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1da177e4 | 1 | /************************************************************************ |
776bd20f | 2 | * s2io.c: A Linux PCI-X Ethernet driver for Neterion 10GbE Server NIC |
0c61ed5f | 3 | * Copyright(c) 2002-2007 Neterion Inc. |
1da177e4 LT |
4 | |
5 | * This software may be used and distributed according to the terms of | |
6 | * the GNU General Public License (GPL), incorporated herein by reference. | |
7 | * Drivers based on or derived from this code fall under the GPL and must | |
8 | * retain the authorship, copyright and license notice. This file is not | |
9 | * a complete program and may only be used when the entire operating | |
10 | * system is licensed under the GPL. | |
11 | * See the file COPYING in this distribution for more information. | |
12 | * | |
13 | * Credits: | |
20346722 K |
14 | * Jeff Garzik : For pointing out the improper error condition |
15 | * check in the s2io_xmit routine and also some | |
16 | * issues in the Tx watch dog function. Also for | |
17 | * patiently answering all those innumerable | |
1da177e4 LT |
18 | * questions regaring the 2.6 porting issues. |
19 | * Stephen Hemminger : Providing proper 2.6 porting mechanism for some | |
20 | * macros available only in 2.6 Kernel. | |
20346722 | 21 | * Francois Romieu : For pointing out all code part that were |
1da177e4 | 22 | * deprecated and also styling related comments. |
20346722 | 23 | * Grant Grundler : For helping me get rid of some Architecture |
1da177e4 LT |
24 | * dependent code. |
25 | * Christopher Hellwig : Some more 2.6 specific issues in the driver. | |
20346722 | 26 | * |
1da177e4 LT |
27 | * The module loadable parameters that are supported by the driver and a brief |
28 | * explaination of all the variables. | |
9dc737a7 | 29 | * |
20346722 K |
30 | * rx_ring_num : This can be used to program the number of receive rings used |
31 | * in the driver. | |
9dc737a7 AR |
32 | * rx_ring_sz: This defines the number of receive blocks each ring can have. |
33 | * This is also an array of size 8. | |
da6971d8 | 34 | * rx_ring_mode: This defines the operation mode of all 8 rings. The valid |
6d517a27 | 35 | * values are 1, 2. |
1da177e4 | 36 | * tx_fifo_num: This defines the number of Tx FIFOs thats used int the driver. |
20346722 | 37 | * tx_fifo_len: This too is an array of 8. Each element defines the number of |
1da177e4 | 38 | * Tx descriptors that can be associated with each corresponding FIFO. |
9dc737a7 | 39 | * intr_type: This defines the type of interrupt. The values can be 0(INTA), |
8abc4d5b | 40 | * 2(MSI_X). Default value is '2(MSI_X)' |
43b7c451 | 41 | * lro_enable: Specifies whether to enable Large Receive Offload (LRO) or not. |
9dc737a7 AR |
42 | * Possible values '1' for enable '0' for disable. Default is '0' |
43 | * lro_max_pkts: This parameter defines maximum number of packets can be | |
44 | * aggregated as a single large packet | |
926930b2 SS |
45 | * napi: This parameter used to enable/disable NAPI (polling Rx) |
46 | * Possible values '1' for enable and '0' for disable. Default is '1' | |
47 | * ufo: This parameter used to enable/disable UDP Fragmentation Offload(UFO) | |
48 | * Possible values '1' for enable and '0' for disable. Default is '0' | |
49 | * vlan_tag_strip: This can be used to enable or disable vlan stripping. | |
50 | * Possible values '1' for enable , '0' for disable. | |
51 | * Default is '2' - which means disable in promisc mode | |
52 | * and enable in non-promiscuous mode. | |
3a3d5756 SH |
53 | * multiq: This parameter used to enable/disable MULTIQUEUE support. |
54 | * Possible values '1' for enable and '0' for disable. Default is '0' | |
1da177e4 LT |
55 | ************************************************************************/ |
56 | ||
1da177e4 LT |
57 | #include <linux/module.h> |
58 | #include <linux/types.h> | |
59 | #include <linux/errno.h> | |
60 | #include <linux/ioport.h> | |
61 | #include <linux/pci.h> | |
1e7f0bd8 | 62 | #include <linux/dma-mapping.h> |
1da177e4 LT |
63 | #include <linux/kernel.h> |
64 | #include <linux/netdevice.h> | |
65 | #include <linux/etherdevice.h> | |
66 | #include <linux/skbuff.h> | |
67 | #include <linux/init.h> | |
68 | #include <linux/delay.h> | |
69 | #include <linux/stddef.h> | |
70 | #include <linux/ioctl.h> | |
71 | #include <linux/timex.h> | |
1da177e4 | 72 | #include <linux/ethtool.h> |
1da177e4 | 73 | #include <linux/workqueue.h> |
be3a6b02 | 74 | #include <linux/if_vlan.h> |
7d3d0439 RA |
75 | #include <linux/ip.h> |
76 | #include <linux/tcp.h> | |
77 | #include <net/tcp.h> | |
1da177e4 | 78 | |
1da177e4 LT |
79 | #include <asm/system.h> |
80 | #include <asm/uaccess.h> | |
20346722 | 81 | #include <asm/io.h> |
fe931395 | 82 | #include <asm/div64.h> |
330ce0de | 83 | #include <asm/irq.h> |
1da177e4 LT |
84 | |
85 | /* local include */ | |
86 | #include "s2io.h" | |
87 | #include "s2io-regs.h" | |
88 | ||
0b5923cd | 89 | #define DRV_VERSION "2.0.26.24" |
6c1792f4 | 90 | |
1da177e4 | 91 | /* S2io Driver name & version. */ |
20346722 | 92 | static char s2io_driver_name[] = "Neterion"; |
6c1792f4 | 93 | static char s2io_driver_version[] = DRV_VERSION; |
1da177e4 | 94 | |
6d517a27 VP |
95 | static int rxd_size[2] = {32,48}; |
96 | static int rxd_count[2] = {127,85}; | |
da6971d8 | 97 | |
1ee6dd77 | 98 | static inline int RXD_IS_UP2DT(struct RxD_t *rxdp) |
5e25b9dd K |
99 | { |
100 | int ret; | |
101 | ||
102 | ret = ((!(rxdp->Control_1 & RXD_OWN_XENA)) && | |
103 | (GET_RXD_MARKER(rxdp->Control_2) != THE_RXD_MARK)); | |
104 | ||
105 | return ret; | |
106 | } | |
107 | ||
20346722 | 108 | /* |
1da177e4 LT |
109 | * Cards with following subsystem_id have a link state indication |
110 | * problem, 600B, 600C, 600D, 640B, 640C and 640D. | |
111 | * macro below identifies these cards given the subsystem_id. | |
112 | */ | |
541ae68f K |
113 | #define CARDS_WITH_FAULTY_LINK_INDICATORS(dev_type, subid) \ |
114 | (dev_type == XFRAME_I_DEVICE) ? \ | |
115 | ((((subid >= 0x600B) && (subid <= 0x600D)) || \ | |
116 | ((subid >= 0x640B) && (subid <= 0x640D))) ? 1 : 0) : 0 | |
1da177e4 LT |
117 | |
118 | #define LINK_IS_UP(val64) (!(val64 & (ADAPTER_STATUS_RMAC_REMOTE_FAULT | \ | |
119 | ADAPTER_STATUS_RMAC_LOCAL_FAULT))) | |
1da177e4 | 120 | |
92b84437 SS |
121 | static inline int is_s2io_card_up(const struct s2io_nic * sp) |
122 | { | |
123 | return test_bit(__S2IO_STATE_CARD_UP, &sp->state); | |
124 | } | |
125 | ||
1da177e4 LT |
126 | /* Ethtool related variables and Macros. */ |
127 | static char s2io_gstrings[][ETH_GSTRING_LEN] = { | |
128 | "Register test\t(offline)", | |
129 | "Eeprom test\t(offline)", | |
130 | "Link test\t(online)", | |
131 | "RLDRAM test\t(offline)", | |
132 | "BIST Test\t(offline)" | |
133 | }; | |
134 | ||
fa1f0cb3 | 135 | static char ethtool_xena_stats_keys[][ETH_GSTRING_LEN] = { |
1da177e4 LT |
136 | {"tmac_frms"}, |
137 | {"tmac_data_octets"}, | |
138 | {"tmac_drop_frms"}, | |
139 | {"tmac_mcst_frms"}, | |
140 | {"tmac_bcst_frms"}, | |
141 | {"tmac_pause_ctrl_frms"}, | |
bd1034f0 AR |
142 | {"tmac_ttl_octets"}, |
143 | {"tmac_ucst_frms"}, | |
144 | {"tmac_nucst_frms"}, | |
1da177e4 | 145 | {"tmac_any_err_frms"}, |
bd1034f0 | 146 | {"tmac_ttl_less_fb_octets"}, |
1da177e4 LT |
147 | {"tmac_vld_ip_octets"}, |
148 | {"tmac_vld_ip"}, | |
149 | {"tmac_drop_ip"}, | |
150 | {"tmac_icmp"}, | |
151 | {"tmac_rst_tcp"}, | |
152 | {"tmac_tcp"}, | |
153 | {"tmac_udp"}, | |
154 | {"rmac_vld_frms"}, | |
155 | {"rmac_data_octets"}, | |
156 | {"rmac_fcs_err_frms"}, | |
157 | {"rmac_drop_frms"}, | |
158 | {"rmac_vld_mcst_frms"}, | |
159 | {"rmac_vld_bcst_frms"}, | |
160 | {"rmac_in_rng_len_err_frms"}, | |
bd1034f0 | 161 | {"rmac_out_rng_len_err_frms"}, |
1da177e4 LT |
162 | {"rmac_long_frms"}, |
163 | {"rmac_pause_ctrl_frms"}, | |
bd1034f0 AR |
164 | {"rmac_unsup_ctrl_frms"}, |
165 | {"rmac_ttl_octets"}, | |
166 | {"rmac_accepted_ucst_frms"}, | |
167 | {"rmac_accepted_nucst_frms"}, | |
1da177e4 | 168 | {"rmac_discarded_frms"}, |
bd1034f0 AR |
169 | {"rmac_drop_events"}, |
170 | {"rmac_ttl_less_fb_octets"}, | |
171 | {"rmac_ttl_frms"}, | |
1da177e4 LT |
172 | {"rmac_usized_frms"}, |
173 | {"rmac_osized_frms"}, | |
174 | {"rmac_frag_frms"}, | |
175 | {"rmac_jabber_frms"}, | |
bd1034f0 AR |
176 | {"rmac_ttl_64_frms"}, |
177 | {"rmac_ttl_65_127_frms"}, | |
178 | {"rmac_ttl_128_255_frms"}, | |
179 | {"rmac_ttl_256_511_frms"}, | |
180 | {"rmac_ttl_512_1023_frms"}, | |
181 | {"rmac_ttl_1024_1518_frms"}, | |
1da177e4 LT |
182 | {"rmac_ip"}, |
183 | {"rmac_ip_octets"}, | |
184 | {"rmac_hdr_err_ip"}, | |
185 | {"rmac_drop_ip"}, | |
186 | {"rmac_icmp"}, | |
187 | {"rmac_tcp"}, | |
188 | {"rmac_udp"}, | |
189 | {"rmac_err_drp_udp"}, | |
bd1034f0 AR |
190 | {"rmac_xgmii_err_sym"}, |
191 | {"rmac_frms_q0"}, | |
192 | {"rmac_frms_q1"}, | |
193 | {"rmac_frms_q2"}, | |
194 | {"rmac_frms_q3"}, | |
195 | {"rmac_frms_q4"}, | |
196 | {"rmac_frms_q5"}, | |
197 | {"rmac_frms_q6"}, | |
198 | {"rmac_frms_q7"}, | |
199 | {"rmac_full_q0"}, | |
200 | {"rmac_full_q1"}, | |
201 | {"rmac_full_q2"}, | |
202 | {"rmac_full_q3"}, | |
203 | {"rmac_full_q4"}, | |
204 | {"rmac_full_q5"}, | |
205 | {"rmac_full_q6"}, | |
206 | {"rmac_full_q7"}, | |
1da177e4 | 207 | {"rmac_pause_cnt"}, |
bd1034f0 AR |
208 | {"rmac_xgmii_data_err_cnt"}, |
209 | {"rmac_xgmii_ctrl_err_cnt"}, | |
1da177e4 LT |
210 | {"rmac_accepted_ip"}, |
211 | {"rmac_err_tcp"}, | |
bd1034f0 AR |
212 | {"rd_req_cnt"}, |
213 | {"new_rd_req_cnt"}, | |
214 | {"new_rd_req_rtry_cnt"}, | |
215 | {"rd_rtry_cnt"}, | |
216 | {"wr_rtry_rd_ack_cnt"}, | |
217 | {"wr_req_cnt"}, | |
218 | {"new_wr_req_cnt"}, | |
219 | {"new_wr_req_rtry_cnt"}, | |
220 | {"wr_rtry_cnt"}, | |
221 | {"wr_disc_cnt"}, | |
222 | {"rd_rtry_wr_ack_cnt"}, | |
223 | {"txp_wr_cnt"}, | |
224 | {"txd_rd_cnt"}, | |
225 | {"txd_wr_cnt"}, | |
226 | {"rxd_rd_cnt"}, | |
227 | {"rxd_wr_cnt"}, | |
228 | {"txf_rd_cnt"}, | |
fa1f0cb3 SS |
229 | {"rxf_wr_cnt"} |
230 | }; | |
231 | ||
232 | static char ethtool_enhanced_stats_keys[][ETH_GSTRING_LEN] = { | |
bd1034f0 AR |
233 | {"rmac_ttl_1519_4095_frms"}, |
234 | {"rmac_ttl_4096_8191_frms"}, | |
235 | {"rmac_ttl_8192_max_frms"}, | |
236 | {"rmac_ttl_gt_max_frms"}, | |
237 | {"rmac_osized_alt_frms"}, | |
238 | {"rmac_jabber_alt_frms"}, | |
239 | {"rmac_gt_max_alt_frms"}, | |
240 | {"rmac_vlan_frms"}, | |
241 | {"rmac_len_discard"}, | |
242 | {"rmac_fcs_discard"}, | |
243 | {"rmac_pf_discard"}, | |
244 | {"rmac_da_discard"}, | |
245 | {"rmac_red_discard"}, | |
246 | {"rmac_rts_discard"}, | |
247 | {"rmac_ingm_full_discard"}, | |
fa1f0cb3 SS |
248 | {"link_fault_cnt"} |
249 | }; | |
250 | ||
251 | static char ethtool_driver_stats_keys[][ETH_GSTRING_LEN] = { | |
7ba013ac K |
252 | {"\n DRIVER STATISTICS"}, |
253 | {"single_bit_ecc_errs"}, | |
254 | {"double_bit_ecc_errs"}, | |
bd1034f0 AR |
255 | {"parity_err_cnt"}, |
256 | {"serious_err_cnt"}, | |
257 | {"soft_reset_cnt"}, | |
258 | {"fifo_full_cnt"}, | |
8116f3cf SS |
259 | {"ring_0_full_cnt"}, |
260 | {"ring_1_full_cnt"}, | |
261 | {"ring_2_full_cnt"}, | |
262 | {"ring_3_full_cnt"}, | |
263 | {"ring_4_full_cnt"}, | |
264 | {"ring_5_full_cnt"}, | |
265 | {"ring_6_full_cnt"}, | |
266 | {"ring_7_full_cnt"}, | |
43b7c451 SH |
267 | {"alarm_transceiver_temp_high"}, |
268 | {"alarm_transceiver_temp_low"}, | |
269 | {"alarm_laser_bias_current_high"}, | |
270 | {"alarm_laser_bias_current_low"}, | |
271 | {"alarm_laser_output_power_high"}, | |
272 | {"alarm_laser_output_power_low"}, | |
273 | {"warn_transceiver_temp_high"}, | |
274 | {"warn_transceiver_temp_low"}, | |
275 | {"warn_laser_bias_current_high"}, | |
276 | {"warn_laser_bias_current_low"}, | |
277 | {"warn_laser_output_power_high"}, | |
278 | {"warn_laser_output_power_low"}, | |
279 | {"lro_aggregated_pkts"}, | |
280 | {"lro_flush_both_count"}, | |
281 | {"lro_out_of_sequence_pkts"}, | |
282 | {"lro_flush_due_to_max_pkts"}, | |
283 | {"lro_avg_aggr_pkts"}, | |
284 | {"mem_alloc_fail_cnt"}, | |
285 | {"pci_map_fail_cnt"}, | |
286 | {"watchdog_timer_cnt"}, | |
287 | {"mem_allocated"}, | |
288 | {"mem_freed"}, | |
289 | {"link_up_cnt"}, | |
290 | {"link_down_cnt"}, | |
291 | {"link_up_time"}, | |
292 | {"link_down_time"}, | |
293 | {"tx_tcode_buf_abort_cnt"}, | |
294 | {"tx_tcode_desc_abort_cnt"}, | |
295 | {"tx_tcode_parity_err_cnt"}, | |
296 | {"tx_tcode_link_loss_cnt"}, | |
297 | {"tx_tcode_list_proc_err_cnt"}, | |
298 | {"rx_tcode_parity_err_cnt"}, | |
299 | {"rx_tcode_abort_cnt"}, | |
300 | {"rx_tcode_parity_abort_cnt"}, | |
301 | {"rx_tcode_rda_fail_cnt"}, | |
302 | {"rx_tcode_unkn_prot_cnt"}, | |
303 | {"rx_tcode_fcs_err_cnt"}, | |
304 | {"rx_tcode_buf_size_err_cnt"}, | |
305 | {"rx_tcode_rxd_corrupt_cnt"}, | |
306 | {"rx_tcode_unkn_err_cnt"}, | |
8116f3cf SS |
307 | {"tda_err_cnt"}, |
308 | {"pfc_err_cnt"}, | |
309 | {"pcc_err_cnt"}, | |
310 | {"tti_err_cnt"}, | |
311 | {"tpa_err_cnt"}, | |
312 | {"sm_err_cnt"}, | |
313 | {"lso_err_cnt"}, | |
314 | {"mac_tmac_err_cnt"}, | |
315 | {"mac_rmac_err_cnt"}, | |
316 | {"xgxs_txgxs_err_cnt"}, | |
317 | {"xgxs_rxgxs_err_cnt"}, | |
318 | {"rc_err_cnt"}, | |
319 | {"prc_pcix_err_cnt"}, | |
320 | {"rpa_err_cnt"}, | |
321 | {"rda_err_cnt"}, | |
322 | {"rti_err_cnt"}, | |
323 | {"mc_err_cnt"} | |
1da177e4 LT |
324 | }; |
325 | ||
4c3616cd AMR |
326 | #define S2IO_XENA_STAT_LEN ARRAY_SIZE(ethtool_xena_stats_keys) |
327 | #define S2IO_ENHANCED_STAT_LEN ARRAY_SIZE(ethtool_enhanced_stats_keys) | |
328 | #define S2IO_DRIVER_STAT_LEN ARRAY_SIZE(ethtool_driver_stats_keys) | |
fa1f0cb3 SS |
329 | |
330 | #define XFRAME_I_STAT_LEN (S2IO_XENA_STAT_LEN + S2IO_DRIVER_STAT_LEN ) | |
331 | #define XFRAME_II_STAT_LEN (XFRAME_I_STAT_LEN + S2IO_ENHANCED_STAT_LEN ) | |
332 | ||
333 | #define XFRAME_I_STAT_STRINGS_LEN ( XFRAME_I_STAT_LEN * ETH_GSTRING_LEN ) | |
334 | #define XFRAME_II_STAT_STRINGS_LEN ( XFRAME_II_STAT_LEN * ETH_GSTRING_LEN ) | |
1da177e4 | 335 | |
4c3616cd | 336 | #define S2IO_TEST_LEN ARRAY_SIZE(s2io_gstrings) |
1da177e4 LT |
337 | #define S2IO_STRINGS_LEN S2IO_TEST_LEN * ETH_GSTRING_LEN |
338 | ||
25fff88e K |
339 | #define S2IO_TIMER_CONF(timer, handle, arg, exp) \ |
340 | init_timer(&timer); \ | |
341 | timer.function = handle; \ | |
342 | timer.data = (unsigned long) arg; \ | |
343 | mod_timer(&timer, (jiffies + exp)) \ | |
344 | ||
2fd37688 SS |
345 | /* copy mac addr to def_mac_addr array */ |
346 | static void do_s2io_copy_mac_addr(struct s2io_nic *sp, int offset, u64 mac_addr) | |
347 | { | |
348 | sp->def_mac_addr[offset].mac_addr[5] = (u8) (mac_addr); | |
349 | sp->def_mac_addr[offset].mac_addr[4] = (u8) (mac_addr >> 8); | |
350 | sp->def_mac_addr[offset].mac_addr[3] = (u8) (mac_addr >> 16); | |
351 | sp->def_mac_addr[offset].mac_addr[2] = (u8) (mac_addr >> 24); | |
352 | sp->def_mac_addr[offset].mac_addr[1] = (u8) (mac_addr >> 32); | |
353 | sp->def_mac_addr[offset].mac_addr[0] = (u8) (mac_addr >> 40); | |
354 | } | |
be3a6b02 K |
355 | /* Add the vlan */ |
356 | static void s2io_vlan_rx_register(struct net_device *dev, | |
357 | struct vlan_group *grp) | |
358 | { | |
2fda096d | 359 | int i; |
1ee6dd77 | 360 | struct s2io_nic *nic = dev->priv; |
2fda096d SR |
361 | unsigned long flags[MAX_TX_FIFOS]; |
362 | struct mac_info *mac_control = &nic->mac_control; | |
363 | struct config_param *config = &nic->config; | |
364 | ||
365 | for (i = 0; i < config->tx_fifo_num; i++) | |
366 | spin_lock_irqsave(&mac_control->fifos[i].tx_lock, flags[i]); | |
be3a6b02 | 367 | |
be3a6b02 | 368 | nic->vlgrp = grp; |
2fda096d SR |
369 | for (i = config->tx_fifo_num - 1; i >= 0; i--) |
370 | spin_unlock_irqrestore(&mac_control->fifos[i].tx_lock, | |
371 | flags[i]); | |
be3a6b02 K |
372 | } |
373 | ||
926930b2 | 374 | /* A flag indicating whether 'RX_PA_CFG_STRIP_VLAN_TAG' bit is set or not */ |
7b490343 | 375 | static int vlan_strip_flag; |
926930b2 | 376 | |
cdb5bf02 SH |
377 | /* Unregister the vlan */ |
378 | static void s2io_vlan_rx_kill_vid(struct net_device *dev, unsigned long vid) | |
379 | { | |
380 | int i; | |
381 | struct s2io_nic *nic = dev->priv; | |
382 | unsigned long flags[MAX_TX_FIFOS]; | |
383 | struct mac_info *mac_control = &nic->mac_control; | |
384 | struct config_param *config = &nic->config; | |
385 | ||
386 | for (i = 0; i < config->tx_fifo_num; i++) | |
387 | spin_lock_irqsave(&mac_control->fifos[i].tx_lock, flags[i]); | |
388 | ||
389 | if (nic->vlgrp) | |
390 | vlan_group_set_device(nic->vlgrp, vid, NULL); | |
391 | ||
392 | for (i = config->tx_fifo_num - 1; i >= 0; i--) | |
393 | spin_unlock_irqrestore(&mac_control->fifos[i].tx_lock, | |
394 | flags[i]); | |
395 | } | |
396 | ||
20346722 | 397 | /* |
1da177e4 LT |
398 | * Constants to be programmed into the Xena's registers, to configure |
399 | * the XAUI. | |
400 | */ | |
401 | ||
1da177e4 | 402 | #define END_SIGN 0x0 |
f71e1309 | 403 | static const u64 herc_act_dtx_cfg[] = { |
541ae68f | 404 | /* Set address */ |
e960fc5c | 405 | 0x8000051536750000ULL, 0x80000515367500E0ULL, |
541ae68f | 406 | /* Write data */ |
e960fc5c | 407 | 0x8000051536750004ULL, 0x80000515367500E4ULL, |
541ae68f K |
408 | /* Set address */ |
409 | 0x80010515003F0000ULL, 0x80010515003F00E0ULL, | |
410 | /* Write data */ | |
411 | 0x80010515003F0004ULL, 0x80010515003F00E4ULL, | |
412 | /* Set address */ | |
e960fc5c | 413 | 0x801205150D440000ULL, 0x801205150D4400E0ULL, |
414 | /* Write data */ | |
415 | 0x801205150D440004ULL, 0x801205150D4400E4ULL, | |
416 | /* Set address */ | |
541ae68f K |
417 | 0x80020515F2100000ULL, 0x80020515F21000E0ULL, |
418 | /* Write data */ | |
419 | 0x80020515F2100004ULL, 0x80020515F21000E4ULL, | |
420 | /* Done */ | |
421 | END_SIGN | |
422 | }; | |
423 | ||
f71e1309 | 424 | static const u64 xena_dtx_cfg[] = { |
c92ca04b | 425 | /* Set address */ |
1da177e4 | 426 | 0x8000051500000000ULL, 0x80000515000000E0ULL, |
c92ca04b AR |
427 | /* Write data */ |
428 | 0x80000515D9350004ULL, 0x80000515D93500E4ULL, | |
429 | /* Set address */ | |
430 | 0x8001051500000000ULL, 0x80010515000000E0ULL, | |
431 | /* Write data */ | |
432 | 0x80010515001E0004ULL, 0x80010515001E00E4ULL, | |
433 | /* Set address */ | |
1da177e4 | 434 | 0x8002051500000000ULL, 0x80020515000000E0ULL, |
c92ca04b AR |
435 | /* Write data */ |
436 | 0x80020515F2100004ULL, 0x80020515F21000E4ULL, | |
1da177e4 LT |
437 | END_SIGN |
438 | }; | |
439 | ||
20346722 | 440 | /* |
1da177e4 LT |
441 | * Constants for Fixing the MacAddress problem seen mostly on |
442 | * Alpha machines. | |
443 | */ | |
f71e1309 | 444 | static const u64 fix_mac[] = { |
1da177e4 LT |
445 | 0x0060000000000000ULL, 0x0060600000000000ULL, |
446 | 0x0040600000000000ULL, 0x0000600000000000ULL, | |
447 | 0x0020600000000000ULL, 0x0060600000000000ULL, | |
448 | 0x0020600000000000ULL, 0x0060600000000000ULL, | |
449 | 0x0020600000000000ULL, 0x0060600000000000ULL, | |
450 | 0x0020600000000000ULL, 0x0060600000000000ULL, | |
451 | 0x0020600000000000ULL, 0x0060600000000000ULL, | |
452 | 0x0020600000000000ULL, 0x0060600000000000ULL, | |
453 | 0x0020600000000000ULL, 0x0060600000000000ULL, | |
454 | 0x0020600000000000ULL, 0x0060600000000000ULL, | |
455 | 0x0020600000000000ULL, 0x0060600000000000ULL, | |
456 | 0x0020600000000000ULL, 0x0060600000000000ULL, | |
457 | 0x0020600000000000ULL, 0x0000600000000000ULL, | |
458 | 0x0040600000000000ULL, 0x0060600000000000ULL, | |
459 | END_SIGN | |
460 | }; | |
461 | ||
b41477f3 AR |
462 | MODULE_LICENSE("GPL"); |
463 | MODULE_VERSION(DRV_VERSION); | |
464 | ||
465 | ||
1da177e4 | 466 | /* Module Loadable parameters. */ |
6cfc482b | 467 | S2IO_PARM_INT(tx_fifo_num, FIFO_DEFAULT_NUM); |
b41477f3 | 468 | S2IO_PARM_INT(rx_ring_num, 1); |
3a3d5756 | 469 | S2IO_PARM_INT(multiq, 0); |
b41477f3 AR |
470 | S2IO_PARM_INT(rx_ring_mode, 1); |
471 | S2IO_PARM_INT(use_continuous_tx_intrs, 1); | |
472 | S2IO_PARM_INT(rmac_pause_time, 0x100); | |
473 | S2IO_PARM_INT(mc_pause_threshold_q0q3, 187); | |
474 | S2IO_PARM_INT(mc_pause_threshold_q4q7, 187); | |
475 | S2IO_PARM_INT(shared_splits, 0); | |
476 | S2IO_PARM_INT(tmac_util_period, 5); | |
477 | S2IO_PARM_INT(rmac_util_period, 5); | |
b41477f3 | 478 | S2IO_PARM_INT(l3l4hdr_size, 128); |
6cfc482b SH |
479 | /* 0 is no steering, 1 is Priority steering, 2 is Default steering */ |
480 | S2IO_PARM_INT(tx_steering_type, TX_DEFAULT_STEERING); | |
303bcb4b | 481 | /* Frequency of Rx desc syncs expressed as power of 2 */ |
b41477f3 | 482 | S2IO_PARM_INT(rxsync_frequency, 3); |
eccb8628 | 483 | /* Interrupt type. Values can be 0(INTA), 2(MSI_X) */ |
8abc4d5b | 484 | S2IO_PARM_INT(intr_type, 2); |
7d3d0439 | 485 | /* Large receive offload feature */ |
43b7c451 SH |
486 | static unsigned int lro_enable; |
487 | module_param_named(lro, lro_enable, uint, 0); | |
488 | ||
7d3d0439 RA |
489 | /* Max pkts to be aggregated by LRO at one time. If not specified, |
490 | * aggregation happens until we hit max IP pkt size(64K) | |
491 | */ | |
b41477f3 | 492 | S2IO_PARM_INT(lro_max_pkts, 0xFFFF); |
b41477f3 | 493 | S2IO_PARM_INT(indicate_max_pkts, 0); |
db874e65 SS |
494 | |
495 | S2IO_PARM_INT(napi, 1); | |
496 | S2IO_PARM_INT(ufo, 0); | |
926930b2 | 497 | S2IO_PARM_INT(vlan_tag_strip, NO_STRIP_IN_PROMISC); |
b41477f3 AR |
498 | |
499 | static unsigned int tx_fifo_len[MAX_TX_FIFOS] = | |
500 | {DEFAULT_FIFO_0_LEN, [1 ...(MAX_TX_FIFOS - 1)] = DEFAULT_FIFO_1_7_LEN}; | |
501 | static unsigned int rx_ring_sz[MAX_RX_RINGS] = | |
502 | {[0 ...(MAX_RX_RINGS - 1)] = SMALL_BLK_CNT}; | |
503 | static unsigned int rts_frm_len[MAX_RX_RINGS] = | |
504 | {[0 ...(MAX_RX_RINGS - 1)] = 0 }; | |
505 | ||
506 | module_param_array(tx_fifo_len, uint, NULL, 0); | |
507 | module_param_array(rx_ring_sz, uint, NULL, 0); | |
508 | module_param_array(rts_frm_len, uint, NULL, 0); | |
1da177e4 | 509 | |
20346722 | 510 | /* |
1da177e4 | 511 | * S2IO device table. |
20346722 | 512 | * This table lists all the devices that this driver supports. |
1da177e4 LT |
513 | */ |
514 | static struct pci_device_id s2io_tbl[] __devinitdata = { | |
515 | {PCI_VENDOR_ID_S2IO, PCI_DEVICE_ID_S2IO_WIN, | |
516 | PCI_ANY_ID, PCI_ANY_ID}, | |
517 | {PCI_VENDOR_ID_S2IO, PCI_DEVICE_ID_S2IO_UNI, | |
518 | PCI_ANY_ID, PCI_ANY_ID}, | |
519 | {PCI_VENDOR_ID_S2IO, PCI_DEVICE_ID_HERC_WIN, | |
20346722 K |
520 | PCI_ANY_ID, PCI_ANY_ID}, |
521 | {PCI_VENDOR_ID_S2IO, PCI_DEVICE_ID_HERC_UNI, | |
522 | PCI_ANY_ID, PCI_ANY_ID}, | |
1da177e4 LT |
523 | {0,} |
524 | }; | |
525 | ||
526 | MODULE_DEVICE_TABLE(pci, s2io_tbl); | |
527 | ||
d796fdb7 LV |
528 | static struct pci_error_handlers s2io_err_handler = { |
529 | .error_detected = s2io_io_error_detected, | |
530 | .slot_reset = s2io_io_slot_reset, | |
531 | .resume = s2io_io_resume, | |
532 | }; | |
533 | ||
1da177e4 LT |
534 | static struct pci_driver s2io_driver = { |
535 | .name = "S2IO", | |
536 | .id_table = s2io_tbl, | |
537 | .probe = s2io_init_nic, | |
538 | .remove = __devexit_p(s2io_rem_nic), | |
d796fdb7 | 539 | .err_handler = &s2io_err_handler, |
1da177e4 LT |
540 | }; |
541 | ||
542 | /* A simplifier macro used both by init and free shared_mem Fns(). */ | |
543 | #define TXD_MEM_PAGE_CNT(len, per_each) ((len+per_each - 1) / per_each) | |
544 | ||
3a3d5756 SH |
545 | /* netqueue manipulation helper functions */ |
546 | static inline void s2io_stop_all_tx_queue(struct s2io_nic *sp) | |
547 | { | |
548 | int i; | |
549 | #ifdef CONFIG_NETDEVICES_MULTIQUEUE | |
550 | if (sp->config.multiq) { | |
551 | for (i = 0; i < sp->config.tx_fifo_num; i++) | |
552 | netif_stop_subqueue(sp->dev, i); | |
553 | } else | |
554 | #endif | |
555 | { | |
556 | for (i = 0; i < sp->config.tx_fifo_num; i++) | |
557 | sp->mac_control.fifos[i].queue_state = FIFO_QUEUE_STOP; | |
558 | netif_stop_queue(sp->dev); | |
559 | } | |
560 | } | |
561 | ||
562 | static inline void s2io_stop_tx_queue(struct s2io_nic *sp, int fifo_no) | |
563 | { | |
564 | #ifdef CONFIG_NETDEVICES_MULTIQUEUE | |
565 | if (sp->config.multiq) | |
566 | netif_stop_subqueue(sp->dev, fifo_no); | |
567 | else | |
568 | #endif | |
569 | { | |
570 | sp->mac_control.fifos[fifo_no].queue_state = | |
571 | FIFO_QUEUE_STOP; | |
572 | netif_stop_queue(sp->dev); | |
573 | } | |
574 | } | |
575 | ||
576 | static inline void s2io_start_all_tx_queue(struct s2io_nic *sp) | |
577 | { | |
578 | int i; | |
579 | #ifdef CONFIG_NETDEVICES_MULTIQUEUE | |
580 | if (sp->config.multiq) { | |
581 | for (i = 0; i < sp->config.tx_fifo_num; i++) | |
582 | netif_start_subqueue(sp->dev, i); | |
583 | } else | |
584 | #endif | |
585 | { | |
586 | for (i = 0; i < sp->config.tx_fifo_num; i++) | |
587 | sp->mac_control.fifos[i].queue_state = FIFO_QUEUE_START; | |
588 | netif_start_queue(sp->dev); | |
589 | } | |
590 | } | |
591 | ||
592 | static inline void s2io_start_tx_queue(struct s2io_nic *sp, int fifo_no) | |
593 | { | |
594 | #ifdef CONFIG_NETDEVICES_MULTIQUEUE | |
595 | if (sp->config.multiq) | |
596 | netif_start_subqueue(sp->dev, fifo_no); | |
597 | else | |
598 | #endif | |
599 | { | |
600 | sp->mac_control.fifos[fifo_no].queue_state = | |
601 | FIFO_QUEUE_START; | |
602 | netif_start_queue(sp->dev); | |
603 | } | |
604 | } | |
605 | ||
606 | static inline void s2io_wake_all_tx_queue(struct s2io_nic *sp) | |
607 | { | |
608 | int i; | |
609 | #ifdef CONFIG_NETDEVICES_MULTIQUEUE | |
610 | if (sp->config.multiq) { | |
611 | for (i = 0; i < sp->config.tx_fifo_num; i++) | |
612 | netif_wake_subqueue(sp->dev, i); | |
613 | } else | |
614 | #endif | |
615 | { | |
616 | for (i = 0; i < sp->config.tx_fifo_num; i++) | |
617 | sp->mac_control.fifos[i].queue_state = FIFO_QUEUE_START; | |
618 | netif_wake_queue(sp->dev); | |
619 | } | |
620 | } | |
621 | ||
622 | static inline void s2io_wake_tx_queue( | |
623 | struct fifo_info *fifo, int cnt, u8 multiq) | |
624 | { | |
625 | ||
626 | #ifdef CONFIG_NETDEVICES_MULTIQUEUE | |
627 | if (multiq) { | |
628 | if (cnt && __netif_subqueue_stopped(fifo->dev, fifo->fifo_no)) | |
629 | netif_wake_subqueue(fifo->dev, fifo->fifo_no); | |
630 | } else | |
631 | #endif | |
632 | if (cnt && (fifo->queue_state == FIFO_QUEUE_STOP)) { | |
633 | if (netif_queue_stopped(fifo->dev)) { | |
634 | fifo->queue_state = FIFO_QUEUE_START; | |
635 | netif_wake_queue(fifo->dev); | |
636 | } | |
637 | } | |
638 | } | |
639 | ||
1da177e4 LT |
640 | /** |
641 | * init_shared_mem - Allocation and Initialization of Memory | |
642 | * @nic: Device private variable. | |
20346722 K |
643 | * Description: The function allocates all the memory areas shared |
644 | * between the NIC and the driver. This includes Tx descriptors, | |
1da177e4 LT |
645 | * Rx descriptors and the statistics block. |
646 | */ | |
647 | ||
648 | static int init_shared_mem(struct s2io_nic *nic) | |
649 | { | |
650 | u32 size; | |
651 | void *tmp_v_addr, *tmp_v_addr_next; | |
652 | dma_addr_t tmp_p_addr, tmp_p_addr_next; | |
1ee6dd77 | 653 | struct RxD_block *pre_rxd_blk = NULL; |
372cc597 | 654 | int i, j, blk_cnt; |
1da177e4 LT |
655 | int lst_size, lst_per_page; |
656 | struct net_device *dev = nic->dev; | |
8ae418cf | 657 | unsigned long tmp; |
1ee6dd77 | 658 | struct buffAdd *ba; |
1da177e4 | 659 | |
1ee6dd77 | 660 | struct mac_info *mac_control; |
1da177e4 | 661 | struct config_param *config; |
491976b2 | 662 | unsigned long long mem_allocated = 0; |
1da177e4 LT |
663 | |
664 | mac_control = &nic->mac_control; | |
665 | config = &nic->config; | |
666 | ||
667 | ||
668 | /* Allocation and initialization of TXDLs in FIOFs */ | |
669 | size = 0; | |
670 | for (i = 0; i < config->tx_fifo_num; i++) { | |
671 | size += config->tx_cfg[i].fifo_len; | |
672 | } | |
673 | if (size > MAX_AVAILABLE_TXDS) { | |
b41477f3 | 674 | DBG_PRINT(ERR_DBG, "s2io: Requested TxDs too high, "); |
0b1f7ebe | 675 | DBG_PRINT(ERR_DBG, "Requested: %d, max supported: 8192\n", size); |
b41477f3 | 676 | return -EINVAL; |
1da177e4 LT |
677 | } |
678 | ||
2fda096d SR |
679 | size = 0; |
680 | for (i = 0; i < config->tx_fifo_num; i++) { | |
681 | size = config->tx_cfg[i].fifo_len; | |
682 | /* | |
683 | * Legal values are from 2 to 8192 | |
684 | */ | |
685 | if (size < 2) { | |
686 | DBG_PRINT(ERR_DBG, "s2io: Invalid fifo len (%d)", size); | |
687 | DBG_PRINT(ERR_DBG, "for fifo %d\n", i); | |
688 | DBG_PRINT(ERR_DBG, "s2io: Legal values for fifo len" | |
689 | "are 2 to 8192\n"); | |
690 | return -EINVAL; | |
691 | } | |
692 | } | |
693 | ||
1ee6dd77 | 694 | lst_size = (sizeof(struct TxD) * config->max_txds); |
1da177e4 LT |
695 | lst_per_page = PAGE_SIZE / lst_size; |
696 | ||
697 | for (i = 0; i < config->tx_fifo_num; i++) { | |
698 | int fifo_len = config->tx_cfg[i].fifo_len; | |
1ee6dd77 | 699 | int list_holder_size = fifo_len * sizeof(struct list_info_hold); |
bd684e43 | 700 | mac_control->fifos[i].list_info = kzalloc(list_holder_size, |
20346722 K |
701 | GFP_KERNEL); |
702 | if (!mac_control->fifos[i].list_info) { | |
0c61ed5f | 703 | DBG_PRINT(INFO_DBG, |
1da177e4 LT |
704 | "Malloc failed for list_info\n"); |
705 | return -ENOMEM; | |
706 | } | |
491976b2 | 707 | mem_allocated += list_holder_size; |
1da177e4 LT |
708 | } |
709 | for (i = 0; i < config->tx_fifo_num; i++) { | |
710 | int page_num = TXD_MEM_PAGE_CNT(config->tx_cfg[i].fifo_len, | |
711 | lst_per_page); | |
20346722 K |
712 | mac_control->fifos[i].tx_curr_put_info.offset = 0; |
713 | mac_control->fifos[i].tx_curr_put_info.fifo_len = | |
1da177e4 | 714 | config->tx_cfg[i].fifo_len - 1; |
20346722 K |
715 | mac_control->fifos[i].tx_curr_get_info.offset = 0; |
716 | mac_control->fifos[i].tx_curr_get_info.fifo_len = | |
1da177e4 | 717 | config->tx_cfg[i].fifo_len - 1; |
20346722 K |
718 | mac_control->fifos[i].fifo_no = i; |
719 | mac_control->fifos[i].nic = nic; | |
fed5eccd | 720 | mac_control->fifos[i].max_txds = MAX_SKB_FRAGS + 2; |
3a3d5756 | 721 | mac_control->fifos[i].dev = dev; |
20346722 | 722 | |
1da177e4 LT |
723 | for (j = 0; j < page_num; j++) { |
724 | int k = 0; | |
725 | dma_addr_t tmp_p; | |
726 | void *tmp_v; | |
727 | tmp_v = pci_alloc_consistent(nic->pdev, | |
728 | PAGE_SIZE, &tmp_p); | |
729 | if (!tmp_v) { | |
0c61ed5f | 730 | DBG_PRINT(INFO_DBG, |
1da177e4 | 731 | "pci_alloc_consistent "); |
0c61ed5f | 732 | DBG_PRINT(INFO_DBG, "failed for TxDL\n"); |
1da177e4 LT |
733 | return -ENOMEM; |
734 | } | |
776bd20f | 735 | /* If we got a zero DMA address(can happen on |
736 | * certain platforms like PPC), reallocate. | |
737 | * Store virtual address of page we don't want, | |
738 | * to be freed later. | |
739 | */ | |
740 | if (!tmp_p) { | |
741 | mac_control->zerodma_virt_addr = tmp_v; | |
6aa20a22 | 742 | DBG_PRINT(INIT_DBG, |
776bd20f | 743 | "%s: Zero DMA address for TxDL. ", dev->name); |
6aa20a22 | 744 | DBG_PRINT(INIT_DBG, |
6b4d617d | 745 | "Virtual address %p\n", tmp_v); |
776bd20f | 746 | tmp_v = pci_alloc_consistent(nic->pdev, |
747 | PAGE_SIZE, &tmp_p); | |
748 | if (!tmp_v) { | |
0c61ed5f | 749 | DBG_PRINT(INFO_DBG, |
776bd20f | 750 | "pci_alloc_consistent "); |
0c61ed5f | 751 | DBG_PRINT(INFO_DBG, "failed for TxDL\n"); |
776bd20f | 752 | return -ENOMEM; |
753 | } | |
491976b2 | 754 | mem_allocated += PAGE_SIZE; |
776bd20f | 755 | } |
1da177e4 LT |
756 | while (k < lst_per_page) { |
757 | int l = (j * lst_per_page) + k; | |
758 | if (l == config->tx_cfg[i].fifo_len) | |
20346722 K |
759 | break; |
760 | mac_control->fifos[i].list_info[l].list_virt_addr = | |
1da177e4 | 761 | tmp_v + (k * lst_size); |
20346722 | 762 | mac_control->fifos[i].list_info[l].list_phy_addr = |
1da177e4 LT |
763 | tmp_p + (k * lst_size); |
764 | k++; | |
765 | } | |
766 | } | |
767 | } | |
1da177e4 | 768 | |
2fda096d SR |
769 | for (i = 0; i < config->tx_fifo_num; i++) { |
770 | size = config->tx_cfg[i].fifo_len; | |
771 | mac_control->fifos[i].ufo_in_band_v | |
772 | = kcalloc(size, sizeof(u64), GFP_KERNEL); | |
773 | if (!mac_control->fifos[i].ufo_in_band_v) | |
774 | return -ENOMEM; | |
775 | mem_allocated += (size * sizeof(u64)); | |
776 | } | |
fed5eccd | 777 | |
1da177e4 LT |
778 | /* Allocation and initialization of RXDs in Rings */ |
779 | size = 0; | |
780 | for (i = 0; i < config->rx_ring_num; i++) { | |
da6971d8 AR |
781 | if (config->rx_cfg[i].num_rxd % |
782 | (rxd_count[nic->rxd_mode] + 1)) { | |
1da177e4 LT |
783 | DBG_PRINT(ERR_DBG, "%s: RxD count of ", dev->name); |
784 | DBG_PRINT(ERR_DBG, "Ring%d is not a multiple of ", | |
785 | i); | |
786 | DBG_PRINT(ERR_DBG, "RxDs per Block"); | |
787 | return FAILURE; | |
788 | } | |
789 | size += config->rx_cfg[i].num_rxd; | |
20346722 | 790 | mac_control->rings[i].block_count = |
da6971d8 AR |
791 | config->rx_cfg[i].num_rxd / |
792 | (rxd_count[nic->rxd_mode] + 1 ); | |
793 | mac_control->rings[i].pkt_cnt = config->rx_cfg[i].num_rxd - | |
794 | mac_control->rings[i].block_count; | |
1da177e4 | 795 | } |
da6971d8 | 796 | if (nic->rxd_mode == RXD_MODE_1) |
1ee6dd77 | 797 | size = (size * (sizeof(struct RxD1))); |
da6971d8 | 798 | else |
1ee6dd77 | 799 | size = (size * (sizeof(struct RxD3))); |
1da177e4 LT |
800 | |
801 | for (i = 0; i < config->rx_ring_num; i++) { | |
20346722 K |
802 | mac_control->rings[i].rx_curr_get_info.block_index = 0; |
803 | mac_control->rings[i].rx_curr_get_info.offset = 0; | |
804 | mac_control->rings[i].rx_curr_get_info.ring_len = | |
1da177e4 | 805 | config->rx_cfg[i].num_rxd - 1; |
20346722 K |
806 | mac_control->rings[i].rx_curr_put_info.block_index = 0; |
807 | mac_control->rings[i].rx_curr_put_info.offset = 0; | |
808 | mac_control->rings[i].rx_curr_put_info.ring_len = | |
1da177e4 | 809 | config->rx_cfg[i].num_rxd - 1; |
20346722 K |
810 | mac_control->rings[i].nic = nic; |
811 | mac_control->rings[i].ring_no = i; | |
0425b46a | 812 | mac_control->rings[i].lro = lro_enable; |
20346722 | 813 | |
da6971d8 AR |
814 | blk_cnt = config->rx_cfg[i].num_rxd / |
815 | (rxd_count[nic->rxd_mode] + 1); | |
1da177e4 LT |
816 | /* Allocating all the Rx blocks */ |
817 | for (j = 0; j < blk_cnt; j++) { | |
1ee6dd77 | 818 | struct rx_block_info *rx_blocks; |
da6971d8 AR |
819 | int l; |
820 | ||
821 | rx_blocks = &mac_control->rings[i].rx_blocks[j]; | |
822 | size = SIZE_OF_BLOCK; //size is always page size | |
1da177e4 LT |
823 | tmp_v_addr = pci_alloc_consistent(nic->pdev, size, |
824 | &tmp_p_addr); | |
825 | if (tmp_v_addr == NULL) { | |
826 | /* | |
20346722 K |
827 | * In case of failure, free_shared_mem() |
828 | * is called, which should free any | |
829 | * memory that was alloced till the | |
1da177e4 LT |
830 | * failure happened. |
831 | */ | |
da6971d8 | 832 | rx_blocks->block_virt_addr = tmp_v_addr; |
1da177e4 LT |
833 | return -ENOMEM; |
834 | } | |
491976b2 | 835 | mem_allocated += size; |
1da177e4 | 836 | memset(tmp_v_addr, 0, size); |
da6971d8 AR |
837 | rx_blocks->block_virt_addr = tmp_v_addr; |
838 | rx_blocks->block_dma_addr = tmp_p_addr; | |
1ee6dd77 | 839 | rx_blocks->rxds = kmalloc(sizeof(struct rxd_info)* |
da6971d8 AR |
840 | rxd_count[nic->rxd_mode], |
841 | GFP_KERNEL); | |
372cc597 SS |
842 | if (!rx_blocks->rxds) |
843 | return -ENOMEM; | |
8a4bdbaa | 844 | mem_allocated += |
491976b2 | 845 | (sizeof(struct rxd_info)* rxd_count[nic->rxd_mode]); |
da6971d8 AR |
846 | for (l=0; l<rxd_count[nic->rxd_mode];l++) { |
847 | rx_blocks->rxds[l].virt_addr = | |
848 | rx_blocks->block_virt_addr + | |
849 | (rxd_size[nic->rxd_mode] * l); | |
850 | rx_blocks->rxds[l].dma_addr = | |
851 | rx_blocks->block_dma_addr + | |
852 | (rxd_size[nic->rxd_mode] * l); | |
853 | } | |
1da177e4 LT |
854 | } |
855 | /* Interlinking all Rx Blocks */ | |
856 | for (j = 0; j < blk_cnt; j++) { | |
20346722 K |
857 | tmp_v_addr = |
858 | mac_control->rings[i].rx_blocks[j].block_virt_addr; | |
1da177e4 | 859 | tmp_v_addr_next = |
20346722 | 860 | mac_control->rings[i].rx_blocks[(j + 1) % |
1da177e4 | 861 | blk_cnt].block_virt_addr; |
20346722 K |
862 | tmp_p_addr = |
863 | mac_control->rings[i].rx_blocks[j].block_dma_addr; | |
1da177e4 | 864 | tmp_p_addr_next = |
20346722 | 865 | mac_control->rings[i].rx_blocks[(j + 1) % |
1da177e4 LT |
866 | blk_cnt].block_dma_addr; |
867 | ||
1ee6dd77 | 868 | pre_rxd_blk = (struct RxD_block *) tmp_v_addr; |
1da177e4 LT |
869 | pre_rxd_blk->reserved_2_pNext_RxD_block = |
870 | (unsigned long) tmp_v_addr_next; | |
1da177e4 LT |
871 | pre_rxd_blk->pNext_RxD_Blk_physical = |
872 | (u64) tmp_p_addr_next; | |
873 | } | |
874 | } | |
6d517a27 | 875 | if (nic->rxd_mode == RXD_MODE_3B) { |
da6971d8 AR |
876 | /* |
877 | * Allocation of Storages for buffer addresses in 2BUFF mode | |
878 | * and the buffers as well. | |
879 | */ | |
880 | for (i = 0; i < config->rx_ring_num; i++) { | |
881 | blk_cnt = config->rx_cfg[i].num_rxd / | |
882 | (rxd_count[nic->rxd_mode]+ 1); | |
883 | mac_control->rings[i].ba = | |
1ee6dd77 | 884 | kmalloc((sizeof(struct buffAdd *) * blk_cnt), |
1da177e4 | 885 | GFP_KERNEL); |
da6971d8 | 886 | if (!mac_control->rings[i].ba) |
1da177e4 | 887 | return -ENOMEM; |
491976b2 | 888 | mem_allocated +=(sizeof(struct buffAdd *) * blk_cnt); |
da6971d8 AR |
889 | for (j = 0; j < blk_cnt; j++) { |
890 | int k = 0; | |
891 | mac_control->rings[i].ba[j] = | |
1ee6dd77 | 892 | kmalloc((sizeof(struct buffAdd) * |
da6971d8 AR |
893 | (rxd_count[nic->rxd_mode] + 1)), |
894 | GFP_KERNEL); | |
895 | if (!mac_control->rings[i].ba[j]) | |
1da177e4 | 896 | return -ENOMEM; |
491976b2 SH |
897 | mem_allocated += (sizeof(struct buffAdd) * \ |
898 | (rxd_count[nic->rxd_mode] + 1)); | |
da6971d8 AR |
899 | while (k != rxd_count[nic->rxd_mode]) { |
900 | ba = &mac_control->rings[i].ba[j][k]; | |
901 | ||
902 | ba->ba_0_org = (void *) kmalloc | |
903 | (BUF0_LEN + ALIGN_SIZE, GFP_KERNEL); | |
904 | if (!ba->ba_0_org) | |
905 | return -ENOMEM; | |
8a4bdbaa | 906 | mem_allocated += |
491976b2 | 907 | (BUF0_LEN + ALIGN_SIZE); |
da6971d8 AR |
908 | tmp = (unsigned long)ba->ba_0_org; |
909 | tmp += ALIGN_SIZE; | |
910 | tmp &= ~((unsigned long) ALIGN_SIZE); | |
911 | ba->ba_0 = (void *) tmp; | |
912 | ||
913 | ba->ba_1_org = (void *) kmalloc | |
914 | (BUF1_LEN + ALIGN_SIZE, GFP_KERNEL); | |
915 | if (!ba->ba_1_org) | |
916 | return -ENOMEM; | |
8a4bdbaa | 917 | mem_allocated |
491976b2 | 918 | += (BUF1_LEN + ALIGN_SIZE); |
da6971d8 AR |
919 | tmp = (unsigned long) ba->ba_1_org; |
920 | tmp += ALIGN_SIZE; | |
921 | tmp &= ~((unsigned long) ALIGN_SIZE); | |
922 | ba->ba_1 = (void *) tmp; | |
923 | k++; | |
924 | } | |
1da177e4 LT |
925 | } |
926 | } | |
927 | } | |
1da177e4 LT |
928 | |
929 | /* Allocation and initialization of Statistics block */ | |
1ee6dd77 | 930 | size = sizeof(struct stat_block); |
1da177e4 LT |
931 | mac_control->stats_mem = pci_alloc_consistent |
932 | (nic->pdev, size, &mac_control->stats_mem_phy); | |
933 | ||
934 | if (!mac_control->stats_mem) { | |
20346722 K |
935 | /* |
936 | * In case of failure, free_shared_mem() is called, which | |
937 | * should free any memory that was alloced till the | |
1da177e4 LT |
938 | * failure happened. |
939 | */ | |
940 | return -ENOMEM; | |
941 | } | |
491976b2 | 942 | mem_allocated += size; |
1da177e4 LT |
943 | mac_control->stats_mem_sz = size; |
944 | ||
945 | tmp_v_addr = mac_control->stats_mem; | |
1ee6dd77 | 946 | mac_control->stats_info = (struct stat_block *) tmp_v_addr; |
1da177e4 | 947 | memset(tmp_v_addr, 0, size); |
1da177e4 LT |
948 | DBG_PRINT(INIT_DBG, "%s:Ring Mem PHY: 0x%llx\n", dev->name, |
949 | (unsigned long long) tmp_p_addr); | |
491976b2 | 950 | mac_control->stats_info->sw_stat.mem_allocated += mem_allocated; |
1da177e4 LT |
951 | return SUCCESS; |
952 | } | |
953 | ||
20346722 K |
954 | /** |
955 | * free_shared_mem - Free the allocated Memory | |
1da177e4 LT |
956 | * @nic: Device private variable. |
957 | * Description: This function is to free all memory locations allocated by | |
958 | * the init_shared_mem() function and return it to the kernel. | |
959 | */ | |
960 | ||
961 | static void free_shared_mem(struct s2io_nic *nic) | |
962 | { | |
963 | int i, j, blk_cnt, size; | |
964 | void *tmp_v_addr; | |
965 | dma_addr_t tmp_p_addr; | |
1ee6dd77 | 966 | struct mac_info *mac_control; |
1da177e4 LT |
967 | struct config_param *config; |
968 | int lst_size, lst_per_page; | |
8910b49f | 969 | struct net_device *dev; |
491976b2 | 970 | int page_num = 0; |
1da177e4 LT |
971 | |
972 | if (!nic) | |
973 | return; | |
974 | ||
8910b49f MG |
975 | dev = nic->dev; |
976 | ||
1da177e4 LT |
977 | mac_control = &nic->mac_control; |
978 | config = &nic->config; | |
979 | ||
1ee6dd77 | 980 | lst_size = (sizeof(struct TxD) * config->max_txds); |
1da177e4 LT |
981 | lst_per_page = PAGE_SIZE / lst_size; |
982 | ||
983 | for (i = 0; i < config->tx_fifo_num; i++) { | |
491976b2 SH |
984 | page_num = TXD_MEM_PAGE_CNT(config->tx_cfg[i].fifo_len, |
985 | lst_per_page); | |
1da177e4 LT |
986 | for (j = 0; j < page_num; j++) { |
987 | int mem_blks = (j * lst_per_page); | |
776bd20f | 988 | if (!mac_control->fifos[i].list_info) |
6aa20a22 | 989 | return; |
776bd20f | 990 | if (!mac_control->fifos[i].list_info[mem_blks]. |
991 | list_virt_addr) | |
1da177e4 LT |
992 | break; |
993 | pci_free_consistent(nic->pdev, PAGE_SIZE, | |
20346722 K |
994 | mac_control->fifos[i]. |
995 | list_info[mem_blks]. | |
1da177e4 | 996 | list_virt_addr, |
20346722 K |
997 | mac_control->fifos[i]. |
998 | list_info[mem_blks]. | |
1da177e4 | 999 | list_phy_addr); |
8a4bdbaa | 1000 | nic->mac_control.stats_info->sw_stat.mem_freed |
491976b2 | 1001 | += PAGE_SIZE; |
1da177e4 | 1002 | } |
776bd20f | 1003 | /* If we got a zero DMA address during allocation, |
1004 | * free the page now | |
1005 | */ | |
1006 | if (mac_control->zerodma_virt_addr) { | |
1007 | pci_free_consistent(nic->pdev, PAGE_SIZE, | |
1008 | mac_control->zerodma_virt_addr, | |
1009 | (dma_addr_t)0); | |
6aa20a22 | 1010 | DBG_PRINT(INIT_DBG, |
6b4d617d AM |
1011 | "%s: Freeing TxDL with zero DMA addr. ", |
1012 | dev->name); | |
1013 | DBG_PRINT(INIT_DBG, "Virtual address %p\n", | |
1014 | mac_control->zerodma_virt_addr); | |
8a4bdbaa | 1015 | nic->mac_control.stats_info->sw_stat.mem_freed |
491976b2 | 1016 | += PAGE_SIZE; |
776bd20f | 1017 | } |
20346722 | 1018 | kfree(mac_control->fifos[i].list_info); |
8a4bdbaa | 1019 | nic->mac_control.stats_info->sw_stat.mem_freed += |
491976b2 | 1020 | (nic->config.tx_cfg[i].fifo_len *sizeof(struct list_info_hold)); |
1da177e4 LT |
1021 | } |
1022 | ||
1da177e4 | 1023 | size = SIZE_OF_BLOCK; |
1da177e4 | 1024 | for (i = 0; i < config->rx_ring_num; i++) { |
20346722 | 1025 | blk_cnt = mac_control->rings[i].block_count; |
1da177e4 | 1026 | for (j = 0; j < blk_cnt; j++) { |
20346722 K |
1027 | tmp_v_addr = mac_control->rings[i].rx_blocks[j]. |
1028 | block_virt_addr; | |
1029 | tmp_p_addr = mac_control->rings[i].rx_blocks[j]. | |
1030 | block_dma_addr; | |
1da177e4 LT |
1031 | if (tmp_v_addr == NULL) |
1032 | break; | |
1033 | pci_free_consistent(nic->pdev, size, | |
1034 | tmp_v_addr, tmp_p_addr); | |
491976b2 | 1035 | nic->mac_control.stats_info->sw_stat.mem_freed += size; |
da6971d8 | 1036 | kfree(mac_control->rings[i].rx_blocks[j].rxds); |
8a4bdbaa | 1037 | nic->mac_control.stats_info->sw_stat.mem_freed += |
491976b2 | 1038 | ( sizeof(struct rxd_info)* rxd_count[nic->rxd_mode]); |
1da177e4 LT |
1039 | } |
1040 | } | |
1041 | ||
6d517a27 | 1042 | if (nic->rxd_mode == RXD_MODE_3B) { |
da6971d8 AR |
1043 | /* Freeing buffer storage addresses in 2BUFF mode. */ |
1044 | for (i = 0; i < config->rx_ring_num; i++) { | |
1045 | blk_cnt = config->rx_cfg[i].num_rxd / | |
1046 | (rxd_count[nic->rxd_mode] + 1); | |
1047 | for (j = 0; j < blk_cnt; j++) { | |
1048 | int k = 0; | |
1049 | if (!mac_control->rings[i].ba[j]) | |
1050 | continue; | |
1051 | while (k != rxd_count[nic->rxd_mode]) { | |
1ee6dd77 | 1052 | struct buffAdd *ba = |
da6971d8 AR |
1053 | &mac_control->rings[i].ba[j][k]; |
1054 | kfree(ba->ba_0_org); | |
491976b2 SH |
1055 | nic->mac_control.stats_info->sw_stat.\ |
1056 | mem_freed += (BUF0_LEN + ALIGN_SIZE); | |
da6971d8 | 1057 | kfree(ba->ba_1_org); |
491976b2 SH |
1058 | nic->mac_control.stats_info->sw_stat.\ |
1059 | mem_freed += (BUF1_LEN + ALIGN_SIZE); | |
da6971d8 AR |
1060 | k++; |
1061 | } | |
1062 | kfree(mac_control->rings[i].ba[j]); | |
9caab458 SS |
1063 | nic->mac_control.stats_info->sw_stat.mem_freed += |
1064 | (sizeof(struct buffAdd) * | |
1065 | (rxd_count[nic->rxd_mode] + 1)); | |
1da177e4 | 1066 | } |
da6971d8 | 1067 | kfree(mac_control->rings[i].ba); |
8a4bdbaa | 1068 | nic->mac_control.stats_info->sw_stat.mem_freed += |
491976b2 | 1069 | (sizeof(struct buffAdd *) * blk_cnt); |
1da177e4 | 1070 | } |
1da177e4 | 1071 | } |
1da177e4 | 1072 | |
2fda096d SR |
1073 | for (i = 0; i < nic->config.tx_fifo_num; i++) { |
1074 | if (mac_control->fifos[i].ufo_in_band_v) { | |
1075 | nic->mac_control.stats_info->sw_stat.mem_freed | |
1076 | += (config->tx_cfg[i].fifo_len * sizeof(u64)); | |
