#include "librfu.h" struct LLSFStruct { u8 unk00; u8 unk01; u8 unk02; u8 unk03; u8 unk04; u8 unk05; u8 unk06; u8 unk07; u8 unk08; u8 unk09; u8 unk0A; u8 unk0B; u8 unk0C; u16 unk0E; }; struct RfuLocalStruct { u8 unk00; u8 unk01; u8 unk02; u8 unk03; u8 unk04; u8 unk05; u16 unk06; }; static void rfu_CB_defaultCallback(u8, u16); static void rfu_CB_reset(u8, u16); static void rfu_CB_configGameData(u8, u16); static void rfu_CB_stopMode(u8, u16); static void rfu_CB_startSearchChild(u8, u16); static void rfu_CB_pollAndEndSearchChild(u8, u16); static void rfu_CB_startSearchParent(u8, u16); static void rfu_CB_pollSearchParent(u8, u16); static void rfu_CB_pollConnectParent(u8, u16); static void rfu_CB_pollConnectParent(u8, u16); static void rfu_CB_disconnect(u8, u16); static void rfu_CB_CHILD_pollConnectRecovery(u8, u16); static void rfu_CB_sendData(UNUSED u8, u16); static void rfu_CB_sendData2(UNUSED u8, u16); static void rfu_CB_sendData3(u8, u16); static void rfu_CB_recvData(u8, u16); static void rfu_enableREQCallback(bool8); static void rfu_STC_clearAPIVariables(void); static void rfu_STC_readChildList(void); static void rfu_STC_readParentCandidateList(void); static void rfu_STC_REQ_callback(u8, u16); static void rfu_STC_removeLinkData(u8, u8); static void rfu_STC_fastCopy(const u8 **, u8 **, s32); static void rfu_STC_clearLinkStatus(u8); static void rfu_NI_checkCommFailCounter(void); static u16 rfu_STC_setSendData_org(u8, u8, u8, const void *, u32); static void rfu_constructSendLLFrame(void); static u16 rfu_STC_NI_constructLLSF(u8, u8 **, struct NIComm *); static u16 rfu_STC_UNI_constructLLSF(u8, u8 **); static void rfu_STC_PARENT_analyzeRecvPacket(void); static void rfu_STC_CHILD_analyzeRecvPacket(void); static u16 rfu_STC_analyzeLLSF(u8, const u8 *, u16); static void rfu_STC_UNI_receive(u8, const struct RfuLocalStruct *, const u8 *); static void rfu_STC_NI_receive_Receiver(u8, const struct RfuLocalStruct *, const u8 *); static void rfu_STC_NI_receive_Sender(u8, u8, const struct RfuLocalStruct *, UNUSED const u8 *); static void rfu_STC_NI_initSlot_asRecvDataEntity(u8, struct NIComm *); static void rfu_STC_NI_initSlot_asRecvControllData(u8, struct NIComm *); struct RfuSlotStatusUNI *gRfuSlotStatusUNI[RFU_CHILD_MAX]; struct RfuSlotStatusNI *gRfuSlotStatusNI[RFU_CHILD_MAX]; struct RfuLinkStatus *gRfuLinkStatus; struct RfuStatic *gRfuStatic; struct RfuFixed *gRfuFixed; static const struct LLSFStruct llsf_struct[2] = { { 2, 14, 0, 10, 9, 5, 7, 2, 0, 15, 1, 3, 3, 0x1f }, { 3, 22, 18, 14, 13, 9, 11, 3, 15, 15, 1, 3, 3, 0x7f } }; #ifdef EMERALD static const char lib_ver[] = "RFU_V1026"; #else static const char lib_ver[] = "RFU_V1024"; #endif static const char str_checkMbootLL[] = "RFU-MBOOT"; u16 rfu_initializeAPI(struct RfuAPIBuffer *APIBuffer, u16 buffByteSize, IntrFunc *sioIntrTable_p, bool8 copyInterruptToRam) { u16 i; u16 *dst; const u16 *src; u16 r3; // is in EWRAM? if (((u32)APIBuffer & 0xF000000) == 0x2000000 && copyInterruptToRam) return ERR_RFU_API_BUFF_ADR; // is not 4-byte aligned? if ((u32)APIBuffer & 3) return ERR_RFU_API_BUFF_ADR; if (copyInterruptToRam) { // An assert/debug print may have existed before, ie // printf("%s %u < %u", "somefile.c:12345", buffByteSize, num) // to push this into r3? r3 = sizeof(struct RfuAPIBuffer); if (buffByteSize < r3) return ERR_RFU_API_BUFF_SIZE; } if (!copyInterruptToRam) { r3 = 0x504; // same issue as above if (buffByteSize < r3) return ERR_RFU_API_BUFF_SIZE; } gRfuLinkStatus = &APIBuffer->linkStatus; gRfuStatic = &APIBuffer->static_; gRfuFixed = &APIBuffer->fixed; gRfuSlotStatusNI[0] = &APIBuffer->NI[0]; gRfuSlotStatusUNI[0] = &APIBuffer->UNI[0]; for (i = 1; i < RFU_CHILD_MAX; ++i) { gRfuSlotStatusNI[i] = &gRfuSlotStatusNI[i - 1][1]; gRfuSlotStatusUNI[i] = &gRfuSlotStatusUNI[i - 1][1]; } // TODO: Is it possible to fix the following 2 statements? // It's equivalent to: // gRfuFixed->STWIBuffer = &APIBuffer->intr; // STWI_init_all(&APIBuffer->intr, sioIntrTable_p, copyInterruptToRam); gRfuFixed->STWIBuffer = (struct RfuIntrStruct *)&gRfuSlotStatusUNI[3][1]; STWI_init_all((struct RfuIntrStruct *)&gRfuSlotStatusUNI[3][1], sioIntrTable_p, copyInterruptToRam); rfu_STC_clearAPIVariables(); for (i = 0; i < RFU_CHILD_MAX; ++i) { gRfuSlotStatusNI[i]->recvBuffer = NULL; gRfuSlotStatusNI[i]->recvBufferSize = 0; gRfuSlotStatusUNI[i]->recvBuffer = NULL; gRfuSlotStatusUNI[i]->recvBufferSize = 0; } src = (const u16 *)((u32)&rfu_STC_fastCopy & ~1); dst = gRfuFixed->fastCopyBuffer; // rfu_REQ_changeMasterSlave is the function next to rfu_STC_fastCopy for (r3 = ((void *)rfu_REQ_changeMasterSlave - (void *)rfu_STC_fastCopy) / sizeof(u16), --r3; r3 != 0xFFFF; --r3) *dst++ = *src++; gRfuFixed->fastCopyPtr = (void *)gRfuFixed->fastCopyBuffer + 1; return 0; } static void rfu_STC_clearAPIVariables(void) { u16 IMEBackup = REG_IME; u8 i, r4; REG_IME = 0; r4 = gRfuStatic->flags; CpuFill16(0, gRfuStatic, sizeof(struct RfuStatic)); gRfuStatic->flags = r4 & 8; CpuFill16(0, gRfuLinkStatus, sizeof(struct RfuLinkStatus)); gRfuLinkStatus->watchInterval = 4; gRfuStatic->nowWatchInterval = 0; gRfuLinkStatus->parentChild = MODE_NEUTRAL; rfu_clearAllSlot(); gRfuStatic->SCStartFlag = 0; for (i = 0; i < NELEMS(gRfuStatic->cidBak); ++i) gRfuStatic->cidBak[i] = 0; REG_IME = IMEBackup; } void rfu_REQ_PARENT_resumeRetransmitAndChange(void) { STWI_set_Callback_M(rfu_STC_REQ_callback); STWI_send_ResumeRetransmitAndChangeREQ(); } u16 rfu_UNI_PARENT_getDRAC_ACK(u8 *ackFlag) { struct RfuIntrStruct *buf; *ackFlag = 0; if (gRfuLinkStatus->parentChild != MODE_PARENT) return ERR_MODE_NOT_PARENT; buf = rfu_getSTWIRecvBuffer(); switch (buf->rxPacketAlloc.rfuPacket8.data[0]) { case 40: case 54: if (buf->rxPacketAlloc.rfuPacket8.data[1] == 0) *ackFlag = gRfuLinkStatus->connSlotFlag; else *ackFlag = buf->rxPacketAlloc.rfuPacket8.data[4]; return 0; default: return ERR_REQ_CMD_ID; } } void rfu_setTimerInterrupt(u8 timerNo, IntrFunc *timerIntrTable_p) { STWI_init_timer(timerIntrTable_p, timerNo); } struct RfuIntrStruct *rfu_getSTWIRecvBuffer(void) { return gRfuFixed->STWIBuffer; } void rfu_setMSCCallback(void (*callback)(u16 reqCommandId)) { STWI_set_Callback_S(callback); } void rfu_setREQCallback(void (*callback)(u16 reqCommandId, u16 