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tc35815.c

tc35815.c 87 KB
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
  1. /*
    2. 

  2.  * tc35815.c: A TOSHIBA TC35815CF PCI 10/100Mbps ethernet driver for linux.
    3. 

  3.  *
    4. 

  4.  * Based on skelton.c by Donald Becker.
    5. 

  5.  *
    6. 

  6.  * This driver is a replacement of older and less maintained version.
    7. 

  7.  * This is a header of the older version:
    8. 

  8.  *	-----<snip>-----
    9. 

  9.  *	Copyright 2001 MontaVista Software Inc.
    10. 

  10.  *	Author: MontaVista Software, Inc.
    11. 

  11.  *		ahennessy@mvista.com
    12. 

  12.  *	Copyright (C) 2000-2001 Toshiba Corporation
    13. 

  13.  *	static const char *version =
    14. 

  14.  *		"tc35815.c:v0.00 26/07/2000 by Toshiba Corporation\n";
    15. 

  15.  *	-----<snip>-----
    16. 

  16.  *
    17. 

  17.  * This file is subject to the terms and conditions of the GNU General Public
    18. 

  18.  * License.  See the file "COPYING" in the main directory of this archive
    19. 

  19.  * for more details.
    20. 

  20.  *
    21. 

  21.  * (C) Copyright TOSHIBA CORPORATION 2004-2005
    22. 

  22.  * All Rights Reserved.
    23. 

  23.  */
    24. 

  24. 

  25. #ifdef TC35815_NAPI
    26. 

  26. #define DRV_VERSION	"1.36-NAPI"
    27. 

  27. #else
    28. 

  28. #define DRV_VERSION	"1.36"
    29. 

  29. #endif
    30. 

  30. static const char *version = "tc35815.c:v" DRV_VERSION "\n";
    31. 

  31. #define MODNAME			"tc35815"
    32. 

  32. 

  33. #include <linux/module.h>
    34. 

  34. #include <linux/kernel.h>
    35. 

  35. #include <linux/types.h>
    36. 

  36. #include <linux/fcntl.h>
    37. 

  37. #include <linux/interrupt.h>
    38. 

  38. #include <linux/ioport.h>
    39. 

  39. #include <linux/in.h>
    40. 

  40. #include <linux/slab.h>
    41. 

  41. #include <linux/string.h>
    42. 

  42. #include <linux/spinlock.h>
    43. 

  43. #include <linux/errno.h>
    44. 

  44. #include <linux/init.h>
    45. 

  45. #include <linux/netdevice.h>
    46. 

  46. #include <linux/etherdevice.h>
    47. 

  47. #include <linux/skbuff.h>
    48. 

  48. #include <linux/delay.h>
    49. 

  49. #include <linux/pci.h>
    50. 

  50. #include <linux/mii.h>
    51. 

  51. #include <linux/ethtool.h>
    52. 

  52. #include <linux/platform_device.h>
    53. 

  53. #include <asm/io.h>
    54. 

  54. #include <asm/byteorder.h>
    55. 

  55. 

  56. /* First, a few definitions that the brave might change. */
    57. 

  57. 

  58. #define GATHER_TXINT	/* On-Demand Tx Interrupt */
    59. 

  59. #define WORKAROUND_LOSTCAR
    60. 

  60. #define WORKAROUND_100HALF_PROMISC
    61. 

  61. /* #define TC35815_USE_PACKEDBUFFER */
    62. 

  62. 

  63. typedef enum {
    64. 

  64. 	TC35815CF = 0,
    65. 

  65. 	TC35815_NWU,
    66. 

  66. 	TC35815_TX4939,
    67. 

  67. } board_t;
    68. 

  68. 

  69. /* indexed by board_t, above */
    70. 

  70. static const struct {
    71. 

  71. 	const char *name;
    72. 

  72. } board_info[] __devinitdata = {
    73. 

  73. 	{ "TOSHIBA TC35815CF 10/100BaseTX" },
    74. 

  74. 	{ "TOSHIBA TC35815 with Wake on LAN" },
    75. 

  75. 	{ "TOSHIBA TC35815/TX4939" },
    76. 

  76. };
    77. 

  77. 

  78. static const struct pci_device_id tc35815_pci_tbl[] = {
    79. 

  79. 	{PCI_DEVICE(PCI_VENDOR_ID_TOSHIBA_2, PCI_DEVICE_ID_TOSHIBA_TC35815CF), .driver_data = TC35815CF },
    80. 

  80. 	{PCI_DEVICE(PCI_VENDOR_ID_TOSHIBA_2, PCI_DEVICE_ID_TOSHIBA_TC35815_NWU), .driver_data = TC35815_NWU },
    81. 

  81. 	{PCI_DEVICE(PCI_VENDOR_ID_TOSHIBA_2, PCI_DEVICE_ID_TOSHIBA_TC35815_TX4939), .driver_data = TC35815_TX4939 },
    82. 

  82. 	{0,}
    83. 

  83. };
    84. 

  84. MODULE_DEVICE_TABLE (pci, tc35815_pci_tbl);
    85. 

  85. 

  86. /* see MODULE_PARM_DESC */
    87. 

  87. static struct tc35815_options {
    88. 

  88. 	int speed;
    89. 

  89. 	int duplex;
    90. 

  90. 	int doforce;
    91. 

  91. } options;
    92. 

  92. 

  93. /*
    94. 

  94.  * Registers
    95. 

  95.  */
    96. 

  96. struct tc35815_regs {
    97. 

  97. 	volatile __u32 DMA_Ctl;		/* 0x00 */
    98. 

  98. 	volatile __u32 TxFrmPtr;
    99. 

  99. 	volatile __u32 TxThrsh;
    100. 

  100. 	volatile __u32 TxPollCtr;
    101. 

  101. 	volatile __u32 BLFrmPtr;
    102. 

  102. 	volatile __u32 RxFragSize;
    103. 

  103. 	volatile __u32 Int_En;
    104. 

  104. 	volatile __u32 FDA_Bas;
    105. 

  105. 	volatile __u32 FDA_Lim;		/* 0x20 */
    106. 

  106. 	volatile __u32 Int_Src;
    107. 

  107. 	volatile __u32 unused0[2];
    108. 

  108. 	volatile __u32 PauseCnt;
    109. 

  109. 	volatile __u32 RemPauCnt;
    110. 

  110. 	volatile __u32 TxCtlFrmStat;
    111. 

  111. 	volatile __u32 unused1;
    112. 

  112. 	volatile __u32 MAC_Ctl;		/* 0x40 */
    113. 

  113. 	volatile __u32 CAM_Ctl;
    114. 

  114. 	volatile __u32 Tx_Ctl;
    115. 

  115. 	volatile __u32 Tx_Stat;
    116. 

  116. 	volatile __u32 Rx_Ctl;
    117. 

  117. 	volatile __u32 Rx_Stat;
    118. 

  118. 	volatile __u32 MD_Data;
    119. 

  119. 	volatile __u32 MD_CA;
    120. 

  120. 	volatile __u32 CAM_Adr;		/* 0x60 */
    121. 

  121. 	volatile __u32 CAM_Data;
    122. 

  122. 	volatile __u32 CAM_Ena;
    123. 

  123. 	volatile __u32 PROM_Ctl;
    124. 

  124. 	volatile __u32 PROM_Data;
    125. 

  125. 	volatile __u32 Algn_Cnt;
    126. 

  126. 	volatile __u32 CRC_Cnt;
    127. 

  127. 	volatile __u32 Miss_Cnt;
    128. 

  128. };
    129. 

  129. 

  130. /*
    131. 

  131.  * Bit assignments
    132. 

  132.  */
    133. 

  133. /* DMA_Ctl bit asign ------------------------------------------------------- */
    134. 

  134. #define DMA_RxAlign            0x00c00000 /* 1:Reception Alignment           */
    135. 

  135. #define DMA_RxAlign_1          0x00400000
    136. 

  136. #define DMA_RxAlign_2          0x00800000
    137. 

  137. #define DMA_RxAlign_3          0x00c00000
    138. 

  138. #define DMA_M66EnStat          0x00080000 /* 1:66MHz Enable State            */
    139. 

  139. #define DMA_IntMask            0x00040000 /* 1:Interupt mask                 */
    140. 

  140. #define DMA_SWIntReq           0x00020000 /* 1:Software Interrupt request    */
    141. 

  141. #define DMA_TxWakeUp           0x00010000 /* 1:Transmit Wake Up              */
    142. 

  142. #define DMA_RxBigE             0x00008000 /* 1:Receive Big Endian            */
    143. 

  143. #define DMA_TxBigE             0x00004000 /* 1:Transmit Big Endian           */
    144. 

  144. #define DMA_TestMode           0x00002000 /* 1:Test Mode                     */
    145. 

  145. #define DMA_PowrMgmnt          0x00001000 /* 1:Power Management              */
    146. 

  146. #define DMA_DmBurst_Mask       0x000001fc /* DMA Burst size                  */
    147. 

  147. 

  148. /* RxFragSize bit asign ---------------------------------------------------- */
    149. 

  149. #define RxFrag_EnPack          0x00008000 /* 1:Enable Packing                */
    150. 

  150. #define RxFrag_MinFragMask     0x00000ffc /* Minimum Fragment                */
    151. 

  151. 

  152. /* MAC_Ctl bit asign ------------------------------------------------------- */
    153. 

  153. #define MAC_Link10             0x00008000 /* 1:Link Status 10Mbits           */
    154. 

  154. #define MAC_EnMissRoll         0x00002000 /* 1:Enable Missed Roll            */
    155. 

  155. #define MAC_MissRoll           0x00000400 /* 1:Missed Roll                   */
    156. 

  156. #define MAC_Loop10             0x00000080 /* 1:Loop 10 Mbps                  */
    157. 

  157. #define MAC_Conn_Auto          0x00000000 /*00:Connection mode (Automatic)   */
    158. 

  158. #define MAC_Conn_10M           0x00000020 /*01:                (10Mbps endec)*/
    159. 

  159. #define MAC_Conn_Mll           0x00000040 /*10:                (Mll clock)   */
    160. 

  160. #define MAC_MacLoop            0x00000010 /* 1:MAC Loopback                  */
    161. 

  161. #define MAC_FullDup            0x00000008 /* 1:Full Duplex 0:Half Duplex     */
    162. 

  162. #define MAC_Reset              0x00000004 /* 1:Software Reset                */
    163. 

  163. #define MAC_HaltImm            0x00000002 /* 1:Halt Immediate                */
    164. 

  164. #define MAC_HaltReq            0x00000001 /* 1:Halt request                  */
    165. 

  165. 

  166. /* PROM_Ctl bit asign ------------------------------------------------------ */
    167. 

  167. #define PROM_Busy              0x00008000 /* 1:Busy (Start Operation)        */
    168. 

  168. #define PROM_Read              0x00004000 /*10:Read operation                */
    169. 

  169. #define PROM_Write             0x00002000 /*01:Write operation               */
    170. 

  170. #define PROM_Erase             0x00006000 /*11:Erase operation               */
    171. 

  171.                                           /*00:Enable or Disable Writting,   */
    172. 

  172.                                           /*      as specified in PROM_Addr. */
    173. 

  173. #define PROM_Addr_Ena          0x00000030 /*11xxxx:PROM Write enable         */
    174. 

  174.                                           /*00xxxx:           disable        */
    175. 

  175. 

  176. /* CAM_Ctl bit asign ------------------------------------------------------- */
    177. 

  177. #define CAM_CompEn             0x00000010 /* 1:CAM Compare Enable            */
    178. 

  178. #define CAM_NegCAM             0x00000008 /* 1:Reject packets CAM recognizes,*/
    179. 

  179.                                           /*                    accept other */
    180. 

  180. #define CAM_BroadAcc           0x00000004 /* 1:Broadcast assept              */
    181. 

  181. #define CAM_GroupAcc           0x00000002 /* 1:Multicast assept              */
    182. 

  182. #define CAM_StationAcc         0x00000001 /* 1:unicast accept                */
    183. 

  183. 

  184. /* CAM_Ena bit asign ------------------------------------------------------- */
    185. 

  185. #define CAM_ENTRY_MAX                  21   /* CAM Data entry max count      */
    186. 

  186. #define CAM_Ena_Mask ((1<<CAM_ENTRY_MAX)-1) /* CAM Enable bits (Max 21bits)  */
    187. 

  187. #define CAM_Ena_Bit(index)         (1<<(index))
    188. 

  188. #define CAM_ENTRY_DESTINATION	0
    189. 

  189. #define CAM_ENTRY_SOURCE	1
    190. 

  190. #define CAM_ENTRY_MACCTL	20
    191. 

  191. 

  192. /* Tx_Ctl bit asign -------------------------------------------------------- */
    193. 

  193. #define Tx_En                  0x00000001 /* 1:Transmit enable               */
    194. 

  194. #define Tx_TxHalt              0x00000002 /* 1:Transmit Halt Request         */
    195. 

  195. #define Tx_NoPad               0x00000004 /* 1:Suppress Padding              */
    196. 

  196. #define Tx_NoCRC               0x00000008 /* 1:Suppress Padding              */
    197. 

  197. #define Tx_FBack               0x00000010 /* 1:Fast Back-off                 */
    198. 

  198. #define Tx_EnUnder             0x00000100 /* 1:Enable Underrun               */
    199. 

  199. #define Tx_EnExDefer           0x00000200 /* 1:Enable Excessive Deferral     */
    200. 

  200. #define Tx_EnLCarr             0x00000400 /* 1:Enable Lost Carrier           */
    201. 

  201. #define Tx_EnExColl            0x00000800 /* 1:Enable Excessive Collision    */
    202. 

  202. #define Tx_EnLateColl          0x00001000 /* 1:Enable Late Collision         */
    203. 

  203. #define Tx_EnTxPar             0x00002000 /* 1:Enable Transmit Parity        */
    204. 

  204. #define Tx_EnComp              0x00004000 /* 1:Enable Completion             */
    205. 

  205. 

  206. /* Tx_Stat bit asign ------------------------------------------------------- */
    207. 

  207. #define Tx_TxColl_MASK         0x0000000F /* Tx Collision Count              */
    208. 

  208. #define Tx_ExColl              0x00000010 /* Excessive Collision             */
    209. 

  209. #define Tx_TXDefer             0x00000020 /* Transmit Defered                */
    210. 

  210. #define Tx_Paused              0x00000040 /* Transmit Paused                 */
    211. 

  211. #define Tx_IntTx               0x00000080 /* Interrupt on Tx                 */
    212. 

  212. #define Tx_Under               0x00000100 /* Underrun                        */
    213. 

  213. #define Tx_Defer               0x00000200 /* Deferral                        */
    214. 

  214. #define Tx_NCarr               0x00000400 /* No Carrier                      */
    215. 

  215. #define Tx_10Stat              0x00000800 /* 10Mbps Status                   */
    216. 

  216. #define Tx_LateColl            0x00001000 /* Late Collision                  */
    217. 

  217. #define Tx_TxPar               0x00002000 /* Tx Parity Error                 */
    218. 

  218. #define Tx_Comp                0x00004000 /* Completion                      */
    219. 

  219. #define Tx_Halted              0x00008000 /* Tx Halted                       */
    220. 

  220. #define Tx_SQErr               0x00010000 /* Signal Quality Error(SQE)       */
    221. 

  221. 

  222. /* Rx_Ctl bit asign -------------------------------------------------------- */
    223. 

  223. #define Rx_EnGood              0x00004000 /* 1:Enable Good                   */
    224. 

  224. #define Rx_EnRxPar             0x00002000 /* 1:Enable Receive Parity         */
    225. 

  225. #define Rx_EnLongErr           0x00000800 /* 1:Enable Long Error             */
    226. 

  226. #define Rx_EnOver              0x00000400 /* 1:Enable OverFlow               */
    227. 

  227. #define Rx_EnCRCErr            0x00000200 /* 1:Enable CRC Error              */
    228. 

  228. #define Rx_EnAlign             0x00000100 /* 1:Enable Alignment              */
    229. 

  229. #define Rx_IgnoreCRC           0x00000040 /* 1:Ignore CRC Value              */
    230. 

  230. #define Rx_StripCRC            0x00000010 /* 1:Strip CRC Value               */
    231. 

  231. #define Rx_ShortEn             0x00000008 /* 1:Short Enable                  */
    232. 

  232. #define Rx_LongEn              0x00000004 /* 1:Long Enable                   */
    233. 

  233. #define Rx_RxHalt              0x00000002 /* 1:Receive Halt Request          */
    234. 

  234. #define Rx_RxEn                0x00000001 /* 1:Receive Intrrupt Enable       */
    235. 

  235. 

  236. /* Rx_Stat bit asign ------------------------------------------------------- */
    237. 

  237. #define Rx_Halted              0x00008000 /* Rx Halted                       */
    238. 

  238. #define Rx_Good                0x00004000 /* Rx Good                         */
    239. 

  239. #define Rx_RxPar               0x00002000 /* Rx Parity Error                 */
    240. 

  240.                             /* 0x00001000    not use                         */
    241. 

  241. #define Rx_LongErr             0x00000800 /* Rx Long Error                   */
    242. 

  242. #define Rx_Over                0x00000400 /* Rx Overflow                     */
    243. 

  243. #define Rx_CRCErr              0x00000200 /* Rx CRC Error                    */
    244. 

  244. #define Rx_Align               0x00000100 /* Rx Alignment Error              */
    245. 

  245. #define Rx_10Stat              0x00000080 /* Rx 10Mbps Status                */
    246. 

  246. #define Rx_IntRx               0x00000040 /* Rx Interrupt                    */
    247. 

  247. #define Rx_CtlRecd             0x00000020 /* Rx Control Receive              */
    248. 

  248. 

  249. #define Rx_Stat_Mask           0x0000EFC0 /* Rx All Status Mask              */
    250. 

  250. 

  251. /* Int_En bit asign -------------------------------------------------------- */
    252. 

  252. #define Int_NRAbtEn            0x00000800 /* 1:Non-recoverable Abort Enable  */
    253. 

  253. #define Int_TxCtlCmpEn         0x00000400 /* 1:Transmit Control Complete Enable */
    254. 

  254. #define Int_DmParErrEn         0x00000200 /* 1:DMA Parity Error Enable       */
    255. 

  255. #define Int_DParDEn            0x00000100 /* 1:Data Parity Error Enable      */
    256. 

  256. #define Int_EarNotEn           0x00000080 /* 1:Early Notify Enable           */
    257. 

  257. #define Int_DParErrEn          0x00000040 /* 1:Detected Parity Error Enable  */
    258. 

  258. #define Int_SSysErrEn          0x00000020 /* 1:Signalled System Error Enable */
    259. 

  259. #define Int_RMasAbtEn          0x00000010 /* 1:Received Master Abort Enable  */
    260. 

  260. #define Int_RTargAbtEn         0x00000008 /* 1:Received Target Abort Enable  */
    261. 

  261. #define Int_STargAbtEn         0x00000004 /* 1:Signalled Target Abort Enable */
    262. 

  262. #define Int_BLExEn             0x00000002 /* 1:Buffer List Exhausted Enable  */
    263. 

  263. #define Int_FDAExEn            0x00000001 /* 1:Free Descriptor Area          */
    264. 

  264.                                           /*               Exhausted Enable  */
    265. 

  265. 

  266. /* Int_Src bit asign ------------------------------------------------------- */
    267. 

  267. #define Int_NRabt              0x00004000 /* 1:Non Recoverable error         */
    268. 

  268. #define Int_DmParErrStat       0x00002000 /* 1:DMA Parity Error & Clear      */
    269. 

  269. #define Int_BLEx               0x00001000 /* 1:Buffer List Empty & Clear     */
    270. 

  270. #define Int_FDAEx              0x00000800 /* 1:FDA Empty & Clear             */
    271. 

  271. #define Int_IntNRAbt           0x00000400 /* 1:Non Recoverable Abort         */
    272. 

  272. #define	Int_IntCmp             0x00000200 /* 1:MAC control packet complete   */
    273. 

  273. #define Int_IntExBD            0x00000100 /* 1:Interrupt Extra BD & Clear    */
    274. 

  274. #define Int_DmParErr           0x00000080 /* 1:DMA Parity Error & Clear      */
    275. 

  275. #define Int_IntEarNot          0x00000040 /* 1:Receive Data write & Clear    */
    276. 

  276. #define Int_SWInt              0x00000020 /* 1:Software request & Clear      */
    277. 

  277. #define Int_IntBLEx            0x00000010 /* 1:Buffer List Empty & Clear     */
    278. 

  278. #define Int_IntFDAEx           0x00000008 /* 1:FDA Empty & Clear             */
    279. 

  279. #define Int_IntPCI             0x00000004 /* 1:PCI controller & Clear        */
    280. 

  280. #define Int_IntMacRx           0x00000002 /* 1:Rx controller & Clear         */
    281. 

  281. #define Int_IntMacTx           0x00000001 /* 1:Tx controller & Clear         */
    282. 

  282. 

  283. /* MD_CA bit asign --------------------------------------------------------- */
    284. 

  284. #define MD_CA_PreSup           0x00001000 /* 1:Preamble Supress              */
    285. 

  285. #define MD_CA_Busy             0x00000800 /* 1:Busy (Start Operation)        */
    286. 

  286. #define MD_CA_Wr               0x00000400 /* 1:Write 0:Read                  */
    287. 

  287. 

  288. 

  289. /*
    290. 

  290.  * Descriptors
    291. 

  291.  */
    292. 

  292. 

  293. /* Frame descripter */
    294. 

  294. struct FDesc {
    295. 

  295. 	volatile __u32 FDNext;
    296. 

  296. 	volatile __u32 FDSystem;
    297. 

  297. 	volatile __u32 FDStat;
    298. 

  298. 	volatile __u32 FDCtl;
    299. 

  299. };
    300. 

  300. 

  301. /* Buffer descripter */
    302. 

  302. struct BDesc {
    303. 

  303. 	volatile __u32 BuffData;
    304. 

  304. 	volatile __u32 BDCtl;
    305. 

  305. };
    306. 

  306. 

  307. #define FD_ALIGN	16
    308. 

  308. 

  309. /* Frame Descripter bit asign ---------------------------------------------- */
    310. 

  310. #define FD_FDLength_MASK       0x0000FFFF /* Length MASK                     */
    311. 

  311. #define FD_BDCnt_MASK          0x001F0000 /* BD count MASK in FD             */
    312. 

  312. #define FD_FrmOpt_MASK         0x7C000000 /* Frame option MASK               */
    313. 

  313. #define FD_FrmOpt_BigEndian    0x40000000 /* Tx/Rx */
    314. 

  314. #define FD_FrmOpt_IntTx        0x20000000 /* Tx only */
    315. 

  315. #define FD_FrmOpt_NoCRC        0x10000000 /* Tx only */
    316. 

  316. #define FD_FrmOpt_NoPadding    0x08000000 /* Tx only */
    317. 

  317. #define FD_FrmOpt_Packing      0x04000000 /* Rx only */
    318. 

  318. #define FD_CownsFD             0x80000000 /* FD Controller owner bit         */
    319. 

  319. #define FD_Next_EOL            0x00000001 /* FD EOL indicator                */
    320. 

  320. #define FD_BDCnt_SHIFT         16
    321. 

  321. 

  322. /* Buffer Descripter bit asign --------------------------------------------- */
    323. 

  323. #define BD_BuffLength_MASK     0x0000FFFF /* Recieve Data Size               */
    324. 

  324. #define BD_RxBDID_MASK         0x00FF0000 /* BD ID Number MASK               */
    325. 