1077 | kfree(mac_control->fifos[i].ufo_in_band_v); | |
1078 | } | |
1079 | } | |
1080 | ||
1da177e4 | 1081 | if (mac_control->stats_mem) { |
2fda096d SR |
1082 | nic->mac_control.stats_info->sw_stat.mem_freed += |
1083 | mac_control->stats_mem_sz; | |
1da177e4 LT |
1084 | pci_free_consistent(nic->pdev, |
1085 | mac_control->stats_mem_sz, | |
1086 | mac_control->stats_mem, | |
1087 | mac_control->stats_mem_phy); | |
491976b2 | 1088 | } |
1da177e4 LT |
1089 | } |
1090 | ||
541ae68f K |
1091 | /** |
1092 | * s2io_verify_pci_mode - | |
1093 | */ | |
1094 | ||
1ee6dd77 | 1095 | static int s2io_verify_pci_mode(struct s2io_nic *nic) |
541ae68f | 1096 | { |
1ee6dd77 | 1097 | struct XENA_dev_config __iomem *bar0 = nic->bar0; |
541ae68f K |
1098 | register u64 val64 = 0; |
1099 | int mode; | |
1100 | ||
1101 | val64 = readq(&bar0->pci_mode); | |
1102 | mode = (u8)GET_PCI_MODE(val64); | |
1103 | ||
1104 | if ( val64 & PCI_MODE_UNKNOWN_MODE) | |
1105 | return -1; /* Unknown PCI mode */ | |
1106 | return mode; | |
1107 | } | |
1108 | ||
c92ca04b AR |
1109 | #define NEC_VENID 0x1033 |
1110 | #define NEC_DEVID 0x0125 | |
1111 | static int s2io_on_nec_bridge(struct pci_dev *s2io_pdev) | |
1112 | { | |
1113 | struct pci_dev *tdev = NULL; | |
26d36b64 AC |
1114 | while ((tdev = pci_get_device(PCI_ANY_ID, PCI_ANY_ID, tdev)) != NULL) { |
1115 | if (tdev->vendor == NEC_VENID && tdev->device == NEC_DEVID) { | |
7ad62dbc | 1116 | if (tdev->bus == s2io_pdev->bus->parent) { |
26d36b64 | 1117 | pci_dev_put(tdev); |
c92ca04b | 1118 | return 1; |
7ad62dbc | 1119 | } |
c92ca04b AR |
1120 | } |
1121 | } | |
1122 | return 0; | |
1123 | } | |
541ae68f | 1124 | |
7b32a312 | 1125 | static int bus_speed[8] = {33, 133, 133, 200, 266, 133, 200, 266}; |
541ae68f K |
1126 | /** |
1127 | * s2io_print_pci_mode - | |
1128 | */ | |
1ee6dd77 | 1129 | static int s2io_print_pci_mode(struct s2io_nic *nic) |
541ae68f | 1130 | { |
1ee6dd77 | 1131 | struct XENA_dev_config __iomem *bar0 = nic->bar0; |
541ae68f K |
1132 | register u64 val64 = 0; |
1133 | int mode; | |
1134 | struct config_param *config = &nic->config; | |
1135 | ||
1136 | val64 = readq(&bar0->pci_mode); | |
1137 | mode = (u8)GET_PCI_MODE(val64); | |
1138 | ||
1139 | if ( val64 & PCI_MODE_UNKNOWN_MODE) | |
1140 | return -1; /* Unknown PCI mode */ | |
1141 | ||
c92ca04b AR |
1142 | config->bus_speed = bus_speed[mode]; |
1143 | ||
1144 | if (s2io_on_nec_bridge(nic->pdev)) { | |
1145 | DBG_PRINT(ERR_DBG, "%s: Device is on PCI-E bus\n", | |
1146 | nic->dev->name); | |
1147 | return mode; | |
1148 | } | |
1149 | ||
541ae68f K |
1150 | if (val64 & PCI_MODE_32_BITS) { |
1151 | DBG_PRINT(ERR_DBG, "%s: Device is on 32 bit ", nic->dev->name); | |
1152 | } else { | |
1153 | DBG_PRINT(ERR_DBG, "%s: Device is on 64 bit ", nic->dev->name); | |
1154 | } | |
1155 | ||
1156 | switch(mode) { | |
1157 | case PCI_MODE_PCI_33: | |
1158 | DBG_PRINT(ERR_DBG, "33MHz PCI bus\n"); | |
541ae68f K |
1159 | break; |
1160 | case PCI_MODE_PCI_66: | |
1161 | DBG_PRINT(ERR_DBG, "66MHz PCI bus\n"); | |
541ae68f K |
1162 | break; |
1163 | case PCI_MODE_PCIX_M1_66: | |
1164 | DBG_PRINT(ERR_DBG, "66MHz PCIX(M1) bus\n"); | |
541ae68f K |
1165 | break; |
1166 | case PCI_MODE_PCIX_M1_100: | |
1167 | DBG_PRINT(ERR_DBG, "100MHz PCIX(M1) bus\n"); | |
541ae68f K |
1168 | break; |
1169 | case PCI_MODE_PCIX_M1_133: | |
1170 | DBG_PRINT(ERR_DBG, "133MHz PCIX(M1) bus\n"); | |
541ae68f K |
1171 | break; |
1172 | case PCI_MODE_PCIX_M2_66: | |
1173 | DBG_PRINT(ERR_DBG, "133MHz PCIX(M2) bus\n"); | |
541ae68f K |
1174 | break; |
1175 | case PCI_MODE_PCIX_M2_100: | |
1176 | DBG_PRINT(ERR_DBG, "200MHz PCIX(M2) bus\n"); | |
541ae68f K |
1177 | break; |
1178 | case PCI_MODE_PCIX_M2_133: | |
1179 | DBG_PRINT(ERR_DBG, "266MHz PCIX(M2) bus\n"); | |
541ae68f K |
1180 | break; |
1181 | default: | |
1182 | return -1; /* Unsupported bus speed */ | |
1183 | } | |
1184 | ||
1185 | return mode; | |
1186 | } | |
1187 | ||
b7c5678f RV |
1188 | /** |
1189 | * init_tti - Initialization transmit traffic interrupt scheme | |
1190 | * @nic: device private variable | |
1191 | * @link: link status (UP/DOWN) used to enable/disable continuous | |
1192 | * transmit interrupts | |
1193 | * Description: The function configures transmit traffic interrupts | |
1194 | * Return Value: SUCCESS on success and | |
1195 | * '-1' on failure | |
1196 | */ | |
1197 | ||
0d66afe7 | 1198 | static int init_tti(struct s2io_nic *nic, int link) |
b7c5678f RV |
1199 | { |
1200 | struct XENA_dev_config __iomem *bar0 = nic->bar0; | |
1201 | register u64 val64 = 0; | |
1202 | int i; | |
1203 | struct config_param *config; | |
1204 | ||
1205 | config = &nic->config; | |
1206 | ||
1207 | for (i = 0; i < config->tx_fifo_num; i++) { | |
1208 | /* | |
1209 | * TTI Initialization. Default Tx timer gets us about | |
1210 | * 250 interrupts per sec. Continuous interrupts are enabled | |
1211 | * by default. | |
1212 | */ | |
1213 | if (nic->device_type == XFRAME_II_DEVICE) { | |
1214 | int count = (nic->config.bus_speed * 125)/2; | |
1215 | val64 = TTI_DATA1_MEM_TX_TIMER_VAL(count); | |
1216 | } else | |
1217 | val64 = TTI_DATA1_MEM_TX_TIMER_VAL(0x2078); | |
1218 | ||
1219 | val64 |= TTI_DATA1_MEM_TX_URNG_A(0xA) | | |
1220 | TTI_DATA1_MEM_TX_URNG_B(0x10) | | |
1221 | TTI_DATA1_MEM_TX_URNG_C(0x30) | | |
1222 | TTI_DATA1_MEM_TX_TIMER_AC_EN; | |
ac731ab6 SH |
1223 | if (i == 0) |
1224 | if (use_continuous_tx_intrs && (link == LINK_UP)) | |
1225 | val64 |= TTI_DATA1_MEM_TX_TIMER_CI_EN; | |
b7c5678f RV |
1226 | writeq(val64, &bar0->tti_data1_mem); |
1227 | ||
ac731ab6 SH |
1228 | if (nic->config.intr_type == MSI_X) { |
1229 | val64 = TTI_DATA2_MEM_TX_UFC_A(0x10) | | |
1230 | TTI_DATA2_MEM_TX_UFC_B(0x100) | | |
1231 | TTI_DATA2_MEM_TX_UFC_C(0x200) | | |
1232 | TTI_DATA2_MEM_TX_UFC_D(0x300); | |
1233 | } else { | |
1234 | if ((nic->config.tx_steering_type == | |
1235 | TX_DEFAULT_STEERING) && | |
1236 | (config->tx_fifo_num > 1) && | |
1237 | (i >= nic->udp_fifo_idx) && | |
1238 | (i < (nic->udp_fifo_idx + | |
1239 | nic->total_udp_fifos))) | |
1240 | val64 = TTI_DATA2_MEM_TX_UFC_A(0x50) | | |
1241 | TTI_DATA2_MEM_TX_UFC_B(0x80) | | |
1242 | TTI_DATA2_MEM_TX_UFC_C(0x100) | | |
1243 | TTI_DATA2_MEM_TX_UFC_D(0x120); | |
1244 | else | |
1245 | val64 = TTI_DATA2_MEM_TX_UFC_A(0x10) | | |
1246 | TTI_DATA2_MEM_TX_UFC_B(0x20) | | |
1247 | TTI_DATA2_MEM_TX_UFC_C(0x40) | | |
1248 | TTI_DATA2_MEM_TX_UFC_D(0x80); | |
1249 | } | |
b7c5678f RV |
1250 | |
1251 | writeq(val64, &bar0->tti_data2_mem); | |
1252 | ||
1253 | val64 = TTI_CMD_MEM_WE | TTI_CMD_MEM_STROBE_NEW_CMD | | |
1254 | TTI_CMD_MEM_OFFSET(i); | |
1255 | writeq(val64, &bar0->tti_command_mem); | |
1256 | ||
1257 | if (wait_for_cmd_complete(&bar0->tti_command_mem, | |
1258 | TTI_CMD_MEM_STROBE_NEW_CMD, S2IO_BIT_RESET) != SUCCESS) | |
1259 | return FAILURE; | |
1260 | } | |
1261 | ||
1262 | return SUCCESS; | |
1263 | } | |
1264 | ||
20346722 K |
1265 | /** |
1266 | * init_nic - Initialization of hardware | |
b7c5678f | 1267 | * @nic: device private variable |
20346722 K |
1268 | * Description: The function sequentially configures every block |
1269 | * of the H/W from their reset values. | |
1270 | * Return Value: SUCCESS on success and | |
1da177e4 LT |
1271 | * '-1' on failure (endian settings incorrect). |
1272 | */ | |
1273 | ||
1274 | static int init_nic(struct s2io_nic *nic) | |
1275 | { | |
1ee6dd77 | 1276 | struct XENA_dev_config __iomem *bar0 = nic->bar0; |
1da177e4 LT |
1277 | struct net_device *dev = nic->dev; |
1278 | register u64 val64 = 0; | |
1279 | void __iomem *add; | |
1280 | u32 time; | |
1281 | int i, j; | |
1ee6dd77 | 1282 | struct mac_info *mac_control; |
1da177e4 | 1283 | struct config_param *config; |
c92ca04b | 1284 | int dtx_cnt = 0; |
1da177e4 | 1285 | unsigned long long mem_share; |
20346722 | 1286 | int mem_size; |
1da177e4 LT |
1287 | |
1288 | mac_control = &nic->mac_control; | |
1289 | config = &nic->config; | |
1290 | ||
5e25b9dd | 1291 | /* to set the swapper controle on the card */ |
20346722 | 1292 | if(s2io_set_swapper(nic)) { |
1da177e4 | 1293 | DBG_PRINT(ERR_DBG,"ERROR: Setting Swapper failed\n"); |
9f74ffde | 1294 | return -EIO; |
1da177e4 LT |
1295 | } |
1296 | ||
541ae68f K |
1297 | /* |
1298 | * Herc requires EOI to be removed from reset before XGXS, so.. | |
1299 | */ | |
1300 | if (nic->device_type & XFRAME_II_DEVICE) { | |
1301 | val64 = 0xA500000000ULL; | |
1302 | writeq(val64, &bar0->sw_reset); | |
1303 | msleep(500); | |
1304 | val64 = readq(&bar0->sw_reset); | |
1305 | } | |
1306 | ||
1da177e4 LT |
1307 | /* Remove XGXS from reset state */ |
1308 | val64 = 0; | |
1309 | writeq(val64, &bar0->sw_reset); | |
1da177e4 | 1310 | msleep(500); |
20346722 | 1311 | val64 = readq(&bar0->sw_reset); |
1da177e4 | 1312 | |
7962024e SH |
1313 | /* Ensure that it's safe to access registers by checking |
1314 | * RIC_RUNNING bit is reset. Check is valid only for XframeII. | |
1315 | */ | |
1316 | if (nic->device_type == XFRAME_II_DEVICE) { | |
1317 | for (i = 0; i < 50; i++) { | |
1318 | val64 = readq(&bar0->adapter_status); | |
1319 | if (!(val64 & ADAPTER_STATUS_RIC_RUNNING)) | |
1320 | break; | |
1321 | msleep(10); | |
1322 | } | |
1323 | if (i == 50) | |
1324 | return -ENODEV; | |
1325 | } | |
1326 | ||
1da177e4 LT |
1327 | /* Enable Receiving broadcasts */ |
1328 | add = &bar0->mac_cfg; | |
1329 | val64 = readq(&bar0->mac_cfg); | |
1330 | val64 |= MAC_RMAC_BCAST_ENABLE; | |
1331 | writeq(RMAC_CFG_KEY(0x4C0D), &bar0->rmac_cfg_key); | |
1332 | writel((u32) val64, add); | |
1333 | writeq(RMAC_CFG_KEY(0x4C0D), &bar0->rmac_cfg_key); | |
1334 | writel((u32) (val64 >> 32), (add + 4)); | |
1335 | ||
1336 | /* Read registers in all blocks */ | |
1337 | val64 = readq(&bar0->mac_int_mask); | |
1338 | val64 = readq(&bar0->mc_int_mask); | |
1339 | val64 = readq(&bar0->xgxs_int_mask); | |
1340 | ||
1341 | /* Set MTU */ | |
1342 | val64 = dev->mtu; | |
1343 | writeq(vBIT(val64, 2, 14), &bar0->rmac_max_pyld_len); | |
1344 | ||
541ae68f K |
1345 | if (nic->device_type & XFRAME_II_DEVICE) { |
1346 | while (herc_act_dtx_cfg[dtx_cnt] != END_SIGN) { | |
303bcb4b | 1347 | SPECIAL_REG_WRITE(herc_act_dtx_cfg[dtx_cnt], |
1da177e4 | 1348 | &bar0->dtx_control, UF); |
541ae68f K |
1349 | if (dtx_cnt & 0x1) |
1350 | msleep(1); /* Necessary!! */ | |
1da177e4 LT |
1351 | dtx_cnt++; |
1352 | } | |
541ae68f | 1353 | } else { |
c92ca04b AR |
1354 | while (xena_dtx_cfg[dtx_cnt] != END_SIGN) { |
1355 | SPECIAL_REG_WRITE(xena_dtx_cfg[dtx_cnt], | |
1356 | &bar0->dtx_control, UF); | |
1357 | val64 = readq(&bar0->dtx_control); | |
1358 | dtx_cnt++; | |
1da177e4 LT |
1359 | } |
1360 | } | |
1361 | ||
1362 | /* Tx DMA Initialization */ | |
1363 | val64 = 0; | |
1364 | writeq(val64, &bar0->tx_fifo_partition_0); | |
1365 | writeq(val64, &bar0->tx_fifo_partition_1); | |
1366 | writeq(val64, &bar0->tx_fifo_partition_2); | |
1367 | writeq(val64, &bar0->tx_fifo_partition_3); | |
1368 | ||
1369 | ||
1370 | for (i = 0, j = 0; i < config->tx_fifo_num; i++) { | |
1371 | val64 |= | |
b7c5678f | 1372 | vBIT(config->tx_cfg[i].fifo_len - 1, ((j * 32) + 19), |
1da177e4 | 1373 | 13) | vBIT(config->tx_cfg[i].fifo_priority, |
b7c5678f | 1374 | ((j * 32) + 5), 3); |
1da177e4 LT |
1375 | |
1376 | if (i == (config->tx_fifo_num - 1)) { | |
1377 | if (i % 2 == 0) | |
1378 | i++; | |
1379 | } | |
1380 | ||
1381 | switch (i) { | |
1382 | case 1: | |
1383 | writeq(val64, &bar0->tx_fifo_partition_0); | |
1384 | val64 = 0; | |
b7c5678f | 1385 | j = 0; |
1da177e4 LT |
1386 | break; |
1387 | case 3: | |
1388 | writeq(val64, &bar0->tx_fifo_partition_1); | |
1389 | val64 = 0; | |
b7c5678f | 1390 | j = 0; |
1da177e4 LT |
1391 | break; |
1392 | case 5: | |
1393 | writeq(val64, &bar0->tx_fifo_partition_2); | |
1394 | val64 = 0; | |
b7c5678f | 1395 | j = 0; |
1da177e4 LT |
1396 | break; |
1397 | case 7: | |
1398 | writeq(val64, &bar0->tx_fifo_partition_3); | |
b7c5678f RV |
1399 | val64 = 0; |
1400 | j = 0; | |
1401 | break; | |
1402 | default: | |
1403 | j++; | |
1da177e4 LT |
1404 | break; |
1405 | } | |
1406 | } | |
1407 | ||
5e25b9dd K |
1408 | /* |
1409 | * Disable 4 PCCs for Xena1, 2 and 3 as per H/W bug | |
1410 | * SXE-008 TRANSMIT DMA ARBITRATION ISSUE. | |
1411 | */ | |
541ae68f | 1412 | if ((nic->device_type == XFRAME_I_DEVICE) && |
44c10138 | 1413 | (nic->pdev->revision < 4)) |
5e25b9dd K |
1414 | writeq(PCC_ENABLE_FOUR, &bar0->pcc_enable); |
1415 | ||
1da177e4 LT |
1416 | val64 = readq(&bar0->tx_fifo_partition_0); |
1417 | DBG_PRINT(INIT_DBG, "Fifo partition at: 0x%p is: 0x%llx\n", | |
1418 | &bar0->tx_fifo_partition_0, (unsigned long long) val64); | |
1419 | ||
20346722 K |
1420 | /* |
1421 | * Initialization of Tx_PA_CONFIG register to ignore packet | |
1da177e4 LT |
1422 | * integrity checking. |
1423 | */ | |
1424 | val64 = readq(&bar0->tx_pa_cfg); | |
1425 | val64 |= TX_PA_CFG_IGNORE_FRM_ERR | TX_PA_CFG_IGNORE_SNAP_OUI | | |
1426 | TX_PA_CFG_IGNORE_LLC_CTRL | TX_PA_CFG_IGNORE_L2_ERR; | |
1427 | writeq(val64, &bar0->tx_pa_cfg); | |
1428 | ||
1429 | /* Rx DMA intialization. */ | |
1430 | val64 = 0; | |
1431 | for (i = 0; i < config->rx_ring_num; i++) { | |
1432 | val64 |= | |
1433 | vBIT(config->rx_cfg[i].ring_priority, (5 + (i * 8)), | |
1434 | 3); | |
1435 | } | |
1436 | writeq(val64, &bar0->rx_queue_priority); | |
1437 | ||
20346722 K |
1438 | /* |
1439 | * Allocating equal share of memory to all the | |
1da177e4 LT |
1440 | * configured Rings. |
1441 | */ | |
1442 | val64 = 0; | |
541ae68f K |
1443 | if (nic->device_type & XFRAME_II_DEVICE) |
1444 | mem_size = 32; | |
1445 | else | |
1446 | mem_size = 64; | |
1447 | ||
1da177e4 LT |
1448 | for (i = 0; i < config->rx_ring_num; i++) { |
1449 | switch (i) { | |
1450 | case 0: | |
20346722 K |
1451 | mem_share = (mem_size / config->rx_ring_num + |
1452 | mem_size % config->rx_ring_num); | |
1da177e4 LT |
1453 | val64 |= RX_QUEUE_CFG_Q0_SZ(mem_share); |
1454 | continue; | |
1455 | case 1: | |
20346722 | 1456 | mem_share = (mem_size / config->rx_ring_num); |
1da177e4 LT |
1457 | val64 |= RX_QUEUE_CFG_Q1_SZ(mem_share); |
1458 | continue; | |
1459 | case 2: | |
20346722 | 1460 | mem_share = (mem_size / config->rx_ring_num); |
1da177e4 LT |
1461 | val64 |= RX_QUEUE_CFG_Q2_SZ(mem_share); |
1462 | continue; | |
1463 | case 3: | |
20346722 | 1464 | mem_share = (mem_size / config->rx_ring_num); |
1da177e4 LT |
1465 | val64 |= RX_QUEUE_CFG_Q3_SZ(mem_share); |
1466 | continue; | |
1467 | case 4: | |
20346722 | 1468 | mem_share = (mem_size / config->rx_ring_num); |
1da177e4 LT |
1469 | val64 |= RX_QUEUE_CFG_Q4_SZ(mem_share); |
1470 | continue; | |
1471 | case 5: | |
20346722 | 1472 | mem_share = (mem_size / config->rx_ring_num); |
1da177e4 LT |
1473 | val64 |= RX_QUEUE_CFG_Q5_SZ(mem_share); |
1474 | continue; | |
1475 | case 6: | |
20346722 | 1476 | mem_share = (mem_size / config->rx_ring_num); |
1da177e4 LT |
1477 | val64 |= RX_QUEUE_CFG_Q6_SZ(mem_share); |
1478 | continue; | |
1479 | case 7: | |
20346722 | 1480 | mem_share = (mem_size / config->rx_ring_num); |
1da177e4 LT |
1481 | val64 |= RX_QUEUE_CFG_Q7_SZ(mem_share); |
1482 | continue; | |
1483 | } | |
1484 | } | |
1485 | writeq(val64, &bar0->rx_queue_cfg); | |
1486 | ||
20346722 | 1487 | /* |
5e25b9dd | 1488 | * Filling Tx round robin registers |
b7c5678f | 1489 | * as per the number of FIFOs for equal scheduling priority |
1da177e4 | 1490 | */ |
5e25b9dd K |
1491 | switch (config->tx_fifo_num) { |
1492 | case 1: | |
b7c5678f | 1493 | val64 = 0x0; |
5e25b9dd K |
1494 | writeq(val64, &bar0->tx_w_round_robin_0); |
1495 | writeq(val64, &bar0->tx_w_round_robin_1); | |
1496 | writeq(val64, &bar0->tx_w_round_robin_2); | |
1497 | writeq(val64, &bar0->tx_w_round_robin_3); | |
1498 | writeq(val64, &bar0->tx_w_round_robin_4); | |
1499 | break; | |
1500 | case 2: | |
b7c5678f | 1501 | val64 = 0x0001000100010001ULL; |
5e25b9dd | 1502 | writeq(val64, &bar0->tx_w_round_robin_0); |
5e25b9dd | 1503 | writeq(val64, &bar0->tx_w_round_robin_1); |
5e25b9dd | 1504 | writeq(val64, &bar0->tx_w_round_robin_2); |
5e25b9dd | 1505 | writeq(val64, &bar0->tx_w_round_robin_3); |
b7c5678f | 1506 | val64 = 0x0001000100000000ULL; |
5e25b9dd K |
1507 | writeq(val64, &bar0->tx_w_round_robin_4); |
1508 | break; | |
1509 | case 3: | |
b7c5678f | 1510 | val64 = 0x0001020001020001ULL; |
5e25b9dd | 1511 | writeq(val64, &bar0->tx_w_round_robin_0); |
b7c5678f | 1512 | val64 = 0x0200010200010200ULL; |
5e25b9dd | 1513 | writeq(val64, &bar0->tx_w_round_robin_1); |
b7c5678f | 1514 | val64 = 0x0102000102000102ULL; |
5e25b9dd | 1515 | writeq(val64, &bar0->tx_w_round_robin_2); |
b7c5678f | 1516 | val64 = 0x0001020001020001ULL; |
5e25b9dd | 1517 | writeq(val64, &bar0->tx_w_round_robin_3); |
b7c5678f | 1518 | val64 = 0x0200010200000000ULL; |
5e25b9dd K |
1519 | writeq(val64, &bar0->tx_w_round_robin_4); |
1520 | break; | |
1521 | case 4: | |
b7c5678f | 1522 | val64 = 0x0001020300010203ULL; |
5e25b9dd | 1523 | writeq(val64, &bar0->tx_w_round_robin_0); |
5e25b9dd | 1524 | writeq(val64, &bar0->tx_w_round_robin_1); |
5e25b9dd | 1525 | writeq(val64, &bar0->tx_w_round_robin_2); |
5e25b9dd | 1526 | writeq(val64, &bar0->tx_w_round_robin_3); |
b7c5678f | 1527 | val64 = 0x0001020300000000ULL; |
5e25b9dd K |
1528 | writeq(val64, &bar0->tx_w_round_robin_4); |
1529 | break; | |
1530 | case 5: | |
b7c5678f | 1531 | val64 = 0x0001020304000102ULL; |
5e25b9dd | 1532 | writeq(val64, &bar0->tx_w_round_robin_0); |
b7c5678f | 1533 | val64 = 0x0304000102030400ULL; |
5e25b9dd | 1534 | writeq(val64, &bar0->tx_w_round_robin_1); |
b7c5678f | 1535 | val64 = 0x0102030400010203ULL; |
5e25b9dd | 1536 | writeq(val64, &bar0->tx_w_round_robin_2); |
b7c5678f | 1537 | val64 = 0x0400010203040001ULL; |
5e25b9dd | 1538 | writeq(val64, &bar0->tx_w_round_robin_3); |
b7c5678f | 1539 | val64 = 0x0203040000000000ULL; |
5e25b9dd K |
1540 | writeq(val64, &bar0->tx_w_round_robin_4); |
1541 | break; | |
1542 | case 6: | |
b7c5678f | 1543 | val64 = 0x0001020304050001ULL; |
5e25b9dd | 1544 | writeq(val64, &bar0->tx_w_round_robin_0); |
b7c5678f | 1545 | val64 = 0x0203040500010203ULL; |
5e25b9dd | 1546 | writeq(val64, &bar0->tx_w_round_robin_1); |
b7c5678f | 1547 | val64 = 0x0405000102030405ULL; |
5e25b9dd | 1548 | writeq(val64, &bar0->tx_w_round_robin_2); |
b7c5678f | 1549 | val64 = 0x0001020304050001ULL; |
5e25b9dd | 1550 | writeq(val64, &bar0->tx_w_round_robin_3); |
b7c5678f | 1551 | val64 = 0x0203040500000000ULL; |
5e25b9dd K |
1552 | writeq(val64, &bar0->tx_w_round_robin_4); |
1553 | break; | |
1554 | case 7: | |
b7c5678f | 1555 | val64 = 0x0001020304050600ULL; |
5e25b9dd | 1556 | writeq(val64, &bar0->tx_w_round_robin_0); |
b7c5678f | 1557 | val64 = 0x0102030405060001ULL; |
5e25b9dd | 1558 | writeq(val64, &bar0->tx_w_round_robin_1); |
b7c5678f | 1559 | val64 = 0x0203040506000102ULL; |
5e25b9dd | 1560 | writeq(val64, &bar0->tx_w_round_robin_2); |
b7c5678f | 1561 | val64 = 0x0304050600010203ULL; |
5e25b9dd | 1562 | writeq(val64, &bar0->tx_w_round_robin_3); |
b7c5678f | 1563 | val64 = 0x0405060000000000ULL; |
5e25b9dd K |
1564 | writeq(val64, &bar0->tx_w_round_robin_4); |
1565 | break; | |
1566 | case 8: | |
b7c5678f | 1567 | val64 = 0x0001020304050607ULL; |
5e25b9dd | 1568 | writeq(val64, &bar0->tx_w_round_robin_0); |
5e25b9dd | 1569 | writeq(val64, &bar0->tx_w_round_robin_1); |
5e25b9dd | 1570 | writeq(val64, &bar0->tx_w_round_robin_2); |
5e25b9dd | 1571 | writeq(val64, &bar0->tx_w_round_robin_3); |
b7c5678f | 1572 | val64 = 0x0001020300000000ULL; |
5e25b9dd K |
1573 | writeq(val64, &bar0->tx_w_round_robin_4); |
1574 | break; | |
1575 | } | |
1576 | ||
b41477f3 | 1577 | /* Enable all configured Tx FIFO partitions */ |
5d3213cc AR |
1578 | val64 = readq(&bar0->tx_fifo_partition_0); |
1579 | val64 |= (TX_FIFO_PARTITION_EN); | |
1580 | writeq(val64, &bar0->tx_fifo_partition_0); | |
1581 | ||
5e25b9dd | 1582 | /* Filling the Rx round robin registers as per the |
0425b46a SH |
1583 | * number of Rings and steering based on QoS with |
1584 | * equal priority. | |
1585 | */ | |
5e25b9dd K |
1586 | switch (config->rx_ring_num) { |
1587 | case 1: | |
0425b46a SH |
1588 | val64 = 0x0; |
1589 | writeq(val64, &bar0->rx_w_round_robin_0); | |
1590 | writeq(val64, &bar0->rx_w_round_robin_1); | |
1591 | writeq(val64, &bar0->rx_w_round_robin_2); | |
1592 | writeq(val64, &bar0->rx_w_round_robin_3); | |
1593 | writeq(val64, &bar0->rx_w_round_robin_4); | |
1594 | ||
5e25b9dd K |
1595 | val64 = 0x8080808080808080ULL; |
1596 | writeq(val64, &bar0->rts_qos_steering); | |
1597 | break; | |
1598 | case 2: | |
0425b46a | 1599 | val64 = 0x0001000100010001ULL; |
5e25b9dd | 1600 | writeq(val64, &bar0->rx_w_round_robin_0); |
5e25b9dd | 1601 | writeq(val64, &bar0->rx_w_round_robin_1); |
5e25b9dd | 1602 | writeq(val64, &bar0->rx_w_round_robin_2); |
5e25b9dd | 1603 | writeq(val64, &bar0->rx_w_round_robin_3); |
0425b46a | 1604 | val64 = 0x0001000100000000ULL; |
5e25b9dd K |
1605 | writeq(val64, &bar0->rx_w_round_robin_4); |
1606 | ||
1607 | val64 = 0x8080808040404040ULL; | |
1608 | writeq(val64, &bar0->rts_qos_steering); | |
1609 | break; | |
1610 | case 3: | |
0425b46a | 1611 | val64 = 0x0001020001020001ULL; |
5e25b9dd | 1612 | writeq(val64, &bar0->rx_w_round_robin_0); |
0425b46a | 1613 | val64 = 0x0200010200010200ULL; |
5e25b9dd | 1614 | writeq(val64, &bar0->rx_w_round_robin_1); |
0425b46a | 1615 | val64 = 0x0102000102000102ULL; |
5e25b9dd | 1616 | writeq(val64, &bar0->rx_w_round_robin_2); |
0425b46a | 1617 | val64 = 0x0001020001020001ULL; |
5e25b9dd | 1618 | writeq(val64, &bar0->rx_w_round_robin_3); |
0425b46a | 1619 | val64 = 0x0200010200000000ULL; |
5e25b9dd K |
1620 | writeq(val64, &bar0->rx_w_round_robin_4); |
1621 | ||
1622 | val64 = 0x8080804040402020ULL; | |
1623 | writeq(val64, &bar0->rts_qos_steering); | |
1624 | break; | |
1625 | case 4: | |
0425b46a | 1626 | val64 = 0x0001020300010203ULL; |
5e25b9dd | 1627 | writeq(val64, &bar0->rx_w_round_robin_0); |
5e25b9dd | 1628 | writeq(val64, &bar0->rx_w_round_robin_1); |
5e25b9dd | 1629 | writeq(val64, &bar0->rx_w_round_robin_2); |
5e25b9dd | 1630 | writeq(val64, &bar0->rx_w_round_robin_3); |
0425b46a | 1631 | val64 = 0x0001020300000000ULL; |
5e25b9dd K |
1632 | writeq(val64, &bar0->rx_w_round_robin_4); |
1633 | ||
1634 | val64 = 0x8080404020201010ULL; | |
1635 | writeq(val64, &bar0->rts_qos_steering); | |
1636 | break; | |
1637 | case 5: | |
0425b46a | 1638 | val64 = 0x0001020304000102ULL; |
5e25b9dd | 1639 | writeq(val64, &bar0->rx_w_round_robin_0); |
0425b46a | 1640 | val64 = 0x0304000102030400ULL; |
5e25b9dd | 1641 | writeq(val64, &bar0->rx_w_round_robin_1); |
0425b46a | 1642 | val64 = 0x0102030400010203ULL; |
5e25b9dd | 1643 | writeq(val64, &bar0->rx_w_round_robin_2); |
0425b46a | 1644 | val64 = 0x0400010203040001ULL; |
5e25b9dd | 1645 | writeq(val64, &bar0->rx_w_round_robin_3); |
0425b46a | 1646 | val64 = 0x0203040000000000ULL; |
5e25b9dd K |
1647 | writeq(val64, &bar0->rx_w_round_robin_4); |
1648 | ||
1649 | val64 = 0x8080404020201008ULL; | |
1650 | writeq(val64, &bar0->rts_qos_steering); | |
1651 | break; | |
1652 | case 6: | |
0425b46a | 1653 | val64 = 0x0001020304050001ULL; |
5e25b9dd | 1654 | writeq(val64, &bar0->rx_w_round_robin_0); |
0425b46a | 1655 | val64 = 0x0203040500010203ULL; |
5e25b9dd | 1656 | writeq(val64, &bar0->rx_w_round_robin_1); |
0425b46a | 1657 | val64 = 0x0405000102030405ULL; |
5e25b9dd | 1658 | writeq(val64, &bar0->rx_w_round_robin_2); |
0425b46a | 1659 | val64 = 0x0001020304050001ULL; |
5e25b9dd | 1660 | writeq(val64, &bar0->rx_w_round_robin_3); |
0425b46a | 1661 | val64 = 0x0203040500000000ULL; |
5e25b9dd K |
1662 | writeq(val64, &bar0->rx_w_round_robin_4); |
1663 | ||
1664 | val64 = 0x8080404020100804ULL; | |
1665 | writeq(val64, &bar0->rts_qos_steering); | |
1666 | break; | |
1667 | case 7: | |
0425b46a | 1668 | val64 = 0x0001020304050600ULL; |
5e25b9dd | 1669 | writeq(val64, &bar0->rx_w_round_robin_0); |
0425b46a | 1670 | val64 = 0x0102030405060001ULL; |
5e25b9dd | 1671 | writeq(val64, &bar0->rx_w_round_robin_1); |
0425b46a | 1672 | val64 = 0x0203040506000102ULL; |
5e25b9dd | 1673 | writeq(val64, &bar0->rx_w_round_robin_2); |
0425b46a | 1674 | val64 = 0x0304050600010203ULL; |
5e25b9dd | 1675 | writeq(val64, &bar0->rx_w_round_robin_3); |
0425b46a | 1676 | val64 = 0x0405060000000000ULL; |
5e25b9dd K |
1677 | writeq(val64, &bar0->rx_w_round_robin_4); |
1678 | ||
1679 | val64 = 0x8080402010080402ULL; | |
1680 | writeq(val64, &bar0->rts_qos_steering); | |
1681 | break; | |
1682 | case 8: | |
0425b46a | 1683 | val64 = 0x0001020304050607ULL; |
5e25b9dd | 1684 | writeq(val64, &bar0->rx_w_round_robin_0); |
5e25b9dd | 1685 | writeq(val64, &bar0->rx_w_round_robin_1); |
5e25b9dd | 1686 | writeq(val64, &bar0->rx_w_round_robin_2); |
5e25b9dd | 1687 | writeq(val64, &bar0->rx_w_round_robin_3); |
0425b46a | 1688 | val64 = 0x0001020300000000ULL; |
5e25b9dd K |
1689 | writeq(val64, &bar0->rx_w_round_robin_4); |
1690 | ||
1691 | val64 = 0x8040201008040201ULL; | |
1692 | writeq(val64, &bar0->rts_qos_steering); | |
1693 | break; | |
1694 | } | |
1da177e4 LT |
1695 | |
1696 | /* UDP Fix */ | |
1697 | val64 = 0; | |
20346722 | 1698 | for (i = 0; i < 8; i++) |
1da177e4 LT |
1699 | writeq(val64, &bar0->rts_frm_len_n[i]); |
1700 | ||
5e25b9dd K |
1701 | /* Set the default rts frame length for the rings configured */ |
1702 | val64 = MAC_RTS_FRM_LEN_SET(dev->mtu+22); | |
1703 | for (i = 0 ; i < config->rx_ring_num ; i++) | |
1704 | writeq(val64, &bar0->rts_frm_len_n[i]); | |
1705 | ||
1706 | /* Set the frame length for the configured rings | |
1707 | * desired by the user | |
1708 | */ | |
1709 | for (i = 0; i < config->rx_ring_num; i++) { | |
1710 | /* If rts_frm_len[i] == 0 then it is assumed that user not | |
1711 | * specified frame length steering. | |
1712 | * If the user provides the frame length then program | |
1713 | * the rts_frm_len register for those values or else | |
1714 | * leave it as it is. | |
1715 | */ | |
1716 | if (rts_frm_len[i] != 0) { | |
1717 | writeq(MAC_RTS_FRM_LEN_SET(rts_frm_len[i]), | |
1718 | &bar0->rts_frm_len_n[i]); | |
1719 | } | |
1720 | } | |
8a4bdbaa | 1721 | |
9fc93a41 SS |
1722 | /* Disable differentiated services steering logic */ |
1723 | for (i = 0; i < 64; i++) { | |
1724 | if (rts_ds_steer(nic, i, 0) == FAILURE) { | |
1725 | DBG_PRINT(ERR_DBG, "%s: failed rts ds steering", | |
1726 | dev->name); | |
1727 | DBG_PRINT(ERR_DBG, "set on codepoint %d\n", i); | |
9f74ffde | 1728 | return -ENODEV; |
9fc93a41 SS |
1729 | } |
1730 | } | |
1731 | ||
20346722 | 1732 | /* Program statistics memory */ |
1da177e4 | 1733 | writeq(mac_control->stats_mem_phy, &bar0->stat_addr); |
1da177e4 | 1734 | |
541ae68f K |
1735 | if (nic->device_type == XFRAME_II_DEVICE) { |
1736 | val64 = STAT_BC(0x320); | |
1737 | writeq(val64, &bar0->stat_byte_cnt); | |
1738 | } | |
1739 | ||
20346722 | 1740 | /* |
1da177e4 LT |
1741 | * Initializing the sampling rate for the device to calculate the |
1742 | * bandwidth utilization. | |
1743 | */ | |
1744 | val64 = MAC_TX_LINK_UTIL_VAL(tmac_util_period) | | |
1745 | MAC_RX_LINK_UTIL_VAL(rmac_util_period); | |
1746 | writeq(val64, &bar0->mac_link_util); | |
1747 | ||
20346722 K |
1748 | /* |
1749 | * Initializing the Transmit and Receive Traffic Interrupt | |
1da177e4 LT |
1750 | * Scheme. |
1751 | */ | |
1da177e4 | 1752 | |
b7c5678f RV |
1753 | /* Initialize TTI */ |
1754 | if (SUCCESS != init_tti(nic, nic->last_link_state)) | |
1755 | return -ENODEV; | |
1da177e4 | 1756 | |
8a4bdbaa SS |
1757 | /* RTI Initialization */ |
1758 | if (nic->device_type == XFRAME_II_DEVICE) { | |
541ae68f | 1759 | /* |
8a4bdbaa SS |
1760 | * Programmed to generate Apprx 500 Intrs per |
1761 | * second | |
1762 | */ | |
1763 | int count = (nic->config.bus_speed * 125)/4; | |
1764 | val64 = RTI_DATA1_MEM_RX_TIMER_VAL(count); | |
1765 | } else | |
1766 | val64 = RTI_DATA1_MEM_RX_TIMER_VAL(0xFFF); | |
1767 | val64 |= RTI_DATA1_MEM_RX_URNG_A(0xA) | | |
1768 | RTI_DATA1_MEM_RX_URNG_B(0x10) | | |
1769 | RTI_DATA1_MEM_RX_URNG_C(0x30) | RTI_DATA1_MEM_RX_TIMER_AC_EN; | |
1770 | ||
1771 | writeq(val64, &bar0->rti_data1_mem); | |
1772 | ||
1773 | val64 = RTI_DATA2_MEM_RX_UFC_A(0x1) | | |
1774 | RTI_DATA2_MEM_RX_UFC_B(0x2) ; | |
1775 | if (nic->config.intr_type == MSI_X) | |
1776 | val64 |= (RTI_DATA2_MEM_RX_UFC_C(0x20) | \ | |
1777 | RTI_DATA2_MEM_RX_UFC_D(0x40)); | |
1778 | else | |
1779 | val64 |= (RTI_DATA2_MEM_RX_UFC_C(0x40) | \ | |
1780 | RTI_DATA2_MEM_RX_UFC_D(0x80)); | |
1781 | writeq(val64, &bar0->rti_data2_mem); | |
1da177e4 | 1782 | |
8a4bdbaa SS |
1783 | for (i = 0; i < config->rx_ring_num; i++) { |
1784 | val64 = RTI_CMD_MEM_WE | RTI_CMD_MEM_STROBE_NEW_CMD | |
1785 | | RTI_CMD_MEM_OFFSET(i); | |
1786 | writeq(val64, &bar0->rti_command_mem); | |
1da177e4 | 1787 | |
8a4bdbaa SS |
1788 | /* |
1789 | * Once the operation completes, the Strobe bit of the | |
1790 | * command register will be reset. We poll for this | |
1791 | * particular condition. We wait for a maximum of 500ms | |
1792 | * for the operation to complete, if it's not complete | |
1793 | * by then we return error. | |
1794 | */ | |
1795 | time = 0; | |
1796 | while (TRUE) { | |
1797 | val64 = readq(&bar0->rti_command_mem); | |
1798 | if (!(val64 & RTI_CMD_MEM_STROBE_NEW_CMD)) | |
1799 | break; | |
b6e3f982 | 1800 | |
8a4bdbaa SS |
1801 | if (time > 10) { |
1802 | DBG_PRINT(ERR_DBG, "%s: RTI init Failed\n", | |
1803 | dev->name); | |
9f74ffde | 1804 | return -ENODEV; |
b6e3f982 | 1805 | } |
8a4bdbaa SS |
1806 | time++; |
1807 | msleep(50); | |
1da177e4 | 1808 | } |
1da177e4 LT |
1809 | } |
1810 | ||
20346722 K |
1811 | /* |
1812 | * Initializing proper values as Pause threshold into all | |
1da177e4 LT |
1813 | * the 8 Queues on Rx side. |
1814 | */ | |
1815 | writeq(0xffbbffbbffbbffbbULL, &bar0->mc_pause_thresh_q0q3); | |
1816 | writeq(0xffbbffbbffbbffbbULL, &bar0->mc_pause_thresh_q4q7); | |
1817 | ||
1818 | /* Disable RMAC PAD STRIPPING */ | |
509a2671 | 1819 | add = &bar0->mac_cfg; |
1da177e4 LT |
1820 | val64 = readq(&bar0->mac_cfg); |
1821 | val64 &= ~(MAC_CFG_RMAC_STRIP_PAD); | |
1822 | writeq(RMAC_CFG_KEY(0x4C0D), &bar0->rmac_cfg_key); | |
1823 | writel((u32) (val64), add); | |
1824 | writeq(RMAC_CFG_KEY(0x4C0D), &bar0->rmac_cfg_key); | |
1825 | writel((u32) (val64 >> 32), (add + 4)); | |
1826 | val64 = readq(&bar0->mac_cfg); | |
1827 | ||
7d3d0439 RA |
1828 | /* Enable FCS stripping by adapter */ |
1829 | add = &bar0->mac_cfg; | |
1830 | val64 = readq(&bar0->mac_cfg); | |
1831 | val64 |= MAC_CFG_RMAC_STRIP_FCS; | |
1832 | if (nic->device_type == XFRAME_II_DEVICE) | |
1833 | writeq(val64, &bar0->mac_cfg); | |
1834 | else { | |
1835 | writeq(RMAC_CFG_KEY(0x4C0D), &bar0->rmac_cfg_key); | |
1836 | writel((u32) (val64), add); | |
1837 | writeq(RMAC_CFG_KEY(0x4C0D), &bar0->rmac_cfg_key); | |
1838 | writel((u32) (val64 >> 32), (add + 4)); | |
1839 | } | |
1840 | ||
20346722 K |
1841 | /* |
1842 | * Set the time value to be inserted in the pause frame | |
1da177e4 LT |
1843 | * generated by xena. |
1844 | */ | |
1845 | val64 = readq(&bar0->rmac_pause_cfg); | |
1846 | val64 &= ~(RMAC_PAUSE_HG_PTIME(0xffff)); | |
1847 | val64 |= RMAC_PAUSE_HG_PTIME(nic->mac_control.rmac_pause_time); | |
1848 | writeq(val64, &bar0->rmac_pause_cfg); | |
1849 | ||
20346722 | 1850 | /* |
1da177e4 LT |
1851 | * Set the Threshold Limit for Generating the pause frame |
1852 | * If the amount of data in any Queue exceeds ratio of | |
1853 | * (mac_control.mc_pause_threshold_q0q3 or q4q7)/256 | |
1854 | * pause frame is generated | |
1855 | */ | |
1856 | val64 = 0; | |
1857 | for (i = 0; i < 4; i++) { | |
1858 | val64 |= | |
1859 | (((u64) 0xFF00 | nic->mac_control. | |
1860 | mc_pause_threshold_q0q3) | |
1861 | << (i * 2 * 8)); | |
1862 | } | |
1863 | writeq(val64, &bar0->mc_pause_thresh_q0q3); | |
1864 | ||
1865 | val64 = 0; | |
1866 | for (i = 0; i < 4; i++) { | |
1867 | val64 |= | |
1868 | (((u64) 0xFF00 | nic->mac_control. | |
1869 | mc_pause_threshold_q4q7) | |
1870 | << (i * 2 * 8)); | |
1871 | } | |
1872 | writeq(val64, &bar0->mc_pause_thresh_q4q7); | |
1873 | ||
20346722 K |
1874 | /* |
1875 | * TxDMA will stop Read request if the number of read split has | |
1da177e4 LT |
1876 | * exceeded the limit pointed by shared_splits |
1877 | */ | |
1878 | val64 = readq(&bar0->pic_control); | |
1879 | val64 |= PIC_CNTL_SHARED_SPLITS(shared_splits); | |
1880 | writeq(val64, &bar0->pic_control); | |
1881 | ||
863c11a9 AR |
1882 | if (nic->config.bus_speed == 266) { |
1883 | writeq(TXREQTO_VAL(0x7f) | TXREQTO_EN, &bar0->txreqtimeout); | |
1884 | writeq(0x0, &bar0->read_retry_delay); | |
1885 | writeq(0x0, &bar0->write_retry_delay); | |
1886 | } | |
1887 | ||
541ae68f K |
1888 | /* |
1889 | * Programming the Herc to split every write transaction | |
1890 | * that does not start on an ADB to reduce disconnects. | |
1891 | */ | |
1892 | if (nic->device_type == XFRAME_II_DEVICE) { | |
19a60522 SS |
1893 | val64 = FAULT_BEHAVIOUR | EXT_REQ_EN | |
1894 | MISC_LINK_STABILITY_PRD(3); | |
863c11a9 AR |
1895 | writeq(val64, &bar0->misc_control); |
1896 | val64 = readq(&bar0->pic_control2); | |
b7b5a128 | 1897 | val64 &= ~(s2BIT(13)|s2BIT(14)|s2BIT(15)); |
863c11a9 | 1898 | writeq(val64, &bar0->pic_control2); |
541ae68f | 1899 | } |
c92ca04b AR |
1900 | if (strstr(nic->product_name, "CX4")) { |
1901 | val64 = TMAC_AVG_IPG(0x17); | |
1902 | writeq(val64, &bar0->tmac_avg_ipg); | |
a371a07d K |
1903 | } |
1904 | ||
1da177e4 LT |
1905 | return SUCCESS; |
1906 | } | |
a371a07d K |
1907 | #define LINK_UP_DOWN_INTERRUPT 1 |
1908 | #define MAC_RMAC_ERR_TIMER 2 | |
1909 | ||
1ee6dd77 | 1910 | static int s2io_link_fault_indication(struct s2io_nic *nic) |
a371a07d | 1911 | { |
eaae7f72 | 1912 | if (nic->config.intr_type != INTA) |
cc6e7c44 | 1913 | return MAC_RMAC_ERR_TIMER; |
a371a07d K |
1914 | if (nic->device_type == XFRAME_II_DEVICE) |
1915 | return LINK_UP_DOWN_INTERRUPT; | |
1916 | else | |
1917 | return MAC_RMAC_ERR_TIMER; | |
1918 | } | |
8116f3cf | 1919 | |
9caab458 SS |
1920 | /** |
1921 | * do_s2io_write_bits - update alarm bits in alarm register | |
1922 | * @value: alarm bits | |
1923 | * @flag: interrupt status | |
1924 | * @addr: address value | |
1925 | * Description: update alarm bits in alarm register | |
1926 | * Return Value: | |
1927 | * NONE. | |
1928 | */ | |
1929 | static void do_s2io_write_bits(u64 value, int flag, void __iomem *addr) | |
1930 | { | |
1931 | u64 temp64; | |
1932 | ||
1933 | temp64 = readq(addr); | |
1934 | ||
1935 | if(flag == ENABLE_INTRS) | |
1936 | temp64 &= ~((u64) value); | |
1937 | else | |
1938 | temp64 |= ((u64) value); | |
1939 | writeq(temp64, addr); | |
1940 | } | |
1da177e4 | 1941 | |
43b7c451 | 1942 | static void en_dis_err_alarms(struct s2io_nic *nic, u16 mask, int flag) |
9caab458 SS |
1943 | { |
1944 | struct XENA_dev_config __iomem *bar0 = nic->bar0; | |
1945 | register u64 gen_int_mask = 0; | |
1946 | ||
1947 | if (mask & TX_DMA_INTR) { | |
1948 | ||
1949 | gen_int_mask |= TXDMA_INT_M; | |
1950 | ||
1951 | do_s2io_write_bits(TXDMA_TDA_INT | TXDMA_PFC_INT | | |
1952 | TXDMA_PCC_INT | TXDMA_TTI_INT | | |
1953 | TXDMA_LSO_INT | TXDMA_TPA_INT | | |
1954 | TXDMA_SM_INT, flag, &bar0->txdma_int_mask); | |
1955 | ||
1956 | do_s2io_write_bits(PFC_ECC_DB_ERR | PFC_SM_ERR_ALARM | | |
1957 | PFC_MISC_0_ERR | PFC_MISC_1_ERR | | |
1958 | PFC_PCIX_ERR | PFC_ECC_SG_ERR, flag, | |
1959 | &bar0->pfc_err_mask); | |
1960 | ||
1961 | do_s2io_write_bits(TDA_Fn_ECC_DB_ERR | TDA_SM0_ERR_ALARM | | |
1962 | TDA_SM1_ERR_ALARM | TDA_Fn_ECC_SG_ERR | | |
1963 | TDA_PCIX_ERR, flag, &bar0->tda_err_mask); | |
1964 | ||
1965 | do_s2io_write_bits(PCC_FB_ECC_DB_ERR | PCC_TXB_ECC_DB_ERR | | |
1966 | PCC_SM_ERR_ALARM | PCC_WR_ERR_ALARM | | |
1967 | PCC_N_SERR | PCC_6_COF_OV_ERR | | |
1968 | PCC_7_COF_OV_ERR | PCC_6_LSO_OV_ERR | | |
1969 | PCC_7_LSO_OV_ERR | PCC_FB_ECC_SG_ERR | | |
1970 | PCC_TXB_ECC_SG_ERR, flag, &bar0->pcc_err_mask); | |
1971 | ||
1972 | do_s2io_write_bits(TTI_SM_ERR_ALARM | TTI_ECC_SG_ERR | | |
1973 | TTI_ECC_DB_ERR, flag, &bar0->tti_err_mask); | |
1974 | ||
1975 | do_s2io_write_bits(LSO6_ABORT | LSO7_ABORT | | |
1976 | LSO6_SM_ERR_ALARM | LSO7_SM_ERR_ALARM | | |
1977 | LSO6_SEND_OFLOW | LSO7_SEND_OFLOW, | |
1978 | flag, &bar0->lso_err_mask); | |
1979 | ||
1980 | do_s2io_write_bits(TPA_SM_ERR_ALARM | TPA_TX_FRM_DROP, | |
1981 | flag, &bar0->tpa_err_mask); | |
1982 | ||
1983 | do_s2io_write_bits(SM_SM_ERR_ALARM, flag, &bar0->sm_err_mask); | |
1984 | ||
1985 | } | |
1986 | ||
1987 | if (mask & TX_MAC_INTR) { | |
1988 | gen_int_mask |= TXMAC_INT_M; | |
1989 | do_s2io_write_bits(MAC_INT_STATUS_TMAC_INT, flag, | |
1990 | &bar0->mac_int_mask); | |
1991 | do_s2io_write_bits(TMAC_TX_BUF_OVRN | TMAC_TX_SM_ERR | | |
1992 | TMAC_ECC_SG_ERR | TMAC_ECC_DB_ERR | | |
1993 | TMAC_DESC_ECC_SG_ERR | TMAC_DESC_ECC_DB_ERR, | |
1994 | flag, &bar0->mac_tmac_err_mask); | |
1995 | } | |
1996 | ||
1997 | if (mask & TX_XGXS_INTR) { | |
1998 | gen_int_mask |= TXXGXS_INT_M; | |
1999 | do_s2io_write_bits(XGXS_INT_STATUS_TXGXS, flag, | |
2000 | &bar0->xgxs_int_mask); | |
2001 | do_s2io_write_bits(TXGXS_ESTORE_UFLOW | TXGXS_TX_SM_ERR | | |
2002 | TXGXS_ECC_SG_ERR | TXGXS_ECC_DB_ERR, | |
2003 | flag, &bar0->xgxs_txgxs_err_mask); | |
2004 | } | |
2005 | ||
2006 | if (mask & RX_DMA_INTR) { | |
2007 | gen_int_mask |= RXDMA_INT_M; | |
2008 | do_s2io_write_bits(RXDMA_INT_RC_INT_M | RXDMA_INT_RPA_INT_M | | |
2009 | RXDMA_INT_RDA_INT_M | RXDMA_INT_RTI_INT_M, | |
2010 | flag, &bar0->rxdma_int_mask); | |
2011 | do_s2io_write_bits(RC_PRCn_ECC_DB_ERR | RC_FTC_ECC_DB_ERR | | |
2012 | RC_PRCn_SM_ERR_ALARM | RC_FTC_SM_ERR_ALARM | | |
2013 | RC_PRCn_ECC_SG_ERR | RC_FTC_ECC_SG_ERR | | |
2014 | RC_RDA_FAIL_WR_Rn, flag, &bar0->rc_err_mask); | |
2015 | do_s2io_write_bits(PRC_PCI_AB_RD_Rn | PRC_PCI_AB_WR_Rn | | |
2016 | PRC_PCI_AB_F_WR_Rn | PRC_PCI_DP_RD_Rn | | |
2017 | PRC_PCI_DP_WR_Rn | PRC_PCI_DP_F_WR_Rn, flag, | |
2018 | &bar0->prc_pcix_err_mask); | |
2019 | do_s2io_write_bits(RPA_SM_ERR_ALARM | RPA_CREDIT_ERR | | |
2020 | RPA_ECC_SG_ERR | RPA_ECC_DB_ERR, flag, | |
2021 | &bar0->rpa_err_mask); | |
2022 | do_s2io_write_bits(RDA_RXDn_ECC_DB_ERR | RDA_FRM_ECC_DB_N_AERR | | |
2023 | RDA_SM1_ERR_ALARM | RDA_SM0_ERR_ALARM | | |
2024 | RDA_RXD_ECC_DB_SERR | RDA_RXDn_ECC_SG_ERR | | |
2025 | RDA_FRM_ECC_SG_ERR | RDA_MISC_ERR|RDA_PCIX_ERR, | |
2026 | flag, &bar0->rda_err_mask); | |
2027 | do_s2io_write_bits(RTI_SM_ERR_ALARM | | |
2028 | RTI_ECC_SG_ERR | RTI_ECC_DB_ERR, | |
2029 | flag, &bar0->rti_err_mask); | |
2030 | } | |
2031 | ||
2032 | if (mask & RX_MAC_INTR) { | |
2033 | gen_int_mask |= RXMAC_INT_M; | |
2034 | do_s2io_write_bits(MAC_INT_STATUS_RMAC_INT, flag, | |
2035 | &bar0->mac_int_mask); | |
2036 | do_s2io_write_bits(RMAC_RX_BUFF_OVRN | RMAC_RX_SM_ERR | | |
2037 | RMAC_UNUSED_INT | RMAC_SINGLE_ECC_ERR | | |
2038 | RMAC_DOUBLE_ECC_ERR | | |
2039 | RMAC_LINK_STATE_CHANGE_INT, | |
2040 | flag, &bar0->mac_rmac_err_mask); | |
2041 | } | |
2042 | ||
2043 | if (mask & RX_XGXS_INTR) | |
2044 | { | |
2045 | gen_int_mask |= RXXGXS_INT_M; | |
2046 | do_s2io_write_bits(XGXS_INT_STATUS_RXGXS, flag, | |
2047 | &bar0->xgxs_int_mask); | |
2048 | do_s2io_write_bits(RXGXS_ESTORE_OFLOW | RXGXS_RX_SM_ERR, flag, | |
2049 | &bar0->xgxs_rxgxs_err_mask); | |
2050 | } | |
2051 | ||
2052 | if (mask & MC_INTR) { | |
2053 | gen_int_mask |= MC_INT_M; | |
2054 | do_s2io_write_bits(MC_INT_MASK_MC_INT, flag, &bar0->mc_int_mask); | |
2055 | do_s2io_write_bits(MC_ERR_REG_SM_ERR | MC_ERR_REG_ECC_ALL_SNG | | |
2056 | MC_ERR_REG_ECC_ALL_DBL | PLL_LOCK_N, flag, | |
2057 | &bar0->mc_err_mask); | |
2058 | } | |
2059 | nic->general_int_mask = gen_int_mask; | |
2060 | ||
2061 | /* Remove this line when alarm interrupts are enabled */ | |
2062 | nic->general_int_mask = 0; | |
2063 | } | |
20346722 K |
2064 | /** |
2065 | * en_dis_able_nic_intrs - Enable or Disable the interrupts | |
1da177e4 LT |
2066 | * @nic: device private variable, |
2067 | * @mask: A mask indicating which Intr block must be modified and, | |
2068 | * @flag: A flag indicating whether to enable or disable the Intrs. | |
2069 | * Description: This function will either disable or enable the interrupts | |
20346722 K |
2070 | * depending on the flag argument. The mask argument can be used to |
2071 | * enable/disable any Intr block. | |
1da177e4 LT |
2072 | * Return Value: NONE. |
2073 | */ | |
2074 | ||
2075 | static void en_dis_able_nic_intrs(struct s2io_nic *nic, u16 mask, int flag) | |
2076 | { | |
1ee6dd77 | 2077 | struct XENA_dev_config __iomem *bar0 = nic->bar0; |
9caab458 SS |
2078 | register u64 temp64 = 0, intr_mask = 0; |
2079 | ||
2080 | intr_mask = nic->general_int_mask; | |
1da177e4 LT |
2081 | |
2082 | /* Top level interrupt classification */ | |
2083 | /* PIC Interrupts */ | |
9caab458 | 2084 | if (mask & TX_PIC_INTR) { |
1da177e4 | 2085 | /* Enable PIC Intrs in the general intr mask register */ |
9caab458 | 2086 | intr_mask |= TXPIC_INT_M; |
1da177e4 | 2087 | if (flag == ENABLE_INTRS) { |
20346722 | 2088 | /* |
a371a07d | 2089 | * If Hercules adapter enable GPIO otherwise |
b41477f3 | 2090 | * disable all PCIX, Flash, MDIO, IIC and GPIO |
20346722 K |
2091 | * interrupts for now. |
2092 | * TODO | |
1da177e4 | 2093 | */ |
a371a07d K |
2094 | if (s2io_link_fault_indication(nic) == |
2095 | LINK_UP_DOWN_INTERRUPT ) { | |
9caab458 SS |
2096 | do_s2io_write_bits(PIC_INT_GPIO, flag, |
2097 | &bar0->pic_int_mask); | |
2098 | do_s2io_write_bits(GPIO_INT_MASK_LINK_UP, flag, | |
2099 | &bar0->gpio_int_mask); | |
2100 | } else | |
a371a07d | 2101 | writeq(DISABLE_ALL_INTRS, &bar0->pic_int_mask); |
1da177e4 | 2102 | } else if (flag == DISABLE_INTRS) { |
20346722 K |
2103 | /* |
2104 | * Disable PIC Intrs in the general | |
2105 | * intr mask register | |
1da177e4 LT |
2106 | */ |
2107 | writeq(DISABLE_ALL_INTRS, &bar0->pic_int_mask); | |
1da177e4 LT |
2108 | } |
2109 | } | |
2110 | ||
1da177e4 LT |
2111 | /* Tx traffic interrupts */ |
2112 | if (mask & TX_TRAFFIC_INTR) { | |
9caab458 | 2113 | intr_mask |= TXTRAFFIC_INT_M; |
1da177e4 | 2114 | if (flag == ENABLE_INTRS) { |
20346722 | 2115 | /* |
1da177e4 | 2116 | * Enable all the Tx side interrupts |
20346722 | 2117 | * writing 0 Enables all 64 TX interrupt levels |
1da177e4 LT |
2118 | */ |
2119 | writeq(0x0, &bar0->tx_traffic_mask); | |
2120 | } else if (flag == DISABLE_INTRS) { | |
20346722 K |
2121 | /* |
2122 | * Disable Tx Traffic Intrs in the general intr mask | |
1da177e4 LT |
2123 | * register. |
2124 | */ | |
2125 | writeq(DISABLE_ALL_INTRS, &bar0->tx_traffic_mask); | |
1da177e4 LT |
2126 | } |
2127 | } | |
2128 | ||
2129 | /* Rx traffic interrupts */ | |
2130 | if (mask & RX_TRAFFIC_INTR) { | |
9caab458 | 2131 | intr_mask |= RXTRAFFIC_INT_M; |
1da177e4 | 2132 | if (flag == ENABLE_INTRS) { |
1da177e4 LT |
2133 | /* writing 0 Enables all 8 RX interrupt levels */ |
2134 | writeq(0x0, &bar0->rx_traffic_mask); | |
2135 | } else if (flag == DISABLE_INTRS) { | |
20346722 K |
2136 | /* |
2137 | * Disable Rx Traffic Intrs in the general intr mask | |
1da177e4 LT |
2138 | * register. |
2139 | */ | |
2140 | writeq(DISABLE_ALL_INTRS, &bar0->rx_traffic_mask); | |
1da177e4 LT |
2141 | } |
2142 | } | |
9caab458 SS |
2143 | |
2144 | temp64 = readq(&bar0->general_int_mask); | |
2145 | if (flag == ENABLE_INTRS) | |
2146 | temp64 &= ~((u64) intr_mask); | |
2147 | else | |
2148 | temp64 = DISABLE_ALL_INTRS; | |
2149 | writeq(temp64, &bar0->general_int_mask); | |
2150 | ||
2151 | nic->general_int_mask = readq(&bar0->general_int_mask); | |
1da177e4 LT |
2152 | } |
2153 | ||
19a60522 SS |
2154 | /** |
2155 | * verify_pcc_quiescent- Checks for PCC quiescent state | |
2156 | * Return: 1 If PCC is quiescence | |
2157 | * 0 If PCC is not quiescence | |
2158 | */ | |
1ee6dd77 | 2159 | static int verify_pcc_quiescent(struct s2io_nic *sp, int flag) |
20346722 | 2160 | { |
19a60522 | 2161 | int ret = 0, herc; |
1ee6dd77 | 2162 | struct XENA_dev_config __iomem *bar0 = sp->bar0; |
19a60522 | 2163 | u64 val64 = readq(&bar0->adapter_status); |
8a4bdbaa | 2164 | |
19a60522 | 2165 | herc = (sp->device_type == XFRAME_II_DEVICE); |
20346722 K |
2166 | |
2167 | if (flag == FALSE) { | |
44c10138 | 2168 | if ((!herc && (sp->pdev->revision >= 4)) || herc) { |
19a60522 | 2169 | if (!(val64 & ADAPTER_STATUS_RMAC_PCC_IDLE)) |
5e25b9dd | 2170 | ret = 1; |
19a60522 SS |
2171 | } else { |
2172 | if (!(val64 & ADAPTER_STATUS_RMAC_PCC_FOUR_IDLE)) | |
5e25b9dd | 2173 | ret = 1; |
20346722 K |
2174 | } |
2175 | } else { | |
44c10138 | 2176 | if ((!herc && (sp->pdev->revision >= 4)) || herc) { |
5e25b9dd | 2177 | if (((val64 & ADAPTER_STATUS_RMAC_PCC_IDLE) == |
19a60522 | 2178 | ADAPTER_STATUS_RMAC_PCC_IDLE)) |
5e25b9dd | 2179 | ret = 1; |
5e25b9dd K |
2180 | } else { |
