ref: d7ad068d56bdec30805a36a9973f5924ad00641b
dir: /src/PMUEMDEV.c/
/* PMUEMDEV.c Copyright (C) 2008 Paul C. Pratt You can redistribute this file and/or modify it under the terms of version 2 of the GNU General Public License as published by the Free Software Foundation. You should have received a copy of the license along with this file; see the file COPYING. This file is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the license for more details. */ /* Power Management Unit EMulated DEVice */ #ifndef AllFiles #include "SYSDEPNS.h" #include "MYOSGLUE.h" #include "EMCONFIG.h" #include "GLOBGLUE.h" #include "VIAEMDEV.h" #endif #include "PMUEMDEV.h" /* ReportAbnormalID unused 0x0E0E - 0x0EFF */ enum { kPMUStateReadyForCommand, kPMUStateRecievingLength, kPMUStateRecievingBuffer, kPMUStateRecievedCommand, kPMUStateSendLength, kPMUStateSendBuffer, kPMUStates }; #define PMU_BuffSz 8 LOCALVAR ui3b PMU_BuffA[PMU_BuffSz]; LOCALVAR ui3p PMU_p; LOCALVAR ui3r PMU_rem; LOCALVAR ui3r PMU_i; LOCALVAR int PMUState = kPMUStateReadyForCommand; LOCALVAR ui3r PMU_CurCommand; LOCALVAR ui3r PMU_SendNext; LOCALVAR ui3r PMU_BuffL; LOCALPROC PmuStartSendResult(ui3r ResultCode, ui3r L) { PMU_SendNext = ResultCode; PMU_BuffL = L; PMUState = kPMUStateSendLength; } LOCALVAR ui3b PARAMRAM[128]; LOCALPROC PmuCheckCommandOp(void) { switch (PMU_CurCommand) { case 0x10: /* kPMUpowerCntl - power plane/clock control */ break; case 0x32: /* kPMUxPramWrite - write extended PRAM byte(s) */ if (kPMUStateRecievingBuffer == PMUState) { if (0 == PMU_i) { if (PMU_BuffL >= 2) { PMU_p = PMU_BuffA; PMU_rem = 2; } else { ReportAbnormalID(0x0E01, "PMU_BuffL too small for kPMUxPramWrite"); } } else if (2 == PMU_i) { if ((PMU_BuffA[1] + 2 == PMU_BuffL) && (PMU_BuffA[0] + PMU_BuffA[1] <= 0x80)) { PMU_p = &PARAMRAM[PMU_BuffA[0]]; PMU_rem = PMU_BuffA[1]; } else { ReportAbnormalID(0x0E02, "bad range for kPMUxPramWrite"); } } else { ReportAbnormalID(0x0E03, "Wrong PMU_i for kPMUpramWrite"); } } else if (kPMUStateRecievedCommand == PMUState) { /* already done */ } break; #if 0 case 0xE2: /* kPMUdownloadStatus - PRAM status */ break; #endif case 0xE0: /* kPMUwritePmgrRAM - write to internal PMGR RAM */ break; case 0x21: /* kPMUpMgrADBoff - turn ADB auto-poll off */ if (kPMUStateRecievedCommand == PMUState) { if (0 != PMU_BuffL) { ReportAbnormalID(0x0E04, "kPMUpMgrADBoff nonzero length"); } } break; case 0xEC: /* kPMUPmgrSelfTest - run the PMGR selftest */ if (kPMUStateRecievedCommand == PMUState) { PmuStartSendResult(0, 0); } break; case 0x78: /* kPMUreadINT - get PMGR interrupt data */ case 0x68: /* kPMUbatteryRead - read battery/charger level and status */ case 0x7F: /* kPMUsleepReq - put the system to sleep (sleepSig='MATT') */ if (kPMUStateRecievedCommand == PMUState) { PMU_BuffA[0] = 