reqResult)) { gRfuFixed->reqCallback = callback; rfu_enableREQCallback(callback != NULL); } static void rfu_enableREQCallback(bool8 enable) { if (enable) gRfuStatic->flags |= 8; else gRfuStatic->flags &= 0xF7; } static void rfu_STC_REQ_callback(u8 r5, u16 reqResult) { STWI_set_Callback_M(rfu_CB_defaultCallback); gRfuStatic->reqResult = reqResult; if (gRfuStatic->flags & 8) gRfuFixed->reqCallback(r5, reqResult); } static void rfu_CB_defaultCallback(u8 r0, u16 reqResult) { s32 r5; u8 i; if (r0 == 0xFF) { if (gRfuStatic->flags & 8) gRfuFixed->reqCallback(r0, reqResult); r5 = gRfuLinkStatus->connSlotFlag | gRfuLinkStatus->linkLossSlotFlag; for (i = 0; i < RFU_CHILD_MAX; ++i) if ((r5 >> i) & 1) rfu_STC_removeLinkData(i, 1); gRfuLinkStatus->parentChild = MODE_NEUTRAL; } } u16 rfu_waitREQComplete(void) { STWI_poll_CommandEnd(); return gRfuStatic->reqResult; } void rfu_REQ_RFUStatus(void) { STWI_set_Callback_M(rfu_STC_REQ_callback); STWI_send_SystemStatusREQ(); } u16 rfu_getRFUStatus(u8 *rfuState) { if (gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[0] != 0x93) return ERR_REQ_CMD_ID; if (STWI_poll_CommandEnd() == 0) *rfuState = gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[7]; else *rfuState = 0xFF; return 0; } u16 rfu_MBOOT_CHILD_inheritanceLinkStatus(void) { const char *s1 = str_checkMbootLL; char *s2 = (char *)0x30000F0; u16 checksum; u16 *r2; u8 i; while (*s1 != '\0') if (*s1++ != *s2++) return 1; r2 = (u16 *)0x3000000; checksum = 0; for (i = 0; i < 90; ++i) checksum += *r2++; if (checksum != *(u16 *)0x30000FA) return 1; CpuCopy16((u16 *)0x3000000, gRfuLinkStatus, sizeof(struct RfuLinkStatus)); gRfuStatic->flags |= 0x80; return 0; } void rfu_REQ_stopMode(void) { vu32 *timerReg; if (REG_IME == 0) { rfu_STC_REQ_callback(61, 6); gSTWIStatus->error = ERR_REQ_CMD_IME_DISABLE; } else { AgbRFU_SoftReset(); rfu_STC_clearAPIVariables(); if (AgbRFU_checkID(8) == 0x8001) { timerReg = ®_TMCNT(gSTWIStatus->timerSelect); *timerReg = 0; *timerReg = (TIMER_ENABLE | TIMER_1024CLK) << 16; while (*timerReg << 16 < 262 << 16) ; *timerReg = 0; STWI_set_Callback_M(rfu_CB_stopMode); STWI_send_StopModeREQ(); } else { REG_SIOCNT = SIO_MULTI_MODE; rfu_STC_REQ_callback(61, 0); } } } static void rfu_CB_stopMode(u8 a1, u16 reqResult) { if (reqResult == 0) REG_SIOCNT = SIO_MULTI_MODE; rfu_STC_REQ_callback(a1, reqResult); } u32 rfu_REQBN_softReset_and_checkID(void) { u32 r2; if (REG_IME == 0) return ERR_ID_CHECK_IME_DISABLE; AgbRFU_SoftReset(); rfu_STC_clearAPIVariables(); if ((r2 = AgbRFU_checkID(30)) == 0) REG_SIOCNT = SIO_MULTI_MODE; return r2; } void rfu_REQ_reset(void) { STWI_set_Callback_M(rfu_CB_reset); STWI_send_ResetREQ(); } static void rfu_CB_reset(u8 a1, u16 reqResult) { if (reqResult == 0) rfu_STC_clearAPIVariables(); rfu_STC_REQ_callback(a1, reqResult); } void rfu_REQ_configSystem(u16 availSlotFlag, u8 maxMFrame, u8 mcTimer) { STWI_set_Callback_M(rfu_STC_REQ_callback); STWI_send_SystemConfigREQ((availSlotFlag & AVAIL_SLOT1) | 0x3C, maxMFrame, mcTimer); if (mcTimer == 0) { gRfuStatic->unk_1a = 1; } else { u16 IMEBackup = REG_IME; REG_IME = 0; gRfuStatic->unk_1a = Div(600, mcTimer); REG_IME = IMEBackup; } } void rfu_REQ_configGameData(u8 mbootFlag, u16 serialNo, const u8 *gname, const u8 *uname) { u8 sp[16]; u8 i; u8 r3; const u8 *gnameBackup = gname; const u8 *unameBackup; sp[0] = serialNo; sp[1] = serialNo >> 8; if (mbootFlag != 0) sp[1] = (serialNo >> 8) | 0x80; for (i = 2; i < 15; ++i) sp[i] = *gname++; r3 = 0; unameBackup = uname; for (i = 0; i < 8; ++i) { r3 += *unameBackup++; r3 += *gnameBackup++; } sp[15] = ~r3; if (mbootFlag != 0) sp[14] = 0; STWI_set_Callback_M(rfu_CB_configGameData); STWI_send_GameConfigREQ(sp, uname); } static void rfu_CB_configGameData(u8 ip, u16 r7) { s32 r2, r3; u8 *r4; u8 i; u8 *r1; if (r7 == 0) { r1 = gSTWIStatus->txPacket->rfuPacket8.data; r2 = gRfuLinkStatus->my.serialNo = r1[4]; gRfuLinkStatus->my.serialNo = (r1[5] << 8) | r2; r4 = &r1[6]; if (gRfuLinkStatus->my.serialNo & 0x8000) { gRfuLinkStatus->my.serialNo = gRfuLinkStatus->my.serialNo ^ 0x8000; gRfuLinkStatus->my.mbootFlag = 1; } else { gRfuLinkStatus->my.mbootFlag = 0; } for (i = 0; i < RFU_GAME_NAME_LENGTH; ++i) gRfuLinkStatus->my.gname[i] = *r4++; ++r4; for (i = 0; i < RFU_USER_NAME_LENGTH; ++i) gRfuLinkStatus->my.uname[i] = *r4++; } rfu_STC_REQ_callback(ip, r7); } void rfu_REQ_startSearchChild(void) { u16 r1; STWI_set_Callback_M(rfu_CB_defaultCallback); STWI_send_SystemStatusREQ(); r1 = STWI_poll_CommandEnd(); if (r1 == 0) { if (gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[7] == 0) rfu_STC_clearLinkStatus(1); } else { rfu_STC_REQ_callback(25, r1); } STWI_set_Callback_M(rfu_CB_startSearchChild); STWI_send_SC_StartREQ(); } static void rfu_CB_startSearchChild(u8 r3, u16 reqResult) { if (reqResult == 0) gRfuStatic->SCStartFlag = 1; rfu_STC_REQ_callback(r3, reqResult); } static void rfu_STC_clearLinkStatus(u8 r4) { u8 i; rfu_clearAllSlot(); if (r4 != 0) { CpuFill16(0, gRfuLinkStatus->partner, sizeof(gRfuLinkStatus->partner)); gRfuLinkStatus->findParentCount = 0; } for (i = 0; i < RFU_CHILD_MAX; ++i) gRfuLinkStatus->strength[i] = 0; gRfuLinkStatus->connCount = 0; gRfuLinkStatus->connSlotFlag = 0; gRfuLinkStatus->linkLossSlotFlag = 0; gRfuLinkStatus->getNameFlag = 0; } void rfu_REQ_pollSearchChild(void) { STWI_set_Callback_M(rfu_CB_pollAndEndSearchChild); STWI_send_SC_PollingREQ(); } void rfu_REQ_endSearchChild(void) { STWI_set_Callback_M(rfu_CB_pollAndEndSearchChild); STWI_send_SC_EndREQ(); } static void rfu_CB_pollAndEndSearchChild(u8 r4, u16 reqResult) { if (reqResult == 0) rfu_STC_readChildList(); if (r4 == 26) { if (gRfuLinkStatus->my.id == 0) { STWI_set_Callback_M(rfu_CB_defaultCallback); STWI_send_SystemStatusREQ(); if (STWI_poll_CommandEnd() == 0) gRfuLinkStatus->my.id = *(u16 *)&gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket32.data[0]; } } else if (r4 == 27) { if (gRfuLinkStatus->parentChild == MODE_NEUTRAL) gRfuLinkStatus->my.id = 0; gRfuStatic->SCStartFlag = 0; } rfu_STC_REQ_callback(r4, reqResult); } static void rfu_STC_readChildList(void) { u32 r5; u8 r8 = gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[1]; u8 *r4; u8 i; u8 sp[4]; u8 r2; if (r8 != 0) { r5 = gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket32.data[0]; STWI_set_Callback_M(rfu_CB_defaultCallback); STWI_send_LinkStatusREQ(); if (STWI_poll_CommandEnd() == 0) { r4 = &gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[4]; for (i = 0; i < NELEMS(sp); ++i) sp[i] = *r4++; } gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket32.data[0] = r5; } for (r4 = &gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[4]; r8 != 0; r4 += 4) { r2 = r4[2]; if (r2 < RFU_CHILD_MAX && !