2181 | if (((val64 & ADAPTER_STATUS_RMAC_PCC_FOUR_IDLE) == | |
19a60522 | 2182 | ADAPTER_STATUS_RMAC_PCC_FOUR_IDLE)) |
5e25b9dd | 2183 | ret = 1; |
20346722 K |
2184 | } |
2185 | } | |
2186 | ||
2187 | return ret; | |
2188 | } | |
2189 | /** | |
2190 | * verify_xena_quiescence - Checks whether the H/W is ready | |
1da177e4 | 2191 | * Description: Returns whether the H/W is ready to go or not. Depending |
20346722 | 2192 | * on whether adapter enable bit was written or not the comparison |
1da177e4 LT |
2193 | * differs and the calling function passes the input argument flag to |
2194 | * indicate this. | |
20346722 | 2195 | * Return: 1 If xena is quiescence |
1da177e4 LT |
2196 | * 0 If Xena is not quiescence |
2197 | */ | |
2198 | ||
1ee6dd77 | 2199 | static int verify_xena_quiescence(struct s2io_nic *sp) |
1da177e4 | 2200 | { |
19a60522 | 2201 | int mode; |
1ee6dd77 | 2202 | struct XENA_dev_config __iomem *bar0 = sp->bar0; |
19a60522 SS |
2203 | u64 val64 = readq(&bar0->adapter_status); |
2204 | mode = s2io_verify_pci_mode(sp); | |
1da177e4 | 2205 | |
19a60522 SS |
2206 | if (!(val64 & ADAPTER_STATUS_TDMA_READY)) { |
2207 | DBG_PRINT(ERR_DBG, "%s", "TDMA is not ready!"); | |
2208 | return 0; | |
2209 | } | |
2210 | if (!(val64 & ADAPTER_STATUS_RDMA_READY)) { | |
2211 | DBG_PRINT(ERR_DBG, "%s", "RDMA is not ready!"); | |
2212 | return 0; | |
2213 | } | |
2214 | if (!(val64 & ADAPTER_STATUS_PFC_READY)) { | |
2215 | DBG_PRINT(ERR_DBG, "%s", "PFC is not ready!"); | |
2216 | return 0; | |
2217 | } | |
2218 | if (!(val64 & ADAPTER_STATUS_TMAC_BUF_EMPTY)) { | |
2219 | DBG_PRINT(ERR_DBG, "%s", "TMAC BUF is not empty!"); | |
2220 | return 0; | |
2221 | } | |
2222 | if (!(val64 & ADAPTER_STATUS_PIC_QUIESCENT)) { | |
2223 | DBG_PRINT(ERR_DBG, "%s", "PIC is not QUIESCENT!"); | |
2224 | return 0; | |
2225 | } | |
2226 | if (!(val64 & ADAPTER_STATUS_MC_DRAM_READY)) { | |
2227 | DBG_PRINT(ERR_DBG, "%s", "MC_DRAM is not ready!"); | |
2228 | return 0; | |
2229 | } | |
2230 | if (!(val64 & ADAPTER_STATUS_MC_QUEUES_READY)) { | |
2231 | DBG_PRINT(ERR_DBG, "%s", "MC_QUEUES is not ready!"); | |
2232 | return 0; | |
2233 | } | |
2234 | if (!(val64 & ADAPTER_STATUS_M_PLL_LOCK)) { | |
2235 | DBG_PRINT(ERR_DBG, "%s", "M_PLL is not locked!"); | |
2236 | return 0; | |
1da177e4 LT |
2237 | } |
2238 | ||
19a60522 SS |
2239 | /* |
2240 | * In PCI 33 mode, the P_PLL is not used, and therefore, | |
2241 | * the the P_PLL_LOCK bit in the adapter_status register will | |
2242 | * not be asserted. | |
2243 | */ | |
2244 | if (!(val64 & ADAPTER_STATUS_P_PLL_LOCK) && | |
2245 | sp->device_type == XFRAME_II_DEVICE && mode != | |
2246 | PCI_MODE_PCI_33) { | |
2247 | DBG_PRINT(ERR_DBG, "%s", "P_PLL is not locked!"); | |
2248 | return 0; | |
2249 | } | |
2250 | if (!((val64 & ADAPTER_STATUS_RC_PRC_QUIESCENT) == | |
2251 | ADAPTER_STATUS_RC_PRC_QUIESCENT)) { | |
2252 | DBG_PRINT(ERR_DBG, "%s", "RC_PRC is not QUIESCENT!"); | |
2253 | return 0; | |
2254 | } | |
2255 | return 1; | |
1da177e4 LT |
2256 | } |
2257 | ||
2258 | /** | |
2259 | * fix_mac_address - Fix for Mac addr problem on Alpha platforms | |
2260 | * @sp: Pointer to device specifc structure | |
20346722 | 2261 | * Description : |
1da177e4 LT |
2262 | * New procedure to clear mac address reading problems on Alpha platforms |
2263 | * | |
2264 | */ | |
2265 | ||
1ee6dd77 | 2266 | static void fix_mac_address(struct s2io_nic * sp) |
1da177e4 | 2267 | { |
1ee6dd77 | 2268 | struct XENA_dev_config __iomem *bar0 = sp->bar0; |
1da177e4 LT |
2269 | u64 val64; |
2270 | int i = 0; | |
2271 | ||
2272 | while (fix_mac[i] != END_SIGN) { | |
2273 | writeq(fix_mac[i++], &bar0->gpio_control); | |
20346722 | 2274 | udelay(10); |
1da177e4 LT |
2275 | val64 = readq(&bar0->gpio_control); |
2276 | } | |
2277 | } | |
2278 | ||
2279 | /** | |
20346722 | 2280 | * start_nic - Turns the device on |
1da177e4 | 2281 | * @nic : device private variable. |
20346722 K |
2282 | * Description: |
2283 | * This function actually turns the device on. Before this function is | |
2284 | * called,all Registers are configured from their reset states | |
2285 | * and shared memory is allocated but the NIC is still quiescent. On | |
1da177e4 LT |
2286 | * calling this function, the device interrupts are cleared and the NIC is |
2287 | * literally switched on by writing into the adapter control register. | |
20346722 | 2288 | * Return Value: |
1da177e4 LT |
2289 | * SUCCESS on success and -1 on failure. |
2290 | */ | |
2291 | ||
2292 | static int start_nic(struct s2io_nic *nic) | |
2293 | { | |
1ee6dd77 | 2294 | struct XENA_dev_config __iomem *bar0 = nic->bar0; |
1da177e4 LT |
2295 | struct net_device *dev = nic->dev; |
2296 | register u64 val64 = 0; | |
20346722 | 2297 | u16 subid, i; |
1ee6dd77 | 2298 | struct mac_info *mac_control; |
1da177e4 LT |
2299 | struct config_param *config; |
2300 | ||
2301 | mac_control = &nic->mac_control; | |
2302 | config = &nic->config; | |
2303 | ||
2304 | /* PRC Initialization and configuration */ | |
2305 | for (i = 0; i < config->rx_ring_num; i++) { | |
20346722 | 2306 | writeq((u64) mac_control->rings[i].rx_blocks[0].block_dma_addr, |
1da177e4 LT |
2307 | &bar0->prc_rxd0_n[i]); |
2308 | ||
2309 | val64 = readq(&bar0->prc_ctrl_n[i]); | |
da6971d8 AR |
2310 | if (nic->rxd_mode == RXD_MODE_1) |
2311 | val64 |= PRC_CTRL_RC_ENABLED; | |
2312 | else | |
2313 | val64 |= PRC_CTRL_RC_ENABLED | PRC_CTRL_RING_MODE_3; | |
863c11a9 AR |
2314 | if (nic->device_type == XFRAME_II_DEVICE) |
2315 | val64 |= PRC_CTRL_GROUP_READS; | |
2316 | val64 &= ~PRC_CTRL_RXD_BACKOFF_INTERVAL(0xFFFFFF); | |
2317 | val64 |= PRC_CTRL_RXD_BACKOFF_INTERVAL(0x1000); | |
1da177e4 LT |
2318 | writeq(val64, &bar0->prc_ctrl_n[i]); |
2319 | } | |
2320 | ||
da6971d8 AR |
2321 | if (nic->rxd_mode == RXD_MODE_3B) { |
2322 | /* Enabling 2 buffer mode by writing into Rx_pa_cfg reg. */ | |
2323 | val64 = readq(&bar0->rx_pa_cfg); | |
2324 | val64 |= RX_PA_CFG_IGNORE_L2_ERR; | |
2325 | writeq(val64, &bar0->rx_pa_cfg); | |
2326 | } | |
1da177e4 | 2327 | |
926930b2 SS |
2328 | if (vlan_tag_strip == 0) { |
2329 | val64 = readq(&bar0->rx_pa_cfg); | |
2330 | val64 &= ~RX_PA_CFG_STRIP_VLAN_TAG; | |
2331 | writeq(val64, &bar0->rx_pa_cfg); | |
2332 | vlan_strip_flag = 0; | |
2333 | } | |
2334 | ||
20346722 | 2335 | /* |
1da177e4 LT |
2336 | * Enabling MC-RLDRAM. After enabling the device, we timeout |
2337 | * for around 100ms, which is approximately the time required | |
2338 | * for the device to be ready for operation. | |
2339 | */ | |
2340 | val64 = readq(&bar0->mc_rldram_mrs); | |
2341 | val64 |= MC_RLDRAM_QUEUE_SIZE_ENABLE | MC_RLDRAM_MRS_ENABLE; | |
2342 | SPECIAL_REG_WRITE(val64, &bar0->mc_rldram_mrs, UF); | |
2343 | val64 = readq(&bar0->mc_rldram_mrs); | |
2344 | ||
20346722 | 2345 | msleep(100); /* Delay by around 100 ms. */ |
1da177e4 LT |
2346 | |
2347 | /* Enabling ECC Protection. */ | |
2348 | val64 = readq(&bar0->adapter_control); | |
2349 | val64 &= ~ADAPTER_ECC_EN; | |
2350 | writeq(val64, &bar0->adapter_control); | |
2351 | ||
20346722 K |
2352 | /* |
2353 | * Verify if the device is ready to be enabled, if so enable | |
1da177e4 LT |
2354 | * it. |
2355 | */ | |
2356 | val64 = readq(&bar0->adapter_status); | |
19a60522 | 2357 | if (!verify_xena_quiescence(nic)) { |
1da177e4 LT |
2358 | DBG_PRINT(ERR_DBG, "%s: device is not ready, ", dev->name); |
2359 | DBG_PRINT(ERR_DBG, "Adapter status reads: 0x%llx\n", | |
2360 | (unsigned long long) val64); | |
2361 | return FAILURE; | |
2362 | } | |
2363 | ||
20346722 | 2364 | /* |
1da177e4 | 2365 | * With some switches, link might be already up at this point. |
20346722 K |
2366 | * Because of this weird behavior, when we enable laser, |
2367 | * we may not get link. We need to handle this. We cannot | |
2368 | * figure out which switch is misbehaving. So we are forced to | |
2369 | * make a global change. | |
1da177e4 LT |
2370 | */ |
2371 | ||
2372 | /* Enabling Laser. */ | |
2373 | val64 = readq(&bar0->adapter_control); | |
2374 | val64 |= ADAPTER_EOI_TX_ON; | |
2375 | writeq(val64, &bar0->adapter_control); | |
2376 | ||
c92ca04b AR |
2377 | if (s2io_link_fault_indication(nic) == MAC_RMAC_ERR_TIMER) { |
2378 | /* | |
2379 | * Dont see link state interrupts initally on some switches, | |
2380 | * so directly scheduling the link state task here. | |
2381 | */ | |
2382 | schedule_work(&nic->set_link_task); | |
2383 | } | |
1da177e4 LT |
2384 | /* SXE-002: Initialize link and activity LED */ |
2385 | subid = nic->pdev->subsystem_device; | |
541ae68f K |
2386 | if (((subid & 0xFF) >= 0x07) && |
2387 | (nic->device_type == XFRAME_I_DEVICE)) { | |
1da177e4 LT |
2388 | val64 = readq(&bar0->gpio_control); |
2389 | val64 |= 0x0000800000000000ULL; | |
2390 | writeq(val64, &bar0->gpio_control); | |
2391 | val64 = 0x0411040400000000ULL; | |
509a2671 | 2392 | writeq(val64, (void __iomem *)bar0 + 0x2700); |
1da177e4 LT |
2393 | } |
2394 | ||
1da177e4 LT |
2395 | return SUCCESS; |
2396 | } | |
fed5eccd AR |
2397 | /** |
2398 | * s2io_txdl_getskb - Get the skb from txdl, unmap and return skb | |
2399 | */ | |
1ee6dd77 RB |
2400 | static struct sk_buff *s2io_txdl_getskb(struct fifo_info *fifo_data, struct \ |
2401 | TxD *txdlp, int get_off) | |
fed5eccd | 2402 | { |
1ee6dd77 | 2403 | struct s2io_nic *nic = fifo_data->nic; |
fed5eccd | 2404 | struct sk_buff *skb; |
1ee6dd77 | 2405 | struct TxD *txds; |
fed5eccd AR |
2406 | u16 j, frg_cnt; |
2407 | ||
2408 | txds = txdlp; | |
2fda096d | 2409 | if (txds->Host_Control == (u64)(long)fifo_data->ufo_in_band_v) { |
fed5eccd AR |
2410 | pci_unmap_single(nic->pdev, (dma_addr_t) |
2411 | txds->Buffer_Pointer, sizeof(u64), | |
2412 | PCI_DMA_TODEVICE); | |
2413 | txds++; | |
2414 | } | |
2415 | ||
2416 | skb = (struct sk_buff *) ((unsigned long) | |
2417 | txds->Host_Control); | |
2418 | if (!skb) { | |
1ee6dd77 | 2419 | memset(txdlp, 0, (sizeof(struct TxD) * fifo_data->max_txds)); |
fed5eccd AR |
2420 | return NULL; |
2421 | } | |
2422 | pci_unmap_single(nic->pdev, (dma_addr_t) | |
2423 | txds->Buffer_Pointer, | |
2424 | skb->len - skb->data_len, | |
2425 | PCI_DMA_TODEVICE); | |
2426 | frg_cnt = skb_shinfo(skb)->nr_frags; | |
2427 | if (frg_cnt) { | |
2428 | txds++; | |
2429 | for (j = 0; j < frg_cnt; j++, txds++) { | |
2430 | skb_frag_t *frag = &skb_shinfo(skb)->frags[j]; | |
2431 | if (!txds->Buffer_Pointer) | |
2432 | break; | |
6aa20a22 | 2433 | pci_unmap_page(nic->pdev, (dma_addr_t) |
fed5eccd AR |
2434 | txds->Buffer_Pointer, |
2435 | frag->size, PCI_DMA_TODEVICE); | |
2436 | } | |
2437 | } | |
1ee6dd77 | 2438 | memset(txdlp,0, (sizeof(struct TxD) * fifo_data->max_txds)); |
fed5eccd AR |
2439 | return(skb); |
2440 | } | |
1da177e4 | 2441 | |
20346722 K |
2442 | /** |
2443 | * free_tx_buffers - Free all queued Tx buffers | |
1da177e4 | 2444 | * @nic : device private variable. |
20346722 | 2445 | * Description: |
1da177e4 | 2446 | * Free all queued Tx buffers. |
20346722 | 2447 | * Return Value: void |
1da177e4 LT |
2448 | */ |
2449 | ||
2450 | static void free_tx_buffers(struct s2io_nic *nic) | |
2451 | { | |
2452 | struct net_device *dev = nic->dev; | |
2453 | struct sk_buff *skb; | |
1ee6dd77 | 2454 | struct TxD *txdp; |
1da177e4 | 2455 | int i, j; |
1ee6dd77 | 2456 | struct mac_info *mac_control; |
1da177e4 | 2457 | struct config_param *config; |
fed5eccd | 2458 | int cnt = 0; |
1da177e4 LT |
2459 | |
2460 | mac_control = &nic->mac_control; | |
2461 | config = &nic->config; | |
2462 | ||
2463 | for (i = 0; i < config->tx_fifo_num; i++) { | |
2fda096d SR |
2464 | unsigned long flags; |
2465 | spin_lock_irqsave(&mac_control->fifos[i].tx_lock, flags); | |
b35b3b49 | 2466 | for (j = 0; j < config->tx_cfg[i].fifo_len; j++) { |
491976b2 SH |
2467 | txdp = (struct TxD *) \ |
2468 | mac_control->fifos[i].list_info[j].list_virt_addr; | |
fed5eccd AR |
2469 | skb = s2io_txdl_getskb(&mac_control->fifos[i], txdp, j); |
2470 | if (skb) { | |
8a4bdbaa | 2471 | nic->mac_control.stats_info->sw_stat.mem_freed |
491976b2 | 2472 | += skb->truesize; |
fed5eccd AR |
2473 | dev_kfree_skb(skb); |
2474 | cnt++; | |
1da177e4 | 2475 | } |
1da177e4 LT |
2476 | } |
2477 | DBG_PRINT(INTR_DBG, | |
2478 | "%s:forcibly freeing %d skbs on FIFO%d\n", | |
2479 | dev->name, cnt, i); | |
20346722 K |
2480 | mac_control->fifos[i].tx_curr_get_info.offset = 0; |
2481 | mac_control->fifos[i].tx_curr_put_info.offset = 0; | |
2fda096d | 2482 | spin_unlock_irqrestore(&mac_control->fifos[i].tx_lock, flags); |
1da177e4 LT |
2483 | } |
2484 | } | |
2485 | ||
20346722 K |
2486 | /** |
2487 | * stop_nic - To stop the nic | |
1da177e4 | 2488 | * @nic ; device private variable. |
20346722 K |
2489 | * Description: |
2490 | * This function does exactly the opposite of what the start_nic() | |
1da177e4 LT |
2491 | * function does. This function is called to stop the device. |
2492 | * Return Value: | |
2493 | * void. | |
2494 | */ | |
2495 | ||
2496 | static void stop_nic(struct s2io_nic *nic) | |
2497 | { | |
1ee6dd77 | 2498 | struct XENA_dev_config __iomem *bar0 = nic->bar0; |
1da177e4 | 2499 | register u64 val64 = 0; |
5d3213cc | 2500 | u16 interruptible; |
1ee6dd77 | 2501 | struct mac_info *mac_control; |
1da177e4 LT |
2502 | struct config_param *config; |
2503 | ||
2504 | mac_control = &nic->mac_control; | |
2505 | config = &nic->config; | |
2506 | ||
2507 | /* Disable all interrupts */ | |
9caab458 | 2508 | en_dis_err_alarms(nic, ENA_ALL_INTRS, DISABLE_INTRS); |
e960fc5c | 2509 | interruptible = TX_TRAFFIC_INTR | RX_TRAFFIC_INTR; |
9caab458 | 2510 | interruptible |= TX_PIC_INTR; |
1da177e4 LT |
2511 | en_dis_able_nic_intrs(nic, interruptible, DISABLE_INTRS); |
2512 | ||
5d3213cc AR |
2513 | /* Clearing Adapter_En bit of ADAPTER_CONTROL Register */ |
2514 | val64 = readq(&bar0->adapter_control); | |
2515 | val64 &= ~(ADAPTER_CNTL_EN); | |
2516 | writeq(val64, &bar0->adapter_control); | |
1da177e4 LT |
2517 | } |
2518 | ||
20346722 K |
2519 | /** |
2520 | * fill_rx_buffers - Allocates the Rx side skbs | |
0425b46a | 2521 | * @ring_info: per ring structure |
20346722 | 2522 | * Description: |
1da177e4 LT |
2523 | * The function allocates Rx side skbs and puts the physical |
2524 | * address of these buffers into the RxD buffer pointers, so that the NIC | |
2525 | * can DMA the received frame into these locations. | |
2526 | * The NIC supports 3 receive modes, viz | |
2527 | * 1. single buffer, | |
2528 | * 2. three buffer and | |
2529 | * 3. Five buffer modes. | |
20346722 K |
2530 | * Each mode defines how many fragments the received frame will be split |
2531 | * up into by the NIC. The frame is split into L3 header, L4 Header, | |
1da177e4 LT |
2532 | * L4 payload in three buffer mode and in 5 buffer mode, L4 payload itself |
2533 | * is split into 3 fragments. As of now only single buffer mode is | |
2534 | * supported. | |
2535 | * Return Value: | |
2536 | * SUCCESS on success or an appropriate -ve value on failure. | |
2537 | */ | |
2538 | ||
0425b46a | 2539 | static int fill_rx_buffers(struct ring_info *ring) |
1da177e4 | 2540 | { |
1da177e4 | 2541 | struct sk_buff *skb; |
1ee6dd77 | 2542 | struct RxD_t *rxdp; |
0425b46a | 2543 | int off, size, block_no, block_no1; |
1da177e4 | 2544 | u32 alloc_tab = 0; |
20346722 | 2545 | u32 alloc_cnt; |
20346722 | 2546 | u64 tmp; |
1ee6dd77 | 2547 | struct buffAdd *ba; |
1ee6dd77 | 2548 | struct RxD_t *first_rxdp = NULL; |
363dc367 | 2549 | u64 Buffer0_ptr = 0, Buffer1_ptr = 0; |
0425b46a | 2550 | int rxd_index = 0; |
6d517a27 VP |
2551 | struct RxD1 *rxdp1; |
2552 | struct RxD3 *rxdp3; | |
0425b46a | 2553 | struct swStat *stats = &ring->nic->mac_control.stats_info->sw_stat; |
1da177e4 | 2554 | |
0425b46a | 2555 | alloc_cnt = ring->pkt_cnt - ring->rx_bufs_left; |
1da177e4 | 2556 | |
0425b46a | 2557 | block_no1 = ring->rx_curr_get_info.block_index; |
1da177e4 | 2558 | while (alloc_tab < alloc_cnt) { |
0425b46a | 2559 | block_no = ring->rx_curr_put_info.block_index; |
1da177e4 | 2560 | |
0425b46a SH |
2561 | off = ring->rx_curr_put_info.offset; |
2562 | ||
2563 | rxdp = ring->rx_blocks[block_no].rxds[off].virt_addr; | |
2564 | ||
2565 | rxd_index = off + 1; | |
2566 | if (block_no) | |
2567 | rxd_index += (block_no * ring->rxd_count); | |
da6971d8 | 2568 | |
0425b46a SH |
2569 | if ((block_no == block_no1) && |
2570 | (off == ring->rx_curr_get_info.offset) && | |
2571 | (rxdp->Host_Control)) { | |
da6971d8 | 2572 | DBG_PRINT(INTR_DBG, "%s: Get and Put", |
0425b46a | 2573 | ring->dev->name); |
1da177e4 LT |
2574 | DBG_PRINT(INTR_DBG, " info equated\n"); |
2575 | goto end; | |
2576 | } | |
0425b46a SH |
2577 | if (off && (off == ring->rxd_count)) { |
2578 | ring->rx_curr_put_info.block_index++; | |
2579 | if (ring->rx_curr_put_info.block_index == | |
2580 | ring->block_count) | |
2581 | ring->rx_curr_put_info.block_index = 0; | |
2582 | block_no = ring->rx_curr_put_info.block_index; | |
2583 | off = 0; | |
2584 | ring->rx_curr_put_info.offset = off; | |
2585 | rxdp = ring->rx_blocks[block_no].block_virt_addr; | |
1da177e4 | 2586 | DBG_PRINT(INTR_DBG, "%s: Next block at: %p\n", |
0425b46a SH |
2587 | ring->dev->name, rxdp); |
2588 | ||
1da177e4 | 2589 | } |
c9fcbf47 | 2590 | |
da6971d8 | 2591 | if ((rxdp->Control_1 & RXD_OWN_XENA) && |
0425b46a | 2592 | ((ring->rxd_mode == RXD_MODE_3B) && |
b7b5a128 | 2593 | (rxdp->Control_2 & s2BIT(0)))) { |
0425b46a | 2594 | ring->rx_curr_put_info.offset = off; |
1da177e4 LT |
2595 | goto end; |
2596 | } | |
da6971d8 | 2597 | /* calculate size of skb based on ring mode */ |
0425b46a | 2598 | size = ring->mtu + HEADER_ETHERNET_II_802_3_SIZE + |
da6971d8 | 2599 | HEADER_802_2_SIZE + HEADER_SNAP_SIZE; |
0425b46a | 2600 | if (ring->rxd_mode == RXD_MODE_1) |
da6971d8 | 2601 | size += NET_IP_ALIGN; |
da6971d8 | 2602 | else |
0425b46a | 2603 | size = ring->mtu + ALIGN_SIZE + BUF0_LEN + 4; |
1da177e4 | 2604 | |
da6971d8 AR |
2605 | /* allocate skb */ |
2606 | skb = dev_alloc_skb(size); | |
2607 | if(!skb) { | |
0425b46a | 2608 | DBG_PRINT(INFO_DBG, "%s: Out of ", ring->dev->name); |
0c61ed5f | 2609 | DBG_PRINT(INFO_DBG, "memory to allocate SKBs\n"); |
303bcb4b K |
2610 | if (first_rxdp) { |
2611 | wmb(); | |
2612 | first_rxdp->Control_1 |= RXD_OWN_XENA; | |
2613 | } | |
0425b46a SH |
2614 | stats->mem_alloc_fail_cnt++; |
2615 | ||
da6971d8 AR |
2616 | return -ENOMEM ; |
2617 | } | |
0425b46a SH |
2618 | stats->mem_allocated += skb->truesize; |
2619 | ||
2620 | if (ring->rxd_mode == RXD_MODE_1) { | |
da6971d8 | 2621 | /* 1 buffer mode - normal operation mode */ |
6d517a27 | 2622 | rxdp1 = (struct RxD1*)rxdp; |
1ee6dd77 | 2623 | memset(rxdp, 0, sizeof(struct RxD1)); |
da6971d8 | 2624 | skb_reserve(skb, NET_IP_ALIGN); |
6d517a27 | 2625 | rxdp1->Buffer0_ptr = pci_map_single |
0425b46a | 2626 | (ring->pdev, skb->data, size - NET_IP_ALIGN, |
863c11a9 | 2627 | PCI_DMA_FROMDEVICE); |
64c42f69 | 2628 | if(pci_dma_mapping_error(rxdp1->Buffer0_ptr)) |
491abf25 VP |
2629 | goto pci_map_failed; |
2630 | ||
8a4bdbaa | 2631 | rxdp->Control_2 = |
491976b2 | 2632 | SET_BUFFER0_SIZE_1(size - NET_IP_ALIGN); |
0425b46a SH |
2633 | rxdp->Host_Control = (unsigned long) (skb); |
2634 | } else if (ring->rxd_mode == RXD_MODE_3B) { | |
da6971d8 | 2635 | /* |
6d517a27 VP |
2636 | * 2 buffer mode - |
2637 | * 2 buffer mode provides 128 | |
da6971d8 | 2638 | * byte aligned receive buffers. |
da6971d8 AR |
2639 | */ |
2640 | ||
6d517a27 | 2641 | rxdp3 = (struct RxD3*)rxdp; |
491976b2 | 2642 | /* save buffer pointers to avoid frequent dma mapping */ |
6d517a27 VP |
2643 | Buffer0_ptr = rxdp3->Buffer0_ptr; |
2644 | Buffer1_ptr = rxdp3->Buffer1_ptr; | |
1ee6dd77 | 2645 | memset(rxdp, 0, sizeof(struct RxD3)); |
363dc367 | 2646 | /* restore the buffer pointers for dma sync*/ |
6d517a27 VP |
2647 | rxdp3->Buffer0_ptr = Buffer0_ptr; |
2648 | rxdp3->Buffer1_ptr = Buffer1_ptr; | |
363dc367 | 2649 | |
0425b46a | 2650 | ba = &ring->ba[block_no][off]; |
da6971d8 AR |
2651 | skb_reserve(skb, BUF0_LEN); |
2652 | tmp = (u64)(unsigned long) skb->data; | |
2653 | tmp += ALIGN_SIZE; | |
2654 | tmp &= ~ALIGN_SIZE; | |
2655 | skb->data = (void *) (unsigned long)tmp; | |
27a884dc | 2656 | skb_reset_tail_pointer(skb); |
da6971d8 | 2657 | |
64c42f69 | 2658 | /* AK: check is wrong. 0 can be valid dma address */ |
6d517a27 VP |
2659 | if (!(rxdp3->Buffer0_ptr)) |
2660 | rxdp3->Buffer0_ptr = | |
0425b46a SH |
2661 | pci_map_single(ring->pdev, ba->ba_0, |
2662 | BUF0_LEN, PCI_DMA_FROMDEVICE); | |
75c30b13 | 2663 | else |
0425b46a | 2664 | pci_dma_sync_single_for_device(ring->pdev, |
6d517a27 | 2665 | (dma_addr_t) rxdp3->Buffer0_ptr, |
75c30b13 | 2666 | BUF0_LEN, PCI_DMA_FROMDEVICE); |
64c42f69 | 2667 | if (pci_dma_mapping_error(rxdp3->Buffer0_ptr)) |
491abf25 VP |
2668 | goto pci_map_failed; |
2669 | ||
da6971d8 | 2670 | rxdp->Control_2 = SET_BUFFER0_SIZE_3(BUF0_LEN); |
0425b46a | 2671 | if (ring->rxd_mode == RXD_MODE_3B) { |
da6971d8 AR |
2672 | /* Two buffer mode */ |
2673 | ||
2674 | /* | |
6aa20a22 | 2675 | * Buffer2 will have L3/L4 header plus |
da6971d8 AR |
2676 | * L4 payload |
2677 | */ | |
6d517a27 | 2678 | rxdp3->Buffer2_ptr = pci_map_single |
0425b46a | 2679 | (ring->pdev, skb->data, ring->mtu + 4, |
da6971d8 AR |
2680 | PCI_DMA_FROMDEVICE); |
2681 | ||
64c42f69 | 2682 | if (pci_dma_mapping_error(rxdp3->Buffer2_ptr)) |
491abf25 VP |
2683 | goto pci_map_failed; |
2684 | ||
64c42f69 | 2685 | /* AK: check is wrong */ |
0425b46a SH |
2686 | if (!rxdp3->Buffer1_ptr) |
2687 | rxdp3->Buffer1_ptr = | |
2688 | pci_map_single(ring->pdev, | |
75c30b13 AR |
2689 | ba->ba_1, BUF1_LEN, |
2690 | PCI_DMA_FROMDEVICE); | |
0425b46a | 2691 | |
64c42f69 | 2692 | if (pci_dma_mapping_error(rxdp3->Buffer1_ptr)) { |
491abf25 | 2693 | pci_unmap_single |
0425b46a SH |
2694 | (ring->pdev, |
2695 | (dma_addr_t)(unsigned long) | |
2696 | skb->data, | |
2697 | ring->mtu + 4, | |
491abf25 VP |
2698 | PCI_DMA_FROMDEVICE); |
2699 | goto pci_map_failed; | |
75c30b13 | 2700 | } |
da6971d8 AR |
2701 | rxdp->Control_2 |= SET_BUFFER1_SIZE_3(1); |
2702 | rxdp->Control_2 |= SET_BUFFER2_SIZE_3 | |
0425b46a | 2703 | (ring->mtu + 4); |
da6971d8 | 2704 | } |
b7b5a128 | 2705 | rxdp->Control_2 |= s2BIT(0); |
0425b46a | 2706 | rxdp->Host_Control = (unsigned long) (skb); |
1da177e4 | 2707 | } |
303bcb4b K |
2708 | if (alloc_tab & ((1 << rxsync_frequency) - 1)) |
2709 | rxdp->Control_1 |= RXD_OWN_XENA; | |
1da177e4 | 2710 | off++; |
0425b46a | 2711 | if (off == (ring->rxd_count + 1)) |
da6971d8 | 2712 | off = 0; |
0425b46a | 2713 | ring->rx_curr_put_info.offset = off; |
20346722 | 2714 | |
da6971d8 | 2715 | rxdp->Control_2 |= SET_RXD_MARKER; |
303bcb4b K |
2716 | if (!(alloc_tab & ((1 << rxsync_frequency) - 1))) { |
2717 | if (first_rxdp) { | |
2718 | wmb(); | |
2719 | first_rxdp->Control_1 |= RXD_OWN_XENA; | |
2720 | } | |
2721 | first_rxdp = rxdp; | |
2722 | } | |
0425b46a | 2723 | ring->rx_bufs_left += 1; |
1da177e4 LT |
2724 | alloc_tab++; |
2725 | } | |
2726 | ||
2727 | end: | |
303bcb4b K |
2728 | /* Transfer ownership of first descriptor to adapter just before |
2729 | * exiting. Before that, use memory barrier so that ownership | |
2730 | * and other fields are seen by adapter correctly. | |
2731 | */ | |
2732 | if (first_rxdp) { | |
2733 | wmb(); | |
2734 | first_rxdp->Control_1 |= RXD_OWN_XENA; | |
2735 | } | |
2736 | ||
1da177e4 | 2737 | return SUCCESS; |
491abf25 VP |
2738 | pci_map_failed: |
2739 | stats->pci_map_fail_cnt++; | |
2740 | stats->mem_freed += skb->truesize; | |
2741 | dev_kfree_skb_irq(skb); | |
2742 | return -ENOMEM; | |
1da177e4 LT |
2743 | } |
2744 | ||
da6971d8 AR |
2745 | static void free_rxd_blk(struct s2io_nic *sp, int ring_no, int blk) |
2746 | { | |
2747 | struct net_device *dev = sp->dev; | |
2748 | int j; | |
2749 | struct sk_buff *skb; | |
1ee6dd77 RB |
2750 | struct RxD_t *rxdp; |
2751 | struct mac_info *mac_control; | |
2752 | struct buffAdd *ba; | |
6d517a27 VP |
2753 | struct RxD1 *rxdp1; |
2754 | struct RxD3 *rxdp3; | |
da6971d8 AR |
2755 | |
2756 | mac_control = &sp->mac_control; | |
2757 | for (j = 0 ; j < rxd_count[sp->rxd_mode]; j++) { | |
2758 | rxdp = mac_control->rings[ring_no]. | |
2759 | rx_blocks[blk].rxds[j].virt_addr; | |
2760 | skb = (struct sk_buff *) | |
2761 | ((unsigned long) rxdp->Host_Control); | |
2762 | if (!skb) { | |
2763 | continue; | |
2764 | } | |
2765 | if (sp->rxd_mode == RXD_MODE_1) { | |
6d517a27 | 2766 | rxdp1 = (struct RxD1*)rxdp; |
da6971d8 | 2767 | pci_unmap_single(sp->pdev, (dma_addr_t) |
6d517a27 VP |
2768 | rxdp1->Buffer0_ptr, |
2769 | dev->mtu + | |
2770 | HEADER_ETHERNET_II_802_3_SIZE | |
2771 | + HEADER_802_2_SIZE + | |
2772 | HEADER_SNAP_SIZE, | |
2773 | PCI_DMA_FROMDEVICE); | |
1ee6dd77 | 2774 | memset(rxdp, 0, sizeof(struct RxD1)); |
da6971d8 | 2775 | } else if(sp->rxd_mode == RXD_MODE_3B) { |
6d517a27 | 2776 | rxdp3 = (struct RxD3*)rxdp; |
da6971d8 AR |
2777 | ba = &mac_control->rings[ring_no]. |
2778 | ba[blk][j]; | |
2779 | pci_unmap_single(sp->pdev, (dma_addr_t) | |
6d517a27 VP |
2780 | rxdp3->Buffer0_ptr, |
2781 | BUF0_LEN, | |
da6971d8 AR |
2782 | PCI_DMA_FROMDEVICE); |
2783 | pci_unmap_single(sp->pdev, (dma_addr_t) | |
6d517a27 VP |
2784 | rxdp3->Buffer1_ptr, |
2785 | BUF1_LEN, | |
da6971d8 AR |
2786 | PCI_DMA_FROMDEVICE); |
2787 | pci_unmap_single(sp->pdev, (dma_addr_t) | |
6d517a27 VP |
2788 | rxdp3->Buffer2_ptr, |
2789 | dev->mtu + 4, | |
da6971d8 | 2790 | PCI_DMA_FROMDEVICE); |
1ee6dd77 | 2791 | memset(rxdp, 0, sizeof(struct RxD3)); |
da6971d8 | 2792 | } |
491976b2 | 2793 | sp->mac_control.stats_info->sw_stat.mem_freed += skb->truesize; |
da6971d8 | 2794 | dev_kfree_skb(skb); |
0425b46a | 2795 | mac_control->rings[ring_no].rx_bufs_left -= 1; |
da6971d8 AR |
2796 | } |
2797 | } | |
2798 | ||
1da177e4 | 2799 | /** |
20346722 | 2800 | * free_rx_buffers - Frees all Rx buffers |
1da177e4 | 2801 | * @sp: device private variable. |
20346722 | 2802 | * Description: |
1da177e4 LT |
2803 | * This function will free all Rx buffers allocated by host. |
2804 | * Return Value: | |
2805 | * NONE. | |
2806 | */ | |
2807 | ||
2808 | static void free_rx_buffers(struct s2io_nic *sp) | |
2809 | { | |
2810 | struct net_device *dev = sp->dev; | |
da6971d8 | 2811 | int i, blk = 0, buf_cnt = 0; |
1ee6dd77 | 2812 | struct mac_info *mac_control; |
1da177e4 | 2813 | struct config_param *config; |
1da177e4 LT |
2814 | |
2815 | mac_control = &sp->mac_control; | |
2816 | config = &sp->config; | |
2817 | ||
2818 | for (i = 0; i < config->rx_ring_num; i++) { | |
da6971d8 AR |
2819 | for (blk = 0; blk < rx_ring_sz[i]; blk++) |
2820 | free_rxd_blk(sp,i,blk); | |
1da177e4 | 2821 | |
20346722 K |
2822 | mac_control->rings[i].rx_curr_put_info.block_index = 0; |
2823 | mac_control->rings[i].rx_curr_get_info.block_index = 0; | |
2824 | mac_control->rings[i].rx_curr_put_info.offset = 0; | |
2825 | mac_control->rings[i].rx_curr_get_info.offset = 0; | |
0425b46a | 2826 | mac_control->rings[i].rx_bufs_left = 0; |
1da177e4 LT |
2827 | DBG_PRINT(INIT_DBG, "%s:Freed 0x%x Rx Buffers on ring%d\n", |
2828 | dev->name, buf_cnt, i); | |
2829 | } | |
2830 | } | |
2831 | ||
f61e0a35 SH |
2832 | static int s2io_chk_rx_buffers(struct ring_info *ring) |
2833 | { | |
2834 | if (fill_rx_buffers(ring) == -ENOMEM) { | |
2835 | DBG_PRINT(INFO_DBG, "%s:Out of memory", ring->dev->name); | |
2836 | DBG_PRINT(INFO_DBG, " in Rx Intr!!\n"); | |
2837 | } | |
2838 | return 0; | |
2839 | } | |
2840 | ||
1da177e4 LT |
2841 | /** |
2842 | * s2io_poll - Rx interrupt handler for NAPI support | |
bea3348e | 2843 | * @napi : pointer to the napi structure. |
20346722 | 2844 | * @budget : The number of packets that were budgeted to be processed |
1da177e4 LT |
2845 | * during one pass through the 'Poll" function. |
2846 | * Description: | |
2847 | * Comes into picture only if NAPI support has been incorporated. It does | |
2848 | * the same thing that rx_intr_handler does, but not in a interrupt context | |
2849 | * also It will process only a given number of packets. | |
2850 | * Return value: | |
2851 | * 0 on success and 1 if there are No Rx packets to be processed. | |
2852 | */ | |
2853 | ||
f61e0a35 | 2854 | static int s2io_poll_msix(struct napi_struct *napi, int budget) |
1da177e4 | 2855 | { |
f61e0a35 SH |
2856 | struct ring_info *ring = container_of(napi, struct ring_info, napi); |
2857 | struct net_device *dev = ring->dev; | |
1da177e4 | 2858 | struct config_param *config; |
f61e0a35 SH |
2859 | struct mac_info *mac_control; |
2860 | int pkts_processed = 0; | |
1a79d1c3 AV |
2861 | u8 __iomem *addr = NULL; |
2862 | u8 val8 = 0; | |
f61e0a35 | 2863 | struct s2io_nic *nic = dev->priv; |
1ee6dd77 | 2864 | struct XENA_dev_config __iomem *bar0 = nic->bar0; |
f61e0a35 | 2865 | int budget_org = budget; |
1da177e4 | 2866 | |
1da177e4 | 2867 | config = &nic->config; |
f61e0a35 | 2868 | mac_control = &nic->mac_control; |
1da177e4 | 2869 | |
f61e0a35 SH |
2870 | if (unlikely(!is_s2io_card_up(nic))) |
2871 | return 0; | |
1da177e4 | 2872 | |
f61e0a35 SH |
2873 | pkts_processed = rx_intr_handler(ring, budget); |
2874 | s2io_chk_rx_buffers(ring); | |
1da177e4 | 2875 | |
f61e0a35 SH |
2876 | if (pkts_processed < budget_org) { |
2877 | netif_rx_complete(dev, napi); | |
2878 | /*Re Enable MSI-Rx Vector*/ | |
1a79d1c3 | 2879 | addr = (u8 __iomem *)&bar0->xmsi_mask_reg; |
f61e0a35 SH |
2880 | addr += 7 - ring->ring_no; |
2881 | val8 = (ring->ring_no == 0) ? 0x3f : 0xbf; | |
2882 | writeb(val8, addr); | |
2883 | val8 = readb(addr); | |
1da177e4 | 2884 | } |
f61e0a35 SH |
2885 | return pkts_processed; |
2886 | } | |
2887 | static int s2io_poll_inta(struct napi_struct *napi, int budget) | |
2888 | { | |
2889 | struct s2io_nic *nic = container_of(napi, struct s2io_nic, napi); | |
2890 | struct ring_info *ring; | |
2891 | struct net_device *dev = nic->dev; | |
2892 | struct config_param *config; | |
2893 | struct mac_info *mac_control; | |
2894 | int pkts_processed = 0; | |
2895 | int ring_pkts_processed, i; | |
2896 | struct XENA_dev_config __iomem *bar0 = nic->bar0; | |
2897 | int budget_org = budget; | |
1da177e4 | 2898 | |
f61e0a35 SH |
2899 | config = &nic->config; |
2900 | mac_control = &nic->mac_control; | |
1da177e4 | 2901 | |
f61e0a35 SH |
2902 | if (unlikely(!is_s2io_card_up(nic))) |
2903 | return 0; | |
1da177e4 | 2904 | |
1da177e4 | 2905 | for (i = 0; i < config->rx_ring_num; i++) { |
f61e0a35 SH |
2906 | ring = &mac_control->rings[i]; |
2907 | ring_pkts_processed = rx_intr_handler(ring, budget); | |
2908 | s2io_chk_rx_buffers(ring); | |
2909 | pkts_processed += ring_pkts_processed; | |
2910 | budget -= ring_pkts_processed; | |
2911 | if (budget <= 0) | |
1da177e4 | 2912 | break; |
1da177e4 | 2913 | } |
f61e0a35 SH |
2914 | if (pkts_processed < budget_org) { |
2915 | netif_rx_complete(dev, napi); | |
2916 | /* Re enable the Rx interrupts for the ring */ | |
2917 | writeq(0, &bar0->rx_traffic_mask); | |
2918 | readl(&bar0->rx_traffic_mask); | |
2919 | } | |
2920 | return pkts_processed; | |
1da177e4 | 2921 | } |
20346722 | 2922 | |
b41477f3 | 2923 | #ifdef CONFIG_NET_POLL_CONTROLLER |
612eff0e | 2924 | /** |
b41477f3 | 2925 | * s2io_netpoll - netpoll event handler entry point |
612eff0e BH |
2926 | * @dev : pointer to the device structure. |
2927 | * Description: | |
b41477f3 AR |
2928 | * This function will be called by upper layer to check for events on the |
2929 | * interface in situations where interrupts are disabled. It is used for | |
2930 | * specific in-kernel networking tasks, such as remote consoles and kernel | |
2931 | * debugging over the network (example netdump in RedHat). | |
612eff0e | 2932 | */ |
612eff0e BH |
2933 | static void s2io_netpoll(struct net_device *dev) |
2934 | { | |
1ee6dd77 RB |
2935 | struct s2io_nic *nic = dev->priv; |
2936 | struct mac_info *mac_control; | |
612eff0e | 2937 | struct config_param *config; |
1ee6dd77 | 2938 | struct XENA_dev_config __iomem *bar0 = nic->bar0; |
b41477f3 | 2939 | u64 val64 = 0xFFFFFFFFFFFFFFFFULL; |
612eff0e BH |
2940 | int i; |
2941 | ||
d796fdb7 LV |
2942 | if (pci_channel_offline(nic->pdev)) |
2943 | return; | |
2944 | ||
612eff0e BH |
2945 | disable_irq(dev->irq); |
2946 | ||
612eff0e BH |
2947 | mac_control = &nic->mac_control; |
2948 | config = &nic->config; | |
2949 | ||
612eff0e | 2950 | writeq(val64, &bar0->rx_traffic_int); |
b41477f3 AR |
2951 | writeq(val64, &bar0->tx_traffic_int); |
2952 | ||
6aa20a22 | 2953 | /* we need to free up the transmitted skbufs or else netpoll will |
b41477f3 AR |
2954 | * run out of skbs and will fail and eventually netpoll application such |
2955 | * as netdump will fail. | |
2956 | */ | |
2957 | for (i = 0; i < config->tx_fifo_num; i++) | |
2958 | tx_intr_handler(&mac_control->fifos[i]); | |
612eff0e | 2959 | |
b41477f3 | 2960 | /* check for received packet and indicate up to network */ |
612eff0e | 2961 | for (i = 0; i < config->rx_ring_num; i++) |
f61e0a35 | 2962 | rx_intr_handler(&mac_control->rings[i], 0); |
612eff0e BH |
2963 | |
2964 | for (i = 0; i < config->rx_ring_num; i++) { | |
0425b46a | 2965 | if (fill_rx_buffers(&mac_control->rings[i]) == -ENOMEM) { |
0c61ed5f RV |
2966 | DBG_PRINT(INFO_DBG, "%s:Out of memory", dev->name); |
2967 | DBG_PRINT(INFO_DBG, " in Rx Netpoll!!\n"); | |
612eff0e BH |
2968 | break; |
2969 | } | |
2970 | } | |
612eff0e BH |
2971 | enable_irq(dev->irq); |
2972 | return; | |
2973 | } | |
2974 | #endif | |
2975 | ||
20346722 | 2976 | /** |
1da177e4 | 2977 | * rx_intr_handler - Rx interrupt handler |
f61e0a35 SH |
2978 | * @ring_info: per ring structure. |
2979 | * @budget: budget for napi processing. | |
20346722 K |
2980 | * Description: |
2981 | * If the interrupt is because of a received frame or if the | |
1da177e4 | 2982 | * receive ring contains fresh as yet un-processed frames,this function is |
20346722 K |
2983 | * called. It picks out the RxD at which place the last Rx processing had |
2984 | * stopped and sends the skb to the OSM's Rx handler and then increments | |
1da177e4 LT |
2985 | * the offset. |
2986 | * Return Value: | |
f61e0a35 | 2987 | * No. of napi packets processed. |
1da177e4 | 2988 | */ |
f61e0a35 | 2989 | static int rx_intr_handler(struct ring_info *ring_data, int budget) |
1da177e4 | 2990 | { |
c9fcbf47 | 2991 | int get_block, put_block; |
1ee6dd77 RB |
2992 | struct rx_curr_get_info get_info, put_info; |
2993 | struct RxD_t *rxdp; | |
1da177e4 | 2994 | struct sk_buff *skb; |
f61e0a35 | 2995 | int pkt_cnt = 0, napi_pkts = 0; |
7d3d0439 | 2996 | int i; |
6d517a27 VP |
2997 | struct RxD1* rxdp1; |
2998 | struct RxD3* rxdp3; | |
7d3d0439 | 2999 | |
20346722 K |
3000 | get_info = ring_data->rx_curr_get_info; |
3001 | get_block = get_info.block_index; | |
1ee6dd77 | 3002 | memcpy(&put_info, &ring_data->rx_curr_put_info, sizeof(put_info)); |
20346722 | 3003 | put_block = put_info.block_index; |
da6971d8 | 3004 | rxdp = ring_data->rx_blocks[get_block].rxds[get_info.offset].virt_addr; |
db874e65 | 3005 | |
da6971d8 | 3006 | while (RXD_IS_UP2DT(rxdp)) { |
db874e65 SS |
3007 | /* |
3008 | * If your are next to put index then it's | |
3009 | * FIFO full condition | |
3010 | */ | |
da6971d8 AR |
3011 | if ((get_block == put_block) && |
3012 | (get_info.offset + 1) == put_info.offset) { | |
0425b46a SH |
3013 | DBG_PRINT(INTR_DBG, "%s: Ring Full\n", |
3014 | ring_data->dev->name); | |
da6971d8 AR |
3015 | break; |
3016 | } | |
20346722 K |
3017 | skb = (struct sk_buff *) ((unsigned long)rxdp->Host_Control); |
3018 | if (skb == NULL) { | |
3019 | DBG_PRINT(ERR_DBG, "%s: The skb is ", | |
0425b46a | 3020 | ring_data->dev->name); |
20346722 | 3021 | DBG_PRINT(ERR_DBG, "Null in Rx Intr\n"); |
f61e0a35 | 3022 | return 0; |
1da177e4 | 3023 | } |
0425b46a | 3024 | if (ring_data->rxd_mode == RXD_MODE_1) { |
6d517a27 | 3025 | rxdp1 = (struct RxD1*)rxdp; |
0425b46a | 3026 | pci_unmap_single(ring_data->pdev, (dma_addr_t) |
6d517a27 | 3027 | rxdp1->Buffer0_ptr, |
0425b46a | 3028 | ring_data->mtu + |
6d517a27 VP |
3029 | HEADER_ETHERNET_II_802_3_SIZE + |
3030 | HEADER_802_2_SIZE + | |
3031 | HEADER_SNAP_SIZE, | |
3032 | PCI_DMA_FROMDEVICE); | |
0425b46a | 3033 | } else if (ring_data->rxd_mode == RXD_MODE_3B) { |
6d517a27 | 3034 | rxdp3 = (struct RxD3*)rxdp; |
0425b46a | 3035 | pci_dma_sync_single_for_cpu(ring_data->pdev, (dma_addr_t) |
6d517a27 VP |
3036 | rxdp3->Buffer0_ptr, |
3037 | BUF0_LEN, PCI_DMA_FROMDEVICE); | |
0425b46a | 3038 | pci_unmap_single(ring_data->pdev, (dma_addr_t) |
6d517a27 | 3039 | rxdp3->Buffer2_ptr, |
0425b46a | 3040 | ring_data->mtu + 4, |
6d517a27 | 3041 | PCI_DMA_FROMDEVICE); |
da6971d8 | 3042 | } |
863c11a9 | 3043 | prefetch(skb->data); |
20346722 K |
3044 | rx_osm_handler(ring_data, rxdp); |
3045 | get_info.offset++; | |
da6971d8 AR |
3046 | ring_data->rx_curr_get_info.offset = get_info.offset; |
3047 | rxdp = ring_data->rx_blocks[get_block]. | |
3048 | rxds[get_info.offset].virt_addr; | |
0425b46a | 3049 | if (get_info.offset == rxd_count[ring_data->rxd_mode]) { |
20346722 | 3050 | get_info.offset = 0; |
da6971d8 | 3051 | ring_data->rx_curr_get_info.offset = get_info.offset; |
20346722 | 3052 | get_block++; |
da6971d8 AR |
3053 | if (get_block == ring_data->block_count) |
3054 | get_block = 0; | |
3055 | ring_data->rx_curr_get_info.block_index = get_block; | |
20346722 K |
3056 | rxdp = ring_data->rx_blocks[get_block].block_virt_addr; |
3057 | } | |
1da177e4 | 3058 | |
f61e0a35 SH |
3059 | if (ring_data->nic->config.napi) { |
3060 | budget--; | |
3061 | napi_pkts++; | |
3062 | if (!budget) | |
0425b46a SH |
3063 | break; |
3064 | } | |
20346722 | 3065 | pkt_cnt++; |
1da177e4 LT |
3066 | if ((indicate_max_pkts) && (pkt_cnt > indicate_max_pkts)) |
3067 | break; | |
3068 | } | |
0425b46a | 3069 | if (ring_data->lro) { |
7d3d0439 RA |
3070 | /* Clear all LRO sessions before exiting */ |
3071 | for (i=0; i<MAX_LRO_SESSIONS; i++) { | |
0425b46a | 3072 | struct lro *lro = &ring_data->lro0_n[i]; |
7d3d0439 | 3073 | if (lro->in_use) { |
0425b46a | 3074 | update_L3L4_header(ring_data->nic, lro); |
cdb5bf02 | 3075 | queue_rx_frame(lro->parent, lro->vlan_tag); |
7d3d0439 RA |
3076 | clear_lro_session(lro); |
3077 | } | |
3078 | } | |
3079 | } | |
f61e0a35 | 3080 | return(napi_pkts); |
1da177e4 | 3081 | } |
20346722 K |
3082 | |
3083 | /** | |
1da177e4 LT |
3084 | * tx_intr_handler - Transmit interrupt handler |
3085 | * @nic : device private variable | |
20346722 K |
3086 | * Description: |
3087 | * If an interrupt was raised to indicate DMA complete of the | |
3088 | * Tx packet, this function is called. It identifies the last TxD | |
3089 | * whose buffer was freed and frees all skbs whose data have already | |
1da177e4 LT |
3090 | * DMA'ed into the NICs internal memory. |
3091 | * Return Value: | |
3092 | * NONE | |
3093 | */ | |
3094 | ||
1ee6dd77 | 3095 | static void tx_intr_handler(struct fifo_info *fifo_data) |
1da177e4 | 3096 | { |
1ee6dd77 | 3097 | struct s2io_nic *nic = fifo_data->nic; |
1ee6dd77 | 3098 | struct tx_curr_get_info get_info, put_info; |
3a3d5756 | 3099 | struct sk_buff *skb = NULL; |
1ee6dd77 | 3100 | struct TxD *txdlp; |
3a3d5756 | 3101 | int pkt_cnt = 0; |
2fda096d | 3102 | unsigned long flags = 0; |
f9046eb3 | 3103 | u8 err_mask; |
1da177e4 | 3104 | |
2fda096d SR |
3105 | if (!spin_trylock_irqsave(&fifo_data->tx_lock, flags)) |
3106 | return; | |
3107 | ||
20346722 | 3108 | get_info = fifo_data->tx_curr_get_info; |
1ee6dd77 RB |
3109 | memcpy(&put_info, &fifo_data->tx_curr_put_info, sizeof(put_info)); |
3110 | txdlp = (struct TxD *) fifo_data->list_info[get_info.offset]. | |
20346722 K |
3111 | list_virt_addr; |
3112 | while ((!(txdlp->Control_1 & TXD_LIST_OWN_XENA)) && | |
3113 | (get_info.offset != put_info.offset) && | |
3114 | (txdlp->Host_Control)) { | |
3115 | /* Check for TxD errors */ | |
3116 | if (txdlp->Control_1 & TXD_T_CODE) { | |
3117 | unsigned long long err; | |
3118 | err = txdlp->Control_1 & TXD_T_CODE; | |
bd1034f0 AR |
3119 | if (err & 0x1) { |
3120 | nic->mac_control.stats_info->sw_stat. | |
3121 | parity_err_cnt++; | |
3122 | } | |
491976b2 SH |
3123 | |
3124 | /* update t_code statistics */ | |
f9046eb3 OH |
3125 | err_mask = err >> 48; |
3126 | switch(err_mask) { | |
491976b2 SH |
3127 | case 2: |
3128 | nic->mac_control.stats_info->sw_stat. | |
3129 | tx_buf_abort_cnt++; | |
3130 | break; | |
3131 | ||
3132 | case 3: | |
3133 | nic->mac_control.stats_info->sw_stat. | |
3134 | tx_desc_abort_cnt++; | |
3135 | break; | |
3136 | ||
3137 | case 7: | |
3138 | nic->mac_control.stats_info->sw_stat. | |
3139 | tx_parity_err_cnt++; | |
3140 | break; | |
3141 | ||
3142 | case 10: | |
3143 | nic->mac_control.stats_info->sw_stat. | |
3144 | tx_link_loss_cnt++; | |
3145 | break; | |
3146 | ||
3147 | case 15: | |
3148 | nic->mac_control.stats_info->sw_stat. | |
3149 | tx_list_proc_err_cnt++; | |
3150 | break; | |
3151 | } | |
20346722 | 3152 | } |
1da177e4 | 3153 | |
fed5eccd | 3154 | skb = s2io_txdl_getskb(fifo_data, txdlp, get_info.offset); |
20346722 | 3155 | if (skb == NULL) { |
2fda096d | 3156 | spin_unlock_irqrestore(&fifo_data->tx_lock, flags); |
20346722 K |
3157 | DBG_PRINT(ERR_DBG, "%s: Null skb ", |
3158 | __FUNCTION__); | |
3159 | DBG_PRINT(ERR_DBG, "in Tx Free Intr\n"); | |
3160 | return; | |
3161 | } | |
3a3d5756 | 3162 | pkt_cnt++; |
20346722 | 3163 | |
20346722 | 3164 | /* Updating the statistics block */ |
20346722 | 3165 | nic->stats.tx_bytes += skb->len; |
491976b2 | 3166 | nic->mac_control.stats_info->sw_stat.mem_freed += skb->truesize; |
20346722 K |
3167 | dev_kfree_skb_irq(skb); |
3168 | ||
3169 | get_info.offset++; | |
863c11a9 AR |
3170 | if (get_info.offset == get_info.fifo_len + 1) |
3171 | get_info.offset = 0; | |
1ee6dd77 | 3172 | txdlp = (struct TxD *) fifo_data->list_info |
20346722 K |
3173 | [get_info.offset].list_virt_addr; |
3174 | fifo_data->tx_curr_get_info.offset = | |
3175 | get_info.offset; | |
1da177e4 LT |
3176 | } |
3177 | ||
3a3d5756 | 3178 | s2io_wake_tx_queue(fifo_data, pkt_cnt, nic->config.multiq); |
2fda096d SR |
3179 | |
3180 | spin_unlock_irqrestore(&fifo_data->tx_lock, flags); | |
1da177e4 LT |
3181 | } |
3182 | ||
bd1034f0 AR |
3183 | /** |
3184 | * s2io_mdio_write - Function to write in to MDIO registers | |
3185 | * @mmd_type : MMD type value (PMA/PMD/WIS/PCS/PHYXS) | |
3186 | * @addr : address value | |
3187 | * @value : data value | |
3188 | * @dev : pointer to net_device structure | |
3189 | * Description: | |
3190 | * This function is used to write values to the MDIO registers | |
3191 | * NONE | |
3192 | */ | |
3193 | static void s2io_mdio_write(u32 mmd_type, u64 addr, u16 value, struct net_device *dev) | |
3194 | { | |
3195 | u64 val64 = 0x0; | |
1ee6dd77 RB |
3196 | struct s2io_nic *sp = dev->priv; |
3197 | struct XENA_dev_config __iomem *bar0 = sp->bar0; | |
bd1034f0 AR |
3198 | |
3199 | //address transaction | |
3200 | val64 = val64 | MDIO_MMD_INDX_ADDR(addr) | |
3201 | | MDIO_MMD_DEV_ADDR(mmd_type) | |
3202 | | MDIO_MMS_PRT_ADDR(0x0); | |
3203 | writeq(val64, &bar0->mdio_control); | |
3204 | val64 = val64 | MDIO_CTRL_START_TRANS(0xE); | |
3205 | writeq(val64, &bar0->mdio_control); | |
3206 | udelay(100); | |
3207 | ||
3208 | //Data transaction | |
3209 | val64 = 0x0; | |
3210 | val64 = val64 | MDIO_MMD_INDX_ADDR(addr) | |
3211 | | MDIO_MMD_DEV_ADDR(mmd_type) | |
3212 | | MDIO_MMS_PRT_ADDR(0x0) | |
3213 | | MDIO_MDIO_DATA(value) | |
3214 | | MDIO_OP(MDIO_OP_WRITE_TRANS); | |
3215 | writeq(val64, &bar0->mdio_control); | |
3216 | val64 = val64 | MDIO_CTRL_START_TRANS(0xE); | |
3217 | writeq(val64, &bar0->mdio_control); | |
3218 | udelay(100); | |
3219 | ||
3220 | val64 = 0x0; | |
3221 | val64 = val64 | MDIO_MMD_INDX_ADDR(addr) | |
3222 | | MDIO_MMD_DEV_ADDR(mmd_type) | |
3223 | | MDIO_MMS_PRT_ADDR(0x0) | |
3224 | | MDIO_OP(MDIO_OP_READ_TRANS); | |
3225 | writeq(val64, &bar0->mdio_control); | |
3226 | val64 = val64 | MDIO_CTRL_START_TRANS(0xE); | |
3227 | writeq(val64, &bar0->mdio_control); | |
3228 | udelay(100); | |
3229 | ||
3230 | } | |
3231 | ||
3232 | /** | |
3233 | * s2io_mdio_read - Function to write in to MDIO registers | |
3234 | * @mmd_type : MMD type value (PMA/PMD/WIS/PCS/PHYXS) | |
3235 | * @addr : address value | |
3236 | * @dev : pointer to net_device structure | |
3237 | * Description: | |
3238 | * This function is used to read values to the MDIO registers | |
3239 | * NONE | |
3240 | */ | |
3241 | static u64 s2io_mdio_read(u32 mmd_type, u64 addr, struct net_device *dev) | |
3242 | { | |
3243 | u64 val64 = 0x0; | |
3244 | u64 rval64 = 0x0; | |
1ee6dd77 RB |
3245 | struct s2io_nic *sp = dev->priv; |
3246 | struct XENA_dev_config __iomem *bar0 = sp->bar0; | |
bd1034f0 AR |
3247 | |
3248 | /* address transaction */ | |
3249 | val64 = val64 | MDIO_MMD_INDX_ADDR(addr) | |
3250 | | MDIO_MMD_DEV_ADDR(mmd_type) | |
3251 | | MDIO_MMS_PRT_ADDR(0x0); | |