0; PmuStartSendResult(0, 1); } break; case 0xE8: /* kPMUreadPmgrRAM - read from internal PMGR RAM */ if (kPMUStateRecievedCommand == PMUState) { if ((3 == PMU_BuffL) && (0 == PMU_BuffA[0]) && (0xEE == PMU_BuffA[1]) && (1 == PMU_BuffA[2])) { PMU_BuffA[0] = 1 << 5; PmuStartSendResult(0, 1); } else { PMU_BuffA[0] = 0; PmuStartSendResult(0, 1); /* ReportAbnormal("Unknown kPMUreadPmgrRAM op"); */ } } break; case 0x3A: /* kPMUxPramRead - read extended PRAM byte(s) */ if (kPMUStateRecievedCommand == PMUState) { if ((2 == PMU_BuffL) && (PMU_BuffA[0] + PMU_BuffA[1] <= 0x80)) { PMU_p = &PARAMRAM[PMU_BuffA[0]]; PMU_rem = PMU_BuffA[1]; PmuStartSendResult(0, PMU_rem); } else { ReportAbnormalID(0x0E05, "Unknown kPMUxPramRead op"); } } break; case 0x38: /* kPMUtimeRead - read the time from the clock chip */ if (kPMUStateRecievedCommand == PMUState) { if (0 == PMU_BuffL) { PMU_BuffA[0] = 0; PMU_BuffA[1] = 0; PMU_BuffA[2] = 0; PMU_BuffA[3] = 0; PmuStartSendResult(0, 4); } else { ReportAbnormalID(0x0E06, "Unknown kPMUtimeRead op"); } } break; case 0x31: /* kPMUpramWrite - write the original 20 bytes of PRAM (Portable only) */ if (kPMUStateRecievedCommand == PMUState) { if (20 == PMU_BuffL) { /* done */ } else { ReportAbnormalID(0x0E07, "Unknown kPMUpramWrite op"); } } else if (kPMUStateRecievingBuffer == PMUState) { if (20 == PMU_BuffL) { if (0 == PMU_i) { PMU_p = &PARAMRAM[16]; PMU_rem = 16; } else if (16 == PMU_i) { PMU_p = &PARAMRAM[8]; PMU_rem = 4; } else { ReportAbnormalID(0x0E08, "Wrong PMU_i for kPMUpramWrite"); } } } break; case 0x39: /* kPMUpramRead - read the original 20 bytes of PRAM (Portable only) */ if (kPMUStateRecievedCommand == PMUState) { if (0 == PMU_BuffL) { PmuStartSendResult(0, 20); } else { ReportAbnormalID(0x0E09, "Unknown kPMUpramRead op"); } } else if (kPMUStateSendBuffer == PMUState) { #if 0 { int i; for (i = 0; i < PMU_BuffSz; ++i) { PMU_BuffA[i] = 0; } } #endif if (0 == PMU_i) { PMU_p = &PARAMRAM[16]; PMU_rem = 16; } else if (16 == PMU_i) { PMU_p = &PARAMRAM[8]; PMU_rem = 4; } else { ReportAbnormalID(0x0E0A, "Wrong PMU_i for kPMUpramRead"); } } break; default: if (kPMUStateRecievedCommand == PMUState) { ReportAbnormalID(0x0E0B, "Unknown PMU op"); #if dbglog_HAVE dbglog_writeCStr("Unknown PMU op "); dbglog_writeHex(PMU_CurCommand); dbglog_writeReturn(); dbglog_writeCStr("PMU_BuffL = "); dbglog_writeHex(PMU_BuffL); dbglog_writeReturn(); if (PMU_BuffL <= PMU_BuffSz) { int i; for (i = 0; i < PMU_BuffL; ++i) { dbglog_writeCStr("PMU_BuffA["); dbglog_writeNum(i); dbglog_writeCStr("] = "); dbglog_writeHex(PMU_BuffA[i]); dbglog_writeReturn(); } } #endif } break; } } LOCALPROC LocBuffSetUpNextChunk(void) { PMU_p = PMU_BuffA; PMU_rem = PMU_BuffL - PMU_i; if (PMU_rem >= PMU_BuffSz) { PMU_rem = PMU_BuffSz; } } LOCALFUNC ui3r GetPMUbus(void) { ui3r v; v = VIA1_iA7; v <<= 1; v |= VIA1_iA6; v <<= 1; v |= VIA1_iA5; v <<= 1; v |= VIA1_iA4; v <<= 1; v |= VIA1_iA3; v <<= 1; v |= VIA1_iA2; v <<= 1; v |= VIA1_iA1; v <<= 1; v |= VIA1_iA0; return v; } LOCALPROC SetPMUbus(ui3r v) { VIA1_iA0 = v & 0x01; v >>= 1; VIA1_iA1 = v & 0x01; v >>= 1; VIA1_iA2 = v & 0x01; v >>= 1; VIA1_iA3 = v & 0x01; v >>= 1; VIA1_iA4 = v & 0x01; v >>= 1; VIA1_iA5 = v & 0x01; v >>= 1; VIA1_iA6 = v & 0x01; v >>= 1; VIA1_iA7 = v & 0x01; } LOCALVAR blnr PMU_Sending = falseblnr; LOCALPROC PmuCheckCommandCompletion(void) { if (PMU_i == PMU_BuffL) { PMUState = kPMUStateRecievedCommand; PmuCheckCommandOp(); if ((PMU_CurCommand & 0x08) == 0) { PMUState = kPMUStateReadyForCommand; SetPMUbus(0xFF); } else { if (PMUState != kPMUStateSendLength) { PmuStartSendResult(0xFF, 0); PMUState = kPMUStateSendLength; } PMU_i = 0; PMU_Sending = trueblnr; ICT_add(kICT_PMU_Task, 20400UL * kCycleScale / 64 * kMyClockMult); } } } GLOBALPROC PmuToReady_ChangeNtfy(void) { if (PMU_Sending) { PMU_Sending = falseblnr; ReportAbnormalID(0x0E0C, "PmuToReady_ChangeNtfy while PMU_Sending"); PmuFromReady = 0; } switch (PMUState) { case kPMUStateReadyForCommand: if (! PmuToReady) { PmuFromReady = 0; } else { PMU_CurCommand = GetPMUbus(); PMUState = kPMUStateRecievingLength; PmuFromReady = 1; } break; case kPMUStateRecievingLength: if (! PmuToReady) { PmuFromReady = 0; } else { PMU_BuffL = GetPMUbus(); PMU_i = 0; PMU_rem = 0; PMUState = kPMUStateRecievingBuffer; PmuCheckCommandCompletion(); PmuFromReady = 1; } break; case kPMUStateRecievingBuffer: if (! PmuToReady) { PmuFromReady = 0; } else { ui3r v = GetPMUbus(); if (0 == PMU_rem) { PMU_p = nullpr; PmuCheckCommandOp(); if (nullpr == PMU_p) { /* default handler */ LocBuffSetUpNextChunk(); } } if (nullpr == PMU_p) { /* mini vmac bug if ever happens */ ReportAbnormalID(0x0E0D, "PMU_p null while kPMUStateRecievingBuffer"); } *PMU_p++ = v; --PMU_rem; ++PMU_i; PmuCheckCommandCompletion(); PmuFromReady = 1; } break; case kPMUStateSendLength: if (! PmuToReady) { /* receiving */ PmuFromReady = 1; } else { PMU_SendNext = PMU_BuffL; PMUState = kPMUStateSendBuffer; PMU_Sending = trueblnr; ICT_add(kICT_PMU_Task, 20400UL * kCycleScale / 64 * kMyClockMult); } break; case kPMUStateSendBuffer: if (! PmuToReady) { /* receiving */ PmuFromReady = 1; } else { if (PMU_i == PMU_BuffL) { PMUState = kPMUStateReadyForCommand; SetPMUbus(0xFF); } else { if (0 == PMU_rem) { PMU_p = nullpr; PmuCheckCommandOp(); if (nullpr == PMU_p) { /* default handler */ LocBuffSetUpNextChunk(); } } PMU_SendNext = *PMU_p++; --PMU_rem; ++PMU_i; PMU_Sending = trueblnr; ICT_add(kICT_PMU_Task, 20400UL * kCycleScale / 64 * kMyClockMult); } } break; } } GLOBALPROC PMU_DoTask(void) { if (PMU_Sending) { PMU_Sending = falseblnr; SetPMUbus(PMU_SendNext); PmuFromReady = 0; } }