  325. #define BD_RxBDSeqN_MASK       0x7F000000 /* Rx BD Sequence Number           */
    326. 

  326. #define BD_CownsBD             0x80000000 /* BD Controller owner bit         */
    327. 

  327. #define BD_RxBDID_SHIFT        16
    328. 

  328. #define BD_RxBDSeqN_SHIFT      24
    329. 

  329. 

  330. 

  331. /* Some useful constants. */
    332. 

  332. #undef NO_CHECK_CARRIER	/* Does not check No-Carrier with TP */
    333. 

  333. 

  334. #ifdef NO_CHECK_CARRIER
    335. 

  335. #define TX_CTL_CMD	(Tx_EnComp | Tx_EnTxPar | Tx_EnLateColl | \
    336. 

  336. 	Tx_EnExColl | Tx_EnExDefer | Tx_EnUnder | \
    337. 

  337. 	Tx_En)	/* maybe  0x7b01 */
    338. 

  338. #else
    339. 

  339. #define TX_CTL_CMD	(Tx_EnComp | Tx_EnTxPar | Tx_EnLateColl | \
    340. 

  340. 	Tx_EnExColl | Tx_EnLCarr | Tx_EnExDefer | Tx_EnUnder | \
    341. 

  341. 	Tx_En)	/* maybe  0x7b01 */
    342. 

  342. #endif
    343. 

  343. #define RX_CTL_CMD	(Rx_EnGood | Rx_EnRxPar | Rx_EnLongErr | Rx_EnOver \
    344. 

  344. 	| Rx_EnCRCErr | Rx_EnAlign | Rx_RxEn)	/* maybe 0x6f01 */
    345. 

  345. #define INT_EN_CMD  (Int_NRAbtEn | \
    346. 

  346. 	Int_DmParErrEn | Int_DParDEn | Int_DParErrEn | \
    347. 

  347. 	Int_SSysErrEn  | Int_RMasAbtEn | Int_RTargAbtEn | \
    348. 

  348. 	Int_STargAbtEn | \
    349. 

  349. 	Int_BLExEn  | Int_FDAExEn) /* maybe 0xb7f*/
    350. 

  350. #define DMA_CTL_CMD	DMA_BURST_SIZE
    351. 

  351. #define HAVE_DMA_RXALIGN(lp)	likely((lp)->boardtype != TC35815CF)
    352. 

  352. 

  353. /* Tuning parameters */
    354. 

  354. #define DMA_BURST_SIZE	32
    355. 

  355. #define TX_THRESHOLD	1024
    356. 

  356. #define TX_THRESHOLD_MAX 1536       /* used threshold with packet max byte for low pci transfer ability.*/
    357. 

  357. #define TX_THRESHOLD_KEEP_LIMIT 10  /* setting threshold max value when overrun error occured this count. */
    358. 

  358. 

  359. /* 16 + RX_BUF_NUM * 8 + RX_FD_NUM * 16 + TX_FD_NUM * 32 <= PAGE_SIZE*FD_PAGE_NUM */
    360. 

  360. #ifdef TC35815_USE_PACKEDBUFFER
    361. 

  361. #define FD_PAGE_NUM 2
    362. 

  362. #define RX_BUF_NUM	8	/* >= 2 */
    363. 

  363. #define RX_FD_NUM	250	/* >= 32 */
    364. 

  364. #define TX_FD_NUM	128
    365. 

  365. #define RX_BUF_SIZE	PAGE_SIZE
    366. 

  366. #else /* TC35815_USE_PACKEDBUFFER */
    367. 

  367. #define FD_PAGE_NUM 4
    368. 

  368. #define RX_BUF_NUM	128	/* < 256 */
    369. 

  369. #define RX_FD_NUM	256	/* >= 32 */
    370. 

  370. #define TX_FD_NUM	128
    371. 

  371. #if RX_CTL_CMD & Rx_LongEn
    372. 

  372. #define RX_BUF_SIZE	PAGE_SIZE
    373. 

  373. #elif RX_CTL_CMD & Rx_StripCRC
    374. 

  374. #define RX_BUF_SIZE	ALIGN(ETH_FRAME_LEN + 4 + 2, 32) /* +2: reserve */
    375. 

  375. #else
    376. 

  376. #define RX_BUF_SIZE	ALIGN(ETH_FRAME_LEN + 2, 32) /* +2: reserve */
    377. 

  377. #endif
    378. 

  378. #endif /* TC35815_USE_PACKEDBUFFER */
    379. 

  379. #define RX_FD_RESERVE	(2 / 2)	/* max 2 BD per RxFD */
    380. 

  380. #define NAPI_WEIGHT	16
    381. 

  381. 

  382. struct TxFD {
    383. 

  383. 	struct FDesc fd;
    384. 

  384. 	struct BDesc bd;
    385. 

  385. 	struct BDesc unused;
    386. 

  386. };
    387. 

  387. 

  388. struct RxFD {
    389. 

  389. 	struct FDesc fd;
    390. 

  390. 	struct BDesc bd[0];	/* variable length */
    391. 

  391. };
    392. 

  392. 

  393. struct FrFD {
    394. 

  394. 	struct FDesc fd;
    395. 

  395. 	struct BDesc bd[RX_BUF_NUM];
    396. 

  396. };
    397. 

  397. 

  398. 

  399. #define tc_readl(addr)	readl(addr)
    400. 

  400. #define tc_writel(d, addr)	writel(d, addr)
    401. 

  401. 

  402. #define TC35815_TX_TIMEOUT  msecs_to_jiffies(400)
    403. 

  403. 

  404. /* Timer state engine. */
    405. 

  405. enum tc35815_timer_state {
    406. 

  406. 	arbwait  = 0,	/* Waiting for auto negotiation to complete.          */
    407. 

  407. 	lupwait  = 1,	/* Auto-neg complete, awaiting link-up status.        */
    408. 

  408. 	ltrywait = 2,	/* Forcing try of all modes, from fastest to slowest. */
    409. 

  409. 	asleep   = 3,	/* Time inactive.                                     */
    410. 

  410. 	lcheck   = 4,	/* Check link status.                                 */
    411. 

  411. };
    412. 

  412. 

  413. /* Information that need to be kept for each board. */
    414. 

  414. struct tc35815_local {
    415. 

  415. 	struct pci_dev *pci_dev;
    416. 

  416. 

  417. 	/* statistics */
    418. 

  418. 	struct net_device_stats stats;
    419. 

  419. 	struct {
    420. 

  420. 		int max_tx_qlen;
    421. 

  421. 		int tx_ints;
    422. 

  422. 		int rx_ints;
    423. 

  423. 	        int tx_underrun;
    424. 

  424. 	} lstats;
    425. 

  425. 

  426. 	/* Tx control lock.  This protects the transmit buffer ring
    427. 

  427. 	 * state along with the "tx full" state of the driver.  This
    428. 

  428. 	 * means all netif_queue flow control actions are protected
    429. 

  429. 	 * by this lock as well.
    430. 

  430. 	 */
    431. 

  431. 	spinlock_t lock;
    432. 

  432. 

  433. 	int phy_addr;
    434. 

  434. 	int fullduplex;
    435. 

  435. 	unsigned short saved_lpa;
    436. 

  436. 	struct timer_list timer;
    437. 

  437. 	enum tc35815_timer_state timer_state; /* State of auto-neg timer. */
    438. 

  438. 	unsigned int timer_ticks;	/* Number of clicks at each state  */
    439. 

  439. 

  440. 	/*
    441. 

  441. 	 * Transmitting: Batch Mode.
    442. 

  442. 	 *	1 BD in 1 TxFD.
    443. 

  443. 	 * Receiving: Packing Mode. (TC35815_USE_PACKEDBUFFER)
    444. 

  444. 	 *	1 circular FD for Free Buffer List.
    445. 

  445. 	 *	RX_BUF_NUM BD in Free Buffer FD.
    446. 

  446. 	 *	One Free Buffer BD has PAGE_SIZE data buffer.
    447. 

  447. 	 * Or Non-Packing Mode.
    448. 

  448. 	 *	1 circular FD for Free Buffer List.
    449. 

  449. 	 *	RX_BUF_NUM BD in Free Buffer FD.
    450. 

  450. 	 *	One Free Buffer BD has ETH_FRAME_LEN data buffer.
    451. 

  451. 	 */
    452. 

  452. 	void * fd_buf;	/* for TxFD, RxFD, FrFD */
    453. 

  453. 	dma_addr_t fd_buf_dma;
    454. 

  454. 	struct TxFD *tfd_base;
    455. 

  455. 	unsigned int tfd_start;
    456. 

  456. 	unsigned int tfd_end;
    457. 

  457. 	struct RxFD *rfd_base;
    458. 

  458. 	struct RxFD *rfd_limit;
    459. 

  459. 	struct RxFD *rfd_cur;
    460. 

  460. 	struct FrFD *fbl_ptr;
    461. 

  461. #ifdef TC35815_USE_PACKEDBUFFER
    462. 

  462. 	unsigned char fbl_curid;
    463. 

  463. 	void * data_buf[RX_BUF_NUM];		/* packing */
    464. 

  464. 	dma_addr_t data_buf_dma[RX_BUF_NUM];
    465. 

  465. 	struct {
    466. 

  466. 		struct sk_buff *skb;
    467. 

  467. 		dma_addr_t skb_dma;
    468. 

  468. 	} tx_skbs[TX_FD_NUM];
    469. 

  469. #else
    470. 

  470. 	unsigned int fbl_count;
    471. 

  471. 	struct {
    472. 

  472. 		struct sk_buff *skb;
    473. 

  473. 		dma_addr_t skb_dma;
    474. 

  474. 	} tx_skbs[TX_FD_NUM], rx_skbs[RX_BUF_NUM];
    475. 

  475. #endif
    476. 

  476. 	struct mii_if_info mii;
    477. 

  477. 	unsigned short mii_id[2];
    478. 

  478. 	u32 msg_enable;
    479. 

  479. 	board_t boardtype;
    480. 

  480. };
    481. 

  481. 

  482. static inline dma_addr_t fd_virt_to_bus(struct tc35815_local *lp, void *virt)
    483. 

  483. {
    484. 

  484. 	return lp->fd_buf_dma + ((u8 *)virt - (u8 *)lp->fd_buf);
    485. 

  485. }
    486. 

  486. #ifdef DEBUG
    487. 

  487. static inline void *fd_bus_to_virt(struct tc35815_local *lp, dma_addr_t bus)
    488. 

  488. {
    489. 

  489. 	return (void *)((u8 *)lp->fd_buf + (bus - lp->fd_buf_dma));
    490. 

  490. }
    491. 

  491. #endif
    492. 

  492. #ifdef TC35815_USE_PACKEDBUFFER
    493. 

  493. static inline void *rxbuf_bus_to_virt(struct tc35815_local *lp, dma_addr_t bus)
    494. 

  494. {
    495. 

  495. 	int i;
    496. 

  496. 	for (i = 0; i < RX_BUF_NUM; i++) {
    497. 

  497. 		if (bus >= lp->data_buf_dma[i] &&
    498. 

  498. 		    bus < lp->data_buf_dma[i] + PAGE_SIZE)
    499. 

  499. 			return (void *)((u8 *)lp->data_buf[i] +
    500. 

  500. 					(bus - lp->data_buf_dma[i]));
    501. 

  501. 	}
    502. 

  502. 	return NULL;
    503. 

  503. }
    504. 

  504. 

  505. #define TC35815_DMA_SYNC_ONDEMAND
    506. 

  506. static void* alloc_rxbuf_page(struct pci_dev *hwdev, dma_addr_t *dma_handle)
    507. 

  507. {
    508. 

  508. #ifdef TC35815_DMA_SYNC_ONDEMAND
    509. 

  509. 	void *buf;
    510. 

  510. 	/* pci_map + pci_dma_sync will be more effective than
    511. 

  511. 	 * pci_alloc_consistent on some archs. */
    512. 

  512. 	if ((buf = (void *)__get_free_page(GFP_ATOMIC)) == NULL)
    513. 

  513. 		return NULL;
    514. 

  514. 	*dma_handle = pci_map_single(hwdev, buf, PAGE_SIZE,
    515. 

  515. 				     PCI_DMA_FROMDEVICE);
    516. 

  516. 	if (pci_dma_mapping_error(*dma_handle)) {
    517. 

  517. 		free_page((unsigned long)buf);
    518. 

  518. 		return NULL;
    519. 

  519. 	}
    520. 

  520. 	return buf;
    521. 

  521. #else
    522. 

  522. 	return pci_alloc_consistent(hwdev, PAGE_SIZE, dma_handle);
    523. 

  523. #endif
    524. 

  524. }
    525. 

  525. 

  526. static void free_rxbuf_page(struct pci_dev *hwdev, void *buf, dma_addr_t dma_handle)
    527. 

  527. {
    528. 

  528. #ifdef TC35815_DMA_SYNC_ONDEMAND
    529. 

  529. 	pci_unmap_single(hwdev, dma_handle, PAGE_SIZE, PCI_DMA_FROMDEVICE);
    530. 

  530. 	free_page((unsigned long)buf);
    531. 

  531. #else
    532. 

  532. 	pci_free_consistent(hwdev, PAGE_SIZE, buf, dma_handle);
    533. 

  533. #endif
    534. 

  534. }
    535. 

  535. #else /* TC35815_USE_PACKEDBUFFER */
    536. 

  536. static struct sk_buff *alloc_rxbuf_skb(struct net_device *dev,
    537. 

  537. 				       struct pci_dev *hwdev,
    538. 

  538. 				       dma_addr_t *dma_handle)
    539. 

  539. {
    540. 

  540. 	struct sk_buff *skb;
    541. 

  541. 	skb = dev_alloc_skb(RX_BUF_SIZE);
    542. 

  542. 	if (!skb)
    543. 

  543. 		return NULL;
    544. 

  544. 	*dma_handle = pci_map_single(hwdev, skb->data, RX_BUF_SIZE,
    545. 

  545. 				     PCI_DMA_FROMDEVICE);
    546. 

  546. 	if (pci_dma_mapping_error(*dma_handle)) {
    547. 

  547. 		dev_kfree_skb_any(skb);
    548. 

  548. 		return NULL;
    549. 

  549. 	}
    550. 

  550. 	skb_reserve(skb, 2);	/* make IP header 4byte aligned */
    551. 

  551. 	return skb;
    552. 

  552. }
    553. 

  553. 

  554. static void free_rxbuf_skb(struct pci_dev *hwdev, struct sk_buff *skb, dma_addr_t dma_handle)
    555. 

  555. {
    556. 

  556. 	pci_unmap_single(hwdev, dma_handle, RX_BUF_SIZE,
    557. 

  557. 			 PCI_DMA_FROMDEVICE);
    558. 

  558. 	dev_kfree_skb_any(skb);
    559. 

  559. }
    560. 

  560. #endif /* TC35815_USE_PACKEDBUFFER */
    561. 

  561. 

  562. /* Index to functions, as function prototypes. */
    563. 

  563. 

  564. static int	tc35815_open(struct net_device *dev);
    565. 

  565. static int	tc35815_send_packet(struct sk_buff *skb, struct net_device *dev);
    566. 

  566. static irqreturn_t	tc35815_interrupt(int irq, void *dev_id);
    567. 

  567. #ifdef TC35815_NAPI
    568. 

  568. static int	tc35815_rx(struct net_device *dev, int limit);
    569. 

  569. static int	tc35815_poll(struct net_device *dev, int *budget);
    570. 

  570. #else
    571. 

  571. static void	tc35815_rx(struct net_device *dev);
    572. 

  572. #endif
    573. 

  573. static void	tc35815_txdone(struct net_device *dev);
    574. 

  574. static int	tc35815_close(struct net_device *dev);
    575. 

  575. static struct	net_device_stats *tc35815_get_stats(struct net_device *dev);
    576. 

  576. static void	tc35815_set_multicast_list(struct net_device *dev);
    577. 

  577. static void     tc35815_tx_timeout(struct net_device *dev);
    578. 

  578. static int	tc35815_ioctl(struct net_device *dev, struct ifreq *rq, int cmd);
    579. 

  579. #ifdef CONFIG_NET_POLL_CONTROLLER
    580. 

  580. static void	tc35815_poll_controller(struct net_device *dev);
    581. 

  581. #endif
    582. 

  582. static const struct ethtool_ops tc35815_ethtool_ops;
    583. 

  583. 

  584. /* Example routines you must write ;->. */
    585. 

  585. static void 	tc35815_chip_reset(struct net_device *dev);
    586. 

  586. static void 	tc35815_chip_init(struct net_device *dev);
    587. 

  587. static void	tc35815_find_phy(struct net_device *dev);
    588. 

  588. static void 	tc35815_phy_chip_init(struct net_device *dev);
    589. 

  589. 

  590. #ifdef DEBUG
    591. 

  591. static void	panic_queues(struct net_device *dev);
    592. 

  592. #endif
    593. 

  593. 

  594. static void tc35815_timer(unsigned long data);
    595. 

  595. static void tc35815_start_auto_negotiation(struct net_device *dev,
    596. 

  596. 					   struct ethtool_cmd *ep);
    597. 

  597. static int tc_mdio_read(struct net_device *dev, int phy_id, int location);
    598. 

  598. static void tc_mdio_write(struct net_device *dev, int phy_id, int location,
    599. 

  599. 			  int val);
    600. 

  600. 

  601. #ifdef CONFIG_CPU_TX49XX
    602. 

  602. /*
    603. 

  603.  * Find a platform_device providing a MAC address.  The platform code
    604. 

  604.  * should provide a "tc35815-mac" device with a MAC address in its
    605. 

  605.  * platform_data.
    606. 

  606.  */
    607. 

  607. static int __devinit tc35815_mac_match(struct device *dev, void *data)
    608. 

  608. {
    609. 

  609. 	struct platform_device *plat_dev = to_platform_device(dev);
    610. 

  610. 	struct pci_dev *pci_dev = data;
    611. 

  611. 	unsigned int id = (pci_dev->bus->number << 8) | pci_dev->devfn;
    612. 

  612. 	return !strcmp(plat_dev->name, "tc35815-mac") && plat_dev->id == id;
    613. 

  613. }
    614. 

  614. 

  615. static int __devinit tc35815_read_plat_dev_addr(struct net_device *dev)
    616. 

  616. {
    617. 

  617. 	struct tc35815_local *lp = dev->priv;
    618. 

  618. 	struct device *pd = bus_find_device(&platform_bus_type, NULL,
    619. 

  619. 					    lp->pci_dev, tc35815_mac_match);
    620. 

  620. 	if (pd) {
    621. 

  621. 		if (pd->platform_data)
    622. 

  622. 			memcpy(dev->dev_addr, pd->platform_data, ETH_ALEN);
    623. 

  623. 		put_device(pd);
    624. 

  624. 		return is_valid_ether_addr(dev->dev_addr) ? 0 : -ENODEV;
    625. 

  625. 	}
    626. 

  626. 	return -ENODEV;
    627. 

  627. }
    628. 

  628. #else
    629. 

  629. static int __devinit tc35815_read_plat_dev_addr(struct net_device *dev)
    630. 

  630. {
    631. 

  631. 	return -ENODEV;
    632. 

  632. }
    633. 

  633. #endif
    634. 

  634. 

  635. static int __devinit tc35815_init_dev_addr (struct net_device *dev)
    636. 

  636. {
    637. 

  637. 	struct tc35815_regs __iomem *tr =
    638. 

  638. 		(struct tc35815_regs __iomem *)dev->base_addr;
    639. 

  639. 	int i;
    640. 

  640. 

  641. 	while (tc_readl(&tr->PROM_Ctl) & PROM_Busy)
    642. 

  642. 		;
    643. 

  643. 	for (i = 0; i < 6; i += 2) {
    644. 

  644. 		unsigned short data;
    645. 

  645. 		tc_writel(PROM_Busy | PROM_Read | (i / 2 + 2), &tr->PROM_Ctl);
    646. 

  646. 		while (tc_readl(&tr->PROM_Ctl) & PROM_Busy)
    647. 

  647. 			;
    648. 

  648. 		data = tc_readl(&tr->PROM_Data);
    649. 

  649. 		dev->dev_addr[i] = data & 0xff;
    650. 

  650. 		dev->dev_addr[i+1] = data >> 8;
    651. 

  651. 	}
    652. 

  652. 	if (!is_valid_ether_addr(dev->dev_addr))
    653. 

  653. 		return tc35815_read_plat_dev_addr(dev);
    654. 

  654. 	return 0;
    655. 

  655. }
    656. 

  656. 

  657. static int __devinit tc35815_init_one (struct pci_dev *pdev,
    658. 

  658. 				       const struct pci_device_id *ent)
    659. 

  659. {
    660. 

  660. 	void __iomem *ioaddr = NULL;
    661. 

  661. 	struct net_device *dev;
    662. 

  662. 	struct tc35815_local *lp;
    663. 

  663. 	int rc;
    664. 

  664. 	unsigned long mmio_start, mmio_end, mmio_flags, mmio_len;
    665. 

  665. 

  666. 	static int printed_version;
    667. 

  667. 	if (!printed_version++) {
    668. 

  668. 		printk(version);
    669. 

  669. 		dev_printk(KERN_DEBUG, &pdev->dev,
    670. 

  670. 			   "speed:%d duplex:%d doforce:%d\n",
    671. 

  671. 			   options.speed, options.duplex, options.doforce);
    672. 

  672. 	}
    673. 

  673. 

  674. 	if (!pdev->irq) {
    675. 

  675. 		dev_warn(&pdev->dev, "no IRQ assigned.\n");
    676. 

  676. 		return -ENODEV;
    677. 

  677. 	}
    678. 

  678. 

  679. 	/* dev zeroed in alloc_etherdev */
    680. 

  680. 	dev = alloc_etherdev (sizeof (*lp));
    681. 

  681. 	if (dev == NULL) {
    682. 

  682. 		dev_err(&pdev->dev, "unable to alloc new ethernet\n");
    683. 

  683. 		return -ENOMEM;
    684. 

  684. 	}
    685. 

  685. 	SET_MODULE_OWNER(dev);
    686. 

  686. 	SET_NETDEV_DEV(dev, &pdev->dev);
    687. 

  687. 	lp = dev->priv;
    688. 

  688. 

  689. 	/* enable device (incl. PCI PM wakeup), and bus-mastering */
    690. 

  690. 	rc = pci_enable_device (pdev);
    691. 

  691. 	if (rc)
    692. 

  692. 		goto err_out;
    693. 

  693. 

  694. 	mmio_start = pci_resource_start (pdev, 1);
    695. 

  695. 	mmio_end = pci_resource_end (pdev, 1);
    696. 

  696. 	mmio_flags = pci_resource_flags (pdev, 1);
    697. 

  697. 	mmio_len = pci_resource_len (pdev, 1);
    698. 

  698. 

  699. 	/* set this immediately, we need to know before
    700. 

  700. 	 * we talk to the chip directly */
    701. 

  701. 

  702. 	/* make sure PCI base addr 1 is MMIO */
    703. 

  703. 	if (!(mmio_flags & IORESOURCE_MEM)) {
    704. 

  704. 		dev_err(&pdev->dev, "region #1 not an MMIO resource, aborting\n");
    705. 

  705. 		rc = -ENODEV;
    706. 

  706. 		goto err_out;
    707. 

  707. 	}
    708. 

  708. 

  709. 	/* check for weird/broken PCI region reporting */
    710. 

  710. 	if ((mmio_len < sizeof(struct tc35815_regs))) {
    711. 

  711. 		dev_err(&pdev->dev, "Invalid PCI region size(s), aborting\n");
    712. 

  712. 		rc = -ENODEV;
    713. 

