staging: bcm: add missing blank lines after declarations

Fix "Missing blank line after declaration" warnings reported by
checkpatch.pl.

Signed-off-by: Pawel Lebioda <pawel.lebioda89@gmail.com>
Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
This commit is contained in:
Pawel Lebioda 2014-07-09 17:59:29 +02:00 committed by Greg Kroah-Hartman
parent 539889ee49
commit 89fa037b82
10 changed files with 30 additions and 1 deletions

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@ -972,6 +972,7 @@ static VOID DumpCmControlPacket(PVOID pvBuffer)
pstAddIndication->sfAuthorizedSet.bValid = 1; pstAddIndication->sfAuthorizedSet.bValid = 1;
for (nIndex = 0; nIndex < nCurClassifierCnt; nIndex++) { for (nIndex = 0; nIndex < nCurClassifierCnt; nIndex++) {
struct bcm_convergence_types *psfCSType = NULL; struct bcm_convergence_types *psfCSType = NULL;
psfCSType = &pstAddIndication->sfAuthorizedSet.cConvergenceSLTypes[nIndex]; psfCSType = &pstAddIndication->sfAuthorizedSet.cConvergenceSLTypes[nIndex];
BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, DUMP_CONTROL, DBG_LVL_ALL, "psfCSType = %p", psfCSType); BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, DUMP_CONTROL, DBG_LVL_ALL, "psfCSType = %p", psfCSType);

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@ -45,6 +45,7 @@ static UCHAR *GetNextIPV6ChainedHeader(UCHAR **ppucPayload,
case IPV6HDR_TYPE_ROUTING: case IPV6HDR_TYPE_ROUTING:
{ {
struct bcm_ipv6_routing_hdr *pstIpv6RoutingHeader; struct bcm_ipv6_routing_hdr *pstIpv6RoutingHeader;
BCM_DEBUG_PRINT(Adapter, DBG_TYPE_TX, IPV6_DBG, BCM_DEBUG_PRINT(Adapter, DBG_TYPE_TX, IPV6_DBG,
DBG_LVL_ALL, "\nIPv6 Routing Header"); DBG_LVL_ALL, "\nIPv6 Routing Header");
pstIpv6RoutingHeader = (struct bcm_ipv6_routing_hdr *)pucPayloadPtr; pstIpv6RoutingHeader = (struct bcm_ipv6_routing_hdr *)pucPayloadPtr;
@ -66,6 +67,7 @@ static UCHAR *GetNextIPV6ChainedHeader(UCHAR **ppucPayload,
{ {
struct bcm_ipv6_dest_options_hdr *pstIpv6DestOptsHdr = (struct bcm_ipv6_dest_options_hdr *)pucPayloadPtr; struct bcm_ipv6_dest_options_hdr *pstIpv6DestOptsHdr = (struct bcm_ipv6_dest_options_hdr *)pucPayloadPtr;
int nTotalOptions = pstIpv6DestOptsHdr->ucHdrExtLen; int nTotalOptions = pstIpv6DestOptsHdr->ucHdrExtLen;
BCM_DEBUG_PRINT(Adapter, DBG_TYPE_TX, IPV6_DBG, BCM_DEBUG_PRINT(Adapter, DBG_TYPE_TX, IPV6_DBG,
DBG_LVL_ALL, DBG_LVL_ALL,
"\nIPv6 DestOpts Header Header"); "\nIPv6 DestOpts Header Header");
@ -78,6 +80,7 @@ static UCHAR *GetNextIPV6ChainedHeader(UCHAR **ppucPayload,
{ {
struct bcm_ipv6_authentication_hdr *pstIpv6AuthHdr = (struct bcm_ipv6_authentication_hdr *)pucPayloadPtr; struct bcm_ipv6_authentication_hdr *pstIpv6AuthHdr = (struct bcm_ipv6_authentication_hdr *)pucPayloadPtr;
int nHdrLen = pstIpv6AuthHdr->ucLength; int nHdrLen = pstIpv6AuthHdr->ucLength;
BCM_DEBUG_PRINT(Adapter, DBG_TYPE_TX, IPV6_DBG, BCM_DEBUG_PRINT(Adapter, DBG_TYPE_TX, IPV6_DBG,
DBG_LVL_ALL, DBG_LVL_ALL,
"\nIPv6 Authentication Header"); "\nIPv6 Authentication Header");
@ -275,6 +278,7 @@ USHORT IpVersion6(struct bcm_mini_adapter *Adapter, PVOID pcIpHeader,
if (bClassificationSucceed == TRUE) { if (bClassificationSucceed == TRUE) {
INT iMatchedSFQueueIndex = 0; INT iMatchedSFQueueIndex = 0;
iMatchedSFQueueIndex = SearchSfid(Adapter, pstClassifierRule->ulSFID); iMatchedSFQueueIndex = SearchSfid(Adapter, pstClassifierRule->ulSFID);
if (iMatchedSFQueueIndex >= NO_OF_QUEUES) { if (iMatchedSFQueueIndex >= NO_OF_QUEUES) {
bClassificationSucceed = false; bClassificationSucceed = false;
@ -407,6 +411,7 @@ VOID DumpIpv6Address(ULONG *puIpv6Address)
UINT uiIpv6AddrNoLongWords = 4; UINT uiIpv6AddrNoLongWords = 4;
UINT uiIpv6AddIndex = 0; UINT uiIpv6AddIndex = 0;
struct bcm_mini_adapter *Adapter = GET_BCM_ADAPTER(gblpnetdev); struct bcm_mini_adapter *Adapter = GET_BCM_ADAPTER(gblpnetdev);
for (uiIpv6AddIndex = 0; uiIpv6AddIndex < uiIpv6AddrNoLongWords; uiIpv6AddIndex++) { for (uiIpv6AddIndex = 0; uiIpv6AddIndex < uiIpv6AddrNoLongWords; uiIpv6AddIndex++) {
BCM_DEBUG_PRINT(Adapter, DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, BCM_DEBUG_PRINT(Adapter, DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL,
":%lx", puIpv6Address[uiIpv6AddIndex]); ":%lx", puIpv6Address[uiIpv6AddIndex]);
@ -419,6 +424,7 @@ static VOID DumpIpv6Header(struct bcm_ipv6_hdr *pstIpv6Header)
UCHAR ucVersion; UCHAR ucVersion;
UCHAR ucPrio; UCHAR ucPrio;
struct bcm_mini_adapter *Adapter = GET_BCM_ADAPTER(gblpnetdev); struct bcm_mini_adapter *Adapter = GET_BCM_ADAPTER(gblpnetdev);
BCM_DEBUG_PRINT(Adapter, DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL, BCM_DEBUG_PRINT(Adapter, DBG_TYPE_TX, IPV6_DBG, DBG_LVL_ALL,
"----Ipv6 Header---"); "----Ipv6 Header---");
ucVersion = pstIpv6Header->ucVersionPrio & 0xf0; ucVersion = pstIpv6Header->ucVersionPrio & 0xf0;

