DBG_FUNC("wvlan_uil");
DBG_ENTER(DbgInfo);
- switch(urq->command) {
+ switch (urq->command) {
case UIL_FUN_CONNECT:
DBG_TRACE(DbgInfo, "IOCTL: WVLAN2_IOCTL_UIL -- WVLAN2_UIL_CONNECT\n");
ioctl_ret = wvlan_uil_connect(urq, lp);
DBG_ENTER(DbgInfo);
- if(!(lp->flags & WVLAN2_UIL_CONNECTED)) {
+ if (!(lp->flags & WVLAN2_UIL_CONNECTED)) {
lp->flags |= WVLAN2_UIL_CONNECTED;
urq->hcfCtx = &(lp->hcfCtx);
urq->result = UIL_SUCCESS;
DBG_ENTER(DbgInfo);
- if(urq->hcfCtx == &(lp->hcfCtx)) {
+ if (urq->hcfCtx == &(lp->hcfCtx)) {
if (lp->flags & WVLAN2_UIL_CONNECTED) {
lp->flags &= ~WVLAN2_UIL_CONNECTED;
/*
DBG_ENTER(DbgInfo);
- if(urq->hcfCtx == &(lp->hcfCtx)) {
+ if (urq->hcfCtx == &(lp->hcfCtx)) {
/* Make sure there's an LTV in the request buffer */
ltv = (ltv_t *)urq->data;
- if(ltv != NULL) {
+ if (ltv != NULL) {
/* Switch on the Type field of the LTV contained in the request
buffer */
- switch(ltv->typ) {
+ switch (ltv->typ) {
case UIL_ACT_BLOCK:
DBG_TRACE(DbgInfo, "UIL_ACT_BLOCK\n");
result = wvlan_uil_block(urq, lp);
DBG_FUNC("wvlan_uil_block");
DBG_ENTER(DbgInfo);
- if(urq->hcfCtx == &(lp->hcfCtx)) {
- if(capable(CAP_NET_ADMIN)) {
+ if (urq->hcfCtx == &(lp->hcfCtx)) {
+ if (capable(CAP_NET_ADMIN)) {
lp->flags |= WVLAN2_UIL_BUSY;
netif_stop_queue(lp->dev);
WL_WDS_NETIF_STOP_QUEUE(lp);
DBG_FUNC("wvlan_uil_unblock");
DBG_ENTER(DbgInfo);
- if(urq->hcfCtx == &(lp->hcfCtx)) {
- if(capable(CAP_NET_ADMIN)) {
+ if (urq->hcfCtx == &(lp->hcfCtx)) {
+ if (capable(CAP_NET_ADMIN)) {
if (lp->flags & WVLAN2_UIL_BUSY) {
lp->flags &= ~WVLAN2_UIL_BUSY;
netif_wake_queue(lp->dev);
DBG_FUNC("wvlan_uil_send_diag_msg");
DBG_ENTER(DbgInfo);
- if(urq->hcfCtx == &(lp->hcfCtx)) {
- if(capable(CAP_NET_ADMIN)) {
+ if (urq->hcfCtx == &(lp->hcfCtx)) {
+ if (capable(CAP_NET_ADMIN)) {
if ((urq->data != NULL) && (urq->len != 0)) {
if (lp->hcfCtx.IFB_RscInd != 0) {
u_char *data;
DBG_ENTER(DbgInfo);
- if(urq->hcfCtx == &(lp->hcfCtx)) {
- if(capable(CAP_NET_ADMIN)) {
- if((urq->data != NULL) && (urq->len != 0)) {
+ if (urq->hcfCtx == &(lp->hcfCtx)) {
+ if (capable(CAP_NET_ADMIN)) {
+ if ((urq->data != NULL) && (urq->len != 0)) {
/* Make sure that we have at least a command and length to send. */
- if(urq->len < (sizeof(hcf_16) * 2)) {
+ if (urq->len < (sizeof(hcf_16) * 2)) {
urq->len = sizeof(lp->ltvRecord);
urq->result = UIL_ERR_LEN;
DBG_ERROR(DbgInfo, "No Length/Type in LTV!!!\n");
/* Verify the user buffer */
result = verify_area(VERIFY_READ, urq->data, urq->len);
- if(result != 0) {
+ if (result != 0) {
urq->result = UIL_FAILURE;
DBG_ERROR(DbgInfo, "verify_area(), VERIFY_READ FAILED\n");
DBG_LEAVE(DbgInfo);
/* Make sure the incoming LTV record length is within the bounds of the
IOCTL length */
- if(((lp->ltvRecord.len + 1) * sizeof(hcf_16)) > urq->len) {
+ if (((lp->ltvRecord.len + 1) * sizeof(hcf_16)) > urq->len) {
urq->len = sizeof(lp->ltvRecord);
urq->result = UIL_ERR_LEN;
DBG_ERROR(DbgInfo, "UIL_ERR_LEN\n");
/* If the requested length is greater than the size of our local
LTV record, try to allocate it from the kernel stack.
