aal5r_max_packet_size = 65535 - MAX_RX_FRAME_EXTRA_BYTES;
4191 if ( aal5r_min_packet_size < 0 )
4192 aal5r_min_packet_size = 0;
4193 else if ( aal5r_min_packet_size > aal5r_max_packet_size )
4194 aal5r_min_packet_size = aal5r_max_packet_size;
4195 if ( aal5s_max_packet_size < 0 )
4196 aal5s_max_packet_size = 0;
4197 else if ( aal5s_max_packet_size >= 65535 - MAX_TX_FRAME_EXTRA_BYTES )
4198 aal5s_max_packet_size = 65535 - MAX_TX_FRAME_EXTRA_BYTES;
4199 if ( aal5s_min_packet_size < 0 )
4200 aal5s_min_packet_size = 0;
4201 else if ( aal5s_min_packet_size > aal5s_max_packet_size )
4202 aal5s_min_packet_size = aal5s_max_packet_size;
4204 if ( dma_rx_descriptor_length < 2 )
4205 dma_rx_descriptor_length = 2;
4206 if ( dma_tx_descriptor_length < 2 )
4207 dma_tx_descriptor_length = 2;
4208 if ( dma_rx_clp1_descriptor_threshold < 0 )
4209 dma_rx_clp1_descriptor_threshold = 0;
4210 else if ( dma_rx_clp1_descriptor_threshold > dma_rx_descriptor_length )
4211 dma_rx_clp1_descriptor_threshold = dma_rx_descriptor_length;
4213 if ( dma_tx_descriptor_length < 2 )
4214 dma_tx_descriptor_length = 2;
4217 static INLINE int init_priv_data(void)
4221 struct rx_descriptor rx_desc = {0};
4222 struct sk_buff *skb;
4223 volatile struct tx_descriptor *p_tx_desc;
4224 struct sk_buff **ppskb;
4226 // clear atm private data structure
4227 memset(&g_atm_priv_data, 0, sizeof(g_atm_priv_data));
4229 // allocate memory for RX (AAL) descriptors
4230 p = kzalloc(dma_rx_descriptor_length * sizeof(struct rx_descriptor) + DESC_ALIGNMENT, GFP_KERNEL);
4233 dma_cache_wback_inv((unsigned long)p, dma_rx_descriptor_length * sizeof(struct rx_descriptor) + DESC_ALIGNMENT);
4234 g_atm_priv_data.aal_desc_base = p;
4235 p = (void *)((((unsigned int)p + DESC_ALIGNMENT - 1) & ~(DESC_ALIGNMENT - 1)) | KSEG1);
4236 g_atm_priv_data.aal_desc = (volatile struct rx_descriptor *)p;
4238 // allocate memory for RX (OAM) descriptors
4239 p = kzalloc(RX_DMA_CH_OAM_DESC_LEN * sizeof(struct rx_descriptor) + DESC_ALIGNMENT, GFP_KERNEL);
4242 dma_cache_wback_inv((unsigned long)p, RX_DMA_CH_OAM_DESC_LEN * sizeof(struct rx_descriptor) + DESC_ALIGNMENT);
4243 g_atm_priv_data.oam_desc_base = p;
4244 p = (void *)((((unsigned int)p + DESC_ALIGNMENT - 1) & ~(DESC_ALIGNMENT - 1)) | KSEG1);
4245 g_atm_priv_data.oam_desc = (volatile struct rx_descriptor *)p;
4247 // allocate memory for RX (OAM) buffer
4248 p = kzalloc(RX_DMA_CH_OAM_DESC_LEN * RX_DMA_CH_OAM_BUF_SIZE + DATA_BUFFER_ALIGNMENT, GFP_KERNEL);
4251 dma_cache_wback_inv((unsigned long)p, RX_DMA_CH_OAM_DESC_LEN * RX_DMA_CH_OAM_BUF_SIZE + DATA_BUFFER_ALIGNMENT);
4252 g_atm_priv_data.oam_buf_base = p;
4253 p = (void *)(((unsigned int)p + DATA_BUFFER_ALIGNMENT - 1) & ~(DATA_BUFFER_ALIGNMENT - 1));
4254 g_atm_priv_data.oam_buf = p;
4256 // allocate memory for TX descriptors