  713. 		goto err_out;
    714. 

  714. 	}
    715. 

  715. 

  716. 	rc = pci_request_regions (pdev, MODNAME);
    717. 

  717. 	if (rc)
    718. 

  718. 		goto err_out;
    719. 

  719. 

  720. 	pci_set_master (pdev);
    721. 

  721. 

  722. 	/* ioremap MMIO region */
    723. 

  723. 	ioaddr = ioremap (mmio_start, mmio_len);
    724. 

  724. 	if (ioaddr == NULL) {
    725. 

  725. 		dev_err(&pdev->dev, "cannot remap MMIO, aborting\n");
    726. 

  726. 		rc = -EIO;
    727. 

  727. 		goto err_out_free_res;
    728. 

  728. 	}
    729. 

  729. 

  730. 	/* Initialize the device structure. */
    731. 

  731. 	dev->open = tc35815_open;
    732. 

  732. 	dev->hard_start_xmit = tc35815_send_packet;
    733. 

  733. 	dev->stop = tc35815_close;
    734. 

  734. 	dev->get_stats = tc35815_get_stats;
    735. 

  735. 	dev->set_multicast_list = tc35815_set_multicast_list;
    736. 

  736. 	dev->do_ioctl = tc35815_ioctl;
    737. 

  737. 	dev->ethtool_ops = &tc35815_ethtool_ops;
    738. 

  738. 	dev->tx_timeout = tc35815_tx_timeout;
    739. 

  739. 	dev->watchdog_timeo = TC35815_TX_TIMEOUT;
    740. 

  740. #ifdef TC35815_NAPI
    741. 

  741. 	dev->poll = tc35815_poll;
    742. 

  742. 	dev->weight = NAPI_WEIGHT;
    743. 

  743. #endif
    744. 

  744. #ifdef CONFIG_NET_POLL_CONTROLLER
    745. 

  745. 	dev->poll_controller = tc35815_poll_controller;
    746. 

  746. #endif
    747. 

  747. 

  748. 	dev->irq = pdev->irq;
    749. 

  749. 	dev->base_addr = (unsigned long) ioaddr;
    750. 

  750. 

  751. 	/* dev->priv/lp zeroed and aligned in alloc_etherdev */
    752. 

  752. 	lp = dev->priv;
    753. 

  753. 	spin_lock_init(&lp->lock);
    754. 

  754. 	lp->pci_dev = pdev;
    755. 

  755. 	lp->boardtype = ent->driver_data;
    756. 

  756. 

  757. 	lp->msg_enable = NETIF_MSG_TX_ERR | NETIF_MSG_HW | NETIF_MSG_DRV | NETIF_MSG_LINK;
    758. 

  758. 	pci_set_drvdata(pdev, dev);
    759. 

  759. 

  760. 	/* Soft reset the chip. */
    761. 

  761. 	tc35815_chip_reset(dev);
    762. 

  762. 

  763. 	/* Retrieve the ethernet address. */
    764. 

  764. 	if (tc35815_init_dev_addr(dev)) {
    765. 

  765. 		dev_warn(&pdev->dev, "not valid ether addr\n");
    766. 

  766. 		random_ether_addr(dev->dev_addr);
    767. 

  767. 	}
    768. 

  768. 

  769. 	rc = register_netdev (dev);
    770. 

  770. 	if (rc)
    771. 

  771. 		goto err_out_unmap;
    772. 

  772. 

  773. 	memcpy(dev->perm_addr, dev->dev_addr, dev->addr_len);
    774. 

  774. 	printk(KERN_INFO "%s: %s at 0x%lx, "
    775. 

  775. 		"%2.2x:%2.2x:%2.2x:%2.2x:%2.2x:%2.2x, "
    776. 

  776. 		"IRQ %d\n",
    777. 

  777. 		dev->name,
    778. 

  778. 		board_info[ent->driver_data].name,
    779. 

  779. 		dev->base_addr,
    780. 

  780. 		dev->dev_addr[0], dev->dev_addr[1],
    781. 

  781. 		dev->dev_addr[2], dev->dev_addr[3],
    782. 

  782. 		dev->dev_addr[4], dev->dev_addr[5],
    783. 

  783. 		dev->irq);
    784. 

  784. 

  785. 	setup_timer(&lp->timer, tc35815_timer, (unsigned long) dev);
    786. 

  786. 	lp->mii.dev = dev;
    787. 

  787. 	lp->mii.mdio_read = tc_mdio_read;
    788. 

  788. 	lp->mii.mdio_write = tc_mdio_write;
    789. 

  789. 	lp->mii.phy_id_mask = 0x1f;
    790. 

  790. 	lp->mii.reg_num_mask = 0x1f;
    791. 

  791. 	tc35815_find_phy(dev);
    792. 

  792. 	lp->mii.phy_id = lp->phy_addr;
    793. 

  793. 	lp->mii.full_duplex = 0;
    794. 

  794. 	lp->mii.force_media = 0;
    795. 

  795. 

  796. 	return 0;
    797. 

  797. 

  798. err_out_unmap:
    799. 

  799. 	iounmap(ioaddr);
    800. 

  800. err_out_free_res:
    801. 

  801. 	pci_release_regions (pdev);
    802. 

  802. err_out:
    803. 

  803. 	free_netdev (dev);
    804. 

  804. 	return rc;
    805. 

  805. }
    806. 

  806. 

  807. 

  808. static void __devexit tc35815_remove_one (struct pci_dev *pdev)
    809. 

  809. {
    810. 

  810. 	struct net_device *dev = pci_get_drvdata (pdev);
    811. 

  811. 	unsigned long mmio_addr;
    812. 

  812. 

  813. 	mmio_addr = dev->base_addr;
    814. 

  814. 

  815. 	unregister_netdev (dev);
    816. 

  816. 

  817. 	if (mmio_addr) {
    818. 

  818. 		iounmap ((void __iomem *)mmio_addr);
    819. 

  819. 		pci_release_regions (pdev);
    820. 

  820. 	}
    821. 

  821. 

  822. 	free_netdev (dev);
    823. 

  823. 

  824. 	pci_set_drvdata (pdev, NULL);
    825. 

  825. }
    826. 

  826. 

  827. static int
    828. 

  828. tc35815_init_queues(struct net_device *dev)
    829. 

  829. {
    830. 

  830. 	struct tc35815_local *lp = dev->priv;
    831. 

  831. 	int i;
    832. 

  832. 	unsigned long fd_addr;
    833. 

  833. 

  834. 	if (!lp->fd_buf) {
    835. 

  835. 		BUG_ON(sizeof(struct FDesc) +
    836. 

  836. 		       sizeof(struct BDesc) * RX_BUF_NUM +
    837. 

  837. 		       sizeof(struct FDesc) * RX_FD_NUM +
    838. 

  838. 		       sizeof(struct TxFD) * TX_FD_NUM >
    839. 

  839. 		       PAGE_SIZE * FD_PAGE_NUM);
    840. 

  840. 

  841. 		if ((lp->fd_buf = pci_alloc_consistent(lp->pci_dev, PAGE_SIZE * FD_PAGE_NUM, &lp->fd_buf_dma)) == 0)
    842. 

  842. 			return -ENOMEM;
    843. 

  843. 		for (i = 0; i < RX_BUF_NUM; i++) {
    844. 

  844. #ifdef TC35815_USE_PACKEDBUFFER
    845. 

  845. 			if ((lp->data_buf[i] = alloc_rxbuf_page(lp->pci_dev, &lp->data_buf_dma[i])) == NULL) {
    846. 

  846. 				while (--i >= 0) {
    847. 

  847. 					free_rxbuf_page(lp->pci_dev,
    848. 

  848. 							lp->data_buf[i],
    849. 

  849. 							lp->data_buf_dma[i]);
    850. 

  850. 					lp->data_buf[i] = NULL;
    851. 

  851. 				}
    852. 

  852. 				pci_free_consistent(lp->pci_dev,
    853. 

  853. 						    PAGE_SIZE * FD_PAGE_NUM,
    854. 

  854. 						    lp->fd_buf,
    855. 

  855. 						    lp->fd_buf_dma);
    856. 

  856. 				lp->fd_buf = NULL;
    857. 

  857. 				return -ENOMEM;
    858. 

  858. 			}
    859. 

  859. #else
    860. 

  860. 			lp->rx_skbs[i].skb =
    861. 

  861. 				alloc_rxbuf_skb(dev, lp->pci_dev,
    862. 

  862. 						&lp->rx_skbs[i].skb_dma);
    863. 

  863. 			if (!lp->rx_skbs[i].skb) {
    864. 

  864. 				while (--i >= 0) {
    865. 

  865. 					free_rxbuf_skb(lp->pci_dev,
    866. 

  866. 						       lp->rx_skbs[i].skb,
    867. 

  867. 						       lp->rx_skbs[i].skb_dma);
    868. 

  868. 					lp->rx_skbs[i].skb = NULL;
    869. 

  869. 				}
    870. 

  870. 				pci_free_consistent(lp->pci_dev,
    871. 

  871. 						    PAGE_SIZE * FD_PAGE_NUM,
    872. 

  872. 						    lp->fd_buf,
    873. 

  873. 						    lp->fd_buf_dma);
    874. 

  874. 				lp->fd_buf = NULL;
    875. 

  875. 				return -ENOMEM;
    876. 

  876. 			}
    877. 

  877. #endif
    878. 

  878. 		}
    879. 

  879. 		printk(KERN_DEBUG "%s: FD buf %p DataBuf",
    880. 

  880. 		       dev->name, lp->fd_buf);
    881. 

  881. #ifdef TC35815_USE_PACKEDBUFFER
    882. 

  882. 		printk(" DataBuf");
    883. 

  883. 		for (i = 0; i < RX_BUF_NUM; i++)
    884. 

  884. 			printk(" %p", lp->data_buf[i]);
    885. 

  885. #endif
    886. 

  886. 		printk("\n");
    887. 

  887. 	} else {
    888. 

  888. 		for (i = 0; i < FD_PAGE_NUM; i++) {
    889. 

  889. 			clear_page((void *)((unsigned long)lp->fd_buf + i * PAGE_SIZE));
    890. 

  890. 		}
    891. 

  891. 	}
    892. 

  892. 	fd_addr = (unsigned long)lp->fd_buf;
    893. 

  893. 

  894. 	/* Free Descriptors (for Receive) */
    895. 

  895. 	lp->rfd_base = (struct RxFD *)fd_addr;
    896. 

  896. 	fd_addr += sizeof(struct RxFD) * RX_FD_NUM;
    897. 

  897. 	for (i = 0; i < RX_FD_NUM; i++) {
    898. 

  898. 		lp->rfd_base[i].fd.FDCtl = cpu_to_le32(FD_CownsFD);
    899. 

  899. 	}
    900. 

  900. 	lp->rfd_cur = lp->rfd_base;
    901. 

  901. 	lp->rfd_limit = (struct RxFD *)fd_addr - (RX_FD_RESERVE + 1);
    902. 

  902. 

  903. 	/* Transmit Descriptors */
    904. 

  904. 	lp->tfd_base = (struct TxFD *)fd_addr;
    905. 

  905. 	fd_addr += sizeof(struct TxFD) * TX_FD_NUM;
    906. 

  906. 	for (i = 0; i < TX_FD_NUM; i++) {
    907. 

  907. 		lp->tfd_base[i].fd.FDNext = cpu_to_le32(fd_virt_to_bus(lp, &lp->tfd_base[i+1]));
    908. 

  908. 		lp->tfd_base[i].fd.FDSystem = cpu_to_le32(0xffffffff);
    909. 

  909. 		lp->tfd_base[i].fd.FDCtl = cpu_to_le32(0);
    910. 

  910. 	}
    911. 

  911. 	lp->tfd_base[TX_FD_NUM-1].fd.FDNext = cpu_to_le32(fd_virt_to_bus(lp, &lp->tfd_base[0]));
    912. 

  912. 	lp->tfd_start = 0;
    913. 

  913. 	lp->tfd_end = 0;
    914. 

  914. 

  915. 	/* Buffer List (for Receive) */
    916. 

  916. 	lp->fbl_ptr = (struct FrFD *)fd_addr;
    917. 

  917. 	lp->fbl_ptr->fd.FDNext = cpu_to_le32(fd_virt_to_bus(lp, lp->fbl_ptr));
    918. 

  918. 	lp->fbl_ptr->fd.FDCtl = cpu_to_le32(RX_BUF_NUM | FD_CownsFD);
    919. 

  919. #ifndef TC35815_USE_PACKEDBUFFER
    920. 

  920. 	/*
    921. 

  921. 	 * move all allocated skbs to head of rx_skbs[] array.
    922. 

  922. 	 * fbl_count mighe not be RX_BUF_NUM if alloc_rxbuf_skb() in
    923. 

  923. 	 * tc35815_rx() had failed.
    924. 

  924. 	 */
    925. 

  925. 	lp->fbl_count = 0;
    926. 

  926. 	for (i = 0; i < RX_BUF_NUM; i++) {
    927. 

  927. 		if (lp->rx_skbs[i].skb) {
    928. 

  928. 			if (i != lp->fbl_count) {
    929. 

  929. 				lp->rx_skbs[lp->fbl_count].skb =
    930. 

  930. 					lp->rx_skbs[i].skb;
    931. 

  931. 				lp->rx_skbs[lp->fbl_count].skb_dma =
    932. 

  932. 					lp->rx_skbs[i].skb_dma;
    933. 

  933. 			}
    934. 

  934. 			lp->fbl_count++;
    935. 

  935. 		}
    936. 

  936. 	}
    937. 

  937. #endif
    938. 

  938. 	for (i = 0; i < RX_BUF_NUM; i++) {
    939. 

  939. #ifdef TC35815_USE_PACKEDBUFFER
    940. 

  940. 		lp->fbl_ptr->bd[i].BuffData = cpu_to_le32(lp->data_buf_dma[i]);
    941. 

  941. #else
    942. 

  942. 		if (i >= lp->fbl_count) {
    943. 

  943. 			lp->fbl_ptr->bd[i].BuffData = 0;
    944. 

  944. 			lp->fbl_ptr->bd[i].BDCtl = 0;
    945. 

  945. 			continue;
    946. 

  946. 		}
    947. 

  947. 		lp->fbl_ptr->bd[i].BuffData =
    948. 

  948. 			cpu_to_le32(lp->rx_skbs[i].skb_dma);
    949. 

  949. #endif
    950. 

  950. 		/* BDID is index of FrFD.bd[] */
    951. 

  951. 		lp->fbl_ptr->bd[i].BDCtl =
    952. 

  952. 			cpu_to_le32(BD_CownsBD | (i << BD_RxBDID_SHIFT) |
    953. 

  953. 				    RX_BUF_SIZE);
    954. 

  954. 	}
    955. 

  955. #ifdef TC35815_USE_PACKEDBUFFER
    956. 

  956. 	lp->fbl_curid = 0;
    957. 

  957. #endif
    958. 

  958. 

  959. 	printk(KERN_DEBUG "%s: TxFD %p RxFD %p FrFD %p\n",
    960. 

  960. 	       dev->name, lp->tfd_base, lp->rfd_base, lp->fbl_ptr);
    961. 

  961. 	return 0;
    962. 

  962. }
    963. 

  963. 

  964. static void
    965. 

  965. tc35815_clear_queues(struct net_device *dev)
    966. 

  966. {
    967. 

  967. 	struct tc35815_local *lp = dev->priv;
    968. 

  968. 	int i;
    969. 

  969. 

  970. 	for (i = 0; i < TX_FD_NUM; i++) {
    971. 

  971. 		u32 fdsystem = le32_to_cpu(lp->tfd_base[i].fd.FDSystem);
    972. 

  972. 		struct sk_buff *skb =
    973. 

  973. 			fdsystem != 0xffffffff ?
    974. 

  974. 			lp->tx_skbs[fdsystem].skb : NULL;
    975. 

  975. #ifdef DEBUG
    976. 

  976. 		if (lp->tx_skbs[i].skb != skb) {
    977. 

  977. 			printk("%s: tx_skbs mismatch(%d).\n", dev->name, i);
    978. 

  978. 			panic_queues(dev);
    979. 

  979. 		}
    980. 

  980. #else
    981. 

  981. 		BUG_ON(lp->tx_skbs[i].skb != skb);
    982. 

  982. #endif
    983. 

  983. 		if (skb) {
    984. 

  984. 			pci_unmap_single(lp->pci_dev, lp->tx_skbs[i].skb_dma, skb->len, PCI_DMA_TODEVICE);
    985. 

  985. 			lp->tx_skbs[i].skb = NULL;
    986. 

  986. 			lp->tx_skbs[i].skb_dma = 0;
    987. 

  987. 			dev_kfree_skb_any(skb);
    988. 

  988. 		}
    989. 

  989. 		lp->tfd_base[i].fd.FDSystem = cpu_to_le32(0xffffffff);
    990. 

  990. 	}
    991. 

  991. 

  992. 	tc35815_init_queues(dev);
    993. 

  993. }
    994. 

  994. 

  995. static void
    996. 

  996. tc35815_free_queues(struct net_device *dev)
    997. 

  997. {
    998. 

  998. 	struct tc35815_local *lp = dev->priv;
    999. 

  999. 	int i;
    1000. 

  1000. 

  1001. 	if (lp->tfd_base) {
    1002. 

  1002. 		for (i = 0; i < TX_FD_NUM; i++) {
    1003. 

  1003. 			u32 fdsystem = le32_to_cpu(lp->tfd_base[i].fd.FDSystem);
    1004. 

  1004. 			struct sk_buff *skb =
    1005. 

  1005. 				fdsystem != 0xffffffff ?
    1006. 

  1006. 				lp->tx_skbs[fdsystem].skb : NULL;
    1007. 

  1007. #ifdef DEBUG
    1008. 

  1008. 			if (lp->tx_skbs[i].skb != skb) {
    1009. 

  1009. 				printk("%s: tx_skbs mismatch(%d).\n", dev->name, i);
    1010. 

  1010. 				panic_queues(dev);
    1011. 

  1011. 			}
    1012. 

  1012. #else
    1013. 

  1013. 			BUG_ON(lp->tx_skbs[i].skb != skb);
    1014. 

  1014. #endif
    1015. 

  1015. 			if (skb) {
    1016. 

  1016. 				dev_kfree_skb(skb);
    1017. 

  1017. 				pci_unmap_single(lp->pci_dev, lp->tx_skbs[i].skb_dma, skb->len, PCI_DMA_TODEVICE);
    1018. 

  1018. 				lp->tx_skbs[i].skb = NULL;
    1019. 

  1019. 				lp->tx_skbs[i].skb_dma = 0;
    1020. 

  1020. 			}
    1021. 

  1021. 			lp->tfd_base[i].fd.FDSystem = cpu_to_le32(0xffffffff);
    1022. 

  1022. 		}
    1023. 

  1023. 	}
    1024. 

  1024. 

  1025. 	lp->rfd_base = NULL;
    1026. 

  1026. 	lp->rfd_limit = NULL;
    1027. 

  1027. 	lp->rfd_cur = NULL;
    1028. 

  1028. 	lp->fbl_ptr = NULL;
    1029. 

  1029. 

  1030. 	for (i = 0; i < RX_BUF_NUM; i++) {
    1031. 

  1031. #ifdef TC35815_USE_PACKEDBUFFER
    1032. 

  1032. 		if (lp->data_buf[i]) {
    1033. 

  1033. 			free_rxbuf_page(lp->pci_dev,
    1034. 

  1034. 					lp->data_buf[i], lp->data_buf_dma[i]);
    1035. 

  1035. 			lp->data_buf[i] = NULL;
    1036. 

  1036. 		}
    1037. 

  1037. #else
    1038. 

  1038. 		if (lp->rx_skbs[i].skb) {
    1039. 

  1039. 			free_rxbuf_skb(lp->pci_dev, lp->rx_skbs[i].skb,
    1040. 

  1040. 				       lp->rx_skbs[i].skb_dma);
    1041. 

  1041. 			lp->rx_skbs[i].skb = NULL;
    1042. 

  1042. 		}
    1043. 

  1043. #endif
    1044. 

  1044. 	}
    1045. 

  1045. 	if (lp->fd_buf) {
    1046. 

  1046. 		pci_free_consistent(lp->pci_dev, PAGE_SIZE * FD_PAGE_NUM,
    1047. 

  1047. 				    lp->fd_buf, lp->fd_buf_dma);
    1048. 

  1048. 		lp->fd_buf = NULL;
    1049. 

  1049. 	}
    1050. 

  1050. }
    1051. 

  1051. 

  1052. static void
    1053. 

  1053. dump_txfd(struct TxFD *fd)
    1054. 

  1054. {
    1055. 

  1055. 	printk("TxFD(%p): %08x %08x %08x %08x\n", fd,
    1056. 

  1056. 	       le32_to_cpu(fd->fd.FDNext),
    1057. 

  1057. 	       le32_to_cpu(fd->fd.FDSystem),
    1058. 

  1058. 	       le32_to_cpu(fd->fd.FDStat),
    1059. 

  1059. 	       le32_to_cpu(fd->fd.FDCtl));
    1060. 

  1060. 	printk("BD: ");
    1061. 

  1061. 	printk(" %08x %08x",
    1062. 

  1062. 	       le32_to_cpu(fd->bd.BuffData),
    1063. 

  1063. 	       le32_to_cpu(fd->bd.BDCtl));
    1064. 

  1064. 	printk("\n");
    1065. 

  1065. }
    1066. 

  1066. 

  1067. static int
    1068. 

  1068. dump_rxfd(struct RxFD *fd)
    1069. 

  1069. {
    1070. 

  1070. 	int i, bd_count = (le32_to_cpu(fd->fd.FDCtl) & FD_BDCnt_MASK) >> FD_BDCnt_SHIFT;
    1071. 

  1071. 	if (bd_count > 8)
    1072. 

  1072. 		bd_count = 8;
    1073. 

  1073. 	printk("RxFD(%p): %08x %08x %08x %08x\n", fd,
    1074. 

  1074. 	       le32_to_cpu(fd->fd.FDNext),
    1075. 

  1075. 	       le32_to_cpu(fd->fd.FDSystem),
    1076. 

  1076. 	       le32_to_cpu(fd->fd.FDStat),
    1077. 

  1077. 	       le32_to_cpu(fd->fd.FDCtl));
    1078. 

  1078. 	if (le32_to_cpu(fd->fd.FDCtl) & FD_CownsFD)
    1079. 

  1079. 	    return 0;
    1080. 

  1080. 	printk("BD: ");
    1081. 

  1081. 	for (i = 0; i < bd_count; i++)
    1082. 

  1082. 		printk(" %08x %08x",
    1083. 

  1083. 		       le32_to_cpu(fd->bd[i].BuffData),
    1084. 

  1084. 		       le32_to_cpu(fd->bd[i].BDCtl));
    1085. 

  1085. 	printk("\n");
    1086. 

  1086. 	return bd_count;
    1087. 

  1087. }
    1088. 

  1088. 

  1089. #if defined(DEBUG) || defined(TC35815_USE_PACKEDBUFFER)
    1090. 

  1090. static void
    1091. 

  1091. dump_frfd(struct FrFD *fd)
    1092. 

  1092. {
    1093. 

  1093. 	int i;
    1094. 

  1094. 	printk("FrFD(%p): %08x %08x %08x %08x\n", fd,
    1095. 

  1095. 	       le32_to_cpu(fd->fd.FDNext),
    1096. 

  1096. 	       le32_to_cpu(fd->fd.FDSystem),
    1097. 

  1097. 	       le32_to_cpu(fd->fd.FDStat),
    1098. 