3252 | writeq(val64, &bar0->mdio_control); | |
3253 | val64 = val64 | MDIO_CTRL_START_TRANS(0xE); | |
3254 | writeq(val64, &bar0->mdio_control); | |
3255 | udelay(100); | |
3256 | ||
3257 | /* Data transaction */ | |
3258 | val64 = 0x0; | |
3259 | val64 = val64 | MDIO_MMD_INDX_ADDR(addr) | |
3260 | | MDIO_MMD_DEV_ADDR(mmd_type) | |
3261 | | MDIO_MMS_PRT_ADDR(0x0) | |
3262 | | MDIO_OP(MDIO_OP_READ_TRANS); | |
3263 | writeq(val64, &bar0->mdio_control); | |
3264 | val64 = val64 | MDIO_CTRL_START_TRANS(0xE); | |
3265 | writeq(val64, &bar0->mdio_control); | |
3266 | udelay(100); | |
3267 | ||
3268 | /* Read the value from regs */ | |
3269 | rval64 = readq(&bar0->mdio_control); | |
3270 | rval64 = rval64 & 0xFFFF0000; | |
3271 | rval64 = rval64 >> 16; | |
3272 | return rval64; | |
3273 | } | |
3274 | /** | |
3275 | * s2io_chk_xpak_counter - Function to check the status of the xpak counters | |
3276 | * @counter : couter value to be updated | |
3277 | * @flag : flag to indicate the status | |
3278 | * @type : counter type | |
3279 | * Description: | |
3280 | * This function is to check the status of the xpak counters value | |
3281 | * NONE | |
3282 | */ | |
3283 | ||
3284 | static void s2io_chk_xpak_counter(u64 *counter, u64 * regs_stat, u32 index, u16 flag, u16 type) | |
3285 | { | |
3286 | u64 mask = 0x3; | |
3287 | u64 val64; | |
3288 | int i; | |
3289 | for(i = 0; i <index; i++) | |
3290 | mask = mask << 0x2; | |
3291 | ||
3292 | if(flag > 0) | |
3293 | { | |
3294 | *counter = *counter + 1; | |
3295 | val64 = *regs_stat & mask; | |
3296 | val64 = val64 >> (index * 0x2); | |
3297 | val64 = val64 + 1; | |
3298 | if(val64 == 3) | |
3299 | { | |
3300 | switch(type) | |
3301 | { | |
3302 | case 1: | |
3303 | DBG_PRINT(ERR_DBG, "Take Xframe NIC out of " | |
3304 | "service. Excessive temperatures may " | |
3305 | "result in premature transceiver " | |
3306 | "failure \n"); | |
3307 | break; | |
3308 | case 2: | |
3309 | DBG_PRINT(ERR_DBG, "Take Xframe NIC out of " | |
3310 | "service Excessive bias currents may " | |
3311 | "indicate imminent laser diode " | |
3312 | "failure \n"); | |
3313 | break; | |
3314 | case 3: | |
3315 | DBG_PRINT(ERR_DBG, "Take Xframe NIC out of " | |
3316 | "service Excessive laser output " | |
3317 | "power may saturate far-end " | |
3318 | "receiver\n"); | |
3319 | break; | |
3320 | default: | |
3321 | DBG_PRINT(ERR_DBG, "Incorrect XPAK Alarm " | |
3322 | "type \n"); | |
3323 | } | |
3324 | val64 = 0x0; | |
3325 | } | |
3326 | val64 = val64 << (index * 0x2); | |
3327 | *regs_stat = (*regs_stat & (~mask)) | (val64); | |
3328 | ||
3329 | } else { | |
3330 | *regs_stat = *regs_stat & (~mask); | |
3331 | } | |
3332 | } | |
3333 | ||
3334 | /** | |
3335 | * s2io_updt_xpak_counter - Function to update the xpak counters | |
3336 | * @dev : pointer to net_device struct | |
3337 | * Description: | |
3338 | * This function is to upate the status of the xpak counters value | |
3339 | * NONE | |
3340 | */ | |
3341 | static void s2io_updt_xpak_counter(struct net_device *dev) | |
3342 | { | |
3343 | u16 flag = 0x0; | |
3344 | u16 type = 0x0; | |
3345 | u16 val16 = 0x0; | |
3346 | u64 val64 = 0x0; | |
3347 | u64 addr = 0x0; | |
3348 | ||
1ee6dd77 RB |
3349 | struct s2io_nic *sp = dev->priv; |
3350 | struct stat_block *stat_info = sp->mac_control.stats_info; | |
bd1034f0 AR |
3351 | |
3352 | /* Check the communication with the MDIO slave */ | |
3353 | addr = 0x0000; | |
3354 | val64 = 0x0; | |
3355 | val64 = s2io_mdio_read(MDIO_MMD_PMA_DEV_ADDR, addr, dev); | |
3356 | if((val64 == 0xFFFF) || (val64 == 0x0000)) | |
3357 | { | |
3358 | DBG_PRINT(ERR_DBG, "ERR: MDIO slave access failed - " | |
3359 | "Returned %llx\n", (unsigned long long)val64); | |
3360 | return; | |
3361 | } | |
3362 | ||
3363 | /* Check for the expecte value of 2040 at PMA address 0x0000 */ | |
3364 | if(val64 != 0x2040) | |
3365 | { | |
3366 | DBG_PRINT(ERR_DBG, "Incorrect value at PMA address 0x0000 - "); | |
3367 | DBG_PRINT(ERR_DBG, "Returned: %llx- Expected: 0x2040\n", | |
3368 | (unsigned long long)val64); | |
3369 | return; | |
3370 | } | |
3371 | ||
3372 | /* Loading the DOM register to MDIO register */ | |
3373 | addr = 0xA100; | |
3374 | s2io_mdio_write(MDIO_MMD_PMA_DEV_ADDR, addr, val16, dev); | |
3375 | val64 = s2io_mdio_read(MDIO_MMD_PMA_DEV_ADDR, addr, dev); | |
3376 | ||
3377 | /* Reading the Alarm flags */ | |
3378 | addr = 0xA070; | |
3379 | val64 = 0x0; | |
3380 | val64 = s2io_mdio_read(MDIO_MMD_PMA_DEV_ADDR, addr, dev); | |
3381 | ||
3382 | flag = CHECKBIT(val64, 0x7); | |
3383 | type = 1; | |
3384 | s2io_chk_xpak_counter(&stat_info->xpak_stat.alarm_transceiver_temp_high, | |
3385 | &stat_info->xpak_stat.xpak_regs_stat, | |
3386 | 0x0, flag, type); | |
3387 | ||
3388 | if(CHECKBIT(val64, 0x6)) | |
3389 | stat_info->xpak_stat.alarm_transceiver_temp_low++; | |
3390 | ||
3391 | flag = CHECKBIT(val64, 0x3); | |
3392 | type = 2; | |
3393 | s2io_chk_xpak_counter(&stat_info->xpak_stat.alarm_laser_bias_current_high, | |
3394 | &stat_info->xpak_stat.xpak_regs_stat, | |
3395 | 0x2, flag, type); | |
3396 | ||
3397 | if(CHECKBIT(val64, 0x2)) | |
3398 | stat_info->xpak_stat.alarm_laser_bias_current_low++; | |
3399 | ||
3400 | flag = CHECKBIT(val64, 0x1); | |
3401 | type = 3; | |
3402 | s2io_chk_xpak_counter(&stat_info->xpak_stat.alarm_laser_output_power_high, | |
3403 | &stat_info->xpak_stat.xpak_regs_stat, | |
3404 | 0x4, flag, type); | |
3405 | ||
3406 | if(CHECKBIT(val64, 0x0)) | |
3407 | stat_info->xpak_stat.alarm_laser_output_power_low++; | |
3408 | ||
3409 | /* Reading the Warning flags */ | |
3410 | addr = 0xA074; | |
3411 | val64 = 0x0; | |
3412 | val64 = s2io_mdio_read(MDIO_MMD_PMA_DEV_ADDR, addr, dev); | |
3413 | ||
3414 | if(CHECKBIT(val64, 0x7)) | |
3415 | stat_info->xpak_stat.warn_transceiver_temp_high++; | |
3416 | ||
3417 | if(CHECKBIT(val64, 0x6)) | |
3418 | stat_info->xpak_stat.warn_transceiver_temp_low++; | |
3419 | ||
3420 | if(CHECKBIT(val64, 0x3)) | |
3421 | stat_info->xpak_stat.warn_laser_bias_current_high++; | |
3422 | ||
3423 | if(CHECKBIT(val64, 0x2)) | |
3424 | stat_info->xpak_stat.warn_laser_bias_current_low++; | |
3425 | ||
3426 | if(CHECKBIT(val64, 0x1)) | |
3427 | stat_info->xpak_stat.warn_laser_output_power_high++; | |
3428 | ||
3429 | if(CHECKBIT(val64, 0x0)) | |
3430 | stat_info->xpak_stat.warn_laser_output_power_low++; | |
3431 | } | |
3432 | ||
20346722 | 3433 | /** |
1da177e4 | 3434 | * wait_for_cmd_complete - waits for a command to complete. |
20346722 | 3435 | * @sp : private member of the device structure, which is a pointer to the |
1da177e4 | 3436 | * s2io_nic structure. |
20346722 K |
3437 | * Description: Function that waits for a command to Write into RMAC |
3438 | * ADDR DATA registers to be completed and returns either success or | |
3439 | * error depending on whether the command was complete or not. | |
1da177e4 LT |
3440 | * Return value: |
3441 | * SUCCESS on success and FAILURE on failure. | |
3442 | */ | |
3443 | ||
9fc93a41 SS |
3444 | static int wait_for_cmd_complete(void __iomem *addr, u64 busy_bit, |
3445 | int bit_state) | |
1da177e4 | 3446 | { |
9fc93a41 | 3447 | int ret = FAILURE, cnt = 0, delay = 1; |
1da177e4 LT |
3448 | u64 val64; |
3449 | ||
9fc93a41 SS |
3450 | if ((bit_state != S2IO_BIT_RESET) && (bit_state != S2IO_BIT_SET)) |
3451 | return FAILURE; | |
3452 | ||
3453 | do { | |
c92ca04b | 3454 | val64 = readq(addr); |
9fc93a41 SS |
3455 | if (bit_state == S2IO_BIT_RESET) { |
3456 | if (!(val64 & busy_bit)) { | |
3457 | ret = SUCCESS; | |
3458 | break; | |
3459 | } | |
3460 | } else { | |
3461 | if (!(val64 & busy_bit)) { | |
3462 | ret = SUCCESS; | |
3463 | break; | |
3464 | } | |
1da177e4 | 3465 | } |
c92ca04b AR |
3466 | |
3467 | if(in_interrupt()) | |
9fc93a41 | 3468 | mdelay(delay); |
c92ca04b | 3469 | else |
9fc93a41 | 3470 | msleep(delay); |
c92ca04b | 3471 | |
9fc93a41 SS |
3472 | if (++cnt >= 10) |
3473 | delay = 50; | |
3474 | } while (cnt < 20); | |
1da177e4 LT |
3475 | return ret; |
3476 | } | |
19a60522 SS |
3477 | /* |
3478 | * check_pci_device_id - Checks if the device id is supported | |
3479 | * @id : device id | |
3480 | * Description: Function to check if the pci device id is supported by driver. | |
3481 | * Return value: Actual device id if supported else PCI_ANY_ID | |
3482 | */ | |
3483 | static u16 check_pci_device_id(u16 id) | |
3484 | { | |
3485 | switch (id) { | |
3486 | case PCI_DEVICE_ID_HERC_WIN: | |
3487 | case PCI_DEVICE_ID_HERC_UNI: | |
3488 | return XFRAME_II_DEVICE; | |
3489 | case PCI_DEVICE_ID_S2IO_UNI: | |
3490 | case PCI_DEVICE_ID_S2IO_WIN: | |
3491 | return XFRAME_I_DEVICE; | |
3492 | default: | |
3493 | return PCI_ANY_ID; | |
3494 | } | |
3495 | } | |
1da177e4 | 3496 | |
20346722 K |
3497 | /** |
3498 | * s2io_reset - Resets the card. | |
1da177e4 LT |
3499 | * @sp : private member of the device structure. |
3500 | * Description: Function to Reset the card. This function then also | |
20346722 | 3501 | * restores the previously saved PCI configuration space registers as |
1da177e4 LT |
3502 | * the card reset also resets the configuration space. |
3503 | * Return value: | |
3504 | * void. | |
3505 | */ | |
3506 | ||
1ee6dd77 | 3507 | static void s2io_reset(struct s2io_nic * sp) |
1da177e4 | 3508 | { |
1ee6dd77 | 3509 | struct XENA_dev_config __iomem *bar0 = sp->bar0; |
1da177e4 | 3510 | u64 val64; |
5e25b9dd | 3511 | u16 subid, pci_cmd; |
19a60522 SS |
3512 | int i; |
3513 | u16 val16; | |
491976b2 SH |
3514 | unsigned long long up_cnt, down_cnt, up_time, down_time, reset_cnt; |
3515 | unsigned long long mem_alloc_cnt, mem_free_cnt, watchdog_cnt; | |
3516 | ||
19a60522 SS |
3517 | DBG_PRINT(INIT_DBG,"%s - Resetting XFrame card %s\n", |
3518 | __FUNCTION__, sp->dev->name); | |
1da177e4 | 3519 | |
0b1f7ebe | 3520 | /* Back up the PCI-X CMD reg, dont want to lose MMRBC, OST settings */ |
e960fc5c | 3521 | pci_read_config_word(sp->pdev, PCIX_COMMAND_REGISTER, &(pci_cmd)); |
0b1f7ebe | 3522 | |
1da177e4 LT |
3523 | val64 = SW_RESET_ALL; |
3524 | writeq(val64, &bar0->sw_reset); | |
c92ca04b AR |
3525 | if (strstr(sp->product_name, "CX4")) { |
3526 | msleep(750); | |
3527 | } | |
19a60522 SS |
3528 | msleep(250); |
3529 | for (i = 0; i < S2IO_MAX_PCI_CONFIG_SPACE_REINIT; i++) { | |
1da177e4 | 3530 | |
19a60522 SS |
3531 | /* Restore the PCI state saved during initialization. */ |
3532 | pci_restore_state(sp->pdev); | |
3533 | pci_read_config_word(sp->pdev, 0x2, &val16); | |
3534 | if (check_pci_device_id(val16) != (u16)PCI_ANY_ID) | |
3535 | break; | |
3536 | msleep(200); | |
3537 | } | |
1da177e4 | 3538 | |
19a60522 SS |
3539 | if (check_pci_device_id(val16) == (u16)PCI_ANY_ID) { |
3540 | DBG_PRINT(ERR_DBG,"%s SW_Reset failed!\n", __FUNCTION__); | |
3541 | } | |
3542 | ||
3543 | pci_write_config_word(sp->pdev, PCIX_COMMAND_REGISTER, pci_cmd); | |
3544 | ||
3545 | s2io_init_pci(sp); | |
1da177e4 | 3546 | |
20346722 K |
3547 | /* Set swapper to enable I/O register access */ |
3548 | s2io_set_swapper(sp); | |
3549 | ||
faa4f796 SH |
3550 | /* restore mac_addr entries */ |
3551 | do_s2io_restore_unicast_mc(sp); | |
3552 | ||
cc6e7c44 RA |
3553 | /* Restore the MSIX table entries from local variables */ |
3554 | restore_xmsi_data(sp); | |
3555 | ||
5e25b9dd | 3556 | /* Clear certain PCI/PCI-X fields after reset */ |
303bcb4b | 3557 | if (sp->device_type == XFRAME_II_DEVICE) { |
b41477f3 | 3558 | /* Clear "detected parity error" bit */ |
303bcb4b | 3559 | pci_write_config_word(sp->pdev, PCI_STATUS, 0x8000); |
5e25b9dd | 3560 | |
303bcb4b K |
3561 | /* Clearing PCIX Ecc status register */ |
3562 | pci_write_config_dword(sp->pdev, 0x68, 0x7C); | |
5e25b9dd | 3563 | |
303bcb4b | 3564 | /* Clearing PCI_STATUS error reflected here */ |
b7b5a128 | 3565 | writeq(s2BIT(62), &bar0->txpic_int_reg); |
303bcb4b | 3566 | } |
5e25b9dd | 3567 | |
20346722 K |
3568 | /* Reset device statistics maintained by OS */ |
3569 | memset(&sp->stats, 0, sizeof (struct net_device_stats)); | |
8a4bdbaa | 3570 | |
491976b2 SH |
3571 | up_cnt = sp->mac_control.stats_info->sw_stat.link_up_cnt; |
3572 | down_cnt = sp->mac_control.stats_info->sw_stat.link_down_cnt; | |
3573 | up_time = sp->mac_control.stats_info->sw_stat.link_up_time; | |
3574 | down_time = sp->mac_control.stats_info->sw_stat.link_down_time; | |
363dc367 | 3575 | reset_cnt = sp->mac_control.stats_info->sw_stat.soft_reset_cnt; |
491976b2 SH |
3576 | mem_alloc_cnt = sp->mac_control.stats_info->sw_stat.mem_allocated; |
3577 | mem_free_cnt = sp->mac_control.stats_info->sw_stat.mem_freed; | |
3578 | watchdog_cnt = sp->mac_control.stats_info->sw_stat.watchdog_timer_cnt; | |
3579 | /* save link up/down time/cnt, reset/memory/watchdog cnt */ | |
363dc367 | 3580 | memset(sp->mac_control.stats_info, 0, sizeof(struct stat_block)); |
491976b2 SH |
3581 | /* restore link up/down time/cnt, reset/memory/watchdog cnt */ |
3582 | sp->mac_control.stats_info->sw_stat.link_up_cnt = up_cnt; | |
3583 | sp->mac_control.stats_info->sw_stat.link_down_cnt = down_cnt; | |
3584 | sp->mac_control.stats_info->sw_stat.link_up_time = up_time; | |
3585 | sp->mac_control.stats_info->sw_stat.link_down_time = down_time; | |
363dc367 | 3586 | sp->mac_control.stats_info->sw_stat.soft_reset_cnt = reset_cnt; |
491976b2 SH |
3587 | sp->mac_control.stats_info->sw_stat.mem_allocated = mem_alloc_cnt; |
3588 | sp->mac_control.stats_info->sw_stat.mem_freed = mem_free_cnt; | |
3589 | sp->mac_control.stats_info->sw_stat.watchdog_timer_cnt = watchdog_cnt; | |
20346722 | 3590 | |
1da177e4 LT |
3591 | /* SXE-002: Configure link and activity LED to turn it off */ |
3592 | subid = sp->pdev->subsystem_device; | |
541ae68f K |
3593 | if (((subid & 0xFF) >= 0x07) && |
3594 | (sp->device_type == XFRAME_I_DEVICE)) { | |
1da177e4 LT |
3595 | val64 = readq(&bar0->gpio_control); |
3596 | val64 |= 0x0000800000000000ULL; | |
3597 | writeq(val64, &bar0->gpio_control); | |
3598 | val64 = 0x0411040400000000ULL; | |
509a2671 | 3599 | writeq(val64, (void __iomem *)bar0 + 0x2700); |
1da177e4 LT |
3600 | } |
3601 | ||
541ae68f K |
3602 | /* |
3603 | * Clear spurious ECC interrupts that would have occured on | |
3604 | * XFRAME II cards after reset. | |
3605 | */ | |
3606 | if (sp->device_type == XFRAME_II_DEVICE) { | |
3607 | val64 = readq(&bar0->pcc_err_reg); | |
3608 | writeq(val64, &bar0->pcc_err_reg); | |
3609 | } | |
3610 | ||
1da177e4 LT |
3611 | sp->device_enabled_once = FALSE; |
3612 | } | |
3613 | ||
3614 | /** | |
20346722 K |
3615 | * s2io_set_swapper - to set the swapper controle on the card |
3616 | * @sp : private member of the device structure, | |
1da177e4 | 3617 | * pointer to the s2io_nic structure. |
20346722 | 3618 | * Description: Function to set the swapper control on the card |
1da177e4 LT |
3619 | * correctly depending on the 'endianness' of the system. |
3620 | * Return value: | |
3621 | * SUCCESS on success and FAILURE on failure. | |
3622 | */ | |
3623 | ||
1ee6dd77 | 3624 | static int s2io_set_swapper(struct s2io_nic * sp) |
1da177e4 LT |
3625 | { |
3626 | struct net_device *dev = sp->dev; | |
1ee6dd77 | 3627 | struct XENA_dev_config __iomem *bar0 = sp->bar0; |
1da177e4 LT |
3628 | u64 val64, valt, valr; |
3629 | ||
20346722 | 3630 | /* |
1da177e4 LT |
3631 | * Set proper endian settings and verify the same by reading |
3632 | * the PIF Feed-back register. | |
3633 | */ | |
3634 | ||
3635 | val64 = readq(&bar0->pif_rd_swapper_fb); | |
3636 | if (val64 != 0x0123456789ABCDEFULL) { | |
3637 | int i = 0; | |
3638 | u64 value[] = { 0xC30000C3C30000C3ULL, /* FE=1, SE=1 */ | |
3639 | 0x8100008181000081ULL, /* FE=1, SE=0 */ | |
3640 | 0x4200004242000042ULL, /* FE=0, SE=1 */ | |
3641 | 0}; /* FE=0, SE=0 */ | |
3642 | ||
3643 | while(i<4) { | |
3644 | writeq(value[i], &bar0->swapper_ctrl); | |
3645 | val64 = readq(&bar0->pif_rd_swapper_fb); | |
3646 | if (val64 == 0x0123456789ABCDEFULL) | |
3647 | break; | |
3648 | i++; | |
3649 | } | |
3650 | if (i == 4) { | |
3651 | DBG_PRINT(ERR_DBG, "%s: Endian settings are wrong, ", | |
3652 | dev->name); | |
3653 | DBG_PRINT(ERR_DBG, "feedback read %llx\n", | |
3654 | (unsigned long long) val64); | |
3655 | return FAILURE; | |
3656 | } | |
3657 | valr = value[i]; | |
3658 | } else { | |
3659 | valr = readq(&bar0->swapper_ctrl); | |
3660 | } | |
3661 | ||
3662 | valt = 0x0123456789ABCDEFULL; | |
3663 | writeq(valt, &bar0->xmsi_address); | |
3664 | val64 = readq(&bar0->xmsi_address); | |
3665 | ||
3666 | if(val64 != valt) { | |
3667 | int i = 0; | |
3668 | u64 value[] = { 0x00C3C30000C3C300ULL, /* FE=1, SE=1 */ | |
3669 | 0x0081810000818100ULL, /* FE=1, SE=0 */ | |
3670 | 0x0042420000424200ULL, /* FE=0, SE=1 */ | |
3671 | 0}; /* FE=0, SE=0 */ | |
3672 | ||
3673 | while(i<4) { | |
3674 | writeq((value[i] | valr), &bar0->swapper_ctrl); | |
3675 | writeq(valt, &bar0->xmsi_address); | |
3676 | val64 = readq(&bar0->xmsi_address); | |
3677 | if(val64 == valt) | |
3678 | break; | |
3679 | i++; | |
3680 | } | |
3681 | if(i == 4) { | |
20346722 | 3682 | unsigned long long x = val64; |
1da177e4 | 3683 | DBG_PRINT(ERR_DBG, "Write failed, Xmsi_addr "); |
20346722 | 3684 | DBG_PRINT(ERR_DBG, "reads:0x%llx\n", x); |
1da177e4 LT |
3685 | return FAILURE; |
3686 | } | |
3687 | } | |
3688 | val64 = readq(&bar0->swapper_ctrl); | |
3689 | val64 &= 0xFFFF000000000000ULL; | |
3690 | ||
3691 | #ifdef __BIG_ENDIAN | |
20346722 K |
3692 | /* |
3693 | * The device by default set to a big endian format, so a | |
1da177e4 LT |
3694 | * big endian driver need not set anything. |
3695 | */ | |
3696 | val64 |= (SWAPPER_CTRL_TXP_FE | | |
3697 | SWAPPER_CTRL_TXP_SE | | |
3698 | SWAPPER_CTRL_TXD_R_FE | | |
3699 | SWAPPER_CTRL_TXD_W_FE | | |
3700 | SWAPPER_CTRL_TXF_R_FE | | |
3701 | SWAPPER_CTRL_RXD_R_FE | | |
3702 | SWAPPER_CTRL_RXD_W_FE | | |
3703 | SWAPPER_CTRL_RXF_W_FE | | |
3704 | SWAPPER_CTRL_XMSI_FE | | |
1da177e4 | 3705 | SWAPPER_CTRL_STATS_FE | SWAPPER_CTRL_STATS_SE); |
eaae7f72 | 3706 | if (sp->config.intr_type == INTA) |
cc6e7c44 | 3707 | val64 |= SWAPPER_CTRL_XMSI_SE; |
1da177e4 LT |
3708 | writeq(val64, &bar0->swapper_ctrl); |
3709 | #else | |
20346722 | 3710 | /* |
1da177e4 | 3711 | * Initially we enable all bits to make it accessible by the |
20346722 | 3712 | * driver, then we selectively enable only those bits that |
1da177e4 LT |
3713 | * we want to set. |
3714 | */ | |
3715 | val64 |= (SWAPPER_CTRL_TXP_FE | | |
3716 | SWAPPER_CTRL_TXP_SE | | |
3717 | SWAPPER_CTRL_TXD_R_FE | | |
3718 | SWAPPER_CTRL_TXD_R_SE | | |
3719 | SWAPPER_CTRL_TXD_W_FE | | |
3720 | SWAPPER_CTRL_TXD_W_SE | | |
3721 | SWAPPER_CTRL_TXF_R_FE | | |
3722 | SWAPPER_CTRL_RXD_R_FE | | |
3723 | SWAPPER_CTRL_RXD_R_SE | | |
3724 | SWAPPER_CTRL_RXD_W_FE | | |
3725 | SWAPPER_CTRL_RXD_W_SE | | |
3726 | SWAPPER_CTRL_RXF_W_FE | | |
3727 | SWAPPER_CTRL_XMSI_FE | | |
1da177e4 | 3728 | SWAPPER_CTRL_STATS_FE | SWAPPER_CTRL_STATS_SE); |
eaae7f72 | 3729 | if (sp->config.intr_type == INTA) |
cc6e7c44 | 3730 | val64 |= SWAPPER_CTRL_XMSI_SE; |
1da177e4 LT |
3731 | writeq(val64, &bar0->swapper_ctrl); |
3732 | #endif | |
3733 | val64 = readq(&bar0->swapper_ctrl); | |
3734 | ||
20346722 K |
3735 | /* |
3736 | * Verifying if endian settings are accurate by reading a | |
1da177e4 LT |
3737 | * feedback register. |
3738 | */ | |
3739 | val64 = readq(&bar0->pif_rd_swapper_fb); | |
3740 | if (val64 != 0x0123456789ABCDEFULL) { | |
3741 | /* Endian settings are incorrect, calls for another dekko. */ | |
3742 | DBG_PRINT(ERR_DBG, "%s: Endian settings are wrong, ", | |
3743 | dev->name); | |
3744 | DBG_PRINT(ERR_DBG, "feedback read %llx\n", | |
3745 | (unsigned long long) val64); | |
3746 | return FAILURE; | |
3747 | } | |
3748 | ||
3749 | return SUCCESS; | |
3750 | } | |
3751 | ||
1ee6dd77 | 3752 | static int wait_for_msix_trans(struct s2io_nic *nic, int i) |
cc6e7c44 | 3753 | { |
1ee6dd77 | 3754 | struct XENA_dev_config __iomem *bar0 = nic->bar0; |
cc6e7c44 RA |
3755 | u64 val64; |
3756 | int ret = 0, cnt = 0; | |
3757 | ||
3758 | do { | |
3759 | val64 = readq(&bar0->xmsi_access); | |
b7b5a128 | 3760 | if (!(val64 & s2BIT(15))) |
cc6e7c44 RA |
3761 | break; |
3762 | mdelay(1); | |
3763 | cnt++; | |
3764 | } while(cnt < 5); | |
3765 | if (cnt == 5) { | |
3766 | DBG_PRINT(ERR_DBG, "XMSI # %d Access failed\n", i); | |
3767 | ret = 1; | |
3768 | } | |
3769 | ||
3770 | return ret; | |
3771 | } | |
3772 | ||
1ee6dd77 | 3773 | static void restore_xmsi_data(struct s2io_nic *nic) |
cc6e7c44 | 3774 | { |
1ee6dd77 | 3775 | struct XENA_dev_config __iomem *bar0 = nic->bar0; |
cc6e7c44 | 3776 | u64 val64; |
f61e0a35 SH |
3777 | int i, msix_index; |
3778 | ||
3779 | ||
3780 | if (nic->device_type == XFRAME_I_DEVICE) | |
3781 | return; | |
cc6e7c44 | 3782 | |
75c30b13 | 3783 | for (i=0; i < MAX_REQUESTED_MSI_X; i++) { |
f61e0a35 | 3784 | msix_index = (i) ? ((i-1) * 8 + 1): 0; |
cc6e7c44 RA |
3785 | writeq(nic->msix_info[i].addr, &bar0->xmsi_address); |
3786 | writeq(nic->msix_info[i].data, &bar0->xmsi_data); | |
f61e0a35 | 3787 | val64 = (s2BIT(7) | s2BIT(15) | vBIT(msix_index, 26, 6)); |
cc6e7c44 | 3788 | writeq(val64, &bar0->xmsi_access); |
f61e0a35 | 3789 | if (wait_for_msix_trans(nic, msix_index)) { |
cc6e7c44 RA |
3790 | DBG_PRINT(ERR_DBG, "failed in %s\n", __FUNCTION__); |
3791 | continue; | |
3792 | } | |
3793 | } | |
3794 | } | |
3795 | ||
1ee6dd77 | 3796 | static void store_xmsi_data(struct s2io_nic *nic) |
cc6e7c44 | 3797 | { |
1ee6dd77 | 3798 | struct XENA_dev_config __iomem *bar0 = nic->bar0; |
cc6e7c44 | 3799 | u64 val64, addr, data; |
f61e0a35 SH |
3800 | int i, msix_index; |
3801 | ||
3802 | if (nic->device_type == XFRAME_I_DEVICE) | |
3803 | return; | |
cc6e7c44 RA |
3804 | |
3805 | /* Store and display */ | |
75c30b13 | 3806 | for (i=0; i < MAX_REQUESTED_MSI_X; i++) { |
f61e0a35 SH |
3807 | msix_index = (i) ? ((i-1) * 8 + 1): 0; |
3808 | val64 = (s2BIT(15) | vBIT(msix_index, 26, 6)); | |
cc6e7c44 | 3809 | writeq(val64, &bar0->xmsi_access); |
f61e0a35 | 3810 | if (wait_for_msix_trans(nic, msix_index)) { |
cc6e7c44 RA |
3811 | DBG_PRINT(ERR_DBG, "failed in %s\n", __FUNCTION__); |
3812 | continue; | |
3813 | } | |
3814 | addr = readq(&bar0->xmsi_address); | |
3815 | data = readq(&bar0->xmsi_data); | |
3816 | if (addr && data) { | |
3817 | nic->msix_info[i].addr = addr; | |
3818 | nic->msix_info[i].data = data; | |
3819 | } | |
3820 | } | |
3821 | } | |
3822 | ||
1ee6dd77 | 3823 | static int s2io_enable_msi_x(struct s2io_nic *nic) |
cc6e7c44 | 3824 | { |
1ee6dd77 | 3825 | struct XENA_dev_config __iomem *bar0 = nic->bar0; |
ac731ab6 | 3826 | u64 rx_mat; |
cc6e7c44 RA |
3827 | u16 msi_control; /* Temp variable */ |
3828 | int ret, i, j, msix_indx = 1; | |
3829 | ||
f61e0a35 | 3830 | nic->entries = kmalloc(nic->num_entries * sizeof(struct msix_entry), |
cc6e7c44 | 3831 | GFP_KERNEL); |
bd684e43 | 3832 | if (!nic->entries) { |
491976b2 SH |
3833 | DBG_PRINT(INFO_DBG, "%s: Memory allocation failed\n", \ |
3834 | __FUNCTION__); | |
c53d4945 | 3835 | nic->mac_control.stats_info->sw_stat.mem_alloc_fail_cnt++; |
cc6e7c44 RA |
3836 | return -ENOMEM; |
3837 | } | |
8a4bdbaa | 3838 | nic->mac_control.stats_info->sw_stat.mem_allocated |
f61e0a35 SH |
3839 | += (nic->num_entries * sizeof(struct msix_entry)); |
3840 | ||
3841 | memset(nic->entries, 0, nic->num_entries * sizeof(struct msix_entry)); | |
cc6e7c44 RA |
3842 | |
3843 | nic->s2io_entries = | |
f61e0a35 | 3844 | kmalloc(nic->num_entries * sizeof(struct s2io_msix_entry), |
cc6e7c44 | 3845 | GFP_KERNEL); |
bd684e43 | 3846 | if (!nic->s2io_entries) { |
8a4bdbaa | 3847 | DBG_PRINT(INFO_DBG, "%s: Memory allocation failed\n", |
491976b2 | 3848 | __FUNCTION__); |
c53d4945 | 3849 | nic->mac_control.stats_info->sw_stat.mem_alloc_fail_cnt++; |
cc6e7c44 | 3850 | kfree(nic->entries); |
8a4bdbaa | 3851 | nic->mac_control.stats_info->sw_stat.mem_freed |
f61e0a35 | 3852 | += (nic->num_entries * sizeof(struct msix_entry)); |
cc6e7c44 RA |
3853 | return -ENOMEM; |
3854 | } | |
8a4bdbaa | 3855 | nic->mac_control.stats_info->sw_stat.mem_allocated |
f61e0a35 SH |
3856 | += (nic->num_entries * sizeof(struct s2io_msix_entry)); |
3857 | memset(nic->s2io_entries, 0, | |
3858 | nic->num_entries * sizeof(struct s2io_msix_entry)); | |
cc6e7c44 | 3859 | |
ac731ab6 SH |
3860 | nic->entries[0].entry = 0; |
3861 | nic->s2io_entries[0].entry = 0; | |
3862 | nic->s2io_entries[0].in_use = MSIX_FLG; | |
3863 | nic->s2io_entries[0].type = MSIX_ALARM_TYPE; | |
3864 | nic->s2io_entries[0].arg = &nic->mac_control.fifos; | |
3865 | ||
f61e0a35 SH |
3866 | for (i = 1; i < nic->num_entries; i++) { |
3867 | nic->entries[i].entry = ((i - 1) * 8) + 1; | |
3868 | nic->s2io_entries[i].entry = ((i - 1) * 8) + 1; | |
cc6e7c44 RA |
3869 | nic->s2io_entries[i].arg = NULL; |
3870 | nic->s2io_entries[i].in_use = 0; | |
3871 | } | |
3872 | ||
8a4bdbaa | 3873 | rx_mat = readq(&bar0->rx_mat); |
f61e0a35 | 3874 | for (j = 0; j < nic->config.rx_ring_num; j++) { |
8a4bdbaa | 3875 | rx_mat |= RX_MAT_SET(j, msix_indx); |
f61e0a35 SH |
3876 | nic->s2io_entries[j+1].arg = &nic->mac_control.rings[j]; |
3877 | nic->s2io_entries[j+1].type = MSIX_RING_TYPE; | |
3878 | nic->s2io_entries[j+1].in_use = MSIX_FLG; | |
3879 | msix_indx += 8; | |
cc6e7c44 | 3880 | } |
8a4bdbaa | 3881 | writeq(rx_mat, &bar0->rx_mat); |
f61e0a35 | 3882 | readq(&bar0->rx_mat); |
cc6e7c44 | 3883 | |
f61e0a35 | 3884 | ret = pci_enable_msix(nic->pdev, nic->entries, nic->num_entries); |
c92ca04b | 3885 | /* We fail init if error or we get less vectors than min required */ |
cc6e7c44 RA |
3886 | if (ret) { |
3887 | DBG_PRINT(ERR_DBG, "%s: Enabling MSIX failed\n", nic->dev->name); | |
3888 | kfree(nic->entries); | |
8a4bdbaa | 3889 | nic->mac_control.stats_info->sw_stat.mem_freed |
f61e0a35 | 3890 | += (nic->num_entries * sizeof(struct msix_entry)); |
cc6e7c44 | 3891 | kfree(nic->s2io_entries); |
8a4bdbaa | 3892 | nic->mac_control.stats_info->sw_stat.mem_freed |
f61e0a35 | 3893 | += (nic->num_entries * sizeof(struct s2io_msix_entry)); |
cc6e7c44 RA |
3894 | nic->entries = NULL; |
3895 | nic->s2io_entries = NULL; | |
3896 | return -ENOMEM; | |
3897 | } | |
3898 | ||
3899 | /* | |
3900 | * To enable MSI-X, MSI also needs to be enabled, due to a bug | |
3901 | * in the herc NIC. (Temp change, needs to be removed later) | |
3902 | */ | |
3903 | pci_read_config_word(nic->pdev, 0x42, &msi_control); | |
3904 | msi_control |= 0x1; /* Enable MSI */ | |
3905 | pci_write_config_word(nic->pdev, 0x42, msi_control); | |
3906 | ||
3907 | return 0; | |
3908 | } | |
3909 | ||
8abc4d5b | 3910 | /* Handle software interrupt used during MSI(X) test */ |
33390a70 | 3911 | static irqreturn_t s2io_test_intr(int irq, void *dev_id) |
8abc4d5b SS |
3912 | { |
3913 | struct s2io_nic *sp = dev_id; | |
3914 | ||
3915 | sp->msi_detected = 1; | |
3916 | wake_up(&sp->msi_wait); | |
3917 | ||
3918 | return IRQ_HANDLED; | |
3919 | } | |
3920 | ||
3921 | /* Test interrupt path by forcing a a software IRQ */ | |
33390a70 | 3922 | static int s2io_test_msi(struct s2io_nic *sp) |
8abc4d5b SS |
3923 | { |
3924 | struct pci_dev *pdev = sp->pdev; | |
3925 | struct XENA_dev_config __iomem *bar0 = sp->bar0; | |
3926 | int err; | |
3927 | u64 val64, saved64; | |
3928 | ||
3929 | err = request_irq(sp->entries[1].vector, s2io_test_intr, 0, | |
3930 | sp->name, sp); | |
3931 | if (err) { | |
3932 | DBG_PRINT(ERR_DBG, "%s: PCI %s: cannot assign irq %d\n", | |
3933 | sp->dev->name, pci_name(pdev), pdev->irq); | |
3934 | return err; | |
3935 | } | |
3936 | ||
3937 | init_waitqueue_head (&sp->msi_wait); | |
3938 | sp->msi_detected = 0; | |
3939 | ||
3940 | saved64 = val64 = readq(&bar0->scheduled_int_ctrl); | |
3941 | val64 |= SCHED_INT_CTRL_ONE_SHOT; | |
3942 | val64 |= SCHED_INT_CTRL_TIMER_EN; | |
3943 | val64 |= SCHED_INT_CTRL_INT2MSI(1); | |
3944 | writeq(val64, &bar0->scheduled_int_ctrl); | |
3945 | ||
3946 | wait_event_timeout(sp->msi_wait, sp->msi_detected, HZ/10); | |
3947 | ||
3948 | if (!sp->msi_detected) { | |
3949 | /* MSI(X) test failed, go back to INTx mode */ | |
2450022a | 3950 | DBG_PRINT(ERR_DBG, "%s: PCI %s: No interrupt was generated " |
8abc4d5b SS |
3951 | "using MSI(X) during test\n", sp->dev->name, |
3952 | pci_name(pdev)); | |
3953 | ||
3954 | err = -EOPNOTSUPP; | |
3955 | } | |
3956 | ||
3957 | free_irq(sp->entries[1].vector, sp); | |
3958 | ||
3959 | writeq(saved64, &bar0->scheduled_int_ctrl); | |
3960 | ||
3961 | return err; | |
3962 | } | |
18b2b7bd SH |
3963 | |
3964 | static void remove_msix_isr(struct s2io_nic *sp) | |
3965 | { | |
3966 | int i; | |
3967 | u16 msi_control; | |
3968 | ||
f61e0a35 | 3969 | for (i = 0; i < sp->num_entries; i++) { |
18b2b7bd SH |
3970 | if (sp->s2io_entries[i].in_use == |
3971 | MSIX_REGISTERED_SUCCESS) { | |
3972 | int vector = sp->entries[i].vector; | |
3973 | void *arg = sp->s2io_entries[i].arg; | |
3974 | free_irq(vector, arg); | |
3975 | } | |
3976 | } | |
3977 | ||
3978 | kfree(sp->entries); | |
3979 | kfree(sp->s2io_entries); | |
3980 | sp->entries = NULL; | |
3981 | sp->s2io_entries = NULL; | |
3982 | ||
3983 | pci_read_config_word(sp->pdev, 0x42, &msi_control); | |
3984 | msi_control &= 0xFFFE; /* Disable MSI */ | |
3985 | pci_write_config_word(sp->pdev, 0x42, msi_control); | |
3986 | ||
3987 | pci_disable_msix(sp->pdev); | |
3988 | } | |
3989 | ||
3990 | static void remove_inta_isr(struct s2io_nic *sp) | |
3991 | { | |
3992 | struct net_device *dev = sp->dev; | |
3993 | ||
3994 | free_irq(sp->pdev->irq, dev); | |
3995 | } | |
3996 | ||
1da177e4 LT |
3997 | /* ********************************************************* * |
3998 | * Functions defined below concern the OS part of the driver * | |
3999 | * ********************************************************* */ | |
4000 | ||
20346722 | 4001 | /** |
1da177e4 LT |
4002 | * s2io_open - open entry point of the driver |
4003 | * @dev : pointer to the device structure. | |
4004 | * Description: | |
4005 | * This function is the open entry point of the driver. It mainly calls a | |
4006 | * function to allocate Rx buffers and inserts them into the buffer | |
20346722 | 4007 | * descriptors and then enables the Rx part of the NIC. |
1da177e4 LT |
4008 | * Return value: |
4009 | * 0 on success and an appropriate (-)ve integer as defined in errno.h | |
4010 | * file on failure. | |
4011 | */ | |
4012 | ||
ac1f60db | 4013 | static int s2io_open(struct net_device *dev) |
1da177e4 | 4014 | { |
1ee6dd77 | 4015 | struct s2io_nic *sp = dev->priv; |
1da177e4 LT |
4016 | int err = 0; |
4017 | ||
20346722 K |
4018 | /* |
4019 | * Make sure you have link off by default every time | |
1da177e4 LT |
4020 | * Nic is initialized |
4021 | */ | |
4022 | netif_carrier_off(dev); | |
0b1f7ebe | 4023 | sp->last_link_state = 0; |
1da177e4 LT |
4024 | |
4025 | /* Initialize H/W and enable interrupts */ | |
c92ca04b AR |
4026 | err = s2io_card_up(sp); |
4027 | if (err) { | |
1da177e4 LT |
4028 | DBG_PRINT(ERR_DBG, "%s: H/W initialization failed\n", |
4029 | dev->name); | |
e6a8fee2 | 4030 | goto hw_init_failed; |
1da177e4 LT |
4031 | } |
4032 | ||
2fd37688 | 4033 | if (do_s2io_prog_unicast(dev, dev->dev_addr) == FAILURE) { |
1da177e4 | 4034 | DBG_PRINT(ERR_DBG, "Set Mac Address Failed\n"); |
e6a8fee2 | 4035 | s2io_card_down(sp); |
20346722 | 4036 | err = -ENODEV; |
e6a8fee2 | 4037 | goto hw_init_failed; |
1da177e4 | 4038 | } |
3a3d5756 | 4039 | s2io_start_all_tx_queue(sp); |
1da177e4 | 4040 | return 0; |
20346722 | 4041 | |
20346722 | 4042 | hw_init_failed: |
eaae7f72 | 4043 | if (sp->config.intr_type == MSI_X) { |
491976b2 | 4044 | if (sp->entries) { |
cc6e7c44 | 4045 | kfree(sp->entries); |
8a4bdbaa | 4046 | sp->mac_control.stats_info->sw_stat.mem_freed |
f61e0a35 | 4047 | += (sp->num_entries * sizeof(struct msix_entry)); |
491976b2 SH |
4048 | } |
4049 | if (sp->s2io_entries) { | |
cc6e7c44 | 4050 | kfree(sp->s2io_entries); |
8a4bdbaa | 4051 | sp->mac_control.stats_info->sw_stat.mem_freed |
f61e0a35 | 4052 | += (sp->num_entries * sizeof(struct s2io_msix_entry)); |
491976b2 | 4053 | } |
cc6e7c44 | 4054 | } |
20346722 | 4055 | return err; |
1da177e4 LT |
4056 | } |
4057 | ||
4058 | /** | |
4059 | * s2io_close -close entry point of the driver | |
4060 | * @dev : device pointer. | |
4061 | * Description: | |
4062 | * This is the stop entry point of the driver. It needs to undo exactly | |
4063 | * whatever was done by the open entry point,thus it's usually referred to | |
4064 | * as the close function.Among other things this function mainly stops the | |
4065 | * Rx side of the NIC and frees all the Rx buffers in the Rx rings. | |
4066 | * Return value: | |
4067 | * 0 on success and an appropriate (-)ve integer as defined in errno.h | |
4068 | * file on failure. | |
4069 | */ | |
4070 | ||
ac1f60db | 4071 | static int s2io_close(struct net_device *dev) |
1da177e4 | 4072 | { |
1ee6dd77 | 4073 | struct s2io_nic *sp = dev->priv; |
faa4f796 SH |
4074 | struct config_param *config = &sp->config; |
4075 | u64 tmp64; | |
4076 | int offset; | |
cc6e7c44 | 4077 | |
9f74ffde SH |
4078 | /* Return if the device is already closed * |
4079 | * Can happen when s2io_card_up failed in change_mtu * | |
4080 | */ | |
4081 | if (!is_s2io_card_up(sp)) | |
4082 | return 0; | |
4083 | ||
3a3d5756 | 4084 | s2io_stop_all_tx_queue(sp); |
faa4f796 SH |
4085 | /* delete all populated mac entries */ |
4086 | for (offset = 1; offset < config->max_mc_addr; offset++) { | |
4087 | tmp64 = do_s2io_read_unicast_mc(sp, offset); | |
4088 | if (tmp64 != S2IO_DISABLE_MAC_ENTRY) | |
4089 | do_s2io_delete_unicast_mc(sp, tmp64); | |
4090 | } | |
4091 | ||
e6a8fee2 | 4092 | s2io_card_down(sp); |
cc6e7c44 | 4093 | |
1da177e4 LT |
4094 | return 0; |
4095 | } | |
4096 | ||
4097 | /** | |
4098 | * s2io_xmit - Tx entry point of te driver | |
4099 | * @skb : the socket buffer containing the Tx data. | |
4100 | * @dev : device pointer. | |
4101 | * Description : | |
4102 | * This function is the Tx entry point of the driver. S2IO NIC supports | |
4103 | * certain protocol assist features on Tx side, namely CSO, S/G, LSO. | |
4104 | * NOTE: when device cant queue the pkt,just the trans_start variable will | |
4105 | * not be upadted. | |
4106 | * Return value: | |
4107 | * 0 on success & 1 on failure. | |
4108 | */ | |
4109 | ||
ac1f60db | 4110 | static int s2io_xmit(struct sk_buff *skb, struct net_device *dev) |
1da177e4 | 4111 | { |
1ee6dd77 | 4112 | struct s2io_nic *sp = dev->priv; |
1da177e4 LT |
4113 | u16 frg_cnt, frg_len, i, queue, queue_len, put_off, get_off; |
4114 | register u64 val64; | |
1ee6dd77 RB |
4115 | struct TxD *txdp; |
4116 | struct TxFIFO_element __iomem *tx_fifo; | |
2fda096d | 4117 | unsigned long flags = 0; |
be3a6b02 | 4118 | u16 vlan_tag = 0; |
2fda096d | 4119 | struct fifo_info *fifo = NULL; |
1ee6dd77 | 4120 | struct mac_info *mac_control; |
1da177e4 | 4121 | struct config_param *config; |
6cfc482b | 4122 | int do_spin_lock = 1; |
75c30b13 | 4123 | int offload_type; |
6cfc482b | 4124 | int enable_per_list_interrupt = 0; |
491abf25 | 4125 | struct swStat *stats = &sp->mac_control.stats_info->sw_stat; |
1da177e4 LT |
4126 | |
4127 | mac_control = &sp->mac_control; | |
4128 | config = &sp->config; | |
4129 | ||
20346722 | 4130 | DBG_PRINT(TX_DBG, "%s: In Neterion Tx routine\n", dev->name); |
491976b2 SH |
4131 | |
4132 | if (unlikely(skb->len <= 0)) { | |
4133 | DBG_PRINT(TX_DBG, "%s:Buffer has no data..\n", dev->name); | |
4134 | dev_kfree_skb_any(skb); | |
4135 | return 0; | |
2fda096d | 4136 | } |
491976b2 | 4137 | |
92b84437 | 4138 | if (!is_s2io_card_up(sp)) { |
20346722 | 4139 | DBG_PRINT(TX_DBG, "%s: Card going down for reset\n", |
1da177e4 | 4140 | dev->name); |
20346722 K |
4141 | dev_kfree_skb(skb); |
4142 | return 0; | |
1da177e4 LT |
4143 | } |
4144 | ||
4145 | queue = 0; | |
3a3d5756 | 4146 | if (sp->vlgrp && vlan_tx_tag_present(skb)) |
be3a6b02 | 4147 | vlan_tag = vlan_tx_tag_get(skb); |
6cfc482b SH |
4148 | if (sp->config.tx_steering_type == TX_DEFAULT_STEERING) { |
4149 | if (skb->protocol == htons(ETH_P_IP)) { | |
4150 | struct iphdr *ip; | |
4151 | struct tcphdr *th; | |
4152 | ip = ip_hdr(skb); | |
4153 | ||
4154 | if ((ip->frag_off & htons(IP_OFFSET|IP_MF)) == 0) { | |
4155 | th = (struct tcphdr *)(((unsigned char *)ip) + | |
4156 | ip->ihl*4); | |
4157 | ||
4158 | if (ip->protocol == IPPROTO_TCP) { | |
4159 | queue_len = sp->total_tcp_fifos; | |
4160 | queue = (ntohs(th->source) + | |
4161 | ntohs(th->dest)) & | |
4162 | sp->fifo_selector[queue_len - 1]; | |
4163 | if (queue >= queue_len) | |
4164 | queue = queue_len - 1; | |
4165 | } else if (ip->protocol == IPPROTO_UDP) { | |
4166 | queue_len = sp->total_udp_fifos; | |
4167 | queue = (ntohs(th->source) + | |
4168 | ntohs(th->dest)) & | |
4169 | sp->fifo_selector[queue_len - 1]; | |
4170 | if (queue >= queue_len) | |
4171 | queue = queue_len - 1; | |
4172 | queue += sp->udp_fifo_idx; | |
4173 | if (skb->len > 1024) | |
4174 | enable_per_list_interrupt = 1; | |
4175 | do_spin_lock = 0; | |
4176 | } | |
4177 | } | |
4178 | } | |
4179 | } else if (sp->config.tx_steering_type == TX_PRIORITY_STEERING) | |
4180 | /* get fifo number based on skb->priority value */ | |
4181 | queue = config->fifo_mapping | |
4182 | [skb->priority & (MAX_TX_FIFOS - 1)]; | |
4183 | fifo = &mac_control->fifos[queue]; | |
3a3d5756 | 4184 | |
6cfc482b SH |
4185 | if (do_spin_lock) |
4186 | spin_lock_irqsave(&fifo->tx_lock, flags); | |
4187 | else { | |
4188 | if (unlikely(!spin_trylock_irqsave(&fifo->tx_lock, flags))) | |
4189 | return NETDEV_TX_LOCKED; | |
4190 | } | |
be3a6b02 | 4191 | |
3a3d5756 SH |
4192 | #ifdef CONFIG_NETDEVICES_MULTIQUEUE |
4193 | if (sp->config.multiq) { | |
4194 | if (__netif_subqueue_stopped(dev, fifo->fifo_no)) { | |
4195 | spin_unlock_irqrestore(&fifo->tx_lock, flags); | |
4196 | return NETDEV_TX_BUSY; | |
4197 | } | |
4198 | } else | |
4199 | #endif | |
4200 | if (unlikely(fifo->queue_state == FIFO_QUEUE_STOP)) { | |
4201 | if (netif_queue_stopped(dev)) { | |
4202 | spin_unlock_irqrestore(&fifo->tx_lock, flags); | |
4203 | return NETDEV_TX_BUSY; | |
4204 | } | |
4205 | } | |
4206 | ||
2fda096d SR |
4207 | put_off = (u16) fifo->tx_curr_put_info.offset; |
4208 | get_off = (u16) fifo->tx_curr_get_info.offset; | |
4209 | txdp = (struct TxD *) fifo->list_info[put_off].list_virt_addr; | |
20346722 | 4210 | |
2fda096d | 4211 | queue_len = fifo->tx_curr_put_info.fifo_len + 1; |
1da177e4 | 4212 | /* Avoid "put" pointer going beyond "get" pointer */ |
863c11a9 AR |
4213 | if (txdp->Host_Control || |
4214 | ((put_off+1) == queue_len ? 0 : (put_off+1)) == get_off) { | |
776bd20f | 4215 | DBG_PRINT(TX_DBG, "Error in xmit, No free TXDs.\n"); |
3a3d5756 | 4216 | s2io_stop_tx_queue(sp, fifo->fifo_no); |
1da177e4 | 4217 | dev_kfree_skb(skb); |
2fda096d | 4218 | spin_unlock_irqrestore(&fifo->tx_lock, flags); |
1da177e4 LT |
4219 | return 0; |
4220 | } | |
0b1f7ebe | 4221 | |
75c30b13 | 4222 | offload_type = s2io_offload_type(skb); |
75c30b13 | 4223 | if (offload_type & (SKB_GSO_TCPV4 | SKB_GSO_TCPV6)) { |
1da177e4 | 4224 | txdp->Control_1 |= TXD_TCP_LSO_EN; |
75c30b13 | 4225 | txdp->Control_1 |= TXD_TCP_LSO_MSS(s2io_tcp_mss(skb)); |
1da177e4 | 4226 | } |
84fa7933 | 4227 | if (skb->ip_summed == CHECKSUM_PARTIAL) { |
1da177e4 LT |
4228 | txdp->Control_2 |= |
4229 | (TXD_TX_CKO_IPV4_EN | TXD_TX_CKO_TCP_EN | | |
4230 | TXD_TX_CKO_UDP_EN); | |
4231 | } | |
fed5eccd AR |
4232 | txdp->Control_1 |= TXD_GATHER_CODE_FIRST; |
4233 | txdp->Control_1 |= TXD_LIST_OWN_XENA; | |
2fda096d | 4234 | txdp->Control_2 |= TXD_INT_NUMBER(fifo->fifo_no); |
6cfc482b SH |
4235 | if (enable_per_list_interrupt) |
4236 | if (put_off & (queue_len >> 5)) | |
4237 | txdp->Control_2 |= TXD_INT_TYPE_PER_LIST; | |
3a3d5756 | 4238 | if (vlan_tag) { |
be3a6b02 K |
4239 | txdp->Control_2 |= TXD_VLAN_ENABLE; |
4240 | txdp->Control_2 |= TXD_VLAN_TAG(vlan_tag); | |
4241 | } | |
4242 | ||
fed5eccd | 4243 | frg_len = skb->len - skb->data_len; |
75c30b13 | 4244 | if (offload_type == SKB_GSO_UDP) { |
fed5eccd AR |
4245 | int ufo_size; |
4246 | ||
75c30b13 | 4247 | ufo_size = s2io_udp_mss(skb); |
fed5eccd AR |
4248 | ufo_size &= ~7; |
4249 | txdp->Control_1 |= TXD_UFO_EN; | |
4250 | txdp->Control_1 |= TXD_UFO_MSS(ufo_size); | |
4251 | txdp->Control_1 |= TXD_BUFFER0_SIZE(8); | |
4252 | #ifdef __BIG_ENDIAN | |
3459feb8 | 4253 | /* both variants do cpu_to_be64(be32_to_cpu(...)) */ |
2fda096d | 4254 | fifo->ufo_in_band_v[put_off] = |
3459feb8 | 4255 | (__force u64)skb_shinfo(skb)->ip6_frag_id; |
fed5eccd | 4256 | #else |
2fda096d | 4257 | fifo->ufo_in_band_v[put_off] = |
3459feb8 | 4258 | (__force u64)skb_shinfo(skb)->ip6_frag_id << 32; |
fed5eccd | 4259 | #endif |
2fda096d | 4260 | txdp->Host_Control = (unsigned long)fifo->ufo_in_band_v; |
fed5eccd | 4261 | txdp->Buffer_Pointer = pci_map_single(sp->pdev, |
2fda096d | 4262 | fifo->ufo_in_band_v, |
fed5eccd | 4263 | sizeof(u64), PCI_DMA_TODEVICE); |
64c42f69 | 4264 | if (pci_dma_mapping_error(txdp->Buffer_Pointer)) |
491abf25 | 4265 | goto pci_map_failed; |
fed5eccd | 4266 | txdp++; |
fed5eccd | 4267 | } |
1da177e4 | 4268 | |
fed5eccd AR |
4269 | txdp->Buffer_Pointer = pci_map_single |
4270 | (sp->pdev, skb->data, frg_len, PCI_DMA_TODEVICE); | |
64c42f69 | 4271 | if (pci_dma_mapping_error(txdp->Buffer_Pointer)) |
491abf25 VP |
4272 | goto pci_map_failed; |
4273 | ||
fed5eccd AR |
4274 | txdp->Host_Control = (unsigned long) skb; |
4275 | txdp->Control_1 |= TXD_BUFFER0_SIZE(frg_len); | |
75c30b13 | 4276 | if (offload_type == SKB_GSO_UDP) |
fed5eccd AR |
4277 | txdp->Control_1 |= TXD_UFO_EN; |
4278 | ||
4279 | frg_cnt = skb_shinfo(skb)->nr_frags; | |
1da177e4 LT |
4280 | /* For fragmented SKB. */ |
4281 | for (i = 0; i < frg_cnt; i++) { | |
4282 | skb_frag_t *frag = &skb_shinfo(skb)->frags[i]; | |
0b1f7ebe K |
4283 | /* A '0' length fragment will be ignored */ |
4284 | if (!frag->size) | |
4285 | continue; | |
1da177e4 LT |
4286 | txdp++; |
4287 | txdp->Buffer_Pointer = (u64) pci_map_page | |
4288 | (sp->pdev, frag->page, frag->page_offset, | |
4289 | frag->size, PCI_DMA_TODEVICE); | |
efd51b5c | 4290 | txdp->Control_1 = TXD_BUFFER0_SIZE(frag->size); |
75c30b13 | 4291 | if (offload_type == SKB_GSO_UDP) |
fed5eccd | 4292 | txdp->Control_1 |= TXD_UFO_EN; |
1da177e4 LT |
4293 | } |
4294 | txdp->Control_1 |= TXD_GATHER_CODE_LAST; | |
4295 | ||
75c30b13 | 4296 | if (offload_type == SKB_GSO_UDP) |
fed5eccd AR |
4297 | frg_cnt++; /* as Txd0 was used for inband header */ |
4298 | ||
1da177e4 | 4299 | tx_fifo = mac_control->tx_FIFO_start[queue]; |
2fda096d | 4300 | val64 = fifo->list_info[put_off].list_phy_addr; |
1da177e4 LT |
4301 | writeq(val64, &tx_fifo->TxDL_Pointer); |
4302 | ||
4303 | val64 = (TX_FIFO_LAST_TXD_NUM(frg_cnt) | TX_FIFO_FIRST_LIST | | |
4304 | TX_FIFO_LAST_LIST); | |
75c30b13 | 4305 | if (offload_type) |
fed5eccd | 4306 | val64 |= TX_FIFO_SPECIAL_FUNC; |
75c30b13 | 4307 | |
1da177e4 LT |
4308 | writeq(val64, &tx_fifo->List_Control); |
4309 | ||
303bcb4b K |
4310 | mmiowb(); |
4311 | ||
1da177e4 | 4312 | put_off++; |
2fda096d | 4313 | if (put_off == fifo->tx_curr_put_info.fifo_len + 1) |
863c11a9 | 4314 | put_off = 0; |
2fda096d | 4315 | fifo->tx_curr_put_info.offset = put_off; |
1da177e4 LT |
4316 | |
4317 | /* Avoid "put" pointer going beyond "get" pointer */ | |
863c11a9 | 4318 | if (((put_off+1) == queue_len ? 0 : (put_off+1)) == get_off) { |
bd1034f0 | 4319 | sp->mac_control.stats_info->sw_stat.fifo_full_cnt++; |
1da177e4 LT |
4320 | DBG_PRINT(TX_DBG, |
4321 | "No free TxDs for xmit, Put: 0x%x Get:0x%x\n", | |
4322 | put_off, get_off); | |
3a3d5756 | 4323 | s2io_stop_tx_queue(sp, fifo->fifo_no); |
1da177e4 | 4324 | } |
491976b2 | 4325 | mac_control->stats_info->sw_stat.mem_allocated += skb->truesize; |
1da177e4 | 4326 | dev->trans_start = jiffies; |
2fda096d | 4327 | spin_unlock_irqrestore(&fifo->tx_lock, flags); |
1da177e4 | 4328 | |
f6f4bfa3 SH |
4329 | if (sp->config.intr_type == MSI_X) |
4330 | tx_intr_handler(fifo); | |
4331 | ||
491abf25 VP |
4332 | return 0; |
4333 | pci_map_failed: | |
4334 | stats->pci_map_fail_cnt++; | |
3a3d5756 | 4335 | s2io_stop_tx_queue(sp, fifo->fifo_no); |
491abf25 VP |
4336 | stats->mem_freed += skb->truesize; |
4337 | dev_kfree_skb(skb); | |
2fda096d | 4338 | spin_unlock_irqrestore(&fifo->tx_lock, flags); |
1da177e4 LT |
4339 | return 0; |
4340 | } | |
4341 | ||
25fff88e K |
4342 | static void |
4343 | s2io_alarm_handle(unsigned long data) | |
4344 | { | |
1ee6dd77 | 4345 | struct s2io_nic *sp = (struct s2io_nic *)data; |
8116f3cf | 4346 | struct net_device *dev = sp->dev; |
25fff88e | 4347 | |
8116f3cf | 4348 | s2io_handle_errors(dev); |
25fff88e K |
4349 | mod_timer(&sp->alarm_timer, jiffies + HZ / 2); |
4350 | } | |
4351 | ||
7d12e780 | 4352 | static irqreturn_t s2io_msix_ring_handle(int irq, void *dev_id) |