4257 p = kzalloc(MAX_PVC_NUMBER * dma_tx_descriptor_length * sizeof(struct tx_descriptor) + DESC_ALIGNMENT, GFP_KERNEL);
4260 dma_cache_wback_inv((unsigned long)p, MAX_PVC_NUMBER * dma_tx_descriptor_length * sizeof(struct tx_descriptor) + DESC_ALIGNMENT);
4261 g_atm_priv_data.tx_desc_base = p;
4263 // allocate memory for TX skb pointers
4264 p = kzalloc(MAX_PVC_NUMBER * dma_tx_descriptor_length * sizeof(struct sk_buff *) + 4, GFP_KERNEL);
4267 dma_cache_wback_inv((unsigned long)p, MAX_PVC_NUMBER * dma_tx_descriptor_length * sizeof(struct sk_buff *) + 4);
4268 g_atm_priv_data.tx_skb_base = p;
4270 // setup RX (AAL) descriptors
4275 rx_desc.byteoff = 0;
4278 rx_desc.datalen = RX_DMA_CH_AAL_BUF_SIZE;
4279 for ( i = 0; i < dma_rx_descriptor_length; i++ ) {
4280 skb = alloc_skb_rx();
4283 rx_desc.dataptr = ((unsigned int)skb->data >> 2) & 0x0FFFFFFF;
4284 g_atm_priv_data.aal_desc[i] = rx_desc;
4287 // setup RX (OAM) descriptors
4288 p = (void *)((unsigned int)g_atm_priv_data.oam_buf | KSEG1);
4293 rx_desc.byteoff = 0;
4296 rx_desc.datalen = RX_DMA_CH_OAM_BUF_SIZE;
4297 for ( i = 0; i < RX_DMA_CH_OAM_DESC_LEN; i++ ) {
4298 rx_desc.dataptr = ((unsigned int)p >> 2) & 0x0FFFFFFF;
4299 g_atm_priv_data.oam_desc[i] = rx_desc;
4300 p = (void *)((unsigned int)p + RX_DMA_CH_OAM_BUF_SIZE);
4303 // setup TX descriptors and skb pointers
4304 p_tx_desc = (volatile struct tx_descriptor *)((((unsigned int)g_atm_priv_data.tx_desc_base + DESC_ALIGNMENT - 1) & ~(DESC_ALIGNMENT - 1)) | KSEG1);
4305 ppskb = (struct sk_buff **)(((unsigned int)g_atm_priv_data.tx_skb_base + 3) & ~3);
4306 for ( i = 0; i < MAX_PVC_NUMBER; i++ ) {
4307 g_atm_priv_data.conn[i].tx_desc = &p_tx_desc[i * dma_tx_descriptor_length];
4308 g_atm_priv_data.conn[i].tx_skb = &ppskb[i * dma_tx_descriptor_length];
4311 for ( i = 0; i < ATM_PORT_NUMBER; i++ )
4312 g_atm_priv_data.port[i].tx_max_cell_rate = DEFAULT_TX_LINK_RATE;
4317 static INLINE void clear_priv_data(void)
4320 struct sk_buff *skb;
4322 for ( i = 0; i < MAX_PVC_NUMBER; i++ ) {
4323 if ( g_atm_priv_data.conn[i].tx_skb != NULL ) {
4324 for ( j = 0; j < dma_tx_descriptor_length; j++ )
4325 if ( g_atm_priv_data.conn[i].tx_skb[j] != NULL )
4326 dev_kfree_skb_any(g_atm_priv_data.conn[i].tx_skb[j]);
4330 if ( g_atm_priv_data.tx_skb_base != NULL )
4331 kfree(g_atm_priv_data.tx_skb_base);
4333 if ( g_atm_priv_data.tx_desc_base != NULL )
4334 kfree(g_atm_priv_data.tx_desc_base);
4336 if ( g_atm_priv_data.oam_buf_base != NULL )
4337 kfree(g_atm_priv_data.oam_buf_base);
4339 if ( g_atm_priv_data.oam_desc_base != NULL )
4340 kfree(g_atm_priv_data.oam_desc_base);
4342 if ( g_atm_priv_data.aal_desc_base != NULL ) {
4343 for ( i = 0; i < dma_rx_descriptor_length; i++ ) {