  1098. 	       le32_to_cpu(fd->fd.FDCtl));
    1099. 

  1099. 	printk("BD: ");
    1100. 

  1100. 	for (i = 0; i < RX_BUF_NUM; i++)
    1101. 

  1101. 		printk(" %08x %08x",
    1102. 

  1102. 		       le32_to_cpu(fd->bd[i].BuffData),
    1103. 

  1103. 		       le32_to_cpu(fd->bd[i].BDCtl));
    1104. 

  1104. 	printk("\n");
    1105. 

  1105. }
    1106. 

  1106. #endif
    1107. 

  1107. 

  1108. #ifdef DEBUG
    1109. 

  1109. static void
    1110. 

  1110. panic_queues(struct net_device *dev)
    1111. 

  1111. {
    1112. 

  1112. 	struct tc35815_local *lp = dev->priv;
    1113. 

  1113. 	int i;
    1114. 

  1114. 

  1115. 	printk("TxFD base %p, start %u, end %u\n",
    1116. 

  1116. 	       lp->tfd_base, lp->tfd_start, lp->tfd_end);
    1117. 

  1117. 	printk("RxFD base %p limit %p cur %p\n",
    1118. 

  1118. 	       lp->rfd_base, lp->rfd_limit, lp->rfd_cur);
    1119. 

  1119. 	printk("FrFD %p\n", lp->fbl_ptr);
    1120. 

  1120. 	for (i = 0; i < TX_FD_NUM; i++)
    1121. 

  1121. 		dump_txfd(&lp->tfd_base[i]);
    1122. 

  1122. 	for (i = 0; i < RX_FD_NUM; i++) {
    1123. 

  1123. 		int bd_count = dump_rxfd(&lp->rfd_base[i]);
    1124. 

  1124. 		i += (bd_count + 1) / 2;	/* skip BDs */
    1125. 

  1125. 	}
    1126. 

  1126. 	dump_frfd(lp->fbl_ptr);
    1127. 

  1127. 	panic("%s: Illegal queue state.", dev->name);
    1128. 

  1128. }
    1129. 

  1129. #endif
    1130. 

  1130. 

  1131. static void print_eth(char *add)
    1132. 

  1132. {
    1133. 

  1133. 	int i;
    1134. 

  1134. 

  1135. 	printk("print_eth(%p)\n", add);
    1136. 

  1136. 	for (i = 0; i < 6; i++)
    1137. 

  1137. 		printk(" %2.2X", (unsigned char) add[i + 6]);
    1138. 

  1138. 	printk(" =>");
    1139. 

  1139. 	for (i = 0; i < 6; i++)
    1140. 

  1140. 		printk(" %2.2X", (unsigned char) add[i]);
    1141. 

  1141. 	printk(" : %2.2X%2.2X\n", (unsigned char) add[12], (unsigned char) add[13]);
    1142. 

  1142. }
    1143. 

  1143. 

  1144. static int tc35815_tx_full(struct net_device *dev)
    1145. 

  1145. {
    1146. 

  1146. 	struct tc35815_local *lp = dev->priv;
    1147. 

  1147. 	return ((lp->tfd_start + 1) % TX_FD_NUM == lp->tfd_end);
    1148. 

  1148. }
    1149. 

  1149. 

  1150. static void tc35815_restart(struct net_device *dev)
    1151. 

  1151. {
    1152. 

  1152. 	struct tc35815_local *lp = dev->priv;
    1153. 

  1153. 	int pid = lp->phy_addr;
    1154. 

  1154. 	int do_phy_reset = 1;
    1155. 

  1155. 	del_timer(&lp->timer);		/* Kill if running	*/
    1156. 

  1156. 

  1157. 	if (lp->mii_id[0] == 0x0016 && (lp->mii_id[1] & 0xfc00) == 0xf800) {
    1158. 

  1158. 		/* Resetting PHY cause problem on some chip... (SEEQ 80221) */
    1159. 

  1159. 		do_phy_reset = 0;
    1160. 

  1160. 	}
    1161. 

  1161. 	if (do_phy_reset) {
    1162. 

  1162. 		int timeout;
    1163. 

  1163. 		tc_mdio_write(dev, pid, MII_BMCR, BMCR_RESET);
    1164. 

  1164. 		timeout = 100;
    1165. 

  1165. 		while (--timeout) {
    1166. 

  1166. 			if (!(tc_mdio_read(dev, pid, MII_BMCR) & BMCR_RESET))
    1167. 

  1167. 				break;
    1168. 

  1168. 			udelay(1);
    1169. 

  1169. 		}
    1170. 

  1170. 		if (!timeout)
    1171. 

  1171. 			printk(KERN_ERR "%s: BMCR reset failed.\n", dev->name);
    1172. 

  1172. 	}
    1173. 

  1173. 

  1174. 	tc35815_chip_reset(dev);
    1175. 

  1175. 	tc35815_clear_queues(dev);
    1176. 

  1176. 	tc35815_chip_init(dev);
    1177. 

  1177. 	/* Reconfigure CAM again since tc35815_chip_init() initialize it. */
    1178. 

  1178. 	tc35815_set_multicast_list(dev);
    1179. 

  1179. }
    1180. 

  1180. 

  1181. static void tc35815_tx_timeout(struct net_device *dev)
    1182. 

  1182. {
    1183. 

  1183. 	struct tc35815_local *lp = dev->priv;
    1184. 

  1184. 	struct tc35815_regs __iomem *tr =
    1185. 

  1185. 		(struct tc35815_regs __iomem *)dev->base_addr;
    1186. 

  1186. 

  1187. 	printk(KERN_WARNING "%s: transmit timed out, status %#x\n",
    1188. 

  1188. 	       dev->name, tc_readl(&tr->Tx_Stat));
    1189. 

  1189. 

  1190. 	/* Try to restart the adaptor. */
    1191. 

  1191. 	spin_lock_irq(&lp->lock);
    1192. 

  1192. 	tc35815_restart(dev);
    1193. 

  1193. 	spin_unlock_irq(&lp->lock);
    1194. 

  1194. 

  1195. 	lp->stats.tx_errors++;
    1196. 

  1196. 

  1197. 	/* If we have space available to accept new transmit
    1198. 

  1198. 	 * requests, wake up the queueing layer.  This would
    1199. 

  1199. 	 * be the case if the chipset_init() call above just
    1200. 

  1200. 	 * flushes out the tx queue and empties it.
    1201. 

  1201. 	 *
    1202. 

  1202. 	 * If instead, the tx queue is retained then the
    1203. 

  1203. 	 * netif_wake_queue() call should be placed in the
    1204. 

  1204. 	 * TX completion interrupt handler of the driver instead
    1205. 

  1205. 	 * of here.
    1206. 

  1206. 	 */
    1207. 

  1207. 	if (!tc35815_tx_full(dev))
    1208. 

  1208. 		netif_wake_queue(dev);
    1209. 

  1209. }
    1210. 

  1210. 

  1211. /*
    1212. 

  1212.  * Open/initialize the board. This is called (in the current kernel)
    1213. 

  1213.  * sometime after booting when the 'ifconfig' program is run.
    1214. 

  1214.  *
    1215. 

  1215.  * This routine should set everything up anew at each open, even
    1216. 

  1216.  * registers that "should" only need to be set once at boot, so that
    1217. 

  1217.  * there is non-reboot way to recover if something goes wrong.
    1218. 

  1218.  */
    1219. 

  1219. static int
    1220. 

  1220. tc35815_open(struct net_device *dev)
    1221. 

  1221. {
    1222. 

  1222. 	struct tc35815_local *lp = dev->priv;
    1223. 

  1223. 

  1224. 	/*
    1225. 

  1225. 	 * This is used if the interrupt line can turned off (shared).
    1226. 

  1226. 	 * See 3c503.c for an example of selecting the IRQ at config-time.
    1227. 

  1227. 	 */
    1228. 

  1228. 	if (request_irq(dev->irq, &tc35815_interrupt, IRQF_SHARED, dev->name, dev)) {
    1229. 

  1229. 		return -EAGAIN;
    1230. 

  1230. 	}
    1231. 

  1231. 

  1232. 	del_timer(&lp->timer);		/* Kill if running	*/
    1233. 

  1233. 	tc35815_chip_reset(dev);
    1234. 

  1234. 

  1235. 	if (tc35815_init_queues(dev) != 0) {
    1236. 

  1236. 		free_irq(dev->irq, dev);
    1237. 

  1237. 		return -EAGAIN;
    1238. 

  1238. 	}
    1239. 

  1239. 

  1240. 	/* Reset the hardware here. Don't forget to set the station address. */
    1241. 

  1241. 	spin_lock_irq(&lp->lock);
    1242. 

  1242. 	tc35815_chip_init(dev);
    1243. 

  1243. 	spin_unlock_irq(&lp->lock);
    1244. 

  1244. 

  1245. 	/* We are now ready to accept transmit requeusts from
    1246. 

  1246. 	 * the queueing layer of the networking.
    1247. 

  1247. 	 */
    1248. 

  1248. 	netif_start_queue(dev);
    1249. 

  1249. 

  1250. 	return 0;
    1251. 

  1251. }
    1252. 

  1252. 

  1253. /* This will only be invoked if your driver is _not_ in XOFF state.
    1254. 

  1254.  * What this means is that you need not check it, and that this
    1255. 

  1255.  * invariant will hold if you make sure that the netif_*_queue()
    1256. 

  1256.  * calls are done at the proper times.
    1257. 

  1257.  */
    1258. 

  1258. static int tc35815_send_packet(struct sk_buff *skb, struct net_device *dev)
    1259. 

  1259. {
    1260. 

  1260. 	struct tc35815_local *lp = dev->priv;
    1261. 

  1261. 	struct TxFD *txfd;
    1262. 

  1262. 	unsigned long flags;
    1263. 

  1263. 

  1264. 	/* If some error occurs while trying to transmit this
    1265. 

  1265. 	 * packet, you should return '1' from this function.
    1266. 

  1266. 	 * In such a case you _may not_ do anything to the
    1267. 

  1267. 	 * SKB, it is still owned by the network queueing
    1268. 

  1268. 	 * layer when an error is returned.  This means you
    1269. 

  1269. 	 * may not modify any SKB fields, you may not free
    1270. 

  1270. 	 * the SKB, etc.
    1271. 

  1271. 	 */
    1272. 

  1272. 

  1273. 	/* This is the most common case for modern hardware.
    1274. 

  1274. 	 * The spinlock protects this code from the TX complete
    1275. 

  1275. 	 * hardware interrupt handler.  Queue flow control is
    1276. 

  1276. 	 * thus managed under this lock as well.
    1277. 

  1277. 	 */
    1278. 

  1278. 	spin_lock_irqsave(&lp->lock, flags);
    1279. 

  1279. 

  1280. 	/* failsafe... (handle txdone now if half of FDs are used) */
    1281. 

  1281. 	if ((lp->tfd_start + TX_FD_NUM - lp->tfd_end) % TX_FD_NUM >
    1282. 

  1282. 	    TX_FD_NUM / 2)
    1283. 

  1283. 		tc35815_txdone(dev);
    1284. 

  1284. 

  1285. 	if (netif_msg_pktdata(lp))
    1286. 

  1286. 		print_eth(skb->data);
    1287. 

  1287. #ifdef DEBUG
    1288. 

  1288. 	if (lp->tx_skbs[lp->tfd_start].skb) {
    1289. 

  1289. 		printk("%s: tx_skbs conflict.\n", dev->name);
    1290. 

  1290. 		panic_queues(dev);
    1291. 

  1291. 	}
    1292. 

  1292. #else
    1293. 

  1293. 	BUG_ON(lp->tx_skbs[lp->tfd_start].skb);
    1294. 

  1294. #endif
    1295. 

  1295. 	lp->tx_skbs[lp->tfd_start].skb = skb;
    1296. 

  1296. 	lp->tx_skbs[lp->tfd_start].skb_dma = pci_map_single(lp->pci_dev, skb->data, skb->len, PCI_DMA_TODEVICE);
    1297. 

  1297. 

  1298. 	/*add to ring */
    1299. 

  1299. 	txfd = &lp->tfd_base[lp->tfd_start];
    1300. 

  1300. 	txfd->bd.BuffData = cpu_to_le32(lp->tx_skbs[lp->tfd_start].skb_dma);
    1301. 

  1301. 	txfd->bd.BDCtl = cpu_to_le32(skb->len);
    1302. 

  1302. 	txfd->fd.FDSystem = cpu_to_le32(lp->tfd_start);
    1303. 

  1303. 	txfd->fd.FDCtl = cpu_to_le32(FD_CownsFD | (1 << FD_BDCnt_SHIFT));
    1304. 

  1304. 

  1305. 	if (lp->tfd_start == lp->tfd_end) {
    1306. 

  1306. 		struct tc35815_regs __iomem *tr =
    1307. 

  1307. 			(struct tc35815_regs __iomem *)dev->base_addr;
    1308. 

  1308. 		/* Start DMA Transmitter. */
    1309. 

  1309. 		txfd->fd.FDNext |= cpu_to_le32(FD_Next_EOL);
    1310. 

  1310. #ifdef GATHER_TXINT
    1311. 

  1311. 		txfd->fd.FDCtl |= cpu_to_le32(FD_FrmOpt_IntTx);
    1312. 

  1312. #endif
    1313. 

  1313. 		if (netif_msg_tx_queued(lp)) {
    1314. 

  1314. 			printk("%s: starting TxFD.\n", dev->name);
    1315. 

  1315. 			dump_txfd(txfd);
    1316. 

  1316. 		}
    1317. 

  1317. 		tc_writel(fd_virt_to_bus(lp, txfd), &tr->TxFrmPtr);
    1318. 

  1318. 	} else {
    1319. 

  1319. 		txfd->fd.FDNext &= cpu_to_le32(~FD_Next_EOL);
    1320. 

  1320. 		if (netif_msg_tx_queued(lp)) {
    1321. 

  1321. 			printk("%s: queueing TxFD.\n", dev->name);
    1322. 

  1322. 			dump_txfd(txfd);
    1323. 

  1323. 		}
    1324. 

  1324. 	}
    1325. 

  1325. 	lp->tfd_start = (lp->tfd_start + 1) % TX_FD_NUM;
    1326. 

  1326. 

  1327. 	dev->trans_start = jiffies;
    1328. 

  1328. 

  1329. 	/* If we just used up the very last entry in the
    1330. 

  1330. 	 * TX ring on this device, tell the queueing
    1331. 

  1331. 	 * layer to send no more.
    1332. 

  1332. 	 */
    1333. 

  1333. 	if (tc35815_tx_full(dev)) {
    1334. 

  1334. 		if (netif_msg_tx_queued(lp))
    1335. 

  1335. 			printk(KERN_WARNING "%s: TxFD Exhausted.\n", dev->name);
    1336. 

  1336. 		netif_stop_queue(dev);
    1337. 

  1337. 	}
    1338. 

  1338. 

  1339. 	/* When the TX completion hw interrupt arrives, this
    1340. 

  1340. 	 * is when the transmit statistics are updated.
    1341. 

  1341. 	 */
    1342. 

  1342. 

  1343. 	spin_unlock_irqrestore(&lp->lock, flags);
    1344. 

  1344. 	return 0;
    1345. 

  1345. }
    1346. 

  1346. 

  1347. #define FATAL_ERROR_INT \
    1348. 

  1348. 	(Int_IntPCI | Int_DmParErr | Int_IntNRAbt)
    1349. 

  1349. static void tc35815_fatal_error_interrupt(struct net_device *dev, u32 status)
    1350. 

  1350. {
    1351. 

  1351. 	static int count;
    1352. 

  1352. 	printk(KERN_WARNING "%s: Fatal Error Intterrupt (%#x):",
    1353. 

  1353. 	       dev->name, status);
    1354. 

  1354. 	if (status & Int_IntPCI)
    1355. 

  1355. 		printk(" IntPCI");
    1356. 

  1356. 	if (status & Int_DmParErr)
    1357. 

  1357. 		printk(" DmParErr");
    1358. 

  1358. 	if (status & Int_IntNRAbt)
    1359. 

  1359. 		printk(" IntNRAbt");
    1360. 

  1360. 	printk("\n");
    1361. 

  1361. 	if (count++ > 100)
    1362. 

  1362. 		panic("%s: Too many fatal errors.", dev->name);
    1363. 

  1363. 	printk(KERN_WARNING "%s: Resetting ...\n", dev->name);
    1364. 

  1364. 	/* Try to restart the adaptor. */
    1365. 

  1365. 	tc35815_restart(dev);
    1366. 

  1366. }
    1367. 

  1367. 

  1368. #ifdef TC35815_NAPI
    1369. 

  1369. static int tc35815_do_interrupt(struct net_device *dev, u32 status, int limit)
    1370. 

  1370. #else
    1371. 

  1371. static int tc35815_do_interrupt(struct net_device *dev, u32 status)
    1372. 

  1372. #endif
    1373. 

  1373. {
    1374. 

  1374. 	struct tc35815_local *lp = dev->priv;
    1375. 

  1375. 	struct tc35815_regs __iomem *tr =
    1376. 

  1376. 		(struct tc35815_regs __iomem *)dev->base_addr;
    1377. 

  1377. 	int ret = -1;
    1378. 

  1378. 

  1379. 	/* Fatal errors... */
    1380. 

  1380. 	if (status & FATAL_ERROR_INT) {
    1381. 

  1381. 		tc35815_fatal_error_interrupt(dev, status);
    1382. 

  1382. 		return 0;
    1383. 

  1383. 	}
    1384. 

  1384. 	/* recoverable errors */
    1385. 

  1385. 	if (status & Int_IntFDAEx) {
    1386. 

  1386. 		/* disable FDAEx int. (until we make rooms...) */
    1387. 

  1387. 		tc_writel(tc_readl(&tr->Int_En) & ~Int_FDAExEn, &tr->Int_En);
    1388. 

  1388. 		printk(KERN_WARNING
    1389. 

  1389. 		       "%s: Free Descriptor Area Exhausted (%#x).\n",
    1390. 

  1390. 		       dev->name, status);
    1391. 

  1391. 		lp->stats.rx_dropped++;
    1392. 

  1392. 		ret = 0;
    1393. 

  1393. 	}
    1394. 

  1394. 	if (status & Int_IntBLEx) {
    1395. 

  1395. 		/* disable BLEx int. (until we make rooms...) */
    1396. 

  1396. 		tc_writel(tc_readl(&tr->Int_En) & ~Int_BLExEn, &tr->Int_En);
    1397. 

  1397. 		printk(KERN_WARNING
    1398. 

  1398. 		       "%s: Buffer List Exhausted (%#x).\n",
    1399. 

  1399. 		       dev->name, status);
    1400. 

  1400. 		lp->stats.rx_dropped++;
    1401. 

  1401. 		ret = 0;
    1402. 

  1402. 	}
    1403. 

  1403. 	if (status & Int_IntExBD) {
    1404. 

  1404. 		printk(KERN_WARNING
    1405. 

  1405. 		       "%s: Excessive Buffer Descriptiors (%#x).\n",
    1406. 

  1406. 		       dev->name, status);
    1407. 

  1407. 		lp->stats.rx_length_errors++;
    1408. 

  1408. 		ret = 0;
    1409. 

  1409. 	}
    1410. 

  1410. 

  1411. 	/* normal notification */
    1412. 

  1412. 	if (status & Int_IntMacRx) {
    1413. 

  1413. 		/* Got a packet(s). */
    1414. 

  1414. #ifdef TC35815_NAPI
    1415. 

  1415. 		ret = tc35815_rx(dev, limit);
    1416. 

  1416. #else
    1417. 

  1417. 		tc35815_rx(dev);
    1418. 

  1418. 		ret = 0;
    1419. 

  1419. #endif
    1420. 

  1420. 		lp->lstats.rx_ints++;
    1421. 

  1421. 	}
    1422. 

  1422. 	if (status & Int_IntMacTx) {
    1423. 

  1423. 		/* Transmit complete. */
    1424. 

  1424. 		lp->lstats.tx_ints++;
    1425. 

  1425. 		tc35815_txdone(dev);
    1426. 

  1426. 		netif_wake_queue(dev);
    1427. 

  1427. 		ret = 0;
    1428. 

  1428. 	}
    1429. 

  1429. 	return ret;
    1430. 

  1430. }
    1431. 

  1431. 

  1432. /*
    1433. 

  1433.  * The typical workload of the driver:
    1434. 

  1434.  * Handle the network interface interrupts.
    1435. 

  1435.  */
    1436. 

  1436. static irqreturn_t tc35815_interrupt(int irq, void *dev_id)
    1437. 

  1437. {
    1438. 

  1438. 	struct net_device *dev = dev_id;
    1439. 

  1439. 	struct tc35815_regs __iomem *tr =
    1440. 

  1440. 		(struct tc35815_regs __iomem *)dev->base_addr;
    1441. 

  1441. #ifdef TC35815_NAPI
    1442. 

  1442. 	u32 dmactl = tc_readl(&tr->DMA_Ctl);
    1443. 

  1443. 

  1444. 	if (!(dmactl & DMA_IntMask)) {
    1445. 

  1445. 		/* disable interrupts */
    1446. 

  1446. 		tc_writel(dmactl | DMA_IntMask, &tr->DMA_Ctl);
    1447. 

  1447. 		if (netif_rx_schedule_prep(dev))
    1448. 

  1448. 			__netif_rx_schedule(dev);
    1449. 

  1449. 		else {
    1450. 

  1450. 			printk(KERN_ERR "%s: interrupt taken in poll\n",
    1451. 

  1451. 			       dev->name);
    1452. 

  1452. 			BUG();
    1453. 

  1453. 		}
    1454. 

  1454. 		(void)tc_readl(&tr->Int_Src);	/* flush */
    1455. 

  1455. 		return IRQ_HANDLED;
    1456. 

  1456. 	}
    1457. 

  1457. 	return IRQ_NONE;
    1458. 

  1458. #else
    1459. 

  1459. 	struct tc35815_local *lp = dev->priv;
    1460. 

  1460. 	int handled;
    1461. 

  1461. 	u32 status;
    1462. 

  1462. 

  1463. 	spin_lock(&lp->lock);
    1464. 

  1464. 	status = tc_readl(&tr->Int_Src);
    1465. 

  1465. 	tc_writel(status, &tr->Int_Src);	/* write to clear */
    1466. 

  1466. 	handled = tc35815_do_interrupt(dev, status);
    1467. 

  1467. 	(void)tc_readl(&tr->Int_Src);	/* flush */
    1468. 

  1468. 	spin_unlock(&lp->lock);
    1469. 

  1469. 	return IRQ_RETVAL(handled >= 0);
    1470. 

  1470. #endif /* TC35815_NAPI */
    1471. 

  1471. }
    1472. 

  1472. 

  1473. #ifdef CONFIG_NET_POLL_CONTROLLER
    1474. 

  1474. static void tc35815_poll_controller(struct net_device *dev)
    1475. 

  1475. {
    1476. 

  1476. 	disable_irq(dev->irq);
    1477. 

  1477. 	tc35815_interrupt(dev->irq, dev);
    1478. 

  1478. 	enable_irq(dev->irq);
    1479. 

  1479. }
    1480. 

  1480. #endif
    1481. 

  1481. 

  1482. /* We have a good packet(s), get it/them out of the buffers. */
    1483. 

  1483. #ifdef TC35815_NAPI
    1484. 

  1484. static int
    1485. 

  1485. tc35815_rx(struct net_device *dev, int limit)
    1486. 

  1486. #else
    1487. 

  1487. static void
    1488. 

  1488. tc35815_rx(struct net_device *dev)
    1489. 