((gRfuLinkStatus->connSlotFlag >> r2) & 1) && !((gRfuLinkStatus->linkLossSlotFlag >> r2) & 1)) { if (sp[r2] != 0) ++gRfuStatic->lsFixedCount[r2]; if (gRfuStatic->lsFixedCount[r2] >= 4) { gRfuStatic->lsFixedCount[r2] = 0; gRfuLinkStatus->strength[r2] = 0xFF; gRfuLinkStatus->connSlotFlag |= 1 << r2; ++gRfuLinkStatus->connCount; gRfuLinkStatus->partner[r2].id = *(u16 *)r4; gRfuLinkStatus->partner[r2].slot = r2; gRfuLinkStatus->parentChild = MODE_PARENT; gRfuStatic->flags &= 0x7F; gRfuStatic->cidBak[r2] = gRfuLinkStatus->partner[r2].id; } } --r8; } } void rfu_REQ_startSearchParent(void) { STWI_set_Callback_M(rfu_CB_startSearchParent); STWI_send_SP_StartREQ(); } static void rfu_CB_startSearchParent(u8 r5, u16 reqResult) { if (reqResult == 0) rfu_STC_clearLinkStatus(0); rfu_STC_REQ_callback(r5, reqResult); } void rfu_REQ_pollSearchParent(void) { STWI_set_Callback_M(rfu_CB_pollSearchParent); STWI_send_SP_PollingREQ(); } static void rfu_CB_pollSearchParent(u8 r5, u16 reqResult) { if (reqResult == 0) rfu_STC_readParentCandidateList(); rfu_STC_REQ_callback(r5, reqResult); } void rfu_REQ_endSearchParent(void) { STWI_set_Callback_M(rfu_STC_REQ_callback); STWI_send_SP_EndREQ(); } static void rfu_STC_readParentCandidateList(void) { u8 r7, r6, r5, r4, r3; u8 *r1, *r2; struct RfuTgtData *r4_; CpuFill16(0, gRfuLinkStatus->partner, sizeof(gRfuLinkStatus->partner)); r2 = &gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[0]; r7 = r2[1]; r2 += 4; gRfuLinkStatus->findParentCount = 0; for (r6 = 0; r6 < 4 && r7 != 0; ++r6) { r7 -= 7; r1 = r2 + 6; r2 += 19; r5 = ~*r2; ++r2; r4 = 0; for (r3 = 0; r3 < 8; ++r3) { r4 += *r2++; r4 += *r1++; } if (r4 == r5) { r2 -= 28; r4_ = &gRfuLinkStatus->partner[gRfuLinkStatus->findParentCount]; r4_->id = *(u16 *)r2; r2 += 2; r4_->slot = *r2; r2 += 2; r4_->serialNo = *(u16 *)r2 & 0x7FFF; if (*(u16 *)r2 & 0x8000) r4_->mbootFlag = 1; else r4_->mbootFlag = 0; r2 += 2; for (r3 = 0; r3 < RFU_GAME_NAME_LENGTH; ++r3) r4_->gname[r3] = *r2++; ++r2; for (r3 = 0; r3 < RFU_USER_NAME_LENGTH; ++r3) r4_->uname[r3] = *r2++; ++gRfuLinkStatus->findParentCount; } } } void rfu_REQ_startConnectParent(u16 pid) { u16 r3 = 0; u8 i; for (i = 0; i < RFU_CHILD_MAX && gRfuLinkStatus->partner[i].id != pid; ++i) ; if (i == 4) r3 = 256; if (r3 == 0) { gRfuStatic->tryPid = pid; STWI_set_Callback_M(rfu_STC_REQ_callback); STWI_send_CP_StartREQ(pid); } else { rfu_STC_REQ_callback(31, r3); } } void rfu_REQ_pollConnectParent(void) { STWI_set_Callback_M(rfu_CB_pollConnectParent); STWI_send_CP_PollingREQ(); } static void rfu_CB_pollConnectParent(u8 sp24, u16 sp28) { u16 id; u8 slot; u8 r2, r5; struct RfuTgtData *r9; struct RfuTgtData sp; if (sp28 == 0) { id = gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket32.data[0]; slot = gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[6]; if (gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[7] == 0) { r2 = 1 << slot; if (!(r2 & gRfuLinkStatus->connSlotFlag)) { gRfuLinkStatus->connSlotFlag |= r2; gRfuLinkStatus->linkLossSlotFlag &= ~r2; gRfuLinkStatus->my.id = id; ++gRfuLinkStatus->connCount; gRfuLinkStatus->parentChild = MODE_CHILD; gRfuStatic->flags |= 0x80; for (r5 = 0; r5 < RFU_CHILD_MAX; ++r5) { if (gRfuLinkStatus->partner[r5].id == gRfuStatic->tryPid) { if (gRfuLinkStatus->findParentCount != 0) { r9 = &sp; CpuCopy16(&gRfuLinkStatus->partner[r5], &sp, sizeof(struct RfuTgtData)); CpuFill16(0, gRfuLinkStatus->partner, sizeof(gRfuLinkStatus->partner)); gRfuLinkStatus->findParentCount = 0; } else { r9 = &gRfuLinkStatus->partner[r5]; } break; } } if (r5 < RFU_CHILD_MAX) { CpuCopy16(r9, &gRfuLinkStatus->partner[slot], sizeof(struct RfuTgtData)); gRfuLinkStatus->partner[slot].slot = slot; } } } } rfu_STC_REQ_callback(sp24, sp28); } u16 rfu_getConnectParentStatus(u8 *status, u8 *connectSlotNo) { u8 r0, *r2; *status = 0xFF; r2 = gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data; r0 = r2[0] + 96; if (r0 <= 1) { r2 += 6; *connectSlotNo = r2[0]; *status = r2[1]; return 0; } return ERR_REQ_CMD_ID; } void rfu_REQ_endConnectParent(void) { STWI_set_Callback_M(rfu_CB_pollConnectParent); STWI_send_CP_EndREQ(); if (gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[6] < 4) gRfuStatic->linkEmergencyFlag[gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[6]] = 0; } u16 rfu_syncVBlank(void) { u8 r3, r4; s32 r5; rfu_NI_checkCommFailCounter(); if (gRfuLinkStatus->parentChild == MODE_NEUTRAL) return 0; if (gRfuStatic->nowWatchInterval != 0) --gRfuStatic->nowWatchInterval; r3 = rfu_getMasterSlave(); if (!(gRfuStatic->flags & 2)) { if (r3 == 0) { gRfuStatic->flags |= 4; gRfuStatic->watchdogTimer = 360; } } else if (r3 != 0) { gRfuStatic->flags &= 0xFB; } if (r3 != 0) gRfuStatic->flags &= 0xFD; else gRfuStatic->flags |= 2; if (!(gRfuStatic->flags & 4)) return 0; if (gRfuStatic->watchdogTimer == 0) { gRfuStatic->flags &= 0xFB; r5 = gRfuLinkStatus->connSlotFlag | gRfuLinkStatus->linkLossSlotFlag; for (r4 = 0; r4 < RFU_CHILD_MAX; ++r4) if ((r5 >> r4) & 1) rfu_STC_removeLinkData(r4, 1); gRfuLinkStatus->parentChild = MODE_NEUTRAL; return 1; } --gRfuStatic->watchdogTimer; return 0; } u16 rfu_REQBN_watchLink(u16 reqCommandId, u8 *bmLinkLossSlot, u8 *linkLossReason, u8 *parentBmLinkRecoverySlot) { u8 sp08 = 0; u8 sp0C = 0; u8 i; s32 sp10, sp14; u8 *r2; u8 r9, r6, r3, connSlotFlag, r0; *bmLinkLossSlot = 0; *linkLossReason = REASON_DISCONNECTED; *parentBmLinkRecoverySlot = 0; if (gRfuLinkStatus->parentChild == MODE_NEUTRAL || gSTWIStatus->msMode == 0) return 0; if (gRfuStatic->flags & 4) gRfuStatic->watchdogTimer = 360; if (gRfuStatic->nowWatchInterval == 0) { gRfuStatic->nowWatchInterval = gRfuLinkStatus->watchInterval; sp08 = 1; } if ((u8)reqCommandId == 41) { u8 *r1 = gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data; *bmLinkLossSlot = r1[4]; *linkLossReason = r1[5]; if (*linkLossReason == REASON_LINK_LOSS) *bmLinkLossSlot = gRfuLinkStatus->connSlotFlag; sp08 = 2; } else { if (reqCommandId == 310) { r6 = gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[5]; r6 ^= gRfuLinkStatus->connSlotFlag; *bmLinkLossSlot = r6 & gRfuLinkStatus->connSlotFlag; *linkLossReason = REASON_LINK_LOSS; for (i = 0; i < RFU_CHILD_MAX; ++i) { if ((*bmLinkLossSlot >> i) & 1) { gRfuLinkStatus->strength[i] = 0; rfu_STC_removeLinkData(i, 0); } } } if (sp08 == 0) return 0; } sp10 = gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket32.command; sp14 = gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket32.data[0]; STWI_set_Callback_M(rfu_CB_defaultCallback); STWI_send_LinkStatusREQ(); sp0C = STWI_poll_CommandEnd(); if (sp0C == 0) { r2 = &gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[4]; for (i = 0; i < RFU_CHILD_MAX; ++i) gRfuLinkStatus->strength[i] = *r2++; r9 = 0; i = 0; } else { rfu_STC_REQ_callback(17, sp0C); return sp0C; } for (; i < RFU_CHILD_MAX; ++i) { r6 = 1 << i; if (sp0C == 0) { if (sp08 == 1 && (gRfuLinkStatus->connSlotFlag & r6)) { if (gRfuLinkStatus->strength[i] == 0) { if (gRfuLinkStatus->parentChild == MODE_PARENT) { ++gRfuStatic->linkEmergencyFlag[i]; if (gRfuStatic->linkEmergencyFlag[i] > 3) { *bmLinkLossSlot |= r6; *linkLossReason = sp08; // why not directly use REASON_LINK_LOSS? } } else { STWI_send_SystemStatusREQ(); if (STWI_poll_CommandEnd() == 0) { if (gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[7] == 0) { *bmLinkLossSlot |= r6; *linkLossReason = sp08; // why not directly use REASON_LINK_LOSS? } else { if (++gRfuStatic->linkEmergencyFlag[i] > gRfuStatic->unk_1a) { gRfuStatic->linkEmergencyFlag[i] = 0; STWI_send_DisconnectREQ(gRfuLinkStatus->connSlotFlag); STWI_poll_CommandEnd(); *bmLinkLossSlot |= r6; *linkLossReason = sp08; // why not directly use REASON_LINK_LOSS? } } } } } else { gRfuStatic->linkEmergencyFlag[i] = sp0C; // why not directly use 0? } } if (gRfuLinkStatus->parentChild == MODE_PARENT && gRfuLinkStatus->strength[i] != 0) { if (r6 & gRfuLinkStatus->linkLossSlotFlag) { if (gRfuLinkStatus->strength[i] > 10) { *parentBmLinkRecoverySlot |= r6; gRfuLinkStatus->connSlotFlag |= r6; gRfuLinkStatus->linkLossSlotFlag &= ~r6; ++gRfuLinkStatus->connCount; gRfuStatic->linkEmergencyFlag[i] = 0; } else { gRfuLinkStatus->strength[i] = 0; } } else { if (!((gRfuLinkStatus->connSlotFlag | gRfuLinkStatus->linkLossSlotFlag) & r6)) { STWI_send_SlotStatusREQ(); STWI_poll_CommandEnd(); r2 = gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data; r3 = r2[1] - 1; for (r2 += 8; r3 != 0; r2 += 4, --r3) { u16 r4 = *(u16 *)r2; if (r2[2] == i && r4 == gRfuStatic->cidBak[i]) { r9 |= 1 << i; break; } } } } } } connSlotFlag = gRfuLinkStatus->connSlotFlag; r0 = *bmLinkLossSlot; r0 &= connSlotFlag; if (r6 & r0) rfu_STC_removeLinkData(i, 0); } if (r9 != 0) { STWI_send_DisconnectREQ(r9); STWI_poll_CommandEnd(); } // equivalent to: // gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket32.command = sp10; *(u32 *)gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data = sp10; gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket32.data[0] = sp14; return 0; } static void rfu_STC_removeLinkData(u8 r7, u8 r12) { u8 r5 = 1 << r7; s32 r6; if ((gRfuLinkStatus->connSlotFlag & r5) && gRfuLinkStatus->connCount != 0) --gRfuLinkStatus->connCount; gRfuLinkStatus->connSlotFlag &= r6 = ~r5; gRfuLinkStatus->linkLossSlotFlag |= r5; if ((*(u32 *)gRfuLinkStatus & 0xFF00FF) == 0) gRfuLinkStatus->parentChild = MODE_NEUTRAL; if (r12 != 0) { CpuFill16(0, &gRfuLinkStatus->partner[r7], sizeof(struct RfuTgtData)); gRfuLinkStatus->linkLossSlotFlag &= r6; gRfuLinkStatus->getNameFlag &= r6; gRfuLinkStatus->strength[r7] = 0; } } void rfu_REQ_disconnect(u8 bmDisconnectSlot) { u16 r1; if ((gRfuLinkStatus->connSlotFlag | gRfuLinkStatus->linkLossSlotFlag) & bmDisconnectSlot) { gRfuStatic->recoveryBmSlot = bmDisconnectSlot; if (gRfuLinkStatus->parentChild == MODE_NEUTRAL && gRfuStatic->flags & 0x80) { if (gRfuLinkStatus->linkLossSlotFlag & bmDisconnectSlot) rfu_CB_disconnect(48, 0); } else if (gRfuStatic->SCStartFlag && (STWI_set_Callback_M(rfu_CB_defaultCallback), STWI_send_SC_EndREQ(), (r1 = STWI_poll_CommandEnd()) != 0)) { rfu_STC_REQ_callback(27, r1); } else { STWI_set_Callback_M(rfu_CB_disconnect); STWI_send_DisconnectREQ(bmDisconnectSlot); } } } static void rfu_CB_disconnect(u8 r6, u16 r5) { u8 r4, r0; if (r5 == 3 && gRfuLinkStatus->parentChild == MODE_CHILD) { STWI_set_Callback_M(rfu_CB_defaultCallback); STWI_send_SystemStatusREQ(); if (STWI_poll_CommandEnd() == 0 && gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[7] == 0) r5 = 0; } gRfuStatic->recoveryBmSlot &= gRfuLinkStatus->connSlotFlag | gRfuLinkStatus->linkLossSlotFlag; gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[8] = gRfuStatic->recoveryBmSlot; if (r5 == 0) { for (r4 = 0; r4 < RFU_CHILD_MAX; ++r4) { r0 = 1 << r4; if (r0 & gRfuStatic->recoveryBmSlot) rfu_STC_removeLinkData(r4, 1); } } if ((gRfuLinkStatus->connSlotFlag | gRfuLinkStatus->linkLossSlotFlag) == 0) gRfuLinkStatus->parentChild = MODE_NEUTRAL; rfu_STC_REQ_callback(r6, r5); if (gRfuStatic->SCStartFlag) { STWI_set_Callback_M(rfu_CB_defaultCallback); STWI_send_SC_StartREQ(); r5 = STWI_poll_CommandEnd(); if (r5 != 0) rfu_STC_REQ_callback(25, r5); } } void rfu_REQ_CHILD_startConnectRecovery(u8 bmRecoverySlot) { u8 i; gRfuStatic->recoveryBmSlot = bmRecoverySlot; for (i = 0; i < RFU_CHILD_MAX && !