cc6e7c44 | 4353 | { |
1ee6dd77 RB |
4354 | struct ring_info *ring = (struct ring_info *)dev_id; |
4355 | struct s2io_nic *sp = ring->nic; | |
f61e0a35 SH |
4356 | struct XENA_dev_config __iomem *bar0 = sp->bar0; |
4357 | struct net_device *dev = sp->dev; | |
cc6e7c44 | 4358 | |
f61e0a35 | 4359 | if (unlikely(!is_s2io_card_up(sp))) |
92b84437 | 4360 | return IRQ_HANDLED; |
92b84437 | 4361 | |
f61e0a35 | 4362 | if (sp->config.napi) { |
1a79d1c3 AV |
4363 | u8 __iomem *addr = NULL; |
4364 | u8 val8 = 0; | |
f61e0a35 | 4365 | |
1a79d1c3 | 4366 | addr = (u8 __iomem *)&bar0->xmsi_mask_reg; |
f61e0a35 SH |
4367 | addr += (7 - ring->ring_no); |
4368 | val8 = (ring->ring_no == 0) ? 0x7f : 0xff; | |
4369 | writeb(val8, addr); | |
4370 | val8 = readb(addr); | |
4371 | netif_rx_schedule(dev, &ring->napi); | |
4372 | } else { | |
4373 | rx_intr_handler(ring, 0); | |
4374 | s2io_chk_rx_buffers(ring); | |
4375 | } | |
7d3d0439 | 4376 | |
cc6e7c44 RA |
4377 | return IRQ_HANDLED; |
4378 | } | |
4379 | ||
7d12e780 | 4380 | static irqreturn_t s2io_msix_fifo_handle(int irq, void *dev_id) |
cc6e7c44 | 4381 | { |
ac731ab6 SH |
4382 | int i; |
4383 | struct fifo_info *fifos = (struct fifo_info *)dev_id; | |
4384 | struct s2io_nic *sp = fifos->nic; | |
4385 | struct XENA_dev_config __iomem *bar0 = sp->bar0; | |
4386 | struct config_param *config = &sp->config; | |
4387 | u64 reason; | |
cc6e7c44 | 4388 | |
ac731ab6 SH |
4389 | if (unlikely(!is_s2io_card_up(sp))) |
4390 | return IRQ_NONE; | |
4391 | ||
4392 | reason = readq(&bar0->general_int_status); | |
4393 | if (unlikely(reason == S2IO_MINUS_ONE)) | |
4394 | /* Nothing much can be done. Get out */ | |
92b84437 | 4395 | return IRQ_HANDLED; |
92b84437 | 4396 | |
ac731ab6 SH |
4397 | writeq(S2IO_MINUS_ONE, &bar0->general_int_mask); |
4398 | ||
4399 | if (reason & GEN_INTR_TXTRAFFIC) | |
4400 | writeq(S2IO_MINUS_ONE, &bar0->tx_traffic_int); | |
4401 | ||
4402 | for (i = 0; i < config->tx_fifo_num; i++) | |
4403 | tx_intr_handler(&fifos[i]); | |
4404 | ||
4405 | writeq(sp->general_int_mask, &bar0->general_int_mask); | |
4406 | readl(&bar0->general_int_status); | |
4407 | ||
cc6e7c44 RA |
4408 | return IRQ_HANDLED; |
4409 | } | |
ac731ab6 | 4410 | |
1ee6dd77 | 4411 | static void s2io_txpic_intr_handle(struct s2io_nic *sp) |
a371a07d | 4412 | { |
1ee6dd77 | 4413 | struct XENA_dev_config __iomem *bar0 = sp->bar0; |
a371a07d K |
4414 | u64 val64; |
4415 | ||
4416 | val64 = readq(&bar0->pic_int_status); | |
4417 | if (val64 & PIC_INT_GPIO) { | |
4418 | val64 = readq(&bar0->gpio_int_reg); | |
4419 | if ((val64 & GPIO_INT_REG_LINK_DOWN) && | |
4420 | (val64 & GPIO_INT_REG_LINK_UP)) { | |
c92ca04b AR |
4421 | /* |
4422 | * This is unstable state so clear both up/down | |
4423 | * interrupt and adapter to re-evaluate the link state. | |
4424 | */ | |
a371a07d K |
4425 | val64 |= GPIO_INT_REG_LINK_DOWN; |
4426 | val64 |= GPIO_INT_REG_LINK_UP; | |
4427 | writeq(val64, &bar0->gpio_int_reg); | |
a371a07d | 4428 | val64 = readq(&bar0->gpio_int_mask); |
c92ca04b AR |
4429 | val64 &= ~(GPIO_INT_MASK_LINK_UP | |
4430 | GPIO_INT_MASK_LINK_DOWN); | |
a371a07d | 4431 | writeq(val64, &bar0->gpio_int_mask); |
a371a07d | 4432 | } |
c92ca04b AR |
4433 | else if (val64 & GPIO_INT_REG_LINK_UP) { |
4434 | val64 = readq(&bar0->adapter_status); | |
c92ca04b | 4435 | /* Enable Adapter */ |
19a60522 SS |
4436 | val64 = readq(&bar0->adapter_control); |
4437 | val64 |= ADAPTER_CNTL_EN; | |
4438 | writeq(val64, &bar0->adapter_control); | |
4439 | val64 |= ADAPTER_LED_ON; | |
4440 | writeq(val64, &bar0->adapter_control); | |
4441 | if (!sp->device_enabled_once) | |
4442 | sp->device_enabled_once = 1; | |
c92ca04b | 4443 | |
19a60522 SS |
4444 | s2io_link(sp, LINK_UP); |
4445 | /* | |
4446 | * unmask link down interrupt and mask link-up | |
4447 | * intr | |
4448 | */ | |
4449 | val64 = readq(&bar0->gpio_int_mask); | |
4450 | val64 &= ~GPIO_INT_MASK_LINK_DOWN; | |
4451 | val64 |= GPIO_INT_MASK_LINK_UP; | |
4452 | writeq(val64, &bar0->gpio_int_mask); | |
c92ca04b | 4453 | |
c92ca04b AR |
4454 | }else if (val64 & GPIO_INT_REG_LINK_DOWN) { |
4455 | val64 = readq(&bar0->adapter_status); | |
19a60522 SS |
4456 | s2io_link(sp, LINK_DOWN); |
4457 | /* Link is down so unmaks link up interrupt */ | |
4458 | val64 = readq(&bar0->gpio_int_mask); | |
4459 | val64 &= ~GPIO_INT_MASK_LINK_UP; | |
4460 | val64 |= GPIO_INT_MASK_LINK_DOWN; | |
4461 | writeq(val64, &bar0->gpio_int_mask); | |
ac1f90d6 SS |
4462 | |
4463 | /* turn off LED */ | |
4464 | val64 = readq(&bar0->adapter_control); | |
4465 | val64 = val64 &(~ADAPTER_LED_ON); | |
4466 | writeq(val64, &bar0->adapter_control); | |
a371a07d K |
4467 | } |
4468 | } | |
c92ca04b | 4469 | val64 = readq(&bar0->gpio_int_mask); |
a371a07d K |
4470 | } |
4471 | ||
8116f3cf SS |
4472 | /** |
4473 | * do_s2io_chk_alarm_bit - Check for alarm and incrment the counter | |
4474 | * @value: alarm bits | |
4475 | * @addr: address value | |
4476 | * @cnt: counter variable | |
4477 | * Description: Check for alarm and increment the counter | |
4478 | * Return Value: | |
4479 | * 1 - if alarm bit set | |
4480 | * 0 - if alarm bit is not set | |
4481 | */ | |
43b7c451 | 4482 | static int do_s2io_chk_alarm_bit(u64 value, void __iomem * addr, |
8116f3cf SS |
4483 | unsigned long long *cnt) |
4484 | { | |
4485 | u64 val64; | |
4486 | val64 = readq(addr); | |
4487 | if ( val64 & value ) { | |
4488 | writeq(val64, addr); | |
4489 | (*cnt)++; | |
4490 | return 1; | |
4491 | } | |
4492 | return 0; | |
4493 | ||
4494 | } | |
4495 | ||
4496 | /** | |
4497 | * s2io_handle_errors - Xframe error indication handler | |
4498 | * @nic: device private variable | |
4499 | * Description: Handle alarms such as loss of link, single or | |
4500 | * double ECC errors, critical and serious errors. | |
4501 | * Return Value: | |
4502 | * NONE | |
4503 | */ | |
4504 | static void s2io_handle_errors(void * dev_id) | |
4505 | { | |
4506 | struct net_device *dev = (struct net_device *) dev_id; | |
4507 | struct s2io_nic *sp = dev->priv; | |
4508 | struct XENA_dev_config __iomem *bar0 = sp->bar0; | |
4509 | u64 temp64 = 0,val64=0; | |
4510 | int i = 0; | |
4511 | ||
4512 | struct swStat *sw_stat = &sp->mac_control.stats_info->sw_stat; | |
4513 | struct xpakStat *stats = &sp->mac_control.stats_info->xpak_stat; | |
4514 | ||
92b84437 | 4515 | if (!is_s2io_card_up(sp)) |
8116f3cf SS |
4516 | return; |
4517 | ||
4518 | if (pci_channel_offline(sp->pdev)) | |
4519 | return; | |
4520 | ||
4521 | memset(&sw_stat->ring_full_cnt, 0, | |
4522 | sizeof(sw_stat->ring_full_cnt)); | |
4523 | ||
4524 | /* Handling the XPAK counters update */ | |
4525 | if(stats->xpak_timer_count < 72000) { | |
4526 | /* waiting for an hour */ | |
4527 | stats->xpak_timer_count++; | |
4528 | } else { | |
4529 | s2io_updt_xpak_counter(dev); | |
4530 | /* reset the count to zero */ | |
4531 | stats->xpak_timer_count = 0; | |
4532 | } | |
4533 | ||
4534 | /* Handling link status change error Intr */ | |
4535 | if (s2io_link_fault_indication(sp) == MAC_RMAC_ERR_TIMER) { | |
4536 | val64 = readq(&bar0->mac_rmac_err_reg); | |
4537 | writeq(val64, &bar0->mac_rmac_err_reg); | |
4538 | if (val64 & RMAC_LINK_STATE_CHANGE_INT) | |
4539 | schedule_work(&sp->set_link_task); | |
4540 | } | |
4541 | ||
4542 | /* In case of a serious error, the device will be Reset. */ | |
4543 | if (do_s2io_chk_alarm_bit(SERR_SOURCE_ANY, &bar0->serr_source, | |
4544 | &sw_stat->serious_err_cnt)) | |
4545 | goto reset; | |
4546 | ||
4547 | /* Check for data parity error */ | |
4548 | if (do_s2io_chk_alarm_bit(GPIO_INT_REG_DP_ERR_INT, &bar0->gpio_int_reg, | |
4549 | &sw_stat->parity_err_cnt)) | |
4550 | goto reset; | |
4551 | ||
4552 | /* Check for ring full counter */ | |
4553 | if (sp->device_type == XFRAME_II_DEVICE) { | |
4554 | val64 = readq(&bar0->ring_bump_counter1); | |
4555 | for (i=0; i<4; i++) { | |
4556 | temp64 = ( val64 & vBIT(0xFFFF,(i*16),16)); | |
4557 | temp64 >>= 64 - ((i+1)*16); | |
4558 | sw_stat->ring_full_cnt[i] += temp64; | |
4559 | } | |
4560 | ||
4561 | val64 = readq(&bar0->ring_bump_counter2); | |
4562 | for (i=0; i<4; i++) { | |
4563 | temp64 = ( val64 & vBIT(0xFFFF,(i*16),16)); | |
4564 | temp64 >>= 64 - ((i+1)*16); | |
4565 | sw_stat->ring_full_cnt[i+4] += temp64; | |
4566 | } | |
4567 | } | |
4568 | ||
4569 | val64 = readq(&bar0->txdma_int_status); | |
4570 | /*check for pfc_err*/ | |
4571 | if (val64 & TXDMA_PFC_INT) { | |
4572 | if (do_s2io_chk_alarm_bit(PFC_ECC_DB_ERR | PFC_SM_ERR_ALARM| | |
4573 | PFC_MISC_0_ERR | PFC_MISC_1_ERR| | |
4574 | PFC_PCIX_ERR, &bar0->pfc_err_reg, | |
4575 | &sw_stat->pfc_err_cnt)) | |
4576 | goto reset; | |
4577 | do_s2io_chk_alarm_bit(PFC_ECC_SG_ERR, &bar0->pfc_err_reg, | |
4578 | &sw_stat->pfc_err_cnt); | |
4579 | } | |
4580 | ||
4581 | /*check for tda_err*/ | |
4582 | if (val64 & TXDMA_TDA_INT) { | |
4583 | if(do_s2io_chk_alarm_bit(TDA_Fn_ECC_DB_ERR | TDA_SM0_ERR_ALARM | | |
4584 | TDA_SM1_ERR_ALARM, &bar0->tda_err_reg, | |
4585 | &sw_stat->tda_err_cnt)) | |
4586 | goto reset; | |
4587 | do_s2io_chk_alarm_bit(TDA_Fn_ECC_SG_ERR | TDA_PCIX_ERR, | |
4588 | &bar0->tda_err_reg, &sw_stat->tda_err_cnt); | |
4589 | } | |
4590 | /*check for pcc_err*/ | |
4591 | if (val64 & TXDMA_PCC_INT) { | |
4592 | if (do_s2io_chk_alarm_bit(PCC_SM_ERR_ALARM | PCC_WR_ERR_ALARM | |
4593 | | PCC_N_SERR | PCC_6_COF_OV_ERR | |
4594 | | PCC_7_COF_OV_ERR | PCC_6_LSO_OV_ERR | |
4595 | | PCC_7_LSO_OV_ERR | PCC_FB_ECC_DB_ERR | |
4596 | | PCC_TXB_ECC_DB_ERR, &bar0->pcc_err_reg, | |
4597 | &sw_stat->pcc_err_cnt)) | |
4598 | goto reset; | |
4599 | do_s2io_chk_alarm_bit(PCC_FB_ECC_SG_ERR | PCC_TXB_ECC_SG_ERR, | |
4600 | &bar0->pcc_err_reg, &sw_stat->pcc_err_cnt); | |
4601 | } | |
4602 | ||
4603 | /*check for tti_err*/ | |
4604 | if (val64 & TXDMA_TTI_INT) { | |
4605 | if (do_s2io_chk_alarm_bit(TTI_SM_ERR_ALARM, &bar0->tti_err_reg, | |
4606 | &sw_stat->tti_err_cnt)) | |
4607 | goto reset; | |
4608 | do_s2io_chk_alarm_bit(TTI_ECC_SG_ERR | TTI_ECC_DB_ERR, | |
4609 | &bar0->tti_err_reg, &sw_stat->tti_err_cnt); | |
4610 | } | |
4611 | ||
4612 | /*check for lso_err*/ | |
4613 | if (val64 & TXDMA_LSO_INT) { | |
4614 | if (do_s2io_chk_alarm_bit(LSO6_ABORT | LSO7_ABORT | |
4615 | | LSO6_SM_ERR_ALARM | LSO7_SM_ERR_ALARM, | |
4616 | &bar0->lso_err_reg, &sw_stat->lso_err_cnt)) | |
4617 | goto reset; | |
4618 | do_s2io_chk_alarm_bit(LSO6_SEND_OFLOW | LSO7_SEND_OFLOW, | |
4619 | &bar0->lso_err_reg, &sw_stat->lso_err_cnt); | |
4620 | } | |
4621 | ||
4622 | /*check for tpa_err*/ | |
4623 | if (val64 & TXDMA_TPA_INT) { | |
4624 | if (do_s2io_chk_alarm_bit(TPA_SM_ERR_ALARM, &bar0->tpa_err_reg, | |
4625 | &sw_stat->tpa_err_cnt)) | |
4626 | goto reset; | |
4627 | do_s2io_chk_alarm_bit(TPA_TX_FRM_DROP, &bar0->tpa_err_reg, | |
4628 | &sw_stat->tpa_err_cnt); | |
4629 | } | |
4630 | ||
4631 | /*check for sm_err*/ | |
4632 | if (val64 & TXDMA_SM_INT) { | |
4633 | if (do_s2io_chk_alarm_bit(SM_SM_ERR_ALARM, &bar0->sm_err_reg, | |
4634 | &sw_stat->sm_err_cnt)) | |
4635 | goto reset; | |
4636 | } | |
4637 | ||
4638 | val64 = readq(&bar0->mac_int_status); | |
4639 | if (val64 & MAC_INT_STATUS_TMAC_INT) { | |
4640 | if (do_s2io_chk_alarm_bit(TMAC_TX_BUF_OVRN | TMAC_TX_SM_ERR, | |
4641 | &bar0->mac_tmac_err_reg, | |
4642 | &sw_stat->mac_tmac_err_cnt)) | |
4643 | goto reset; | |
4644 | do_s2io_chk_alarm_bit(TMAC_ECC_SG_ERR | TMAC_ECC_DB_ERR | |
4645 | | TMAC_DESC_ECC_SG_ERR | TMAC_DESC_ECC_DB_ERR, | |
4646 | &bar0->mac_tmac_err_reg, | |
4647 | &sw_stat->mac_tmac_err_cnt); | |
4648 | } | |
4649 | ||
4650 | val64 = readq(&bar0->xgxs_int_status); | |
4651 | if (val64 & XGXS_INT_STATUS_TXGXS) { | |
4652 | if (do_s2io_chk_alarm_bit(TXGXS_ESTORE_UFLOW | TXGXS_TX_SM_ERR, | |
4653 | &bar0->xgxs_txgxs_err_reg, | |
4654 | &sw_stat->xgxs_txgxs_err_cnt)) | |
4655 | goto reset; | |
4656 | do_s2io_chk_alarm_bit(TXGXS_ECC_SG_ERR | TXGXS_ECC_DB_ERR, | |
4657 | &bar0->xgxs_txgxs_err_reg, | |
4658 | &sw_stat->xgxs_txgxs_err_cnt); | |
4659 | } | |
4660 | ||
4661 | val64 = readq(&bar0->rxdma_int_status); | |
4662 | if (val64 & RXDMA_INT_RC_INT_M) { | |
4663 | if (do_s2io_chk_alarm_bit(RC_PRCn_ECC_DB_ERR | RC_FTC_ECC_DB_ERR | |
4664 | | RC_PRCn_SM_ERR_ALARM |RC_FTC_SM_ERR_ALARM, | |
4665 | &bar0->rc_err_reg, &sw_stat->rc_err_cnt)) | |
4666 | goto reset; | |
4667 | do_s2io_chk_alarm_bit(RC_PRCn_ECC_SG_ERR | RC_FTC_ECC_SG_ERR | |
4668 | | RC_RDA_FAIL_WR_Rn, &bar0->rc_err_reg, | |
4669 | &sw_stat->rc_err_cnt); | |
4670 | if (do_s2io_chk_alarm_bit(PRC_PCI_AB_RD_Rn | PRC_PCI_AB_WR_Rn | |
4671 | | PRC_PCI_AB_F_WR_Rn, &bar0->prc_pcix_err_reg, | |
4672 | &sw_stat->prc_pcix_err_cnt)) | |
4673 | goto reset; | |
4674 | do_s2io_chk_alarm_bit(PRC_PCI_DP_RD_Rn | PRC_PCI_DP_WR_Rn | |
4675 | | PRC_PCI_DP_F_WR_Rn, &bar0->prc_pcix_err_reg, | |
4676 | &sw_stat->prc_pcix_err_cnt); | |
4677 | } | |
4678 | ||
4679 | if (val64 & RXDMA_INT_RPA_INT_M) { | |
4680 | if (do_s2io_chk_alarm_bit(RPA_SM_ERR_ALARM | RPA_CREDIT_ERR, | |
4681 | &bar0->rpa_err_reg, &sw_stat->rpa_err_cnt)) | |
4682 | goto reset; | |
4683 | do_s2io_chk_alarm_bit(RPA_ECC_SG_ERR | RPA_ECC_DB_ERR, | |
4684 | &bar0->rpa_err_reg, &sw_stat->rpa_err_cnt); | |
4685 | } | |
4686 | ||
4687 | if (val64 & RXDMA_INT_RDA_INT_M) { | |
4688 | if (do_s2io_chk_alarm_bit(RDA_RXDn_ECC_DB_ERR | |
4689 | | RDA_FRM_ECC_DB_N_AERR | RDA_SM1_ERR_ALARM | |
4690 | | RDA_SM0_ERR_ALARM | RDA_RXD_ECC_DB_SERR, | |
4691 | &bar0->rda_err_reg, &sw_stat->rda_err_cnt)) | |
4692 | goto reset; | |
4693 | do_s2io_chk_alarm_bit(RDA_RXDn_ECC_SG_ERR | RDA_FRM_ECC_SG_ERR | |
4694 | | RDA_MISC_ERR | RDA_PCIX_ERR, | |
4695 | &bar0->rda_err_reg, &sw_stat->rda_err_cnt); | |
4696 | } | |
4697 | ||
4698 | if (val64 & RXDMA_INT_RTI_INT_M) { | |
4699 | if (do_s2io_chk_alarm_bit(RTI_SM_ERR_ALARM, &bar0->rti_err_reg, | |
4700 | &sw_stat->rti_err_cnt)) | |
4701 | goto reset; | |
4702 | do_s2io_chk_alarm_bit(RTI_ECC_SG_ERR | RTI_ECC_DB_ERR, | |
4703 | &bar0->rti_err_reg, &sw_stat->rti_err_cnt); | |
4704 | } | |
4705 | ||
4706 | val64 = readq(&bar0->mac_int_status); | |
4707 | if (val64 & MAC_INT_STATUS_RMAC_INT) { | |
4708 | if (do_s2io_chk_alarm_bit(RMAC_RX_BUFF_OVRN | RMAC_RX_SM_ERR, | |
4709 | &bar0->mac_rmac_err_reg, | |
4710 | &sw_stat->mac_rmac_err_cnt)) | |
4711 | goto reset; | |
4712 | do_s2io_chk_alarm_bit(RMAC_UNUSED_INT|RMAC_SINGLE_ECC_ERR| | |
4713 | RMAC_DOUBLE_ECC_ERR, &bar0->mac_rmac_err_reg, | |
4714 | &sw_stat->mac_rmac_err_cnt); | |
4715 | } | |
4716 | ||
4717 | val64 = readq(&bar0->xgxs_int_status); | |
4718 | if (val64 & XGXS_INT_STATUS_RXGXS) { | |
4719 | if (do_s2io_chk_alarm_bit(RXGXS_ESTORE_OFLOW | RXGXS_RX_SM_ERR, | |
4720 | &bar0->xgxs_rxgxs_err_reg, | |
4721 | &sw_stat->xgxs_rxgxs_err_cnt)) | |
4722 | goto reset; | |
4723 | } | |
4724 | ||
4725 | val64 = readq(&bar0->mc_int_status); | |
4726 | if(val64 & MC_INT_STATUS_MC_INT) { | |
4727 | if (do_s2io_chk_alarm_bit(MC_ERR_REG_SM_ERR, &bar0->mc_err_reg, | |
4728 | &sw_stat->mc_err_cnt)) | |
4729 | goto reset; | |
4730 | ||
4731 | /* Handling Ecc errors */ | |
4732 | if (val64 & (MC_ERR_REG_ECC_ALL_SNG | MC_ERR_REG_ECC_ALL_DBL)) { | |
4733 | writeq(val64, &bar0->mc_err_reg); | |
4734 | if (val64 & MC_ERR_REG_ECC_ALL_DBL) { | |
4735 | sw_stat->double_ecc_errs++; | |
4736 | if (sp->device_type != XFRAME_II_DEVICE) { | |
4737 | /* | |
4738 | * Reset XframeI only if critical error | |
4739 | */ | |
4740 | if (val64 & | |
4741 | (MC_ERR_REG_MIRI_ECC_DB_ERR_0 | | |
4742 | MC_ERR_REG_MIRI_ECC_DB_ERR_1)) | |
4743 | goto reset; | |
4744 | } | |
4745 | } else | |
4746 | sw_stat->single_ecc_errs++; | |
4747 | } | |
4748 | } | |
4749 | return; | |
4750 | ||
4751 | reset: | |
3a3d5756 | 4752 | s2io_stop_all_tx_queue(sp); |
8116f3cf SS |
4753 | schedule_work(&sp->rst_timer_task); |
4754 | sw_stat->soft_reset_cnt++; | |
4755 | return; | |
4756 | } | |
4757 | ||
1da177e4 LT |
4758 | /** |
4759 | * s2io_isr - ISR handler of the device . | |
4760 | * @irq: the irq of the device. | |
4761 | * @dev_id: a void pointer to the dev structure of the NIC. | |
20346722 K |
4762 | * Description: This function is the ISR handler of the device. It |
4763 | * identifies the reason for the interrupt and calls the relevant | |
4764 | * service routines. As a contongency measure, this ISR allocates the | |
1da177e4 LT |
4765 | * recv buffers, if their numbers are below the panic value which is |
4766 | * presently set to 25% of the original number of rcv buffers allocated. | |
4767 | * Return value: | |
20346722 | 4768 | * IRQ_HANDLED: will be returned if IRQ was handled by this routine |
1da177e4 LT |
4769 | * IRQ_NONE: will be returned if interrupt is not from our device |
4770 | */ | |
7d12e780 | 4771 | static irqreturn_t s2io_isr(int irq, void *dev_id) |
1da177e4 LT |
4772 | { |
4773 | struct net_device *dev = (struct net_device *) dev_id; | |
1ee6dd77 RB |
4774 | struct s2io_nic *sp = dev->priv; |
4775 | struct XENA_dev_config __iomem *bar0 = sp->bar0; | |
20346722 | 4776 | int i; |
19a60522 | 4777 | u64 reason = 0; |
1ee6dd77 | 4778 | struct mac_info *mac_control; |
1da177e4 LT |
4779 | struct config_param *config; |
4780 | ||
d796fdb7 LV |
4781 | /* Pretend we handled any irq's from a disconnected card */ |
4782 | if (pci_channel_offline(sp->pdev)) | |
4783 | return IRQ_NONE; | |
4784 | ||
596c5c97 | 4785 | if (!is_s2io_card_up(sp)) |
92b84437 | 4786 | return IRQ_NONE; |
92b84437 | 4787 | |
1da177e4 LT |
4788 | mac_control = &sp->mac_control; |
4789 | config = &sp->config; | |
4790 | ||
20346722 | 4791 | /* |
1da177e4 LT |
4792 | * Identify the cause for interrupt and call the appropriate |
4793 | * interrupt handler. Causes for the interrupt could be; | |
4794 | * 1. Rx of packet. | |
4795 | * 2. Tx complete. | |
4796 | * 3. Link down. | |
1da177e4 LT |
4797 | */ |
4798 | reason = readq(&bar0->general_int_status); | |
4799 | ||
596c5c97 SS |
4800 | if (unlikely(reason == S2IO_MINUS_ONE) ) { |
4801 | /* Nothing much can be done. Get out */ | |
4802 | return IRQ_HANDLED; | |
1da177e4 | 4803 | } |
5d3213cc | 4804 | |
596c5c97 SS |
4805 | if (reason & (GEN_INTR_RXTRAFFIC | |
4806 | GEN_INTR_TXTRAFFIC | GEN_INTR_TXPIC)) | |
4807 | { | |
4808 | writeq(S2IO_MINUS_ONE, &bar0->general_int_mask); | |
4809 | ||
4810 | if (config->napi) { | |
4811 | if (reason & GEN_INTR_RXTRAFFIC) { | |
f61e0a35 SH |
4812 | netif_rx_schedule(dev, &sp->napi); |
4813 | writeq(S2IO_MINUS_ONE, &bar0->rx_traffic_mask); | |
4814 | writeq(S2IO_MINUS_ONE, &bar0->rx_traffic_int); | |
4815 | readl(&bar0->rx_traffic_int); | |
db874e65 | 4816 | } |
596c5c97 SS |
4817 | } else { |
4818 | /* | |
4819 | * rx_traffic_int reg is an R1 register, writing all 1's | |
4820 | * will ensure that the actual interrupt causing bit | |
4821 | * get's cleared and hence a read can be avoided. | |
4822 | */ | |
4823 | if (reason & GEN_INTR_RXTRAFFIC) | |
19a60522 | 4824 | writeq(S2IO_MINUS_ONE, &bar0->rx_traffic_int); |
596c5c97 SS |
4825 | |
4826 | for (i = 0; i < config->rx_ring_num; i++) | |
f61e0a35 | 4827 | rx_intr_handler(&mac_control->rings[i], 0); |
db874e65 | 4828 | } |
596c5c97 | 4829 | |
db874e65 | 4830 | /* |
596c5c97 | 4831 | * tx_traffic_int reg is an R1 register, writing all 1's |
db874e65 SS |
4832 | * will ensure that the actual interrupt causing bit get's |
4833 | * cleared and hence a read can be avoided. | |
4834 | */ | |
596c5c97 SS |
4835 | if (reason & GEN_INTR_TXTRAFFIC) |
4836 | writeq(S2IO_MINUS_ONE, &bar0->tx_traffic_int); | |
19a60522 | 4837 | |
596c5c97 SS |
4838 | for (i = 0; i < config->tx_fifo_num; i++) |
4839 | tx_intr_handler(&mac_control->fifos[i]); | |
1da177e4 | 4840 | |
596c5c97 SS |
4841 | if (reason & GEN_INTR_TXPIC) |
4842 | s2io_txpic_intr_handle(sp); | |
fe113638 | 4843 | |
596c5c97 SS |
4844 | /* |
4845 | * Reallocate the buffers from the interrupt handler itself. | |
4846 | */ | |
4847 | if (!config->napi) { | |
4848 | for (i = 0; i < config->rx_ring_num; i++) | |
0425b46a | 4849 | s2io_chk_rx_buffers(&mac_control->rings[i]); |
596c5c97 SS |
4850 | } |
4851 | writeq(sp->general_int_mask, &bar0->general_int_mask); | |
4852 | readl(&bar0->general_int_status); | |
20346722 | 4853 | |
596c5c97 | 4854 | return IRQ_HANDLED; |
db874e65 | 4855 | |
596c5c97 SS |
4856 | } |
4857 | else if (!reason) { | |
4858 | /* The interrupt was not raised by us */ | |
4859 | return IRQ_NONE; | |
4860 | } | |
db874e65 | 4861 | |
1da177e4 LT |
4862 | return IRQ_HANDLED; |
4863 | } | |
4864 | ||
7ba013ac K |
4865 | /** |
4866 | * s2io_updt_stats - | |
4867 | */ | |
1ee6dd77 | 4868 | static void s2io_updt_stats(struct s2io_nic *sp) |
7ba013ac | 4869 | { |
1ee6dd77 | 4870 | struct XENA_dev_config __iomem *bar0 = sp->bar0; |
7ba013ac K |
4871 | u64 val64; |
4872 | int cnt = 0; | |
4873 | ||
92b84437 | 4874 | if (is_s2io_card_up(sp)) { |
7ba013ac K |
4875 | /* Apprx 30us on a 133 MHz bus */ |
4876 | val64 = SET_UPDT_CLICKS(10) | | |
4877 | STAT_CFG_ONE_SHOT_EN | STAT_CFG_STAT_EN; | |
4878 | writeq(val64, &bar0->stat_cfg); | |
4879 | do { | |
4880 | udelay(100); | |
4881 | val64 = readq(&bar0->stat_cfg); | |
b7b5a128 | 4882 | if (!(val64 & s2BIT(0))) |
7ba013ac K |
4883 | break; |
4884 | cnt++; | |
4885 | if (cnt == 5) | |
4886 | break; /* Updt failed */ | |
4887 | } while(1); | |
8a4bdbaa | 4888 | } |
7ba013ac K |
4889 | } |
4890 | ||
1da177e4 | 4891 | /** |
20346722 | 4892 | * s2io_get_stats - Updates the device statistics structure. |
1da177e4 LT |
4893 | * @dev : pointer to the device structure. |
4894 | * Description: | |
20346722 | 4895 | * This function updates the device statistics structure in the s2io_nic |
1da177e4 LT |
4896 | * structure and returns a pointer to the same. |
4897 | * Return value: | |
4898 | * pointer to the updated net_device_stats structure. | |
4899 | */ | |
4900 | ||
ac1f60db | 4901 | static struct net_device_stats *s2io_get_stats(struct net_device *dev) |
1da177e4 | 4902 | { |
1ee6dd77 RB |
4903 | struct s2io_nic *sp = dev->priv; |
4904 | struct mac_info *mac_control; | |
1da177e4 | 4905 | struct config_param *config; |
0425b46a | 4906 | int i; |
1da177e4 | 4907 | |
20346722 | 4908 | |
1da177e4 LT |
4909 | mac_control = &sp->mac_control; |
4910 | config = &sp->config; | |
4911 | ||
7ba013ac K |
4912 | /* Configure Stats for immediate updt */ |
4913 | s2io_updt_stats(sp); | |
4914 | ||
4915 | sp->stats.tx_packets = | |
4916 | le32_to_cpu(mac_control->stats_info->tmac_frms); | |
20346722 K |
4917 | sp->stats.tx_errors = |
4918 | le32_to_cpu(mac_control->stats_info->tmac_any_err_frms); | |
4919 | sp->stats.rx_errors = | |
ee705dba | 4920 | le64_to_cpu(mac_control->stats_info->rmac_drop_frms); |
20346722 K |
4921 | sp->stats.multicast = |
4922 | le32_to_cpu(mac_control->stats_info->rmac_vld_mcst_frms); | |
1da177e4 | 4923 | sp->stats.rx_length_errors = |
ee705dba | 4924 | le64_to_cpu(mac_control->stats_info->rmac_long_frms); |
1da177e4 | 4925 | |
0425b46a SH |
4926 | /* collect per-ring rx_packets and rx_bytes */ |
4927 | sp->stats.rx_packets = sp->stats.rx_bytes = 0; | |
4928 | for (i = 0; i < config->rx_ring_num; i++) { | |
4929 | sp->stats.rx_packets += mac_control->rings[i].rx_packets; | |
4930 | sp->stats.rx_bytes += mac_control->rings[i].rx_bytes; | |
4931 | } | |
4932 | ||
1da177e4 LT |
4933 | return (&sp->stats); |
4934 | } | |
4935 | ||
4936 | /** | |
4937 | * s2io_set_multicast - entry point for multicast address enable/disable. | |
4938 | * @dev : pointer to the device structure | |
4939 | * Description: | |
20346722 K |
4940 | * This function is a driver entry point which gets called by the kernel |
4941 | * whenever multicast addresses must be enabled/disabled. This also gets | |
1da177e4 LT |
4942 | * called to set/reset promiscuous mode. Depending on the deivce flag, we |
4943 | * determine, if multicast address must be enabled or if promiscuous mode | |
4944 | * is to be disabled etc. | |
4945 | * Return value: | |
4946 | * void. | |
4947 | */ | |
4948 | ||
4949 | static void s2io_set_multicast(struct net_device *dev) | |
4950 | { | |
4951 | int i, j, prev_cnt; | |
4952 | struct dev_mc_list *mclist; | |
1ee6dd77 RB |
4953 | struct s2io_nic *sp = dev->priv; |
4954 | struct XENA_dev_config __iomem *bar0 = sp->bar0; | |
1da177e4 LT |
4955 | u64 val64 = 0, multi_mac = 0x010203040506ULL, mask = |
4956 | 0xfeffffffffffULL; | |
faa4f796 | 4957 | u64 dis_addr = S2IO_DISABLE_MAC_ENTRY, mac_addr = 0; |
1da177e4 | 4958 | void __iomem *add; |
faa4f796 | 4959 | struct config_param *config = &sp->config; |
1da177e4 LT |
4960 | |
4961 | if ((dev->flags & IFF_ALLMULTI) && (!sp->m_cast_flg)) { | |
4962 | /* Enable all Multicast addresses */ | |
4963 | writeq(RMAC_ADDR_DATA0_MEM_ADDR(multi_mac), | |
4964 | &bar0->rmac_addr_data0_mem); | |
4965 | writeq(RMAC_ADDR_DATA1_MEM_MASK(mask), | |
4966 | &bar0->rmac_addr_data1_mem); | |
4967 | val64 = RMAC_ADDR_CMD_MEM_WE | | |
4968 | RMAC_ADDR_CMD_MEM_STROBE_NEW_CMD | | |
faa4f796 | 4969 | RMAC_ADDR_CMD_MEM_OFFSET(config->max_mc_addr - 1); |
1da177e4 LT |
4970 | writeq(val64, &bar0->rmac_addr_cmd_mem); |
4971 | /* Wait till command completes */ | |
c92ca04b | 4972 | wait_for_cmd_complete(&bar0->rmac_addr_cmd_mem, |
9fc93a41 SS |
4973 | RMAC_ADDR_CMD_MEM_STROBE_CMD_EXECUTING, |
4974 | S2IO_BIT_RESET); | |
1da177e4 LT |
4975 | |
4976 | sp->m_cast_flg = 1; | |
faa4f796 | 4977 | sp->all_multi_pos = config->max_mc_addr - 1; |
1da177e4 LT |
4978 | } else if ((dev->flags & IFF_ALLMULTI) && (sp->m_cast_flg)) { |
4979 | /* Disable all Multicast addresses */ | |
4980 | writeq(RMAC_ADDR_DATA0_MEM_ADDR(dis_addr), | |
4981 | &bar0->rmac_addr_data0_mem); | |
5e25b9dd K |
4982 | writeq(RMAC_ADDR_DATA1_MEM_MASK(0x0), |
4983 | &bar0->rmac_addr_data1_mem); | |
1da177e4 LT |
4984 | val64 = RMAC_ADDR_CMD_MEM_WE | |
4985 | RMAC_ADDR_CMD_MEM_STROBE_NEW_CMD | | |
4986 | RMAC_ADDR_CMD_MEM_OFFSET(sp->all_multi_pos); | |
4987 | writeq(val64, &bar0->rmac_addr_cmd_mem); | |
4988 | /* Wait till command completes */ | |
c92ca04b | 4989 | wait_for_cmd_complete(&bar0->rmac_addr_cmd_mem, |
9fc93a41 SS |
4990 | RMAC_ADDR_CMD_MEM_STROBE_CMD_EXECUTING, |
4991 | S2IO_BIT_RESET); | |
1da177e4 LT |
4992 | |
4993 | sp->m_cast_flg = 0; | |
4994 | sp->all_multi_pos = 0; | |
4995 | } | |
4996 | ||
4997 | if ((dev->flags & IFF_PROMISC) && (!sp->promisc_flg)) { | |
4998 | /* Put the NIC into promiscuous mode */ | |
4999 | add = &bar0->mac_cfg; | |
5000 | val64 = readq(&bar0->mac_cfg); | |
5001 | val64 |= MAC_CFG_RMAC_PROM_ENABLE; | |
5002 | ||
5003 | writeq(RMAC_CFG_KEY(0x4C0D), &bar0->rmac_cfg_key); | |
5004 | writel((u32) val64, add); | |
5005 | writeq(RMAC_CFG_KEY(0x4C0D), &bar0->rmac_cfg_key); | |
5006 | writel((u32) (val64 >> 32), (add + 4)); | |
5007 | ||
926930b2 SS |
5008 | if (vlan_tag_strip != 1) { |
5009 | val64 = readq(&bar0->rx_pa_cfg); | |
5010 | val64 &= ~RX_PA_CFG_STRIP_VLAN_TAG; | |
5011 | writeq(val64, &bar0->rx_pa_cfg); | |
5012 | vlan_strip_flag = 0; | |
5013 | } | |
5014 | ||
1da177e4 LT |
5015 | val64 = readq(&bar0->mac_cfg); |
5016 | sp->promisc_flg = 1; | |
776bd20f | 5017 | DBG_PRINT(INFO_DBG, "%s: entered promiscuous mode\n", |
1da177e4 LT |
5018 | dev->name); |
5019 | } else if (!(dev->flags & IFF_PROMISC) && (sp->promisc_flg)) { | |
5020 | /* Remove the NIC from promiscuous mode */ | |
5021 | add = &bar0->mac_cfg; | |
5022 | val64 = readq(&bar0->mac_cfg); | |
5023 | val64 &= ~MAC_CFG_RMAC_PROM_ENABLE; | |
5024 | ||
5025 | writeq(RMAC_CFG_KEY(0x4C0D), &bar0->rmac_cfg_key); | |
5026 | writel((u32) val64, add); | |
5027 | writeq(RMAC_CFG_KEY(0x4C0D), &bar0->rmac_cfg_key); | |
5028 | writel((u32) (val64 >> 32), (add + 4)); | |
5029 | ||
926930b2 SS |
5030 | if (vlan_tag_strip != 0) { |
5031 | val64 = readq(&bar0->rx_pa_cfg); | |
5032 | val64 |= RX_PA_CFG_STRIP_VLAN_TAG; | |
5033 | writeq(val64, &bar0->rx_pa_cfg); | |
5034 | vlan_strip_flag = 1; | |
5035 | } | |
5036 | ||
1da177e4 LT |
5037 | val64 = readq(&bar0->mac_cfg); |
5038 | sp->promisc_flg = 0; | |
776bd20f | 5039 | DBG_PRINT(INFO_DBG, "%s: left promiscuous mode\n", |
1da177e4 LT |
5040 | dev->name); |
5041 | } | |
5042 | ||
5043 | /* Update individual M_CAST address list */ | |
5044 | if ((!sp->m_cast_flg) && dev->mc_count) { | |
5045 | if (dev->mc_count > | |
faa4f796 | 5046 | (config->max_mc_addr - config->max_mac_addr)) { |
1da177e4 LT |
5047 | DBG_PRINT(ERR_DBG, "%s: No more Rx filters ", |
5048 | dev->name); | |
5049 | DBG_PRINT(ERR_DBG, "can be added, please enable "); | |
5050 | DBG_PRINT(ERR_DBG, "ALL_MULTI instead\n"); | |
5051 | return; | |
5052 | } | |
5053 | ||
5054 | prev_cnt = sp->mc_addr_count; | |
5055 | sp->mc_addr_count = dev->mc_count; | |
5056 | ||
5057 | /* Clear out the previous list of Mc in the H/W. */ | |
5058 | for (i = 0; i < prev_cnt; i++) { | |
5059 | writeq(RMAC_ADDR_DATA0_MEM_ADDR(dis_addr), | |
5060 | &bar0->rmac_addr_data0_mem); | |
5061 | writeq(RMAC_ADDR_DATA1_MEM_MASK(0ULL), | |
20346722 | 5062 | &bar0->rmac_addr_data1_mem); |
1da177e4 LT |
5063 | val64 = RMAC_ADDR_CMD_MEM_WE | |
5064 | RMAC_ADDR_CMD_MEM_STROBE_NEW_CMD | | |
5065 | RMAC_ADDR_CMD_MEM_OFFSET | |
faa4f796 | 5066 | (config->mc_start_offset + i); |
1da177e4 LT |
5067 | writeq(val64, &bar0->rmac_addr_cmd_mem); |
5068 | ||
5069 | /* Wait for command completes */ | |
c92ca04b | 5070 | if (wait_for_cmd_complete(&bar0->rmac_addr_cmd_mem, |
9fc93a41 SS |
5071 | RMAC_ADDR_CMD_MEM_STROBE_CMD_EXECUTING, |
5072 | S2IO_BIT_RESET)) { | |
1da177e4 LT |
5073 | DBG_PRINT(ERR_DBG, "%s: Adding ", |
5074 | dev->name); | |
5075 | DBG_PRINT(ERR_DBG, "Multicasts failed\n"); | |
5076 | return; | |
5077 | } | |
5078 | } | |
5079 | ||
5080 | /* Create the new Rx filter list and update the same in H/W. */ | |
5081 | for (i = 0, mclist = dev->mc_list; i < dev->mc_count; | |
5082 | i++, mclist = mclist->next) { | |
5083 | memcpy(sp->usr_addrs[i].addr, mclist->dmi_addr, | |
5084 | ETH_ALEN); | |
a7a80d5a | 5085 | mac_addr = 0; |
1da177e4 LT |
5086 | for (j = 0; j < ETH_ALEN; j++) { |
5087 | mac_addr |= mclist->dmi_addr[j]; | |
5088 | mac_addr <<= 8; | |
5089 | } | |
5090 | mac_addr >>= 8; | |
5091 | writeq(RMAC_ADDR_DATA0_MEM_ADDR(mac_addr), | |
5092 | &bar0->rmac_addr_data0_mem); | |
5093 | writeq(RMAC_ADDR_DATA1_MEM_MASK(0ULL), | |
20346722 | 5094 | &bar0->rmac_addr_data1_mem); |
1da177e4 LT |
5095 | val64 = RMAC_ADDR_CMD_MEM_WE | |
5096 | RMAC_ADDR_CMD_MEM_STROBE_NEW_CMD | | |
5097 | RMAC_ADDR_CMD_MEM_OFFSET | |
faa4f796 | 5098 | (i + config->mc_start_offset); |
1da177e4 LT |
5099 | writeq(val64, &bar0->rmac_addr_cmd_mem); |
5100 | ||
5101 | /* Wait for command completes */ | |
c92ca04b | 5102 | if (wait_for_cmd_complete(&bar0->rmac_addr_cmd_mem, |
9fc93a41 SS |
5103 | RMAC_ADDR_CMD_MEM_STROBE_CMD_EXECUTING, |
5104 | S2IO_BIT_RESET)) { | |
1da177e4 LT |
5105 | DBG_PRINT(ERR_DBG, "%s: Adding ", |
5106 | dev->name); | |
5107 | DBG_PRINT(ERR_DBG, "Multicasts failed\n"); | |
5108 | return; | |
5109 | } | |
5110 | } | |
5111 | } | |
5112 | } | |
5113 | ||
faa4f796 SH |
5114 | /* read from CAM unicast & multicast addresses and store it in |
5115 | * def_mac_addr structure | |
5116 | */ | |
5117 | void do_s2io_store_unicast_mc(struct s2io_nic *sp) | |
5118 | { | |
5119 | int offset; | |
5120 | u64 mac_addr = 0x0; | |
5121 | struct config_param *config = &sp->config; | |
5122 | ||
5123 | /* store unicast & multicast mac addresses */ | |
5124 | for (offset = 0; offset < config->max_mc_addr; offset++) { | |
5125 | mac_addr = do_s2io_read_unicast_mc(sp, offset); | |
5126 | /* if read fails disable the entry */ | |
5127 | if (mac_addr == FAILURE) | |
5128 | mac_addr = S2IO_DISABLE_MAC_ENTRY; | |
5129 | do_s2io_copy_mac_addr(sp, offset, mac_addr); | |
5130 | } | |
5131 | } | |
5132 | ||
5133 | /* restore unicast & multicast MAC to CAM from def_mac_addr structure */ | |
5134 | static void do_s2io_restore_unicast_mc(struct s2io_nic *sp) | |
5135 | { | |
5136 | int offset; | |
5137 | struct config_param *config = &sp->config; | |
5138 | /* restore unicast mac address */ | |
5139 | for (offset = 0; offset < config->max_mac_addr; offset++) | |
5140 | do_s2io_prog_unicast(sp->dev, | |
5141 | sp->def_mac_addr[offset].mac_addr); | |
5142 | ||
5143 | /* restore multicast mac address */ | |
5144 | for (offset = config->mc_start_offset; | |
5145 | offset < config->max_mc_addr; offset++) | |
5146 | do_s2io_add_mc(sp, sp->def_mac_addr[offset].mac_addr); | |
5147 | } | |
5148 | ||
5149 | /* add a multicast MAC address to CAM */ | |
5150 | static int do_s2io_add_mc(struct s2io_nic *sp, u8 *addr) | |
5151 | { | |
5152 | int i; | |
5153 | u64 mac_addr = 0; | |
5154 | struct config_param *config = &sp->config; | |
5155 | ||
5156 | for (i = 0; i < ETH_ALEN; i++) { | |
5157 | mac_addr <<= 8; | |
5158 | mac_addr |= addr[i]; | |
5159 | } | |
5160 | if ((0ULL == mac_addr) || (mac_addr == S2IO_DISABLE_MAC_ENTRY)) | |
5161 | return SUCCESS; | |
5162 | ||
5163 | /* check if the multicast mac already preset in CAM */ | |
5164 | for (i = config->mc_start_offset; i < config->max_mc_addr; i++) { | |
5165 | u64 tmp64; | |
5166 | tmp64 = do_s2io_read_unicast_mc(sp, i); | |
5167 | if (tmp64 == S2IO_DISABLE_MAC_ENTRY) /* CAM entry is empty */ | |
5168 | break; | |
5169 | ||
5170 | if (tmp64 == mac_addr) | |
5171 | return SUCCESS; | |
5172 | } | |
5173 | if (i == config->max_mc_addr) { | |
5174 | DBG_PRINT(ERR_DBG, | |
5175 | "CAM full no space left for multicast MAC\n"); | |
5176 | return FAILURE; | |
5177 | } | |
5178 | /* Update the internal structure with this new mac address */ | |
5179 | do_s2io_copy_mac_addr(sp, i, mac_addr); | |
5180 | ||
5181 | return (do_s2io_add_mac(sp, mac_addr, i)); | |
5182 | } | |
5183 | ||
5184 | /* add MAC address to CAM */ | |
5185 | static int do_s2io_add_mac(struct s2io_nic *sp, u64 addr, int off) | |
2fd37688 SS |
5186 | { |
5187 | u64 val64; | |
5188 | struct XENA_dev_config __iomem *bar0 = sp->bar0; | |
5189 | ||
5190 | writeq(RMAC_ADDR_DATA0_MEM_ADDR(addr), | |
5191 | &bar0->rmac_addr_data0_mem); | |
5192 | ||
5193 | val64 = | |
5194 | RMAC_ADDR_CMD_MEM_WE | RMAC_ADDR_CMD_MEM_STROBE_NEW_CMD | | |
5195 | RMAC_ADDR_CMD_MEM_OFFSET(off); | |
5196 | writeq(val64, &bar0->rmac_addr_cmd_mem); | |
5197 | ||
5198 | /* Wait till command completes */ | |
5199 | if (wait_for_cmd_complete(&bar0->rmac_addr_cmd_mem, | |
5200 | RMAC_ADDR_CMD_MEM_STROBE_CMD_EXECUTING, | |
5201 | S2IO_BIT_RESET)) { | |
faa4f796 | 5202 | DBG_PRINT(INFO_DBG, "do_s2io_add_mac failed\n"); |
2fd37688 SS |
5203 | return FAILURE; |
5204 | } | |
5205 | return SUCCESS; | |
5206 | } | |
faa4f796 SH |
5207 | /* deletes a specified unicast/multicast mac entry from CAM */ |
5208 | static int do_s2io_delete_unicast_mc(struct s2io_nic *sp, u64 addr) | |
5209 | { | |
5210 | int offset; | |
5211 | u64 dis_addr = S2IO_DISABLE_MAC_ENTRY, tmp64; | |
5212 | struct config_param *config = &sp->config; | |
5213 | ||
5214 | for (offset = 1; | |
5215 | offset < config->max_mc_addr; offset++) { | |
5216 | tmp64 = do_s2io_read_unicast_mc(sp, offset); | |
5217 | if (tmp64 == addr) { | |
5218 | /* disable the entry by writing 0xffffffffffffULL */ | |
5219 | if (do_s2io_add_mac(sp, dis_addr, offset) == FAILURE) | |
5220 | return FAILURE; | |
5221 | /* store the new mac list from CAM */ | |
5222 | do_s2io_store_unicast_mc(sp); | |
5223 | return SUCCESS; | |
5224 | } | |
5225 | } | |
5226 | DBG_PRINT(ERR_DBG, "MAC address 0x%llx not found in CAM\n", | |
5227 | (unsigned long long)addr); | |
5228 | return FAILURE; | |
5229 | } | |
5230 | ||
5231 | /* read mac entries from CAM */ | |
5232 | static u64 do_s2io_read_unicast_mc(struct s2io_nic *sp, int offset) | |
5233 | { | |
5234 | u64 tmp64 = 0xffffffffffff0000ULL, val64; | |
5235 | struct XENA_dev_config __iomem *bar0 = sp->bar0; | |
5236 | ||
5237 | /* read mac addr */ | |
5238 | val64 = | |
5239 | RMAC_ADDR_CMD_MEM_RD | RMAC_ADDR_CMD_MEM_STROBE_NEW_CMD | | |
5240 | RMAC_ADDR_CMD_MEM_OFFSET(offset); | |
5241 | writeq(val64, &bar0->rmac_addr_cmd_mem); | |
5242 | ||
5243 | /* Wait till command completes */ | |
5244 | if (wait_for_cmd_complete(&bar0->rmac_addr_cmd_mem, | |
5245 | RMAC_ADDR_CMD_MEM_STROBE_CMD_EXECUTING, | |
5246 | S2IO_BIT_RESET)) { | |
5247 | DBG_PRINT(INFO_DBG, "do_s2io_read_unicast_mc failed\n"); | |
5248 | return FAILURE; | |
5249 | } | |
5250 | tmp64 = readq(&bar0->rmac_addr_data0_mem); | |
5251 | return (tmp64 >> 16); | |
5252 | } | |
2fd37688 SS |
5253 | |
5254 | /** | |
5255 | * s2io_set_mac_addr driver entry point | |
5256 | */ | |
faa4f796 | 5257 | |
2fd37688 SS |
5258 | static int s2io_set_mac_addr(struct net_device *dev, void *p) |
5259 | { | |
5260 | struct sockaddr *addr = p; | |
5261 | ||
5262 | if (!is_valid_ether_addr(addr->sa_data)) | |
5263 | return -EINVAL; | |
5264 | ||
5265 | memcpy(dev->dev_addr, addr->sa_data, dev->addr_len); | |
5266 | ||
5267 | /* store the MAC address in CAM */ | |
5268 | return (do_s2io_prog_unicast(dev, dev->dev_addr)); | |
5269 | } | |
1da177e4 | 5270 | /** |
2fd37688 | 5271 | * do_s2io_prog_unicast - Programs the Xframe mac address |
1da177e4 LT |
5272 | * @dev : pointer to the device structure. |
5273 | * @addr: a uchar pointer to the new mac address which is to be set. | |
20346722 | 5274 | * Description : This procedure will program the Xframe to receive |
1da177e4 | 5275 | * frames with new Mac Address |
20346722 | 5276 | * Return value: SUCCESS on success and an appropriate (-)ve integer |
1da177e4 LT |
5277 | * as defined in errno.h file on failure. |
5278 | */ | |
faa4f796 | 5279 | |
2fd37688 | 5280 | static int do_s2io_prog_unicast(struct net_device *dev, u8 *addr) |
1da177e4 | 5281 | { |
1ee6dd77 | 5282 | struct s2io_nic *sp = dev->priv; |
2fd37688 | 5283 | register u64 mac_addr = 0, perm_addr = 0; |
1da177e4 | 5284 | int i; |
faa4f796 SH |
5285 | u64 tmp64; |
5286 | struct config_param *config = &sp->config; | |
1da177e4 | 5287 | |
20346722 | 5288 | /* |
2fd37688 SS |
5289 | * Set the new MAC address as the new unicast filter and reflect this |
5290 | * change on the device address registered with the OS. It will be | |
5291 | * at offset 0. | |
5292 | */ | |
1da177e4 LT |
5293 | for (i = 0; i < ETH_ALEN; i++) { |
5294 | mac_addr <<= 8; | |
5295 | mac_addr |= addr[i]; | |
2fd37688 SS |
5296 | perm_addr <<= 8; |
5297 | perm_addr |= sp->def_mac_addr[0].mac_addr[i]; | |
d8d70caf SS |
5298 | } |
5299 | ||
2fd37688 SS |
5300 | /* check if the dev_addr is different than perm_addr */ |
5301 | if (mac_addr == perm_addr) | |
d8d70caf SS |
5302 | return SUCCESS; |
5303 | ||
faa4f796 SH |
5304 | /* check if the mac already preset in CAM */ |
5305 | for (i = 1; i < config->max_mac_addr; i++) { | |
5306 | tmp64 = do_s2io_read_unicast_mc(sp, i); | |
5307 | if (tmp64 == S2IO_DISABLE_MAC_ENTRY) /* CAM entry is empty */ | |
5308 | break; | |
5309 | ||
5310 | if (tmp64 == mac_addr) { | |
5311 | DBG_PRINT(INFO_DBG, | |
5312 | "MAC addr:0x%llx already present in CAM\n", | |
5313 | (unsigned long long)mac_addr); | |
5314 | return SUCCESS; | |
5315 | } | |
5316 | } | |
5317 | if (i == config->max_mac_addr) { | |
5318 | DBG_PRINT(ERR_DBG, "CAM full no space left for Unicast MAC\n"); | |
5319 | return FAILURE; | |
5320 | } | |
d8d70caf | 5321 | /* Update the internal structure with this new mac address */ |
faa4f796 SH |
5322 | do_s2io_copy_mac_addr(sp, i, mac_addr); |
5323 | return (do_s2io_add_mac(sp, mac_addr, i)); | |
1da177e4 LT |
5324 | } |
5325 | ||
5326 | /** | |
20346722 | 5327 | * s2io_ethtool_sset - Sets different link parameters. |
1da177e4 LT |
5328 | * @sp : private member of the device structure, which is a pointer to the * s2io_nic structure. |
5329 | * @info: pointer to the structure with parameters given by ethtool to set | |
5330 | * link information. | |
5331 | * Description: | |
20346722 | 5332 | * The function sets different link parameters provided by the user onto |
1da177e4 LT |
5333 | * the NIC. |
5334 | * Return value: | |
5335 | * 0 on success. | |
5336 | */ | |
5337 | ||
5338 | static int s2io_ethtool_sset(struct net_device *dev, | |
5339 | struct ethtool_cmd *info) | |
5340 | { | |
1ee6dd77 | 5341 | struct s2io_nic *sp = dev->priv; |
1da177e4 LT |
5342 | if ((info->autoneg == AUTONEG_ENABLE) || |
5343 | (info->speed != SPEED_10000) || (info->duplex != DUPLEX_FULL)) | |
5344 | return -EINVAL; | |
5345 | else { | |
5346 | s2io_close(sp->dev); | |
5347 | s2io_open(sp->dev); | |
5348 | } | |
5349 | ||
5350 | return 0; | |
5351 | } | |
5352 | ||
5353 | /** | |
20346722 | 5354 | * s2io_ethtol_gset - Return link specific information. |
1da177e4 LT |
5355 | * @sp : private member of the device structure, pointer to the |
5356 | * s2io_nic structure. | |
5357 | * @info : pointer to the structure with parameters given by ethtool | |
5358 | * to return link information. | |
5359 | * Description: | |
5360 | * Returns link specific information like speed, duplex etc.. to ethtool. | |
5361 | * Return value : | |
5362 | * return 0 on success. | |
5363 | */ | |
5364 | ||
5365 | static int s2io_ethtool_gset(struct net_device *dev, struct ethtool_cmd *info) | |
5366 | { | |
1ee6dd77 | 5367 | struct s2io_nic *sp = dev->priv; |
1da177e4 LT |
5368 | info->supported = (SUPPORTED_10000baseT_Full | SUPPORTED_FIBRE); |
5369 | info->advertising = (SUPPORTED_10000baseT_Full | SUPPORTED_FIBRE); | |
5370 | info->port = PORT_FIBRE; | |
1a7eb72b SS |
5371 | |
5372 | /* info->transceiver */ | |
5373 | info->transceiver = XCVR_EXTERNAL; | |
1da177e4 LT |
5374 | |
5375 | if (netif_carrier_ok(sp->dev)) { | |
5376 | info->speed = 10000; | |
5377 | info->duplex = DUPLEX_FULL; | |
5378 | } else { | |
5379 | info->speed = -1; | |
5380 | info->duplex = -1; | |
5381 | } | |
5382 | ||
5383 | info->autoneg = AUTONEG_DISABLE; | |
5384 | return 0; | |
5385 | } | |
5386 | ||
5387 | /** | |
20346722 K |
5388 | * s2io_ethtool_gdrvinfo - Returns driver specific information. |
5389 | * @sp : private member of the device structure, which is a pointer to the | |
1da177e4 LT |
5390 | * s2io_nic structure. |
5391 | * @info : pointer to the structure with parameters given by ethtool to | |
5392 | * return driver information. | |
5393 | * Description: | |
5394 | * Returns driver specefic information like name, version etc.. to ethtool. | |
5395 | * Return value: | |
5396 | * void | |
5397 | */ | |
5398 | ||
5399 | static void s2io_ethtool_gdrvinfo(struct net_device *dev, | |
5400 | struct ethtool_drvinfo *info) | |
5401 | { | |
1ee6dd77 | 5402 | struct s2io_nic *sp = dev->priv; |
1da177e4 | 5403 | |
dbc2309d JL |
5404 | strncpy(info->driver, s2io_driver_name, sizeof(info->driver)); |
5405 | strncpy(info->version, s2io_driver_version, sizeof(info->version)); | |
5406 | strncpy(info->fw_version, "", sizeof(info->fw_version)); | |
5407 | strncpy(info->bus_info, pci_name(sp->pdev), sizeof(info->bus_info)); | |
1da177e4 LT |
5408 | info->regdump_len = XENA_REG_SPACE; |
5409 | info->eedump_len = XENA_EEPROM_SPACE; | |
1da177e4 LT |
5410 | } |
5411 | ||
5412 | /** | |
5413 | * s2io_ethtool_gregs - dumps the entire space of Xfame into the buffer. | |
20346722 | 5414 | * @sp: private member of the device structure, which is a pointer to the |
1da177e4 | 5415 | * s2io_nic structure. |
20346722 | 5416 | * @regs : pointer to the structure with parameters given by ethtool for |
1da177e4 LT |
5417 | * dumping the registers. |
5418 | * @reg_space: The input argumnet into which all the registers are dumped. | |
5419 | * Description: | |
5420 | * Dumps the entire register space of xFrame NIC into the user given | |
5421 | * buffer area. | |
5422 | * Return value : | |
5423 | * void . | |
5424 | */ | |
5425 | ||
5426 | static void s2io_ethtool_gregs(struct net_device *dev, | |
5427 | struct ethtool_regs *regs, void *space) | |
5428 | { | |
5429 | int i; | |
5430 | u64 reg; | |
5431 | u8 *reg_space = (u8 *) space; | |
1ee6dd77 | 5432 | struct s2io_nic *sp = dev->priv; |
1da177e4 LT |
5433 | |
5434 | regs->len = XENA_REG_SPACE; | |
5435 | regs->version = sp->pdev->subsystem_device; | |
5436 | ||
5437 | for (i = 0; i < regs->len; i += 8) { | |
5438 | reg = readq(sp->bar0 + i); | |
5439 | memcpy((reg_space + i), ®, 8); | |
5440 | } | |
5441 | } | |
5442 | ||
5443 | /** | |
5444 | * s2io_phy_id - timer function that alternates adapter LED. | |
20346722 | 5445 | * @data : address of the private member of the device structure, which |
1da177e4 | 5446 | * is a pointer to the s2io_nic structure, provided as an u32. |
20346722 K |
5447 | * Description: This is actually the timer function that alternates the |
5448 | * adapter LED bit of the adapter control bit to set/reset every time on | |
5449 | * invocation. The timer is set for 1/2 a second, hence tha NIC blinks | |
1da177e4 LT |
5450 | * once every second. |
5451 | */ | |
5452 | static void s2io_phy_id(unsigned long data) | |
5453 | { | |
1ee6dd77 RB |
5454 | struct s2io_nic *sp = (struct s2io_nic *) data; |