  1489. #endif
    1490. 

  1490. {
    1491. 

  1491. 	struct tc35815_local *lp = dev->priv;
    1492. 

  1492. 	unsigned int fdctl;
    1493. 

  1493. 	int i;
    1494. 

  1494. 	int buf_free_count = 0;
    1495. 

  1495. 	int fd_free_count = 0;
    1496. 

  1496. #ifdef TC35815_NAPI
    1497. 

  1497. 	int received = 0;
    1498. 

  1498. #endif
    1499. 

  1499. 

  1500. 	while (!((fdctl = le32_to_cpu(lp->rfd_cur->fd.FDCtl)) & FD_CownsFD)) {
    1501. 

  1501. 		int status = le32_to_cpu(lp->rfd_cur->fd.FDStat);
    1502. 

  1502. 		int pkt_len = fdctl & FD_FDLength_MASK;
    1503. 

  1503. 		int bd_count = (fdctl & FD_BDCnt_MASK) >> FD_BDCnt_SHIFT;
    1504. 

  1504. #ifdef DEBUG
    1505. 

  1505. 		struct RxFD *next_rfd;
    1506. 

  1506. #endif
    1507. 

  1507. #if (RX_CTL_CMD & Rx_StripCRC) == 0
    1508. 

  1508. 		pkt_len -= 4;
    1509. 

  1509. #endif
    1510. 

  1510. 

  1511. 		if (netif_msg_rx_status(lp))
    1512. 

  1512. 			dump_rxfd(lp->rfd_cur);
    1513. 

  1513. 		if (status & Rx_Good) {
    1514. 

  1514. 			struct sk_buff *skb;
    1515. 

  1515. 			unsigned char *data;
    1516. 

  1516. 			int cur_bd;
    1517. 

  1517. #ifdef TC35815_USE_PACKEDBUFFER
    1518. 

  1518. 			int offset;
    1519. 

  1519. #endif
    1520. 

  1520. 

  1521. #ifdef TC35815_NAPI
    1522. 

  1522. 			if (--limit < 0)
    1523. 

  1523. 				break;
    1524. 

  1524. #endif
    1525. 

  1525. #ifdef TC35815_USE_PACKEDBUFFER
    1526. 

  1526. 			BUG_ON(bd_count > 2);
    1527. 

  1527. 			skb = dev_alloc_skb(pkt_len + 2); /* +2: for reserve */
    1528. 

  1528. 			if (skb == NULL) {
    1529. 

  1529. 				printk(KERN_NOTICE "%s: Memory squeeze, dropping packet.\n",
    1530. 

  1530. 				       dev->name);
    1531. 

  1531. 				lp->stats.rx_dropped++;
    1532. 

  1532. 				break;
    1533. 

  1533. 			}
    1534. 

  1534. 			skb_reserve(skb, 2);   /* 16 bit alignment */
    1535. 

  1535. 

  1536. 			data = skb_put(skb, pkt_len);
    1537. 

  1537. 

  1538. 			/* copy from receive buffer */
    1539. 

  1539. 			cur_bd = 0;
    1540. 

  1540. 			offset = 0;
    1541. 

  1541. 			while (offset < pkt_len && cur_bd < bd_count) {
    1542. 

  1542. 				int len = le32_to_cpu(lp->rfd_cur->bd[cur_bd].BDCtl) &
    1543. 

  1543. 					BD_BuffLength_MASK;
    1544. 

  1544. 				dma_addr_t dma = le32_to_cpu(lp->rfd_cur->bd[cur_bd].BuffData);
    1545. 

  1545. 				void *rxbuf = rxbuf_bus_to_virt(lp, dma);
    1546. 

  1546. 				if (offset + len > pkt_len)
    1547. 

  1547. 					len = pkt_len - offset;
    1548. 

  1548. #ifdef TC35815_DMA_SYNC_ONDEMAND
    1549. 

  1549. 				pci_dma_sync_single_for_cpu(lp->pci_dev,
    1550. 

  1550. 							    dma, len,
    1551. 

  1551. 							    PCI_DMA_FROMDEVICE);
    1552. 

  1552. #endif
    1553. 

  1553. 				memcpy(data + offset, rxbuf, len);
    1554. 

  1554. #ifdef TC35815_DMA_SYNC_ONDEMAND
    1555. 

  1555. 				pci_dma_sync_single_for_device(lp->pci_dev,
    1556. 

  1556. 							       dma, len,
    1557. 

  1557. 							       PCI_DMA_FROMDEVICE);
    1558. 

  1558. #endif
    1559. 

  1559. 				offset += len;
    1560. 

  1560. 				cur_bd++;
    1561. 

  1561. 			}
    1562. 

  1562. #else /* TC35815_USE_PACKEDBUFFER */
    1563. 

  1563. 			BUG_ON(bd_count > 1);
    1564. 

  1564. 			cur_bd = (le32_to_cpu(lp->rfd_cur->bd[0].BDCtl)
    1565. 

  1565. 				  & BD_RxBDID_MASK) >> BD_RxBDID_SHIFT;
    1566. 

  1566. #ifdef DEBUG
    1567. 

  1567. 			if (cur_bd >= RX_BUF_NUM) {
    1568. 

  1568. 				printk("%s: invalid BDID.\n", dev->name);
    1569. 

  1569. 				panic_queues(dev);
    1570. 

  1570. 			}
    1571. 

  1571. 			BUG_ON(lp->rx_skbs[cur_bd].skb_dma !=
    1572. 

  1572. 			       (le32_to_cpu(lp->rfd_cur->bd[0].BuffData) & ~3));
    1573. 

  1573. 			if (!lp->rx_skbs[cur_bd].skb) {
    1574. 

  1574. 				printk("%s: NULL skb.\n", dev->name);
    1575. 

  1575. 				panic_queues(dev);
    1576. 

  1576. 			}
    1577. 

  1577. #else
    1578. 

  1578. 			BUG_ON(cur_bd >= RX_BUF_NUM);
    1579. 

  1579. #endif
    1580. 

  1580. 			skb = lp->rx_skbs[cur_bd].skb;
    1581. 

  1581. 			prefetch(skb->data);
    1582. 

  1582. 			lp->rx_skbs[cur_bd].skb = NULL;
    1583. 

  1583. 			lp->fbl_count--;
    1584. 

  1584. 			pci_unmap_single(lp->pci_dev,
    1585. 

  1585. 					 lp->rx_skbs[cur_bd].skb_dma,
    1586. 

  1586. 					 RX_BUF_SIZE, PCI_DMA_FROMDEVICE);
    1587. 

  1587. 			if (!HAVE_DMA_RXALIGN(lp))
    1588. 

  1588. 				memmove(skb->data, skb->data - 2, pkt_len);
    1589. 

  1589. 			data = skb_put(skb, pkt_len);
    1590. 

  1590. #endif /* TC35815_USE_PACKEDBUFFER */
    1591. 

  1591. 			if (netif_msg_pktdata(lp))
    1592. 

  1592. 				print_eth(data);
    1593. 

  1593. 			skb->protocol = eth_type_trans(skb, dev);
    1594. 

  1594. #ifdef TC35815_NAPI
    1595. 

  1595. 			netif_receive_skb(skb);
    1596. 

  1596. 			received++;
    1597. 

  1597. #else
    1598. 

  1598. 			netif_rx(skb);
    1599. 

  1599. #endif
    1600. 

  1600. 			dev->last_rx = jiffies;
    1601. 

  1601. 			lp->stats.rx_packets++;
    1602. 

  1602. 			lp->stats.rx_bytes += pkt_len;
    1603. 

  1603. 		} else {
    1604. 

  1604. 			lp->stats.rx_errors++;
    1605. 

  1605. 			printk(KERN_DEBUG "%s: Rx error (status %x)\n",
    1606. 

  1606. 			       dev->name, status & Rx_Stat_Mask);
    1607. 

  1607. 			/* WORKAROUND: LongErr and CRCErr means Overflow. */
    1608. 

  1608. 			if ((status & Rx_LongErr) && (status & Rx_CRCErr)) {
    1609. 

  1609. 				status &= ~(Rx_LongErr|Rx_CRCErr);
    1610. 

  1610. 				status |= Rx_Over;
    1611. 

  1611. 			}
    1612. 

  1612. 			if (status & Rx_LongErr) lp->stats.rx_length_errors++;
    1613. 

  1613. 			if (status & Rx_Over) lp->stats.rx_fifo_errors++;
    1614. 

  1614. 			if (status & Rx_CRCErr) lp->stats.rx_crc_errors++;
    1615. 

  1615. 			if (status & Rx_Align) lp->stats.rx_frame_errors++;
    1616. 

  1616. 		}
    1617. 

  1617. 

  1618. 		if (bd_count > 0) {
    1619. 

  1619. 			/* put Free Buffer back to controller */
    1620. 

  1620. 			int bdctl = le32_to_cpu(lp->rfd_cur->bd[bd_count - 1].BDCtl);
    1621. 

  1621. 			unsigned char id =
    1622. 

  1622. 				(bdctl & BD_RxBDID_MASK) >> BD_RxBDID_SHIFT;
    1623. 

  1623. #ifdef DEBUG
    1624. 

  1624. 			if (id >= RX_BUF_NUM) {
    1625. 

  1625. 				printk("%s: invalid BDID.\n", dev->name);
    1626. 

  1626. 				panic_queues(dev);
    1627. 

  1627. 			}
    1628. 

  1628. #else
    1629. 

  1629. 			BUG_ON(id >= RX_BUF_NUM);
    1630. 

  1630. #endif
    1631. 

  1631. 			/* free old buffers */
    1632. 

  1632. #ifdef TC35815_USE_PACKEDBUFFER
    1633. 

  1633. 			while (lp->fbl_curid != id)
    1634. 

  1634. #else
    1635. 

  1635. 			while (lp->fbl_count < RX_BUF_NUM)
    1636. 

  1636. #endif
    1637. 

  1637. 			{
    1638. 

  1638. #ifdef TC35815_USE_PACKEDBUFFER
    1639. 

  1639. 				unsigned char curid = lp->fbl_curid;
    1640. 

  1640. #else
    1641. 

  1641. 				unsigned char curid =
    1642. 

  1642. 					(id + 1 + lp->fbl_count) % RX_BUF_NUM;
    1643. 

  1643. #endif
    1644. 

  1644. 				struct BDesc *bd = &lp->fbl_ptr->bd[curid];
    1645. 

  1645. #ifdef DEBUG
    1646. 

  1646. 				bdctl = le32_to_cpu(bd->BDCtl);
    1647. 

  1647. 				if (bdctl & BD_CownsBD) {
    1648. 

  1648. 					printk("%s: Freeing invalid BD.\n",
    1649. 

  1649. 					       dev->name);
    1650. 

  1650. 					panic_queues(dev);
    1651. 

  1651. 				}
    1652. 

  1652. #endif
    1653. 

  1653. 				/* pass BD to controler */
    1654. 

  1654. #ifndef TC35815_USE_PACKEDBUFFER
    1655. 

  1655. 				if (!lp->rx_skbs[curid].skb) {
    1656. 

  1656. 					lp->rx_skbs[curid].skb =
    1657. 

  1657. 						alloc_rxbuf_skb(dev,
    1658. 

  1658. 								lp->pci_dev,
    1659. 

  1659. 								&lp->rx_skbs[curid].skb_dma);
    1660. 

  1660. 					if (!lp->rx_skbs[curid].skb)
    1661. 

  1661. 						break; /* try on next reception */
    1662. 

  1662. 					bd->BuffData = cpu_to_le32(lp->rx_skbs[curid].skb_dma);
    1663. 

  1663. 				}
    1664. 

  1664. #endif /* TC35815_USE_PACKEDBUFFER */
    1665. 

  1665. 				/* Note: BDLength was modified by chip. */
    1666. 

  1666. 				bd->BDCtl = cpu_to_le32(BD_CownsBD |
    1667. 

  1667. 							(curid << BD_RxBDID_SHIFT) |
    1668. 

  1668. 							RX_BUF_SIZE);
    1669. 

  1669. #ifdef TC35815_USE_PACKEDBUFFER
    1670. 

  1670. 				lp->fbl_curid = (curid + 1) % RX_BUF_NUM;
    1671. 

  1671. 				if (netif_msg_rx_status(lp)) {
    1672. 

  1672. 					printk("%s: Entering new FBD %d\n",
    1673. 

  1673. 					       dev->name, lp->fbl_curid);
    1674. 

  1674. 					dump_frfd(lp->fbl_ptr);
    1675. 

  1675. 				}
    1676. 

  1676. #else
    1677. 

  1677. 				lp->fbl_count++;
    1678. 

  1678. #endif
    1679. 

  1679. 				buf_free_count++;
    1680. 

  1680. 			}
    1681. 

  1681. 		}
    1682. 

  1682. 

  1683. 		/* put RxFD back to controller */
    1684. 

  1684. #ifdef DEBUG
    1685. 

  1685. 		next_rfd = fd_bus_to_virt(lp,
    1686. 

  1686. 					  le32_to_cpu(lp->rfd_cur->fd.FDNext));
    1687. 

  1687. 		if (next_rfd < lp->rfd_base || next_rfd > lp->rfd_limit) {
    1688. 

  1688. 			printk("%s: RxFD FDNext invalid.\n", dev->name);
    1689. 

  1689. 			panic_queues(dev);
    1690. 

  1690. 		}
    1691. 

  1691. #endif
    1692. 

  1692. 		for (i = 0; i < (bd_count + 1) / 2 + 1; i++) {
    1693. 

  1693. 			/* pass FD to controler */
    1694. 

  1694. #ifdef DEBUG
    1695. 

  1695. 			lp->rfd_cur->fd.FDNext = cpu_to_le32(0xdeaddead);
    1696. 

  1696. #else
    1697. 

  1697. 			lp->rfd_cur->fd.FDNext = cpu_to_le32(FD_Next_EOL);
    1698. 

  1698. #endif
    1699. 

  1699. 			lp->rfd_cur->fd.FDCtl = cpu_to_le32(FD_CownsFD);
    1700. 

  1700. 			lp->rfd_cur++;
    1701. 

  1701. 			fd_free_count++;
    1702. 

  1702. 		}
    1703. 

  1703. 		if (lp->rfd_cur > lp->rfd_limit)
    1704. 

  1704. 			lp->rfd_cur = lp->rfd_base;
    1705. 

  1705. #ifdef DEBUG
    1706. 

  1706. 		if (lp->rfd_cur != next_rfd)
    1707. 

  1707. 			printk("rfd_cur = %p, next_rfd %p\n",
    1708. 

  1708. 			       lp->rfd_cur, next_rfd);
    1709. 

  1709. #endif
    1710. 

  1710. 	}
    1711. 

  1711. 

  1712. 	/* re-enable BL/FDA Exhaust interrupts. */
    1713. 

  1713. 	if (fd_free_count) {
    1714. 

  1714. 		struct tc35815_regs __iomem *tr =
    1715. 

  1715. 			(struct tc35815_regs __iomem *)dev->base_addr;
    1716. 

  1716. 		u32 en, en_old = tc_readl(&tr->Int_En);
    1717. 

  1717. 		en = en_old | Int_FDAExEn;
    1718. 

  1718. 		if (buf_free_count)
    1719. 

  1719. 			en |= Int_BLExEn;
    1720. 

  1720. 		if (en != en_old)
    1721. 

  1721. 			tc_writel(en, &tr->Int_En);
    1722. 

  1722. 	}
    1723. 

  1723. #ifdef TC35815_NAPI
    1724. 

  1724. 	return received;
    1725. 

  1725. #endif
    1726. 

  1726. }
    1727. 

  1727. 

  1728. #ifdef TC35815_NAPI
    1729. 

  1729. static int
    1730. 

  1730. tc35815_poll(struct net_device *dev, int *budget)
    1731. 

  1731. {
    1732. 

  1732. 	struct tc35815_local *lp = dev->priv;
    1733. 

  1733. 	struct tc35815_regs __iomem *tr =
    1734. 

  1734. 		(struct tc35815_regs __iomem *)dev->base_addr;
    1735. 

  1735. 	int limit = min(*budget, dev->quota);
    1736. 

  1736. 	int received = 0, handled;
    1737. 

  1737. 	u32 status;
    1738. 

  1738. 

  1739. 	spin_lock(&lp->lock);
    1740. 

  1740. 	status = tc_readl(&tr->Int_Src);
    1741. 

  1741. 	do {
    1742. 

  1742. 		tc_writel(status, &tr->Int_Src);	/* write to clear */
    1743. 

  1743. 

  1744. 		handled = tc35815_do_interrupt(dev, status, limit);
    1745. 

  1745. 		if (handled >= 0) {
    1746. 

  1746. 			received += handled;
    1747. 

  1747. 			limit -= handled;
    1748. 

  1748. 			if (limit <= 0)
    1749. 

  1749. 				break;
    1750. 

  1750. 		}
    1751. 

  1751. 		status = tc_readl(&tr->Int_Src);
    1752. 

  1752. 	} while (status);
    1753. 

  1753. 	spin_unlock(&lp->lock);
    1754. 

  1754. 

  1755. 	dev->quota -= received;
    1756. 

  1756. 	*budget -= received;
    1757. 

  1757. 	if (limit <= 0)
    1758. 

  1758. 		return 1;
    1759. 

  1759. 

  1760. 	netif_rx_complete(dev);
    1761. 

  1761. 	/* enable interrupts */
    1762. 

  1762. 	tc_writel(tc_readl(&tr->DMA_Ctl) & ~DMA_IntMask, &tr->DMA_Ctl);
    1763. 

  1763. 	return 0;
    1764. 

  1764. }
    1765. 

  1765. #endif
    1766. 

  1766. 

  1767. #ifdef NO_CHECK_CARRIER
    1768. 

  1768. #define TX_STA_ERR	(Tx_ExColl|Tx_Under|Tx_Defer|Tx_LateColl|Tx_TxPar|Tx_SQErr)
    1769. 

  1769. #else
    1770. 

  1770. #define TX_STA_ERR	(Tx_ExColl|Tx_Under|Tx_Defer|Tx_NCarr|Tx_LateColl|Tx_TxPar|Tx_SQErr)
    1771. 

  1771. #endif
    1772. 

  1772. 

  1773. static void
    1774. 

  1774. tc35815_check_tx_stat(struct net_device *dev, int status)
    1775. 

  1775. {
    1776. 

  1776. 	struct tc35815_local *lp = dev->priv;
    1777. 

  1777. 	const char *msg = NULL;
    1778. 

  1778. 

  1779. 	/* count collisions */
    1780. 

  1780. 	if (status & Tx_ExColl)
    1781. 

  1781. 		lp->stats.collisions += 16;
    1782. 

  1782. 	if (status & Tx_TxColl_MASK)
    1783. 

  1783. 		lp->stats.collisions += status & Tx_TxColl_MASK;
    1784. 

  1784. 

  1785. #ifndef NO_CHECK_CARRIER
    1786. 

  1786. 	/* TX4939 does not have NCarr */
    1787. 

  1787. 	if (lp->boardtype == TC35815_TX4939)
    1788. 

  1788. 		status &= ~Tx_NCarr;
    1789. 

  1789. #ifdef WORKAROUND_LOSTCAR
    1790. 

  1790. 	/* WORKAROUND: ignore LostCrS in full duplex operation */
    1791. 

  1791. 	if ((lp->timer_state != asleep && lp->timer_state != lcheck)
    1792. 

  1792. 	    || lp->fullduplex)
    1793. 

  1793. 		status &= ~Tx_NCarr;
    1794. 

  1794. #endif
    1795. 

  1795. #endif
    1796. 

  1796. 

  1797. 	if (!(status & TX_STA_ERR)) {
    1798. 

  1798. 		/* no error. */
    1799. 

  1799. 		lp->stats.tx_packets++;
    1800. 

  1800. 		return;
    1801. 

  1801. 	}
    1802. 

  1802. 

  1803. 	lp->stats.tx_errors++;
    1804. 

  1804. 	if (status & Tx_ExColl) {
    1805. 

  1805. 		lp->stats.tx_aborted_errors++;
    1806. 

  1806. 		msg = "Excessive Collision.";
    1807. 

  1807. 	}
    1808. 

  1808. 	if (status & Tx_Under) {
    1809. 

  1809. 		lp->stats.tx_fifo_errors++;
    1810. 

  1810. 		msg = "Tx FIFO Underrun.";
    1811. 

  1811. 		if (lp->lstats.tx_underrun < TX_THRESHOLD_KEEP_LIMIT) {
    1812. 

  1812. 			lp->lstats.tx_underrun++;
    1813. 

  1813. 			if (lp->lstats.tx_underrun >= TX_THRESHOLD_KEEP_LIMIT) {
    1814. 

  1814. 				struct tc35815_regs __iomem *tr =
    1815. 

  1815. 					(struct tc35815_regs __iomem *)dev->base_addr;
    1816. 

  1816. 				tc_writel(TX_THRESHOLD_MAX, &tr->TxThrsh);
    1817. 

  1817. 				msg = "Tx FIFO Underrun.Change Tx threshold to max.";
    1818. 

  1818. 			}
    1819. 

  1819. 		}
    1820. 

  1820. 	}
    1821. 

  1821. 	if (status & Tx_Defer) {
    1822. 

  1822. 		lp->stats.tx_fifo_errors++;
    1823. 

  1823. 		msg = "Excessive Deferral.";
    1824. 

  1824. 	}
    1825. 

  1825. #ifndef NO_CHECK_CARRIER
    1826. 

  1826. 	if (status & Tx_NCarr) {
    1827. 

  1827. 		lp->stats.tx_carrier_errors++;
    1828. 

  1828. 		msg = "Lost Carrier Sense.";
    1829. 

  1829. 	}
    1830. 

  1830. #endif
    1831. 

  1831. 	if (status & Tx_LateColl) {
    1832. 

  1832. 		lp->stats.tx_aborted_errors++;
    1833. 

  1833. 		msg = "Late Collision.";
    1834. 

  1834. 	}
    1835. 

  1835. 	if (status & Tx_TxPar) {
    1836. 

  1836. 		lp->stats.tx_fifo_errors++;
    1837. 

  1837. 		msg = "Transmit Parity Error.";
    1838. 

  1838. 	}
    1839. 

  1839. 	if (status & Tx_SQErr) {
    1840. 

  1840. 		lp->stats.tx_heartbeat_errors++;
    1841. 

  1841. 		msg = "Signal Quality Error.";
    1842. 

  1842. 	}
    1843. 

  1843. 	if (msg && netif_msg_tx_err(lp))
    1844. 

  1844. 		printk(KERN_WARNING "%s: %s (%#x)\n", dev->name, msg, status);
    1845. 

  1845. }
    1846. 

  1846. 

  1847. /* This handles TX complete events posted by the device
    1848. 

  1848.  * via interrupts.
    1849. 

  1849.  */
    1850. 

  1850. static void
    1851. 

  1851. tc35815_txdone(struct net_device *dev)
    1852. 

  1852. {
    1853. 

  1853. 	struct tc35815_local *lp = dev->priv;
    1854. 

  1854. 	struct TxFD *txfd;
    1855. 

  1855. 	unsigned int fdctl;
    1856. 

  1856. 

  1857. 	txfd = &lp->tfd_base[lp->tfd_end];
    1858. 

  1858. 	while (lp->tfd_start != lp->tfd_end &&
    1859. 

  1859. 	       !((fdctl = le32_to_cpu(txfd->fd.FDCtl)) & FD_CownsFD)) {
    1860. 

  1860. 		int status = le32_to_cpu(txfd->fd.FDStat);
    1861. 