4344 if ( g_atm_priv_data.aal_desc[i].sop || g_atm_priv_data.aal_desc[i].eop ) { // descriptor initialized
4345 skb = get_skb_rx_pointer(g_atm_priv_data.aal_desc[i].dataptr);
4346 dev_kfree_skb_any(skb);
4349 kfree(g_atm_priv_data.aal_desc_base);
4353 static INLINE void init_rx_tables(void)
4356 struct wrx_queue_config wrx_queue_config = {0};
4357 struct wrx_dma_channel_config wrx_dma_channel_config = {0};
4358 struct htu_entry htu_entry = {0};
4359 struct htu_result htu_result = {0};
4360 struct htu_mask htu_mask = { set: 0x01,
4371 *CFG_WRX_HTUTS = MAX_PVC_NUMBER + OAM_HTU_ENTRY_NUMBER;
4372 #ifndef CONFIG_AMAZON_SE
4373 *CFG_WRX_QNUM = MAX_QUEUE_NUMBER;
4375 *CFG_WRX_DCHNUM = RX_DMA_CH_TOTAL;
4376 *WRX_DMACH_ON = (1 << RX_DMA_CH_TOTAL) - 1;
4377 *WRX_HUNT_BITTH = DEFAULT_RX_HUNT_BITTH;
4380 * WRX Queue Configuration Table
4382 wrx_queue_config.uumask = 0;
4383 wrx_queue_config.cpimask = 0;
4384 wrx_queue_config.uuexp = 0;
4385 wrx_queue_config.cpiexp = 0;
4386 wrx_queue_config.mfs = aal5r_max_packet_size;
4387 wrx_queue_config.oversize = aal5r_max_packet_size;
4388 wrx_queue_config.undersize = aal5r_min_packet_size;
4389 wrx_queue_config.errdp = aal5r_drop_error_packet;
4390 wrx_queue_config.dmach = RX_DMA_CH_AAL;
4391 for ( i = 0; i < MAX_QUEUE_NUMBER; i++ )
4392 *WRX_QUEUE_CONFIG(i) = wrx_queue_config;
4393 WRX_QUEUE_CONFIG(OAM_RX_QUEUE)->dmach = RX_DMA_CH_OAM;
4396 * WRX DMA Channel Configuration Table
4398 wrx_dma_channel_config.chrl = 0;
4399 wrx_dma_channel_config.clp1th = dma_rx_clp1_descriptor_threshold;
4400 wrx_dma_channel_config.mode = 0;
4401 wrx_dma_channel_config.rlcfg = 0;
4403 wrx_dma_channel_config.deslen = RX_DMA_CH_OAM_DESC_LEN;
4404 wrx_dma_channel_config.desba = ((unsigned int)g_atm_priv_data.oam_desc >> 2) & 0x0FFFFFFF;
4405 *WRX_DMA_CHANNEL_CONFIG(RX_DMA_CH_OAM) = wrx_dma_channel_config;
4407 wrx_dma_channel_config.deslen = dma_rx_descriptor_length;
4408 wrx_dma_channel_config.desba = ((unsigned int)g_atm_priv_data.aal_desc >> 2) & 0x0FFFFFFF;
4409 *WRX_DMA_CHANNEL_CONFIG(RX_DMA_CH_AAL) = wrx_dma_channel_config;
4414 for ( i = 0; i < MAX_PVC_NUMBER; i++ )
4416 htu_result.qid = (unsigned int)i;
4418 *HTU_ENTRY(i + OAM_HTU_ENTRY_NUMBER) = htu_entry;
4419 *HTU_MASK(i + OAM_HTU_ENTRY_NUMBER) = htu_mask;
4420 *HTU_RESULT(i + OAM_HTU_ENTRY_NUMBER) = htu_result;
4423 htu_entry.vci = 0x03;
4424 htu_mask.pid_mask = 0x03;
4425 htu_mask.vpi_mask = 0xFF;
4426 htu_mask.vci_mask = 0x0000;
4427 htu_mask.pti_mask = 0x07;
4428 htu_result.cellid = OAM_RX_QUEUE;
4429 htu_result.type = 1;
4431 htu_result.qid = OAM_RX_QUEUE;
4432 *HTU_RESULT(OAM_F4_SEG_HTU_ENTRY) = htu_result;
4433 *HTU_MASK(OAM_F4_SEG_HTU_ENTRY) = htu_mask;
4434 *HTU_ENTRY(OAM_F4_SEG_HTU_ENTRY) = htu_entry;
4435 htu_entry.vci = 0x04;
4436 htu_result.cellid = OAM_RX_QUEUE;
4437 htu_result.type = 1;