5455 | struct XENA_dev_config __iomem *bar0 = sp->bar0; | |
1da177e4 LT |
5456 | u64 val64 = 0; |
5457 | u16 subid; | |
5458 | ||
5459 | subid = sp->pdev->subsystem_device; | |
541ae68f K |
5460 | if ((sp->device_type == XFRAME_II_DEVICE) || |
5461 | ((subid & 0xFF) >= 0x07)) { | |
1da177e4 LT |
5462 | val64 = readq(&bar0->gpio_control); |
5463 | val64 ^= GPIO_CTRL_GPIO_0; | |
5464 | writeq(val64, &bar0->gpio_control); | |
5465 | } else { | |
5466 | val64 = readq(&bar0->adapter_control); | |
5467 | val64 ^= ADAPTER_LED_ON; | |
5468 | writeq(val64, &bar0->adapter_control); | |
5469 | } | |
5470 | ||
5471 | mod_timer(&sp->id_timer, jiffies + HZ / 2); | |
5472 | } | |
5473 | ||
5474 | /** | |
5475 | * s2io_ethtool_idnic - To physically identify the nic on the system. | |
5476 | * @sp : private member of the device structure, which is a pointer to the | |
5477 | * s2io_nic structure. | |
20346722 | 5478 | * @id : pointer to the structure with identification parameters given by |
1da177e4 LT |
5479 | * ethtool. |
5480 | * Description: Used to physically identify the NIC on the system. | |
20346722 | 5481 | * The Link LED will blink for a time specified by the user for |
1da177e4 | 5482 | * identification. |
20346722 | 5483 | * NOTE: The Link has to be Up to be able to blink the LED. Hence |
1da177e4 LT |
5484 | * identification is possible only if it's link is up. |
5485 | * Return value: | |
5486 | * int , returns 0 on success | |
5487 | */ | |
5488 | ||
5489 | static int s2io_ethtool_idnic(struct net_device *dev, u32 data) | |
5490 | { | |
5491 | u64 val64 = 0, last_gpio_ctrl_val; | |
1ee6dd77 RB |
5492 | struct s2io_nic *sp = dev->priv; |
5493 | struct XENA_dev_config __iomem *bar0 = sp->bar0; | |
1da177e4 LT |
5494 | u16 subid; |
5495 | ||
5496 | subid = sp->pdev->subsystem_device; | |
5497 | last_gpio_ctrl_val = readq(&bar0->gpio_control); | |
541ae68f K |
5498 | if ((sp->device_type == XFRAME_I_DEVICE) && |
5499 | ((subid & 0xFF) < 0x07)) { | |
1da177e4 LT |
5500 | val64 = readq(&bar0->adapter_control); |
5501 | if (!(val64 & ADAPTER_CNTL_EN)) { | |
5502 | printk(KERN_ERR | |
5503 | "Adapter Link down, cannot blink LED\n"); | |
5504 | return -EFAULT; | |
5505 | } | |
5506 | } | |
5507 | if (sp->id_timer.function == NULL) { | |
5508 | init_timer(&sp->id_timer); | |
5509 | sp->id_timer.function = s2io_phy_id; | |
5510 | sp->id_timer.data = (unsigned long) sp; | |
5511 | } | |
5512 | mod_timer(&sp->id_timer, jiffies); | |
5513 | if (data) | |
20346722 | 5514 | msleep_interruptible(data * HZ); |
1da177e4 | 5515 | else |
20346722 | 5516 | msleep_interruptible(MAX_FLICKER_TIME); |
1da177e4 LT |
5517 | del_timer_sync(&sp->id_timer); |
5518 | ||
541ae68f | 5519 | if (CARDS_WITH_FAULTY_LINK_INDICATORS(sp->device_type, subid)) { |
1da177e4 LT |
5520 | writeq(last_gpio_ctrl_val, &bar0->gpio_control); |
5521 | last_gpio_ctrl_val = readq(&bar0->gpio_control); | |
5522 | } | |
5523 | ||
5524 | return 0; | |
5525 | } | |
5526 | ||
0cec35eb SH |
5527 | static void s2io_ethtool_gringparam(struct net_device *dev, |
5528 | struct ethtool_ringparam *ering) | |
5529 | { | |
5530 | struct s2io_nic *sp = dev->priv; | |
5531 | int i,tx_desc_count=0,rx_desc_count=0; | |
5532 | ||
5533 | if (sp->rxd_mode == RXD_MODE_1) | |
5534 | ering->rx_max_pending = MAX_RX_DESC_1; | |
5535 | else if (sp->rxd_mode == RXD_MODE_3B) | |
5536 | ering->rx_max_pending = MAX_RX_DESC_2; | |
0cec35eb SH |
5537 | |
5538 | ering->tx_max_pending = MAX_TX_DESC; | |
8a4bdbaa | 5539 | for (i = 0 ; i < sp->config.tx_fifo_num ; i++) |
0cec35eb | 5540 | tx_desc_count += sp->config.tx_cfg[i].fifo_len; |
8a4bdbaa | 5541 | |
0cec35eb SH |
5542 | DBG_PRINT(INFO_DBG,"\nmax txds : %d\n",sp->config.max_txds); |
5543 | ering->tx_pending = tx_desc_count; | |
5544 | rx_desc_count = 0; | |
8a4bdbaa | 5545 | for (i = 0 ; i < sp->config.rx_ring_num ; i++) |
0cec35eb | 5546 | rx_desc_count += sp->config.rx_cfg[i].num_rxd; |
b6627672 | 5547 | |
0cec35eb SH |
5548 | ering->rx_pending = rx_desc_count; |
5549 | ||
5550 | ering->rx_mini_max_pending = 0; | |
5551 | ering->rx_mini_pending = 0; | |
5552 | if(sp->rxd_mode == RXD_MODE_1) | |
5553 | ering->rx_jumbo_max_pending = MAX_RX_DESC_1; | |
5554 | else if (sp->rxd_mode == RXD_MODE_3B) | |
5555 | ering->rx_jumbo_max_pending = MAX_RX_DESC_2; | |
5556 | ering->rx_jumbo_pending = rx_desc_count; | |
5557 | } | |
5558 | ||
1da177e4 LT |
5559 | /** |
5560 | * s2io_ethtool_getpause_data -Pause frame frame generation and reception. | |
20346722 K |
5561 | * @sp : private member of the device structure, which is a pointer to the |
5562 | * s2io_nic structure. | |
1da177e4 LT |
5563 | * @ep : pointer to the structure with pause parameters given by ethtool. |
5564 | * Description: | |
5565 | * Returns the Pause frame generation and reception capability of the NIC. | |
5566 | * Return value: | |
5567 | * void | |
5568 | */ | |
5569 | static void s2io_ethtool_getpause_data(struct net_device *dev, | |
5570 | struct ethtool_pauseparam *ep) | |
5571 | { | |
5572 | u64 val64; | |
1ee6dd77 RB |
5573 | struct s2io_nic *sp = dev->priv; |
5574 | struct XENA_dev_config __iomem *bar0 = sp->bar0; | |
1da177e4 LT |
5575 | |
5576 | val64 = readq(&bar0->rmac_pause_cfg); | |
5577 | if (val64 & RMAC_PAUSE_GEN_ENABLE) | |
5578 | ep->tx_pause = TRUE; | |
5579 | if (val64 & RMAC_PAUSE_RX_ENABLE) | |
5580 | ep->rx_pause = TRUE; | |
5581 | ep->autoneg = FALSE; | |
5582 | } | |
5583 | ||
5584 | /** | |
5585 | * s2io_ethtool_setpause_data - set/reset pause frame generation. | |
20346722 | 5586 | * @sp : private member of the device structure, which is a pointer to the |
1da177e4 LT |
5587 | * s2io_nic structure. |
5588 | * @ep : pointer to the structure with pause parameters given by ethtool. | |
5589 | * Description: | |
5590 | * It can be used to set or reset Pause frame generation or reception | |
5591 | * support of the NIC. | |
5592 | * Return value: | |
5593 | * int, returns 0 on Success | |
5594 | */ | |
5595 | ||
5596 | static int s2io_ethtool_setpause_data(struct net_device *dev, | |
20346722 | 5597 | struct ethtool_pauseparam *ep) |
1da177e4 LT |
5598 | { |
5599 | u64 val64; | |
1ee6dd77 RB |
5600 | struct s2io_nic *sp = dev->priv; |
5601 | struct XENA_dev_config __iomem *bar0 = sp->bar0; | |
1da177e4 LT |
5602 | |
5603 | val64 = readq(&bar0->rmac_pause_cfg); | |
5604 | if (ep->tx_pause) | |
5605 | val64 |= RMAC_PAUSE_GEN_ENABLE; | |
5606 | else | |
5607 | val64 &= ~RMAC_PAUSE_GEN_ENABLE; | |
5608 | if (ep->rx_pause) | |
5609 | val64 |= RMAC_PAUSE_RX_ENABLE; | |
5610 | else | |
5611 | val64 &= ~RMAC_PAUSE_RX_ENABLE; | |
5612 | writeq(val64, &bar0->rmac_pause_cfg); | |
5613 | return 0; | |
5614 | } | |
5615 | ||
5616 | /** | |
5617 | * read_eeprom - reads 4 bytes of data from user given offset. | |
20346722 | 5618 | * @sp : private member of the device structure, which is a pointer to the |
1da177e4 LT |
5619 | * s2io_nic structure. |
5620 | * @off : offset at which the data must be written | |
5621 | * @data : Its an output parameter where the data read at the given | |
20346722 | 5622 | * offset is stored. |
1da177e4 | 5623 | * Description: |
20346722 | 5624 | * Will read 4 bytes of data from the user given offset and return the |
1da177e4 LT |
5625 | * read data. |
5626 | * NOTE: Will allow to read only part of the EEPROM visible through the | |
5627 | * I2C bus. | |
5628 | * Return value: | |
5629 | * -1 on failure and 0 on success. | |
5630 | */ | |
5631 | ||
5632 | #define S2IO_DEV_ID 5 | |
1ee6dd77 | 5633 | static int read_eeprom(struct s2io_nic * sp, int off, u64 * data) |
1da177e4 LT |
5634 | { |
5635 | int ret = -1; | |
5636 | u32 exit_cnt = 0; | |
5637 | u64 val64; | |
1ee6dd77 | 5638 | struct XENA_dev_config __iomem *bar0 = sp->bar0; |
1da177e4 | 5639 | |
ad4ebed0 | 5640 | if (sp->device_type == XFRAME_I_DEVICE) { |
5641 | val64 = I2C_CONTROL_DEV_ID(S2IO_DEV_ID) | I2C_CONTROL_ADDR(off) | | |
5642 | I2C_CONTROL_BYTE_CNT(0x3) | I2C_CONTROL_READ | | |
5643 | I2C_CONTROL_CNTL_START; | |
5644 | SPECIAL_REG_WRITE(val64, &bar0->i2c_control, LF); | |
1da177e4 | 5645 | |
ad4ebed0 | 5646 | while (exit_cnt < 5) { |
5647 | val64 = readq(&bar0->i2c_control); | |
5648 | if (I2C_CONTROL_CNTL_END(val64)) { | |
5649 | *data = I2C_CONTROL_GET_DATA(val64); | |
5650 | ret = 0; | |
5651 | break; | |
5652 | } | |
5653 | msleep(50); | |
5654 | exit_cnt++; | |
1da177e4 | 5655 | } |
1da177e4 LT |
5656 | } |
5657 | ||
ad4ebed0 | 5658 | if (sp->device_type == XFRAME_II_DEVICE) { |
5659 | val64 = SPI_CONTROL_KEY(0x9) | SPI_CONTROL_SEL1 | | |
6aa20a22 | 5660 | SPI_CONTROL_BYTECNT(0x3) | |
ad4ebed0 | 5661 | SPI_CONTROL_CMD(0x3) | SPI_CONTROL_ADDR(off); |
5662 | SPECIAL_REG_WRITE(val64, &bar0->spi_control, LF); | |
5663 | val64 |= SPI_CONTROL_REQ; | |
5664 | SPECIAL_REG_WRITE(val64, &bar0->spi_control, LF); | |
5665 | while (exit_cnt < 5) { | |
5666 | val64 = readq(&bar0->spi_control); | |
5667 | if (val64 & SPI_CONTROL_NACK) { | |
5668 | ret = 1; | |
5669 | break; | |
5670 | } else if (val64 & SPI_CONTROL_DONE) { | |
5671 | *data = readq(&bar0->spi_data); | |
5672 | *data &= 0xffffff; | |
5673 | ret = 0; | |
5674 | break; | |
5675 | } | |
5676 | msleep(50); | |
5677 | exit_cnt++; | |
5678 | } | |
5679 | } | |
1da177e4 LT |
5680 | return ret; |
5681 | } | |
5682 | ||
5683 | /** | |
5684 | * write_eeprom - actually writes the relevant part of the data value. | |
5685 | * @sp : private member of the device structure, which is a pointer to the | |
5686 | * s2io_nic structure. | |
5687 | * @off : offset at which the data must be written | |
5688 | * @data : The data that is to be written | |
20346722 | 5689 | * @cnt : Number of bytes of the data that are actually to be written into |
1da177e4 LT |
5690 | * the Eeprom. (max of 3) |
5691 | * Description: | |
5692 | * Actually writes the relevant part of the data value into the Eeprom | |
5693 | * through the I2C bus. | |
5694 | * Return value: | |
5695 | * 0 on success, -1 on failure. | |
5696 | */ | |
5697 | ||
1ee6dd77 | 5698 | static int write_eeprom(struct s2io_nic * sp, int off, u64 data, int cnt) |
1da177e4 LT |
5699 | { |
5700 | int exit_cnt = 0, ret = -1; | |
5701 | u64 val64; | |
1ee6dd77 | 5702 | struct XENA_dev_config __iomem *bar0 = sp->bar0; |
1da177e4 | 5703 | |
ad4ebed0 | 5704 | if (sp->device_type == XFRAME_I_DEVICE) { |
5705 | val64 = I2C_CONTROL_DEV_ID(S2IO_DEV_ID) | I2C_CONTROL_ADDR(off) | | |
5706 | I2C_CONTROL_BYTE_CNT(cnt) | I2C_CONTROL_SET_DATA((u32)data) | | |
5707 | I2C_CONTROL_CNTL_START; | |
5708 | SPECIAL_REG_WRITE(val64, &bar0->i2c_control, LF); | |
5709 | ||
5710 | while (exit_cnt < 5) { | |
5711 | val64 = readq(&bar0->i2c_control); | |
5712 | if (I2C_CONTROL_CNTL_END(val64)) { | |
5713 | if (!(val64 & I2C_CONTROL_NACK)) | |
5714 | ret = 0; | |
5715 | break; | |
5716 | } | |
5717 | msleep(50); | |
5718 | exit_cnt++; | |
5719 | } | |
5720 | } | |
1da177e4 | 5721 | |
ad4ebed0 | 5722 | if (sp->device_type == XFRAME_II_DEVICE) { |
5723 | int write_cnt = (cnt == 8) ? 0 : cnt; | |
5724 | writeq(SPI_DATA_WRITE(data,(cnt<<3)), &bar0->spi_data); | |
5725 | ||
5726 | val64 = SPI_CONTROL_KEY(0x9) | SPI_CONTROL_SEL1 | | |
6aa20a22 | 5727 | SPI_CONTROL_BYTECNT(write_cnt) | |
ad4ebed0 | 5728 | SPI_CONTROL_CMD(0x2) | SPI_CONTROL_ADDR(off); |
5729 | SPECIAL_REG_WRITE(val64, &bar0->spi_control, LF); | |
5730 | val64 |= SPI_CONTROL_REQ; | |
5731 | SPECIAL_REG_WRITE(val64, &bar0->spi_control, LF); | |
5732 | while (exit_cnt < 5) { | |
5733 | val64 = readq(&bar0->spi_control); | |
5734 | if (val64 & SPI_CONTROL_NACK) { | |
5735 | ret = 1; | |
5736 | break; | |
5737 | } else if (val64 & SPI_CONTROL_DONE) { | |
1da177e4 | 5738 | ret = 0; |
ad4ebed0 | 5739 | break; |
5740 | } | |
5741 | msleep(50); | |
5742 | exit_cnt++; | |
1da177e4 | 5743 | } |
1da177e4 | 5744 | } |
1da177e4 LT |
5745 | return ret; |
5746 | } | |
1ee6dd77 | 5747 | static void s2io_vpd_read(struct s2io_nic *nic) |
9dc737a7 | 5748 | { |
b41477f3 AR |
5749 | u8 *vpd_data; |
5750 | u8 data; | |
9dc737a7 AR |
5751 | int i=0, cnt, fail = 0; |
5752 | int vpd_addr = 0x80; | |
5753 | ||
5754 | if (nic->device_type == XFRAME_II_DEVICE) { | |
5755 | strcpy(nic->product_name, "Xframe II 10GbE network adapter"); | |
5756 | vpd_addr = 0x80; | |
5757 | } | |
5758 | else { | |
5759 | strcpy(nic->product_name, "Xframe I 10GbE network adapter"); | |
5760 | vpd_addr = 0x50; | |
5761 | } | |
19a60522 | 5762 | strcpy(nic->serial_num, "NOT AVAILABLE"); |
9dc737a7 | 5763 | |
b41477f3 | 5764 | vpd_data = kmalloc(256, GFP_KERNEL); |
c53d4945 SH |
5765 | if (!vpd_data) { |
5766 | nic->mac_control.stats_info->sw_stat.mem_alloc_fail_cnt++; | |
b41477f3 | 5767 | return; |
c53d4945 | 5768 | } |
491976b2 | 5769 | nic->mac_control.stats_info->sw_stat.mem_allocated += 256; |
b41477f3 | 5770 | |
9dc737a7 AR |
5771 | for (i = 0; i < 256; i +=4 ) { |
5772 | pci_write_config_byte(nic->pdev, (vpd_addr + 2), i); | |
5773 | pci_read_config_byte(nic->pdev, (vpd_addr + 2), &data); | |
5774 | pci_write_config_byte(nic->pdev, (vpd_addr + 3), 0); | |
5775 | for (cnt = 0; cnt <5; cnt++) { | |
5776 | msleep(2); | |
5777 | pci_read_config_byte(nic->pdev, (vpd_addr + 3), &data); | |
5778 | if (data == 0x80) | |
5779 | break; | |
5780 | } | |
5781 | if (cnt >= 5) { | |
5782 | DBG_PRINT(ERR_DBG, "Read of VPD data failed\n"); | |
5783 | fail = 1; | |
5784 | break; | |
5785 | } | |
5786 | pci_read_config_dword(nic->pdev, (vpd_addr + 4), | |
5787 | (u32 *)&vpd_data[i]); | |
5788 | } | |
19a60522 SS |
5789 | |
5790 | if(!fail) { | |
5791 | /* read serial number of adapter */ | |
5792 | for (cnt = 0; cnt < 256; cnt++) { | |
5793 | if ((vpd_data[cnt] == 'S') && | |
5794 | (vpd_data[cnt+1] == 'N') && | |
5795 | (vpd_data[cnt+2] < VPD_STRING_LEN)) { | |
5796 | memset(nic->serial_num, 0, VPD_STRING_LEN); | |
5797 | memcpy(nic->serial_num, &vpd_data[cnt + 3], | |
5798 | vpd_data[cnt+2]); | |
5799 | break; | |
5800 | } | |
5801 | } | |
5802 | } | |
5803 | ||
5804 | if ((!fail) && (vpd_data[1] < VPD_STRING_LEN)) { | |
9dc737a7 AR |
5805 | memset(nic->product_name, 0, vpd_data[1]); |
5806 | memcpy(nic->product_name, &vpd_data[3], vpd_data[1]); | |
5807 | } | |
b41477f3 | 5808 | kfree(vpd_data); |
491976b2 | 5809 | nic->mac_control.stats_info->sw_stat.mem_freed += 256; |
9dc737a7 AR |
5810 | } |
5811 | ||
1da177e4 LT |
5812 | /** |
5813 | * s2io_ethtool_geeprom - reads the value stored in the Eeprom. | |
5814 | * @sp : private member of the device structure, which is a pointer to the * s2io_nic structure. | |
20346722 | 5815 | * @eeprom : pointer to the user level structure provided by ethtool, |
1da177e4 LT |
5816 | * containing all relevant information. |
5817 | * @data_buf : user defined value to be written into Eeprom. | |
5818 | * Description: Reads the values stored in the Eeprom at given offset | |
5819 | * for a given length. Stores these values int the input argument data | |
5820 | * buffer 'data_buf' and returns these to the caller (ethtool.) | |
5821 | * Return value: | |
5822 | * int 0 on success | |
5823 | */ | |
5824 | ||
5825 | static int s2io_ethtool_geeprom(struct net_device *dev, | |
20346722 | 5826 | struct ethtool_eeprom *eeprom, u8 * data_buf) |
1da177e4 | 5827 | { |
ad4ebed0 | 5828 | u32 i, valid; |
5829 | u64 data; | |
1ee6dd77 | 5830 | struct s2io_nic *sp = dev->priv; |
1da177e4 LT |
5831 | |
5832 | eeprom->magic = sp->pdev->vendor | (sp->pdev->device << 16); | |
5833 | ||
5834 | if ((eeprom->offset + eeprom->len) > (XENA_EEPROM_SPACE)) | |
5835 | eeprom->len = XENA_EEPROM_SPACE - eeprom->offset; | |
5836 | ||
5837 | for (i = 0; i < eeprom->len; i += 4) { | |
5838 | if (read_eeprom(sp, (eeprom->offset + i), &data)) { | |
5839 | DBG_PRINT(ERR_DBG, "Read of EEPROM failed\n"); | |
5840 | return -EFAULT; | |
5841 | } | |
5842 | valid = INV(data); | |
5843 | memcpy((data_buf + i), &valid, 4); | |
5844 | } | |
5845 | return 0; | |
5846 | } | |
5847 | ||
5848 | /** | |
5849 | * s2io_ethtool_seeprom - tries to write the user provided value in Eeprom | |
5850 | * @sp : private member of the device structure, which is a pointer to the | |
5851 | * s2io_nic structure. | |
20346722 | 5852 | * @eeprom : pointer to the user level structure provided by ethtool, |
1da177e4 LT |
5853 | * containing all relevant information. |
5854 | * @data_buf ; user defined value to be written into Eeprom. | |
5855 | * Description: | |
5856 | * Tries to write the user provided value in the Eeprom, at the offset | |
5857 | * given by the user. | |
5858 | * Return value: | |
5859 | * 0 on success, -EFAULT on failure. | |
5860 | */ | |
5861 | ||
5862 | static int s2io_ethtool_seeprom(struct net_device *dev, | |
5863 | struct ethtool_eeprom *eeprom, | |
5864 | u8 * data_buf) | |
5865 | { | |
5866 | int len = eeprom->len, cnt = 0; | |
ad4ebed0 | 5867 | u64 valid = 0, data; |
1ee6dd77 | 5868 | struct s2io_nic *sp = dev->priv; |
1da177e4 LT |
5869 | |
5870 | if (eeprom->magic != (sp->pdev->vendor | (sp->pdev->device << 16))) { | |
5871 | DBG_PRINT(ERR_DBG, | |
5872 | "ETHTOOL_WRITE_EEPROM Err: Magic value "); | |
5873 | DBG_PRINT(ERR_DBG, "is wrong, Its not 0x%x\n", | |
5874 | eeprom->magic); | |
5875 | return -EFAULT; | |
5876 | } | |
5877 | ||
5878 | while (len) { | |
5879 | data = (u32) data_buf[cnt] & 0x000000FF; | |
5880 | if (data) { | |
5881 | valid = (u32) (data << 24); | |
5882 | } else | |
5883 | valid = data; | |
5884 | ||
5885 | if (write_eeprom(sp, (eeprom->offset + cnt), valid, 0)) { | |
5886 | DBG_PRINT(ERR_DBG, | |
5887 | "ETHTOOL_WRITE_EEPROM Err: Cannot "); | |
5888 | DBG_PRINT(ERR_DBG, | |
5889 | "write into the specified offset\n"); | |
5890 | return -EFAULT; | |
5891 | } | |
5892 | cnt++; | |
5893 | len--; | |
5894 | } | |
5895 | ||
5896 | return 0; | |
5897 | } | |
5898 | ||
5899 | /** | |
20346722 K |
5900 | * s2io_register_test - reads and writes into all clock domains. |
5901 | * @sp : private member of the device structure, which is a pointer to the | |
1da177e4 LT |
5902 | * s2io_nic structure. |
5903 | * @data : variable that returns the result of each of the test conducted b | |
5904 | * by the driver. | |
5905 | * Description: | |
5906 | * Read and write into all clock domains. The NIC has 3 clock domains, | |
5907 | * see that registers in all the three regions are accessible. | |
5908 | * Return value: | |
5909 | * 0 on success. | |
5910 | */ | |
5911 | ||
1ee6dd77 | 5912 | static int s2io_register_test(struct s2io_nic * sp, uint64_t * data) |
1da177e4 | 5913 | { |
1ee6dd77 | 5914 | struct XENA_dev_config __iomem *bar0 = sp->bar0; |
ad4ebed0 | 5915 | u64 val64 = 0, exp_val; |
1da177e4 LT |
5916 | int fail = 0; |
5917 | ||
20346722 K |
5918 | val64 = readq(&bar0->pif_rd_swapper_fb); |
5919 | if (val64 != 0x123456789abcdefULL) { | |
1da177e4 LT |
5920 | fail = 1; |
5921 | DBG_PRINT(INFO_DBG, "Read Test level 1 fails\n"); | |
5922 | } | |
5923 | ||
5924 | val64 = readq(&bar0->rmac_pause_cfg); | |
5925 | if (val64 != 0xc000ffff00000000ULL) { | |
5926 | fail = 1; | |
5927 | DBG_PRINT(INFO_DBG, "Read Test level 2 fails\n"); | |
5928 | } | |
5929 | ||
5930 | val64 = readq(&bar0->rx_queue_cfg); | |
ad4ebed0 | 5931 | if (sp->device_type == XFRAME_II_DEVICE) |
5932 | exp_val = 0x0404040404040404ULL; | |
5933 | else | |
5934 | exp_val = 0x0808080808080808ULL; | |
5935 | if (val64 != exp_val) { | |
1da177e4 LT |
5936 | fail = 1; |
5937 | DBG_PRINT(INFO_DBG, "Read Test level 3 fails\n"); | |
5938 | } | |
5939 | ||
5940 | val64 = readq(&bar0->xgxs_efifo_cfg); | |
5941 | if (val64 != 0x000000001923141EULL) { | |
5942 | fail = 1; | |
5943 | DBG_PRINT(INFO_DBG, "Read Test level 4 fails\n"); | |
5944 | } | |
5945 | ||
5946 | val64 = 0x5A5A5A5A5A5A5A5AULL; | |
5947 | writeq(val64, &bar0->xmsi_data); | |
5948 | val64 = readq(&bar0->xmsi_data); | |
5949 | if (val64 != 0x5A5A5A5A5A5A5A5AULL) { | |
5950 | fail = 1; | |
5951 | DBG_PRINT(ERR_DBG, "Write Test level 1 fails\n"); | |
5952 | } | |
5953 | ||
5954 | val64 = 0xA5A5A5A5A5A5A5A5ULL; | |
5955 | writeq(val64, &bar0->xmsi_data); | |
5956 | val64 = readq(&bar0->xmsi_data); | |
5957 | if (val64 != 0xA5A5A5A5A5A5A5A5ULL) { | |
5958 | fail = 1; | |
5959 | DBG_PRINT(ERR_DBG, "Write Test level 2 fails\n"); | |
5960 | } | |
5961 | ||
5962 | *data = fail; | |
ad4ebed0 | 5963 | return fail; |
1da177e4 LT |
5964 | } |
5965 | ||
5966 | /** | |
20346722 | 5967 | * s2io_eeprom_test - to verify that EEprom in the xena can be programmed. |
1da177e4 LT |
5968 | * @sp : private member of the device structure, which is a pointer to the |
5969 | * s2io_nic structure. | |
5970 | * @data:variable that returns the result of each of the test conducted by | |
5971 | * the driver. | |
5972 | * Description: | |
20346722 | 5973 | * Verify that EEPROM in the xena can be programmed using I2C_CONTROL |
1da177e4 LT |
5974 | * register. |
5975 | * Return value: | |
5976 | * 0 on success. | |
5977 | */ | |
5978 | ||
1ee6dd77 | 5979 | static int s2io_eeprom_test(struct s2io_nic * sp, uint64_t * data) |
1da177e4 LT |
5980 | { |
5981 | int fail = 0; | |
ad4ebed0 | 5982 | u64 ret_data, org_4F0, org_7F0; |
5983 | u8 saved_4F0 = 0, saved_7F0 = 0; | |
5984 | struct net_device *dev = sp->dev; | |
1da177e4 LT |
5985 | |
5986 | /* Test Write Error at offset 0 */ | |
ad4ebed0 | 5987 | /* Note that SPI interface allows write access to all areas |
5988 | * of EEPROM. Hence doing all negative testing only for Xframe I. | |
5989 | */ | |
5990 | if (sp->device_type == XFRAME_I_DEVICE) | |
5991 | if (!write_eeprom(sp, 0, 0, 3)) | |
5992 | fail = 1; | |
5993 | ||
5994 | /* Save current values at offsets 0x4F0 and 0x7F0 */ | |
5995 | if (!read_eeprom(sp, 0x4F0, &org_4F0)) | |
5996 | saved_4F0 = 1; | |
5997 | if (!read_eeprom(sp, 0x7F0, &org_7F0)) | |
5998 | saved_7F0 = 1; | |
1da177e4 LT |
5999 | |
6000 | /* Test Write at offset 4f0 */ | |
ad4ebed0 | 6001 | if (write_eeprom(sp, 0x4F0, 0x012345, 3)) |
1da177e4 LT |
6002 | fail = 1; |
6003 | if (read_eeprom(sp, 0x4F0, &ret_data)) | |
6004 | fail = 1; | |
6005 | ||
ad4ebed0 | 6006 | if (ret_data != 0x012345) { |
26b7625c AM |
6007 | DBG_PRINT(ERR_DBG, "%s: eeprom test error at offset 0x4F0. " |
6008 | "Data written %llx Data read %llx\n", | |
6009 | dev->name, (unsigned long long)0x12345, | |
6010 | (unsigned long long)ret_data); | |
1da177e4 | 6011 | fail = 1; |
ad4ebed0 | 6012 | } |
1da177e4 LT |
6013 | |
6014 | /* Reset the EEPROM data go FFFF */ | |
ad4ebed0 | 6015 | write_eeprom(sp, 0x4F0, 0xFFFFFF, 3); |
1da177e4 LT |
6016 | |
6017 | /* Test Write Request Error at offset 0x7c */ | |
ad4ebed0 | 6018 | if (sp->device_type == XFRAME_I_DEVICE) |
6019 | if (!write_eeprom(sp, 0x07C, 0, 3)) | |
6020 | fail = 1; | |
1da177e4 | 6021 | |
ad4ebed0 | 6022 | /* Test Write Request at offset 0x7f0 */ |
6023 | if (write_eeprom(sp, 0x7F0, 0x012345, 3)) | |
1da177e4 | 6024 | fail = 1; |
ad4ebed0 | 6025 | if (read_eeprom(sp, 0x7F0, &ret_data)) |
1da177e4 LT |
6026 | fail = 1; |
6027 | ||
ad4ebed0 | 6028 | if (ret_data != 0x012345) { |
26b7625c AM |
6029 | DBG_PRINT(ERR_DBG, "%s: eeprom test error at offset 0x7F0. " |
6030 | "Data written %llx Data read %llx\n", | |
6031 | dev->name, (unsigned long long)0x12345, | |
6032 | (unsigned long long)ret_data); | |
1da177e4 | 6033 | fail = 1; |
ad4ebed0 | 6034 | } |
1da177e4 LT |
6035 | |
6036 | /* Reset the EEPROM data go FFFF */ | |
ad4ebed0 | 6037 | write_eeprom(sp, 0x7F0, 0xFFFFFF, 3); |
1da177e4 | 6038 | |
ad4ebed0 | 6039 | if (sp->device_type == XFRAME_I_DEVICE) { |
6040 | /* Test Write Error at offset 0x80 */ | |
6041 | if (!write_eeprom(sp, 0x080, 0, 3)) | |
6042 | fail = 1; | |
1da177e4 | 6043 | |
ad4ebed0 | 6044 | /* Test Write Error at offset 0xfc */ |
6045 | if (!write_eeprom(sp, 0x0FC, 0, 3)) | |
6046 | fail = 1; | |
1da177e4 | 6047 | |
ad4ebed0 | 6048 | /* Test Write Error at offset 0x100 */ |
6049 | if (!write_eeprom(sp, 0x100, 0, 3)) | |
6050 | fail = 1; | |
1da177e4 | 6051 | |
ad4ebed0 | 6052 | /* Test Write Error at offset 4ec */ |
6053 | if (!write_eeprom(sp, 0x4EC, 0, 3)) | |
6054 | fail = 1; | |
6055 | } | |
6056 | ||
6057 | /* Restore values at offsets 0x4F0 and 0x7F0 */ | |
6058 | if (saved_4F0) | |
6059 | write_eeprom(sp, 0x4F0, org_4F0, 3); | |
6060 | if (saved_7F0) | |
6061 | write_eeprom(sp, 0x7F0, org_7F0, 3); | |
1da177e4 LT |
6062 | |
6063 | *data = fail; | |
ad4ebed0 | 6064 | return fail; |
1da177e4 LT |
6065 | } |
6066 | ||
6067 | /** | |
6068 | * s2io_bist_test - invokes the MemBist test of the card . | |
20346722 | 6069 | * @sp : private member of the device structure, which is a pointer to the |
1da177e4 | 6070 | * s2io_nic structure. |
20346722 | 6071 | * @data:variable that returns the result of each of the test conducted by |
1da177e4 LT |
6072 | * the driver. |
6073 | * Description: | |
6074 | * This invokes the MemBist test of the card. We give around | |
6075 | * 2 secs time for the Test to complete. If it's still not complete | |
20346722 | 6076 | * within this peiod, we consider that the test failed. |
1da177e4 LT |
6077 | * Return value: |
6078 | * 0 on success and -1 on failure. | |
6079 | */ | |
6080 | ||
1ee6dd77 | 6081 | static int s2io_bist_test(struct s2io_nic * sp, uint64_t * data) |
1da177e4 LT |
6082 | { |
6083 | u8 bist = 0; | |
6084 | int cnt = 0, ret = -1; | |
6085 | ||
6086 | pci_read_config_byte(sp->pdev, PCI_BIST, &bist); | |
6087 | bist |= PCI_BIST_START; | |
6088 | pci_write_config_word(sp->pdev, PCI_BIST, bist); | |
6089 | ||
6090 | while (cnt < 20) { | |
6091 | pci_read_config_byte(sp->pdev, PCI_BIST, &bist); | |
6092 | if (!(bist & PCI_BIST_START)) { | |
6093 | *data = (bist & PCI_BIST_CODE_MASK); | |
6094 | ret = 0; | |
6095 | break; | |
6096 | } | |
6097 | msleep(100); | |
6098 | cnt++; | |
6099 | } | |
6100 | ||
6101 | return ret; | |
6102 | } | |
6103 | ||
6104 | /** | |
20346722 K |
6105 | * s2io-link_test - verifies the link state of the nic |
6106 | * @sp ; private member of the device structure, which is a pointer to the | |
1da177e4 LT |
6107 | * s2io_nic structure. |
6108 | * @data: variable that returns the result of each of the test conducted by | |
6109 | * the driver. | |
6110 | * Description: | |
20346722 | 6111 | * The function verifies the link state of the NIC and updates the input |
1da177e4 LT |
6112 | * argument 'data' appropriately. |
6113 | * Return value: | |
6114 | * 0 on success. | |
6115 | */ | |
6116 | ||
1ee6dd77 | 6117 | static int s2io_link_test(struct s2io_nic * sp, uint64_t * data) |
1da177e4 | 6118 | { |
1ee6dd77 | 6119 | struct XENA_dev_config __iomem *bar0 = sp->bar0; |
1da177e4 LT |
6120 | u64 val64; |
6121 | ||
6122 | val64 = readq(&bar0->adapter_status); | |
c92ca04b | 6123 | if(!(LINK_IS_UP(val64))) |
1da177e4 | 6124 | *data = 1; |
c92ca04b AR |
6125 | else |
6126 | *data = 0; | |
1da177e4 | 6127 | |
b41477f3 | 6128 | return *data; |
1da177e4 LT |
6129 | } |
6130 | ||
6131 | /** | |
20346722 K |
6132 | * s2io_rldram_test - offline test for access to the RldRam chip on the NIC |
6133 | * @sp - private member of the device structure, which is a pointer to the | |
1da177e4 | 6134 | * s2io_nic structure. |
20346722 | 6135 | * @data - variable that returns the result of each of the test |
1da177e4 LT |
6136 | * conducted by the driver. |
6137 | * Description: | |
20346722 | 6138 | * This is one of the offline test that tests the read and write |
1da177e4 LT |
6139 | * access to the RldRam chip on the NIC. |
6140 | * Return value: | |
6141 | * 0 on success. | |
6142 | */ | |
6143 | ||
1ee6dd77 | 6144 | static int s2io_rldram_test(struct s2io_nic * sp, uint64_t * data) |
1da177e4 | 6145 | { |
1ee6dd77 | 6146 | struct XENA_dev_config __iomem *bar0 = sp->bar0; |
1da177e4 | 6147 | u64 val64; |
ad4ebed0 | 6148 | int cnt, iteration = 0, test_fail = 0; |
1da177e4 LT |
6149 | |
6150 | val64 = readq(&bar0->adapter_control); | |
6151 | val64 &= ~ADAPTER_ECC_EN; | |
6152 | writeq(val64, &bar0->adapter_control); | |
6153 | ||
6154 | val64 = readq(&bar0->mc_rldram_test_ctrl); | |
6155 | val64 |= MC_RLDRAM_TEST_MODE; | |
ad4ebed0 | 6156 | SPECIAL_REG_WRITE(val64, &bar0->mc_rldram_test_ctrl, LF); |
1da177e4 LT |
6157 | |
6158 | val64 = readq(&bar0->mc_rldram_mrs); | |
6159 | val64 |= MC_RLDRAM_QUEUE_SIZE_ENABLE; | |
6160 | SPECIAL_REG_WRITE(val64, &bar0->mc_rldram_mrs, UF); | |
6161 | ||
6162 | val64 |= MC_RLDRAM_MRS_ENABLE; | |
6163 | SPECIAL_REG_WRITE(val64, &bar0->mc_rldram_mrs, UF); | |
6164 | ||
6165 | while (iteration < 2) { | |
6166 | val64 = 0x55555555aaaa0000ULL; | |
6167 | if (iteration == 1) { | |
6168 | val64 ^= 0xFFFFFFFFFFFF0000ULL; | |
6169 | } | |
6170 | writeq(val64, &bar0->mc_rldram_test_d0); | |
6171 | ||
6172 | val64 = 0xaaaa5a5555550000ULL; | |
6173 | if (iteration == 1) { | |
6174 | val64 ^= 0xFFFFFFFFFFFF0000ULL; | |
6175 | } | |
6176 | writeq(val64, &bar0->mc_rldram_test_d1); | |
6177 | ||
6178 | val64 = 0x55aaaaaaaa5a0000ULL; | |
6179 | if (iteration == 1) { | |
6180 | val64 ^= 0xFFFFFFFFFFFF0000ULL; | |
6181 | } | |
6182 | writeq(val64, &bar0->mc_rldram_test_d2); | |
6183 | ||
ad4ebed0 | 6184 | val64 = (u64) (0x0000003ffffe0100ULL); |
1da177e4 LT |
6185 | writeq(val64, &bar0->mc_rldram_test_add); |
6186 | ||
ad4ebed0 | 6187 | val64 = MC_RLDRAM_TEST_MODE | MC_RLDRAM_TEST_WRITE | |
6188 | MC_RLDRAM_TEST_GO; | |
6189 | SPECIAL_REG_WRITE(val64, &bar0->mc_rldram_test_ctrl, LF); | |
1da177e4 LT |
6190 | |
6191 | for (cnt = 0; cnt < 5; cnt++) { | |
6192 | val64 = readq(&bar0->mc_rldram_test_ctrl); | |
6193 | if (val64 & MC_RLDRAM_TEST_DONE) | |
6194 | break; | |
6195 | msleep(200); | |
6196 | } | |
6197 | ||
6198 | if (cnt == 5) | |
6199 | break; | |
6200 | ||
ad4ebed0 | 6201 | val64 = MC_RLDRAM_TEST_MODE | MC_RLDRAM_TEST_GO; |
6202 | SPECIAL_REG_WRITE(val64, &bar0->mc_rldram_test_ctrl, LF); | |
1da177e4 LT |
6203 | |
6204 | for (cnt = 0; cnt < 5; cnt++) { | |
6205 | val64 = readq(&bar0->mc_rldram_test_ctrl); | |
6206 | if (val64 & MC_RLDRAM_TEST_DONE) | |
6207 | break; | |
6208 | msleep(500); | |
6209 | } | |
6210 | ||
6211 | if (cnt == 5) | |
6212 | break; | |
6213 | ||
6214 | val64 = readq(&bar0->mc_rldram_test_ctrl); | |
ad4ebed0 | 6215 | if (!(val64 & MC_RLDRAM_TEST_PASS)) |
6216 | test_fail = 1; | |
1da177e4 LT |
6217 | |
6218 | iteration++; | |
6219 | } | |
6220 | ||
ad4ebed0 | 6221 | *data = test_fail; |
1da177e4 | 6222 | |
ad4ebed0 | 6223 | /* Bring the adapter out of test mode */ |
6224 | SPECIAL_REG_WRITE(0, &bar0->mc_rldram_test_ctrl, LF); | |
6225 | ||
6226 | return test_fail; | |
1da177e4 LT |
6227 | } |
6228 | ||
6229 | /** | |
6230 | * s2io_ethtool_test - conducts 6 tsets to determine the health of card. | |
6231 | * @sp : private member of the device structure, which is a pointer to the | |
6232 | * s2io_nic structure. | |
6233 | * @ethtest : pointer to a ethtool command specific structure that will be | |
6234 | * returned to the user. | |
20346722 | 6235 | * @data : variable that returns the result of each of the test |
1da177e4 LT |
6236 | * conducted by the driver. |
6237 | * Description: | |
6238 | * This function conducts 6 tests ( 4 offline and 2 online) to determine | |
6239 | * the health of the card. | |
6240 | * Return value: | |
6241 | * void | |
6242 | */ | |
6243 | ||
6244 | static void s2io_ethtool_test(struct net_device *dev, | |
6245 | struct ethtool_test *ethtest, | |
6246 | uint64_t * data) | |
6247 | { | |
1ee6dd77 | 6248 | struct s2io_nic *sp = dev->priv; |
1da177e4 LT |
6249 | int orig_state = netif_running(sp->dev); |
6250 | ||
6251 | if (ethtest->flags == ETH_TEST_FL_OFFLINE) { | |
6252 | /* Offline Tests. */ | |
20346722 | 6253 | if (orig_state) |
1da177e4 | 6254 | s2io_close(sp->dev); |
1da177e4 LT |
6255 | |
6256 | if (s2io_register_test(sp, &data[0])) | |
6257 | ethtest->flags |= ETH_TEST_FL_FAILED; | |
6258 | ||
6259 | s2io_reset(sp); | |
1da177e4 LT |
6260 | |
6261 | if (s2io_rldram_test(sp, &data[3])) | |
6262 | ethtest->flags |= ETH_TEST_FL_FAILED; | |
6263 | ||
6264 | s2io_reset(sp); | |
1da177e4 LT |
6265 | |
6266 | if (s2io_eeprom_test(sp, &data[1])) | |
6267 | ethtest->flags |= ETH_TEST_FL_FAILED; | |
6268 | ||
6269 | if (s2io_bist_test(sp, &data[4])) | |
6270 | ethtest->flags |= ETH_TEST_FL_FAILED; | |
6271 | ||
6272 | if (orig_state) | |
6273 | s2io_open(sp->dev); | |
6274 | ||
6275 | data[2] = 0; | |
6276 | } else { | |
6277 | /* Online Tests. */ | |
6278 | if (!orig_state) { | |
6279 | DBG_PRINT(ERR_DBG, | |
6280 | "%s: is not up, cannot run test\n", | |
6281 | dev->name); | |
6282 | data[0] = -1; | |
6283 | data[1] = -1; | |
6284 | data[2] = -1; | |
6285 | data[3] = -1; | |
6286 | data[4] = -1; | |
6287 | } | |
6288 | ||
6289 | if (s2io_link_test(sp, &data[2])) | |
6290 | ethtest->flags |= ETH_TEST_FL_FAILED; | |
6291 | ||
6292 | data[0] = 0; | |
6293 | data[1] = 0; | |
6294 | data[3] = 0; | |
6295 | data[4] = 0; | |
6296 | } | |
6297 | } | |
6298 | ||
6299 | static void s2io_get_ethtool_stats(struct net_device *dev, | |
6300 | struct ethtool_stats *estats, | |
6301 | u64 * tmp_stats) | |
6302 | { | |
8116f3cf | 6303 | int i = 0, k; |
1ee6dd77 RB |
6304 | struct s2io_nic *sp = dev->priv; |
6305 | struct stat_block *stat_info = sp->mac_control.stats_info; | |
1da177e4 | 6306 | |
7ba013ac | 6307 | s2io_updt_stats(sp); |
541ae68f K |
6308 | tmp_stats[i++] = |
6309 | (u64)le32_to_cpu(stat_info->tmac_frms_oflow) << 32 | | |
6310 | le32_to_cpu(stat_info->tmac_frms); | |
6311 | tmp_stats[i++] = | |
6312 | (u64)le32_to_cpu(stat_info->tmac_data_octets_oflow) << 32 | | |
6313 | le32_to_cpu(stat_info->tmac_data_octets); | |
1da177e4 | 6314 | tmp_stats[i++] = le64_to_cpu(stat_info->tmac_drop_frms); |
541ae68f K |
6315 | tmp_stats[i++] = |
6316 | (u64)le32_to_cpu(stat_info->tmac_mcst_frms_oflow) << 32 | | |
6317 | le32_to_cpu(stat_info->tmac_mcst_frms); | |
6318 | tmp_stats[i++] = | |
6319 | (u64)le32_to_cpu(stat_info->tmac_bcst_frms_oflow) << 32 | | |
6320 | le32_to_cpu(stat_info->tmac_bcst_frms); | |
1da177e4 | 6321 | tmp_stats[i++] = le64_to_cpu(stat_info->tmac_pause_ctrl_frms); |
bd1034f0 AR |
6322 | tmp_stats[i++] = |
6323 | (u64)le32_to_cpu(stat_info->tmac_ttl_octets_oflow) << 32 | | |
6324 | le32_to_cpu(stat_info->tmac_ttl_octets); | |
6325 | tmp_stats[i++] = | |
6326 | (u64)le32_to_cpu(stat_info->tmac_ucst_frms_oflow) << 32 | | |
6327 | le32_to_cpu(stat_info->tmac_ucst_frms); | |
6328 | tmp_stats[i++] = | |
6329 | (u64)le32_to_cpu(stat_info->tmac_nucst_frms_oflow) << 32 | | |
6330 | le32_to_cpu(stat_info->tmac_nucst_frms); | |
541ae68f K |
6331 | tmp_stats[i++] = |
6332 | (u64)le32_to_cpu(stat_info->tmac_any_err_frms_oflow) << 32 | | |
6333 | le32_to_cpu(stat_info->tmac_any_err_frms); | |
bd1034f0 | 6334 | tmp_stats[i++] = le64_to_cpu(stat_info->tmac_ttl_less_fb_octets); |
1da177e4 | 6335 | tmp_stats[i++] = le64_to_cpu(stat_info->tmac_vld_ip_octets); |
541ae68f K |
6336 | tmp_stats[i++] = |
6337 | (u64)le32_to_cpu(stat_info->tmac_vld_ip_oflow) << 32 | | |
6338 | le32_to_cpu(stat_info->tmac_vld_ip); | |
6339 | tmp_stats[i++] = | |
6340 | (u64)le32_to_cpu(stat_info->tmac_drop_ip_oflow) << 32 | | |
6341 | le32_to_cpu(stat_info->tmac_drop_ip); | |
6342 | tmp_stats[i++] = | |
6343 | (u64)le32_to_cpu(stat_info->tmac_icmp_oflow) << 32 | | |
6344 | le32_to_cpu(stat_info->tmac_icmp); | |
6345 | tmp_stats[i++] = | |
6346 | (u64)le32_to_cpu(stat_info->tmac_rst_tcp_oflow) << 32 | | |
6347 | le32_to_cpu(stat_info->tmac_rst_tcp); | |
1da177e4 | 6348 | tmp_stats[i++] = le64_to_cpu(stat_info->tmac_tcp); |
541ae68f K |
6349 | tmp_stats[i++] = (u64)le32_to_cpu(stat_info->tmac_udp_oflow) << 32 | |
6350 | le32_to_cpu(stat_info->tmac_udp); | |
6351 | tmp_stats[i++] = | |
6352 | (u64)le32_to_cpu(stat_info->rmac_vld_frms_oflow) << 32 | | |
6353 | le32_to_cpu(stat_info->rmac_vld_frms); | |
6354 | tmp_stats[i++] = | |
6355 | (u64)le32_to_cpu(stat_info->rmac_data_octets_oflow) << 32 | | |
6356 | le32_to_cpu(stat_info->rmac_data_octets); | |
1da177e4 LT |
6357 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_fcs_err_frms); |
6358 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_drop_frms); | |
541ae68f K |
6359 | tmp_stats[i++] = |
6360 | (u64)le32_to_cpu(stat_info->rmac_vld_mcst_frms_oflow) << 32 | | |
6361 | le32_to_cpu(stat_info->rmac_vld_mcst_frms); | |
6362 | tmp_stats[i++] = | |
6363 | (u64)le32_to_cpu(stat_info->rmac_vld_bcst_frms_oflow) << 32 | | |
6364 | le32_to_cpu(stat_info->rmac_vld_bcst_frms); | |
1da177e4 | 6365 | tmp_stats[i++] = le32_to_cpu(stat_info->rmac_in_rng_len_err_frms); |
bd1034f0 | 6366 | tmp_stats[i++] = le32_to_cpu(stat_info->rmac_out_rng_len_err_frms); |
1da177e4 LT |
6367 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_long_frms); |
6368 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_pause_ctrl_frms); | |
bd1034f0 AR |
6369 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_unsup_ctrl_frms); |
6370 | tmp_stats[i++] = | |
6371 | (u64)le32_to_cpu(stat_info->rmac_ttl_octets_oflow) << 32 | | |
6372 | le32_to_cpu(stat_info->rmac_ttl_octets); | |
6373 | tmp_stats[i++] = | |
6374 | (u64)le32_to_cpu(stat_info->rmac_accepted_ucst_frms_oflow) | |
6375 | << 32 | le32_to_cpu(stat_info->rmac_accepted_ucst_frms); | |
6376 | tmp_stats[i++] = | |
6377 | (u64)le32_to_cpu(stat_info->rmac_accepted_nucst_frms_oflow) | |
6378 | << 32 | le32_to_cpu(stat_info->rmac_accepted_nucst_frms); | |
541ae68f K |
6379 | tmp_stats[i++] = |
6380 | (u64)le32_to_cpu(stat_info->rmac_discarded_frms_oflow) << 32 | | |
6381 | le32_to_cpu(stat_info->rmac_discarded_frms); | |
bd1034f0 AR |
6382 | tmp_stats[i++] = |
6383 | (u64)le32_to_cpu(stat_info->rmac_drop_events_oflow) | |
6384 | << 32 | le32_to_cpu(stat_info->rmac_drop_events); | |
6385 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_ttl_less_fb_octets); | |
6386 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_ttl_frms); | |
541ae68f K |
6387 | tmp_stats[i++] = |
6388 | (u64)le32_to_cpu(stat_info->rmac_usized_frms_oflow) << 32 | | |
6389 | le32_to_cpu(stat_info->rmac_usized_frms); | |
6390 | tmp_stats[i++] = | |
6391 | (u64)le32_to_cpu(stat_info->rmac_osized_frms_oflow) << 32 | | |
6392 | le32_to_cpu(stat_info->rmac_osized_frms); | |
6393 | tmp_stats[i++] = | |
6394 | (u64)le32_to_cpu(stat_info->rmac_frag_frms_oflow) << 32 | | |
6395 | le32_to_cpu(stat_info->rmac_frag_frms); | |
6396 | tmp_stats[i++] = | |
6397 | (u64)le32_to_cpu(stat_info->rmac_jabber_frms_oflow) << 32 | | |
6398 | le32_to_cpu(stat_info->rmac_jabber_frms); | |
bd1034f0 AR |
6399 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_ttl_64_frms); |
6400 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_ttl_65_127_frms); | |
6401 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_ttl_128_255_frms); | |
6402 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_ttl_256_511_frms); | |
6403 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_ttl_512_1023_frms); | |
6404 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_ttl_1024_1518_frms); | |
6405 | tmp_stats[i++] = | |
6406 | (u64)le32_to_cpu(stat_info->rmac_ip_oflow) << 32 | | |
541ae68f | 6407 | le32_to_cpu(stat_info->rmac_ip); |
1da177e4 LT |
6408 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_ip_octets); |
6409 | tmp_stats[i++] = le32_to_cpu(stat_info->rmac_hdr_err_ip); | |
bd1034f0 AR |
6410 | tmp_stats[i++] = |
6411 | (u64)le32_to_cpu(stat_info->rmac_drop_ip_oflow) << 32 | | |
541ae68f | 6412 | le32_to_cpu(stat_info->rmac_drop_ip); |
bd1034f0 AR |
6413 | tmp_stats[i++] = |
6414 | (u64)le32_to_cpu(stat_info->rmac_icmp_oflow) << 32 | | |
541ae68f | 6415 | le32_to_cpu(stat_info->rmac_icmp); |
1da177e4 | 6416 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_tcp); |
bd1034f0 AR |
6417 | tmp_stats[i++] = |
6418 | (u64)le32_to_cpu(stat_info->rmac_udp_oflow) << 32 | | |
541ae68f K |
6419 | le32_to_cpu(stat_info->rmac_udp); |
6420 | tmp_stats[i++] = | |
6421 | (u64)le32_to_cpu(stat_info->rmac_err_drp_udp_oflow) << 32 | | |
6422 | le32_to_cpu(stat_info->rmac_err_drp_udp); | |
bd1034f0 AR |
6423 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_xgmii_err_sym); |
6424 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_frms_q0); | |
6425 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_frms_q1); | |
6426 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_frms_q2); | |
6427 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_frms_q3); | |
6428 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_frms_q4); | |
6429 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_frms_q5); | |
6430 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_frms_q6); | |
6431 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_frms_q7); | |
6432 | tmp_stats[i++] = le16_to_cpu(stat_info->rmac_full_q0); | |
6433 | tmp_stats[i++] = le16_to_cpu(stat_info->rmac_full_q1); | |
6434 | tmp_stats[i++] = le16_to_cpu(stat_info->rmac_full_q2); | |
6435 | tmp_stats[i++] = le16_to_cpu(stat_info->rmac_full_q3); | |
6436 | tmp_stats[i++] = le16_to_cpu(stat_info->rmac_full_q4); | |
6437 | tmp_stats[i++] = le16_to_cpu(stat_info->rmac_full_q5); | |
6438 | tmp_stats[i++] = le16_to_cpu(stat_info->rmac_full_q6); | |
6439 | tmp_stats[i++] = le16_to_cpu(stat_info->rmac_full_q7); | |
541ae68f K |
6440 | tmp_stats[i++] = |
6441 | (u64)le32_to_cpu(stat_info->rmac_pause_cnt_oflow) << 32 | | |
6442 | le32_to_cpu(stat_info->rmac_pause_cnt); | |
bd1034f0 AR |
6443 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_xgmii_data_err_cnt); |
6444 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_xgmii_ctrl_err_cnt); | |
541ae68f K |
6445 | tmp_stats[i++] = |
6446 | (u64)le32_to_cpu(stat_info->rmac_accepted_ip_oflow) << 32 | | |
6447 | le32_to_cpu(stat_info->rmac_accepted_ip); | |
1da177e4 | 6448 | tmp_stats[i++] = le32_to_cpu(stat_info->rmac_err_tcp); |
bd1034f0 AR |
6449 | tmp_stats[i++] = le32_to_cpu(stat_info->rd_req_cnt); |
6450 | tmp_stats[i++] = le32_to_cpu(stat_info->new_rd_req_cnt); | |
6451 | tmp_stats[i++] = le32_to_cpu(stat_info->new_rd_req_rtry_cnt); | |
6452 | tmp_stats[i++] = le32_to_cpu(stat_info->rd_rtry_cnt); | |
6453 | tmp_stats[i++] = le32_to_cpu(stat_info->wr_rtry_rd_ack_cnt); | |
6454 | tmp_stats[i++] = le32_to_cpu(stat_info->wr_req_cnt); | |
6455 | tmp_stats[i++] = le32_to_cpu(stat_info->new_wr_req_cnt); | |
6456 | tmp_stats[i++] = le32_to_cpu(stat_info->new_wr_req_rtry_cnt); | |
6457 | tmp_stats[i++] = le32_to_cpu(stat_info->wr_rtry_cnt); | |
6458 | tmp_stats[i++] = le32_to_cpu(stat_info->wr_disc_cnt); | |
6459 | tmp_stats[i++] = le32_to_cpu(stat_info->rd_rtry_wr_ack_cnt); | |
6460 | tmp_stats[i++] = le32_to_cpu(stat_info->txp_wr_cnt); | |
6461 | tmp_stats[i++] = le32_to_cpu(stat_info->txd_rd_cnt); | |
6462 | tmp_stats[i++] = le32_to_cpu(stat_info->txd_wr_cnt); | |
6463 | tmp_stats[i++] = le32_to_cpu(stat_info->rxd_rd_cnt); | |
6464 | tmp_stats[i++] = le32_to_cpu(stat_info->rxd_wr_cnt); | |
6465 | tmp_stats[i++] = le32_to_cpu(stat_info->txf_rd_cnt); | |
6466 | tmp_stats[i++] = le32_to_cpu(stat_info->rxf_wr_cnt); | |
fa1f0cb3 SS |
6467 | |
6468 | /* Enhanced statistics exist only for Hercules */ | |
6469 | if(sp->device_type == XFRAME_II_DEVICE) { | |
6470 | tmp_stats[i++] = | |
6471 | le64_to_cpu(stat_info->rmac_ttl_1519_4095_frms); | |
6472 | tmp_stats[i++] = | |
6473 | le64_to_cpu(stat_info->rmac_ttl_4096_8191_frms); | |
6474 | tmp_stats[i++] = | |
6475 | le64_to_cpu(stat_info->rmac_ttl_8192_max_frms); | |
6476 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_ttl_gt_max_frms); | |
6477 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_osized_alt_frms); | |
6478 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_jabber_alt_frms); | |
6479 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_gt_max_alt_frms); | |
6480 | tmp_stats[i++] = le64_to_cpu(stat_info->rmac_vlan_frms); | |
6481 | tmp_stats[i++] = le32_to_cpu(stat_info->rmac_len_discard); | |
6482 | tmp_stats[i++] = le32_to_cpu(stat_info->rmac_fcs_discard); | |
6483 | tmp_stats[i++] = le32_to_cpu(stat_info->rmac_pf_discard); | |
6484 | tmp_stats[i++] = le32_to_cpu(stat_info->rmac_da_discard); | |
6485 | tmp_stats[i++] = le32_to_cpu(stat_info->rmac_red_discard); | |
6486 | tmp_stats[i++] = le32_to_cpu(stat_info->rmac_rts_discard); | |
6487 | tmp_stats[i++] = le32_to_cpu(stat_info->rmac_ingm_full_discard); | |
6488 | tmp_stats[i++] = le32_to_cpu(stat_info->link_fault_cnt); | |
6489 | } | |
6490 | ||
7ba013ac K |
6491 | tmp_stats[i++] = 0; |
6492 | tmp_stats[i++] = stat_info->sw_stat.single_ecc_errs; | |
6493 | tmp_stats[i++] = stat_info->sw_stat.double_ecc_errs; | |
bd1034f0 AR |
6494 | tmp_stats[i++] = stat_info->sw_stat.parity_err_cnt; |
6495 | tmp_stats[i++] = stat_info->sw_stat.serious_err_cnt; | |
6496 | tmp_stats[i++] = stat_info->sw_stat.soft_reset_cnt; | |
6497 | tmp_stats[i++] = stat_info->sw_stat.fifo_full_cnt; | |
8116f3cf SS |
6498 | for (k = 0; k < MAX_RX_RINGS; k++) |
6499 | tmp_stats[i++] = stat_info->sw_stat.ring_full_cnt[k]; | |