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@ -244,6 +244,7 @@ static INT buffDnld(struct bcm_mini_adapter *Adapter,
{ {
unsigned int len = 0; unsigned int len = 0;
int retval = STATUS_SUCCESS; int retval = STATUS_SUCCESS;
len = u32FirmwareLength; len = u32FirmwareLength;
while (u32FirmwareLength) { while (u32FirmwareLength) {

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@ -440,6 +440,7 @@ static int select_alternate_setting_for_highspeed_modem(
* Else USB_IF will fail. * Else USB_IF will fail.
*/ */
UINT _uiData = ntohl(EP2_CFG_INT); UINT _uiData = ntohl(EP2_CFG_INT);
BCM_DEBUG_PRINT(psAd, DBG_TYPE_INITEXIT, DRV_ENTRY, BCM_DEBUG_PRINT(psAd, DBG_TYPE_INITEXIT, DRV_ENTRY,
DBG_LVL_ALL, DBG_LVL_ALL,
"Reverting Bulk to INT as it is in Full Speed mode.\n"); "Reverting Bulk to INT as it is in Full Speed mode.\n");

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@ -236,6 +236,7 @@ void putUsbSuspend(struct work_struct *work)
{ {
struct bcm_interface_adapter *psIntfAdapter = NULL; struct bcm_interface_adapter *psIntfAdapter = NULL;
struct usb_interface *intf = NULL; struct usb_interface *intf = NULL;
psIntfAdapter = container_of(work, struct bcm_interface_adapter, psIntfAdapter = container_of(work, struct bcm_interface_adapter,
usbSuspendWork); usbSuspendWork);
intf = psIntfAdapter->interface; intf = psIntfAdapter->interface;