Otherwise, we just use our local LTV record. */
- if(urq->len > sizeof(lp->ltvRecord)) {
+ if (urq->len > sizeof(lp->ltvRecord)) {
pLtv = kmalloc(urq->len, GFP_KERNEL);
if (pLtv != NULL) {
ltvAllocated = TRUE;
/* We need to snoop the commands to see if there is anything we
need to store for the purposes of a reset or start/stop
sequence. Perform endian translation as needed */
- switch(pLtv->typ) {
+ switch (pLtv->typ) {
case CFG_CNF_PORT_TYPE:
lp->PortType = pLtv->u.u16[0];
pLtv->u.u16[0] = CNV_INT_TO_LITTLE(pLtv->u.u16[0]);
pLtv->u.u16[0] = CNV_INT_TO_LITTLE(pLtv->u.u16[0]);
/* take care of the special network name "ANY" case */
- if((strlen(&pLtv->u.u8[2] ) == 0) ||
+ if ((strlen(&pLtv->u.u8[2]) == 0) ||
(strcmp(&pLtv->u.u8[2], "ANY") == 0) ||
(strcmp(&pLtv->u.u8[2], "any") == 0)) {
/* set the SSID_STRCT llen field (u16[0]) to zero, and the
being sent to the card, as they require a call to
UIL_ACT_APPLY to take effect. Dynamic Entities will be sent
immediately */
- switch(pLtv->typ) {
+ switch (pLtv->typ) {
case CFG_CNF_PORT_TYPE:
case CFG_CNF_OWN_MAC_ADDR:
case CFG_CNF_OWN_CHANNEL:
break;
/* Deal with this dynamic MSF RID, as it's required for WPA */
case CFG_DRIVER_ENABLE:
- if(lp->driverEnable) {
+ if (lp->driverEnable) {
//hcf_cntl_port(&(lp->hcfCtx),
// HCF_PORT_ENABLE | HCF_PORT_0);
// //hcf_cntl(&(lp->hcfCtx),
break;
}
- if(ltvAllocated) {
+ if (ltvAllocated) {
kfree(pLtv);
}
} else {
DBG_FUNC("wvlan_uil_get_info");
DBG_ENTER(DbgInfo);
- if(urq->hcfCtx == &(lp->hcfCtx)) {
- if((urq->data != NULL) && (urq->len != 0)) {
+ if (urq->hcfCtx == &(lp->hcfCtx)) {
+ if ((urq->data != NULL) && (urq->len != 0)) {
ltv_t *pLtv;
bool_t ltvAllocated = FALSE;
/* Make sure that we have at least a command and length */
- if(urq->len < (sizeof(hcf_16) * 2)) {
+ if (urq->len < (sizeof(hcf_16) * 2)) {
urq->len = sizeof(lp->ltvRecord);
DBG_ERROR(DbgInfo, "No Length/Type in LTV!!!\n");
DBG_ERROR(DbgInfo, "UIL_ERR_LEN\n");
/* Verify the user's LTV record header. */
result = verify_area(VERIFY_READ, urq->data, sizeof(hcf_16) * 2);
- if(result != 0) {
+ if (result != 0) {
DBG_ERROR(DbgInfo, "verify_area(), VERIFY_READ FAILED\n");
urq->result = UIL_FAILURE;
DBG_LEAVE(DbgInfo);
/* Make sure the incoming LTV record length is within the bounds of
the IOCTL length. */
- if(((lp->ltvRecord.len + 1) * sizeof(hcf_16)) > urq->len) {
+ if (((lp->ltvRecord.len + 1) * sizeof(hcf_16)) > urq->len) {
DBG_ERROR(DbgInfo, "Incoming LTV too big\n");
urq->len = sizeof(lp->ltvRecord);
urq->result = UIL_ERR_LEN;
break;
case CFG_IFB:
/* IFB can be a security hole */
- if(!capable(CAP_NET_ADMIN)) {
+ if (!capable(CAP_NET_ADMIN)) {
result = -EPERM;
break;
}
/* Verify the user buffer */
result = verify_area(VERIFY_WRITE, urq->data, urq->len);
- if(result != 0) {
+ if (result != 0) {
DBG_ERROR(DbgInfo, "verify_area(), VERIFY_WRITE FAILED\n");
urq->result = UIL_FAILURE;
break;
/* If the requested length is greater than the size of our local
LTV record, try to allocate it from the kernel stack.