  1861. 		struct sk_buff *skb;
    1862. 

  1862. 		unsigned long fdnext = le32_to_cpu(txfd->fd.FDNext);
    1863. 

  1863. 		u32 fdsystem = le32_to_cpu(txfd->fd.FDSystem);
    1864. 

  1864. 

  1865. 		if (netif_msg_tx_done(lp)) {
    1866. 

  1866. 			printk("%s: complete TxFD.\n", dev->name);
    1867. 

  1867. 			dump_txfd(txfd);
    1868. 

  1868. 		}
    1869. 

  1869. 		tc35815_check_tx_stat(dev, status);
    1870. 

  1870. 

  1871. 		skb = fdsystem != 0xffffffff ?
    1872. 

  1872. 			lp->tx_skbs[fdsystem].skb : NULL;
    1873. 

  1873. #ifdef DEBUG
    1874. 

  1874. 		if (lp->tx_skbs[lp->tfd_end].skb != skb) {
    1875. 

  1875. 			printk("%s: tx_skbs mismatch.\n", dev->name);
    1876. 

  1876. 			panic_queues(dev);
    1877. 

  1877. 		}
    1878. 

  1878. #else
    1879. 

  1879. 		BUG_ON(lp->tx_skbs[lp->tfd_end].skb != skb);
    1880. 

  1880. #endif
    1881. 

  1881. 		if (skb) {
    1882. 

  1882. 			lp->stats.tx_bytes += skb->len;
    1883. 

  1883. 			pci_unmap_single(lp->pci_dev, lp->tx_skbs[lp->tfd_end].skb_dma, skb->len, PCI_DMA_TODEVICE);
    1884. 

  1884. 			lp->tx_skbs[lp->tfd_end].skb = NULL;
    1885. 

  1885. 			lp->tx_skbs[lp->tfd_end].skb_dma = 0;
    1886. 

  1886. #ifdef TC35815_NAPI
    1887. 

  1887. 			dev_kfree_skb_any(skb);
    1888. 

  1888. #else
    1889. 

  1889. 			dev_kfree_skb_irq(skb);
    1890. 

  1890. #endif
    1891. 

  1891. 		}
    1892. 

  1892. 		txfd->fd.FDSystem = cpu_to_le32(0xffffffff);
    1893. 

  1893. 

  1894. 		lp->tfd_end = (lp->tfd_end + 1) % TX_FD_NUM;
    1895. 

  1895. 		txfd = &lp->tfd_base[lp->tfd_end];
    1896. 

  1896. #ifdef DEBUG
    1897. 

  1897. 		if ((fdnext & ~FD_Next_EOL) != fd_virt_to_bus(lp, txfd)) {
    1898. 

  1898. 			printk("%s: TxFD FDNext invalid.\n", dev->name);
    1899. 

  1899. 			panic_queues(dev);
    1900. 

  1900. 		}
    1901. 

  1901. #endif
    1902. 

  1902. 		if (fdnext & FD_Next_EOL) {
    1903. 

  1903. 			/* DMA Transmitter has been stopping... */
    1904. 

  1904. 			if (lp->tfd_end != lp->tfd_start) {
    1905. 

  1905. 				struct tc35815_regs __iomem *tr =
    1906. 

  1906. 					(struct tc35815_regs __iomem *)dev->base_addr;
    1907. 

  1907. 				int head = (lp->tfd_start + TX_FD_NUM - 1) % TX_FD_NUM;
    1908. 

  1908. 				struct TxFD* txhead = &lp->tfd_base[head];
    1909. 

  1909. 				int qlen = (lp->tfd_start + TX_FD_NUM
    1910. 

  1910. 					    - lp->tfd_end) % TX_FD_NUM;
    1911. 

  1911. 

  1912. #ifdef DEBUG
    1913. 

  1913. 				if (!(le32_to_cpu(txfd->fd.FDCtl) & FD_CownsFD)) {
    1914. 

  1914. 					printk("%s: TxFD FDCtl invalid.\n", dev->name);
    1915. 

  1915. 					panic_queues(dev);
    1916. 

  1916. 				}
    1917. 

  1917. #endif
    1918. 

  1918. 				/* log max queue length */
    1919. 

  1919. 				if (lp->lstats.max_tx_qlen < qlen)
    1920. 

  1920. 					lp->lstats.max_tx_qlen = qlen;
    1921. 

  1921. 

  1922. 

  1923. 				/* start DMA Transmitter again */
    1924. 

  1924. 				txhead->fd.FDNext |= cpu_to_le32(FD_Next_EOL);
    1925. 

  1925. #ifdef GATHER_TXINT
    1926. 

  1926. 				txhead->fd.FDCtl |= cpu_to_le32(FD_FrmOpt_IntTx);
    1927. 

  1927. #endif
    1928. 

  1928. 				if (netif_msg_tx_queued(lp)) {
    1929. 

  1929. 					printk("%s: start TxFD on queue.\n",
    1930. 

  1930. 					       dev->name);
    1931. 

  1931. 					dump_txfd(txfd);
    1932. 

  1932. 				}
    1933. 

  1933. 				tc_writel(fd_virt_to_bus(lp, txfd), &tr->TxFrmPtr);
    1934. 

  1934. 			}
    1935. 

  1935. 			break;
    1936. 

  1936. 		}
    1937. 

  1937. 	}
    1938. 

  1938. 

  1939. 	/* If we had stopped the queue due to a "tx full"
    1940. 

  1940. 	 * condition, and space has now been made available,
    1941. 

  1941. 	 * wake up the queue.
    1942. 

  1942. 	 */
    1943. 

  1943. 	if (netif_queue_stopped(dev) && ! tc35815_tx_full(dev))
    1944. 

  1944. 		netif_wake_queue(dev);
    1945. 

  1945. }
    1946. 

  1946. 

  1947. /* The inverse routine to tc35815_open(). */
    1948. 

  1948. static int
    1949. 

  1949. tc35815_close(struct net_device *dev)
    1950. 

  1950. {
    1951. 

  1951. 	struct tc35815_local *lp = dev->priv;
    1952. 

  1952. 	netif_stop_queue(dev);
    1953. 

  1953. 

  1954. 	/* Flush the Tx and disable Rx here. */
    1955. 

  1955. 

  1956. 	del_timer(&lp->timer);		/* Kill if running	*/
    1957. 

  1957. 	tc35815_chip_reset(dev);
    1958. 

  1958. 	free_irq(dev->irq, dev);
    1959. 

  1959. 

  1960. 	tc35815_free_queues(dev);
    1961. 

  1961. 

  1962. 	return 0;
    1963. 

  1963. 

  1964. }
    1965. 

  1965. 

  1966. /*
    1967. 

  1967.  * Get the current statistics.
    1968. 

  1968.  * This may be called with the card open or closed.
    1969. 

  1969.  */
    1970. 

  1970. static struct net_device_stats *tc35815_get_stats(struct net_device *dev)
    1971. 

  1971. {
    1972. 

  1972. 	struct tc35815_local *lp = dev->priv;
    1973. 

  1973. 	struct tc35815_regs __iomem *tr =
    1974. 

  1974. 		(struct tc35815_regs __iomem *)dev->base_addr;
    1975. 

  1975. 	if (netif_running(dev)) {
    1976. 

  1976. 		/* Update the statistics from the device registers. */
    1977. 

  1977. 		lp->stats.rx_missed_errors = tc_readl(&tr->Miss_Cnt);
    1978. 

  1978. 	}
    1979. 

  1979. 

  1980. 	return &lp->stats;
    1981. 

  1981. }
    1982. 

  1982. 

  1983. static void tc35815_set_cam_entry(struct net_device *dev, int index, unsigned char *addr)
    1984. 

  1984. {
    1985. 

  1985. 	struct tc35815_local *lp = dev->priv;
    1986. 

  1986. 	struct tc35815_regs __iomem *tr =
    1987. 

  1987. 		(struct tc35815_regs __iomem *)dev->base_addr;
    1988. 

  1988. 	int cam_index = index * 6;
    1989. 

  1989. 	u32 cam_data;
    1990. 

  1990. 	u32 saved_addr;
    1991. 

  1991. 	saved_addr = tc_readl(&tr->CAM_Adr);
    1992. 

  1992. 

  1993. 	if (netif_msg_hw(lp)) {
    1994. 

  1994. 		int i;
    1995. 

  1995. 		printk(KERN_DEBUG "%s: CAM %d:", dev->name, index);
    1996. 

  1996. 		for (i = 0; i < 6; i++)
    1997. 

  1997. 			printk(" %02x", addr[i]);
    1998. 

  1998. 		printk("\n");
    1999. 

  1999. 	}
    2000. 

  2000. 	if (index & 1) {
    2001. 

  2001. 		/* read modify write */
    2002. 

  2002. 		tc_writel(cam_index - 2, &tr->CAM_Adr);
    2003. 

  2003. 		cam_data = tc_readl(&tr->CAM_Data) & 0xffff0000;
    2004. 

  2004. 		cam_data |= addr[0] << 8 | addr[1];
    2005. 

  2005. 		tc_writel(cam_data, &tr->CAM_Data);
    2006. 

  2006. 		/* write whole word */
    2007. 

  2007. 		tc_writel(cam_index + 2, &tr->CAM_Adr);
    2008. 

  2008. 		cam_data = (addr[2] << 24) | (addr[3] << 16) | (addr[4] << 8) | addr[5];
    2009. 

  2009. 		tc_writel(cam_data, &tr->CAM_Data);
    2010. 

  2010. 	} else {
    2011. 

  2011. 		/* write whole word */
    2012. 

  2012. 		tc_writel(cam_index, &tr->CAM_Adr);
    2013. 

  2013. 		cam_data = (addr[0] << 24) | (addr[1] << 16) | (addr[2] << 8) | addr[3];
    2014. 

  2014. 		tc_writel(cam_data, &tr->CAM_Data);
    2015. 

  2015. 		/* read modify write */
    2016. 

  2016. 		tc_writel(cam_index + 4, &tr->CAM_Adr);
    2017. 

  2017. 		cam_data = tc_readl(&tr->CAM_Data) & 0x0000ffff;
    2018. 

  2018. 		cam_data |= addr[4] << 24 | (addr[5] << 16);
    2019. 

  2019. 		tc_writel(cam_data, &tr->CAM_Data);
    2020. 

  2020. 	}
    2021. 

  2021. 

  2022. 	tc_writel(saved_addr, &tr->CAM_Adr);
    2023. 

  2023. }
    2024. 

  2024. 

  2025. 

  2026. /*
    2027. 

  2027.  * Set or clear the multicast filter for this adaptor.
    2028. 

  2028.  * num_addrs == -1	Promiscuous mode, receive all packets
    2029. 

  2029.  * num_addrs == 0	Normal mode, clear multicast list
    2030. 

  2030.  * num_addrs > 0	Multicast mode, receive normal and MC packets,
    2031. 

  2031.  *			and do best-effort filtering.
    2032. 

  2032.  */
    2033. 

  2033. static void
    2034. 

  2034. tc35815_set_multicast_list(struct net_device *dev)
    2035. 

  2035. {
    2036. 

  2036. 	struct tc35815_regs __iomem *tr =
    2037. 

  2037. 		(struct tc35815_regs __iomem *)dev->base_addr;
    2038. 

  2038. 

  2039. 	if (dev->flags&IFF_PROMISC)
    2040. 

  2040. 	{
    2041. 

  2041. #ifdef WORKAROUND_100HALF_PROMISC
    2042. 

  2042. 		/* With some (all?) 100MHalf HUB, controller will hang
    2043. 

  2043. 		 * if we enabled promiscuous mode before linkup... */
    2044. 

  2044. 		struct tc35815_local *lp = dev->priv;
    2045. 

  2045. 		int pid = lp->phy_addr;
    2046. 

  2046. 		if (!(tc_mdio_read(dev, pid, MII_BMSR) & BMSR_LSTATUS))
    2047. 

  2047. 			return;
    2048. 

  2048. #endif
    2049. 

  2049. 		/* Enable promiscuous mode */
    2050. 

  2050. 		tc_writel(CAM_CompEn | CAM_BroadAcc | CAM_GroupAcc | CAM_StationAcc, &tr->CAM_Ctl);
    2051. 

  2051. 	}
    2052. 

  2052. 	else if((dev->flags&IFF_ALLMULTI) || dev->mc_count > CAM_ENTRY_MAX - 3)
    2053. 

  2053. 	{
    2054. 

  2054. 		/* CAM 0, 1, 20 are reserved. */
    2055. 

  2055. 		/* Disable promiscuous mode, use normal mode. */
    2056. 

  2056. 		tc_writel(CAM_CompEn | CAM_BroadAcc | CAM_GroupAcc, &tr->CAM_Ctl);
    2057. 

  2057. 	}
    2058. 

  2058. 	else if(dev->mc_count)
    2059. 

  2059. 	{
    2060. 

  2060. 		struct dev_mc_list* cur_addr = dev->mc_list;
    2061. 

  2061. 		int i;
    2062. 

  2062. 		int ena_bits = CAM_Ena_Bit(CAM_ENTRY_SOURCE);
    2063. 

  2063. 

  2064. 		tc_writel(0, &tr->CAM_Ctl);
    2065. 

  2065. 		/* Walk the address list, and load the filter */
    2066. 

  2066. 		for (i = 0; i < dev->mc_count; i++, cur_addr = cur_addr->next) {
    2067. 

  2067. 			if (!cur_addr)
    2068. 

  2068. 				break;
    2069. 

  2069. 			/* entry 0,1 is reserved. */
    2070. 

  2070. 			tc35815_set_cam_entry(dev, i + 2, cur_addr->dmi_addr);
    2071. 

  2071. 			ena_bits |= CAM_Ena_Bit(i + 2);
    2072. 

  2072. 		}
    2073. 

  2073. 		tc_writel(ena_bits, &tr->CAM_Ena);
    2074. 

  2074. 		tc_writel(CAM_CompEn | CAM_BroadAcc, &tr->CAM_Ctl);
    2075. 

  2075. 	}
    2076. 

  2076. 	else {
    2077. 

  2077. 		tc_writel(CAM_Ena_Bit(CAM_ENTRY_SOURCE), &tr->CAM_Ena);
    2078. 

  2078. 		tc_writel(CAM_CompEn | CAM_BroadAcc, &tr->CAM_Ctl);
    2079. 

  2079. 	}
    2080. 

  2080. }
    2081. 

  2081. 

  2082. static void tc35815_get_drvinfo(struct net_device *dev, struct ethtool_drvinfo *info)
    2083. 

  2083. {
    2084. 

  2084. 	struct tc35815_local *lp = dev->priv;
    2085. 

  2085. 	strcpy(info->driver, MODNAME);
    2086. 

  2086. 	strcpy(info->version, DRV_VERSION);
    2087. 

  2087. 	strcpy(info->bus_info, pci_name(lp->pci_dev));
    2088. 

  2088. }
    2089. 

  2089. 

  2090. static int tc35815_get_settings(struct net_device *dev, struct ethtool_cmd *cmd)
    2091. 

  2091. {
    2092. 

  2092. 	struct tc35815_local *lp = dev->priv;
    2093. 

  2093. 	spin_lock_irq(&lp->lock);
    2094. 

  2094. 	mii_ethtool_gset(&lp->mii, cmd);
    2095. 

  2095. 	spin_unlock_irq(&lp->lock);
    2096. 

  2096. 	return 0;
    2097. 

  2097. }
    2098. 

  2098. 

  2099. static int tc35815_set_settings(struct net_device *dev, struct ethtool_cmd *cmd)
    2100. 

  2100. {
    2101. 

  2101. 	struct tc35815_local *lp = dev->priv;
    2102. 

  2102. 	int rc;
    2103. 

  2103. #if 1	/* use our negotiation method... */
    2104. 

  2104. 	/* Verify the settings we care about. */
    2105. 

  2105. 	if (cmd->autoneg != AUTONEG_ENABLE &&
    2106. 

  2106. 	    cmd->autoneg != AUTONEG_DISABLE)
    2107. 

  2107. 		return -EINVAL;
    2108. 

  2108. 	if (cmd->autoneg == AUTONEG_DISABLE &&
    2109. 

  2109. 	    ((cmd->speed != SPEED_100 &&
    2110. 

  2110. 	      cmd->speed != SPEED_10) ||
    2111. 

  2111. 	     (cmd->duplex != DUPLEX_HALF &&
    2112. 

  2112. 	      cmd->duplex != DUPLEX_FULL)))
    2113. 

  2113. 		return -EINVAL;
    2114. 

  2114. 

  2115. 	/* Ok, do it to it. */
    2116. 

  2116. 	spin_lock_irq(&lp->lock);
    2117. 

  2117. 	del_timer(&lp->timer);
    2118. 

  2118. 	tc35815_start_auto_negotiation(dev, cmd);
    2119. 

  2119. 	spin_unlock_irq(&lp->lock);
    2120. 

  2120. 	rc = 0;
    2121. 

  2121. #else
    2122. 

  2122. 	spin_lock_irq(&lp->lock);
    2123. 

  2123. 	rc = mii_ethtool_sset(&lp->mii, cmd);
    2124. 

  2124. 	spin_unlock_irq(&lp->lock);
    2125. 

  2125. #endif
    2126. 

  2126. 	return rc;
    2127. 

  2127. }
    2128. 

  2128. 

  2129. static int tc35815_nway_reset(struct net_device *dev)
    2130. 

  2130. {
    2131. 

  2131. 	struct tc35815_local *lp = dev->priv;
    2132. 

  2132. 	int rc;
    2133. 

  2133. 	spin_lock_irq(&lp->lock);
    2134. 

  2134. 	rc = mii_nway_restart(&lp->mii);
    2135. 

  2135. 	spin_unlock_irq(&lp->lock);
    2136. 

  2136. 	return rc;
    2137. 

  2137. }
    2138. 

  2138. 

  2139. static u32 tc35815_get_link(struct net_device *dev)
    2140. 

  2140. {
    2141. 

  2141. 	struct tc35815_local *lp = dev->priv;
    2142. 

  2142. 	int rc;
    2143. 

  2143. 	spin_lock_irq(&lp->lock);
    2144. 

  2144. 	rc = mii_link_ok(&lp->mii);
    2145. 

  2145. 	spin_unlock_irq(&lp->lock);
    2146. 

  2146. 	return rc;
    2147. 

  2147. }
    2148. 

  2148. 

  2149. static u32 tc35815_get_msglevel(struct net_device *dev)
    2150. 

  2150. {
    2151. 

  2151. 	struct tc35815_local *lp = dev->priv;
    2152. 

  2152. 	return lp->msg_enable;
    2153. 

  2153. }
    2154. 

  2154. 

  2155. static void tc35815_set_msglevel(struct net_device *dev, u32 datum)
    2156. 

  2156. {
    2157. 

  2157. 	struct tc35815_local *lp = dev->priv;
    2158. 

  2158. 	lp->msg_enable = datum;
    2159. 

  2159. }
    2160. 

  2160. 

  2161. static int tc35815_get_stats_count(struct net_device *dev)
    2162. 

  2162. {
    2163. 

  2163. 	struct tc35815_local *lp = dev->priv;
    2164. 

  2164. 	return sizeof(lp->lstats) / sizeof(int);
    2165. 

  2165. }
    2166. 

  2166. 

  2167. static void tc35815_get_ethtool_stats(struct net_device *dev, struct ethtool_stats *stats, u64 *data)
    2168. 

  2168. {
    2169. 

  2169. 	struct tc35815_local *lp = dev->priv;
    2170. 

  2170. 	data[0] = lp->lstats.max_tx_qlen;
    2171. 

  2171. 	data[1] = lp->lstats.tx_ints;
    2172. 

  2172. 	data[2] = lp->lstats.rx_ints;
    2173. 

  2173. 	data[3] = lp->lstats.tx_underrun;
    2174. 

  2174. }
    2175. 

  2175. 

  2176. static struct {
    2177. 

  2177. 	const char str[ETH_GSTRING_LEN];
    2178. 

  2178. } ethtool_stats_keys[] = {
    2179. 

  2179. 	{ "max_tx_qlen" },
    2180. 

  2180. 	{ "tx_ints" },
    2181. 

  2181. 	{ "rx_ints" },
    2182. 

  2182. 	{ "tx_underrun" },
    2183. 

  2183. };
    2184. 

  2184. 

  2185. static void tc35815_get_strings(struct net_device *dev, u32 stringset, u8 *data)
    2186. 

  2186. {
    2187. 

  2187. 	memcpy(data, ethtool_stats_keys, sizeof(ethtool_stats_keys));
    2188. 

  2188. }
    2189. 

  2189. 

  2190. static const struct ethtool_ops tc35815_ethtool_ops = {
    2191. 

  2191. 	.get_drvinfo		= tc35815_get_drvinfo,
    2192. 

  2192. 	.get_settings		= tc35815_get_settings,
    2193. 

  2193. 	.set_settings		= tc35815_set_settings,
    2194. 

  2194. 	.nway_reset		= tc35815_nway_reset,
    2195. 

  2195. 	.get_link		= tc35815_get_link,
    2196. 

  2196. 	.get_msglevel		= tc35815_get_msglevel,
    2197. 

  2197. 	.set_msglevel		= tc35815_set_msglevel,
    2198. 

  2198. 	.get_strings		= tc35815_get_strings,
    2199. 

  2199. 	.get_stats_count	= tc35815_get_stats_count,
    2200. 

  2200. 	.get_ethtool_stats	= tc35815_get_ethtool_stats,
    2201. 

  2201. };
    2202. 

  2202. 

  2203. static int tc35815_ioctl(struct net_device *dev, struct ifreq *rq, int cmd)
    2204. 

  2204. {
    2205. 

  2205. 	struct tc35815_local *lp = dev->priv;
    2206. 

  2206. 	int rc;
    2207. 

  2207. 

  2208. 	if (!netif_running(dev))
    2209. 

  2209. 		return -EINVAL;
    2210. 

  2210. 

  2211. 	spin_lock_irq(&lp->lock);
    2212. 

  2212. 	rc = generic_mii_ioctl(&lp->mii, if_mii(rq), cmd, NULL);
    2213. 

  2213. 	spin_unlock_irq(&lp->lock);
    2214. 

  2214. 

  2215. 	return rc;
    2216. 

  2216. }
    2217. 

  2217. 

  2218. static int tc_mdio_read(struct net_device *dev, int phy_id, int location)
    2219. 

  2219. {
    2220. 

  2220. 	struct tc35815_regs __iomem *tr =
    2221. 

  2221. 		(struct tc35815_regs __iomem *)dev->base_addr;
    2222. 

  2222. 	u32 data;
    2223. 

  2223. 	tc_writel(MD_CA_Busy | (phy_id << 5) | location, &tr->MD_CA);
    2224. 

  2224. 	while (tc_readl(&tr->MD_CA) & MD_CA_Busy)
    2225. 

  2225. 		;
    2226. 

  2226. 	data = tc_readl(&tr->MD_Data);
    2227. 

  2227. 	return data & 0xffff;
    2228. 

  2228. }
    2229. 

  2229. 

  2230. static void tc_mdio_write(struct net_device *dev, int phy_id, int location,
    2231. 

  2231. 			  int val)
    2232. 

  2232. {
    2233. 

  2233. 	struct tc35815_regs __iomem *tr =
    2234. 

  2234. 		(struct tc35815_regs __iomem *)dev->base_addr;
    2235. 

  2235. 	tc_writel(val, &tr->MD_Data);
    2236. 

  2236. 	tc_writel(MD_CA_Busy | MD_CA_Wr | (phy_id << 5) | location, &tr->MD_CA);
    2237. 