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@ -287,6 +287,7 @@ int phs_init(struct bcm_phs_extension *pPhsdeviceExtension, struct bcm_mini_adap
pstServiceFlowTable = pPhsdeviceExtension->pstServiceFlowPhsRulesTable; pstServiceFlowTable = pPhsdeviceExtension->pstServiceFlowPhsRulesTable;
for (i = 0; i < MAX_SERVICEFLOWS; i++) { for (i = 0; i < MAX_SERVICEFLOWS; i++) {
struct bcm_phs_entry sServiceFlow = pstServiceFlowTable->stSFList[i]; struct bcm_phs_entry sServiceFlow = pstServiceFlowTable->stSFList[i];
sServiceFlow.pstClassifierTable = kzalloc(sizeof(struct bcm_phs_classifier_table), GFP_KERNEL); sServiceFlow.pstClassifierTable = kzalloc(sizeof(struct bcm_phs_classifier_table), GFP_KERNEL);
if (!sServiceFlow.pstClassifierTable) { if (!sServiceFlow.pstClassifierTable) {
BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, PHS_DISPATCH, DBG_LVL_ALL, "\nAllocation failed"); BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, PHS_DISPATCH, DBG_LVL_ALL, "\nAllocation failed");

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@ -94,8 +94,8 @@ static bool MatchDestIpAddress(struct bcm_classifier_rule *pstClassifierRule, UL
**************************************************************************/ **************************************************************************/
static bool MatchTos(struct bcm_classifier_rule *pstClassifierRule, UCHAR ucTypeOfService) static bool MatchTos(struct bcm_classifier_rule *pstClassifierRule, UCHAR ucTypeOfService)
{ {
struct bcm_mini_adapter *Adapter = GET_BCM_ADAPTER(gblpnetdev); struct bcm_mini_adapter *Adapter = GET_BCM_ADAPTER(gblpnetdev);
if (3 != pstClassifierRule->ucIPTypeOfServiceLength) if (3 != pstClassifierRule->ucIPTypeOfServiceLength)
return TRUE; return TRUE;
@ -121,6 +121,7 @@ bool MatchProtocol(struct bcm_classifier_rule *pstClassifierRule, UCHAR ucProtoc
{ {
UCHAR ucLoopIndex = 0; UCHAR ucLoopIndex = 0;
struct bcm_mini_adapter *Adapter = GET_BCM_ADAPTER(gblpnetdev); struct bcm_mini_adapter *Adapter = GET_BCM_ADAPTER(gblpnetdev);
if (0 == pstClassifierRule->ucProtocolLength) if (0 == pstClassifierRule->ucProtocolLength)
return TRUE; return TRUE;
for (ucLoopIndex = 0; ucLoopIndex < pstClassifierRule->ucProtocolLength; ucLoopIndex++) { for (ucLoopIndex = 0; ucLoopIndex < pstClassifierRule->ucProtocolLength; ucLoopIndex++) {
@ -269,6 +270,7 @@ static USHORT IpVersion4(struct bcm_mini_adapter *Adapter,
if (TRUE == bClassificationSucceed) { if (TRUE == bClassificationSucceed) {
INT iMatchedSFQueueIndex = 0; INT iMatchedSFQueueIndex = 0;
iMatchedSFQueueIndex = SearchSfid(Adapter, pstClassifierRule->ulSFID); iMatchedSFQueueIndex = SearchSfid(Adapter, pstClassifierRule->ulSFID);
if (iMatchedSFQueueIndex >= NO_OF_QUEUES) if (iMatchedSFQueueIndex >= NO_OF_QUEUES)
bClassificationSucceed = false; bClassificationSucceed = false;
@ -580,6 +582,7 @@ USHORT ClassifyPacket(struct bcm_mini_adapter *Adapter, struct sk_buff *skb)
* Create Frag CLS Entry * Create Frag CLS Entry
*/ */
struct bcm_fragmented_packet_info stFragPktInfo; struct bcm_fragmented_packet_info stFragPktInfo;
