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windows-server-2003/drivers/parallel/parport2/ecp.c

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  1. /*++
  3. Copyright (C) Microsoft Corporation, 1993 - 1999
  5. Module Name:
  7. ecp.c
  9. Abstract:
  11. Enhanced Capabilities Port (ECP)
  13. This module contains the common routines that aue used/ reused
  14. by swecp and hwecp.
  16. Author:
  18. Robbie Harris (Hewlett-Packard) - May 27, 1998
  20. Environment:
  22. Kernel mode
  24. Revision History :
  26. --*/
  28. #include "pch.h"
  30. //=========================================================
  31. // ECP::EnterForwardPhase
  32. //
  33. // Description : Do what is necessary to enter forward phase for ECP
  34. //
  35. // Input Parameters : Controller, pPortInfoStruct
  36. //
  37. // Modifies : ECR, DCR
  38. //
  39. //=========================================================
  40. NTSTATUS
  41. ParEcpEnterForwardPhase(IN PPDO_EXTENSION Pdx)
  42. {
  43. P5SetPhase( Pdx, PHASE_FORWARD_IDLE );
  44. return STATUS_SUCCESS;
  45. }
  47. // =========================================================
  48. // ECP::EnterReversePhase
  49. //
  50. // Description : Move from the common phase (FwdIdle, wPortHWMode=PS2)
  51. // to ReversePhase.
  52. //
  53. // Input Parameters : Controller, pPortInfoStruct
  54. //
  55. // Modifies : pPortInfoStruct->CurrentPhase, DCR
  56. //
  57. // Pre-conditions : CurrentPhase == PHASE_FORWARD_IDLE
  58. // wPortHWMode == HW_MODE_PS2
  59. //
  60. // Post-conditions : Bus is in ECP State 40
  61. // CurrentPhase = PHASE_REVERSE_IDLE
  62. //
  63. // Returns : status of operation
  64. //
  65. //=========================================================
  66. NTSTATUS ParEcpEnterReversePhase(IN PPDO_EXTENSION Pdx)
  67. {
  68. // Assume that we are in the common entry phase (FWDIDLE, and ECR mode=PS/2)
  69. // EnterReversePhase assumes that we are in PHASE_FORWARD_IDLE,
  70. // and that the ECPMode is set to PS/2 mode at entry.
  72. // Setup the status to indicate successful
  73. NTSTATUS status = STATUS_SUCCESS;
  74. PUCHAR wPortDCR; // I/O address of Device Control Register
  75. PUCHAR wPortECR; // I/O address of ECR
  76. UCHAR dcr;
  78. // Calculate I/O port addresses for common registers
  79. wPortDCR = Pdx->Controller + OFFSET_DCR;
  81. wPortECR = Pdx->EcrController + ECR_OFFSET;
  83. // Now, Check the current state to make sure that we are ready for
  84. // a change to reverse phase.
  85. if ( PHASE_FORWARD_IDLE == Pdx->CurrentPhase ) {
  86. // Okay, we are ready to proceed. Set the CurrentPhase and go on to
  87. // state 47
  88. //----------------------------------------------------------------------
  89. // Set CurrentPhase to indicate Forward To Reverse Mode.
  90. //----------------------------------------------------------------------
  91. P5SetPhase( Pdx, PHASE_FWD_TO_REV );
  93. //----------------------------------------------------------------------
  94. // Set Dir=1 in DCR for reading.
  95. //----------------------------------------------------------------------
  96. dcr = P5ReadPortUchar(wPortDCR); // Get content of DCR.
  97. dcr = UPDATE_DCR( dcr, DIR_READ, DONT_CARE, DONT_CARE, DONT_CARE, DONT_CARE, DONT_CARE );
  98. P5WritePortUchar(wPortDCR, dcr);
  100. // Set the data port bits to 1 so that other circuits can control them
  101. //P5WritePortUchar(Controller + OFFSET_DATA, 0xFF);
  103. //----------------------------------------------------------------------
  104. // Assert HostAck low. (ECP State 38)
  105. //----------------------------------------------------------------------
  106. Pdx->CurrentEvent = 38;
  107. dcr = UPDATE_DCR( dcr, DIR_READ, DONT_CARE, DONT_CARE, DONT_CARE, INACTIVE, DONT_CARE );
  108. P5WritePortUchar(wPortDCR, dcr);
  110. // REVISIT: Should use TICKCount to get a finer granularity.