bd1034f0 AR |
6500 | tmp_stats[i++] = stat_info->xpak_stat.alarm_transceiver_temp_high; |
6501 | tmp_stats[i++] = stat_info->xpak_stat.alarm_transceiver_temp_low; | |
6502 | tmp_stats[i++] = stat_info->xpak_stat.alarm_laser_bias_current_high; | |
6503 | tmp_stats[i++] = stat_info->xpak_stat.alarm_laser_bias_current_low; | |
6504 | tmp_stats[i++] = stat_info->xpak_stat.alarm_laser_output_power_high; | |
6505 | tmp_stats[i++] = stat_info->xpak_stat.alarm_laser_output_power_low; | |
6506 | tmp_stats[i++] = stat_info->xpak_stat.warn_transceiver_temp_high; | |
6507 | tmp_stats[i++] = stat_info->xpak_stat.warn_transceiver_temp_low; | |
6508 | tmp_stats[i++] = stat_info->xpak_stat.warn_laser_bias_current_high; | |
6509 | tmp_stats[i++] = stat_info->xpak_stat.warn_laser_bias_current_low; | |
6510 | tmp_stats[i++] = stat_info->xpak_stat.warn_laser_output_power_high; | |
6511 | tmp_stats[i++] = stat_info->xpak_stat.warn_laser_output_power_low; | |
7d3d0439 RA |
6512 | tmp_stats[i++] = stat_info->sw_stat.clubbed_frms_cnt; |
6513 | tmp_stats[i++] = stat_info->sw_stat.sending_both; | |
6514 | tmp_stats[i++] = stat_info->sw_stat.outof_sequence_pkts; | |
6515 | tmp_stats[i++] = stat_info->sw_stat.flush_max_pkts; | |
fe931395 | 6516 | if (stat_info->sw_stat.num_aggregations) { |
bd1034f0 AR |
6517 | u64 tmp = stat_info->sw_stat.sum_avg_pkts_aggregated; |
6518 | int count = 0; | |
6aa20a22 | 6519 | /* |
bd1034f0 AR |
6520 | * Since 64-bit divide does not work on all platforms, |
6521 | * do repeated subtraction. | |
6522 | */ | |
6523 | while (tmp >= stat_info->sw_stat.num_aggregations) { | |
6524 | tmp -= stat_info->sw_stat.num_aggregations; | |
6525 | count++; | |
6526 | } | |
6527 | tmp_stats[i++] = count; | |
fe931395 | 6528 | } |
bd1034f0 AR |
6529 | else |
6530 | tmp_stats[i++] = 0; | |
c53d4945 | 6531 | tmp_stats[i++] = stat_info->sw_stat.mem_alloc_fail_cnt; |
491abf25 | 6532 | tmp_stats[i++] = stat_info->sw_stat.pci_map_fail_cnt; |
c53d4945 | 6533 | tmp_stats[i++] = stat_info->sw_stat.watchdog_timer_cnt; |
491976b2 SH |
6534 | tmp_stats[i++] = stat_info->sw_stat.mem_allocated; |
6535 | tmp_stats[i++] = stat_info->sw_stat.mem_freed; | |
6536 | tmp_stats[i++] = stat_info->sw_stat.link_up_cnt; | |
6537 | tmp_stats[i++] = stat_info->sw_stat.link_down_cnt; | |
6538 | tmp_stats[i++] = stat_info->sw_stat.link_up_time; | |
6539 | tmp_stats[i++] = stat_info->sw_stat.link_down_time; | |
6540 | ||
6541 | tmp_stats[i++] = stat_info->sw_stat.tx_buf_abort_cnt; | |
6542 | tmp_stats[i++] = stat_info->sw_stat.tx_desc_abort_cnt; | |
6543 | tmp_stats[i++] = stat_info->sw_stat.tx_parity_err_cnt; | |
6544 | tmp_stats[i++] = stat_info->sw_stat.tx_link_loss_cnt; | |
6545 | tmp_stats[i++] = stat_info->sw_stat.tx_list_proc_err_cnt; | |
6546 | ||
6547 | tmp_stats[i++] = stat_info->sw_stat.rx_parity_err_cnt; | |
6548 | tmp_stats[i++] = stat_info->sw_stat.rx_abort_cnt; | |
6549 | tmp_stats[i++] = stat_info->sw_stat.rx_parity_abort_cnt; | |
6550 | tmp_stats[i++] = stat_info->sw_stat.rx_rda_fail_cnt; | |
6551 | tmp_stats[i++] = stat_info->sw_stat.rx_unkn_prot_cnt; | |
6552 | tmp_stats[i++] = stat_info->sw_stat.rx_fcs_err_cnt; | |
6553 | tmp_stats[i++] = stat_info->sw_stat.rx_buf_size_err_cnt; | |
6554 | tmp_stats[i++] = stat_info->sw_stat.rx_rxd_corrupt_cnt; | |
6555 | tmp_stats[i++] = stat_info->sw_stat.rx_unkn_err_cnt; | |
8116f3cf SS |
6556 | tmp_stats[i++] = stat_info->sw_stat.tda_err_cnt; |
6557 | tmp_stats[i++] = stat_info->sw_stat.pfc_err_cnt; | |
6558 | tmp_stats[i++] = stat_info->sw_stat.pcc_err_cnt; | |
6559 | tmp_stats[i++] = stat_info->sw_stat.tti_err_cnt; | |
6560 | tmp_stats[i++] = stat_info->sw_stat.tpa_err_cnt; | |
6561 | tmp_stats[i++] = stat_info->sw_stat.sm_err_cnt; | |
6562 | tmp_stats[i++] = stat_info->sw_stat.lso_err_cnt; | |
6563 | tmp_stats[i++] = stat_info->sw_stat.mac_tmac_err_cnt; | |
6564 | tmp_stats[i++] = stat_info->sw_stat.mac_rmac_err_cnt; | |
6565 | tmp_stats[i++] = stat_info->sw_stat.xgxs_txgxs_err_cnt; | |
6566 | tmp_stats[i++] = stat_info->sw_stat.xgxs_rxgxs_err_cnt; | |
6567 | tmp_stats[i++] = stat_info->sw_stat.rc_err_cnt; | |
6568 | tmp_stats[i++] = stat_info->sw_stat.prc_pcix_err_cnt; | |
6569 | tmp_stats[i++] = stat_info->sw_stat.rpa_err_cnt; | |
6570 | tmp_stats[i++] = stat_info->sw_stat.rda_err_cnt; | |
6571 | tmp_stats[i++] = stat_info->sw_stat.rti_err_cnt; | |
6572 | tmp_stats[i++] = stat_info->sw_stat.mc_err_cnt; | |
1da177e4 LT |
6573 | } |
6574 | ||
ac1f60db | 6575 | static int s2io_ethtool_get_regs_len(struct net_device *dev) |
1da177e4 LT |
6576 | { |
6577 | return (XENA_REG_SPACE); | |
6578 | } | |
6579 | ||
6580 | ||
ac1f60db | 6581 | static u32 s2io_ethtool_get_rx_csum(struct net_device * dev) |
1da177e4 | 6582 | { |
1ee6dd77 | 6583 | struct s2io_nic *sp = dev->priv; |
1da177e4 LT |
6584 | |
6585 | return (sp->rx_csum); | |
6586 | } | |
ac1f60db AB |
6587 | |
6588 | static int s2io_ethtool_set_rx_csum(struct net_device *dev, u32 data) | |
1da177e4 | 6589 | { |
1ee6dd77 | 6590 | struct s2io_nic *sp = dev->priv; |
1da177e4 LT |
6591 | |
6592 | if (data) | |
6593 | sp->rx_csum = 1; | |
6594 | else | |
6595 | sp->rx_csum = 0; | |
6596 | ||
6597 | return 0; | |
6598 | } | |
ac1f60db AB |
6599 | |
6600 | static int s2io_get_eeprom_len(struct net_device *dev) | |
1da177e4 LT |
6601 | { |
6602 | return (XENA_EEPROM_SPACE); | |
6603 | } | |
6604 | ||
b9f2c044 | 6605 | static int s2io_get_sset_count(struct net_device *dev, int sset) |
1da177e4 | 6606 | { |
b9f2c044 JG |
6607 | struct s2io_nic *sp = dev->priv; |
6608 | ||
6609 | switch (sset) { | |
6610 | case ETH_SS_TEST: | |
6611 | return S2IO_TEST_LEN; | |
6612 | case ETH_SS_STATS: | |
6613 | switch(sp->device_type) { | |
6614 | case XFRAME_I_DEVICE: | |
6615 | return XFRAME_I_STAT_LEN; | |
6616 | case XFRAME_II_DEVICE: | |
6617 | return XFRAME_II_STAT_LEN; | |
6618 | default: | |
6619 | return 0; | |
6620 | } | |
6621 | default: | |
6622 | return -EOPNOTSUPP; | |
6623 | } | |
1da177e4 | 6624 | } |
ac1f60db AB |
6625 | |
6626 | static void s2io_ethtool_get_strings(struct net_device *dev, | |
6627 | u32 stringset, u8 * data) | |
1da177e4 | 6628 | { |
fa1f0cb3 SS |
6629 | int stat_size = 0; |
6630 | struct s2io_nic *sp = dev->priv; | |
6631 | ||
1da177e4 LT |
6632 | switch (stringset) { |
6633 | case ETH_SS_TEST: | |
6634 | memcpy(data, s2io_gstrings, S2IO_STRINGS_LEN); | |
6635 | break; | |
6636 | case ETH_SS_STATS: | |
fa1f0cb3 SS |
6637 | stat_size = sizeof(ethtool_xena_stats_keys); |
6638 | memcpy(data, ðtool_xena_stats_keys,stat_size); | |
6639 | if(sp->device_type == XFRAME_II_DEVICE) { | |
6640 | memcpy(data + stat_size, | |
6641 | ðtool_enhanced_stats_keys, | |
6642 | sizeof(ethtool_enhanced_stats_keys)); | |
6643 | stat_size += sizeof(ethtool_enhanced_stats_keys); | |
6644 | } | |
6645 | ||
6646 | memcpy(data + stat_size, ðtool_driver_stats_keys, | |
6647 | sizeof(ethtool_driver_stats_keys)); | |
1da177e4 LT |
6648 | } |
6649 | } | |
1da177e4 | 6650 | |
ac1f60db | 6651 | static int s2io_ethtool_op_set_tx_csum(struct net_device *dev, u32 data) |
1da177e4 LT |
6652 | { |
6653 | if (data) | |
6654 | dev->features |= NETIF_F_IP_CSUM; | |
6655 | else | |
6656 | dev->features &= ~NETIF_F_IP_CSUM; | |
6657 | ||
6658 | return 0; | |
6659 | } | |
6660 | ||
75c30b13 AR |
6661 | static u32 s2io_ethtool_op_get_tso(struct net_device *dev) |
6662 | { | |
6663 | return (dev->features & NETIF_F_TSO) != 0; | |
6664 | } | |
6665 | static int s2io_ethtool_op_set_tso(struct net_device *dev, u32 data) | |
6666 | { | |
6667 | if (data) | |
6668 | dev->features |= (NETIF_F_TSO | NETIF_F_TSO6); | |
6669 | else | |
6670 | dev->features &= ~(NETIF_F_TSO | NETIF_F_TSO6); | |
6671 | ||
6672 | return 0; | |
6673 | } | |
1da177e4 | 6674 | |
7282d491 | 6675 | static const struct ethtool_ops netdev_ethtool_ops = { |
1da177e4 LT |
6676 | .get_settings = s2io_ethtool_gset, |
6677 | .set_settings = s2io_ethtool_sset, | |
6678 | .get_drvinfo = s2io_ethtool_gdrvinfo, | |
6679 | .get_regs_len = s2io_ethtool_get_regs_len, | |
6680 | .get_regs = s2io_ethtool_gregs, | |
6681 | .get_link = ethtool_op_get_link, | |
6682 | .get_eeprom_len = s2io_get_eeprom_len, | |
6683 | .get_eeprom = s2io_ethtool_geeprom, | |
6684 | .set_eeprom = s2io_ethtool_seeprom, | |
0cec35eb | 6685 | .get_ringparam = s2io_ethtool_gringparam, |
1da177e4 LT |
6686 | .get_pauseparam = s2io_ethtool_getpause_data, |
6687 | .set_pauseparam = s2io_ethtool_setpause_data, | |
6688 | .get_rx_csum = s2io_ethtool_get_rx_csum, | |
6689 | .set_rx_csum = s2io_ethtool_set_rx_csum, | |
1da177e4 | 6690 | .set_tx_csum = s2io_ethtool_op_set_tx_csum, |
1da177e4 | 6691 | .set_sg = ethtool_op_set_sg, |
75c30b13 AR |
6692 | .get_tso = s2io_ethtool_op_get_tso, |
6693 | .set_tso = s2io_ethtool_op_set_tso, | |
fed5eccd | 6694 | .set_ufo = ethtool_op_set_ufo, |
1da177e4 LT |
6695 | .self_test = s2io_ethtool_test, |
6696 | .get_strings = s2io_ethtool_get_strings, | |
6697 | .phys_id = s2io_ethtool_idnic, | |
b9f2c044 JG |
6698 | .get_ethtool_stats = s2io_get_ethtool_stats, |
6699 | .get_sset_count = s2io_get_sset_count, | |
1da177e4 LT |
6700 | }; |
6701 | ||
6702 | /** | |
20346722 | 6703 | * s2io_ioctl - Entry point for the Ioctl |
1da177e4 LT |
6704 | * @dev : Device pointer. |
6705 | * @ifr : An IOCTL specefic structure, that can contain a pointer to | |
6706 | * a proprietary structure used to pass information to the driver. | |
6707 | * @cmd : This is used to distinguish between the different commands that | |
6708 | * can be passed to the IOCTL functions. | |
6709 | * Description: | |
20346722 K |
6710 | * Currently there are no special functionality supported in IOCTL, hence |
6711 | * function always return EOPNOTSUPPORTED | |
1da177e4 LT |
6712 | */ |
6713 | ||
ac1f60db | 6714 | static int s2io_ioctl(struct net_device *dev, struct ifreq *rq, int cmd) |
1da177e4 LT |
6715 | { |
6716 | return -EOPNOTSUPP; | |
6717 | } | |
6718 | ||
6719 | /** | |
6720 | * s2io_change_mtu - entry point to change MTU size for the device. | |
6721 | * @dev : device pointer. | |
6722 | * @new_mtu : the new MTU size for the device. | |
6723 | * Description: A driver entry point to change MTU size for the device. | |
6724 | * Before changing the MTU the device must be stopped. | |
6725 | * Return value: | |
6726 | * 0 on success and an appropriate (-)ve integer as defined in errno.h | |
6727 | * file on failure. | |
6728 | */ | |
6729 | ||
ac1f60db | 6730 | static int s2io_change_mtu(struct net_device *dev, int new_mtu) |
1da177e4 | 6731 | { |
1ee6dd77 | 6732 | struct s2io_nic *sp = dev->priv; |
9f74ffde | 6733 | int ret = 0; |
1da177e4 LT |
6734 | |
6735 | if ((new_mtu < MIN_MTU) || (new_mtu > S2IO_JUMBO_SIZE)) { | |
6736 | DBG_PRINT(ERR_DBG, "%s: MTU size is invalid.\n", | |
6737 | dev->name); | |
6738 | return -EPERM; | |
6739 | } | |
6740 | ||
1da177e4 | 6741 | dev->mtu = new_mtu; |
d8892c6e | 6742 | if (netif_running(dev)) { |
3a3d5756 | 6743 | s2io_stop_all_tx_queue(sp); |
e6a8fee2 | 6744 | s2io_card_down(sp); |
9f74ffde SH |
6745 | ret = s2io_card_up(sp); |
6746 | if (ret) { | |
d8892c6e K |
6747 | DBG_PRINT(ERR_DBG, "%s: Device bring up failed\n", |
6748 | __FUNCTION__); | |
9f74ffde | 6749 | return ret; |
d8892c6e | 6750 | } |
3a3d5756 | 6751 | s2io_wake_all_tx_queue(sp); |
d8892c6e | 6752 | } else { /* Device is down */ |
1ee6dd77 | 6753 | struct XENA_dev_config __iomem *bar0 = sp->bar0; |
d8892c6e K |
6754 | u64 val64 = new_mtu; |
6755 | ||
6756 | writeq(vBIT(val64, 2, 14), &bar0->rmac_max_pyld_len); | |
6757 | } | |
1da177e4 | 6758 | |
9f74ffde | 6759 | return ret; |
1da177e4 LT |
6760 | } |
6761 | ||
1da177e4 LT |
6762 | /** |
6763 | * s2io_set_link - Set the LInk status | |
6764 | * @data: long pointer to device private structue | |
6765 | * Description: Sets the link status for the adapter | |
6766 | */ | |
6767 | ||
c4028958 | 6768 | static void s2io_set_link(struct work_struct *work) |
1da177e4 | 6769 | { |
1ee6dd77 | 6770 | struct s2io_nic *nic = container_of(work, struct s2io_nic, set_link_task); |
1da177e4 | 6771 | struct net_device *dev = nic->dev; |
1ee6dd77 | 6772 | struct XENA_dev_config __iomem *bar0 = nic->bar0; |
1da177e4 LT |
6773 | register u64 val64; |
6774 | u16 subid; | |
6775 | ||
22747d6b FR |
6776 | rtnl_lock(); |
6777 | ||
6778 | if (!netif_running(dev)) | |
6779 | goto out_unlock; | |
6780 | ||
92b84437 | 6781 | if (test_and_set_bit(__S2IO_STATE_LINK_TASK, &(nic->state))) { |
1da177e4 | 6782 | /* The card is being reset, no point doing anything */ |
22747d6b | 6783 | goto out_unlock; |
1da177e4 LT |
6784 | } |
6785 | ||
6786 | subid = nic->pdev->subsystem_device; | |
a371a07d K |
6787 | if (s2io_link_fault_indication(nic) == MAC_RMAC_ERR_TIMER) { |
6788 | /* | |
6789 | * Allow a small delay for the NICs self initiated | |
6790 | * cleanup to complete. | |
6791 | */ | |
6792 | msleep(100); | |
6793 | } | |
1da177e4 LT |
6794 | |
6795 | val64 = readq(&bar0->adapter_status); | |
19a60522 SS |
6796 | if (LINK_IS_UP(val64)) { |
6797 | if (!(readq(&bar0->adapter_control) & ADAPTER_CNTL_EN)) { | |
6798 | if (verify_xena_quiescence(nic)) { | |
6799 | val64 = readq(&bar0->adapter_control); | |
6800 | val64 |= ADAPTER_CNTL_EN; | |
1da177e4 | 6801 | writeq(val64, &bar0->adapter_control); |
19a60522 SS |
6802 | if (CARDS_WITH_FAULTY_LINK_INDICATORS( |
6803 | nic->device_type, subid)) { | |
6804 | val64 = readq(&bar0->gpio_control); | |
6805 | val64 |= GPIO_CTRL_GPIO_0; | |
6806 | writeq(val64, &bar0->gpio_control); | |
6807 | val64 = readq(&bar0->gpio_control); | |
6808 | } else { | |
6809 | val64 |= ADAPTER_LED_ON; | |
6810 | writeq(val64, &bar0->adapter_control); | |
a371a07d | 6811 | } |
1da177e4 | 6812 | nic->device_enabled_once = TRUE; |
19a60522 SS |
6813 | } else { |
6814 | DBG_PRINT(ERR_DBG, "%s: Error: ", dev->name); | |
6815 | DBG_PRINT(ERR_DBG, "device is not Quiescent\n"); | |
3a3d5756 | 6816 | s2io_stop_all_tx_queue(nic); |
1da177e4 | 6817 | } |
19a60522 | 6818 | } |
92c48799 SS |
6819 | val64 = readq(&bar0->adapter_control); |
6820 | val64 |= ADAPTER_LED_ON; | |
6821 | writeq(val64, &bar0->adapter_control); | |
6822 | s2io_link(nic, LINK_UP); | |
19a60522 SS |
6823 | } else { |
6824 | if (CARDS_WITH_FAULTY_LINK_INDICATORS(nic->device_type, | |
6825 | subid)) { | |
6826 | val64 = readq(&bar0->gpio_control); | |
6827 | val64 &= ~GPIO_CTRL_GPIO_0; | |
6828 | writeq(val64, &bar0->gpio_control); | |
6829 | val64 = readq(&bar0->gpio_control); | |
1da177e4 | 6830 | } |
92c48799 SS |
6831 | /* turn off LED */ |
6832 | val64 = readq(&bar0->adapter_control); | |
6833 | val64 = val64 &(~ADAPTER_LED_ON); | |
6834 | writeq(val64, &bar0->adapter_control); | |
19a60522 | 6835 | s2io_link(nic, LINK_DOWN); |
1da177e4 | 6836 | } |
92b84437 | 6837 | clear_bit(__S2IO_STATE_LINK_TASK, &(nic->state)); |
22747d6b FR |
6838 | |
6839 | out_unlock: | |
d8d70caf | 6840 | rtnl_unlock(); |
1da177e4 LT |
6841 | } |
6842 | ||
1ee6dd77 RB |
6843 | static int set_rxd_buffer_pointer(struct s2io_nic *sp, struct RxD_t *rxdp, |
6844 | struct buffAdd *ba, | |
6845 | struct sk_buff **skb, u64 *temp0, u64 *temp1, | |
6846 | u64 *temp2, int size) | |
5d3213cc AR |
6847 | { |
6848 | struct net_device *dev = sp->dev; | |
491abf25 | 6849 | struct swStat *stats = &sp->mac_control.stats_info->sw_stat; |
5d3213cc AR |
6850 | |
6851 | if ((sp->rxd_mode == RXD_MODE_1) && (rxdp->Host_Control == 0)) { | |
6d517a27 | 6852 | struct RxD1 *rxdp1 = (struct RxD1 *)rxdp; |
5d3213cc AR |
6853 | /* allocate skb */ |
6854 | if (*skb) { | |
6855 | DBG_PRINT(INFO_DBG, "SKB is not NULL\n"); | |
6856 | /* | |
6857 | * As Rx frame are not going to be processed, | |
6858 | * using same mapped address for the Rxd | |
6859 | * buffer pointer | |
6860 | */ | |
6d517a27 | 6861 | rxdp1->Buffer0_ptr = *temp0; |
5d3213cc AR |
6862 | } else { |
6863 | *skb = dev_alloc_skb(size); | |
6864 | if (!(*skb)) { | |
0c61ed5f | 6865 | DBG_PRINT(INFO_DBG, "%s: Out of ", dev->name); |
c53d4945 SH |
6866 | DBG_PRINT(INFO_DBG, "memory to allocate "); |
6867 | DBG_PRINT(INFO_DBG, "1 buf mode SKBs\n"); | |
6868 | sp->mac_control.stats_info->sw_stat. \ | |
6869 | mem_alloc_fail_cnt++; | |
5d3213cc AR |
6870 | return -ENOMEM ; |
6871 | } | |
8a4bdbaa | 6872 | sp->mac_control.stats_info->sw_stat.mem_allocated |
491976b2 | 6873 | += (*skb)->truesize; |
5d3213cc AR |
6874 | /* storing the mapped addr in a temp variable |
6875 | * such it will be used for next rxd whose | |
6876 | * Host Control is NULL | |
6877 | */ | |
6d517a27 | 6878 | rxdp1->Buffer0_ptr = *temp0 = |
5d3213cc AR |
6879 | pci_map_single( sp->pdev, (*skb)->data, |
6880 | size - NET_IP_ALIGN, | |
6881 | PCI_DMA_FROMDEVICE); | |
64c42f69 | 6882 | if (pci_dma_mapping_error(rxdp1->Buffer0_ptr)) |
491abf25 | 6883 | goto memalloc_failed; |
5d3213cc AR |
6884 | rxdp->Host_Control = (unsigned long) (*skb); |
6885 | } | |
6886 | } else if ((sp->rxd_mode == RXD_MODE_3B) && (rxdp->Host_Control == 0)) { | |
6d517a27 | 6887 | struct RxD3 *rxdp3 = (struct RxD3 *)rxdp; |
5d3213cc AR |
6888 | /* Two buffer Mode */ |
6889 | if (*skb) { | |
6d517a27 VP |
6890 | rxdp3->Buffer2_ptr = *temp2; |
6891 | rxdp3->Buffer0_ptr = *temp0; | |
6892 | rxdp3->Buffer1_ptr = *temp1; | |
5d3213cc AR |
6893 | } else { |
6894 | *skb = dev_alloc_skb(size); | |
2ceaac75 | 6895 | if (!(*skb)) { |
c53d4945 SH |
6896 | DBG_PRINT(INFO_DBG, "%s: Out of ", dev->name); |
6897 | DBG_PRINT(INFO_DBG, "memory to allocate "); | |
6898 | DBG_PRINT(INFO_DBG, "2 buf mode SKBs\n"); | |
6899 | sp->mac_control.stats_info->sw_stat. \ | |
6900 | mem_alloc_fail_cnt++; | |
2ceaac75 DR |
6901 | return -ENOMEM; |
6902 | } | |
8a4bdbaa | 6903 | sp->mac_control.stats_info->sw_stat.mem_allocated |
491976b2 | 6904 | += (*skb)->truesize; |
6d517a27 | 6905 | rxdp3->Buffer2_ptr = *temp2 = |
5d3213cc AR |
6906 | pci_map_single(sp->pdev, (*skb)->data, |
6907 | dev->mtu + 4, | |
6908 | PCI_DMA_FROMDEVICE); | |
64c42f69 | 6909 | if (pci_dma_mapping_error(rxdp3->Buffer2_ptr)) |
491abf25 | 6910 | goto memalloc_failed; |
6d517a27 | 6911 | rxdp3->Buffer0_ptr = *temp0 = |
5d3213cc AR |
6912 | pci_map_single( sp->pdev, ba->ba_0, BUF0_LEN, |
6913 | PCI_DMA_FROMDEVICE); | |
64c42f69 | 6914 | if (pci_dma_mapping_error(rxdp3->Buffer0_ptr)) { |
491abf25 | 6915 | pci_unmap_single (sp->pdev, |
3e847423 | 6916 | (dma_addr_t)rxdp3->Buffer2_ptr, |
491abf25 VP |
6917 | dev->mtu + 4, PCI_DMA_FROMDEVICE); |
6918 | goto memalloc_failed; | |
6919 | } | |
5d3213cc AR |
6920 | rxdp->Host_Control = (unsigned long) (*skb); |
6921 | ||
6922 | /* Buffer-1 will be dummy buffer not used */ | |
6d517a27 | 6923 | rxdp3->Buffer1_ptr = *temp1 = |
5d3213cc | 6924 | pci_map_single(sp->pdev, ba->ba_1, BUF1_LEN, |
5d3213cc | 6925 | PCI_DMA_FROMDEVICE); |
64c42f69 | 6926 | if (pci_dma_mapping_error(rxdp3->Buffer1_ptr)) { |
491abf25 | 6927 | pci_unmap_single (sp->pdev, |
3e847423 AV |
6928 | (dma_addr_t)rxdp3->Buffer0_ptr, |
6929 | BUF0_LEN, PCI_DMA_FROMDEVICE); | |
6930 | pci_unmap_single (sp->pdev, | |
6931 | (dma_addr_t)rxdp3->Buffer2_ptr, | |
491abf25 VP |
6932 | dev->mtu + 4, PCI_DMA_FROMDEVICE); |
6933 | goto memalloc_failed; | |
6934 | } | |
5d3213cc AR |
6935 | } |
6936 | } | |
6937 | return 0; | |
491abf25 VP |
6938 | memalloc_failed: |
6939 | stats->pci_map_fail_cnt++; | |
6940 | stats->mem_freed += (*skb)->truesize; | |
6941 | dev_kfree_skb(*skb); | |
6942 | return -ENOMEM; | |
5d3213cc | 6943 | } |
491abf25 | 6944 | |
1ee6dd77 RB |
6945 | static void set_rxd_buffer_size(struct s2io_nic *sp, struct RxD_t *rxdp, |
6946 | int size) | |
5d3213cc AR |
6947 | { |
6948 | struct net_device *dev = sp->dev; | |
6949 | if (sp->rxd_mode == RXD_MODE_1) { | |
6950 | rxdp->Control_2 = SET_BUFFER0_SIZE_1( size - NET_IP_ALIGN); | |
6951 | } else if (sp->rxd_mode == RXD_MODE_3B) { | |
6952 | rxdp->Control_2 = SET_BUFFER0_SIZE_3(BUF0_LEN); | |
6953 | rxdp->Control_2 |= SET_BUFFER1_SIZE_3(1); | |
6954 | rxdp->Control_2 |= SET_BUFFER2_SIZE_3( dev->mtu + 4); | |
5d3213cc AR |
6955 | } |
6956 | } | |
6957 | ||
1ee6dd77 | 6958 | static int rxd_owner_bit_reset(struct s2io_nic *sp) |
5d3213cc AR |
6959 | { |
6960 | int i, j, k, blk_cnt = 0, size; | |
1ee6dd77 | 6961 | struct mac_info * mac_control = &sp->mac_control; |
5d3213cc AR |
6962 | struct config_param *config = &sp->config; |
6963 | struct net_device *dev = sp->dev; | |
1ee6dd77 | 6964 | struct RxD_t *rxdp = NULL; |
5d3213cc | 6965 | struct sk_buff *skb = NULL; |
1ee6dd77 | 6966 | struct buffAdd *ba = NULL; |
5d3213cc AR |
6967 | u64 temp0_64 = 0, temp1_64 = 0, temp2_64 = 0; |
6968 | ||
6969 | /* Calculate the size based on ring mode */ | |
6970 | size = dev->mtu + HEADER_ETHERNET_II_802_3_SIZE + | |
6971 | HEADER_802_2_SIZE + HEADER_SNAP_SIZE; | |
6972 | if (sp->rxd_mode == RXD_MODE_1) | |
6973 | size += NET_IP_ALIGN; | |
6974 | else if (sp->rxd_mode == RXD_MODE_3B) | |
6975 | size = dev->mtu + ALIGN_SIZE + BUF0_LEN + 4; | |
5d3213cc AR |
6976 | |
6977 | for (i = 0; i < config->rx_ring_num; i++) { | |
6978 | blk_cnt = config->rx_cfg[i].num_rxd / | |
6979 | (rxd_count[sp->rxd_mode] +1); | |
6980 | ||
6981 | for (j = 0; j < blk_cnt; j++) { | |
6982 | for (k = 0; k < rxd_count[sp->rxd_mode]; k++) { | |
6983 | rxdp = mac_control->rings[i]. | |
6984 | rx_blocks[j].rxds[k].virt_addr; | |
6d517a27 | 6985 | if(sp->rxd_mode == RXD_MODE_3B) |
5d3213cc | 6986 | ba = &mac_control->rings[i].ba[j][k]; |
ac1f90d6 | 6987 | if (set_rxd_buffer_pointer(sp, rxdp, ba, |
5d3213cc AR |
6988 | &skb,(u64 *)&temp0_64, |
6989 | (u64 *)&temp1_64, | |
ac1f90d6 SS |
6990 | (u64 *)&temp2_64, |
6991 | size) == ENOMEM) { | |
6992 | return 0; | |
6993 | } | |
5d3213cc AR |
6994 | |
6995 | set_rxd_buffer_size(sp, rxdp, size); | |
6996 | wmb(); | |
6997 | /* flip the Ownership bit to Hardware */ | |
6998 | rxdp->Control_1 |= RXD_OWN_XENA; | |
6999 | } | |
7000 | } | |
7001 | } | |
7002 | return 0; | |
7003 | ||
7004 | } | |
7005 | ||
1ee6dd77 | 7006 | static int s2io_add_isr(struct s2io_nic * sp) |
1da177e4 | 7007 | { |
e6a8fee2 | 7008 | int ret = 0; |
c92ca04b | 7009 | struct net_device *dev = sp->dev; |
e6a8fee2 | 7010 | int err = 0; |
1da177e4 | 7011 | |
eaae7f72 | 7012 | if (sp->config.intr_type == MSI_X) |
e6a8fee2 AR |
7013 | ret = s2io_enable_msi_x(sp); |
7014 | if (ret) { | |
7015 | DBG_PRINT(ERR_DBG, "%s: Defaulting to INTA\n", dev->name); | |
eaae7f72 | 7016 | sp->config.intr_type = INTA; |
20346722 | 7017 | } |
1da177e4 | 7018 | |
1ee6dd77 | 7019 | /* Store the values of the MSIX table in the struct s2io_nic structure */ |
e6a8fee2 | 7020 | store_xmsi_data(sp); |
c92ca04b | 7021 | |
e6a8fee2 | 7022 | /* After proper initialization of H/W, register ISR */ |
eaae7f72 | 7023 | if (sp->config.intr_type == MSI_X) { |
ac731ab6 SH |
7024 | int i, msix_rx_cnt = 0; |
7025 | ||
f61e0a35 SH |
7026 | for (i = 0; i < sp->num_entries; i++) { |
7027 | if (sp->s2io_entries[i].in_use == MSIX_FLG) { | |
7028 | if (sp->s2io_entries[i].type == | |
ac731ab6 SH |
7029 | MSIX_RING_TYPE) { |
7030 | sprintf(sp->desc[i], "%s:MSI-X-%d-RX", | |
7031 | dev->name, i); | |
7032 | err = request_irq(sp->entries[i].vector, | |
7033 | s2io_msix_ring_handle, 0, | |
7034 | sp->desc[i], | |
7035 | sp->s2io_entries[i].arg); | |
7036 | } else if (sp->s2io_entries[i].type == | |
7037 | MSIX_ALARM_TYPE) { | |
7038 | sprintf(sp->desc[i], "%s:MSI-X-%d-TX", | |
e6a8fee2 | 7039 | dev->name, i); |
ac731ab6 SH |
7040 | err = request_irq(sp->entries[i].vector, |
7041 | s2io_msix_fifo_handle, 0, | |
7042 | sp->desc[i], | |
7043 | sp->s2io_entries[i].arg); | |
7044 | ||
fb6a825b | 7045 | } |
ac731ab6 SH |
7046 | /* if either data or addr is zero print it. */ |
7047 | if (!(sp->msix_info[i].addr && | |
fb6a825b | 7048 | sp->msix_info[i].data)) { |
ac731ab6 SH |
7049 | DBG_PRINT(ERR_DBG, |
7050 | "%s @Addr:0x%llx Data:0x%llx\n", | |
7051 | sp->desc[i], | |
fb6a825b SS |
7052 | (unsigned long long) |
7053 | sp->msix_info[i].addr, | |
3459feb8 | 7054 | (unsigned long long) |
ac731ab6 SH |
7055 | ntohl(sp->msix_info[i].data)); |
7056 | } else | |
fb6a825b | 7057 | msix_rx_cnt++; |
ac731ab6 SH |
7058 | if (err) { |
7059 | remove_msix_isr(sp); | |
7060 | ||
7061 | DBG_PRINT(ERR_DBG, | |
7062 | "%s:MSI-X-%d registration " | |
7063 | "failed\n", dev->name, i); | |
7064 | ||
7065 | DBG_PRINT(ERR_DBG, | |
7066 | "%s: Defaulting to INTA\n", | |
7067 | dev->name); | |
7068 | sp->config.intr_type = INTA; | |
7069 | break; | |
fb6a825b | 7070 | } |
ac731ab6 SH |
7071 | sp->s2io_entries[i].in_use = |
7072 | MSIX_REGISTERED_SUCCESS; | |
f61e0a35 | 7073 | } |
e6a8fee2 | 7074 | } |
18b2b7bd | 7075 | if (!err) { |
18b2b7bd | 7076 | printk(KERN_INFO "MSI-X-RX %d entries enabled\n", |
ac731ab6 SH |
7077 | --msix_rx_cnt); |
7078 | DBG_PRINT(INFO_DBG, "MSI-X-TX entries enabled" | |
7079 | " through alarm vector\n"); | |
18b2b7bd | 7080 | } |
e6a8fee2 | 7081 | } |
eaae7f72 | 7082 | if (sp->config.intr_type == INTA) { |
e6a8fee2 AR |
7083 | err = request_irq((int) sp->pdev->irq, s2io_isr, IRQF_SHARED, |
7084 | sp->name, dev); | |
7085 | if (err) { | |
7086 | DBG_PRINT(ERR_DBG, "%s: ISR registration failed\n", | |
7087 | dev->name); | |
7088 | return -1; | |
7089 | } | |
7090 | } | |
7091 | return 0; | |
7092 | } | |
1ee6dd77 | 7093 | static void s2io_rem_isr(struct s2io_nic * sp) |
e6a8fee2 | 7094 | { |
18b2b7bd SH |
7095 | if (sp->config.intr_type == MSI_X) |
7096 | remove_msix_isr(sp); | |
7097 | else | |
7098 | remove_inta_isr(sp); | |
e6a8fee2 AR |
7099 | } |
7100 | ||
d796fdb7 | 7101 | static void do_s2io_card_down(struct s2io_nic * sp, int do_io) |
e6a8fee2 AR |
7102 | { |
7103 | int cnt = 0; | |
1ee6dd77 | 7104 | struct XENA_dev_config __iomem *bar0 = sp->bar0; |
e6a8fee2 | 7105 | register u64 val64 = 0; |
5f490c96 SH |
7106 | struct config_param *config; |
7107 | config = &sp->config; | |
e6a8fee2 | 7108 | |
9f74ffde SH |
7109 | if (!is_s2io_card_up(sp)) |
7110 | return; | |
7111 | ||
e6a8fee2 AR |
7112 | del_timer_sync(&sp->alarm_timer); |
7113 | /* If s2io_set_link task is executing, wait till it completes. */ | |
92b84437 | 7114 | while (test_and_set_bit(__S2IO_STATE_LINK_TASK, &(sp->state))) { |
e6a8fee2 AR |
7115 | msleep(50); |
7116 | } | |
92b84437 | 7117 | clear_bit(__S2IO_STATE_CARD_UP, &sp->state); |
e6a8fee2 | 7118 | |
5f490c96 | 7119 | /* Disable napi */ |
f61e0a35 SH |
7120 | if (sp->config.napi) { |
7121 | int off = 0; | |
7122 | if (config->intr_type == MSI_X) { | |
7123 | for (; off < sp->config.rx_ring_num; off++) | |
7124 | napi_disable(&sp->mac_control.rings[off].napi); | |
7125 | } | |
7126 | else | |
7127 | napi_disable(&sp->napi); | |
7128 | } | |
5f490c96 | 7129 | |
e6a8fee2 | 7130 | /* disable Tx and Rx traffic on the NIC */ |
d796fdb7 LV |
7131 | if (do_io) |
7132 | stop_nic(sp); | |
e6a8fee2 AR |
7133 | |
7134 | s2io_rem_isr(sp); | |
1da177e4 | 7135 | |
1da177e4 | 7136 | /* Check if the device is Quiescent and then Reset the NIC */ |
d796fdb7 | 7137 | while(do_io) { |
5d3213cc AR |
7138 | /* As per the HW requirement we need to replenish the |
7139 | * receive buffer to avoid the ring bump. Since there is | |
7140 | * no intention of processing the Rx frame at this pointwe are | |
7141 | * just settting the ownership bit of rxd in Each Rx | |
7142 | * ring to HW and set the appropriate buffer size | |
7143 | * based on the ring mode | |
7144 | */ | |
7145 | rxd_owner_bit_reset(sp); | |
7146 | ||
1da177e4 | 7147 | val64 = readq(&bar0->adapter_status); |
19a60522 SS |
7148 | if (verify_xena_quiescence(sp)) { |
7149 | if(verify_pcc_quiescent(sp, sp->device_enabled_once)) | |
1da177e4 LT |
7150 | break; |
7151 | } | |
7152 | ||
7153 | msleep(50); | |
7154 | cnt++; | |
7155 | if (cnt == 10) { | |
7156 | DBG_PRINT(ERR_DBG, | |
7157 | "s2io_close:Device not Quiescent "); | |
7158 | DBG_PRINT(ERR_DBG, "adaper status reads 0x%llx\n", | |
7159 | (unsigned long long) val64); | |
7160 | break; | |
7161 | } | |
d796fdb7 LV |
7162 | } |
7163 | if (do_io) | |
7164 | s2io_reset(sp); | |
1da177e4 | 7165 | |
7ba013ac | 7166 | /* Free all Tx buffers */ |
1da177e4 | 7167 | free_tx_buffers(sp); |
7ba013ac K |
7168 | |
7169 | /* Free all Rx buffers */ | |
1da177e4 LT |
7170 | free_rx_buffers(sp); |
7171 | ||
92b84437 | 7172 | clear_bit(__S2IO_STATE_LINK_TASK, &(sp->state)); |
1da177e4 LT |
7173 | } |
7174 | ||
d796fdb7 LV |
7175 | static void s2io_card_down(struct s2io_nic * sp) |
7176 | { | |
7177 | do_s2io_card_down(sp, 1); | |
7178 | } | |
7179 | ||
1ee6dd77 | 7180 | static int s2io_card_up(struct s2io_nic * sp) |
1da177e4 | 7181 | { |
cc6e7c44 | 7182 | int i, ret = 0; |
1ee6dd77 | 7183 | struct mac_info *mac_control; |
1da177e4 LT |
7184 | struct config_param *config; |
7185 | struct net_device *dev = (struct net_device *) sp->dev; | |
e6a8fee2 | 7186 | u16 interruptible; |
1da177e4 LT |
7187 | |
7188 | /* Initialize the H/W I/O registers */ | |
9f74ffde SH |
7189 | ret = init_nic(sp); |
7190 | if (ret != 0) { | |
1da177e4 LT |
7191 | DBG_PRINT(ERR_DBG, "%s: H/W initialization failed\n", |
7192 | dev->name); | |
9f74ffde SH |
7193 | if (ret != -EIO) |
7194 | s2io_reset(sp); | |
7195 | return ret; | |
1da177e4 LT |
7196 | } |
7197 | ||
20346722 K |
7198 | /* |
7199 | * Initializing the Rx buffers. For now we are considering only 1 | |
1da177e4 LT |
7200 | * Rx ring and initializing buffers into 30 Rx blocks |
7201 | */ | |
7202 | mac_control = &sp->mac_control; | |
7203 | config = &sp->config; | |
7204 | ||
7205 | for (i = 0; i < config->rx_ring_num; i++) { | |
0425b46a SH |
7206 | mac_control->rings[i].mtu = dev->mtu; |
7207 | ret = fill_rx_buffers(&mac_control->rings[i]); | |
7208 | if (ret) { | |
1da177e4 LT |
7209 | DBG_PRINT(ERR_DBG, "%s: Out of memory in Open\n", |
7210 | dev->name); | |
7211 | s2io_reset(sp); | |
7212 | free_rx_buffers(sp); | |
7213 | return -ENOMEM; | |
7214 | } | |
7215 | DBG_PRINT(INFO_DBG, "Buf in ring:%d is %d:\n", i, | |
0425b46a | 7216 | mac_control->rings[i].rx_bufs_left); |
1da177e4 | 7217 | } |
5f490c96 SH |
7218 | |
7219 | /* Initialise napi */ | |
f61e0a35 SH |
7220 | if (config->napi) { |
7221 | int i; | |
7222 | if (config->intr_type == MSI_X) { | |
7223 | for (i = 0; i < sp->config.rx_ring_num; i++) | |
7224 | napi_enable(&sp->mac_control.rings[i].napi); | |
7225 | } else { | |
7226 | napi_enable(&sp->napi); | |
7227 | } | |
7228 | } | |
5f490c96 | 7229 | |
19a60522 SS |
7230 | /* Maintain the state prior to the open */ |
7231 | if (sp->promisc_flg) | |
7232 | sp->promisc_flg = 0; | |
7233 | if (sp->m_cast_flg) { | |
7234 | sp->m_cast_flg = 0; | |
7235 | sp->all_multi_pos= 0; | |
7236 | } | |
1da177e4 LT |
7237 | |
7238 | /* Setting its receive mode */ | |
7239 | s2io_set_multicast(dev); | |
7240 | ||
7d3d0439 | 7241 | if (sp->lro) { |
b41477f3 | 7242 | /* Initialize max aggregatable pkts per session based on MTU */ |
7d3d0439 RA |
7243 | sp->lro_max_aggr_per_sess = ((1<<16) - 1) / dev->mtu; |
7244 | /* Check if we can use(if specified) user provided value */ | |
7245 | if (lro_max_pkts < sp->lro_max_aggr_per_sess) | |
7246 | sp->lro_max_aggr_per_sess = lro_max_pkts; | |
7247 | } | |
7248 | ||
1da177e4 LT |
7249 | /* Enable Rx Traffic and interrupts on the NIC */ |
7250 | if (start_nic(sp)) { | |
7251 | DBG_PRINT(ERR_DBG, "%s: Starting NIC failed\n", dev->name); | |
1da177e4 | 7252 | s2io_reset(sp); |
e6a8fee2 AR |
7253 | free_rx_buffers(sp); |
7254 | return -ENODEV; | |
7255 | } | |
7256 | ||
7257 | /* Add interrupt service routine */ | |
7258 | if (s2io_add_isr(sp) != 0) { | |
eaae7f72 | 7259 | if (sp->config.intr_type == MSI_X) |
e6a8fee2 AR |
7260 | s2io_rem_isr(sp); |
7261 | s2io_reset(sp); | |
1da177e4 LT |
7262 | free_rx_buffers(sp); |
7263 | return -ENODEV; | |
7264 | } | |
7265 | ||
25fff88e K |
7266 | S2IO_TIMER_CONF(sp->alarm_timer, s2io_alarm_handle, sp, (HZ/2)); |
7267 | ||
e6a8fee2 | 7268 | /* Enable select interrupts */ |
9caab458 | 7269 | en_dis_err_alarms(sp, ENA_ALL_INTRS, ENABLE_INTRS); |
eaae7f72 | 7270 | if (sp->config.intr_type != INTA) |
ac731ab6 | 7271 | en_dis_able_nic_intrs(sp, TX_TRAFFIC_INTR, ENABLE_INTRS); |
e6a8fee2 AR |
7272 | else { |
7273 | interruptible = TX_TRAFFIC_INTR | RX_TRAFFIC_INTR; | |
9caab458 | 7274 | interruptible |= TX_PIC_INTR; |
e6a8fee2 AR |
7275 | en_dis_able_nic_intrs(sp, interruptible, ENABLE_INTRS); |
7276 | } | |
7277 | ||
92b84437 | 7278 | set_bit(__S2IO_STATE_CARD_UP, &sp->state); |
1da177e4 LT |
7279 | return 0; |
7280 | } | |
7281 | ||
20346722 | 7282 | /** |
1da177e4 LT |
7283 | * s2io_restart_nic - Resets the NIC. |
7284 | * @data : long pointer to the device private structure | |
7285 | * Description: | |
7286 | * This function is scheduled to be run by the s2io_tx_watchdog | |
20346722 | 7287 | * function after 0.5 secs to reset the NIC. The idea is to reduce |
1da177e4 LT |
7288 | * the run time of the watch dog routine which is run holding a |
7289 | * spin lock. | |
7290 | */ | |
7291 | ||
c4028958 | 7292 | static void s2io_restart_nic(struct work_struct *work) |
1da177e4 | 7293 | { |
1ee6dd77 | 7294 | struct s2io_nic *sp = container_of(work, struct s2io_nic, rst_timer_task); |
c4028958 | 7295 | struct net_device *dev = sp->dev; |
1da177e4 | 7296 | |
22747d6b FR |
7297 | rtnl_lock(); |
7298 | ||
7299 | if (!netif_running(dev)) | |
7300 | goto out_unlock; | |
7301 | ||
e6a8fee2 | 7302 | s2io_card_down(sp); |
1da177e4 LT |
7303 | if (s2io_card_up(sp)) { |
7304 | DBG_PRINT(ERR_DBG, "%s: Device bring up failed\n", | |
7305 | dev->name); | |
7306 | } | |
3a3d5756 | 7307 | s2io_wake_all_tx_queue(sp); |
1da177e4 LT |
7308 | DBG_PRINT(ERR_DBG, "%s: was reset by Tx watchdog timer\n", |
7309 | dev->name); | |
22747d6b FR |
7310 | out_unlock: |
7311 | rtnl_unlock(); | |
1da177e4 LT |
7312 | } |
7313 | ||
20346722 K |
7314 | /** |
7315 | * s2io_tx_watchdog - Watchdog for transmit side. | |
1da177e4 LT |
7316 | * @dev : Pointer to net device structure |
7317 | * Description: | |
7318 | * This function is triggered if the Tx Queue is stopped | |
7319 | * for a pre-defined amount of time when the Interface is still up. | |
7320 | * If the Interface is jammed in such a situation, the hardware is | |
7321 | * reset (by s2io_close) and restarted again (by s2io_open) to | |
7322 | * overcome any problem that might have been caused in the hardware. | |
7323 | * Return value: | |
7324 | * void | |
7325 | */ | |
7326 | ||
7327 | static void s2io_tx_watchdog(struct net_device *dev) | |
7328 | { | |
1ee6dd77 | 7329 | struct s2io_nic *sp = dev->priv; |
1da177e4 LT |
7330 | |
7331 | if (netif_carrier_ok(dev)) { | |
c53d4945 | 7332 | sp->mac_control.stats_info->sw_stat.watchdog_timer_cnt++; |
1da177e4 | 7333 | schedule_work(&sp->rst_timer_task); |
bd1034f0 | 7334 | sp->mac_control.stats_info->sw_stat.soft_reset_cnt++; |
1da177e4 LT |
7335 | } |
7336 | } | |
7337 | ||
7338 | /** | |
7339 | * rx_osm_handler - To perform some OS related operations on SKB. | |
7340 | * @sp: private member of the device structure,pointer to s2io_nic structure. | |
7341 | * @skb : the socket buffer pointer. | |
7342 | * @len : length of the packet | |
7343 | * @cksum : FCS checksum of the frame. | |
7344 | * @ring_no : the ring from which this RxD was extracted. | |
20346722 | 7345 | * Description: |
b41477f3 | 7346 | * This function is called by the Rx interrupt serivce routine to perform |
1da177e4 LT |
7347 | * some OS related operations on the SKB before passing it to the upper |
7348 | * layers. It mainly checks if the checksum is OK, if so adds it to the | |
7349 | * SKBs cksum variable, increments the Rx packet count and passes the SKB | |
7350 | * to the upper layer. If the checksum is wrong, it increments the Rx | |
7351 | * packet error count, frees the SKB and returns error. | |
7352 | * Return value: | |
7353 | * SUCCESS on success and -1 on failure. | |
7354 | */ | |
1ee6dd77 | 7355 | static int rx_osm_handler(struct ring_info *ring_data, struct RxD_t * rxdp) |
1da177e4 | 7356 | { |
1ee6dd77 | 7357 | struct s2io_nic *sp = ring_data->nic; |
0425b46a | 7358 | struct net_device *dev = (struct net_device *) ring_data->dev; |
20346722 K |
7359 | struct sk_buff *skb = (struct sk_buff *) |
7360 | ((unsigned long) rxdp->Host_Control); | |
7361 | int ring_no = ring_data->ring_no; | |
1da177e4 | 7362 | u16 l3_csum, l4_csum; |
863c11a9 | 7363 | unsigned long long err = rxdp->Control_1 & RXD_T_CODE; |
1ee6dd77 | 7364 | struct lro *lro; |
f9046eb3 | 7365 | u8 err_mask; |
da6971d8 | 7366 | |
20346722 | 7367 | skb->dev = dev; |
c92ca04b | 7368 | |
863c11a9 | 7369 | if (err) { |
bd1034f0 AR |
7370 | /* Check for parity error */ |
7371 | if (err & 0x1) { | |
7372 | sp->mac_control.stats_info->sw_stat.parity_err_cnt++; | |
7373 | } | |
f9046eb3 OH |
7374 | err_mask = err >> 48; |
7375 | switch(err_mask) { | |
491976b2 SH |
7376 | case 1: |
7377 | sp->mac_control.stats_info->sw_stat. | |
7378 | rx_parity_err_cnt++; | |
7379 | break; | |
7380 | ||
7381 | case 2: | |
7382 | sp->mac_control.stats_info->sw_stat. | |
7383 | rx_abort_cnt++; | |
7384 | break; | |
7385 | ||
7386 | case 3: | |
7387 | sp->mac_control.stats_info->sw_stat. | |
7388 | rx_parity_abort_cnt++; | |
7389 | break; | |
7390 | ||
7391 | case 4: | |
7392 | sp->mac_control.stats_info->sw_stat. | |
7393 | rx_rda_fail_cnt++; | |
7394 | break; | |
7395 | ||
7396 | case 5: | |
7397 | sp->mac_control.stats_info->sw_stat. | |
7398 | rx_unkn_prot_cnt++; | |
7399 | break; | |
7400 | ||
7401 | case 6: | |
7402 | sp->mac_control.stats_info->sw_stat. | |
7403 | rx_fcs_err_cnt++; | |
7404 | break; | |
bd1034f0 | 7405 | |
491976b2 SH |
7406 | case 7: |
7407 | sp->mac_control.stats_info->sw_stat. | |
7408 | rx_buf_size_err_cnt++; | |
7409 | break; | |
7410 | ||
7411 | case 8: | |
7412 | sp->mac_control.stats_info->sw_stat. | |
7413 | rx_rxd_corrupt_cnt++; | |
7414 | break; | |
7415 | ||
7416 | case 15: | |
7417 | sp->mac_control.stats_info->sw_stat. | |
7418 | rx_unkn_err_cnt++; | |
7419 | break; | |
7420 | } | |
863c11a9 AR |
7421 | /* |
7422 | * Drop the packet if bad transfer code. Exception being | |
7423 | * 0x5, which could be due to unsupported IPv6 extension header. | |
7424 | * In this case, we let stack handle the packet. | |
7425 | * Note that in this case, since checksum will be incorrect, | |
7426 | * stack will validate the same. | |
7427 | */ | |
f9046eb3 OH |
7428 | if (err_mask != 0x5) { |
7429 | DBG_PRINT(ERR_DBG, "%s: Rx error Value: 0x%x\n", | |
7430 | dev->name, err_mask); | |
863c11a9 | 7431 | sp->stats.rx_crc_errors++; |
8a4bdbaa | 7432 | sp->mac_control.stats_info->sw_stat.mem_freed |
491976b2 | 7433 | += skb->truesize; |
863c11a9 | 7434 | dev_kfree_skb(skb); |
0425b46a | 7435 | ring_data->rx_bufs_left -= 1; |
863c11a9 AR |
7436 | rxdp->Host_Control = 0; |
7437 | return 0; | |
7438 | } | |
20346722 | 7439 | } |
1da177e4 | 7440 | |
20346722 | 7441 | /* Updating statistics */ |
0425b46a | 7442 | ring_data->rx_packets++; |
20346722 | 7443 | rxdp->Host_Control = 0; |
da6971d8 AR |
7444 | if (sp->rxd_mode == RXD_MODE_1) { |
7445 | int len = RXD_GET_BUFFER0_SIZE_1(rxdp->Control_2); | |
20346722 | 7446 | |
0425b46a | 7447 | ring_data->rx_bytes += len; |
da6971d8 AR |
7448 | skb_put(skb, len); |
7449 | ||
6d517a27 | 7450 | } else if (sp->rxd_mode == RXD_MODE_3B) { |
da6971d8 AR |
7451 | int get_block = ring_data->rx_curr_get_info.block_index; |
7452 | int get_off = ring_data->rx_curr_get_info.offset; | |
7453 | int buf0_len = RXD_GET_BUFFER0_SIZE_3(rxdp->Control_2); | |
7454 | int buf2_len = RXD_GET_BUFFER2_SIZE_3(rxdp->Control_2); | |
7455 | unsigned char *buff = skb_push(skb, buf0_len); | |
7456 | ||
1ee6dd77 | 7457 | struct buffAdd *ba = &ring_data->ba[get_block][get_off]; |
0425b46a | 7458 | ring_data->rx_bytes += buf0_len + buf2_len; |
da6971d8 | 7459 | memcpy(buff, ba->ba_0, buf0_len); |
6d517a27 | 7460 | skb_put(skb, buf2_len); |
da6971d8 | 7461 | } |
20346722 | 7462 | |
0425b46a SH |
7463 | if ((rxdp->Control_1 & TCP_OR_UDP_FRAME) && ((!ring_data->lro) || |
7464 | (ring_data->lro && (!(rxdp->Control_1 & RXD_FRAME_IP_FRAG)))) && | |
20346722 K |
7465 | (sp->rx_csum)) { |
7466 | l3_csum = RXD_GET_L3_CKSUM(rxdp->Control_1); | |
1da177e4 LT |
7467 | l4_csum = RXD_GET_L4_CKSUM(rxdp->Control_1); |
7468 | if ((l3_csum == L3_CKSUM_OK) && (l4_csum == L4_CKSUM_OK)) { | |
20346722 | 7469 | /* |
1da177e4 LT |
7470 | * NIC verifies if the Checksum of the received |
7471 | * frame is Ok or not and accordingly returns | |
7472 | * a flag in the RxD. | |
7473 | */ | |
7474 | skb->ip_summed = CHECKSUM_UNNECESSARY; | |
0425b46a | 7475 | if (ring_data->lro) { |
7d3d0439 RA |
7476 | u32 tcp_len; |
7477 | u8 *tcp; | |
7478 | int ret = 0; | |
7479 | ||
0425b46a SH |
7480 | ret = s2io_club_tcp_session(ring_data, |
7481 | skb->data, &tcp, &tcp_len, &lro, | |
7482 | rxdp, sp); | |
7d3d0439 RA |
7483 | switch (ret) { |
7484 | case 3: /* Begin anew */ | |
7485 | lro->parent = skb; | |
7486 | goto aggregate; | |
7487 | case 1: /* Aggregate */ | |
7488 | { | |
7489 | lro_append_pkt(sp, lro, | |
7490 | skb, tcp_len); | |
7491 | goto aggregate; | |
7492 | } | |
7493 | case 4: /* Flush session */ | |
7494 | { | |
7495 | lro_append_pkt(sp, lro, | |
7496 | skb, tcp_len); | |
cdb5bf02 SH |
7497 | queue_rx_frame(lro->parent, |
7498 | lro->vlan_tag); | |
7d3d0439 RA |
7499 | clear_lro_session(lro); |
7500 | sp->mac_control.stats_info-> | |
7501 | sw_stat.flush_max_pkts++; | |
7502 | goto aggregate; | |
7503 | } | |
7504 | case 2: /* Flush both */ | |
7505 | lro->parent->data_len = | |
7506 | lro->frags_len; | |
7507 | sp->mac_control.stats_info-> | |
7508 | sw_stat.sending_both++; | |
cdb5bf02 SH |
7509 | queue_rx_frame(lro->parent, |
7510 | lro->vlan_tag); | |
7d3d0439 RA |
7511 | clear_lro_session(lro); |
7512 | goto send_up; | |
7513 | case 0: /* sessions exceeded */ | |
c92ca04b AR |
7514 | case -1: /* non-TCP or not |
7515 | * L2 aggregatable | |
7516 | */ | |
7d3d0439 RA |
7517 | case 5: /* |
7518 | * First pkt in session not | |
7519 | * L3/L4 aggregatable | |
7520 | */ | |
7521 | break; | |
7522 | default: | |
7523 | DBG_PRINT(ERR_DBG, | |
7524 | "%s: Samadhana!!\n", | |
7525 | __FUNCTION__); | |
7526 | BUG(); | |
7527 | } | |
7528 | } | |
1da177e4 | 7529 | } else { |
20346722 K |
7530 | /* |
7531 | * Packet with erroneous checksum, let the | |
1da177e4 LT |
7532 | * upper layers deal with it. |
7533 | */ | |
7534 | skb->ip_summed = CHECKSUM_NONE; | |
7535 | } | |
cdb5bf02 | 7536 | } else |
1da177e4 | 7537 | skb->ip_summed = CHECKSUM_NONE; |
cdb5bf02 | 7538 | |
491976b2 | 7539 | sp->mac_control.stats_info->sw_stat.mem_freed += skb->truesize; |
7d3d0439 | 7540 | send_up: |
cdb5bf02 | 7541 | queue_rx_frame(skb, RXD_GET_VLAN_TAG(rxdp->Control_2)); |
1da177e4 | 7542 | dev->last_rx = jiffies; |
7d3d0439 | 7543 | aggregate: |
0425b46a | 7544 | sp->mac_control.rings[ring_no].rx_bufs_left -= 1; |
1da177e4 LT |
7545 | return SUCCESS; |
7546 | } | |
7547 | ||
7548 | /** | |
7549 | * s2io_link - stops/starts the Tx queue. | |
7550 | * @sp : private member of the device structure, which is a pointer to the | |
7551 | * s2io_nic structure. | |
7552 | * @link : inidicates whether link is UP/DOWN. | |
7553 | * Description: | |
7554 | * This function stops/starts the Tx queue depending on whether the link | |
20346722 K |
7555 | * status of the NIC is is down or up. This is called by the Alarm |
7556 | * interrupt handler whenever a link change interrupt comes up. | |
1da177e4 LT |
7557 | * Return value: |
7558 | * void. | |
7559 | */ | |
7560 | ||
1ee6dd77 | 7561 | static void s2io_link(struct s2io_nic * sp, int link) |
1da177e4 LT |
7562 | { |
7563 | struct net_device *dev = (struct net_device *) sp->dev; | |
7564 | ||
7565 | if (link != sp->last_link_state) { | |
b7c5678f | 7566 | init_tti(sp, link); |
1da177e4 LT |
7567 | if (link == LINK_DOWN) { |
7568 | DBG_PRINT(ERR_DBG, "%s: Link down\n", dev->name); | |
3a3d5756 | 7569 | s2io_stop_all_tx_queue(sp); |
1da177e4 | 7570 | netif_carrier_off(dev); |
491976b2 | 7571 | if(sp->mac_control.stats_info->sw_stat.link_up_cnt) |
8a4bdbaa | 7572 | sp->mac_control.stats_info->sw_stat.link_up_time = |
491976b2 SH |
7573 | jiffies - sp->start_time; |
7574 | sp->mac_control.stats_info->sw_stat.link_down_cnt++; | |
1da177e4 LT |
7575 | } else { |
7576 | DBG_PRINT(ERR_DBG, "%s: Link Up\n", dev->name); | |
491976b2 | 7577 | if (sp->mac_control.stats_info->sw_stat.link_down_cnt) |
8a4bdbaa | 7578 | sp->mac_control.stats_info->sw_stat.link_down_time = |
491976b2 SH |
7579 | jiffies - sp->start_time; |
7580 | sp->mac_control.stats_info->sw_stat.link_up_cnt++; | |
1da177e4 | 7581 | netif_carrier_on(dev); |
3a3d5756 | 7582 | s2io_wake_all_tx_queue(sp); |
1da177e4 LT |
7583 | } |
7584 | } | |
7585 | sp->last_link_state = link; | |
491976b2 | 7586 | sp->start_time = jiffies; |
1da177e4 LT |
7587 | } |
7588 | ||
20346722 K |
7589 | /** |
7590 | * s2io_init_pci -Initialization of PCI and PCI-X configuration registers . | |