((bmRecoverySlot >> i) & 1); ++i) ; STWI_set_Callback_M(rfu_STC_REQ_callback); // if i == 4, gRfuLinkStatus->partner[i].id becomes gRfuLinkStatus->my.id STWI_send_CPR_StartREQ(gRfuLinkStatus->partner[i].id, gRfuLinkStatus->my.id, bmRecoverySlot); } void rfu_REQ_CHILD_pollConnectRecovery(void) { STWI_set_Callback_M(rfu_CB_CHILD_pollConnectRecovery); STWI_send_CPR_PollingREQ(); } static void rfu_CB_CHILD_pollConnectRecovery(u8 r8, u16 r7) { u8 r3, r4; struct RfuLinkStatus *r2; if (r7 == 0 && gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[4] == 0 && gRfuStatic->recoveryBmSlot) { gRfuLinkStatus->parentChild = MODE_CHILD; for (r4 = 0; r4 < NELEMS(gRfuStatic->linkEmergencyFlag); ++r4) { r3 = 1 << r4; r2 = gRfuLinkStatus; // ??? if (gRfuStatic->recoveryBmSlot & r3 & r2->linkLossSlotFlag) { gRfuLinkStatus->connSlotFlag |= r3; gRfuLinkStatus->linkLossSlotFlag &= ~r3; ++gRfuLinkStatus->connCount; gRfuStatic->linkEmergencyFlag[r4] = 0; } } gRfuStatic->recoveryBmSlot = 0; } rfu_STC_REQ_callback(r8, r7); } u16 rfu_CHILD_getConnectRecoveryStatus(u8 *status) { u8 r0; *status = 0xFF; r0 = gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[0] + 77; if (r0 <= 1) { *status = gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[4]; return 0; } return ERR_REQ_CMD_ID; } void rfu_REQ_CHILD_endConnectRecovery(void) { STWI_set_Callback_M(rfu_CB_CHILD_pollConnectRecovery); STWI_send_CPR_EndREQ(); } static void rfu_STC_fastCopy(const u8 **src_p, u8 **dst_p, s32 size) { const u8 *src = *src_p; u8 *dst = *dst_p; s32 i; for (i = size - 1; i != -1; --i) *dst++ = *src++; *src_p = src; *dst_p = dst; } void rfu_REQ_changeMasterSlave(void) { if (STWI_read_status(1) == 1) { STWI_set_Callback_M(rfu_STC_REQ_callback); STWI_send_MS_ChangeREQ(); } else { rfu_STC_REQ_callback(39, 0); } } bool8 rfu_getMasterSlave(void) { bool8 masterSlave = STWI_read_status(1); if (masterSlave == AGB_CLK_MASTER) { if (gSTWIStatus->unk_2c) { if (gSTWIStatus->reqActiveCommand == 39 || gSTWIStatus->reqActiveCommand == 37 || gSTWIStatus->reqActiveCommand == 55) masterSlave = AGB_CLK_SLAVE; } } return masterSlave; } void rfu_clearAllSlot(void) { u16 i; u16 IMEBackup = REG_IME; REG_IME = 0; for (i = 0; i < RFU_CHILD_MAX; ++i) { CpuFill16(0, gRfuSlotStatusNI[i], 2 * sizeof(struct NIComm)); CpuFill16(0, gRfuSlotStatusUNI[i], sizeof(struct UNISend) + sizeof(struct UNIRecv)); gRfuLinkStatus->remainLLFrameSizeChild[i] = 16; } gRfuLinkStatus->remainLLFrameSizeParent = LLF_P_SIZE; gRfuLinkStatus->sendSlotNIFlag = 0; gRfuLinkStatus->recvSlotNIFlag = 0; gRfuLinkStatus->sendSlotUNIFlag = 0; gRfuStatic->recvRenewalFlag = 0; REG_IME = IMEBackup; } static void rfu_STC_releaseFrame(u8 r5, u8 r3, struct NIComm *r4) { if (!(gRfuStatic->flags & 0x80)) { if (r3 == 0) gRfuLinkStatus->remainLLFrameSizeParent += r4->payloadSize; gRfuLinkStatus->remainLLFrameSizeParent += 3; } else { if (r3 == 0) gRfuLinkStatus->remainLLFrameSizeChild[r5] += r4->payloadSize; gRfuLinkStatus->remainLLFrameSizeChild[r5] += 2; } } u16 rfu_clearSlot(u8 connTypeFlag, u8 slotStatusIndex) { u16 r10, r3, r1; struct NIComm *r4; if (slotStatusIndex >= RFU_CHILD_MAX) return ERR_SLOT_NO; if (!(connTypeFlag & (TYPE_UNI_SEND | TYPE_UNI_RECV | TYPE_NI_SEND | TYPE_NI_RECV))) return ERR_COMM_TYPE; r10 = REG_IME; REG_IME = 0; if (connTypeFlag & (TYPE_NI_SEND | TYPE_NI_RECV)) { for (r3 = 0; r3 < 2; ++r3) { r4 = NULL; if (r3 == 0) { if (connTypeFlag & TYPE_NI_SEND) { r4 = &gRfuSlotStatusNI[slotStatusIndex]->send; gRfuLinkStatus->sendSlotNIFlag &= ~r4->bmSlotOrg; } } else { if (connTypeFlag & TYPE_NI_RECV) { r4 = &gRfuSlotStatusNI[slotStatusIndex]->recv; gRfuLinkStatus->recvSlotNIFlag &= ~(1 << slotStatusIndex); } } if (r4 != NULL) { if (r4->state & SLOT_BUSY_FLAG) { rfu_STC_releaseFrame(slotStatusIndex, r3, r4); for (r1 = 0; r1 < RFU_CHILD_MAX; ++r1) if ((r4->bmSlotOrg >> r1) & 1) r4->failCounter = 0; } CpuFill16(0, r4, sizeof(struct NIComm)); } } } if (connTypeFlag & TYPE_UNI_SEND) { struct RfuSlotStatusUNI *r3 = gRfuSlotStatusUNI[slotStatusIndex]; if (r3->send.state & SLOT_BUSY_FLAG) { if (!(gRfuStatic->flags & 0x80)) gRfuLinkStatus->remainLLFrameSizeParent += 3 + (u8)r3->send.payloadSize; else gRfuLinkStatus->remainLLFrameSizeChild[slotStatusIndex] += 2 + (u8)r3->send.payloadSize; gRfuLinkStatus->sendSlotUNIFlag &= ~r3->send.bmSlot; } CpuFill16(0, &r3->send, sizeof(struct UNISend)); } if (connTypeFlag & TYPE_UNI_RECV) { CpuFill16(0, &gRfuSlotStatusUNI[slotStatusIndex]->recv, sizeof(struct UNIRecv)); } REG_IME = r10; return 0; } u16 rfu_setRecvBuffer(u8 connType, u8 slotNo, void *buffer, u32 buffSize) { if (slotNo >= RFU_CHILD_MAX) return ERR_SLOT_NO; if (connType & TYPE_NI) { gRfuSlotStatusNI[slotNo]->recvBuffer = buffer; gRfuSlotStatusNI[slotNo]->recvBufferSize = buffSize; } else if (!(connType & TYPE_UNI)) { return ERR_COMM_TYPE; } else { gRfuSlotStatusUNI[slotNo]->recvBuffer = buffer; gRfuSlotStatusUNI[slotNo]->recvBufferSize = buffSize; } return 0; } u16 rfu_NI_setSendData(u8 bmSendSlot, u8 subFrameSize, const void *src, u32 size) { return rfu_STC_setSendData_org(32, bmSendSlot, subFrameSize, src, size); } u16 rfu_UNI_setSendData(u8 bmSendSlot, const void *src, u8 size) { u8 subFrameSize; if (gRfuLinkStatus->parentChild == MODE_PARENT) subFrameSize = size + 3; else subFrameSize = size + 2; return rfu_STC_setSendData_org(16, bmSendSlot, subFrameSize, src, 0); } u16 rfu_NI_CHILD_setSendGameName(u8 slotNo, u8 subFrameSize) { return rfu_STC_setSendData_org(64, 1 << slotNo, subFrameSize, &gRfuLinkStatus->my.serialNo, 26); } static u16 rfu_STC_setSendData_org(u8 r6, u8 bmSendSlot, u8 subFrameSize, const void *src, u32 sp28) { u8 r2, r0; u8 r4; u8 *r9; u8 r5; u8 i; u16 sp04; struct RfuSlotStatusUNI *r1; struct RfuSlotStatusNI *r12; if (gRfuLinkStatus->parentChild == MODE_NEUTRAL) return ERR_MODE_NOT_CONNECTED; if (!(bmSendSlot & 0xF)) return ERR_SLOT_NO; if (((gRfuLinkStatus->connSlotFlag | gRfuLinkStatus->linkLossSlotFlag) & bmSendSlot) != bmSendSlot) return ERR_SLOT_NOT_CONNECTED; if (r6 & 0x10) r0 = gRfuLinkStatus->sendSlotUNIFlag; else r0 = gRfuLinkStatus->sendSlotNIFlag; if (r0 & bmSendSlot) return ERR_SLOT_BUSY; for (r2 = 0; r2 < RFU_CHILD_MAX && !