  111. // According to the spec we need to delay at least .5 us
  112. KeStallExecutionProcessor((ULONG) 1); // Stall for 1 us
  114. //----------------------------------------------------------------------
  115. // Assert nReverseRequest low. (ECP State 39)
  116. //----------------------------------------------------------------------
  117. Pdx->CurrentEvent = 39;
  118. dcr = UPDATE_DCR( dcr, DIR_READ, DONT_CARE, DONT_CARE, INACTIVE, DONT_CARE, DONT_CARE );
  119. P5WritePortUchar(wPortDCR, dcr);
  121. // NOTE: Let the caller check for State 40, since the error handling for
  122. // State 40 is different between hwecp and swecp.
  124. } else {
  126. DD((PCE)Pdx,DDE,"ParEcpEnterReversePhase - Invalid Phase on entry - broken state machine\n");
  127. PptAssertMsg("ParEcpEnterReversePhase - Invalid Phase on entry - broken state machine",FALSE);
  128. status = STATUS_LINK_FAILED;
  129. }
  131. return status;
  132. }
  134. //=========================================================
  135. // ECP::ExitReversePhase
  136. //
  137. // Description : Transition from the ECP reverse Phase to the
  138. // common phase for all entry functions
  139. //
  140. // Input Parameters : Controller - offset to the I/O ports
  141. // pPortInfoStruct - pointer to port information
  142. //
  143. // Modifies : CurrentPhase, DCR
  144. //
  145. // Pre-conditions :
  146. //
  147. // Post-conditions : NOTE: This function does not completely move to
  148. // the common phase for entry functions. Both the
  149. // HW and SW ECP classes must do extra work
  150. //
  151. // Returns : Status of the operation
  152. //
  153. //=========================================================
  154. NTSTATUS ParEcpExitReversePhase(IN PPDO_EXTENSION Pdx)
  155. {
  156. NTSTATUS status = STATUS_SUCCESS;
  157. PUCHAR Controller = Pdx->Controller;
  158. PUCHAR wPortDCR; // I/O address of Device Control Register
  159. PUCHAR wPortECR; // I/O address of ECR
  160. UCHAR dcr;
  162. wPortDCR = Controller + OFFSET_DCR;
  163. wPortECR = Pdx->EcrController + ECR_OFFSET;
  166. //----------------------------------------------------------------------
  167. // Set status byte to indicate Reverse To Forward Mode.
  168. //----------------------------------------------------------------------
  169. P5SetPhase( Pdx, PHASE_REV_TO_FWD );
  172. //----------------------------------------------------------------------
  173. // Set HostAck high
  174. //----------------------------------------------------------------------
  175. dcr = P5ReadPortUchar(wPortDCR);
  176. dcr = UPDATE_DCR( dcr, DONT_CARE, DONT_CARE, DONT_CARE, DONT_CARE, ACTIVE, DONT_CARE );
  177. P5WritePortUchar(wPortDCR, dcr);
  180. //----------------------------------------------------------------------
  181. // Set nReverseRequest high. (State 47)
  182. //----------------------------------------------------------------------
  183. Pdx->CurrentEvent = 47;
  184. dcr = UPDATE_DCR( dcr, DONT_CARE, DONT_CARE, DONT_CARE, ACTIVE, DONT_CARE, DONT_CARE );
  185. P5WritePortUchar(wPortDCR, dcr);
  187. //----------------------------------------------------------------------
  188. // Check first for PeriphAck low and PeriphClk high. (State 48)
  189. //----------------------------------------------------------------------
  190. Pdx->CurrentEvent = 48;
  191. if( ! CHECK_DSR(Controller, INACTIVE, ACTIVE, DONT_CARE, ACTIVE, DONT_CARE, IEEE_MAXTIME_TL) ) {
  192. // Bad things happened - timed out on this state,
  193. // Mark Status as bad and let our mgr kill ECP mode.
  194. // status = SLP_RecoverPort( pSDCB, RECOVER_18 ); // Reset port.
