/* * Copyright (c) 1996, 2003 VIA Networking Technologies, Inc. * All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program 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 * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. * * * File: key.c * * Purpose: Implement functions for 802.11i Key management * * Author: Jerry Chen * * Date: May 29, 2003 * * Functions: * KeyvInitTable - Init Key management table * KeybGetKey - Get Key from table * KeybSetKey - Set Key to table * KeybRemoveKey - Remove Key from table * KeybGetTransmitKey - Get Transmit Key from table * * Revision History: * */ #include "tmacro.h" #include "key.h" #include "mac.h" #include "rndis.h" #include "control.h" /*--------------------- Static Definitions -------------------------*/ /*--------------------- Static Classes ----------------------------*/ /*--------------------- Static Variables --------------------------*/ static int msglevel =MSG_LEVEL_INFO; //static int msglevel =MSG_LEVEL_DEBUG; /*--------------------- Static Functions --------------------------*/ /*--------------------- Export Variables --------------------------*/ /*--------------------- Static Definitions -------------------------*/ /*--------------------- Static Classes ----------------------------*/ /*--------------------- Static Variables --------------------------*/ /*--------------------- Static Functions --------------------------*/ static void s_vCheckKeyTableValid(void *pDeviceHandler, PSKeyManagement pTable) { PSDevice pDevice = (PSDevice) pDeviceHandler; int i; WORD wLength = 0; BYTE pbyData[MAX_KEY_TABLE]; for (i=0;iKeyTable[i].bInUse == TRUE) && (pTable->KeyTable[i].PairwiseKey.bKeyValid == FALSE) && (pTable->KeyTable[i].GroupKey[0].bKeyValid == FALSE) && (pTable->KeyTable[i].GroupKey[1].bKeyValid == FALSE) && (pTable->KeyTable[i].GroupKey[2].bKeyValid == FALSE) && (pTable->KeyTable[i].GroupKey[3].bKeyValid == FALSE) ) { pTable->KeyTable[i].bInUse = FALSE; pTable->KeyTable[i].wKeyCtl = 0; pTable->KeyTable[i].bSoftWEP = FALSE; pbyData[wLength++] = (BYTE) i; //MACvDisableKeyEntry(pDevice, i); } } if ( wLength != 0 ) { CONTROLnsRequestOut(pDevice, MESSAGE_TYPE_CLRKEYENTRY, 0, 0, wLength, pbyData ); } } /*--------------------- Export Functions --------------------------*/ /* * Description: Init Key management table * * Parameters: * In: * pTable - Pointer to Key table * Out: * none * * Return Value: none * */ void KeyvInitTable(void *pDeviceHandler, PSKeyManagement pTable) { PSDevice pDevice = (PSDevice) pDeviceHandler; int i; int jj; BYTE pbyData[MAX_KEY_TABLE+1]; spin_lock_irq(&pDevice->lock); for (i=0;iKeyTable[i].bInUse = FALSE; pTable->KeyTable[i].PairwiseKey.bKeyValid = FALSE; pTable->KeyTable[i].PairwiseKey.pvKeyTable = (void *)&pTable->KeyTable[i]; for (jj=0; jj < MAX_GROUP_KEY; jj++) { pTable->KeyTable[i].GroupKey[jj].bKeyValid = FALSE; pTable->KeyTable[i].GroupKey[jj].pvKeyTable = (void *) &(pTable->KeyTable[i]); } pTable->KeyTable[i].wKeyCtl = 0; pTable->KeyTable[i].dwGTKeyIndex = 0; pTable->KeyTable[i].bSoftWEP = FALSE; pbyData[i] = (BYTE) i; } pbyData[i] = (BYTE) i; CONTROLnsRequestOut(pDevice, MESSAGE_TYPE_CLRKEYENTRY, 0, 0, 11, pbyData ); spin_unlock_irq(&pDevice->lock); return; } /* * Description: Get Key from table * * Parameters: * In: * pTable - Pointer to Key table * pbyBSSID - BSSID of Key * dwKeyIndex - Key Index (0xFFFFFFFF means pairwise key) * Out: * pKey - Key return * * Return Value: TRUE if found otherwise FALSE * */ BOOL KeybGetKey(PSKeyManagement pTable, PBYTE pbyBSSID, DWORD dwKeyIndex, PSKeyItem *pKey) { int i; DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"KeybGetKey() \n"); *pKey = NULL; for (i=0;iKeyTable[i].bInUse == TRUE) && !compare_ether_addr(pTable->KeyTable[i].abyBSSID, pbyBSSID)) { if (dwKeyIndex == 0xFFFFFFFF) { if (pTable->KeyTable[i].PairwiseKey.bKeyValid == TRUE) { *pKey = &(pTable->KeyTable[i].PairwiseKey); return (TRUE); } else { return (FALSE); } } else if (dwKeyIndex < MAX_GROUP_KEY) { if (pTable->KeyTable[i].GroupKey[dwKeyIndex].bKeyValid == TRUE) { *pKey = &(pTable->KeyTable[i].GroupKey[dwKeyIndex]); return (TRUE); } else { return (FALSE); } } else { return (FALSE); } } } return (FALSE); } /* * Description: Set Key to table * * Parameters: * In: * pTable - Pointer to Key table * pbyBSSID - BSSID of Key * dwKeyIndex - Key index (reference to NDIS DDK) * uKeyLength - Key length * KeyRSC - Key RSC * pbyKey - Pointer to key * Out: * none * * Return Value: TRUE if success otherwise FALSE * */ BOOL KeybSetKey( void *pDeviceHandler, PSKeyManagement pTable, PBYTE pbyBSSID, DWORD dwKeyIndex, unsigned long uKeyLength, PQWORD pKeyRSC, PBYTE pbyKey, BYTE byKeyDecMode ) { PSDevice pDevice = (PSDevice) pDeviceHandler; int i,j; unsigned int ii; PSKeyItem pKey; unsigned int uKeyIdx; DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"Enter KeybSetKey: %lX\n", dwKeyIndex); j = (MAX_KEY_TABLE-1); for (i=0;i<(MAX_KEY_TABLE-1);i++) { if ((pTable->KeyTable[i].bInUse == FALSE) && (j == (MAX_KEY_TABLE-1))) { // found empty table j = i; } if ((pTable->KeyTable[i].bInUse == TRUE) && !compare_ether_addr(pTable->KeyTable[i].abyBSSID, pbyBSSID)) { // found table already exist if ((dwKeyIndex & PAIRWISE_KEY) != 0) { // Pairwise key pKey = &(pTable->KeyTable[i].PairwiseKey); pTable->KeyTable[i].wKeyCtl &= 0xFFF0; // clear pairwise key control filed pTable->KeyTable[i].wKeyCtl |= byKeyDecMode; uKeyIdx = 4; // use HW key entry 4 for pairwise key } else { // Group key if ((dwKeyIndex & 0x000000FF) >= MAX_GROUP_KEY) return (FALSE); pKey = &(pTable->KeyTable[i].GroupKey[dwKeyIndex & 0x000000FF]); if ((dwKeyIndex & TRANSMIT_KEY) != 0) { // Group transmit key pTable->KeyTable[i].dwGTKeyIndex = dwKeyIndex; DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"Group transmit key(R)[%lX]: %d\n", pTable->KeyTable[i].dwGTKeyIndex, i); } pTable->KeyTable[i].wKeyCtl &= 0xFF0F; // clear group key control filed pTable->KeyTable[i].wKeyCtl |= (byKeyDecMode << 4); pTable->KeyTable[i].wKeyCtl |= 0x0040; // use group key for group address uKeyIdx = (dwKeyIndex & 0x000000FF); } pTable->KeyTable[i].wKeyCtl |= 0x8000; // enable on-fly pKey->bKeyValid = TRUE; pKey->uKeyLength = uKeyLength; pKey->dwKeyIndex = dwKeyIndex; pKey->byCipherSuite = byKeyDecMode; memcpy(pKey->abyKey, pbyKey, uKeyLength); if (byKeyDecMode == KEY_CTL_WEP) { if (uKeyLength == WLAN_WEP40_KEYLEN) pKey->abyKey[15] &= 0x7F; if (uKeyLength == WLAN_WEP104_KEYLEN) pKey->abyKey[15] |= 0x80; } MACvSetKeyEntry(pDevice, pTable->KeyTable[i].wKeyCtl, i, uKeyIdx, pbyBSSID, (PDWORD)pKey->abyKey); if ((dwKeyIndex & USE_KEYRSC) == 0) { // RSC set by NIC memset(&(pKey->KeyRSC), 0, sizeof(QWORD)); } else { memcpy(&(pKey->KeyRSC), pKeyRSC, sizeof(QWORD)); } pKey->dwTSC47_16 = 0; pKey->wTSC15_0 = 0; DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"KeybSetKey(R): \n"); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"pKey->bKeyValid: %d\n ", pKey->bKeyValid); //DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"pKey->uKeyLength: %d\n ", pKey->uKeyLength); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"pKey->abyKey: "); for (ii = 0; ii < pKey->uKeyLength; ii++) { DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO "%02x ", pKey->abyKey[ii]); } DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"\n"); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"pKey->dwTSC47_16: %lx\n ", pKey->dwTSC47_16); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"pKey->wTSC15_0: %x\n ", pKey->wTSC15_0); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"pKey->dwKeyIndex: %lx\n ", pKey->dwKeyIndex); return (TRUE); } } if (j < (MAX_KEY_TABLE-1)) { memcpy(pTable->KeyTable[j].abyBSSID, pbyBSSID, ETH_ALEN); pTable->KeyTable[j].bInUse = TRUE; if ((dwKeyIndex & PAIRWISE_KEY) != 0) { // Pairwise key pKey = &(pTable->KeyTable[j].PairwiseKey); pTable->KeyTable[j].wKeyCtl &= 0xFFF0; // clear pairwise key control filed pTable->KeyTable[j].wKeyCtl |= byKeyDecMode; uKeyIdx = 4; // use HW key entry 4 for pairwise key } else { // Group key if ((dwKeyIndex & 0x000000FF) >= MAX_GROUP_KEY) return (FALSE); pKey = &(pTable->KeyTable[j].GroupKey[dwKeyIndex & 0x000000FF]); if ((dwKeyIndex & TRANSMIT_KEY) != 0) { // Group transmit key pTable->KeyTable[j].dwGTKeyIndex = dwKeyIndex; DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"Group transmit key(N)[%lX]: %d\n", pTable->KeyTable[j].dwGTKeyIndex, j); } pTable->KeyTable[j].wKeyCtl &= 0xFF0F; // clear group key control filed pTable->KeyTable[j].wKeyCtl |= (byKeyDecMode << 4); pTable->KeyTable[j].wKeyCtl |= 0x0040; // use group key for group address uKeyIdx = (dwKeyIndex & 0x000000FF); } pTable->KeyTable[j].wKeyCtl |= 0x8000; // enable on-fly pKey->bKeyValid = TRUE; pKey->uKeyLength = uKeyLength; pKey->dwKeyIndex = dwKeyIndex; pKey->byCipherSuite = byKeyDecMode; memcpy(pKey->abyKey, pbyKey, uKeyLength); if (byKeyDecMode == KEY_CTL_WEP) { if (uKeyLength == WLAN_WEP40_KEYLEN) pKey->abyKey[15] &= 0x7F; if (uKeyLength == WLAN_WEP104_KEYLEN) pKey->abyKey[15] |= 0x80; } MACvSetKeyEntry(pDevice, pTable->KeyTable[j].wKeyCtl, j, uKeyIdx, pbyBSSID, (PDWORD)pKey->abyKey); if ((dwKeyIndex & USE_KEYRSC) == 0) { // RSC set by NIC memset(&(pKey->KeyRSC), 0, sizeof(QWORD)); } else { memcpy(&(pKey->KeyRSC), pKeyRSC, sizeof(QWORD)); } pKey->dwTSC47_16 = 0; pKey->wTSC15_0 = 0; DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"KeybSetKey(N): \n"); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"pKey->bKeyValid: %d\n ", pKey->bKeyValid); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"pKey->uKeyLength: %d\n ", (int)pKey->uKeyLength); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"pKey->abyKey: "); for (ii = 0; ii < pKey->uKeyLength; ii++) { DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO "%02x ", pKey->abyKey[ii]); } DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"\n"); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"pKey->dwTSC47_16: %lx\n ", pKey->dwTSC47_16); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"pKey->wTSC15_0: %x\n ", pKey->wTSC15_0); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"pKey->dwKeyIndex: %lx\n ", pKey->dwKeyIndex); return (TRUE); } return (FALSE); } /* * Description: Remove Key from table * * Parameters: * In: * pTable - Pointer to Key table * pbyBSSID - BSSID of Key * dwKeyIndex - Key Index (reference to NDIS DDK) * Out: * none * * Return Value: TRUE if success otherwise FALSE * */ BOOL KeybRemoveKey( void *pDeviceHandler, PSKeyManagement pTable, PBYTE pbyBSSID, DWORD dwKeyIndex ) { PSDevice pDevice = (PSDevice) pDeviceHandler; int i; BOOL bReturnValue = FALSE; if (is_broadcast_ether_addr(pbyBSSID)) { // dealte all key if ((dwKeyIndex & PAIRWISE_KEY) != 0) { for (i=0;iKeyTable[i].PairwiseKey.bKeyValid = FALSE; } bReturnValue = TRUE; } else if ((dwKeyIndex & 0x000000FF) < MAX_GROUP_KEY) { for (i=0;iKeyTable[i].GroupKey[dwKeyIndex & 0x000000FF].bKeyValid = FALSE; if ((dwKeyIndex & 0x7FFFFFFF) == (pTable->KeyTable[i].dwGTKeyIndex & 0x7FFFFFFF)) { // remove Group transmit key pTable->KeyTable[i].dwGTKeyIndex = 0; } } bReturnValue = TRUE; } else { bReturnValue = FALSE; } } else { for (i=0;iKeyTable[i].bInUse == TRUE) && !compare_ether_addr(pTable->KeyTable[i].abyBSSID, pbyBSSID)) { if ((dwKeyIndex & PAIRWISE_KEY) != 0) { pTable->KeyTable[i].PairwiseKey.bKeyValid = FALSE; bReturnValue = TRUE; break; } else if ((dwKeyIndex & 0x000000FF) < MAX_GROUP_KEY) { pTable->KeyTable[i].GroupKey[dwKeyIndex & 0x000000FF].bKeyValid = FALSE; if ((dwKeyIndex & 0x7FFFFFFF) == (pTable->KeyTable[i].dwGTKeyIndex & 0x7FFFFFFF)) { // remove Group transmit key pTable->KeyTable[i].dwGTKeyIndex = 0; } bReturnValue = TRUE; break; } else { bReturnValue = FALSE; break; } } //pTable->KeyTable[i].bInUse == TRUE } //for bReturnValue = TRUE; } s_vCheckKeyTableValid(pDevice,pTable); return bReturnValue; } /* * Description: Remove Key from table * * Parameters: * In: * pTable - Pointer to Key table * pbyBSSID - BSSID of Key * Out: * none * * Return Value: TRUE if success otherwise FALSE * */ BOOL KeybRemoveAllKey( void *pDeviceHandler, PSKeyManagement pTable, PBYTE pbyBSSID ) { PSDevice pDevice = (PSDevice) pDeviceHandler; int i,u; for (i=0;iKeyTable[i].bInUse == TRUE) && !compare_ether_addr(pTable->KeyTable[i].abyBSSID, pbyBSSID)) { pTable->KeyTable[i].PairwiseKey.bKeyValid = FALSE; for (u = 0; u < MAX_GROUP_KEY; u++) pTable->KeyTable[i].GroupKey[u].bKeyValid = FALSE; pTable->KeyTable[i].dwGTKeyIndex = 0; s_vCheckKeyTableValid(pDevice, pTable); return (TRUE); } } return (FALSE); } /* * Description: Remove WEP Key from table * * Parameters: * In: * pTable - Pointer to Key table * Out: * none * * Return Value: TRUE if success otherwise FALSE * */ void KeyvRemoveWEPKey( void *pDeviceHandler, PSKeyManagement pTable, DWORD dwKeyIndex ) { PSDevice pDevice = (PSDevice) pDeviceHandler; if ((dwKeyIndex & 0x000000FF) < MAX_GROUP_KEY) { if (pTable->KeyTable[MAX_KEY_TABLE-1].bInUse == TRUE) { if (pTable->KeyTable[MAX_KEY_TABLE-1].GroupKey[dwKeyIndex & 0x000000FF].byCipherSuite == KEY_CTL_WEP) { pTable->KeyTable[MAX_KEY_TABLE-1].GroupKey[dwKeyIndex & 0x000000FF].bKeyValid = FALSE; if ((dwKeyIndex & 0x7FFFFFFF) == (pTable->KeyTable[MAX_KEY_TABLE-1].dwGTKeyIndex & 0x7FFFFFFF)) { // remove Group transmit key pTable->KeyTable[MAX_KEY_TABLE-1].dwGTKeyIndex = 0; } } } s_vCheckKeyTableValid(pDevice, pTable); } return; } void KeyvRemoveAllWEPKey(void *pDeviceHandler, PSKeyManagement pTable) { PSDevice pDevice = (PSDevice) pDeviceHandler; int i; for (i = 0; i < MAX_GROUP_KEY; i++) KeyvRemoveWEPKey(pDevice, pTable, i); } /* * Description: Get Transmit Key from table * * Parameters: * In: * pTable - Pointer to Key table * pbyBSSID - BSSID of Key * Out: * pKey - Key return * * Return Value: TRUE if found otherwise FALSE * */ BOOL KeybGetTransmitKey(PSKeyManagement pTable, PBYTE pbyBSSID, DWORD dwKeyType, PSKeyItem *pKey) { int i, ii; *pKey = NULL; for (i = 0; i < MAX_KEY_TABLE; i++) { if ((pTable->KeyTable[i].bInUse == TRUE) && !compare_ether_addr(pTable->KeyTable[i].abyBSSID, pbyBSSID)) { if (dwKeyType == PAIRWISE_KEY) { if (pTable->KeyTable[i].PairwiseKey.bKeyValid == TRUE) { *pKey = &(pTable->KeyTable[i].PairwiseKey); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"KeybGetTransmitKey:"); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"PAIRWISE_KEY: KeyTable.abyBSSID: "); for (ii = 0; ii < 6; ii++) { DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"%x ", pTable->KeyTable[i].abyBSSID[ii]); } DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"\n"); return (TRUE); } else { DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"PairwiseKey.bKeyValid == FALSE\n"); return (FALSE); } } // End of Type == PAIRWISE else { if (pTable->KeyTable[i].dwGTKeyIndex == 0) { DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"ERROR: dwGTKeyIndex == 0 !!!\n"); return FALSE; } if (pTable->KeyTable[i].GroupKey[(pTable->KeyTable[i].dwGTKeyIndex&0x000000FF)].bKeyValid == TRUE) { *pKey = &(pTable->KeyTable[i].GroupKey[(pTable->KeyTable[i].dwGTKeyIndex&0x000000FF)]); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"KeybGetTransmitKey:"); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"GROUP_KEY: KeyTable.abyBSSID\n"); for (ii = 0; ii < 6; ii++) { DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"%x ", pTable->KeyTable[i].abyBSSID[ii]); } DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"\n"); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"dwGTKeyIndex: %lX\n", pTable->KeyTable[i].dwGTKeyIndex); return (TRUE); } else { DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"GroupKey.bKeyValid == FALSE\n"); return (FALSE); } } // End of Type = GROUP } // BSSID match } DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"ERROR: NO Match BSSID !!! "); for (ii = 0; ii < 6; ii++) { DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"%02x ", *(pbyBSSID+ii)); } DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"\n"); return (FALSE); } /* * Description: Check Pairewise Key * * Parameters: * In: * pTable - Pointer to Key table * Out: * none * * Return Value: TRUE if found otherwise FALSE * */ BOOL KeybCheckPairewiseKey(PSKeyManagement pTable, PSKeyItem *pKey) { int i; *pKey = NULL; for (i=0;iKeyTable[i].bInUse == TRUE) && (pTable->KeyTable[i].PairwiseKey.bKeyValid == TRUE)) { *pKey = &(pTable->KeyTable[i].PairwiseKey); return (TRUE); } } return (FALSE); } /* * Description: Set Key to table * * Parameters: * In: * pTable - Pointer to Key table * dwKeyIndex - Key index (reference to NDIS DDK) * uKeyLength - Key length * KeyRSC - Key RSC * pbyKey - Pointer to key * Out: * none * * Return Value: TRUE if success otherwise FALSE * */ BOOL KeybSetDefaultKey( void *pDeviceHandler, PSKeyManagement pTable, DWORD dwKeyIndex, unsigned long uKeyLength, PQWORD pKeyRSC, PBYTE pbyKey, BYTE byKeyDecMode ) { PSDevice pDevice = (PSDevice) pDeviceHandler; unsigned int ii; PSKeyItem pKey; unsigned int uKeyIdx; DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO "Enter KeybSetDefaultKey: %1x, %d\n", (int) dwKeyIndex, (int) uKeyLength); if ((dwKeyIndex & PAIRWISE_KEY) != 0) { // Pairwise key return (FALSE); } else if ((dwKeyIndex & 0x000000FF) >= MAX_GROUP_KEY) { return (FALSE); } pTable->KeyTable[MAX_KEY_TABLE-1].bInUse = TRUE; for (ii = 0; ii < ETH_ALEN; ii++) pTable->KeyTable[MAX_KEY_TABLE-1].abyBSSID[ii] = 0xFF; // Group key pKey = &(pTable->KeyTable[MAX_KEY_TABLE-1].GroupKey[dwKeyIndex & 0x000000FF]); if ((dwKeyIndex & TRANSMIT_KEY) != 0) { // Group transmit key pTable->KeyTable[MAX_KEY_TABLE-1].dwGTKeyIndex = dwKeyIndex; DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"Group transmit key(R)[%lX]: %d\n", pTable->KeyTable[MAX_KEY_TABLE-1].dwGTKeyIndex, MAX_KEY_TABLE-1); } pTable->KeyTable[MAX_KEY_TABLE-1].wKeyCtl &= 0x7F00; // clear all key control filed pTable->KeyTable[MAX_KEY_TABLE-1].wKeyCtl |= (byKeyDecMode << 4); pTable->KeyTable[MAX_KEY_TABLE-1].wKeyCtl |= (byKeyDecMode); pTable->KeyTable[MAX_KEY_TABLE-1].wKeyCtl |= 0x0044; // use group key for all address uKeyIdx = (dwKeyIndex & 0x000000FF); if ((uKeyLength == WLAN_WEP232_KEYLEN) && (byKeyDecMode == KEY_CTL_WEP)) { pTable->KeyTable[MAX_KEY_TABLE-1].wKeyCtl |= 0x4000; // disable on-fly disable address match pTable->KeyTable[MAX_KEY_TABLE-1].bSoftWEP = TRUE; } else { if (pTable->KeyTable[MAX_KEY_TABLE-1].bSoftWEP == FALSE) pTable->KeyTable[MAX_KEY_TABLE-1].wKeyCtl |= 0xC000; // enable on-fly disable address match } pKey->bKeyValid = TRUE; pKey->uKeyLength = uKeyLength; pKey->dwKeyIndex = dwKeyIndex; pKey->byCipherSuite = byKeyDecMode; memcpy(pKey->abyKey, pbyKey, uKeyLength); if (byKeyDecMode == KEY_CTL_WEP) { if (uKeyLength == WLAN_WEP40_KEYLEN) pKey->abyKey[15] &= 0x7F; if (uKeyLength == WLAN_WEP104_KEYLEN) pKey->abyKey[15] |= 0x80; } MACvSetKeyEntry(pDevice, pTable->KeyTable[MAX_KEY_TABLE-1].wKeyCtl, MAX_KEY_TABLE-1, uKeyIdx, pTable->KeyTable[MAX_KEY_TABLE-1].abyBSSID, (PDWORD) pKey->abyKey); if ((dwKeyIndex & USE_KEYRSC) == 0) { // RSC set by NIC memset(&(pKey->KeyRSC), 0, sizeof(QWORD)); } else { memcpy(&(pKey->KeyRSC), pKeyRSC, sizeof(QWORD)); } pKey->dwTSC47_16 = 0; pKey->wTSC15_0 = 0; DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"KeybSetKey(R): \n"); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"pKey->bKeyValid: %d\n", pKey->bKeyValid); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"pKey->uKeyLength: %d\n", (int)pKey->uKeyLength); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"pKey->abyKey: \n"); for (ii = 0; ii < pKey->uKeyLength; ii++) { DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"%x", pKey->abyKey[ii]); } DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"\n"); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"pKey->dwTSC47_16: %lx\n", pKey->dwTSC47_16); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"pKey->wTSC15_0: %x\n", pKey->wTSC15_0); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"pKey->dwKeyIndex: %lx\n", pKey->dwKeyIndex); return (TRUE); } /* * Description: Set Key to table * * Parameters: * In: * pTable - Pointer to Key table * dwKeyIndex - Key index (reference to NDIS DDK) * uKeyLength - Key length * KeyRSC - Key RSC * pbyKey - Pointer to key * Out: * none * * Return Value: TRUE if success otherwise FALSE * */ BOOL KeybSetAllGroupKey( void *pDeviceHandler, PSKeyManagement pTable, DWORD dwKeyIndex, unsigned long uKeyLength, PQWORD pKeyRSC, PBYTE pbyKey, BYTE byKeyDecMode ) { PSDevice pDevice = (PSDevice) pDeviceHandler; int i; unsigned int ii; PSKeyItem pKey; unsigned int uKeyIdx; DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"Enter KeybSetAllGroupKey: %lX\n", dwKeyIndex); if ((dwKeyIndex & PAIRWISE_KEY) != 0) { // Pairwise key return (FALSE); } else if ((dwKeyIndex & 0x000000FF) >= MAX_GROUP_KEY) { return (FALSE); } for (i=0; i < MAX_KEY_TABLE-1; i++) { if (pTable->KeyTable[i].bInUse == TRUE) { // found table already exist // Group key pKey = &(pTable->KeyTable[i].GroupKey[dwKeyIndex & 0x000000FF]); if ((dwKeyIndex & TRANSMIT_KEY) != 0) { // Group transmit key pTable->KeyTable[i].dwGTKeyIndex = dwKeyIndex; DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"Group transmit key(R)[%lX]: %d\n", pTable->KeyTable[i].dwGTKeyIndex, i); } pTable->KeyTable[i].wKeyCtl &= 0xFF0F; // clear group key control filed pTable->KeyTable[i].wKeyCtl |= (byKeyDecMode << 4); pTable->KeyTable[i].wKeyCtl |= 0x0040; // use group key for group address uKeyIdx = (dwKeyIndex & 0x000000FF); pTable->KeyTable[i].wKeyCtl |= 0x8000; // enable on-fly pKey->bKeyValid = TRUE; pKey->uKeyLength = uKeyLength; pKey->dwKeyIndex = dwKeyIndex; pKey->byCipherSuite = byKeyDecMode; memcpy(pKey->abyKey, pbyKey, uKeyLength); if (byKeyDecMode == KEY_CTL_WEP) { if (uKeyLength == WLAN_WEP40_KEYLEN) pKey->abyKey[15] &= 0x7F; if (uKeyLength == WLAN_WEP104_KEYLEN) pKey->abyKey[15] |= 0x80; } MACvSetKeyEntry(pDevice, pTable->KeyTable[i].wKeyCtl, i, uKeyIdx, pTable->KeyTable[i].abyBSSID, (PDWORD) pKey->abyKey); if ((dwKeyIndex & USE_KEYRSC) == 0) { // RSC set by NIC memset(&(pKey->KeyRSC), 0, sizeof(QWORD)); } else { memcpy(&(pKey->KeyRSC), pKeyRSC, sizeof(QWORD)); } pKey->dwTSC47_16 = 0; pKey->wTSC15_0 = 0; DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"KeybSetKey(R): \n"); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"pKey->bKeyValid: %d\n ", pKey->bKeyValid); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"pKey->uKeyLength: %d\n ", (int)pKey->uKeyLength); DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"pKey->abyKey: "); for (ii = 0; ii < pKey->uKeyLength; ii++) { DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"%02x ", pKey->abyKey[ii]); } DBG_PRT(MSG_LEVEL_DEBUG, KERN_INFO"\n"); //DBG_PRN_GRP12(("pKey->dwTSC47_16: %lX\n ", pKey->dwTSC47_16)); //DBG_PRN_GRP12(("pKey->wTSC15_0: %X\n ", pKey->wTSC15_0)); //DBG_PRN_GRP12(("pKey->dwKeyIndex: %lX\n ", pKey->dwKeyIndex)); } // (pTable->KeyTable[i].bInUse == TRUE) } return (TRUE); }