7591 | * @sp : private member of the device structure, which is a pointer to the | |
1da177e4 LT |
7592 | * s2io_nic structure. |
7593 | * Description: | |
7594 | * This function initializes a few of the PCI and PCI-X configuration registers | |
7595 | * with recommended values. | |
7596 | * Return value: | |
7597 | * void | |
7598 | */ | |
7599 | ||
1ee6dd77 | 7600 | static void s2io_init_pci(struct s2io_nic * sp) |
1da177e4 | 7601 | { |
20346722 | 7602 | u16 pci_cmd = 0, pcix_cmd = 0; |
1da177e4 LT |
7603 | |
7604 | /* Enable Data Parity Error Recovery in PCI-X command register. */ | |
7605 | pci_read_config_word(sp->pdev, PCIX_COMMAND_REGISTER, | |
20346722 | 7606 | &(pcix_cmd)); |
1da177e4 | 7607 | pci_write_config_word(sp->pdev, PCIX_COMMAND_REGISTER, |
20346722 | 7608 | (pcix_cmd | 1)); |
1da177e4 | 7609 | pci_read_config_word(sp->pdev, PCIX_COMMAND_REGISTER, |
20346722 | 7610 | &(pcix_cmd)); |
1da177e4 LT |
7611 | |
7612 | /* Set the PErr Response bit in PCI command register. */ | |
7613 | pci_read_config_word(sp->pdev, PCI_COMMAND, &pci_cmd); | |
7614 | pci_write_config_word(sp->pdev, PCI_COMMAND, | |
7615 | (pci_cmd | PCI_COMMAND_PARITY)); | |
7616 | pci_read_config_word(sp->pdev, PCI_COMMAND, &pci_cmd); | |
1da177e4 LT |
7617 | } |
7618 | ||
3a3d5756 SH |
7619 | static int s2io_verify_parm(struct pci_dev *pdev, u8 *dev_intr_type, |
7620 | u8 *dev_multiq) | |
9dc737a7 | 7621 | { |
2fda096d | 7622 | if ((tx_fifo_num > MAX_TX_FIFOS) || |
6cfc482b | 7623 | (tx_fifo_num < 1)) { |
2fda096d SR |
7624 | DBG_PRINT(ERR_DBG, "s2io: Requested number of tx fifos " |
7625 | "(%d) not supported\n", tx_fifo_num); | |
6cfc482b SH |
7626 | |
7627 | if (tx_fifo_num < 1) | |
7628 | tx_fifo_num = 1; | |
7629 | else | |
7630 | tx_fifo_num = MAX_TX_FIFOS; | |
7631 | ||
2fda096d SR |
7632 | DBG_PRINT(ERR_DBG, "s2io: Default to %d ", tx_fifo_num); |
7633 | DBG_PRINT(ERR_DBG, "tx fifos\n"); | |
9dc737a7 | 7634 | } |
2fda096d | 7635 | |
3a3d5756 SH |
7636 | #ifndef CONFIG_NETDEVICES_MULTIQUEUE |
7637 | if (multiq) { | |
7638 | DBG_PRINT(ERR_DBG, "s2io: Multiqueue support not enabled\n"); | |
7639 | multiq = 0; | |
7640 | } | |
7641 | #endif | |
6cfc482b | 7642 | if (multiq) |
3a3d5756 | 7643 | *dev_multiq = multiq; |
6cfc482b SH |
7644 | |
7645 | if (tx_steering_type && (1 == tx_fifo_num)) { | |
7646 | if (tx_steering_type != TX_DEFAULT_STEERING) | |
7647 | DBG_PRINT(ERR_DBG, | |
7648 | "s2io: Tx steering is not supported with " | |
7649 | "one fifo. Disabling Tx steering.\n"); | |
7650 | tx_steering_type = NO_STEERING; | |
7651 | } | |
7652 | ||
7653 | if ((tx_steering_type < NO_STEERING) || | |
7654 | (tx_steering_type > TX_DEFAULT_STEERING)) { | |
7655 | DBG_PRINT(ERR_DBG, "s2io: Requested transmit steering not " | |
7656 | "supported\n"); | |
7657 | DBG_PRINT(ERR_DBG, "s2io: Disabling transmit steering\n"); | |
7658 | tx_steering_type = NO_STEERING; | |
3a3d5756 SH |
7659 | } |
7660 | ||
0425b46a SH |
7661 | if (rx_ring_num > MAX_RX_RINGS) { |
7662 | DBG_PRINT(ERR_DBG, "s2io: Requested number of rx rings not " | |
9dc737a7 | 7663 | "supported\n"); |
0425b46a SH |
7664 | DBG_PRINT(ERR_DBG, "s2io: Default to %d rx rings\n", |
7665 | MAX_RX_RINGS); | |
7666 | rx_ring_num = MAX_RX_RINGS; | |
9dc737a7 | 7667 | } |
0425b46a | 7668 | |
eccb8628 | 7669 | if ((*dev_intr_type != INTA) && (*dev_intr_type != MSI_X)) { |
9dc737a7 AR |
7670 | DBG_PRINT(ERR_DBG, "s2io: Wrong intr_type requested. " |
7671 | "Defaulting to INTA\n"); | |
7672 | *dev_intr_type = INTA; | |
7673 | } | |
596c5c97 | 7674 | |
9dc737a7 AR |
7675 | if ((*dev_intr_type == MSI_X) && |
7676 | ((pdev->device != PCI_DEVICE_ID_HERC_WIN) && | |
7677 | (pdev->device != PCI_DEVICE_ID_HERC_UNI))) { | |
6aa20a22 | 7678 | DBG_PRINT(ERR_DBG, "s2io: Xframe I does not support MSI_X. " |
9dc737a7 AR |
7679 | "Defaulting to INTA\n"); |
7680 | *dev_intr_type = INTA; | |
7681 | } | |
fb6a825b | 7682 | |
6d517a27 | 7683 | if ((rx_ring_mode != 1) && (rx_ring_mode != 2)) { |
9dc737a7 | 7684 | DBG_PRINT(ERR_DBG, "s2io: Requested ring mode not supported\n"); |
6d517a27 VP |
7685 | DBG_PRINT(ERR_DBG, "s2io: Defaulting to 1-buffer mode\n"); |
7686 | rx_ring_mode = 1; | |
9dc737a7 AR |
7687 | } |
7688 | return SUCCESS; | |
7689 | } | |
7690 | ||
9fc93a41 SS |
7691 | /** |
7692 | * rts_ds_steer - Receive traffic steering based on IPv4 or IPv6 TOS | |
7693 | * or Traffic class respectively. | |
b7c5678f | 7694 | * @nic: device private variable |
9fc93a41 SS |
7695 | * Description: The function configures the receive steering to |
7696 | * desired receive ring. | |
7697 | * Return Value: SUCCESS on success and | |
7698 | * '-1' on failure (endian settings incorrect). | |
7699 | */ | |
7700 | static int rts_ds_steer(struct s2io_nic *nic, u8 ds_codepoint, u8 ring) | |
7701 | { | |
7702 | struct XENA_dev_config __iomem *bar0 = nic->bar0; | |
7703 | register u64 val64 = 0; | |
7704 | ||
7705 | if (ds_codepoint > 63) | |
7706 | return FAILURE; | |
7707 | ||
7708 | val64 = RTS_DS_MEM_DATA(ring); | |
7709 | writeq(val64, &bar0->rts_ds_mem_data); | |
7710 | ||
7711 | val64 = RTS_DS_MEM_CTRL_WE | | |
7712 | RTS_DS_MEM_CTRL_STROBE_NEW_CMD | | |
7713 | RTS_DS_MEM_CTRL_OFFSET(ds_codepoint); | |
7714 | ||
7715 | writeq(val64, &bar0->rts_ds_mem_ctrl); | |
7716 | ||
7717 | return wait_for_cmd_complete(&bar0->rts_ds_mem_ctrl, | |
7718 | RTS_DS_MEM_CTRL_STROBE_CMD_BEING_EXECUTED, | |
7719 | S2IO_BIT_RESET); | |
7720 | } | |
7721 | ||
1da177e4 | 7722 | /** |
20346722 | 7723 | * s2io_init_nic - Initialization of the adapter . |
1da177e4 LT |
7724 | * @pdev : structure containing the PCI related information of the device. |
7725 | * @pre: List of PCI devices supported by the driver listed in s2io_tbl. | |
7726 | * Description: | |
7727 | * The function initializes an adapter identified by the pci_dec structure. | |
20346722 K |
7728 | * All OS related initialization including memory and device structure and |
7729 | * initlaization of the device private variable is done. Also the swapper | |
7730 | * control register is initialized to enable read and write into the I/O | |
1da177e4 LT |
7731 | * registers of the device. |
7732 | * Return value: | |
7733 | * returns 0 on success and negative on failure. | |
7734 | */ | |
7735 | ||
7736 | static int __devinit | |
7737 | s2io_init_nic(struct pci_dev *pdev, const struct pci_device_id *pre) | |
7738 | { | |
1ee6dd77 | 7739 | struct s2io_nic *sp; |
1da177e4 | 7740 | struct net_device *dev; |
1da177e4 LT |
7741 | int i, j, ret; |
7742 | int dma_flag = FALSE; | |
7743 | u32 mac_up, mac_down; | |
7744 | u64 val64 = 0, tmp64 = 0; | |
1ee6dd77 | 7745 | struct XENA_dev_config __iomem *bar0 = NULL; |
1da177e4 | 7746 | u16 subid; |
1ee6dd77 | 7747 | struct mac_info *mac_control; |
1da177e4 | 7748 | struct config_param *config; |
541ae68f | 7749 | int mode; |
cc6e7c44 | 7750 | u8 dev_intr_type = intr_type; |
3a3d5756 | 7751 | u8 dev_multiq = 0; |
0795af57 | 7752 | DECLARE_MAC_BUF(mac); |
1da177e4 | 7753 | |
3a3d5756 SH |
7754 | ret = s2io_verify_parm(pdev, &dev_intr_type, &dev_multiq); |
7755 | if (ret) | |
9dc737a7 | 7756 | return ret; |
1da177e4 LT |
7757 | |
7758 | if ((ret = pci_enable_device(pdev))) { | |
7759 | DBG_PRINT(ERR_DBG, | |
7760 | "s2io_init_nic: pci_enable_device failed\n"); | |
7761 | return ret; | |
7762 | } | |
7763 | ||
1e7f0bd8 | 7764 | if (!pci_set_dma_mask(pdev, DMA_64BIT_MASK)) { |
1da177e4 LT |
7765 | DBG_PRINT(INIT_DBG, "s2io_init_nic: Using 64bit DMA\n"); |
7766 | dma_flag = TRUE; | |
1da177e4 | 7767 | if (pci_set_consistent_dma_mask |
1e7f0bd8 | 7768 | (pdev, DMA_64BIT_MASK)) { |
1da177e4 LT |
7769 | DBG_PRINT(ERR_DBG, |
7770 | "Unable to obtain 64bit DMA for \ | |
7771 | consistent allocations\n"); | |
7772 | pci_disable_device(pdev); | |
7773 | return -ENOMEM; | |
7774 | } | |
1e7f0bd8 | 7775 | } else if (!pci_set_dma_mask(pdev, DMA_32BIT_MASK)) { |
1da177e4 LT |
7776 | DBG_PRINT(INIT_DBG, "s2io_init_nic: Using 32bit DMA\n"); |
7777 | } else { | |
7778 | pci_disable_device(pdev); | |
7779 | return -ENOMEM; | |
7780 | } | |
eccb8628 VP |
7781 | if ((ret = pci_request_regions(pdev, s2io_driver_name))) { |
7782 | DBG_PRINT(ERR_DBG, "%s: Request Regions failed - %x \n", __FUNCTION__, ret); | |
7783 | pci_disable_device(pdev); | |
7784 | return -ENODEV; | |
1da177e4 | 7785 | } |
3a3d5756 SH |
7786 | #ifdef CONFIG_NETDEVICES_MULTIQUEUE |
7787 | if (dev_multiq) | |
6cfc482b | 7788 | dev = alloc_etherdev_mq(sizeof(struct s2io_nic), tx_fifo_num); |
3a3d5756 SH |
7789 | else |
7790 | #endif | |
1ee6dd77 | 7791 | dev = alloc_etherdev(sizeof(struct s2io_nic)); |
1da177e4 LT |
7792 | if (dev == NULL) { |
7793 | DBG_PRINT(ERR_DBG, "Device allocation failed\n"); | |
7794 | pci_disable_device(pdev); | |
7795 | pci_release_regions(pdev); | |
7796 | return -ENODEV; | |
7797 | } | |
7798 | ||
7799 | pci_set_master(pdev); | |
7800 | pci_set_drvdata(pdev, dev); | |
1da177e4 LT |
7801 | SET_NETDEV_DEV(dev, &pdev->dev); |
7802 | ||
7803 | /* Private member variable initialized to s2io NIC structure */ | |
7804 | sp = dev->priv; | |
1ee6dd77 | 7805 | memset(sp, 0, sizeof(struct s2io_nic)); |
1da177e4 LT |
7806 | sp->dev = dev; |
7807 | sp->pdev = pdev; | |
1da177e4 | 7808 | sp->high_dma_flag = dma_flag; |
1da177e4 | 7809 | sp->device_enabled_once = FALSE; |
da6971d8 AR |
7810 | if (rx_ring_mode == 1) |
7811 | sp->rxd_mode = RXD_MODE_1; | |
7812 | if (rx_ring_mode == 2) | |
7813 | sp->rxd_mode = RXD_MODE_3B; | |
da6971d8 | 7814 | |
eaae7f72 | 7815 | sp->config.intr_type = dev_intr_type; |
1da177e4 | 7816 | |
541ae68f K |
7817 | if ((pdev->device == PCI_DEVICE_ID_HERC_WIN) || |
7818 | (pdev->device == PCI_DEVICE_ID_HERC_UNI)) | |
7819 | sp->device_type = XFRAME_II_DEVICE; | |
7820 | else | |
7821 | sp->device_type = XFRAME_I_DEVICE; | |
7822 | ||
43b7c451 | 7823 | sp->lro = lro_enable; |
6aa20a22 | 7824 | |
1da177e4 LT |
7825 | /* Initialize some PCI/PCI-X fields of the NIC. */ |
7826 | s2io_init_pci(sp); | |
7827 | ||
20346722 | 7828 | /* |
1da177e4 | 7829 | * Setting the device configuration parameters. |
20346722 K |
7830 | * Most of these parameters can be specified by the user during |
7831 | * module insertion as they are module loadable parameters. If | |
7832 | * these parameters are not not specified during load time, they | |
1da177e4 LT |
7833 | * are initialized with default values. |
7834 | */ | |
7835 | mac_control = &sp->mac_control; | |
7836 | config = &sp->config; | |
7837 | ||
596c5c97 | 7838 | config->napi = napi; |
6cfc482b | 7839 | config->tx_steering_type = tx_steering_type; |
596c5c97 | 7840 | |
1da177e4 | 7841 | /* Tx side parameters. */ |
6cfc482b SH |
7842 | if (config->tx_steering_type == TX_PRIORITY_STEERING) |
7843 | config->tx_fifo_num = MAX_TX_FIFOS; | |
7844 | else | |
7845 | config->tx_fifo_num = tx_fifo_num; | |
7846 | ||
7847 | /* Initialize the fifos used for tx steering */ | |
7848 | if (config->tx_fifo_num < 5) { | |
7849 | if (config->tx_fifo_num == 1) | |
7850 | sp->total_tcp_fifos = 1; | |
7851 | else | |
7852 | sp->total_tcp_fifos = config->tx_fifo_num - 1; | |
7853 | sp->udp_fifo_idx = config->tx_fifo_num - 1; | |
7854 | sp->total_udp_fifos = 1; | |
7855 | sp->other_fifo_idx = sp->total_tcp_fifos - 1; | |
7856 | } else { | |
7857 | sp->total_tcp_fifos = (tx_fifo_num - FIFO_UDP_MAX_NUM - | |
7858 | FIFO_OTHER_MAX_NUM); | |
7859 | sp->udp_fifo_idx = sp->total_tcp_fifos; | |
7860 | sp->total_udp_fifos = FIFO_UDP_MAX_NUM; | |
7861 | sp->other_fifo_idx = sp->udp_fifo_idx + FIFO_UDP_MAX_NUM; | |
7862 | } | |
7863 | ||
3a3d5756 | 7864 | config->multiq = dev_multiq; |
6cfc482b | 7865 | for (i = 0; i < config->tx_fifo_num; i++) { |
1da177e4 LT |
7866 | config->tx_cfg[i].fifo_len = tx_fifo_len[i]; |
7867 | config->tx_cfg[i].fifo_priority = i; | |
7868 | } | |
7869 | ||
20346722 K |
7870 | /* mapping the QoS priority to the configured fifos */ |
7871 | for (i = 0; i < MAX_TX_FIFOS; i++) | |
3a3d5756 | 7872 | config->fifo_mapping[i] = fifo_map[config->tx_fifo_num - 1][i]; |
20346722 | 7873 | |
6cfc482b SH |
7874 | /* map the hashing selector table to the configured fifos */ |
7875 | for (i = 0; i < config->tx_fifo_num; i++) | |
7876 | sp->fifo_selector[i] = fifo_selector[i]; | |
7877 | ||
7878 | ||
1da177e4 LT |
7879 | config->tx_intr_type = TXD_INT_TYPE_UTILZ; |
7880 | for (i = 0; i < config->tx_fifo_num; i++) { | |
7881 | config->tx_cfg[i].f_no_snoop = | |
7882 | (NO_SNOOP_TXD | NO_SNOOP_TXD_BUFFER); | |
7883 | if (config->tx_cfg[i].fifo_len < 65) { | |
7884 | config->tx_intr_type = TXD_INT_TYPE_PER_LIST; | |
7885 | break; | |
7886 | } | |
7887 | } | |
fed5eccd AR |
7888 | /* + 2 because one Txd for skb->data and one Txd for UFO */ |
7889 | config->max_txds = MAX_SKB_FRAGS + 2; | |
1da177e4 LT |
7890 | |
7891 | /* Rx side parameters. */ | |
1da177e4 | 7892 | config->rx_ring_num = rx_ring_num; |
0425b46a | 7893 | for (i = 0; i < config->rx_ring_num; i++) { |
1da177e4 | 7894 | config->rx_cfg[i].num_rxd = rx_ring_sz[i] * |
da6971d8 | 7895 | (rxd_count[sp->rxd_mode] + 1); |
1da177e4 | 7896 | config->rx_cfg[i].ring_priority = i; |
0425b46a SH |
7897 | mac_control->rings[i].rx_bufs_left = 0; |
7898 | mac_control->rings[i].rxd_mode = sp->rxd_mode; | |
7899 | mac_control->rings[i].rxd_count = rxd_count[sp->rxd_mode]; | |
7900 | mac_control->rings[i].pdev = sp->pdev; | |
7901 | mac_control->rings[i].dev = sp->dev; | |
1da177e4 LT |
7902 | } |
7903 | ||
7904 | for (i = 0; i < rx_ring_num; i++) { | |
7905 | config->rx_cfg[i].ring_org = RING_ORG_BUFF1; | |
7906 | config->rx_cfg[i].f_no_snoop = | |
7907 | (NO_SNOOP_RXD | NO_SNOOP_RXD_BUFFER); | |
7908 | } | |
7909 | ||
7910 | /* Setting Mac Control parameters */ | |
7911 | mac_control->rmac_pause_time = rmac_pause_time; | |
7912 | mac_control->mc_pause_threshold_q0q3 = mc_pause_threshold_q0q3; | |
7913 | mac_control->mc_pause_threshold_q4q7 = mc_pause_threshold_q4q7; | |
7914 | ||
7915 | ||
1da177e4 LT |
7916 | /* initialize the shared memory used by the NIC and the host */ |
7917 | if (init_shared_mem(sp)) { | |
7918 | DBG_PRINT(ERR_DBG, "%s: Memory allocation failed\n", | |
b41477f3 | 7919 | dev->name); |
1da177e4 LT |
7920 | ret = -ENOMEM; |
7921 | goto mem_alloc_failed; | |
7922 | } | |
7923 | ||
7924 | sp->bar0 = ioremap(pci_resource_start(pdev, 0), | |
7925 | pci_resource_len(pdev, 0)); | |
7926 | if (!sp->bar0) { | |
19a60522 | 7927 | DBG_PRINT(ERR_DBG, "%s: Neterion: cannot remap io mem1\n", |
1da177e4 LT |
7928 | dev->name); |
7929 | ret = -ENOMEM; | |
7930 | goto bar0_remap_failed; | |
7931 | } | |
7932 | ||
7933 | sp->bar1 = ioremap(pci_resource_start(pdev, 2), | |
7934 | pci_resource_len(pdev, 2)); | |
7935 | if (!sp->bar1) { | |
19a60522 | 7936 | DBG_PRINT(ERR_DBG, "%s: Neterion: cannot remap io mem2\n", |
1da177e4 LT |
7937 | dev->name); |
7938 | ret = -ENOMEM; | |
7939 | goto bar1_remap_failed; | |
7940 | } | |
7941 | ||
7942 | dev->irq = pdev->irq; | |
7943 | dev->base_addr = (unsigned long) sp->bar0; | |
7944 | ||
7945 | /* Initializing the BAR1 address as the start of the FIFO pointer. */ | |
7946 | for (j = 0; j < MAX_TX_FIFOS; j++) { | |
1ee6dd77 | 7947 | mac_control->tx_FIFO_start[j] = (struct TxFIFO_element __iomem *) |
1da177e4 LT |
7948 | (sp->bar1 + (j * 0x00020000)); |
7949 | } | |
7950 | ||
7951 | /* Driver entry points */ | |
7952 | dev->open = &s2io_open; | |
7953 | dev->stop = &s2io_close; | |
7954 | dev->hard_start_xmit = &s2io_xmit; | |
7955 | dev->get_stats = &s2io_get_stats; | |
7956 | dev->set_multicast_list = &s2io_set_multicast; | |
7957 | dev->do_ioctl = &s2io_ioctl; | |
2fd37688 | 7958 | dev->set_mac_address = &s2io_set_mac_addr; |
1da177e4 LT |
7959 | dev->change_mtu = &s2io_change_mtu; |
7960 | SET_ETHTOOL_OPS(dev, &netdev_ethtool_ops); | |
be3a6b02 K |
7961 | dev->features |= NETIF_F_HW_VLAN_TX | NETIF_F_HW_VLAN_RX; |
7962 | dev->vlan_rx_register = s2io_vlan_rx_register; | |
cdb5bf02 | 7963 | dev->vlan_rx_kill_vid = (void *)s2io_vlan_rx_kill_vid; |
20346722 | 7964 | |
1da177e4 LT |
7965 | /* |
7966 | * will use eth_mac_addr() for dev->set_mac_address | |
7967 | * mac address will be set every time dev->open() is called | |
7968 | */ | |
612eff0e BH |
7969 | #ifdef CONFIG_NET_POLL_CONTROLLER |
7970 | dev->poll_controller = s2io_netpoll; | |
7971 | #endif | |
7972 | ||
1da177e4 LT |
7973 | dev->features |= NETIF_F_SG | NETIF_F_IP_CSUM; |
7974 | if (sp->high_dma_flag == TRUE) | |
7975 | dev->features |= NETIF_F_HIGHDMA; | |
1da177e4 | 7976 | dev->features |= NETIF_F_TSO; |
f83ef8c0 | 7977 | dev->features |= NETIF_F_TSO6; |
db874e65 | 7978 | if ((sp->device_type & XFRAME_II_DEVICE) && (ufo)) { |
fed5eccd AR |
7979 | dev->features |= NETIF_F_UFO; |
7980 | dev->features |= NETIF_F_HW_CSUM; | |
7981 | } | |
3a3d5756 SH |
7982 | #ifdef CONFIG_NETDEVICES_MULTIQUEUE |
7983 | if (config->multiq) | |
7984 | dev->features |= NETIF_F_MULTI_QUEUE; | |
7985 | #endif | |
1da177e4 LT |
7986 | dev->tx_timeout = &s2io_tx_watchdog; |
7987 | dev->watchdog_timeo = WATCH_DOG_TIMEOUT; | |
c4028958 DH |
7988 | INIT_WORK(&sp->rst_timer_task, s2io_restart_nic); |
7989 | INIT_WORK(&sp->set_link_task, s2io_set_link); | |
1da177e4 | 7990 | |
e960fc5c | 7991 | pci_save_state(sp->pdev); |
1da177e4 LT |
7992 | |
7993 | /* Setting swapper control on the NIC, for proper reset operation */ | |
7994 | if (s2io_set_swapper(sp)) { | |
7995 | DBG_PRINT(ERR_DBG, "%s:swapper settings are wrong\n", | |
7996 | dev->name); | |
7997 | ret = -EAGAIN; | |
7998 | goto set_swap_failed; | |
7999 | } | |
8000 | ||
541ae68f K |
8001 | /* Verify if the Herc works on the slot its placed into */ |
8002 | if (sp->device_type & XFRAME_II_DEVICE) { | |
8003 | mode = s2io_verify_pci_mode(sp); | |
8004 | if (mode < 0) { | |
8005 | DBG_PRINT(ERR_DBG, "%s: ", __FUNCTION__); | |
8006 | DBG_PRINT(ERR_DBG, " Unsupported PCI bus mode\n"); | |
8007 | ret = -EBADSLT; | |
8008 | goto set_swap_failed; | |
8009 | } | |
8010 | } | |
8011 | ||
f61e0a35 SH |
8012 | if (sp->config.intr_type == MSI_X) { |
8013 | sp->num_entries = config->rx_ring_num + 1; | |
8014 | ret = s2io_enable_msi_x(sp); | |
8015 | ||
8016 | if (!ret) { | |
8017 | ret = s2io_test_msi(sp); | |
8018 | /* rollback MSI-X, will re-enable during add_isr() */ | |
8019 | remove_msix_isr(sp); | |
8020 | } | |
8021 | if (ret) { | |
8022 | ||
8023 | DBG_PRINT(ERR_DBG, | |
8024 | "%s: MSI-X requested but failed to enable\n", | |
8025 | dev->name); | |
8026 | sp->config.intr_type = INTA; | |
8027 | } | |
8028 | } | |
8029 | ||
8030 | if (config->intr_type == MSI_X) { | |
8031 | for (i = 0; i < config->rx_ring_num ; i++) | |
8032 | netif_napi_add(dev, &mac_control->rings[i].napi, | |
8033 | s2io_poll_msix, 64); | |
8034 | } else { | |
8035 | netif_napi_add(dev, &sp->napi, s2io_poll_inta, 64); | |
8036 | } | |
8037 | ||
541ae68f K |
8038 | /* Not needed for Herc */ |
8039 | if (sp->device_type & XFRAME_I_DEVICE) { | |
8040 | /* | |
8041 | * Fix for all "FFs" MAC address problems observed on | |
8042 | * Alpha platforms | |
8043 | */ | |
8044 | fix_mac_address(sp); | |
8045 | s2io_reset(sp); | |
8046 | } | |
1da177e4 LT |
8047 | |
8048 | /* | |
1da177e4 LT |
8049 | * MAC address initialization. |
8050 | * For now only one mac address will be read and used. | |
8051 | */ | |
8052 | bar0 = sp->bar0; | |
8053 | val64 = RMAC_ADDR_CMD_MEM_RD | RMAC_ADDR_CMD_MEM_STROBE_NEW_CMD | | |
faa4f796 | 8054 | RMAC_ADDR_CMD_MEM_OFFSET(0 + S2IO_MAC_ADDR_START_OFFSET); |
1da177e4 | 8055 | writeq(val64, &bar0->rmac_addr_cmd_mem); |
c92ca04b | 8056 | wait_for_cmd_complete(&bar0->rmac_addr_cmd_mem, |
9fc93a41 | 8057 | RMAC_ADDR_CMD_MEM_STROBE_CMD_EXECUTING, S2IO_BIT_RESET); |
1da177e4 LT |
8058 | tmp64 = readq(&bar0->rmac_addr_data0_mem); |
8059 | mac_down = (u32) tmp64; | |
8060 | mac_up = (u32) (tmp64 >> 32); | |
8061 | ||
1da177e4 LT |
8062 | sp->def_mac_addr[0].mac_addr[3] = (u8) (mac_up); |
8063 | sp->def_mac_addr[0].mac_addr[2] = (u8) (mac_up >> 8); | |
8064 | sp->def_mac_addr[0].mac_addr[1] = (u8) (mac_up >> 16); | |
8065 | sp->def_mac_addr[0].mac_addr[0] = (u8) (mac_up >> 24); | |
8066 | sp->def_mac_addr[0].mac_addr[5] = (u8) (mac_down >> 16); | |
8067 | sp->def_mac_addr[0].mac_addr[4] = (u8) (mac_down >> 24); | |
8068 | ||
1da177e4 LT |
8069 | /* Set the factory defined MAC address initially */ |
8070 | dev->addr_len = ETH_ALEN; | |
8071 | memcpy(dev->dev_addr, sp->def_mac_addr, ETH_ALEN); | |
2fd37688 | 8072 | memcpy(dev->perm_addr, dev->dev_addr, ETH_ALEN); |
1da177e4 | 8073 | |
faa4f796 SH |
8074 | /* initialize number of multicast & unicast MAC entries variables */ |
8075 | if (sp->device_type == XFRAME_I_DEVICE) { | |
8076 | config->max_mc_addr = S2IO_XENA_MAX_MC_ADDRESSES; | |
8077 | config->max_mac_addr = S2IO_XENA_MAX_MAC_ADDRESSES; | |
8078 | config->mc_start_offset = S2IO_XENA_MC_ADDR_START_OFFSET; | |
8079 | } else if (sp->device_type == XFRAME_II_DEVICE) { | |
8080 | config->max_mc_addr = S2IO_HERC_MAX_MC_ADDRESSES; | |
8081 | config->max_mac_addr = S2IO_HERC_MAX_MAC_ADDRESSES; | |
8082 | config->mc_start_offset = S2IO_HERC_MC_ADDR_START_OFFSET; | |
8083 | } | |
8084 | ||
8085 | /* store mac addresses from CAM to s2io_nic structure */ | |
8086 | do_s2io_store_unicast_mc(sp); | |
8087 | ||
f61e0a35 SH |
8088 | /* Configure MSIX vector for number of rings configured plus one */ |
8089 | if ((sp->device_type == XFRAME_II_DEVICE) && | |
8090 | (config->intr_type == MSI_X)) | |
8091 | sp->num_entries = config->rx_ring_num + 1; | |
8092 | ||
c77dd43e SS |
8093 | /* Store the values of the MSIX table in the s2io_nic structure */ |
8094 | store_xmsi_data(sp); | |
b41477f3 AR |
8095 | /* reset Nic and bring it to known state */ |
8096 | s2io_reset(sp); | |
8097 | ||
1da177e4 | 8098 | /* |
99993af6 | 8099 | * Initialize link state flags |
541ae68f | 8100 | * and the card state parameter |
1da177e4 | 8101 | */ |
92b84437 | 8102 | sp->state = 0; |
1da177e4 | 8103 | |
1da177e4 | 8104 | /* Initialize spinlocks */ |
2fda096d SR |
8105 | for (i = 0; i < sp->config.tx_fifo_num; i++) |
8106 | spin_lock_init(&mac_control->fifos[i].tx_lock); | |
db874e65 | 8107 | |
20346722 K |
8108 | /* |
8109 | * SXE-002: Configure link and activity LED to init state | |
8110 | * on driver load. | |
1da177e4 LT |
8111 | */ |
8112 | subid = sp->pdev->subsystem_device; | |
8113 | if ((subid & 0xFF) >= 0x07) { | |
8114 | val64 = readq(&bar0->gpio_control); | |
8115 | val64 |= 0x0000800000000000ULL; | |
8116 | writeq(val64, &bar0->gpio_control); | |
8117 | val64 = 0x0411040400000000ULL; | |
8118 | writeq(val64, (void __iomem *) bar0 + 0x2700); | |
8119 | val64 = readq(&bar0->gpio_control); | |
8120 | } | |
8121 | ||
8122 | sp->rx_csum = 1; /* Rx chksum verify enabled by default */ | |
8123 | ||
8124 | if (register_netdev(dev)) { | |
8125 | DBG_PRINT(ERR_DBG, "Device registration failed\n"); | |
8126 | ret = -ENODEV; | |
8127 | goto register_failed; | |
8128 | } | |
9dc737a7 | 8129 | s2io_vpd_read(sp); |
0c61ed5f | 8130 | DBG_PRINT(ERR_DBG, "Copyright(c) 2002-2007 Neterion Inc.\n"); |
b41477f3 | 8131 | DBG_PRINT(ERR_DBG, "%s: Neterion %s (rev %d)\n",dev->name, |
44c10138 | 8132 | sp->product_name, pdev->revision); |
b41477f3 AR |
8133 | DBG_PRINT(ERR_DBG, "%s: Driver version %s\n", dev->name, |
8134 | s2io_driver_version); | |
0795af57 JP |
8135 | DBG_PRINT(ERR_DBG, "%s: MAC ADDR: %s\n", |
8136 | dev->name, print_mac(mac, dev->dev_addr)); | |
19a60522 | 8137 | DBG_PRINT(ERR_DBG, "SERIAL NUMBER: %s\n", sp->serial_num); |
9dc737a7 | 8138 | if (sp->device_type & XFRAME_II_DEVICE) { |
0b1f7ebe | 8139 | mode = s2io_print_pci_mode(sp); |
541ae68f | 8140 | if (mode < 0) { |
9dc737a7 | 8141 | DBG_PRINT(ERR_DBG, " Unsupported PCI bus mode\n"); |
541ae68f | 8142 | ret = -EBADSLT; |
9dc737a7 | 8143 | unregister_netdev(dev); |
541ae68f K |
8144 | goto set_swap_failed; |
8145 | } | |
541ae68f | 8146 | } |
9dc737a7 AR |
8147 | switch(sp->rxd_mode) { |
8148 | case RXD_MODE_1: | |
8149 | DBG_PRINT(ERR_DBG, "%s: 1-Buffer receive mode enabled\n", | |
8150 | dev->name); | |
8151 | break; | |
8152 | case RXD_MODE_3B: | |
8153 | DBG_PRINT(ERR_DBG, "%s: 2-Buffer receive mode enabled\n", | |
8154 | dev->name); | |
8155 | break; | |
9dc737a7 | 8156 | } |
db874e65 | 8157 | |
f61e0a35 SH |
8158 | switch (sp->config.napi) { |
8159 | case 0: | |
8160 | DBG_PRINT(ERR_DBG, "%s: NAPI disabled\n", dev->name); | |
8161 | break; | |
8162 | case 1: | |
db874e65 | 8163 | DBG_PRINT(ERR_DBG, "%s: NAPI enabled\n", dev->name); |
f61e0a35 SH |
8164 | break; |
8165 | } | |
3a3d5756 SH |
8166 | |
8167 | DBG_PRINT(ERR_DBG, "%s: Using %d Tx fifo(s)\n", dev->name, | |
8168 | sp->config.tx_fifo_num); | |
8169 | ||
0425b46a SH |
8170 | DBG_PRINT(ERR_DBG, "%s: Using %d Rx ring(s)\n", dev->name, |
8171 | sp->config.rx_ring_num); | |
8172 | ||
eaae7f72 | 8173 | switch(sp->config.intr_type) { |
9dc737a7 AR |
8174 | case INTA: |
8175 | DBG_PRINT(ERR_DBG, "%s: Interrupt type INTA\n", dev->name); | |
8176 | break; | |
9dc737a7 AR |
8177 | case MSI_X: |
8178 | DBG_PRINT(ERR_DBG, "%s: Interrupt type MSI-X\n", dev->name); | |
8179 | break; | |
8180 | } | |
3a3d5756 SH |
8181 | if (sp->config.multiq) { |
8182 | for (i = 0; i < sp->config.tx_fifo_num; i++) | |
8183 | mac_control->fifos[i].multiq = config->multiq; | |
8184 | DBG_PRINT(ERR_DBG, "%s: Multiqueue support enabled\n", | |
8185 | dev->name); | |
8186 | } else | |
8187 | DBG_PRINT(ERR_DBG, "%s: Multiqueue support disabled\n", | |
8188 | dev->name); | |
8189 | ||
6cfc482b SH |
8190 | switch (sp->config.tx_steering_type) { |
8191 | case NO_STEERING: | |
8192 | DBG_PRINT(ERR_DBG, "%s: No steering enabled for" | |
8193 | " transmit\n", dev->name); | |
8194 | break; | |
8195 | case TX_PRIORITY_STEERING: | |
8196 | DBG_PRINT(ERR_DBG, "%s: Priority steering enabled for" | |
8197 | " transmit\n", dev->name); | |
8198 | break; | |
8199 | case TX_DEFAULT_STEERING: | |
8200 | DBG_PRINT(ERR_DBG, "%s: Default steering enabled for" | |
8201 | " transmit\n", dev->name); | |
8202 | } | |
8203 | ||
7d3d0439 RA |
8204 | if (sp->lro) |
8205 | DBG_PRINT(ERR_DBG, "%s: Large receive offload enabled\n", | |
9dc737a7 | 8206 | dev->name); |
db874e65 SS |
8207 | if (ufo) |
8208 | DBG_PRINT(ERR_DBG, "%s: UDP Fragmentation Offload(UFO)" | |
8209 | " enabled\n", dev->name); | |
7ba013ac | 8210 | /* Initialize device name */ |
9dc737a7 | 8211 | sprintf(sp->name, "%s Neterion %s", dev->name, sp->product_name); |
7ba013ac | 8212 | |
20346722 K |
8213 | /* |
8214 | * Make Link state as off at this point, when the Link change | |
8215 | * interrupt comes the state will be automatically changed to | |
1da177e4 LT |
8216 | * the right state. |
8217 | */ | |
8218 | netif_carrier_off(dev); | |
1da177e4 LT |
8219 | |
8220 | return 0; | |
8221 | ||
8222 | register_failed: | |
8223 | set_swap_failed: | |
8224 | iounmap(sp->bar1); | |
8225 | bar1_remap_failed: | |
8226 | iounmap(sp->bar0); | |
8227 | bar0_remap_failed: | |
8228 | mem_alloc_failed: | |
8229 | free_shared_mem(sp); | |
8230 | pci_disable_device(pdev); | |
eccb8628 | 8231 | pci_release_regions(pdev); |
1da177e4 LT |
8232 | pci_set_drvdata(pdev, NULL); |
8233 | free_netdev(dev); | |
8234 | ||
8235 | return ret; | |
8236 | } | |
8237 | ||
8238 | /** | |
20346722 | 8239 | * s2io_rem_nic - Free the PCI device |
1da177e4 | 8240 | * @pdev: structure containing the PCI related information of the device. |
20346722 | 8241 | * Description: This function is called by the Pci subsystem to release a |
1da177e4 | 8242 | * PCI device and free up all resource held up by the device. This could |
20346722 | 8243 | * be in response to a Hot plug event or when the driver is to be removed |
1da177e4 LT |
8244 | * from memory. |
8245 | */ | |
8246 | ||
8247 | static void __devexit s2io_rem_nic(struct pci_dev *pdev) | |
8248 | { | |
8249 | struct net_device *dev = | |
8250 | (struct net_device *) pci_get_drvdata(pdev); | |
1ee6dd77 | 8251 | struct s2io_nic *sp; |
1da177e4 LT |
8252 | |
8253 | if (dev == NULL) { | |
8254 | DBG_PRINT(ERR_DBG, "Driver Data is NULL!!\n"); | |
8255 | return; | |
8256 | } | |
8257 | ||
22747d6b FR |
8258 | flush_scheduled_work(); |
8259 | ||
1da177e4 LT |
8260 | sp = dev->priv; |
8261 | unregister_netdev(dev); | |
8262 | ||
8263 | free_shared_mem(sp); | |
8264 | iounmap(sp->bar0); | |
8265 | iounmap(sp->bar1); | |
eccb8628 | 8266 | pci_release_regions(pdev); |
1da177e4 | 8267 | pci_set_drvdata(pdev, NULL); |
1da177e4 | 8268 | free_netdev(dev); |
19a60522 | 8269 | pci_disable_device(pdev); |
1da177e4 LT |
8270 | } |
8271 | ||
8272 | /** | |
8273 | * s2io_starter - Entry point for the driver | |
8274 | * Description: This function is the entry point for the driver. It verifies | |
8275 | * the module loadable parameters and initializes PCI configuration space. | |
8276 | */ | |
8277 | ||
43b7c451 | 8278 | static int __init s2io_starter(void) |
1da177e4 | 8279 | { |
29917620 | 8280 | return pci_register_driver(&s2io_driver); |
1da177e4 LT |
8281 | } |
8282 | ||
8283 | /** | |
20346722 | 8284 | * s2io_closer - Cleanup routine for the driver |
1da177e4 LT |
8285 | * Description: This function is the cleanup routine for the driver. It unregist * ers the driver. |
8286 | */ | |
8287 | ||
372cc597 | 8288 | static __exit void s2io_closer(void) |
1da177e4 LT |
8289 | { |
8290 | pci_unregister_driver(&s2io_driver); | |
8291 | DBG_PRINT(INIT_DBG, "cleanup done\n"); | |
8292 | } | |
8293 | ||
8294 | module_init(s2io_starter); | |
8295 | module_exit(s2io_closer); | |
7d3d0439 | 8296 | |
6aa20a22 | 8297 | static int check_L2_lro_capable(u8 *buffer, struct iphdr **ip, |
cdb5bf02 SH |
8298 | struct tcphdr **tcp, struct RxD_t *rxdp, |
8299 | struct s2io_nic *sp) | |
7d3d0439 RA |
8300 | { |
8301 | int ip_off; | |
8302 | u8 l2_type = (u8)((rxdp->Control_1 >> 37) & 0x7), ip_len; | |
8303 | ||
8304 | if (!(rxdp->Control_1 & RXD_FRAME_PROTO_TCP)) { | |
8305 | DBG_PRINT(INIT_DBG,"%s: Non-TCP frames not supported for LRO\n", | |
8306 | __FUNCTION__); | |
8307 | return -1; | |
8308 | } | |
8309 | ||
cdb5bf02 SH |
8310 | /* Checking for DIX type or DIX type with VLAN */ |
8311 | if ((l2_type == 0) | |
8312 | || (l2_type == 4)) { | |
8313 | ip_off = HEADER_ETHERNET_II_802_3_SIZE; | |
8314 | /* | |
8315 | * If vlan stripping is disabled and the frame is VLAN tagged, | |
8316 | * shift the offset by the VLAN header size bytes. | |
8317 | */ | |
8318 | if ((!vlan_strip_flag) && | |
8319 | (rxdp->Control_1 & RXD_FRAME_VLAN_TAG)) | |
8320 | ip_off += HEADER_VLAN_SIZE; | |
8321 | } else { | |
7d3d0439 | 8322 | /* LLC, SNAP etc are considered non-mergeable */ |
cdb5bf02 | 8323 | return -1; |
7d3d0439 RA |
8324 | } |
8325 | ||
8326 | *ip = (struct iphdr *)((u8 *)buffer + ip_off); | |
8327 | ip_len = (u8)((*ip)->ihl); | |
8328 | ip_len <<= 2; | |
8329 | *tcp = (struct tcphdr *)((unsigned long)*ip + ip_len); | |
8330 | ||
8331 | return 0; | |
8332 | } | |
8333 | ||
1ee6dd77 | 8334 | static int check_for_socket_match(struct lro *lro, struct iphdr *ip, |
7d3d0439 RA |
8335 | struct tcphdr *tcp) |
8336 | { | |
8337 | DBG_PRINT(INFO_DBG,"%s: Been here...\n", __FUNCTION__); | |
8338 | if ((lro->iph->saddr != ip->saddr) || (lro->iph->daddr != ip->daddr) || | |
8339 | (lro->tcph->source != tcp->source) || (lro->tcph->dest != tcp->dest)) | |
8340 | return -1; | |
8341 | return 0; | |
8342 | } | |
8343 | ||
8344 | static inline int get_l4_pyld_length(struct iphdr *ip, struct tcphdr *tcp) | |
8345 | { | |
8346 | return(ntohs(ip->tot_len) - (ip->ihl << 2) - (tcp->doff << 2)); | |
8347 | } | |
8348 | ||
1ee6dd77 | 8349 | static void initiate_new_session(struct lro *lro, u8 *l2h, |
cdb5bf02 | 8350 | struct iphdr *ip, struct tcphdr *tcp, u32 tcp_pyld_len, u16 vlan_tag) |
7d3d0439 RA |
8351 | { |
8352 | DBG_PRINT(INFO_DBG,"%s: Been here...\n", __FUNCTION__); | |
8353 | lro->l2h = l2h; | |
8354 | lro->iph = ip; | |
8355 | lro->tcph = tcp; | |
8356 | lro->tcp_next_seq = tcp_pyld_len + ntohl(tcp->seq); | |
c8855953 | 8357 | lro->tcp_ack = tcp->ack_seq; |
7d3d0439 RA |
8358 | lro->sg_num = 1; |
8359 | lro->total_len = ntohs(ip->tot_len); | |
8360 | lro->frags_len = 0; | |
cdb5bf02 | 8361 | lro->vlan_tag = vlan_tag; |
6aa20a22 | 8362 | /* |
7d3d0439 RA |
8363 | * check if we saw TCP timestamp. Other consistency checks have |
8364 | * already been done. | |
8365 | */ | |
8366 | if (tcp->doff == 8) { | |
c8855953 SR |
8367 | __be32 *ptr; |
8368 | ptr = (__be32 *)(tcp+1); | |
7d3d0439 | 8369 | lro->saw_ts = 1; |
c8855953 | 8370 | lro->cur_tsval = ntohl(*(ptr+1)); |
7d3d0439 RA |
8371 | lro->cur_tsecr = *(ptr+2); |
8372 | } | |
8373 | lro->in_use = 1; | |
8374 | } | |
8375 | ||
1ee6dd77 | 8376 | static void update_L3L4_header(struct s2io_nic *sp, struct lro *lro) |
7d3d0439 RA |
8377 | { |
8378 | struct iphdr *ip = lro->iph; | |
8379 | struct tcphdr *tcp = lro->tcph; | |
bd4f3ae1 | 8380 | __sum16 nchk; |
1ee6dd77 | 8381 | struct stat_block *statinfo = sp->mac_control.stats_info; |
7d3d0439 RA |
8382 | DBG_PRINT(INFO_DBG,"%s: Been here...\n", __FUNCTION__); |
8383 | ||
8384 | /* Update L3 header */ | |
8385 | ip->tot_len = htons(lro->total_len); | |
8386 | ip->check = 0; | |
8387 | nchk = ip_fast_csum((u8 *)lro->iph, ip->ihl); | |
8388 | ip->check = nchk; | |
8389 | ||
8390 | /* Update L4 header */ | |
8391 | tcp->ack_seq = lro->tcp_ack; | |
8392 | tcp->window = lro->window; | |
8393 | ||
8394 | /* Update tsecr field if this session has timestamps enabled */ | |
8395 | if (lro->saw_ts) { | |
c8855953 | 8396 | __be32 *ptr = (__be32 *)(tcp + 1); |
7d3d0439 RA |
8397 | *(ptr+2) = lro->cur_tsecr; |
8398 | } | |
8399 | ||
8400 | /* Update counters required for calculation of | |
8401 | * average no. of packets aggregated. | |
8402 | */ | |
8403 | statinfo->sw_stat.sum_avg_pkts_aggregated += lro->sg_num; | |
8404 | statinfo->sw_stat.num_aggregations++; | |
8405 | } | |
8406 | ||
1ee6dd77 | 8407 | static void aggregate_new_rx(struct lro *lro, struct iphdr *ip, |
7d3d0439 RA |
8408 | struct tcphdr *tcp, u32 l4_pyld) |
8409 | { | |
8410 | DBG_PRINT(INFO_DBG,"%s: Been here...\n", __FUNCTION__); | |
8411 | lro->total_len += l4_pyld; | |
8412 | lro->frags_len += l4_pyld; | |
8413 | lro->tcp_next_seq += l4_pyld; | |
8414 | lro->sg_num++; | |
8415 | ||
8416 | /* Update ack seq no. and window ad(from this pkt) in LRO object */ | |
8417 | lro->tcp_ack = tcp->ack_seq; | |
8418 | lro->window = tcp->window; | |
6aa20a22 | 8419 | |
7d3d0439 | 8420 | if (lro->saw_ts) { |
c8855953 | 8421 | __be32 *ptr; |
7d3d0439 | 8422 | /* Update tsecr and tsval from this packet */ |
c8855953 SR |
8423 | ptr = (__be32 *)(tcp+1); |
8424 | lro->cur_tsval = ntohl(*(ptr+1)); | |
7d3d0439 RA |
8425 | lro->cur_tsecr = *(ptr + 2); |
8426 | } | |
8427 | } | |
8428 | ||
1ee6dd77 | 8429 | static int verify_l3_l4_lro_capable(struct lro *l_lro, struct iphdr *ip, |
7d3d0439 RA |
8430 | struct tcphdr *tcp, u32 tcp_pyld_len) |
8431 | { | |
7d3d0439 RA |
8432 | u8 *ptr; |
8433 | ||
79dc1901 AM |
8434 | DBG_PRINT(INFO_DBG,"%s: Been here...\n", __FUNCTION__); |
8435 | ||
7d3d0439 RA |
8436 | if (!tcp_pyld_len) { |
8437 | /* Runt frame or a pure ack */ | |
8438 | return -1; | |
8439 | } | |
8440 | ||
8441 | if (ip->ihl != 5) /* IP has options */ | |
8442 | return -1; | |
8443 | ||
75c30b13 AR |
8444 | /* If we see CE codepoint in IP header, packet is not mergeable */ |
8445 | if (INET_ECN_is_ce(ipv4_get_dsfield(ip))) | |
8446 | return -1; | |
8447 | ||
8448 | /* If we see ECE or CWR flags in TCP header, packet is not mergeable */ | |
7d3d0439 | 8449 | if (tcp->urg || tcp->psh || tcp->rst || tcp->syn || tcp->fin || |
75c30b13 | 8450 | tcp->ece || tcp->cwr || !tcp->ack) { |
7d3d0439 RA |
8451 | /* |
8452 | * Currently recognize only the ack control word and | |
8453 | * any other control field being set would result in | |
8454 | * flushing the LRO session | |
8455 | */ | |
8456 | return -1; | |
8457 | } | |
8458 | ||
6aa20a22 | 8459 | /* |
7d3d0439 RA |
8460 | * Allow only one TCP timestamp option. Don't aggregate if |
8461 | * any other options are detected. | |
8462 | */ | |
8463 | if (tcp->doff != 5 && tcp->doff != 8) | |
8464 | return -1; | |
8465 | ||
8466 | if (tcp->doff == 8) { | |
6aa20a22 | 8467 | ptr = (u8 *)(tcp + 1); |
7d3d0439 RA |
8468 | while (*ptr == TCPOPT_NOP) |
8469 | ptr++; | |
8470 | if (*ptr != TCPOPT_TIMESTAMP || *(ptr+1) != TCPOLEN_TIMESTAMP) | |
8471 | return -1; | |
8472 | ||
8473 | /* Ensure timestamp value increases monotonically */ | |
8474 | if (l_lro) | |
c8855953 | 8475 | if (l_lro->cur_tsval > ntohl(*((__be32 *)(ptr+2)))) |
7d3d0439 RA |
8476 | return -1; |
8477 | ||
8478 | /* timestamp echo reply should be non-zero */ | |
c8855953 | 8479 | if (*((__be32 *)(ptr+6)) == 0) |
7d3d0439 RA |
8480 | return -1; |
8481 | } | |
8482 | ||
8483 | return 0; | |
8484 | } | |
8485 | ||
8486 | static int | |
0425b46a SH |
8487 | s2io_club_tcp_session(struct ring_info *ring_data, u8 *buffer, u8 **tcp, |
8488 | u32 *tcp_len, struct lro **lro, struct RxD_t *rxdp, | |
8489 | struct s2io_nic *sp) | |
7d3d0439 RA |
8490 | { |
8491 | struct iphdr *ip; | |
8492 | struct tcphdr *tcph; | |
8493 | int ret = 0, i; | |
cdb5bf02 | 8494 | u16 vlan_tag = 0; |
7d3d0439 RA |
8495 | |
8496 | if (!(ret = check_L2_lro_capable(buffer, &ip, (struct tcphdr **)tcp, | |
cdb5bf02 | 8497 | rxdp, sp))) { |
7d3d0439 RA |
8498 | DBG_PRINT(INFO_DBG,"IP Saddr: %x Daddr: %x\n", |
8499 | ip->saddr, ip->daddr); | |
cdb5bf02 | 8500 | } else |
7d3d0439 | 8501 | return ret; |
7d3d0439 | 8502 | |
cdb5bf02 | 8503 | vlan_tag = RXD_GET_VLAN_TAG(rxdp->Control_2); |
7d3d0439 RA |
8504 | tcph = (struct tcphdr *)*tcp; |
8505 | *tcp_len = get_l4_pyld_length(ip, tcph); | |
8506 | for (i=0; i<MAX_LRO_SESSIONS; i++) { | |
0425b46a | 8507 | struct lro *l_lro = &ring_data->lro0_n[i]; |
7d3d0439 RA |
8508 | if (l_lro->in_use) { |
8509 | if (check_for_socket_match(l_lro, ip, tcph)) | |
8510 | continue; | |
8511 | /* Sock pair matched */ | |
8512 | *lro = l_lro; | |
8513 | ||
8514 | if ((*lro)->tcp_next_seq != ntohl(tcph->seq)) { | |
8515 | DBG_PRINT(INFO_DBG, "%s:Out of order. expected " | |
8516 | "0x%x, actual 0x%x\n", __FUNCTION__, | |
8517 | (*lro)->tcp_next_seq, | |
8518 | ntohl(tcph->seq)); | |
8519 | ||
8520 | sp->mac_control.stats_info-> | |
8521 | sw_stat.outof_sequence_pkts++; | |
8522 | ret = 2; | |
8523 | break; | |
8524 | } | |
8525 | ||
8526 | if (!verify_l3_l4_lro_capable(l_lro, ip, tcph,*tcp_len)) | |
8527 | ret = 1; /* Aggregate */ | |
8528 | else | |
8529 | ret = 2; /* Flush both */ | |
8530 | break; | |
8531 | } | |
8532 | } | |
8533 | ||
8534 | if (ret == 0) { | |
8535 | /* Before searching for available LRO objects, | |
8536 | * check if the pkt is L3/L4 aggregatable. If not | |
8537 | * don't create new LRO session. Just send this | |
8538 | * packet up. | |
8539 | */ | |
8540 | if (verify_l3_l4_lro_capable(NULL, ip, tcph, *tcp_len)) { | |
8541 | return 5; | |
8542 | } | |
8543 | ||
8544 | for (i=0; i<MAX_LRO_SESSIONS; i++) { | |
0425b46a | 8545 | struct lro *l_lro = &ring_data->lro0_n[i]; |
7d3d0439 RA |
8546 | if (!(l_lro->in_use)) { |
8547 | *lro = l_lro; | |
8548 | ret = 3; /* Begin anew */ | |
8549 | break; | |
8550 | } | |
8551 | } | |
8552 | } | |
8553 | ||
8554 | if (ret == 0) { /* sessions exceeded */ | |
8555 | DBG_PRINT(INFO_DBG,"%s:All LRO sessions already in use\n", | |
8556 | __FUNCTION__); | |
8557 | *lro = NULL; | |
8558 | return ret; | |
8559 | } | |
8560 | ||
8561 | switch (ret) { | |
8562 | case 3: | |
cdb5bf02 SH |
8563 | initiate_new_session(*lro, buffer, ip, tcph, *tcp_len, |
8564 | vlan_tag); | |
7d3d0439 RA |
8565 | break; |
8566 | case 2: | |
8567 | update_L3L4_header(sp, *lro); | |
8568 | break; | |
8569 | case 1: | |
8570 | aggregate_new_rx(*lro, ip, tcph, *tcp_len); | |
8571 | if ((*lro)->sg_num == sp->lro_max_aggr_per_sess) { | |
8572 | update_L3L4_header(sp, *lro); | |
8573 | ret = 4; /* Flush the LRO */ | |
8574 | } | |
8575 | break; | |
8576 | default: | |
8577 | DBG_PRINT(ERR_DBG,"%s:Dont know, can't say!!\n", | |
8578 | __FUNCTION__); | |
8579 | break; | |
8580 | } | |
8581 | ||
8582 | return ret; | |
8583 | } | |
8584 | ||
1ee6dd77 | 8585 | static void clear_lro_session(struct lro *lro) |
7d3d0439 | 8586 | { |
1ee6dd77 | 8587 | static u16 lro_struct_size = sizeof(struct lro); |
7d3d0439 RA |
8588 | |
8589 | memset(lro, 0, lro_struct_size); | |
8590 | } | |
8591 | ||
cdb5bf02 | 8592 | static void queue_rx_frame(struct sk_buff *skb, u16 vlan_tag) |
7d3d0439 RA |
8593 | { |
8594 | struct net_device *dev = skb->dev; | |
cdb5bf02 | 8595 | struct s2io_nic *sp = dev->priv; |
7d3d0439 RA |
8596 | |
8597 | skb->protocol = eth_type_trans(skb, dev); | |
cdb5bf02 SH |
8598 | if (sp->vlgrp && vlan_tag |
8599 | && (vlan_strip_flag)) { | |
8600 | /* Queueing the vlan frame to the upper layer */ | |
8601 | if (sp->config.napi) | |
8602 | vlan_hwaccel_receive_skb(skb, sp->vlgrp, vlan_tag); | |
8603 | else | |
8604 | vlan_hwaccel_rx(skb, sp->vlgrp, vlan_tag); | |
8605 | } else { | |
8606 | if (sp->config.napi) | |
8607 | netif_receive_skb(skb); | |
8608 | else | |
8609 | netif_rx(skb); | |
8610 | } | |
7d3d0439 RA |
8611 | } |
8612 | ||
1ee6dd77 RB |
8613 | static void lro_append_pkt(struct s2io_nic *sp, struct lro *lro, |
8614 | struct sk_buff *skb, | |
7d3d0439 RA |
8615 | u32 tcp_len) |
8616 | { | |
75c30b13 | 8617 | struct sk_buff *first = lro->parent; |
7d3d0439 RA |
8618 | |
8619 | first->len += tcp_len; | |
8620 | first->data_len = lro->frags_len; | |
8621 | skb_pull(skb, (skb->len - tcp_len)); | |
75c30b13 AR |
8622 | if (skb_shinfo(first)->frag_list) |
8623 | lro->last_frag->next = skb; | |
7d3d0439 RA |
8624 | else |
8625 | skb_shinfo(first)->frag_list = skb; | |
372cc597 | 8626 | first->truesize += skb->truesize; |
75c30b13 | 8627 | lro->last_frag = skb; |
7d3d0439 RA |
8628 | sp->mac_control.stats_info->sw_stat.clubbed_frms_cnt++; |
8629 | return; | |
8630 | } | |
d796fdb7 LV |
8631 | |
8632 | /** | |
8633 | * s2io_io_error_detected - called when PCI error is detected | |
8634 | * @pdev: Pointer to PCI device | |
8453d43f | 8635 | * @state: The current pci connection state |
d796fdb7 LV |
8636 | * |
8637 | * This function is called after a PCI bus error affecting | |
8638 | * this device has been detected. | |
8639 | */ | |
8640 | static pci_ers_result_t s2io_io_error_detected(struct pci_dev *pdev, | |
8641 | pci_channel_state_t state) | |
8642 | { | |
8643 | struct net_device *netdev = pci_get_drvdata(pdev); | |
8644 | struct s2io_nic *sp = netdev->priv; | |
8645 | ||
8646 | netif_device_detach(netdev); | |
8647 | ||
8648 | if (netif_running(netdev)) { | |
8649 | /* Bring down the card, while avoiding PCI I/O */ | |
8650 | do_s2io_card_down(sp, 0); | |
d796fdb7 LV |
8651 | } |
8652 | pci_disable_device(pdev); | |
8653 | ||
8654 | return PCI_ERS_RESULT_NEED_RESET; | |
8655 | } | |
8656 | ||
8657 | /** | |
8658 | * s2io_io_slot_reset - called after the pci bus has been reset. | |
8659 | * @pdev: Pointer to PCI device | |
8660 | * | |
8661 | * Restart the card from scratch, as if from a cold-boot. | |
8662 | * At this point, the card has exprienced a hard reset, | |
8663 | * followed by fixups by BIOS, and has its config space | |
8664 | * set up identically to what it was at cold boot. | |
8665 | */ | |
8666 | static pci_ers_result_t s2io_io_slot_reset(struct pci_dev *pdev) | |
8667 | { | |
8668 | struct net_device *netdev = pci_get_drvdata(pdev); | |
8669 | struct s2io_nic *sp = netdev->priv; | |
8670 | ||
8671 | if (pci_enable_device(pdev)) { | |
8672 | printk(KERN_ERR "s2io: " | |
8673 | "Cannot re-enable PCI device after reset.\n"); | |
8674 | return PCI_ERS_RESULT_DISCONNECT; | |
8675 | } | |
8676 | ||
8677 | pci_set_master(pdev); | |
8678 | s2io_reset(sp); | |
8679 | ||
8680 | return PCI_ERS_RESULT_RECOVERED; | |
8681 | } | |
8682 | ||
8683 | /** | |
8684 | * s2io_io_resume - called when traffic can start flowing again. | |
8685 | * @pdev: Pointer to PCI device | |
8686 | * | |
8687 | * This callback is called when the error recovery driver tells | |
8688 | * us that its OK to resume normal operation. | |
8689 | */ | |
8690 | static void s2io_io_resume(struct pci_dev *pdev) | |
8691 | { | |
8692 | struct net_device *netdev = pci_get_drvdata(pdev); | |
8693 | struct s2io_nic *sp = netdev->priv; | |
8694 | ||
8695 | if (netif_running(netdev)) { | |
8696 | if (s2io_card_up(sp)) { | |
8697 | printk(KERN_ERR "s2io: " | |
8698 | "Can't bring device back up after reset.\n"); | |
8699 | return; | |
8700 | } | |
8701 | ||
8702 | if (s2io_set_mac_addr(netdev, netdev->dev_addr) == FAILURE) { | |
8703 | s2io_card_down(sp); | |
8704 | printk(KERN_ERR "s2io: " | |
8705 | "Can't resetore mac addr after reset.\n"); | |
8706 | return; | |
8707 | } | |
8708 | } | |
8709 | ||
8710 | netif_device_attach(netdev); | |
8711 | netif_wake_queue(netdev); | |
8712 | } |