  195. status = STATUS_LINK_FAILED;
  196. DD((PCE)Pdx,DDE,"ParEcpExitReversePhase - state 48 Timeout\n");
  197. goto ParEcpExitReversePhase;
  198. }
  200. //----------------------------------------------------------------------
  201. // Check next for nAckReverse high. (State 49)
  202. //----------------------------------------------------------------------
  203. Pdx->CurrentEvent = 49;
  204. if ( ! CHECK_DSR(Controller ,INACTIVE, ACTIVE, ACTIVE, ACTIVE, DONT_CARE, IEEE_MAXTIME_TL ) ) {
  205. // Bad things happened - timed out on this state,
  206. // Mark Status as bad and let our mgr kill ECP mode.
  207. //nError = RecoverPort( pSDCB, RECOVER_19 ); // Reset port.
  208. status = STATUS_LINK_FAILED;
  209. DD((PCE)Pdx,DDE,"ParEcpExitReversePhase:state 49 Timeout\n");
  210. goto ParEcpExitReversePhase;
  211. }
  213. // Warning: Don't assume that the ECR is in PS/2 mode here.
  214. // You cannot change the direction in this routine. It must be
  215. // done elsewhere (SWECP or HWECP).
  217. ParEcpExitReversePhase:
  219. DD((PCE)Pdx,DDT,"ParEcpExitReversePhase - exit w/status=%x\n",status);
  220. return status;
  221. }
  223. BOOLEAN
  224. ParEcpHaveReadData (
  225. IN PPDO_EXTENSION Pdx
  226. )
  227. {
  228. return ( (UCHAR)0 == (P5ReadPortUchar(Pdx->Controller + OFFSET_DSR) & DSR_NOT_PERIPH_REQUEST) );
  229. }
  231. NTSTATUS
  232. ParEcpSetupPhase(
  233. IN PPDO_EXTENSION Pdx
  234. )
  235. /*++
  237. Routine Description:
  239. This routine performs 1284 Setup Phase.
  241. Arguments:
  243. Controller - Supplies the port address.
  245. Return Value:
  247. STATUS_SUCCESS - Successful negotiation.
  249. otherwise - Unsuccessful negotiation.
  251. --*/
  252. {
  253. PUCHAR Controller;
  254. UCHAR dcr;
  256. // The negotiation succeeded. Current mode and phase.
  257. //
  258. P5SetPhase( Pdx, PHASE_SETUP );
  259. Controller = Pdx->Controller;
  260. // Negoiate leaves us in state 6, we need to be in state 30 to
  261. // begin transfer. Note that I am assuming that the controller
  262. // is already set as it should be for state 6.
  263. //
  265. // *************** State 30 Setup Phase ***************8
  266. // DIR = Don't Care
  267. // IRQEN = Don't Care
  268. // 1284/SelectIn = High
  269. // nReverseReq/**(ECP only)= High
  270. // HostAck/HostBusy = Low (Signals state 30)
  271. // HostClk/nStrobe = High
  272. //
  273. Pdx->CurrentEvent = 30;
  274. dcr = P5ReadPortUchar(Controller + OFFSET_DCR);
  275. dcr = UPDATE_DCR(dcr, DONT_CARE, DONT_CARE, ACTIVE, ACTIVE, INACTIVE, ACTIVE);
  276. P5WritePortUchar(Controller + OFFSET_DCR, dcr);
  278. // *************** State 31 Setup Phase ***************8
  279. // PeriphAck/PtrBusy = low
  280. // PeriphClk/PtrClk = high
  281. // nAckReverse/AckDataReq = high (Signals state 31)
  282. // XFlag = high
  283. // nPeriphReq/nDataAvail = Don't Care
  284. Pdx->CurrentEvent = 31;
  285. if (!CHECK_DSR(Controller, INACTIVE, ACTIVE, ACTIVE, ACTIVE, DONT_CARE, IEEE_MAXTIME_TL)) {
  286. // Bad things happened - timed out on this state.
  287. // Set status to an error and let PortTuple kill ECP mode (Terminate).
  288. DD((PCE)Pdx,DDE,"ParEcpSetupPhase - State 31 Failed - dcr=%x\n",dcr);
  289. P5SetPhase( Pdx, PHASE_UNKNOWN );
  290. return STATUS_IO_DEVICE_ERROR;
  291. }
  293. P5SetPhase( Pdx, PHASE_FORWARD_IDLE );
  294. DD((PCE)Pdx,DDT,"ParEcpSetupPhase - exit - STATUS_SUCCESS\n");
  295. return STATUS_SUCCESS;
  296. }