4439 htu_result.qid = OAM_RX_QUEUE;
4440 *HTU_RESULT(OAM_F4_TOT_HTU_ENTRY) = htu_result;
4441 *HTU_MASK(OAM_F4_TOT_HTU_ENTRY) = htu_mask;
4442 *HTU_ENTRY(OAM_F4_TOT_HTU_ENTRY) = htu_entry;
4443 htu_entry.vci = 0x00;
4444 htu_entry.pti = 0x04;
4445 htu_mask.vci_mask = 0xFFFF;
4446 htu_mask.pti_mask = 0x01;
4447 htu_result.cellid = OAM_RX_QUEUE;
4448 htu_result.type = 1;
4450 htu_result.qid = OAM_RX_QUEUE;
4451 *HTU_RESULT(OAM_F5_HTU_ENTRY) = htu_result;
4452 *HTU_MASK(OAM_F5_HTU_ENTRY) = htu_mask;
4453 *HTU_ENTRY(OAM_F5_HTU_ENTRY) = htu_entry;
4454 #if defined(ENABLE_ATM_RETX) && ENABLE_ATM_RETX
4455 htu_entry.pid = 0x0;
4456 htu_entry.vpi = 0x01;
4457 htu_entry.vci = 0x0001;
4458 htu_entry.pti = 0x00;
4459 htu_mask.pid_mask = 0x0;
4460 htu_mask.vpi_mask = 0x00;
4461 htu_mask.vci_mask = 0x0000;
4462 htu_mask.pti_mask = 0x3;
4463 htu_result.cellid = OAM_RX_QUEUE;
4464 htu_result.type = 1;
4466 htu_result.qid = OAM_RX_QUEUE;
4467 *HTU_RESULT(OAM_ARQ_HTU_ENTRY) = htu_result;
4468 *HTU_MASK(OAM_ARQ_HTU_ENTRY) = htu_mask;
4469 *HTU_ENTRY(OAM_ARQ_HTU_ENTRY) = htu_entry;
4473 static INLINE void init_tx_tables(void)
4476 struct wtx_queue_config wtx_queue_config = {0};
4477 struct wtx_dma_channel_config wtx_dma_channel_config = {0};
4478 struct wtx_port_config wtx_port_config = { res1: 0,
4485 *CFG_WTX_DCHNUM = MAX_TX_DMA_CHANNEL_NUMBER;
4486 *WTX_DMACH_ON = ((1 << MAX_TX_DMA_CHANNEL_NUMBER) - 1) ^ ((1 << FIRST_QSB_QID) - 1);
4487 *CFG_WRDES_DELAY = write_descriptor_delay;
4490 * WTX Port Configuration Table
4492 for ( i = 0; i < ATM_PORT_NUMBER; i++ )
4493 *WTX_PORT_CONFIG(i) = wtx_port_config;
4496 * WTX Queue Configuration Table
4498 wtx_queue_config.qsben = 1;
4499 wtx_queue_config.sbid = 0;
4500 for ( i = 0; i < MAX_TX_DMA_CHANNEL_NUMBER; i++ ) {
4501 wtx_queue_config.qsb_vcid = i;
4502 *WTX_QUEUE_CONFIG(i) = wtx_queue_config;
4506 * WTX DMA Channel Configuration Table
4508 wtx_dma_channel_config.mode = 0;
4509 wtx_dma_channel_config.deslen = 0;
4510 wtx_dma_channel_config.desba = 0;
4511 for ( i = 0; i < FIRST_QSB_QID; i++ )
4512 *WTX_DMA_CHANNEL_CONFIG(i) = wtx_dma_channel_config;
4513 /* normal connection */
4514 wtx_dma_channel_config.deslen = dma_tx_descriptor_length;
4515 for ( ; i < MAX_TX_DMA_CHANNEL_NUMBER ; i++ ) {
4516 wtx_dma_channel_config.desba = ((unsigned int)g_atm_priv_data.conn[i - FIRST_QSB_QID].tx_desc >> 2) & 0x0FFFFFFF;
4517 *WTX_DMA_CHANNEL_CONFIG(i) = wtx_dma_channel_config;
4524 * ####################################
4526 * ####################################
4529 static int atm_showtime_enter(struct port_cell_info *port_cell, void *xdata_addr)
4533 ASSERT(port_cell != NULL, "port_cell is NULL");
4534 ASSERT(xdata_addr != NULL, "xdata_addr is NULL");
4536 for ( j = 0; j < ATM_PORT_NUMBER && j < port_cell->port_num; j++ )