  2237. 	while (tc_readl(&tr->MD_CA) & MD_CA_Busy)
    2238. 

  2238. 		;
    2239. 

  2239. }
    2240. 

  2240. 

  2241. /* Auto negotiation.  The scheme is very simple.  We have a timer routine
    2242. 

  2242.  * that keeps watching the auto negotiation process as it progresses.
    2243. 

  2243.  * The DP83840 is first told to start doing it's thing, we set up the time
    2244. 

  2244.  * and place the timer state machine in it's initial state.
    2245. 

  2245.  *
    2246. 

  2246.  * Here the timer peeks at the DP83840 status registers at each click to see
    2247. 

  2247.  * if the auto negotiation has completed, we assume here that the DP83840 PHY
    2248. 

  2248.  * will time out at some point and just tell us what (didn't) happen.  For
    2249. 

  2249.  * complete coverage we only allow so many of the ticks at this level to run,
    2250. 

  2250.  * when this has expired we print a warning message and try another strategy.
    2251. 

  2251.  * This "other" strategy is to force the interface into various speed/duplex
    2252. 

  2252.  * configurations and we stop when we see a link-up condition before the
    2253. 

  2253.  * maximum number of "peek" ticks have occurred.
    2254. 

  2254.  *
    2255. 

  2255.  * Once a valid link status has been detected we configure the BigMAC and
    2256. 

  2256.  * the rest of the Happy Meal to speak the most efficient protocol we could
    2257. 

  2257.  * get a clean link for.  The priority for link configurations, highest first
    2258. 

  2258.  * is:
    2259. 

  2259.  *                 100 Base-T Full Duplex
    2260. 

  2260.  *                 100 Base-T Half Duplex
    2261. 

  2261.  *                 10 Base-T Full Duplex
    2262. 

  2262.  *                 10 Base-T Half Duplex
    2263. 

  2263.  *
    2264. 

  2264.  * We start a new timer now, after a successful auto negotiation status has
    2265. 

  2265.  * been detected.  This timer just waits for the link-up bit to get set in
    2266. 

  2266.  * the BMCR of the DP83840.  When this occurs we print a kernel log message
    2267. 

  2267.  * describing the link type in use and the fact that it is up.
    2268. 

  2268.  *
    2269. 

  2269.  * If a fatal error of some sort is signalled and detected in the interrupt
    2270. 

  2270.  * service routine, and the chip is reset, or the link is ifconfig'd down
    2271. 

  2271.  * and then back up, this entire process repeats itself all over again.
    2272. 

  2272.  */
    2273. 

  2273. /* Note: Above comments are come from sunhme driver. */
    2274. 

  2274. 

  2275. static int tc35815_try_next_permutation(struct net_device *dev)
    2276. 

  2276. {
    2277. 

  2277. 	struct tc35815_local *lp = dev->priv;
    2278. 

  2278. 	int pid = lp->phy_addr;
    2279. 

  2279. 	unsigned short bmcr;
    2280. 

  2280. 

  2281. 	bmcr = tc_mdio_read(dev, pid, MII_BMCR);
    2282. 

  2282. 

  2283. 	/* Downgrade from full to half duplex.  Only possible via ethtool.  */
    2284. 

  2284. 	if (bmcr & BMCR_FULLDPLX) {
    2285. 

  2285. 		bmcr &= ~BMCR_FULLDPLX;
    2286. 

  2286. 		printk(KERN_DEBUG "%s: try next permutation (BMCR %x)\n", dev->name, bmcr);
    2287. 

  2287. 		tc_mdio_write(dev, pid, MII_BMCR, bmcr);
    2288. 

  2288. 		return 0;
    2289. 

  2289. 	}
    2290. 

  2290. 

  2291. 	/* Downgrade from 100 to 10. */
    2292. 

  2292. 	if (bmcr & BMCR_SPEED100) {
    2293. 

  2293. 		bmcr &= ~BMCR_SPEED100;
    2294. 

  2294. 		printk(KERN_DEBUG "%s: try next permutation (BMCR %x)\n", dev->name, bmcr);
    2295. 

  2295. 		tc_mdio_write(dev, pid, MII_BMCR, bmcr);
    2296. 

  2296. 		return 0;
    2297. 

  2297. 	}
    2298. 

  2298. 

  2299. 	/* We've tried everything. */
    2300. 

  2300. 	return -1;
    2301. 

  2301. }
    2302. 

  2302. 

  2303. static void
    2304. 

  2304. tc35815_display_link_mode(struct net_device *dev)
    2305. 

  2305. {
    2306. 

  2306. 	struct tc35815_local *lp = dev->priv;
    2307. 

  2307. 	int pid = lp->phy_addr;
    2308. 

  2308. 	unsigned short lpa, bmcr;
    2309. 

  2309. 	char *speed = "", *duplex = "";
    2310. 

  2310. 

  2311. 	lpa = tc_mdio_read(dev, pid, MII_LPA);
    2312. 

  2312. 	bmcr = tc_mdio_read(dev, pid, MII_BMCR);
    2313. 

  2313. 	if (options.speed ? (bmcr & BMCR_SPEED100) : (lpa & (LPA_100HALF | LPA_100FULL)))
    2314. 

  2314. 		speed = "100Mb/s";
    2315. 

  2315. 	else
    2316. 

  2316. 		speed = "10Mb/s";
    2317. 

  2317. 	if (options.duplex ? (bmcr & BMCR_FULLDPLX) : (lpa & (LPA_100FULL | LPA_10FULL)))
    2318. 

  2318. 		duplex = "Full Duplex";
    2319. 

  2319. 	else
    2320. 

  2320. 		duplex = "Half Duplex";
    2321. 

  2321. 

  2322. 	if (netif_msg_link(lp))
    2323. 

  2323. 		printk(KERN_INFO "%s: Link is up at %s, %s.\n",
    2324. 

  2324. 		       dev->name, speed, duplex);
    2325. 

  2325. 	printk(KERN_DEBUG "%s: MII BMCR %04x BMSR %04x LPA %04x\n",
    2326. 

  2326. 	       dev->name,
    2327. 

  2327. 	       bmcr, tc_mdio_read(dev, pid, MII_BMSR), lpa);
    2328. 

  2328. }
    2329. 

  2329. 

  2330. static void tc35815_display_forced_link_mode(struct net_device *dev)
    2331. 

  2331. {
    2332. 

  2332. 	struct tc35815_local *lp = dev->priv;
    2333. 

  2333. 	int pid = lp->phy_addr;
    2334. 

  2334. 	unsigned short bmcr;
    2335. 

  2335. 	char *speed = "", *duplex = "";
    2336. 

  2336. 

  2337. 	bmcr = tc_mdio_read(dev, pid, MII_BMCR);
    2338. 

  2338. 	if (bmcr & BMCR_SPEED100)
    2339. 

  2339. 		speed = "100Mb/s";
    2340. 

  2340. 	else
    2341. 

  2341. 		speed = "10Mb/s";
    2342. 

  2342. 	if (bmcr & BMCR_FULLDPLX)
    2343. 

  2343. 		duplex = "Full Duplex.\n";
    2344. 

  2344. 	else
    2345. 

  2345. 		duplex = "Half Duplex.\n";
    2346. 

  2346. 

  2347. 	if (netif_msg_link(lp))
    2348. 

  2348. 		printk(KERN_INFO "%s: Link has been forced up at %s, %s",
    2349. 

  2349. 		       dev->name, speed, duplex);
    2350. 

  2350. }
    2351. 

  2351. 

  2352. static void tc35815_set_link_modes(struct net_device *dev)
    2353. 

  2353. {
    2354. 

  2354. 	struct tc35815_local *lp = dev->priv;
    2355. 

  2355. 	struct tc35815_regs __iomem *tr =
    2356. 

  2356. 		(struct tc35815_regs __iomem *)dev->base_addr;
    2357. 

  2357. 	int pid = lp->phy_addr;
    2358. 

  2358. 	unsigned short bmcr, lpa;
    2359. 

  2359. 	int speed;
    2360. 

  2360. 

  2361. 	if (lp->timer_state == arbwait) {
    2362. 

  2362. 		lpa = tc_mdio_read(dev, pid, MII_LPA);
    2363. 

  2363. 		bmcr = tc_mdio_read(dev, pid, MII_BMCR);
    2364. 

  2364. 		printk(KERN_DEBUG "%s: MII BMCR %04x BMSR %04x LPA %04x\n",
    2365. 

  2365. 		       dev->name,
    2366. 

  2366. 		       bmcr, tc_mdio_read(dev, pid, MII_BMSR), lpa);
    2367. 

  2367. 		if (!(lpa & (LPA_10HALF | LPA_10FULL |
    2368. 

  2368. 			     LPA_100HALF | LPA_100FULL))) {
    2369. 

  2369. 			/* fall back to 10HALF */
    2370. 

  2370. 			printk(KERN_INFO "%s: bad ability %04x - falling back to 10HD.\n",
    2371. 

  2371. 			       dev->name, lpa);
    2372. 

  2372. 			lpa = LPA_10HALF;
    2373. 

  2373. 		}
    2374. 

  2374. 		if (options.duplex ? (bmcr & BMCR_FULLDPLX) : (lpa & (LPA_100FULL | LPA_10FULL)))
    2375. 

  2375. 			lp->fullduplex = 1;
    2376. 

  2376. 		else
    2377. 

  2377. 			lp->fullduplex = 0;
    2378. 

  2378. 		if (options.speed ? (bmcr & BMCR_SPEED100) : (lpa & (LPA_100HALF | LPA_100FULL)))
    2379. 

  2379. 			speed = 100;
    2380. 

  2380. 		else
    2381. 

  2381. 			speed = 10;
    2382. 

  2382. 	} else {
    2383. 

  2383. 		/* Forcing a link mode. */
    2384. 

  2384. 		bmcr = tc_mdio_read(dev, pid, MII_BMCR);
    2385. 

  2385. 		if (bmcr & BMCR_FULLDPLX)
    2386. 

  2386. 			lp->fullduplex = 1;
    2387. 

  2387. 		else
    2388. 

  2388. 			lp->fullduplex = 0;
    2389. 

  2389. 		if (bmcr & BMCR_SPEED100)
    2390. 

  2390. 			speed = 100;
    2391. 

  2391. 		else
    2392. 

  2392. 			speed = 10;
    2393. 

  2393. 	}
    2394. 

  2394. 

  2395. 	tc_writel(tc_readl(&tr->MAC_Ctl) | MAC_HaltReq, &tr->MAC_Ctl);
    2396. 

  2396. 	if (lp->fullduplex) {
    2397. 

  2397. 		tc_writel(tc_readl(&tr->MAC_Ctl) | MAC_FullDup, &tr->MAC_Ctl);
    2398. 

  2398. 	} else {
    2399. 

  2399. 		tc_writel(tc_readl(&tr->MAC_Ctl) & ~MAC_FullDup, &tr->MAC_Ctl);
    2400. 

  2400. 	}
    2401. 

  2401. 	tc_writel(tc_readl(&tr->MAC_Ctl) & ~MAC_HaltReq, &tr->MAC_Ctl);
    2402. 

  2402. 

  2403. 	/* TX4939 PCFG.SPEEDn bit will be changed on NETDEV_CHANGE event. */
    2404. 

  2404. 

  2405. #ifndef NO_CHECK_CARRIER
    2406. 

  2406. 	/* TX4939 does not have EnLCarr */
    2407. 

  2407. 	if (lp->boardtype != TC35815_TX4939) {
    2408. 

  2408. #ifdef WORKAROUND_LOSTCAR
    2409. 

  2409. 		/* WORKAROUND: enable LostCrS only if half duplex operation */
    2410. 

  2410. 		if (!lp->fullduplex && lp->boardtype != TC35815_TX4939)
    2411. 

  2411. 			tc_writel(tc_readl(&tr->Tx_Ctl) | Tx_EnLCarr, &tr->Tx_Ctl);
    2412. 

  2412. #endif
    2413. 

  2413. 	}
    2414. 

  2414. #endif
    2415. 

  2415. 	lp->mii.full_duplex = lp->fullduplex;
    2416. 

  2416. }
    2417. 

  2417. 

  2418. static void tc35815_timer(unsigned long data)
    2419. 

  2419. {
    2420. 

  2420. 	struct net_device *dev = (struct net_device *)data;
    2421. 

  2421. 	struct tc35815_local *lp = dev->priv;
    2422. 

  2422. 	int pid = lp->phy_addr;
    2423. 

  2423. 	unsigned short bmsr, bmcr, lpa;
    2424. 

  2424. 	int restart_timer = 0;
    2425. 

  2425. 

  2426. 	spin_lock_irq(&lp->lock);
    2427. 

  2427. 

  2428. 	lp->timer_ticks++;
    2429. 

  2429. 	switch (lp->timer_state) {
    2430. 

  2430. 	case arbwait:
    2431. 

  2431. 		/*
    2432. 

  2432. 		 * Only allow for 5 ticks, thats 10 seconds and much too
    2433. 

  2433. 		 * long to wait for arbitration to complete.
    2434. 

  2434. 		 */
    2435. 

  2435. 		/* TC35815 need more times... */
    2436. 

  2436. 		if (lp->timer_ticks >= 10) {
    2437. 

  2437. 			/* Enter force mode. */
    2438. 

  2438. 			if (!options.doforce) {
    2439. 

  2439. 				printk(KERN_NOTICE "%s: Auto-Negotiation unsuccessful,"
    2440. 

  2440. 				       " cable probblem?\n", dev->name);
    2441. 

  2441. 				/* Try to restart the adaptor. */
    2442. 

  2442. 				tc35815_restart(dev);
    2443. 

  2443. 				goto out;
    2444. 

  2444. 			}
    2445. 

  2445. 			printk(KERN_NOTICE "%s: Auto-Negotiation unsuccessful,"
    2446. 

  2446. 			       " trying force link mode\n", dev->name);
    2447. 

  2447. 			printk(KERN_DEBUG "%s: BMCR %x BMSR %x\n", dev->name,
    2448. 

  2448. 			       tc_mdio_read(dev, pid, MII_BMCR),
    2449. 

  2449. 			       tc_mdio_read(dev, pid, MII_BMSR));
    2450. 

  2450. 			bmcr = BMCR_SPEED100;
    2451. 

  2451. 			tc_mdio_write(dev, pid, MII_BMCR, bmcr);
    2452. 

  2452. 

  2453. 			/*
    2454. 

  2454. 			 * OK, seems we need do disable the transceiver
    2455. 

  2455. 			 * for the first tick to make sure we get an
    2456. 

  2456. 			 * accurate link state at the second tick.
    2457. 

  2457. 			 */
    2458. 

  2458. 

  2459. 			lp->timer_state = ltrywait;
    2460. 

  2460. 			lp->timer_ticks = 0;
    2461. 

  2461. 			restart_timer = 1;
    2462. 

  2462. 		} else {
    2463. 

  2463. 			/* Anything interesting happen? */
    2464. 

  2464. 			bmsr = tc_mdio_read(dev, pid, MII_BMSR);
    2465. 

  2465. 			if (bmsr & BMSR_ANEGCOMPLETE) {
    2466. 

  2466. 				/* Just what we've been waiting for... */
    2467. 

  2467. 				tc35815_set_link_modes(dev);
    2468. 

  2468. 

  2469. 				/*
    2470. 

  2470. 				 * Success, at least so far, advance our state
    2471. 

  2471. 				 * engine.
    2472. 

  2472. 				 */
    2473. 

  2473. 				lp->timer_state = lupwait;
    2474. 

  2474. 				restart_timer = 1;
    2475. 

  2475. 			} else {
    2476. 

  2476. 				restart_timer = 1;
    2477. 

  2477. 			}
    2478. 

  2478. 		}
    2479. 

  2479. 		break;
    2480. 

  2480. 

  2481. 	case lupwait:
    2482. 

  2482. 		/*
    2483. 

  2483. 		 * Auto negotiation was successful and we are awaiting a
    2484. 

  2484. 		 * link up status.  I have decided to let this timer run
    2485. 

  2485. 		 * forever until some sort of error is signalled, reporting
    2486. 

  2486. 		 * a message to the user at 10 second intervals.
    2487. 

  2487. 		 */
    2488. 

  2488. 		bmsr = tc_mdio_read(dev, pid, MII_BMSR);
    2489. 

  2489. 		if (bmsr & BMSR_LSTATUS) {
    2490. 

  2490. 			/*
    2491. 

  2491. 			 * Wheee, it's up, display the link mode in use and put
    2492. 

  2492. 			 * the timer to sleep.
    2493. 

  2493. 			 */
    2494. 

  2494. 			tc35815_display_link_mode(dev);
    2495. 

  2495. 			netif_carrier_on(dev);
    2496. 

  2496. #ifdef WORKAROUND_100HALF_PROMISC
    2497. 

  2497. 			/* delayed promiscuous enabling */
    2498. 

  2498. 			if (dev->flags & IFF_PROMISC)
    2499. 

  2499. 				tc35815_set_multicast_list(dev);
    2500. 

  2500. #endif
    2501. 

  2501. #if 1
    2502. 

  2502. 			lp->saved_lpa = tc_mdio_read(dev, pid, MII_LPA);
    2503. 

  2503. 			lp->timer_state = lcheck;
    2504. 

  2504. 			restart_timer = 1;
    2505. 

  2505. #else
    2506. 

  2506. 			lp->timer_state = asleep;
    2507. 

  2507. 			restart_timer = 0;
    2508. 

  2508. #endif
    2509. 

  2509. 		} else {
    2510. 

  2510. 			if (lp->timer_ticks >= 10) {
    2511. 

  2511. 				printk(KERN_NOTICE "%s: Auto negotiation successful, link still "
    2512. 

  2512. 				       "not completely up.\n", dev->name);
    2513. 

  2513. 				lp->timer_ticks = 0;
    2514. 

  2514. 				restart_timer = 1;
    2515. 

  2515. 			} else {
    2516. 

  2516. 				restart_timer = 1;
    2517. 

  2517. 			}
    2518. 

  2518. 		}
    2519. 

  2519. 		break;
    2520. 

  2520. 

  2521. 	case ltrywait:
    2522. 

  2522. 		/*
    2523. 

  2523. 		 * Making the timeout here too long can make it take
    2524. 

  2524. 		 * annoyingly long to attempt all of the link mode
    2525. 

  2525. 		 * permutations, but then again this is essentially
    2526. 

  2526. 		 * error recovery code for the most part.
    2527. 

  2527. 		 */
    2528. 

  2528. 		bmsr = tc_mdio_read(dev, pid, MII_BMSR);
    2529. 

  2529. 		bmcr = tc_mdio_read(dev, pid, MII_BMCR);
    2530. 

  2530. 		if (lp->timer_ticks == 1) {
    2531. 

  2531. 			/*
    2532. 

  2532. 			 * Re-enable transceiver, we'll re-enable the
    2533. 

  2533. 			 * transceiver next tick, then check link state
    2534. 

  2534. 			 * on the following tick.
    2535. 

  2535. 			 */
    2536. 

  2536. 			restart_timer = 1;
    2537. 

  2537. 			break;
    2538. 

  2538. 		}
    2539. 

  2539. 		if (lp->timer_ticks == 2) {
    2540. 

  2540. 			restart_timer = 1;
    2541. 

  2541. 			break;
    2542. 

  2542. 		}
    2543. 

  2543. 		if (bmsr & BMSR_LSTATUS) {
    2544. 

  2544. 			/* Force mode selection success. */
    2545. 

  2545. 			tc35815_display_forced_link_mode(dev);
    2546. 

  2546. 			netif_carrier_on(dev);
    2547. 

  2547. 			tc35815_set_link_modes(dev);
    2548. 

  2548. #ifdef WORKAROUND_100HALF_PROMISC
    2549. 

  2549. 			/* delayed promiscuous enabling */
    2550. 

  2550. 			if (dev->flags & IFF_PROMISC)
    2551. 

  2551. 				tc35815_set_multicast_list(dev);
    2552. 

  2552. #endif
    2553. 

  2553. #if 1
    2554. 

  2554. 			lp->saved_lpa = tc_mdio_read(dev, pid, MII_LPA);
    2555. 

  2555. 			lp->timer_state = lcheck;
    2556. 

  2556. 			restart_timer = 1;
    2557. 

  2557. #else
    2558. 

  2558. 			lp->timer_state = asleep;
    2559. 

  2559. 			restart_timer = 0;
    2560. 

  2560. #endif
    2561. 

  2561. 		} else {
    2562. 

  2562. 			if (lp->timer_ticks >= 4) { /* 6 seconds or so... */
    2563. 

  2563. 				int ret;
    2564. 

  2564. 

  2565. 				ret = tc35815_try_next_permutation(dev);
    2566. 

  2566. 				if (ret == -1) {
    2567. 

  2567. 					/*
    2568. 

  2568. 					 * Aieee, tried them all, reset the
    2569. 

  2569. 					 * chip and try all over again.
    2570. 

  2570. 					 */
    2571. 

  2571. 					printk(KERN_NOTICE "%s: Link down, "
    2572. 

  2572. 					       "cable problem?\n",
    2573. 

  2573. 					       dev->name);
    2574. 

  2574. 

  2575. 					/* Try to restart the adaptor. */
    2576. 

  2576. 					tc35815_restart(dev);
    2577. 

  2577. 					goto out;
    2578. 

  2578. 				}
    2579. 

  2579. 				lp->timer_ticks = 0;
    2580. 

  2580. 				restart_timer = 1;
    2581. 

  2581. 			} else {
    2582. 

  2582. 				restart_timer = 1;
    2583. 

  2583. 			}
    2584. 

  2584. 		}
    2585. 

  2585. 		break;
    2586. 

  2586. 

  2587. 	case lcheck:
    2588. 

  2588. 		bmcr = tc_mdio_read(dev, pid, MII_BMCR);
    2589. 

  2589. 		lpa = tc_mdio_read(dev, pid, MII_LPA);
    2590. 

  2590. 		if (bmcr & (BMCR_PDOWN | BMCR_ISOLATE | BMCR_RESET)) {
    2591. 

  2591. 			printk(KERN_ERR "%s: PHY down? (BMCR %x)\n", dev->name,
    2592. 

  2592. 			       bmcr);
    2593. 

  2593. 		} else if ((lp->saved_lpa ^ lpa) &
    2594. 

  2594. 			   (LPA_100FULL|LPA_100HALF|LPA_10FULL|LPA_10HALF)) {
    2595. 

  2595. 			printk(KERN_NOTICE "%s: link status changed"
    2596. 

  2596. 			       " (BMCR %x LPA %x->%x)\n", dev->name,
    2597. 

  2597. 			       bmcr, lp->saved_lpa, lpa);
    2598. 

  2598. 		} else {
    2599. 

  2599. 			/* go on */
    2600. 

  2600. 			restart_timer = 1;
    2601. 

  2601. 			break;
    2602. 

  2602. 		}
    2603. 

  2603. 		/* Try to restart the adaptor. */
    2604. 

  2604. 		tc35815_restart(dev);
    2605. 

  2605. 		goto out;
    2606. 

  2606. 

  2607. 	case asleep:
    2608. 

  2608. 	default:
    2609. 

  2609. 		/* Can't happens.... */
    2610. 

  2610. 		printk(KERN_ERR "%s: Aieee, link timer is asleep but we got "
    2611. 

  2611. 		       "one anyways!\n", dev->name);
    2612. 

  2612. 		restart_timer = 0;
    2613. 

  2613. 		lp->timer_ticks = 0;
    2614. 

  2614. 		lp->timer_state = asleep; /* foo on you */
    2615. 

  2615. 		break;
    2616. 

  2616. 	}
    2617. 