((bmSendSlot >> r2) & 1); ++r2) ; if (gRfuLinkStatus->parentChild == MODE_PARENT) r9 = &gRfuLinkStatus->remainLLFrameSizeParent; else if (gRfuLinkStatus->parentChild == MODE_CHILD) r9 = &gRfuLinkStatus->remainLLFrameSizeChild[r2]; r4 = llsf_struct[gRfuLinkStatus->parentChild].unk00; if (subFrameSize > *r9 || subFrameSize <= r4) return ERR_SUBFRAME_SIZE; sp04 = REG_IME; REG_IME = 0; r5 = r6 & 0x20; if (r5 || r6 == 0x40) { u8 *r1; // a hack to swap instructions r12 = gRfuSlotStatusNI[r2]; r1 = NULL; r12->send.errorCode = 0; *r12->send.now_p = r1 = &r12->send.dataType; r12->send.remainSize = 7; r12->send.bmSlotOrg = bmSendSlot; r12->send.bmSlot = bmSendSlot; r12->send.payloadSize = subFrameSize - r4; if (r5 != 0) *r1 = 0; else *r1 = 1; r12->send.dataSize = sp28; r12->send.src = src; r12->send.ack = 0; r12->send.phase = 0; #ifndef NONMATCHING // to fix r2, r3, r4, r5 register roulette asm("":::"r2"); #endif for (i = 0; i < WINDOW_COUNT; ++i) { r12->send.recvAckFlag[i] = 0; r12->send.n[i] = 1; } for (r2 = 0; r2 < RFU_CHILD_MAX; ++r2) if ((bmSendSlot >> r2) & 1) gRfuSlotStatusNI[r2]->send.failCounter = 0; gRfuLinkStatus->sendSlotNIFlag |= bmSendSlot; *r9 -= subFrameSize; r12->send.state = SLOT_STATE_SEND_START; } else if (r6 & 0x10) { r1 = gRfuSlotStatusUNI[r2]; r1->send.bmSlot = bmSendSlot; r1->send.src = src; r1->send.payloadSize = subFrameSize - r4; *r9 -= subFrameSize; r1->send.state = SLOT_STATE_SEND_UNI; gRfuLinkStatus->sendSlotUNIFlag |= bmSendSlot; } REG_IME = sp04; return 0; } u16 rfu_changeSendTarget(u8 connType, u8 slotStatusIndex, u8 bmNewTgtSlot) { struct RfuSlotStatusNI *r5; u16 r8; u8 r2; if (slotStatusIndex >= RFU_CHILD_MAX) return ERR_SLOT_NO; if (connType == 0x20) { r5 = gRfuSlotStatusNI[slotStatusIndex]; if ((r5->send.state & SLOT_BUSY_FLAG) && (r5->send.state & SLOT_SEND_FLAG)) { connType = bmNewTgtSlot ^ r5->send.bmSlot; if (!(connType & bmNewTgtSlot)) { if (connType) { r8 = REG_IME; REG_IME = 0; for (r2 = 0; r2 < RFU_CHILD_MAX; ++r2) { if ((connType >> r2) & 1) gRfuSlotStatusNI[r2]->send.failCounter = 0; } gRfuLinkStatus->sendSlotNIFlag &= ~connType; r5->send.bmSlot = bmNewTgtSlot; if (r5->send.bmSlot == 0) { rfu_STC_releaseFrame(slotStatusIndex, 0, &r5->send); r5->send.state = SLOT_STATE_SEND_FAILED; } REG_IME = r8; } } else { return ERR_SLOT_TARGET; } } else { return ERR_SLOT_NOT_SENDING; } } else { if (connType == 16) { s32 r3; if (gRfuSlotStatusUNI[slotStatusIndex]->send.state != SLOT_STATE_SEND_UNI) return ERR_SLOT_NOT_SENDING; for (r3 = 0, r2 = 0; r2 < RFU_CHILD_MAX; ++r2) if (r2 != slotStatusIndex) r3 |= gRfuSlotStatusUNI[r2]->send.bmSlot; if (bmNewTgtSlot & r3) return ERR_SLOT_TARGET; r8 = REG_IME; REG_IME = 0; gRfuLinkStatus->sendSlotUNIFlag &= ~gRfuSlotStatusUNI[slotStatusIndex]->send.bmSlot; gRfuLinkStatus->sendSlotUNIFlag |= bmNewTgtSlot; gRfuSlotStatusUNI[slotStatusIndex]->send.bmSlot = bmNewTgtSlot; REG_IME = r8; } else { return ERR_COMM_TYPE; } } return 0; } u16 rfu_NI_stopReceivingData(u8 slotStatusIndex) { struct NIComm *r5; u16 r4, r1; if (slotStatusIndex >= RFU_CHILD_MAX) return ERR_SLOT_NO; r5 = &gRfuSlotStatusNI[slotStatusIndex]->recv; r4 = REG_IME; ++r4; --r4; // fix r4, r5 register swap REG_IME = 0; if (gRfuSlotStatusNI[slotStatusIndex]->recv.state & SLOT_BUSY_FLAG) { if (gRfuSlotStatusNI[slotStatusIndex]->recv.state == SLOT_STATE_RECV_LAST) gRfuSlotStatusNI[slotStatusIndex]->recv.state = SLOT_STATE_RECV_SUCCESS_AND_SENDSIDE_UNKNOWN; else gRfuSlotStatusNI[slotStatusIndex]->recv.state = SLOT_STATE_RECV_FAILED; gRfuLinkStatus->recvSlotNIFlag &= ~(1 << slotStatusIndex); rfu_STC_releaseFrame(slotStatusIndex, 1, r5); } REG_IME = r4; return 0; } u16 rfu_UNI_changeAndReadySendData(u8 slotStatusIndex, const void *src, u8 size) { struct UNISend *r4; u8 *r6; u16 r1; u8 r3_; if (slotStatusIndex >= RFU_CHILD_MAX) return ERR_SLOT_NO; r4 = &gRfuSlotStatusUNI[slotStatusIndex]->send; if (r4->state != SLOT_STATE_SEND_UNI) return ERR_SLOT_NOT_SENDING; if (gRfuLinkStatus->parentChild == MODE_PARENT) { r6 = &gRfuLinkStatus->remainLLFrameSizeParent; r3_ = gRfuLinkStatus->remainLLFrameSizeParent + (u8)r4->payloadSize; } else { r6 = &gRfuLinkStatus->remainLLFrameSizeChild[slotStatusIndex]; r3_ = gRfuLinkStatus->remainLLFrameSizeChild[slotStatusIndex] + (u8)r4->payloadSize; } if (r3_ < size) return ERR_SUBFRAME_SIZE; r1 = REG_IME; REG_IME = 0; r4->src = src; *r6 = r3_ - size; r4->payloadSize = size; r4->dataReadyFlag = 1; REG_IME = r1; return 0; } void rfu_UNI_readySendData(u8 slotStatusIndex) { if (slotStatusIndex < RFU_CHILD_MAX) { if (gRfuSlotStatusUNI[slotStatusIndex]->send.state == SLOT_STATE_SEND_UNI) gRfuSlotStatusUNI[slotStatusIndex]->send.dataReadyFlag = 1; } } void rfu_UNI_clearRecvNewDataFlag(u8 slotStatusIndex) { if (slotStatusIndex < RFU_CHILD_MAX) gRfuSlotStatusUNI[slotStatusIndex]->recv.newDataFlag = 0; } void rfu_REQ_sendData(bool8 clockChangeFlag) { if (gRfuLinkStatus->parentChild != MODE_NEUTRAL) { if (gRfuLinkStatus->parentChild == MODE_PARENT && !(gRfuLinkStatus->sendSlotNIFlag | gRfuLinkStatus->recvSlotNIFlag | gRfuLinkStatus->sendSlotUNIFlag)) { if (gRfuStatic->commExistFlag) { gRfuStatic->emberCount = 16; gRfuStatic->nullFrameCount = 0; } if (gRfuStatic->emberCount) --gRfuStatic->emberCount; else ++gRfuStatic->nullFrameCount; if (gRfuStatic->emberCount || !(gRfuStatic->nullFrameCount & 0xF)) { gRfuFixed->LLFBuffer[0] = 1; gRfuFixed->LLFBuffer[4] = 0xFF; STWI_set_Callback_M(rfu_CB_sendData3); if (!clockChangeFlag) STWI_send_DataTxREQ(gRfuFixed->LLFBuffer, 1); else STWI_send_DataTxAndChangeREQ(gRfuFixed->LLFBuffer, 1); return; } } else { if (!gRfuLinkStatus->LLFReadyFlag) rfu_constructSendLLFrame(); if (gRfuLinkStatus->LLFReadyFlag) { STWI_set_Callback_M(rfu_CB_sendData); if (clockChangeFlag) { STWI_send_DataTxAndChangeREQ(gRfuFixed->LLFBuffer, gRfuStatic->totalPacketSize + 4); return; } STWI_send_DataTxREQ(gRfuFixed->LLFBuffer, gRfuStatic->totalPacketSize + 4); } } if (clockChangeFlag) { if (gRfuLinkStatus->parentChild == MODE_PARENT) { if (gSTWIStatus->callbackS != NULL) gSTWIStatus->callbackS(39); } else { STWI_set_Callback_M(rfu_CB_sendData2); STWI_send_MS_ChangeREQ(); } } } } static void rfu_CB_sendData(UNUSED u8 r0, u16 r7) { u8 r6; struct NIComm *r4; if (r7 == 0) { for (r6 = 0; r6 < RFU_CHILD_MAX; ++r6) { if (gRfuSlotStatusUNI[r6]->send.dataReadyFlag) gRfuSlotStatusUNI[r6]->send.dataReadyFlag = 0; r4 = &gRfuSlotStatusNI[r6]->send; if (r4->state == SLOT_STATE_SEND_NULL) { rfu_STC_releaseFrame(r6, 0, r4); gRfuLinkStatus->sendSlotNIFlag &= ~r4->bmSlot; if (r4->dataType == 1) gRfuLinkStatus->getNameFlag |= 1 << r6; r4->state = SLOT_STATE_SEND_SUCCESS; } } } gRfuLinkStatus->LLFReadyFlag = 0; rfu_STC_REQ_callback(36, r7); } static void rfu_CB_sendData2(UNUSED u8 r0, u16 r1) { rfu_STC_REQ_callback(36, r1); } static void rfu_CB_sendData3(u8 r0, u16 r1) { if (r1 != 0) rfu_STC_REQ_callback(36, r1); else if (r0 == 0xFF) rfu_STC_REQ_callback(0xFF, 0); } static void rfu_constructSendLLFrame(void) { u32 r8, r5; u8 r6; u8 *sp00; struct RfuSlotStatusNI *r2; if (gRfuLinkStatus->parentChild != MODE_NEUTRAL && gRfuLinkStatus->sendSlotNIFlag | gRfuLinkStatus->recvSlotNIFlag | gRfuLinkStatus->sendSlotUNIFlag) { gRfuLinkStatus->LLFReadyFlag = 0; r8 = 0; sp00 = (u8 *)&gRfuFixed->LLFBuffer[1]; for (r6 = 0; r6 < RFU_CHILD_MAX; ++r6) { r5 = 0; if (gRfuSlotStatusNI[r6]->send.state & SLOT_BUSY_FLAG) r5 = rfu_STC_NI_constructLLSF(r6, &sp00, &gRfuSlotStatusNI[r6]->send); if (gRfuSlotStatusNI[r6]->recv.state & SLOT_BUSY_FLAG) r5 += rfu_STC_NI_constructLLSF(r6, &sp00, &gRfuSlotStatusNI[r6]->recv); if (gRfuSlotStatusUNI[r6]->send.state == SLOT_STATE_SEND_UNI) r5 += rfu_STC_UNI_constructLLSF(r6, &sp00); if (r5 != 0) { if (gRfuLinkStatus->parentChild == MODE_PARENT) r8 += r5; else r8 |= r5 << (5 * r6 + 8); } } if (r8 != 0) { while ((u32)sp00 & 3) *sp00++ = 0; gRfuFixed->LLFBuffer[0] = r8; if (gRfuLinkStatus->parentChild == MODE_CHILD) { u8 *r0 = sp00 - offsetof(struct RfuFixed, LLFBuffer[1]); // Does the volatile qualifier make sense? // It's the same as: // asm("":::"memory"); r8 = r0 - *(u8 *volatile *)&gRfuFixed; } } gRfuStatic->totalPacketSize = r8; } } static u16 rfu_STC_NI_constructLLSF(u8 r10, u8 **r12, struct NIComm *r4) { u16 r5; u32 sp00; u8 i; u8 *r2; const struct LLSFStruct *r8 = &llsf_struct[gRfuLinkStatus->parentChild]; if (r4->state == SLOT_STATE_SENDING) { while (r4->now_p[r4->phase] >= (const u8 *)r4->src + r4->dataSize) { ++r4->phase; if (r4->phase == 4) r4->phase = 0; } } if (r4->state & SLOT_RECV_FLAG) { r5 = 0; } else if (r4->state == SLOT_STATE_SENDING) { if (r4->now_p[r4->phase] + r4->payloadSize > (const u8 *)r4->src + r4->dataSize) r5 = (const u8 *)r4->src + r4->dataSize - r4->now_p[r4->phase]; else r5 = r4->payloadSize; } else { if ((u32)r4->remainSize >= r4->payloadSize) r5 = r4->payloadSize; else r5 = r4->remainSize; } sp00 = (r4->state & 0xF) << r8->unk03 | r4->ack << r8->unk04 | r4->phase << r8->unk05 | r4->n[r4->phase] << r8->unk06 | r5; if (gRfuLinkStatus->parentChild == MODE_PARENT) sp00 |= r4->bmSlot << 18; r2 = (u8 *)&sp00; for (i = 0; i < r8->unk00; ++i) *(*r12)++ = *r2++; if (r5 != 0) { const u8 *sp04 = r4->now_p[r4->phase]; gRfuFixed->fastCopyPtr(&sp04, r12, r5); } if (r4->state == SLOT_STATE_SENDING) { ++r4->phase; if (r4->phase == 4) r4->phase = 0; } if (gRfuLinkStatus->parentChild == MODE_PARENT) gRfuLinkStatus->LLFReadyFlag = 1; else gRfuLinkStatus->LLFReadyFlag |= 1 << r10; return r5 + r8->unk00; } static u16 rfu_STC_UNI_constructLLSF(u8 r8, u8 **r6) { const struct LLSFStruct *r5; const u8 *sp04; u32 sp00; u8 *r2; u8 i; struct UNISend *r4 = &gRfuSlotStatusUNI[r8]->send; if (!r4->dataReadyFlag || !r4->bmSlot) return 0; r5 = &llsf_struct[gRfuLinkStatus->parentChild]; sp00 = (r4->state & 0xF) << r5->unk03 | r4->payloadSize; if (gRfuLinkStatus->parentChild == MODE_PARENT) sp00 |= r4->bmSlot << 18; r2 = (u8 *)&sp00; for (i = 0; i < r5->unk00; ++i) *(*r6)++ = *r2++; sp04 = r4->src; gRfuFixed->fastCopyPtr(&sp04, r6, r4->payloadSize); if (gRfuLinkStatus->parentChild == MODE_PARENT) gRfuLinkStatus->LLFReadyFlag = 16; else gRfuLinkStatus->LLFReadyFlag |= 16 << r8; return r5->unk00 + r4->payloadSize; } void rfu_REQ_recvData(void) { if (gRfuLinkStatus->parentChild != MODE_NEUTRAL) { gRfuStatic->commExistFlag = gRfuLinkStatus->sendSlotNIFlag | gRfuLinkStatus->recvSlotNIFlag | gRfuLinkStatus->sendSlotUNIFlag; gRfuStatic->recvErrorFlag = 0; STWI_set_Callback_M(rfu_CB_recvData); STWI_send_DataRxREQ(); } } static void rfu_CB_recvData(u8 r9, u16 r7) { u8 r6; struct RfuSlotStatusNI *r4; struct NIComm *r5; if (r7 == 0 && gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[1]) { gRfuStatic->NIEndRecvFlag = 0; if (gRfuLinkStatus->parentChild == MODE_PARENT) rfu_STC_PARENT_analyzeRecvPacket(); else rfu_STC_CHILD_analyzeRecvPacket(); for (r6 = 0; r6 < RFU_CHILD_MAX; ++r6) { r4 = gRfuSlotStatusNI[r6]; if (r4->recv.state == SLOT_STATE_RECV_LAST && !((gRfuStatic->NIEndRecvFlag >> r6) & 1)) { r5 = &r4->recv; if (r5->dataType == 1) gRfuLinkStatus->getNameFlag |= 1 << r6; rfu_STC_releaseFrame(r6, 1, r5); gRfuLinkStatus->recvSlotNIFlag &= ~r5->bmSlot; r4->recv.state = SLOT_STATE_RECV_SUCCESS; } } if (gRfuStatic->recvErrorFlag) r7 = gRfuStatic->recvErrorFlag | ERR_DATA_RECV; } rfu_STC_REQ_callback(r9, r7); } static void rfu_STC_PARENT_analyzeRecvPacket(void) { u32 r3; u8 r5; u8 sp[4]; u8 *r6; r3 = gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket32.data[0] >> 8; for (r5 = 0; r5 < NELEMS(sp); ++r5) { sp[r5] = r3 & 0x1F; r3 >>= 5; if (sp[r5] == 0) gRfuStatic->NIEndRecvFlag |= 1 << r5; } r6 = &gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[8]; for (r5 = 0; r5 < NELEMS(sp); ++r5) { if (sp[r5]) { u8 *r4 = &sp[r5]; do { u8 r0 = rfu_STC_analyzeLLSF(r5, r6, *r4); r6 += r0; *r4 -= r0; } while (!(*r4 & 0x80) && (*r4)); } } } static void rfu_STC_CHILD_analyzeRecvPacket(void) { u16 r4; u8 *r5; u16 r0; r4 = *(u16 *)&gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[4] & 0x7F; r5 = &gRfuFixed->STWIBuffer->rxPacketAlloc.rfuPacket8.data[8]; if (r4 == 0) gRfuStatic->NIEndRecvFlag = 15; do { if (r4 == 0) break; r0 = rfu_STC_analyzeLLSF(0, r5, r4); r5 += r0; r4 -= r0; } while (!(r4 & 0x8000)); } static u16 rfu_STC_analyzeLLSF(u8 r12, const u8 *r7, u16 r3) { struct RfuLocalStruct sp00; const struct LLSFStruct *r6; u32 r5; u8 r4; u32 r0; u16 r10; r6 = &llsf_struct[~gRfuLinkStatus->parentChild & (MODE_NEUTRAL & MODE_PARENT)]; if (r3 < r6->unk00) return r3; r5 = 0; for (r4 = 0; r4 < r6->unk00; ++r4) r5 |= *r7++ << 8 * r4; sp00.unk00 = (r5 >> r6->unk01) & r6->unk07; sp00.unk01 = (r5 >> r6->unk02) & r6->unk08; sp00.unk02 = (r5 >> r6->unk03) & r6->unk09; sp00.unk03 = (r5 >> r6->unk04) & r6->unk0A; sp00.unk04 = (r5 >> r6->unk05) & r6->unk0B; sp00.unk05 = (r5 >> r6->unk06) & r6->unk0C; sp00.unk06 = (r5 & r6->unk0E) & r5; r10 = sp00.unk06 + r6->unk00; if (sp00.unk00 == 0) { if (gRfuLinkStatus->parentChild == MODE_PARENT) { if ((gRfuLinkStatus->connSlotFlag >> r12) & 1) { if (sp00.unk02 == 4) { rfu_STC_UNI_receive(r12, &sp00, r7); } else if (sp00.unk03 == 0) { rfu_STC_NI_receive_Receiver(r12, &sp00, r7); } else { for (r4 = 0; r4 < RFU_CHILD_MAX; ++r4) if (((gRfuSlotStatusNI[r4]->send.bmSlot >> r12) & 1) && ((gRfuLinkStatus->sendSlotNIFlag >> r12) & 1)) break; if (r4 <= 3) rfu_STC_NI_receive_Sender(r4, r12, &sp00, r7); } } } else { s32 r5 = gRfuLinkStatus->connSlotFlag & sp00.unk01; if (r5) { for (r4 = 0; r4 < RFU_CHILD_MAX; ++r4) { if ((r5 >> r4) & 1) { if (sp00.unk02 == 4) rfu_STC_UNI_receive(r4, &sp00, r7); else if (sp00.unk03 == 0) rfu_STC_NI_receive_Receiver(r4, &sp00, r7); else if ((gRfuLinkStatus->sendSlotNIFlag >> r4) & 1) rfu_STC_NI_receive_Sender(r4, r4, &sp00, r7); } } } } } return r10; } static void rfu_STC_UNI_receive(u8 r7, const struct RfuLocalStruct *r6, const u8 *sp00) { u8 *sp04; u32 r2; struct RfuSlotStatusUNI *r3 = gRfuSlotStatusUNI[r7]; struct UNIRecv *r5 = &r3->recv; r5->errorCode = 0; if (gRfuSlotStatusUNI[r7]->recvBufferSize < r6->unk06) { r3->recv.state = SLOT_STATE_RECV_IGNORE; r5->errorCode = ERR_RECV_BUFF_OVER; } else { if (r5->dataBlockFlag) { if (r5->newDataFlag) { r5->errorCode = ERR_RECV_UNK; goto _081E2F0E; } } else { if (r5->newDataFlag) r5->errorCode = ERR_RECV_DATA_OVERWRITED; } r5->state = SLOT_STATE_RECEIVING; r2 = r5->dataSize = r6->unk06; sp04 = gRfuSlotStatusUNI[r7]->recvBuffer; gRfuFixed->fastCopyPtr(&sp00, &sp04, r2); r5->newDataFlag = 1; r5->state = 0; } _081E2F0E: if (r5->errorCode) gRfuStatic->recvErrorFlag |= 16 << r7; } static void rfu_STC_NI_receive_Sender(u8 r0, u8 r10, const struct RfuLocalStruct *r6, const u8 *r3) { struct NIComm *r12 = &gRfuSlotStatusNI[r0]->send; u16 r9 = r12->state; u8 sp00 = r12->n[r6->unk04]; u8 *r8; u8 r4; u16 r2; if ((r6->unk02 == 2 && r9 == SLOT_STATE_SENDING) || (r6->unk02 == 1 && r9 == SLOT_STATE_SEND_START) || (r6->unk02 == 3 && r9 == SLOT_STATE_SEND_LAST)) { if (r12->n[r6->unk04] == r6->unk05) r12->recvAckFlag[r6->unk04] |= 1 << r10; } if ((r12->recvAckFlag[r6->unk04] & r12->bmSlot) == r12->bmSlot) { r12->n[r6->unk04] = (r12->n[r6->unk04] + 1) & 3; r12->recvAckFlag[r6->unk04] = 0; if ((u16)(r12->state + ~SLOT_STATE_SEND_NULL) <= 1) { if (r12->state == SLOT_STATE_SEND_START) r12->now_p[r6->unk04] += r12->payloadSize; else r12->now_p[r6->unk04] += r12->payloadSize << 2; r12->remainSize -= r12->payloadSize; if (r12->remainSize != 0) if (r12->remainSize >= 0) goto _081E30AE; // Above is a hack to avoid optimization over comparison. // rfu_STC_NI_constructLLSF uses this field as u32. // It's equivalent to the following condition: // if (r12->remainSize == 0 || r12->remainSize < 0) { r12->phase = 0; if (r12->state == SLOT_STATE_SEND_START) { for (r4 = 0; r4 < WINDOW_COUNT; ++r4) { r12->n[r4] = 1; r12->now_p[r4] = r12->src + r12->payloadSize * r4; } r12->remainSize = r12->dataSize; r12->state = SLOT_STATE_SENDING; } else { r12->n[0] = 0; r12->remainSize = 0; r12->state = SLOT_STATE_SEND_LAST; } } _081E30AE: } else if (r12->state == SLOT_STATE_SEND_LAST) { r12->state = SLOT_STATE_SEND_NULL; } } if (r12->state != r9 || r12->n[r6->unk04] != sp00 || (r12->recvAckFlag[r6->unk04] >> r10) & 1) { r2 = REG_IME; REG_IME = 0; gRfuStatic->recvRenewalFlag |= 16 << r10; gRfuSlotStatusNI[r10]->send.failCounter = 0; REG_IME = r2; } } static void rfu_STC_NI_receive_Receiver(u8 r8, const struct RfuLocalStruct *r6, const u8 *sp00) { u16 r2; u32 r7 = 0; struct RfuSlotStatusNI *r4 = gRfuSlotStatusNI[r8]; struct NIComm *r5 = &r4->recv; u16 r9 = r4->recv.state; u8 r10 = r4->recv.n[r6->unk04]; if (r6->unk02 == 3) { gRfuStatic->NIEndRecvFlag |= 1 << r8; if (r4->recv.state == SLOT_STATE_RECEIVING) { r4->recv.phase = 0; r4->recv.n[0] = 0; r4->recv.state = SLOT_STATE_RECV_LAST; } } else if (r6->unk02 == 2) { if (r9 == SLOT_STATE_RECV_START && !r5->remainSize) rfu_STC_NI_initSlot_asRecvDataEntity(r8, r5); if (r5->state == SLOT_STATE_RECEIVING) r7 = 1; } else if (r6->unk02 == 1) { if (r9 == SLOT_STATE_RECV_START) { r7 = 1; } else { rfu_STC_NI_initSlot_asRecvControllData(r8, r5); if (r4->recv.state != SLOT_STATE_RECV_START) return; r7 = 1; } } if (r7 != 0) { if (r6->unk05 == ((r5->n[r6->unk04] + 1) & 3)) { gRfuFixed->fastCopyPtr(&sp00, (u8 **)&r5->now_p[r6->unk04], r6->unk06); if (r5->state == SLOT_STATE_RECEIVING) r5->now_p[r6->unk04] += 3 * r5->payloadSize; r5->remainSize -= r6->unk06; r5->n[r6->unk04] = r6->unk05; } } if (r5->errorCode == 0) { r5->phase = r6->unk04; if (r5->state != r9 || r5->n[r6->unk04] != r10 || r5->n[r6->unk04] == r6->unk05) { r2 = REG_IME; REG_IME = 0; gRfuStatic->recvRenewalFlag |= 1 << r8; r5->failCounter = 0; REG_IME = r2; } } } static void rfu_STC_NI_initSlot_asRecvControllData(u8 r4, struct NIComm *r2) { u8 *r1; u32 r5; u8 r6; if (gRfuLinkStatus->parentChild == MODE_PARENT) { r5 = 3; r1 = &gRfuLinkStatus->remainLLFrameSizeParent; } else { r5 = 2; r1 = &gRfuLinkStatus->remainLLFrameSizeChild[r4]; } r6 = 1 << r4; if (r2->state == 0) { if (*r1 < r5) { r2->state = SLOT_STATE_RECV_IGNORE; r2->errorCode = ERR_RECV_REPLY_SUBFRAME_SIZE; gRfuStatic->recvErrorFlag |= r6; } else { r2->errorCode = 0; *r1 -= r5; r2->now_p[0] = &r2->dataType; r2->remainSize = 7; r2->ack = 1; r2->payloadSize = 0; r2->bmSlot = r6; r2->state = SLOT_STATE_RECV_START; gRfuLinkStatus->recvSlotNIFlag |= r6; } } } static void rfu_STC_NI_initSlot_asRecvDataEntity(u8 r5, struct NIComm *r4) { u8 r1, r3; if (r4->dataType == 1) { r4->now_p[0] = (void *)&gRfuLinkStatus->partner[r5].serialNo; } else { if (r4->dataSize > gRfuSlotStatusNI[r5]->recvBufferSize) { r1 = 1 << r5; gRfuStatic->recvErrorFlag |= r1; gRfuLinkStatus->recvSlotNIFlag &= ~r1; r4->errorCode = ERR_RECV_BUFF_OVER; r4->state = SLOT_STATE_RECV_FAILED; rfu_STC_releaseFrame(r5, 1, r4); return; } r4->now_p[0] = gRfuSlotStatusNI[r5]->recvBuffer; } for (r3 = 0; r3 < WINDOW_COUNT; ++r3) { r4->n[r3] = 0; r4->now_p[r3] = &r4->now_p[0][r4->payloadSize * r3]; } r4->remainSize = r4->dataSize; r4->state = SLOT_STATE_RECEIVING; } static void rfu_NI_checkCommFailCounter(void) { u16 r12; u32 r7; u8 r2, r3; if (gRfuLinkStatus->sendSlotNIFlag | gRfuLinkStatus->recvSlotNIFlag) { r12 = REG_IME; REG_IME = 0; r7 = gRfuStatic->recvRenewalFlag >> 4; for (r3 = 0; r3 < RFU_CHILD_MAX; ++r3) { r2 = 1 << r3; if (gRfuLinkStatus->sendSlotNIFlag & r2 && !(gRfuStatic->recvRenewalFlag & r2)) ++gRfuSlotStatusNI[r3]->send.failCounter; if (gRfuLinkStatus->recvSlotNIFlag & r2 && !(r7 & r2)) ++gRfuSlotStatusNI[r3]->recv.failCounter; } gRfuStatic->recvRenewalFlag = 0; REG_IME = r12; } } void rfu_REQ_noise(void) { STWI_set_Callback_M(rfu_STC_REQ_callback); STWI_send_TestModeREQ(1, 0); }