4537 if ( port_cell->tx_link_rate[j] > 0 )
4539 for ( i = 0; i < ATM_PORT_NUMBER && i < port_cell->port_num; i++ )
4540 g_atm_priv_data.port[i].tx_max_cell_rate = port_cell->tx_link_rate[i] > 0 ? port_cell->tx_link_rate[i] : port_cell->tx_link_rate[j];
4544 for ( i = 0; i < MAX_PVC_NUMBER; i++ )
4545 if ( g_atm_priv_data.conn[i].vcc != NULL )
4546 set_qsb(g_atm_priv_data.conn[i].vcc, &g_atm_priv_data.conn[i].vcc->qos, i);
4548 // TODO: ReTX set xdata_addr
4549 g_xdata_addr = xdata_addr;
4553 #if defined(CONFIG_VR9)
4554 IFX_REG_W32(0x0F, UTP_CFG);
4557 #if defined(ENABLE_ATM_RETX) && ENABLE_ATM_RETX
4558 if ( !timer_pending(&g_retx_polling_timer) ) {
4559 g_retx_polling_cnt = HZ;
4560 g_retx_polling_timer.expires = jiffies + RETX_POLLING_INTERVAL;
4561 add_timer(&g_retx_polling_timer);
4565 //printk("enter showtime, cell rate: 0 - %d, 1 - %d, xdata addr: 0x%08x\n", g_atm_priv_data.port[0].tx_max_cell_rate, g_atm_priv_data.port[1].tx_max_cell_rate, (unsigned int)g_xdata_addr);
4570 static int atm_showtime_exit(void)
4575 #if defined(ENABLE_ATM_RETX) && ENABLE_ATM_RETX
4576 RETX_MODE_CFG->retx_en = 0; // disable ReTX
4577 del_timer(&g_retx_polling_timer);
4580 #if defined(CONFIG_VR9)
4581 IFX_REG_W32(0x00, UTP_CFG);
4586 // TODO: ReTX clean state
4587 g_xdata_addr = NULL;
4589 printk("leave showtime\n");
4597 * ####################################
4599 * ####################################
4604 * Initialize global variables, PP32, comunication structures, register IRQ
4605 * and register device.
4610 * else --- failure, usually it is negative value of error code
4612 static int __devinit ifx_atm_init(void)
4616 struct port_cell_info port_cell = {0};
4622 ret = init_priv_data();
4623 if ( ret != IFX_SUCCESS ) {
4624 err("INIT_PRIV_DATA_FAIL");
4625 goto INIT_PRIV_DATA_FAIL;
4628 ifx_atm_init_chip();
4632 /* create devices */
4633 for ( port_num = 0; port_num < ATM_PORT_NUMBER; port_num++ ) {
4634 #if (LINUX_VERSION_CODE < KERNEL_VERSION(2,6,33))
4635 g_atm_priv_data.port[port_num].dev = atm_dev_register("ifxmips_atm", &g_ifx_atm_ops, -1, NULL);
4637 g_atm_priv_data.port[port_num].dev = atm_dev_register("ifxmips_atm", NULL, &g_ifx_atm_ops, -1, NULL);
4640 if ( !g_atm_priv_data.port[port_num].dev ) {
4641 err("failed to register atm device %d!", port_num);
4643 goto ATM_DEV_REGISTER_FAIL;
4646 g_atm_priv_data.port[port_num].dev->ci_range.vpi_bits = 8;
4647 g_atm_priv_data.port[port_num].dev->ci_range.vci_bits = 16;
4648 g_atm_priv_data.port[port_num].dev->link_rate = g_atm_priv_data.port[port_num].tx_max_cell_rate;
4649 g_atm_priv_data.port[port_num].dev->dev_data = (void*)port_num;
4653 /* register interrupt handler */
4654 ret = request_irq(PPE_MAILBOX_IGU1_INT, mailbox_irq_handler, IRQF_DISABLED, "atm_mailbox_isr", &g_atm_priv_data);