stFragPktInfo.bUsed = TRUE; stFragPktInfo.bUsed = TRUE;
stFragPktInfo.ulSrcIpAddress = pIpHeader->saddr; stFragPktInfo.ulSrcIpAddress = pIpHeader->saddr;
stFragPktInfo.usIpIdentification = pIpHeader->id; stFragPktInfo.usIpIdentification = pIpHeader->id;
@ -601,6 +604,7 @@ static bool EthCSMatchSrcMACAddress(struct bcm_classifier_rule *pstClassifierRul
{ {
UINT i = 0; UINT i = 0;
struct bcm_mini_adapter *Adapter = GET_BCM_ADAPTER(gblpnetdev); struct bcm_mini_adapter *Adapter = GET_BCM_ADAPTER(gblpnetdev);
if (pstClassifierRule->ucEthCSSrcMACLen == 0) if (pstClassifierRule->ucEthCSSrcMACLen == 0)
return TRUE; return TRUE;
BCM_DEBUG_PRINT(Adapter, DBG_TYPE_TX, IPV4_DBG, DBG_LVL_ALL, "%s\n", __func__); BCM_DEBUG_PRINT(Adapter, DBG_TYPE_TX, IPV4_DBG, DBG_LVL_ALL, "%s\n", __func__);
@ -617,6 +621,7 @@ static bool EthCSMatchDestMACAddress(struct bcm_classifier_rule *pstClassifierRu
{ {
UINT i = 0; UINT i = 0;
struct bcm_mini_adapter *Adapter = GET_BCM_ADAPTER(gblpnetdev); struct bcm_mini_adapter *Adapter = GET_BCM_ADAPTER(gblpnetdev);
if (pstClassifierRule->ucEthCSDestMACLen == 0) if (pstClassifierRule->ucEthCSDestMACLen == 0)
return TRUE; return TRUE;
BCM_DEBUG_PRINT(Adapter, DBG_TYPE_TX, IPV4_DBG, DBG_LVL_ALL, "%s\n", __func__); BCM_DEBUG_PRINT(Adapter, DBG_TYPE_TX, IPV4_DBG, DBG_LVL_ALL, "%s\n", __func__);
@ -632,6 +637,7 @@ static bool EthCSMatchDestMACAddress(struct bcm_classifier_rule *pstClassifierRu
static bool EthCSMatchEThTypeSAP(struct bcm_classifier_rule *pstClassifierRule, struct sk_buff *skb, struct bcm_eth_packet_info *pstEthCsPktInfo) static bool EthCSMatchEThTypeSAP(struct bcm_classifier_rule *pstClassifierRule, struct sk_buff *skb, struct bcm_eth_packet_info *pstEthCsPktInfo)
{ {
struct bcm_mini_adapter *Adapter = GET_BCM_ADAPTER(gblpnetdev); struct bcm_mini_adapter *Adapter = GET_BCM_ADAPTER(gblpnetdev);
if ((pstClassifierRule->ucEtherTypeLen == 0) || if ((pstClassifierRule->ucEtherTypeLen == 0) ||
(pstClassifierRule->au8EthCSEtherType[0] == 0)) (pstClassifierRule->au8EthCSEtherType[0] == 0))
return TRUE; return TRUE;
@ -719,6 +725,7 @@ static bool EThCSClassifyPkt(struct bcm_mini_adapter *Adapter, struct sk_buff *s
B_UINT8 EthCSCupport) B_UINT8 EthCSCupport)
{ {
bool bClassificationSucceed = false; bool bClassificationSucceed = false;
bClassificationSucceed = EthCSMatchSrcMACAddress(pstClassifierRule, ((struct bcm_eth_header *)(skb->data))->au8SourceAddress); bClassificationSucceed = EthCSMatchSrcMACAddress(pstClassifierRule, ((struct bcm_eth_header *)(skb->data))->au8SourceAddress);
if (!bClassificationSucceed) if (!bClassificationSucceed)
return false; return false;

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@ -148,6 +148,7 @@ int SetupNextSend(struct bcm_mini_adapter *Adapter, struct sk_buff *Packet, USH
status); status);
} else { } else {
struct net_device_stats *netstats = &Adapter->dev->stats; struct net_device_stats *netstats = &Adapter->dev->stats;
Adapter->PackInfo[QueueIndex].uiTotalTxBytes += Leader.PLength; Adapter->PackInfo[QueueIndex].uiTotalTxBytes += Leader.PLength;
netstats->tx_bytes += Leader.PLength; netstats->tx_bytes += Leader.PLength;

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@ -6,6 +6,7 @@
static B_UINT16 CFG_CalculateChecksum(B_UINT8 *pu8Buffer, B_UINT32 u32Size) static B_UINT16 CFG_CalculateChecksum(B_UINT8 *pu8Buffer, B_UINT32 u32Size)
{ {
B_UINT16 u16CheckSum = 0; B_UINT16 u16CheckSum = 0;
while (u32Size--) { while (u32Size--) {
u16CheckSum += (B_UINT8)~(*pu8Buffer); u16CheckSum += (B_UINT8)~(*pu8Buffer);
pu8Buffer++; pu8Buffer++;
@ -16,6 +17,7 @@ static B_UINT16 CFG_CalculateChecksum(B_UINT8 *pu8Buffer, B_UINT32 u32Size)
bool IsReqGpioIsLedInNVM(struct bcm_mini_adapter *Adapter, UINT gpios) bool IsReqGpioIsLedInNVM(struct bcm_mini_adapter *Adapter, UINT gpios)
{ {
INT Status; INT Status;
Status = (Adapter->gpioBitMap & gpios) ^ gpios; Status = (Adapter->gpioBitMap & gpios) ^ gpios;
if (Status) if (Status)
return false; return false;
@ -489,6 +491,7 @@ static int ReadConfigFileStructure(struct bcm_mini_adapter *Adapter,
PUCHAR puCFGData = NULL; PUCHAR puCFGData = NULL;
UCHAR bData = 0; UCHAR bData = 0;
struct bcm_led_state_info *curr_led_state; struct bcm_led_state_info *curr_led_state;
memset(GPIO_Array, DISABLE_GPIO_NUM, NUM_OF_LEDS+1); memset(GPIO_Array, DISABLE_GPIO_NUM, NUM_OF_LEDS+1);
if (!Adapter->pstargetparams || IS_ERR(Adapter->pstargetparams)) { if (!Adapter->pstargetparams || IS_ERR(Adapter->pstargetparams)) {
@ -715,6 +718,7 @@ static void handle_adapter_driver_state(struct bcm_mini_adapter *ad,
UCHAR GPIO_num_rx = DISABLE_GPIO_NUM; UCHAR GPIO_num_rx = DISABLE_GPIO_NUM;
UCHAR uiLEDTx = 0; UCHAR uiLEDTx = 0;
UCHAR uiLEDRx = 0; UCHAR uiLEDRx = 0;
currdriverstate = NORMAL_OPERATION; currdriverstate = NORMAL_OPERATION;
ad->LEDInfo.bIdle_led_off = false; ad->LEDInfo.bIdle_led_off = false;

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@ -361,6 +361,7 @@ int BeceemEEPROMBulkRead(struct bcm_mini_adapter *Adapter,
} else { } else {
/* Handle the reads less than 4 bytes... */ /* Handle the reads less than 4 bytes... */
PUCHAR pCharBuff = (PUCHAR)pBuffer; PUCHAR pCharBuff = (PUCHAR)pBuffer;
pCharBuff += uiIndex; pCharBuff += uiIndex;
if (ReadBeceemEEPROM(Adapter, uiOffset, &uiData[0]) == 0) { if (ReadBeceemEEPROM(Adapter, uiOffset, &uiData[0]) == 0) {
memcpy(pCharBuff, &uiData[0], uiBytesRemaining); /* copy only bytes requested. */ memcpy(pCharBuff, &uiData[0], uiBytesRemaining); /* copy only bytes requested. */
@ -914,6 +915,7 @@ static int flashWriteStatus(struct bcm_mini_adapter *Adapter,
static VOID BcmRestoreBlockProtectStatus(struct bcm_mini_adapter *Adapter, ULONG ulWriteStatus) static VOID BcmRestoreBlockProtectStatus(struct bcm_mini_adapter *Adapter, ULONG ulWriteStatus)
{ {
unsigned int value; unsigned int value;
value = (FLASH_CMD_WRITE_ENABLE << 24); value = (FLASH_CMD_WRITE_ENABLE << 24);
wrmalt(Adapter, FLASH_SPI_CMDQ_REG, &value, sizeof(value)); wrmalt(Adapter, FLASH_SPI_CMDQ_REG, &value, sizeof(value));
@ -1154,6 +1156,7 @@ static int BeceemFlashBulkWrite(struct bcm_mini_adapter *Adapter,
if (STATUS_SUCCESS == BeceemFlashBulkRead(Adapter, (PUINT)ucReadBk, uiOffsetFromSectStart + uiIndex, MAX_RW_SIZE)) { if (STATUS_SUCCESS == BeceemFlashBulkRead(Adapter, (PUINT)ucReadBk, uiOffsetFromSectStart + uiIndex, MAX_RW_SIZE)) {
if (Adapter->ulFlashWriteSize == 1) { if (Adapter->ulFlashWriteSize == 1) {
unsigned int uiReadIndex = 0; unsigned int uiReadIndex = 0;
for (uiReadIndex = 0; uiReadIndex < 16; uiReadIndex++) { for (uiReadIndex = 0; uiReadIndex < 16; uiReadIndex++) {
if (ucReadBk[uiReadIndex] != pTempBuff[uiIndex + uiReadIndex]) { if (ucReadBk[uiReadIndex] != pTempBuff[uiIndex + uiReadIndex]) {
if (STATUS_SUCCESS != (*Adapter->fpFlashWriteWithStatusCheck)(Adapter, uiPartOffset + uiIndex + uiReadIndex, &pTempBuff[uiIndex+uiReadIndex])) { if (STATUS_SUCCESS != (*Adapter->fpFlashWriteWithStatusCheck)(Adapter, uiPartOffset + uiIndex + uiReadIndex, &pTempBuff[uiIndex+uiReadIndex])) {
@ -1868,6 +1871,7 @@ int BeceemNVMWrite(struct bcm_mini_adapter *Adapter,
if ((uiOffset + uiNumBytes) > EEPROM_CALPARAM_START) { if ((uiOffset + uiNumBytes) > EEPROM_CALPARAM_START) {
ULONG ulBytesTobeSkipped = 0; ULONG ulBytesTobeSkipped = 0;
PUCHAR pcBuffer = (PUCHAR)pBuffer; /* char pointer to take care of odd byte cases. */ PUCHAR pcBuffer = (PUCHAR)pBuffer; /* char pointer to take care of odd byte cases. */
uiNumBytes -= (EEPROM_CALPARAM_START - uiOffset); uiNumBytes -= (EEPROM_CALPARAM_START - uiOffset);
ulBytesTobeSkipped += (EEPROM_CALPARAM_START - uiOffset); ulBytesTobeSkipped += (EEPROM_CALPARAM_START - uiOffset);
uiOffset += (EEPROM_CALPARAM_START - uiOffset); uiOffset += (EEPROM_CALPARAM_START - uiOffset);
@ -2455,6 +2459,7 @@ static int BcmGetFlashCSInfo(struct bcm_mini_adapter *Adapter)
#endif #endif
unsigned int uiFlashLayoutMajorVersion; unsigned int uiFlashLayoutMajorVersion;
Adapter->uiFlashLayoutMinorVersion = 0; Adapter->uiFlashLayoutMinorVersion = 0;
Adapter->uiFlashLayoutMajorVersion = 0; Adapter->uiFlashLayoutMajorVersion = 0;
Adapter->ulFlashControlSectionStart = FLASH_CS_INFO_START_ADDR; Adapter->ulFlashControlSectionStart = FLASH_CS_INFO_START_ADDR;
@ -4319,6 +4324,7 @@ static int ReadISOSignature(struct bcm_mini_adapter *Adapter, enum bcm_flash2x_s
static int ReadISOPriority(struct bcm_mini_adapter *Adapter, enum bcm_flash2x_section_val iso) static int ReadISOPriority(struct bcm_mini_adapter *Adapter, enum bcm_flash2x_section_val iso)
{ {
unsigned int ISOPri = STATUS_FAILURE; unsigned int ISOPri = STATUS_FAILURE;
if (IsSectionWritable(Adapter, iso)) { if (IsSectionWritable(Adapter, iso)) {
if (ReadISOSignature(Adapter, iso) == ISO_IMAGE_MAGIC_NUMBER) { if (ReadISOSignature(Adapter, iso) == ISO_IMAGE_MAGIC_NUMBER) {
BcmFlash2xBulkRead(Adapter, BcmFlash2xBulkRead(Adapter,