  2617. 

  2618. 	if (restart_timer) {
    2619. 

  2619. 		lp->timer.expires = jiffies + msecs_to_jiffies(1200);
    2620. 

  2620. 		add_timer(&lp->timer);
    2621. 

  2621. 	}
    2622. 

  2622. out:
    2623. 

  2623. 	spin_unlock_irq(&lp->lock);
    2624. 

  2624. }
    2625. 

  2625. 

  2626. static void tc35815_start_auto_negotiation(struct net_device *dev,
    2627. 

  2627. 					   struct ethtool_cmd *ep)
    2628. 

  2628. {
    2629. 

  2629. 	struct tc35815_local *lp = dev->priv;
    2630. 

  2630. 	int pid = lp->phy_addr;
    2631. 

  2631. 	unsigned short bmsr, bmcr, advertize;
    2632. 

  2632. 	int timeout;
    2633. 

  2633. 

  2634. 	netif_carrier_off(dev);
    2635. 

  2635. 	bmsr = tc_mdio_read(dev, pid, MII_BMSR);
    2636. 

  2636. 	bmcr = tc_mdio_read(dev, pid, MII_BMCR);
    2637. 

  2637. 	advertize = tc_mdio_read(dev, pid, MII_ADVERTISE);
    2638. 

  2638. 

  2639. 	if (ep == NULL || ep->autoneg == AUTONEG_ENABLE) {
    2640. 

  2640. 		if (options.speed || options.duplex) {
    2641. 

  2641. 			/* Advertise only specified configuration. */
    2642. 

  2642. 			advertize &= ~(ADVERTISE_10HALF |
    2643. 

  2643. 				       ADVERTISE_10FULL |
    2644. 

  2644. 				       ADVERTISE_100HALF |
    2645. 

  2645. 				       ADVERTISE_100FULL);
    2646. 

  2646. 			if (options.speed != 10) {
    2647. 

  2647. 				if (options.duplex != 1)
    2648. 

  2648. 					advertize |= ADVERTISE_100FULL;
    2649. 

  2649. 				if (options.duplex != 2)
    2650. 

  2650. 					advertize |= ADVERTISE_100HALF;
    2651. 

  2651. 			}
    2652. 

  2652. 			if (options.speed != 100) {
    2653. 

  2653. 				if (options.duplex != 1)
    2654. 

  2654. 					advertize |= ADVERTISE_10FULL;
    2655. 

  2655. 				if (options.duplex != 2)
    2656. 

  2656. 					advertize |= ADVERTISE_10HALF;
    2657. 

  2657. 			}
    2658. 

  2658. 			if (options.speed == 100)
    2659. 

  2659. 				bmcr |= BMCR_SPEED100;
    2660. 

  2660. 			else if (options.speed == 10)
    2661. 

  2661. 				bmcr &= ~BMCR_SPEED100;
    2662. 

  2662. 			if (options.duplex == 2)
    2663. 

  2663. 				bmcr |= BMCR_FULLDPLX;
    2664. 

  2664. 			else if (options.duplex == 1)
    2665. 

  2665. 				bmcr &= ~BMCR_FULLDPLX;
    2666. 

  2666. 		} else {
    2667. 

  2667. 			/* Advertise everything we can support. */
    2668. 

  2668. 			if (bmsr & BMSR_10HALF)
    2669. 

  2669. 				advertize |= ADVERTISE_10HALF;
    2670. 

  2670. 			else
    2671. 

  2671. 				advertize &= ~ADVERTISE_10HALF;
    2672. 

  2672. 			if (bmsr & BMSR_10FULL)
    2673. 

  2673. 				advertize |= ADVERTISE_10FULL;
    2674. 

  2674. 			else
    2675. 

  2675. 				advertize &= ~ADVERTISE_10FULL;
    2676. 

  2676. 			if (bmsr & BMSR_100HALF)
    2677. 

  2677. 				advertize |= ADVERTISE_100HALF;
    2678. 

  2678. 			else
    2679. 

  2679. 				advertize &= ~ADVERTISE_100HALF;
    2680. 

  2680. 			if (bmsr & BMSR_100FULL)
    2681. 

  2681. 				advertize |= ADVERTISE_100FULL;
    2682. 

  2682. 			else
    2683. 

  2683. 				advertize &= ~ADVERTISE_100FULL;
    2684. 

  2684. 		}
    2685. 

  2685. 

  2686. 		tc_mdio_write(dev, pid, MII_ADVERTISE, advertize);
    2687. 

  2687. 

  2688. 		/* Enable Auto-Negotiation, this is usually on already... */
    2689. 

  2689. 		bmcr |= BMCR_ANENABLE;
    2690. 

  2690. 		tc_mdio_write(dev, pid, MII_BMCR, bmcr);
    2691. 

  2691. 

  2692. 		/* Restart it to make sure it is going. */
    2693. 

  2693. 		bmcr |= BMCR_ANRESTART;
    2694. 

  2694. 		tc_mdio_write(dev, pid, MII_BMCR, bmcr);
    2695. 

  2695. 		printk(KERN_DEBUG "%s: ADVERTISE %x BMCR %x\n", dev->name, advertize, bmcr);
    2696. 

  2696. 

  2697. 		/* BMCR_ANRESTART self clears when the process has begun. */
    2698. 

  2698. 		timeout = 64;  /* More than enough. */
    2699. 

  2699. 		while (--timeout) {
    2700. 

  2700. 			bmcr = tc_mdio_read(dev, pid, MII_BMCR);
    2701. 

  2701. 			if (!(bmcr & BMCR_ANRESTART))
    2702. 

  2702. 				break; /* got it. */
    2703. 

  2703. 			udelay(10);
    2704. 

  2704. 		}
    2705. 

  2705. 		if (!timeout) {
    2706. 

  2706. 			printk(KERN_ERR "%s: TC35815 would not start auto "
    2707. 

  2707. 			       "negotiation BMCR=0x%04x\n",
    2708. 

  2708. 			       dev->name, bmcr);
    2709. 

  2709. 			printk(KERN_NOTICE "%s: Performing force link "
    2710. 

  2710. 			       "detection.\n", dev->name);
    2711. 

  2711. 			goto force_link;
    2712. 

  2712. 		} else {
    2713. 

  2713. 			printk(KERN_DEBUG "%s: auto negotiation started.\n", dev->name);
    2714. 

  2714. 			lp->timer_state = arbwait;
    2715. 

  2715. 		}
    2716. 

  2716. 	} else {
    2717. 

  2717. force_link:
    2718. 

  2718. 		/* Force the link up, trying first a particular mode.
    2719. 

  2719. 		 * Either we are here at the request of ethtool or
    2720. 

  2720. 		 * because the Happy Meal would not start to autoneg.
    2721. 

  2721. 		 */
    2722. 

  2722. 

  2723. 		/* Disable auto-negotiation in BMCR, enable the duplex and
    2724. 

  2724. 		 * speed setting, init the timer state machine, and fire it off.
    2725. 

  2725. 		 */
    2726. 

  2726. 		if (ep == NULL || ep->autoneg == AUTONEG_ENABLE) {
    2727. 

  2727. 			bmcr = BMCR_SPEED100;
    2728. 

  2728. 		} else {
    2729. 

  2729. 			if (ep->speed == SPEED_100)
    2730. 

  2730. 				bmcr = BMCR_SPEED100;
    2731. 

  2731. 			else
    2732. 

  2732. 				bmcr = 0;
    2733. 

  2733. 			if (ep->duplex == DUPLEX_FULL)
    2734. 

  2734. 				bmcr |= BMCR_FULLDPLX;
    2735. 

  2735. 		}
    2736. 

  2736. 		tc_mdio_write(dev, pid, MII_BMCR, bmcr);
    2737. 

  2737. 

  2738. 		/* OK, seems we need do disable the transceiver for the first
    2739. 

  2739. 		 * tick to make sure we get an accurate link state at the
    2740. 

  2740. 		 * second tick.
    2741. 

  2741. 		 */
    2742. 

  2742. 		lp->timer_state = ltrywait;
    2743. 

  2743. 	}
    2744. 

  2744. 

  2745. 	del_timer(&lp->timer);
    2746. 

  2746. 	lp->timer_ticks = 0;
    2747. 

  2747. 	lp->timer.expires = jiffies + msecs_to_jiffies(1200);
    2748. 

  2748. 	add_timer(&lp->timer);
    2749. 

  2749. }
    2750. 

  2750. 

  2751. static void tc35815_find_phy(struct net_device *dev)
    2752. 

  2752. {
    2753. 

  2753. 	struct tc35815_local *lp = dev->priv;
    2754. 

  2754. 	int pid = lp->phy_addr;
    2755. 

  2755. 	unsigned short id0;
    2756. 

  2756. 

  2757. 	/* find MII phy */
    2758. 

  2758. 	for (pid = 31; pid >= 0; pid--) {
    2759. 

  2759. 		id0 = tc_mdio_read(dev, pid, MII_BMSR);
    2760. 

  2760. 		if (id0 != 0xffff && id0 != 0x0000 &&
    2761. 

  2761. 		    (id0 & BMSR_RESV) != (0xffff & BMSR_RESV) /* paranoia? */
    2762. 

  2762. 			) {
    2763. 

  2763. 			lp->phy_addr = pid;
    2764. 

  2764. 			break;
    2765. 

  2765. 		}
    2766. 

  2766. 	}
    2767. 

  2767. 	if (pid < 0) {
    2768. 

  2768. 		printk(KERN_ERR "%s: No MII Phy found.\n",
    2769. 

  2769. 		       dev->name);
    2770. 

  2770. 		lp->phy_addr = pid = 0;
    2771. 

  2771. 	}
    2772. 

  2772. 

  2773. 	lp->mii_id[0] = tc_mdio_read(dev, pid, MII_PHYSID1);
    2774. 

  2774. 	lp->mii_id[1] = tc_mdio_read(dev, pid, MII_PHYSID2);
    2775. 

  2775. 	if (netif_msg_hw(lp))
    2776. 

  2776. 		printk(KERN_INFO "%s: PHY(%02x) ID %04x %04x\n", dev->name,
    2777. 

  2777. 		       pid, lp->mii_id[0], lp->mii_id[1]);
    2778. 

  2778. }
    2779. 

  2779. 

  2780. static void tc35815_phy_chip_init(struct net_device *dev)
    2781. 

  2781. {
    2782. 

  2782. 	struct tc35815_local *lp = dev->priv;
    2783. 

  2783. 	int pid = lp->phy_addr;
    2784. 

  2784. 	unsigned short bmcr;
    2785. 

  2785. 	struct ethtool_cmd ecmd, *ep;
    2786. 

  2786. 

  2787. 	/* dis-isolate if needed. */
    2788. 

  2788. 	bmcr = tc_mdio_read(dev, pid, MII_BMCR);
    2789. 

  2789. 	if (bmcr & BMCR_ISOLATE) {
    2790. 

  2790. 		int count = 32;
    2791. 

  2791. 		printk(KERN_DEBUG "%s: unisolating...", dev->name);
    2792. 

  2792. 		tc_mdio_write(dev, pid, MII_BMCR, bmcr & ~BMCR_ISOLATE);
    2793. 

  2793. 		while (--count) {
    2794. 

  2794. 			if (!(tc_mdio_read(dev, pid, MII_BMCR) & BMCR_ISOLATE))
    2795. 

  2795. 				break;
    2796. 

  2796. 			udelay(20);
    2797. 

  2797. 		}
    2798. 

  2798. 		printk(" %s.\n", count ? "done" : "failed");
    2799. 

  2799. 	}
    2800. 

  2800. 

  2801. 	if (options.speed && options.duplex) {
    2802. 

  2802. 		ecmd.autoneg = AUTONEG_DISABLE;
    2803. 

  2803. 		ecmd.speed = options.speed == 10 ? SPEED_10 : SPEED_100;
    2804. 

  2804. 		ecmd.duplex = options.duplex == 1 ? DUPLEX_HALF : DUPLEX_FULL;
    2805. 

  2805. 		ep = &ecmd;
    2806. 

  2806. 	} else {
    2807. 

  2807. 		ep = NULL;
    2808. 

  2808. 	}
    2809. 

  2809. 	tc35815_start_auto_negotiation(dev, ep);
    2810. 

  2810. }
    2811. 

  2811. 

  2812. static void tc35815_chip_reset(struct net_device *dev)
    2813. 

  2813. {
    2814. 

  2814. 	struct tc35815_regs __iomem *tr =
    2815. 

  2815. 		(struct tc35815_regs __iomem *)dev->base_addr;
    2816. 

  2816. 	int i;
    2817. 

  2817. 	/* reset the controller */
    2818. 

  2818. 	tc_writel(MAC_Reset, &tr->MAC_Ctl);
    2819. 

  2819. 	udelay(4); /* 3200ns */
    2820. 

  2820. 	i = 0;
    2821. 

  2821. 	while (tc_readl(&tr->MAC_Ctl) & MAC_Reset) {
    2822. 

  2822. 		if (i++ > 100) {
    2823. 

  2823. 			printk(KERN_ERR "%s: MAC reset failed.\n", dev->name);
    2824. 

  2824. 			break;
    2825. 

  2825. 		}
    2826. 

  2826. 		mdelay(1);
    2827. 

  2827. 	}
    2828. 

  2828. 	tc_writel(0, &tr->MAC_Ctl);
    2829. 

  2829. 

  2830. 	/* initialize registers to default value */
    2831. 

  2831. 	tc_writel(0, &tr->DMA_Ctl);
    2832. 

  2832. 	tc_writel(0, &tr->TxThrsh);
    2833. 

  2833. 	tc_writel(0, &tr->TxPollCtr);
    2834. 

  2834. 	tc_writel(0, &tr->RxFragSize);
    2835. 

  2835. 	tc_writel(0, &tr->Int_En);
    2836. 

  2836. 	tc_writel(0, &tr->FDA_Bas);
    2837. 

  2837. 	tc_writel(0, &tr->FDA_Lim);
    2838. 

  2838. 	tc_writel(0xffffffff, &tr->Int_Src);	/* Write 1 to clear */
    2839. 

  2839. 	tc_writel(0, &tr->CAM_Ctl);
    2840. 

  2840. 	tc_writel(0, &tr->Tx_Ctl);
    2841. 

  2841. 	tc_writel(0, &tr->Rx_Ctl);
    2842. 

  2842. 	tc_writel(0, &tr->CAM_Ena);
    2843. 

  2843. 	(void)tc_readl(&tr->Miss_Cnt);	/* Read to clear */
    2844. 

  2844. 

  2845. 	/* initialize internal SRAM */
    2846. 

  2846. 	tc_writel(DMA_TestMode, &tr->DMA_Ctl);
    2847. 

  2847. 	for (i = 0; i < 0x1000; i += 4) {
    2848. 

  2848. 		tc_writel(i, &tr->CAM_Adr);
    2849. 

  2849. 		tc_writel(0, &tr->CAM_Data);
    2850. 

  2850. 	}
    2851. 

  2851. 	tc_writel(0, &tr->DMA_Ctl);
    2852. 

  2852. }
    2853. 

  2853. 

  2854. static void tc35815_chip_init(struct net_device *dev)
    2855. 

  2855. {
    2856. 

  2856. 	struct tc35815_local *lp = dev->priv;
    2857. 

  2857. 	struct tc35815_regs __iomem *tr =
    2858. 

  2858. 		(struct tc35815_regs __iomem *)dev->base_addr;
    2859. 

  2859. 	unsigned long txctl = TX_CTL_CMD;
    2860. 

  2860. 

  2861. 	tc35815_phy_chip_init(dev);
    2862. 

  2862. 

  2863. 	/* load station address to CAM */
    2864. 

  2864. 	tc35815_set_cam_entry(dev, CAM_ENTRY_SOURCE, dev->dev_addr);
    2865. 

  2865. 

  2866. 	/* Enable CAM (broadcast and unicast) */
    2867. 

  2867. 	tc_writel(CAM_Ena_Bit(CAM_ENTRY_SOURCE), &tr->CAM_Ena);
    2868. 

  2868. 	tc_writel(CAM_CompEn | CAM_BroadAcc, &tr->CAM_Ctl);
    2869. 

  2869. 

  2870. 	/* Use DMA_RxAlign_2 to make IP header 4-byte aligned. */
    2871. 

  2871. 	if (HAVE_DMA_RXALIGN(lp))
    2872. 

  2872. 		tc_writel(DMA_BURST_SIZE | DMA_RxAlign_2, &tr->DMA_Ctl);
    2873. 

  2873. 	else
    2874. 

  2874. 		tc_writel(DMA_BURST_SIZE, &tr->DMA_Ctl);
    2875. 

  2875. #ifdef TC35815_USE_PACKEDBUFFER
    2876. 

  2876. 	tc_writel(RxFrag_EnPack | ETH_ZLEN, &tr->RxFragSize);	/* Packing */
    2877. 

  2877. #else
    2878. 

  2878. 	tc_writel(ETH_ZLEN, &tr->RxFragSize);
    2879. 

  2879. #endif
    2880. 

  2880. 	tc_writel(0, &tr->TxPollCtr);	/* Batch mode */
    2881. 

  2881. 	tc_writel(TX_THRESHOLD, &tr->TxThrsh);
    2882. 

  2882. 	tc_writel(INT_EN_CMD, &tr->Int_En);
    2883. 

  2883. 

  2884. 	/* set queues */
    2885. 

  2885. 	tc_writel(fd_virt_to_bus(lp, lp->rfd_base), &tr->FDA_Bas);
    2886. 

  2886. 	tc_writel((unsigned long)lp->rfd_limit - (unsigned long)lp->rfd_base,
    2887. 

  2887. 		  &tr->FDA_Lim);
    2888. 

  2888. 	/*
    2889. 

  2889. 	 * Activation method:
    2890. 

  2890. 	 * First, enable the MAC Transmitter and the DMA Receive circuits.
    2891. 

  2891. 	 * Then enable the DMA Transmitter and the MAC Receive circuits.
    2892. 

  2892. 	 */
    2893. 

  2893. 	tc_writel(fd_virt_to_bus(lp, lp->fbl_ptr), &tr->BLFrmPtr);	/* start DMA receiver */
    2894. 

  2894. 	tc_writel(RX_CTL_CMD, &tr->Rx_Ctl);	/* start MAC receiver */
    2895. 

  2895. 

  2896. 	/* start MAC transmitter */
    2897. 

  2897. #ifndef NO_CHECK_CARRIER
    2898. 

  2898. 	/* TX4939 does not have EnLCarr */
    2899. 

  2899. 	if (lp->boardtype == TC35815_TX4939)
    2900. 

  2900. 		txctl &= ~Tx_EnLCarr;
    2901. 

  2901. #ifdef WORKAROUND_LOSTCAR
    2902. 

  2902. 	/* WORKAROUND: ignore LostCrS in full duplex operation */
    2903. 

  2903. 	if ((lp->timer_state != asleep && lp->timer_state != lcheck) ||
    2904. 

  2904. 	    lp->fullduplex)
    2905. 

  2905. 		txctl &= ~Tx_EnLCarr;
    2906. 

  2906. #endif
    2907. 

  2907. #endif /* !NO_CHECK_CARRIER */
    2908. 

  2908. #ifdef GATHER_TXINT
    2909. 

  2909. 	txctl &= ~Tx_EnComp;	/* disable global tx completion int. */
    2910. 

  2910. #endif
    2911. 

  2911. 	tc_writel(txctl, &tr->Tx_Ctl);
    2912. 

  2912. }
    2913. 

  2913. 

  2914. #ifdef CONFIG_PM
    2915. 

  2915. static int tc35815_suspend(struct pci_dev *pdev, pm_message_t state)
    2916. 

  2916. {
    2917. 

  2917. 	struct net_device *dev = pci_get_drvdata(pdev);
    2918. 

  2918. 	struct tc35815_local *lp = dev->priv;
    2919. 

  2919. 	unsigned long flags;
    2920. 

  2920. 

  2921. 	pci_save_state(pdev);
    2922. 

  2922. 	if (!netif_running(dev))
    2923. 

  2923. 		return 0;
    2924. 

  2924. 	netif_device_detach(dev);
    2925. 

  2925. 	spin_lock_irqsave(&lp->lock, flags);
    2926. 

  2926. 	del_timer(&lp->timer);		/* Kill if running	*/
    2927. 

  2927. 	tc35815_chip_reset(dev);
    2928. 

  2928. 	spin_unlock_irqrestore(&lp->lock, flags);
    2929. 

  2929. 	pci_set_power_state(pdev, PCI_D3hot);
    2930. 

  2930. 	return 0;
    2931. 

  2931. }
    2932. 

  2932. 

  2933. static int tc35815_resume(struct pci_dev *pdev)
    2934. 

  2934. {
    2935. 

  2935. 	struct net_device *dev = pci_get_drvdata(pdev);
    2936. 

  2936. 	struct tc35815_local *lp = dev->priv;
    2937. 

  2937. 	unsigned long flags;
    2938. 

  2938. 

  2939. 	pci_restore_state(pdev);
    2940. 

  2940. 	if (!netif_running(dev))
    2941. 

  2941. 		return 0;
    2942. 

  2942. 	pci_set_power_state(pdev, PCI_D0);
    2943. 

  2943. 	spin_lock_irqsave(&lp->lock, flags);
    2944. 

  2944. 	tc35815_restart(dev);
    2945. 

  2945. 	spin_unlock_irqrestore(&lp->lock, flags);
    2946. 

  2946. 	netif_device_attach(dev);
    2947. 

  2947. 	return 0;
    2948. 

  2948. }
    2949. 

  2949. #endif /* CONFIG_PM */
    2950. 

  2950. 

  2951. static struct pci_driver tc35815_pci_driver = {
    2952. 

  2952. 	.name		= MODNAME,
    2953. 

  2953. 	.id_table	= tc35815_pci_tbl,
    2954. 

  2954. 	.probe		= tc35815_init_one,
    2955. 

  2955. 	.remove		= __devexit_p(tc35815_remove_one),
    2956. 

  2956. #ifdef CONFIG_PM
    2957. 

  2957. 	.suspend	= tc35815_suspend,
    2958. 

  2958. 	.resume		= tc35815_resume,
    2959. 

  2959. #endif
    2960. 

  2960. };
    2961. 

  2961. 

  2962. module_param_named(speed, options.speed, int, 0);
    2963. 

  2963. MODULE_PARM_DESC(speed, "0:auto, 10:10Mbps, 100:100Mbps");
    2964. 

  2964. module_param_named(duplex, options.duplex, int, 0);
    2965. 

  2965. MODULE_PARM_DESC(duplex, "0:auto, 1:half, 2:full");
    2966. 

  2966. module_param_named(doforce, options.doforce, int, 0);
    2967. 

  2967. MODULE_PARM_DESC(doforce, "try force link mode if auto-negotiation failed");
    2968. 

  2968. 

  2969. static int __init tc35815_init_module(void)
    2970. 

  2970. {
    2971. 

  2971. 	return pci_register_driver(&tc35815_pci_driver);
    2972. 

  2972. }
    2973. 

  2973. 

  2974. static void __exit tc35815_cleanup_module(void)
    2975. 

  2975. {
    2976. 

  2976. 	pci_unregister_driver(&tc35815_pci_driver);
    2977. 

  2977. }
    2978. 

  2978. 

  2979. module_init(tc35815_init_module);
    2980. 

  2980. module_exit(tc35815_cleanup_module);
    2981. 

  2981. 

  2982. MODULE_DESCRIPTION("TOSHIBA TC35815 PCI 10M/100M Ethernet driver");
    2983. 

  2983. MODULE_LICENSE("GPL");
    2984.