4656 if ( ret == -EBUSY ) {
4657 err("IRQ may be occupied by other driver, please reconfig to disable it.");
4660 err("request_irq fail");
4662 goto REQUEST_IRQ_PPE_MAILBOX_IGU1_INT_FAIL;
4664 disable_irq(PPE_MAILBOX_IGU1_INT);
4666 #if defined(ENABLE_ATM_RETX) && ENABLE_ATM_RETX
4667 init_atm_tc_retrans_param();
4669 init_timer(&g_retx_polling_timer);
4670 g_retx_polling_timer.function = retx_polling_func;
4673 ret = ifx_pp32_start(0);
4675 err("ifx_pp32_start fail!");
4676 goto PP32_START_FAIL;
4679 port_cell.port_num = ATM_PORT_NUMBER;
4680 if( !IS_ERR(&ifx_mei_atm_showtime_check) && &ifx_mei_atm_showtime_check)
4681 ifx_mei_atm_showtime_check(&g_showtime, &port_cell, &g_xdata_addr);
4683 for ( i = 0; i < ATM_PORT_NUMBER; i++ )
4684 if ( port_cell.tx_link_rate[i] != 0 )
4686 for ( j = 0; j < ATM_PORT_NUMBER; j++ )
4687 g_atm_priv_data.port[j].tx_max_cell_rate = port_cell.tx_link_rate[j] != 0 ? port_cell.tx_link_rate[j] : port_cell.tx_link_rate[i];
4691 validate_oam_htu_entry();
4693 #if 0 /*defined(ENABLE_LED_FRAMEWORK) && ENABLE_LED_FRAMEWORK*/
4694 ifx_led_trigger_register("dsl_data", &g_data_led_trigger);
4697 /* create proc file */
4700 if( !IS_ERR(&ifx_mei_atm_showtime_enter) && &ifx_mei_atm_showtime_enter )
4701 ifx_mei_atm_showtime_enter = atm_showtime_enter;
4703 if( !IS_ERR(&ifx_mei_atm_showtime_exit) && !ifx_mei_atm_showtime_exit )
4704 ifx_mei_atm_showtime_exit = atm_showtime_exit;
4706 ifx_atm_version(ver_str);
4707 printk(KERN_INFO "%s", ver_str);
4709 printk("ifxmips_atm: ATM init succeed\n");
4714 free_irq(PPE_MAILBOX_IGU1_INT, &g_atm_priv_data);
4715 REQUEST_IRQ_PPE_MAILBOX_IGU1_INT_FAIL:
4716 ATM_DEV_REGISTER_FAIL:
4717 while ( port_num-- > 0 )
4718 atm_dev_deregister(g_atm_priv_data.port[port_num].dev);
4719 INIT_PRIV_DATA_FAIL:
4721 printk("ifxmips_atm: ATM init failed\n");
4727 * Release memory, free IRQ, and deregister device.
4733 static void __exit ifx_atm_exit(void)
4737 if( !IS_ERR(&ifx_mei_atm_showtime_enter) && &ifx_mei_atm_showtime_enter )
4738 ifx_mei_atm_showtime_enter = NULL;
4739 if( !IS_ERR(&ifx_mei_atm_showtime_exit) && !ifx_mei_atm_showtime_exit )
4740 ifx_mei_atm_showtime_exit = NULL;
4744 #if 0 /*defined(ENABLE_LED_FRAMEWORK) && ENABLE_LED_FRAMEWORK*/
4745 ifx_led_trigger_deregister(g_data_led_trigger);
4746 g_data_led_trigger = NULL;
4749 invalidate_oam_htu_entry();
4753 #if defined(ENABLE_ATM_RETX) && ENABLE_ATM_RETX
4754 del_timer(&g_retx_polling_timer);
4755 clear_atm_tc_retrans_param();
4758 free_irq(PPE_MAILBOX_IGU1_INT, &g_atm_priv_data);
4760 for ( port_num = 0; port_num < ATM_PORT_NUMBER; port_num++ )
4761 atm_dev_deregister(g_atm_priv_data.port[port_num].dev);
4763 ifx_atm_uninit_chip();
4768 module_init(ifx_atm_init);
4769 module_exit(ifx_atm_exit);
4770 MODULE_LICENSE("Dual BSD/GPL");