Otherwise, we just use our local LTV record. */
- if(urq->len > sizeof(lp->ltvRecord)) {
+ if (urq->len > sizeof(lp->ltvRecord)) {
pLtv = kmalloc(urq->len, GFP_KERNEL);
if (pLtv != NULL) {
ltvAllocated = TRUE;
}
/* Handle endian conversion of special fields */
- switch(lp->ltvRecord.typ) {
+ switch (lp->ltvRecord.typ) {
/* simple int gets just need the first hcf_16 byte flipped */
case CFG_CNF_PORT_TYPE:
case CFG_CNF_OWN_CHANNEL:
case CFG_CFI_ACT_RANGES_STA:
case CFG_CUR_SCALE_THRH:
case CFG_AUTHENTICATION_ALGORITHMS:
- for(i = 0; i < (lp->ltvRecord.len - 1); i++) {
+ for (i = 0; i < (lp->ltvRecord.len - 1); i++) {
lp->ltvRecord.u.u16[i] = CNV_INT_TO_LITTLE(lp->ltvRecord.u.u16[i]);
}
break;
// Copy the LTV into the user's buffer.
copy_to_user(urq->data, &(lp->ltvRecord), urq->len);
- if(ltvAllocated) {
+ if (ltvAllocated) {
kfree(&(lp->ltvRecord));
}
/* Make sure that user buffer can handle the driver information buffer */
- if(urq->len < sizeof(lp->driverInfo)) {
+ if (urq->len < sizeof(lp->driverInfo)) {
urq->len = sizeof(lp->driverInfo);
urq->result = UIL_ERR_LEN;
DBG_LEAVE(DbgInfo);
/* Verify the user buffer. */
result = verify_area(VERIFY_WRITE, urq->data, sizeof(lp->driverInfo));
- if(result != 0) {
+ if (result != 0) {
urq->result = UIL_FAILURE;
DBG_LEAVE(DbgInfo);
return result;
/* Make sure that user buffer can handle the driver identity structure. */
- if(urq->len < sizeof(lp->driverIdentity)) {
+ if (urq->len < sizeof(lp->driverIdentity)) {
urq->len = sizeof(lp->driverIdentity);
urq->result = UIL_ERR_LEN;
DBG_LEAVE(DbgInfo);
/* Verify the user buffer. */
result = verify_area(VERIFY_WRITE, urq->data, sizeof(lp->driverIdentity));
- if(result != 0) {
+ if (result != 0) {
urq->result = UIL_FAILURE;
DBG_LEAVE(DbgInfo);
return result;
status = hcf_get_info(&(lp->hcfCtx), (LTVP)&(lp->ltvRecord));
- if(status == HCF_SUCCESS) {
+ if (status == HCF_SUCCESS) {
pName = (wvName_t *)&(lp->ltvRecord.u.u32);
memset(extra, '\0', HCF_MAX_NAME_LEN);
status = hcf_get_info(&(lp->hcfCtx), (LTVP)&(lp->ltvRecord));
- if(status == HCF_SUCCESS) {
+ if (status == HCF_SUCCESS) {
pName = (wvName_t *)&(lp->ltvRecord.u.u32);
memset(extra, '\0', HCF_MAX_NAME_LEN);
/* Validate the new value */
portType = *((__u32 *)extra);
- if(!((portType == 1) || (portType == 3))) {
+ if (!((portType == 1) || (portType == 3))) {
ret = -EINVAL;
goto out_unlock;
}
status = hcf_get_info(&(lp->hcfCtx), (LTVP)&(lp->ltvRecord));
- if(status == HCF_SUCCESS) {
+ if (status == HCF_SUCCESS) {
pPortType = (hcf_16 *)&(lp->ltvRecord.u.u32);
*pData = CNV_LITTLE_TO_INT(*pPortType);
DBG_PRINT("io_base: 0x%08x\n", io_base);
- switch(rrq->typ) {
+ switch (rrq->typ) {
case WL_IOCTL_RTS_READ:
DBG_TRACE(DbgInfo, "IOCTL: WVLAN2_IOCTL_RTS -- WL_IOCTL_RTS_READ\n");
rrq->data[0] = IN_PORT_WORD(io_base + rrq->reg);
case WL_IOCTL_RTS_BATCH_READ:
DBG_TRACE(DbgInfo, "IOCTL: WVLAN2_IOCTL_RTS -- WL_IOCTL_RTS_BATCH_READ\n");
IN_PORT_STRING_16(io_base + rrq->reg, rrq->data, rrq->len);
- DBG_TRACE(DbgInfo, " reg 0x%04x ==> %d bytes\n", rrq->reg, rrq->len * sizeof (__u16));
+ DBG_TRACE(DbgInfo, " reg 0x%04x ==> %d bytes\n", rrq->reg, rrq->len * sizeof(__u16));
break;
case WL_IOCTL_RTS_BATCH_WRITE:
DBG_TRACE(DbgInfo, "IOCTL: WVLAN2_IOCTL_RTS -- WL_IOCTL_RTS_BATCH_WRITE\n");
OUT_PORT_STRING_16(io_base + rrq->reg, rrq->data, rrq->len);
- DBG_TRACE(DbgInfo, " reg 0x%04x <== %d bytes\n", rrq->reg, rrq->len * sizeof (__u16));
+ DBG_TRACE(DbgInfo, " reg 0x%04x <== %d bytes\n", rrq->reg, rrq->len * sizeof(__u16));
break;
default: