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// Copyright (c) 2009-2010 Atheros Corporation. All rights reserved.
//
//
// Permission to use, copy, modify, and/or distribute this software for any
// purpose with or without fee is hereby granted, provided that the above
// copyright notice and this permission notice appear in all copies.
//
// THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
// WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
// MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
// ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
// WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
// ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
// OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
//
//
//------------------------------------------------------------------------------
//==============================================================================
// HCI bridge implementation
//
// Author(s): ="Atheros"
//==============================================================================
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
#include <linux/etherdevice.h>
#include <a_config.h>
#include <athdefs.h>
#include "a_types.h"
#include "a_osapi.h"
#include "htc_api.h"
#include "wmi.h"
#include "a_drv.h"
#include "hif.h"
#include "common_drv.h"
#include "a_debug.h"
#define ATH_DEBUG_HCI_BRIDGE ATH_DEBUG_MAKE_MODULE_MASK(6)
#define ATH_DEBUG_HCI_RECV ATH_DEBUG_MAKE_MODULE_MASK(7)
#define ATH_DEBUG_HCI_SEND ATH_DEBUG_MAKE_MODULE_MASK(8)
#define ATH_DEBUG_HCI_DUMP ATH_DEBUG_MAKE_MODULE_MASK(9)
#else
#include "ar6000_drv.h"
#endif /* EXPORT_HCI_BRIDGE_INTERFACE */
#ifdef ATH_AR6K_ENABLE_GMBOX
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
#include "export_hci_transport.h"
#else
#include "hci_transport_api.h"
#endif
#include "epping_test.h"
#include "gmboxif.h"
#include "ar3kconfig.h"
#include <net/bluetooth/bluetooth.h>
#include <net/bluetooth/hci_core.h>
/* only build on newer kernels which have BT configured */
#if defined(CONFIG_BT_MODULE) || defined(CONFIG_BT)
#define CONFIG_BLUEZ_HCI_BRIDGE
#endif
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
unsigned int ar3khcibaud = 0;
unsigned int hciuartscale = 0;
unsigned int hciuartstep = 0;
module_param(ar3khcibaud, int, 0644);
module_param(hciuartscale, int, 0644);
module_param(hciuartstep, int, 0644);
#else
extern unsigned int ar3khcibaud;
extern unsigned int hciuartscale;
extern unsigned int hciuartstep;
#endif /* EXPORT_HCI_BRIDGE_INTERFACE */
typedef struct {
void *pHCIDev; /* HCI bridge device */
HCI_TRANSPORT_PROPERTIES HCIProps; /* HCI bridge props */
struct hci_dev *pBtStackHCIDev; /* BT Stack HCI dev */
A_BOOL HciNormalMode; /* Actual HCI mode enabled (non-TEST)*/
A_BOOL HciRegistered; /* HCI device registered with stack */
HTC_PACKET_QUEUE HTCPacketStructHead;
A_UINT8 *pHTCStructAlloc;
spinlock_t BridgeLock;
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
HCI_TRANSPORT_MISC_HANDLES HCITransHdl;
#else
AR_SOFTC_T *ar;
#endif /* EXPORT_HCI_BRIDGE_INTERFACE */
} AR6K_HCI_BRIDGE_INFO;
#define MAX_ACL_RECV_BUFS 16
#define MAX_EVT_RECV_BUFS 8
#define MAX_HCI_WRITE_QUEUE_DEPTH 32
#define MAX_ACL_RECV_LENGTH 1200
#define MAX_EVT_RECV_LENGTH 257
#define TX_PACKET_RSV_OFFSET 32
#define NUM_HTC_PACKET_STRUCTS ((MAX_ACL_RECV_BUFS + MAX_EVT_RECV_BUFS + MAX_HCI_WRITE_QUEUE_DEPTH) * 2)
#define HCI_GET_OP_CODE(p) (((A_UINT16)((p)[1])) << 8) | ((A_UINT16)((p)[0]))
extern unsigned int setupbtdev;
AR3K_CONFIG_INFO ar3kconfig;
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
AR6K_HCI_BRIDGE_INFO *g_pHcidevInfo;
#endif
static A_STATUS bt_setup_hci(AR6K_HCI_BRIDGE_INFO *pHcidevInfo);
static void bt_cleanup_hci(AR6K_HCI_BRIDGE_INFO *pHcidevInfo);
static A_STATUS bt_register_hci(AR6K_HCI_BRIDGE_INFO *pHcidevInfo);
static A_BOOL bt_indicate_recv(AR6K_HCI_BRIDGE_INFO *pHcidevInfo,
HCI_TRANSPORT_PACKET_TYPE Type,
struct sk_buff *skb);
static struct sk_buff *bt_alloc_buffer(AR6K_HCI_BRIDGE_INFO *pHcidevInfo, int Length);
static void bt_free_buffer(AR6K_HCI_BRIDGE_INFO *pHcidevInfo, struct sk_buff *skb);
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
A_STATUS ar6000_setup_hci(void *ar);
void ar6000_cleanup_hci(void *ar);
A_STATUS hci_test_send(void *ar, struct sk_buff *skb);
#else
A_STATUS ar6000_setup_hci(AR_SOFTC_T *ar);
void ar6000_cleanup_hci(AR_SOFTC_T *ar);
/* HCI bridge testing */
A_STATUS hci_test_send(AR_SOFTC_T *ar, struct sk_buff *skb);
#endif /* EXPORT_HCI_BRIDGE_INTERFACE */
#define LOCK_BRIDGE(dev) spin_lock_bh(&(dev)->BridgeLock)
#define UNLOCK_BRIDGE(dev) spin_unlock_bh(&(dev)->BridgeLock)
static inline void FreeBtOsBuf(AR6K_HCI_BRIDGE_INFO *pHcidevInfo, void *osbuf)
{
if (pHcidevInfo->HciNormalMode) {
bt_free_buffer(pHcidevInfo, (struct sk_buff *)osbuf);
} else {
/* in test mode, these are just ordinary netbuf allocations */
A_NETBUF_FREE(osbuf);
}
}
static void FreeHTCStruct(AR6K_HCI_BRIDGE_INFO *pHcidevInfo, HTC_PACKET *pPacket)
{
LOCK_BRIDGE(pHcidevInfo);
HTC_PACKET_ENQUEUE(&pHcidevInfo->HTCPacketStructHead,pPacket);
UNLOCK_BRIDGE(pHcidevInfo);
}
static HTC_PACKET * AllocHTCStruct(AR6K_HCI_BRIDGE_INFO *pHcidevInfo)
{
HTC_PACKET *pPacket = NULL;
LOCK_BRIDGE(pHcidevInfo);
pPacket = HTC_PACKET_DEQUEUE(&pHcidevInfo->HTCPacketStructHead);
UNLOCK_BRIDGE(pHcidevInfo);
return pPacket;
}
#define BLOCK_ROUND_UP_PWR2(x, align) (((int) (x) + ((align)-1)) & ~((align)-1))
static void RefillRecvBuffers(AR6K_HCI_BRIDGE_INFO *pHcidevInfo,
HCI_TRANSPORT_PACKET_TYPE Type,
int NumBuffers)
{
int length, i;
void *osBuf = NULL;
HTC_PACKET_QUEUE queue;
HTC_PACKET *pPacket;
INIT_HTC_PACKET_QUEUE(&queue);
if (Type == HCI_ACL_TYPE) {
if (pHcidevInfo->HciNormalMode) {
length = HCI_MAX_FRAME_SIZE;
} else {
length = MAX_ACL_RECV_LENGTH;
}
} else {
length = MAX_EVT_RECV_LENGTH;
}
/* add on transport head and tail room */
length += pHcidevInfo->HCIProps.HeadRoom + pHcidevInfo->HCIProps.TailRoom;
/* round up to the required I/O padding */
length = BLOCK_ROUND_UP_PWR2(length,pHcidevInfo->HCIProps.IOBlockPad);
for (i = 0; i < NumBuffers; i++) {
if (pHcidevInfo->HciNormalMode) {
osBuf = bt_alloc_buffer(pHcidevInfo,length);
} else {
osBuf = A_NETBUF_ALLOC(length);
}
if (NULL == osBuf) {
break;
}
pPacket = AllocHTCStruct(pHcidevInfo);
if (NULL == pPacket) {
FreeBtOsBuf(pHcidevInfo,osBuf);
AR_DEBUG_PRINTF(ATH_DEBUG_ERR,("Failed to alloc HTC struct \n"));
break;
}
SET_HTC_PACKET_INFO_RX_REFILL(pPacket,osBuf,A_NETBUF_DATA(osBuf),length,Type);
/* add to queue */
HTC_PACKET_ENQUEUE(&queue,pPacket);
}
if (i > 0) {
HCI_TransportAddReceivePkts(pHcidevInfo->pHCIDev, &queue);
}
}
#define HOST_INTEREST_ITEM_ADDRESS(ar, item) \
(((ar)->arTargetType == TARGET_TYPE_AR6002) ? AR6002_HOST_INTEREST_ITEM_ADDRESS(item) : \
(((ar)->arTargetType == TARGET_TYPE_AR6003) ? AR6003_HOST_INTEREST_ITEM_ADDRESS(item) : 0))
static A_STATUS ar6000_hci_transport_ready(HCI_TRANSPORT_HANDLE HCIHandle,
HCI_TRANSPORT_PROPERTIES *pProps,
void *pContext)
{
AR6K_HCI_BRIDGE_INFO *pHcidevInfo = (AR6K_HCI_BRIDGE_INFO *)pContext;
A_STATUS status;
A_UINT32 address, hci_uart_pwr_mgmt_params;
// AR3K_CONFIG_INFO ar3kconfig;
pHcidevInfo->pHCIDev = HCIHandle;
A_MEMCPY(&pHcidevInfo->HCIProps,pProps,sizeof(*pProps));
AR_DEBUG_PRINTF(ATH_DEBUG_HCI_BRIDGE,("HCI ready (hci:0x%lX, headroom:%d, tailroom:%d blockpad:%d) \n",
(unsigned long)HCIHandle,
pHcidevInfo->HCIProps.HeadRoom,
pHcidevInfo->HCIProps.TailRoom,
pHcidevInfo->HCIProps.IOBlockPad));
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
A_ASSERT((pProps->HeadRoom + pProps->TailRoom) <= (struct net_device *)(pHcidevInfo->HCITransHdl.netDevice)->hard_header_len);
#else
A_ASSERT((pProps->HeadRoom + pProps->TailRoom) <= pHcidevInfo->ar->arNetDev->hard_header_len);
#endif
/* provide buffers */
RefillRecvBuffers(pHcidevInfo, HCI_ACL_TYPE, MAX_ACL_RECV_BUFS);
RefillRecvBuffers(pHcidevInfo, HCI_EVENT_TYPE, MAX_EVT_RECV_BUFS);
do {
/* start transport */
status = HCI_TransportStart(pHcidevInfo->pHCIDev);
if (A_FAILED(status)) {
break;
}
if (!pHcidevInfo->HciNormalMode) {
/* in test mode, no need to go any further */
break;
}
// The delay is required when AR6K is driving the BT reset line
// where time is needed after the BT chip is out of reset (HCI_TransportStart)
// and before the first HCI command is issued (AR3KConfigure)
// FIXME
// The delay should be configurable and be only applied when AR6K driving the BT
// reset line. This could be done by some module parameter or based on some HW config
// info. For now apply 100ms delay blindly
A_MDELAY(100);
A_MEMZERO(&ar3kconfig,sizeof(ar3kconfig));
ar3kconfig.pHCIDev = pHcidevInfo->pHCIDev;
ar3kconfig.pHCIProps = &pHcidevInfo->HCIProps;
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
ar3kconfig.pHIFDevice = (HIF_DEVICE *)(pHcidevInfo->HCITransHdl.hifDevice);
#else
ar3kconfig.pHIFDevice = pHcidevInfo->ar->arHifDevice;
#endif
ar3kconfig.pBtStackHCIDev = pHcidevInfo->pBtStackHCIDev;
if (ar3khcibaud != 0) {
/* user wants ar3k baud rate change */
ar3kconfig.Flags |= AR3K_CONFIG_FLAG_SET_AR3K_BAUD;
ar3kconfig.Flags |= AR3K_CONFIG_FLAG_AR3K_BAUD_CHANGE_DELAY;
ar3kconfig.AR3KBaudRate = ar3khcibaud;
}
if ((hciuartscale != 0) || (hciuartstep != 0)) {
/* user wants to tune HCI bridge UART scale/step values */
ar3kconfig.AR6KScale = (A_UINT16)hciuartscale;
ar3kconfig.AR6KStep = (A_UINT16)hciuartstep;
ar3kconfig.Flags |= AR3K_CONFIG_FLAG_SET_AR6K_SCALE_STEP;
}
/* Fetch the address of the hi_hci_uart_pwr_mgmt_params instance in the host interest area */
address = TARG_VTOP(pHcidevInfo->ar->arTargetType,
HOST_INTEREST_ITEM_ADDRESS(pHcidevInfo->ar, hi_hci_uart_pwr_mgmt_params));
status = ar6000_ReadRegDiag(pHcidevInfo->ar->arHifDevice, &address, &hci_uart_pwr_mgmt_params);
if (A_OK == status) {
ar3kconfig.PwrMgmtEnabled = (hci_uart_pwr_mgmt_params & 0x1);
ar3kconfig.IdleTimeout = (hci_uart_pwr_mgmt_params & 0xFFFF0000) >> 16;
ar3kconfig.WakeupTimeout = (hci_uart_pwr_mgmt_params & 0xFF00) >> 8;
} else {
AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("HCI Bridge: failed to read hci_uart_pwr_mgmt_params! \n"));
}
/* configure the AR3K device */
memcpy(ar3kconfig.bdaddr,pHcidevInfo->ar->bdaddr,6);
status = AR3KConfigure(&ar3kconfig);
if (A_FAILED(status)) {
break;
}
/* Make sure both AR6K and AR3K have power management enabled */
if (ar3kconfig.PwrMgmtEnabled) {
status = HCI_TransportEnablePowerMgmt(pHcidevInfo->pHCIDev, TRUE);
if (A_FAILED(status)) {
AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("HCI Bridge: failed to enable TLPM for AR6K! \n"));
}
}
status = bt_register_hci(pHcidevInfo);
} while (FALSE);
return status;
}
static void ar6000_hci_transport_failure(void *pContext, A_STATUS Status)
{
AR6K_HCI_BRIDGE_INFO *pHcidevInfo = (AR6K_HCI_BRIDGE_INFO *)pContext;
AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("HCI Bridge: transport failure! \n"));
if (pHcidevInfo->HciNormalMode) {
/* TODO .. */
}
}
static void ar6000_hci_transport_removed(void *pContext)
{
AR6K_HCI_BRIDGE_INFO *pHcidevInfo = (AR6K_HCI_BRIDGE_INFO *)pContext;
AR_DEBUG_PRINTF(ATH_DEBUG_HCI_BRIDGE, ("HCI Bridge: transport removed. \n"));
A_ASSERT(pHcidevInfo->pHCIDev != NULL);
HCI_TransportDetach(pHcidevInfo->pHCIDev);
bt_cleanup_hci(pHcidevInfo);
pHcidevInfo->pHCIDev = NULL;
}
static void ar6000_hci_send_complete(void *pContext, HTC_PACKET *pPacket)
{
AR6K_HCI_BRIDGE_INFO *pHcidevInfo = (AR6K_HCI_BRIDGE_INFO *)pContext;
void *osbuf = pPacket->pPktContext;
A_ASSERT(osbuf != NULL);
A_ASSERT(pHcidevInfo != NULL);
if (A_FAILED(pPacket->Status)) {
if ((pPacket->Status != A_ECANCELED) && (pPacket->Status != A_NO_RESOURCE)) {
AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("HCI Bridge: Send Packet Failed: %d \n",pPacket->Status));
}
}
FreeHTCStruct(pHcidevInfo,pPacket);
FreeBtOsBuf(pHcidevInfo,osbuf);
}
static void ar6000_hci_pkt_recv(void *pContext, HTC_PACKET *pPacket)
{
AR6K_HCI_BRIDGE_INFO *pHcidevInfo = (AR6K_HCI_BRIDGE_INFO *)pContext;
struct sk_buff *skb;
A_ASSERT(pHcidevInfo != NULL);
skb = (struct sk_buff *)pPacket->pPktContext;
A_ASSERT(skb != NULL);
do {
if (A_FAILED(pPacket->Status)) {
break;
}
AR_DEBUG_PRINTF(ATH_DEBUG_HCI_RECV,
("HCI Bridge, packet received type : %d len:%d \n",
HCI_GET_PACKET_TYPE(pPacket),pPacket->ActualLength));
/* set the actual buffer position in the os buffer, HTC recv buffers posted to HCI are set
* to fill the front of the buffer */
A_NETBUF_PUT(skb,pPacket->ActualLength + pHcidevInfo->HCIProps.HeadRoom);
A_NETBUF_PULL(skb,pHcidevInfo->HCIProps.HeadRoom);
if (AR_DEBUG_LVL_CHECK(ATH_DEBUG_HCI_DUMP)) {
AR_DEBUG_PRINTF(ATH_DEBUG_ANY,("<<< Recv HCI %s packet len:%d \n",
(HCI_GET_PACKET_TYPE(pPacket) == HCI_EVENT_TYPE) ? "EVENT" : "ACL",
skb->len));
AR_DEBUG_PRINTBUF(skb->data, skb->len,"BT HCI RECV Packet Dump");
}
if (pHcidevInfo->HciNormalMode) {
/* indicate the packet */
if (bt_indicate_recv(pHcidevInfo,HCI_GET_PACKET_TYPE(pPacket),skb)) {
/* bt stack accepted the packet */
skb = NULL;
}
break;
}
/* for testing, indicate packet to the network stack */
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
skb->dev = (struct net_device *)(pHcidevInfo->HCITransHdl.netDevice);
if ((((struct net_device *)pHcidevInfo->HCITransHdl.netDevice)->flags & IFF_UP) == IFF_UP) {
skb->protocol = eth_type_trans(skb, (struct net_device *)(pHcidevInfo->HCITransHdl.netDevice));
#else
skb->dev = pHcidevInfo->ar->arNetDev;
if ((pHcidevInfo->ar->arNetDev->flags & IFF_UP) == IFF_UP) {
skb->protocol = eth_type_trans(skb, pHcidevInfo->ar->arNetDev);
#endif
netif_rx(skb);
skb = NULL;
}
} while (FALSE);
FreeHTCStruct(pHcidevInfo,pPacket);
if (skb != NULL) {
/* packet was not accepted, free it */
FreeBtOsBuf(pHcidevInfo,skb);
}
}
static void ar6000_hci_pkt_refill(void *pContext, HCI_TRANSPORT_PACKET_TYPE Type, int BuffersAvailable)
{
AR6K_HCI_BRIDGE_INFO *pHcidevInfo = (AR6K_HCI_BRIDGE_INFO *)pContext;
int refillCount;
if (Type == HCI_ACL_TYPE) {
refillCount = MAX_ACL_RECV_BUFS - BuffersAvailable;
} else {
refillCount = MAX_EVT_RECV_BUFS - BuffersAvailable;
}
if (refillCount > 0) {
RefillRecvBuffers(pHcidevInfo,Type,refillCount);
}
}
static HCI_SEND_FULL_ACTION ar6000_hci_pkt_send_full(void *pContext, HTC_PACKET *pPacket)
{
AR6K_HCI_BRIDGE_INFO *pHcidevInfo = (AR6K_HCI_BRIDGE_INFO *)pContext;
HCI_SEND_FULL_ACTION action = HCI_SEND_FULL_KEEP;
if (!pHcidevInfo->HciNormalMode) {
/* for epping testing, check packet tag, some epping packets are
* special and cannot be dropped */
if (HTC_GET_TAG_FROM_PKT(pPacket) == AR6K_DATA_PKT_TAG) {
action = HCI_SEND_FULL_DROP;
}
}
return action;
}
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
A_STATUS ar6000_setup_hci(void *ar)
#else
A_STATUS ar6000_setup_hci(AR_SOFTC_T *ar)
#endif
{
HCI_TRANSPORT_CONFIG_INFO config;
A_STATUS status = A_OK;
int i;
HTC_PACKET *pPacket;
AR6K_HCI_BRIDGE_INFO *pHcidevInfo;
do {
pHcidevInfo = (AR6K_HCI_BRIDGE_INFO *)A_MALLOC(sizeof(AR6K_HCI_BRIDGE_INFO));
if (NULL == pHcidevInfo) {
status = A_NO_MEMORY;
break;
}
A_MEMZERO(pHcidevInfo, sizeof(AR6K_HCI_BRIDGE_INFO));
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
g_pHcidevInfo = pHcidevInfo;
pHcidevInfo->HCITransHdl = *(HCI_TRANSPORT_MISC_HANDLES *)ar;
#else
ar->hcidev_info = pHcidevInfo;
pHcidevInfo->ar = ar;
#endif
spin_lock_init(&pHcidevInfo->BridgeLock);
INIT_HTC_PACKET_QUEUE(&pHcidevInfo->HTCPacketStructHead);
ar->exitCallback = AR3KConfigureExit;
status = bt_setup_hci(pHcidevInfo);
if (A_FAILED(status)) {
break;
}
if (pHcidevInfo->HciNormalMode) {
AR_DEBUG_PRINTF(ATH_DEBUG_HCI_BRIDGE, ("HCI Bridge: running in normal mode... \n"));
} else {
AR_DEBUG_PRINTF(ATH_DEBUG_HCI_BRIDGE, ("HCI Bridge: running in test mode... \n"));
}
pHcidevInfo->pHTCStructAlloc = (A_UINT8 *)A_MALLOC((sizeof(HTC_PACKET)) * NUM_HTC_PACKET_STRUCTS);
if (NULL == pHcidevInfo->pHTCStructAlloc) {
status = A_NO_MEMORY;
break;
}
pPacket = (HTC_PACKET *)pHcidevInfo->pHTCStructAlloc;
for (i = 0; i < NUM_HTC_PACKET_STRUCTS; i++,pPacket++) {
FreeHTCStruct(pHcidevInfo,pPacket);
}
A_MEMZERO(&config,sizeof(HCI_TRANSPORT_CONFIG_INFO));
config.ACLRecvBufferWaterMark = MAX_ACL_RECV_BUFS / 2;
config.EventRecvBufferWaterMark = MAX_EVT_RECV_BUFS / 2;
config.MaxSendQueueDepth = MAX_HCI_WRITE_QUEUE_DEPTH;
config.pContext = pHcidevInfo;
config.TransportFailure = ar6000_hci_transport_failure;
config.TransportReady = ar6000_hci_transport_ready;
config.TransportRemoved = ar6000_hci_transport_removed;
config.pHCISendComplete = ar6000_hci_send_complete;
config.pHCIPktRecv = ar6000_hci_pkt_recv;
config.pHCIPktRecvRefill = ar6000_hci_pkt_refill;
config.pHCISendFull = ar6000_hci_pkt_send_full;
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
pHcidevInfo->pHCIDev = HCI_TransportAttach(pHcidevInfo->HCITransHdl.htcHandle, &config);
#else
pHcidevInfo->pHCIDev = HCI_TransportAttach(ar->arHtcTarget, &config);
#endif
if (NULL == pHcidevInfo->pHCIDev) {
status = A_ERROR;
}
} while (FALSE);
if (A_FAILED(status)) {
if (pHcidevInfo != NULL) {
if (NULL == pHcidevInfo->pHCIDev) {
/* GMBOX may not be present in older chips */
/* just return success */
status = A_OK;
}
}
ar6000_cleanup_hci(ar);
}
return status;
}
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
void ar6000_cleanup_hci(void *ar)
#else
void ar6000_cleanup_hci(AR_SOFTC_T *ar)
#endif
{
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
AR6K_HCI_BRIDGE_INFO *pHcidevInfo = g_pHcidevInfo;
#else
AR6K_HCI_BRIDGE_INFO *pHcidevInfo = (AR6K_HCI_BRIDGE_INFO *)ar->hcidev_info;
#endif
if (pHcidevInfo != NULL) {
bt_cleanup_hci(pHcidevInfo);
if (pHcidevInfo->pHCIDev != NULL) {
HCI_TransportStop(pHcidevInfo->pHCIDev);
HCI_TransportDetach(pHcidevInfo->pHCIDev);
pHcidevInfo->pHCIDev = NULL;
}
if (pHcidevInfo->pHTCStructAlloc != NULL) {
A_FREE(pHcidevInfo->pHTCStructAlloc);
pHcidevInfo->pHTCStructAlloc = NULL;
}
A_FREE(pHcidevInfo);
#ifndef EXPORT_HCI_BRIDGE_INTERFACE
ar->hcidev_info = NULL;
#endif
}
}
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
A_STATUS hci_test_send(void *ar, struct sk_buff *skb)
#else
A_STATUS hci_test_send(AR_SOFTC_T *ar, struct sk_buff *skb)
#endif
{
int status = A_OK;
int length;
EPPING_HEADER *pHeader;
HTC_PACKET *pPacket;
HTC_TX_TAG htc_tag = AR6K_DATA_PKT_TAG;
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
AR6K_HCI_BRIDGE_INFO *pHcidevInfo = g_pHcidevInfo;
#else
AR6K_HCI_BRIDGE_INFO *pHcidevInfo = (AR6K_HCI_BRIDGE_INFO *)ar->hcidev_info;
#endif
do {
if (NULL == pHcidevInfo) {
status = A_ERROR;
break;
}
if (NULL == pHcidevInfo->pHCIDev) {
status = A_ERROR;
break;
}
if (pHcidevInfo->HciNormalMode) {
/* this interface cannot run when normal WMI is running */
status = A_ERROR;
break;
}
pHeader = (EPPING_HEADER *)A_NETBUF_DATA(skb);
if (!IS_EPPING_PACKET(pHeader)) {
status = A_EINVAL;
break;
}
if (IS_EPING_PACKET_NO_DROP(pHeader)) {
htc_tag = AR6K_CONTROL_PKT_TAG;
}
length = sizeof(EPPING_HEADER) + pHeader->DataLength;
pPacket = AllocHTCStruct(pHcidevInfo);
if (NULL == pPacket) {
status = A_NO_MEMORY;
break;
}
SET_HTC_PACKET_INFO_TX(pPacket,
skb,
A_NETBUF_DATA(skb),
length,
HCI_ACL_TYPE, /* send every thing out as ACL */
htc_tag);
HCI_TransportSendPkt(pHcidevInfo->pHCIDev,pPacket,FALSE);
pPacket = NULL;
} while (FALSE);
return status;
}
void ar6000_set_default_ar3kconfig(AR_SOFTC_T *ar, void *ar3kconfig)
{
AR6K_HCI_BRIDGE_INFO *pHcidevInfo = (AR6K_HCI_BRIDGE_INFO *)ar->hcidev_info;
AR3K_CONFIG_INFO *config = (AR3K_CONFIG_INFO *)ar3kconfig;
config->pHCIDev = pHcidevInfo->pHCIDev;
config->pHCIProps = &pHcidevInfo->HCIProps;
config->pHIFDevice = ar->arHifDevice;
config->pBtStackHCIDev = pHcidevInfo->pBtStackHCIDev;
config->Flags |= AR3K_CONFIG_FLAG_SET_AR3K_BAUD;
config->AR3KBaudRate = 115200;
}
#ifdef CONFIG_BLUEZ_HCI_BRIDGE
/*** BT Stack Entrypoints *******/
/*
* bt_open - open a handle to the device
*/
static int bt_open(struct hci_dev *hdev)
{
AR_DEBUG_PRINTF(ATH_DEBUG_TRC, ("HCI Bridge: bt_open - enter - x\n"));
set_bit(HCI_RUNNING, &hdev->flags);
set_bit(HCI_UP, &hdev->flags);
set_bit(HCI_INIT, &hdev->flags);
return 0;
}
/*
* bt_close - close handle to the device
*/
static int bt_close(struct hci_dev *hdev)
{
AR_DEBUG_PRINTF(ATH_DEBUG_TRC, ("HCI Bridge: bt_close - enter\n"));
clear_bit(HCI_RUNNING, &hdev->flags);
return 0;
}
/*
* bt_send_frame - send data frames
*/
static int bt_send_frame(struct sk_buff *skb)
{
struct hci_dev *hdev = (struct hci_dev *)skb->dev;
HCI_TRANSPORT_PACKET_TYPE type;
AR6K_HCI_BRIDGE_INFO *pHcidevInfo;
HTC_PACKET *pPacket;
A_STATUS status = A_OK;
struct sk_buff *txSkb = NULL;
if (!hdev) {
AR_DEBUG_PRINTF(ATH_DEBUG_WARN, ("HCI Bridge: bt_send_frame - no device\n"));
return -ENODEV;
}
if (!test_bit(HCI_RUNNING, &hdev->flags)) {
AR_DEBUG_PRINTF(ATH_DEBUG_TRC, ("HCI Bridge: bt_send_frame - not open\n"));
return -EBUSY;
}
pHcidevInfo = (AR6K_HCI_BRIDGE_INFO *)hdev->driver_data;
A_ASSERT(pHcidevInfo != NULL);
AR_DEBUG_PRINTF(ATH_DEBUG_HCI_SEND, ("+bt_send_frame type: %d \n",bt_cb(skb)->pkt_type));
type = HCI_COMMAND_TYPE;
switch (bt_cb(skb)->pkt_type) {
case HCI_COMMAND_PKT:
type = HCI_COMMAND_TYPE;
hdev->stat.cmd_tx++;
break;
case HCI_ACLDATA_PKT:
type = HCI_ACL_TYPE;
hdev->stat.acl_tx++;
break;
case HCI_SCODATA_PKT:
/* we don't support SCO over the bridge */
kfree_skb(skb);
return 0;
default:
A_ASSERT(FALSE);
kfree_skb(skb);
return 0;
}
if (AR_DEBUG_LVL_CHECK(ATH_DEBUG_HCI_DUMP)) {
AR_DEBUG_PRINTF(ATH_DEBUG_ANY,(">>> Send HCI %s packet len: %d\n",
(type == HCI_COMMAND_TYPE) ? "COMMAND" : "ACL",
skb->len));
if (type == HCI_COMMAND_TYPE) {
A_UINT16 opcode = HCI_GET_OP_CODE(skb->data);
AR_DEBUG_PRINTF(ATH_DEBUG_ANY,(" HCI Command: OGF:0x%X OCF:0x%X \r\n",
opcode >> 10, opcode & 0x3FF));
}
AR_DEBUG_PRINTBUF(skb->data,skb->len,"BT HCI SEND Packet Dump");
}
do {
txSkb = bt_skb_alloc(TX_PACKET_RSV_OFFSET + pHcidevInfo->HCIProps.HeadRoom +
pHcidevInfo->HCIProps.TailRoom + skb->len,
GFP_ATOMIC);
if (txSkb == NULL) {
status = A_NO_MEMORY;
break;
}
bt_cb(txSkb)->pkt_type = bt_cb(skb)->pkt_type;
txSkb->dev = (void *)pHcidevInfo->pBtStackHCIDev;
skb_reserve(txSkb, TX_PACKET_RSV_OFFSET + pHcidevInfo->HCIProps.HeadRoom);
A_MEMCPY(txSkb->data, skb->data, skb->len);
skb_put(txSkb,skb->len);
pPacket = AllocHTCStruct(pHcidevInfo);
if (NULL == pPacket) {
status = A_NO_MEMORY;
break;
}
/* HCI packet length here doesn't include the 1-byte transport header which
* will be handled by the HCI transport layer. Enough headroom has already
* been reserved above for the transport header
*/
SET_HTC_PACKET_INFO_TX(pPacket,
txSkb,
txSkb->data,
txSkb->len,
type,
AR6K_CONTROL_PKT_TAG); /* HCI packets cannot be dropped */
AR_DEBUG_PRINTF(ATH_DEBUG_HCI_SEND, ("HCI Bridge: bt_send_frame skb:0x%lX \n",(unsigned long)txSkb));
AR_DEBUG_PRINTF(ATH_DEBUG_HCI_SEND, ("HCI Bridge: type:%d, Total Length:%d Bytes \n",
type, txSkb->len));
status = HCI_TransportSendPkt(pHcidevInfo->pHCIDev,pPacket,FALSE);
pPacket = NULL;
txSkb = NULL;
} while (FALSE);
if (txSkb != NULL) {
kfree_skb(txSkb);
}
kfree_skb(skb);
AR_DEBUG_PRINTF(ATH_DEBUG_HCI_SEND, ("-bt_send_frame \n"));
return 0;
}
/*
* bt_ioctl - ioctl processing
*/
static int bt_ioctl(struct hci_dev *hdev, unsigned int cmd, unsigned long arg)
{
AR_DEBUG_PRINTF(ATH_DEBUG_TRC, ("HCI Bridge: bt_ioctl - enter\n"));
return -ENOIOCTLCMD;
}
/*
* bt_flush - flush outstandingbpackets
*/
static int bt_flush(struct hci_dev *hdev)
{
AR6K_HCI_BRIDGE_INFO *pHcidevInfo;
AR_DEBUG_PRINTF(ATH_DEBUG_TRC, ("HCI Bridge: bt_flush - enter\n"));
pHcidevInfo = (AR6K_HCI_BRIDGE_INFO *)hdev->driver_data;
/* TODO??? */
return 0;
}
/*
* bt_destruct -
*/
static void bt_destruct(struct hci_dev *hdev)
{
AR_DEBUG_PRINTF(ATH_DEBUG_TRC, ("HCI Bridge: bt_destruct - enter\n"));
/* nothing to do here */
}
static A_STATUS bt_setup_hci(AR6K_HCI_BRIDGE_INFO *pHcidevInfo)
{
A_STATUS status = A_OK;
struct hci_dev *pHciDev = NULL;
HIF_DEVICE_OS_DEVICE_INFO osDevInfo;
if (!setupbtdev) {
return A_OK;
}
do {
A_MEMZERO(&osDevInfo,sizeof(osDevInfo));
/* get the underlying OS device */
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
status = ar6000_get_hif_dev((HIF_DEVICE *)(pHcidevInfo->HCITransHdl.hifDevice),
&osDevInfo);
#else
status = HIFConfigureDevice(pHcidevInfo->ar->arHifDevice,
HIF_DEVICE_GET_OS_DEVICE,
&osDevInfo,
sizeof(osDevInfo));
#endif
if (A_FAILED(status)) {
AR_DEBUG_PRINTF(ATH_DEBUG_ERR,("Failed to OS device info from HIF\n"));
break;
}
/* allocate a BT HCI struct for this device */
pHciDev = hci_alloc_dev();
if (NULL == pHciDev) {
AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("HCI Bridge - failed to allocate bt struct \n"));
status = A_NO_MEMORY;
break;
}
/* save the device, we'll register this later */
pHcidevInfo->pBtStackHCIDev = pHciDev;
SET_HCIDEV_DEV(pHciDev,osDevInfo.pOSDevice);
SET_HCI_BUS_TYPE(pHciDev, HCI_VIRTUAL, HCI_BREDR);
pHciDev->driver_data = pHcidevInfo;
pHciDev->open = bt_open;
pHciDev->close = bt_close;
pHciDev->send = bt_send_frame;
pHciDev->ioctl = bt_ioctl;
pHciDev->flush = bt_flush;
pHciDev->destruct = bt_destruct;
pHciDev->owner = THIS_MODULE;
/* driver is running in normal BT mode */
pHcidevInfo->HciNormalMode = TRUE;
} while (FALSE);
if (A_FAILED(status)) {
bt_cleanup_hci(pHcidevInfo);
}
return status;
}
static void bt_cleanup_hci(AR6K_HCI_BRIDGE_INFO *pHcidevInfo)
{
int err;
if (pHcidevInfo->HciRegistered) {
pHcidevInfo->HciRegistered = FALSE;
clear_bit(HCI_RUNNING, &pHcidevInfo->pBtStackHCIDev->flags);
clear_bit(HCI_UP, &pHcidevInfo->pBtStackHCIDev->flags);
clear_bit(HCI_INIT, &pHcidevInfo->pBtStackHCIDev->flags);
A_ASSERT(pHcidevInfo->pBtStackHCIDev != NULL);
/* unregister */
if ((err = hci_unregister_dev(pHcidevInfo->pBtStackHCIDev)) < 0) {
AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("HCI Bridge: failed to unregister with bluetooth %d\n",err));
}
}
if (pHcidevInfo->pBtStackHCIDev != NULL) {
kfree(pHcidevInfo->pBtStackHCIDev);
pHcidevInfo->pBtStackHCIDev = NULL;
}
}
static A_STATUS bt_register_hci(AR6K_HCI_BRIDGE_INFO *pHcidevInfo)
{
int err;
A_STATUS status = A_OK;
do {
AR_DEBUG_PRINTF(ATH_DEBUG_HCI_BRIDGE, ("HCI Bridge: registering HCI... \n"));
A_ASSERT(pHcidevInfo->pBtStackHCIDev != NULL);
/* mark that we are registered */
pHcidevInfo->HciRegistered = TRUE;
if ((err = hci_register_dev(pHcidevInfo->pBtStackHCIDev)) < 0) {
AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("HCI Bridge: failed to register with bluetooth %d\n",err));
pHcidevInfo->HciRegistered = FALSE;
status = A_ERROR;
break;
}
AR_DEBUG_PRINTF(ATH_DEBUG_HCI_BRIDGE, ("HCI Bridge: HCI registered \n"));
} while (FALSE);
return status;
}
static A_BOOL bt_indicate_recv(AR6K_HCI_BRIDGE_INFO *pHcidevInfo,
HCI_TRANSPORT_PACKET_TYPE Type,
struct sk_buff *skb)
{
A_UINT8 btType;
int len;
A_BOOL success = FALSE;
BT_HCI_EVENT_HEADER *pEvent;
do {
if (!test_bit(HCI_RUNNING, &pHcidevInfo->pBtStackHCIDev->flags)) {
AR_DEBUG_PRINTF(ATH_DEBUG_WARN, ("HCI Bridge: bt_indicate_recv - not running\n"));
break;
}
switch (Type) {
case HCI_ACL_TYPE:
btType = HCI_ACLDATA_PKT;
break;
case HCI_EVENT_TYPE:
btType = HCI_EVENT_PKT;
break;
default:
btType = 0;
A_ASSERT(FALSE);
break;
}
if (0 == btType) {
break;
}
/* set the final type */
bt_cb(skb)->pkt_type = btType;
/* set dev */
skb->dev = (void *)pHcidevInfo->pBtStackHCIDev;
len = skb->len;
if (AR_DEBUG_LVL_CHECK(ATH_DEBUG_HCI_RECV)) {
if (bt_cb(skb)->pkt_type == HCI_EVENT_PKT) {
pEvent = (BT_HCI_EVENT_HEADER *)skb->data;
AR_DEBUG_PRINTF(ATH_DEBUG_HCI_RECV, ("BT HCI EventCode: %d, len:%d \n",
pEvent->EventCode, pEvent->ParamLength));
}
}
/* pass receive packet up the stack */
if (hci_recv_frame(skb) != 0) {
AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("HCI Bridge: hci_recv_frame failed \n"));
break;
} else {
AR_DEBUG_PRINTF(ATH_DEBUG_HCI_RECV,
("HCI Bridge: Indicated RCV of type:%d, Length:%d \n",btType,len));
}
success = TRUE;
} while (FALSE);
return success;
}
static struct sk_buff* bt_alloc_buffer(AR6K_HCI_BRIDGE_INFO *pHcidevInfo, int Length)
{
struct sk_buff *skb;
/* in normal HCI mode we need to alloc from the bt core APIs */
skb = bt_skb_alloc(Length, GFP_ATOMIC);
if (NULL == skb) {
AR_DEBUG_PRINTF(ATH_DEBUG_ERR,("Failed to alloc bt sk_buff \n"));
}
return skb;
}
static void bt_free_buffer(AR6K_HCI_BRIDGE_INFO *pHcidevInfo, struct sk_buff *skb)
{
kfree_skb(skb);
}
#else // { CONFIG_BLUEZ_HCI_BRIDGE
/* stubs when we only want to test the HCI bridging Interface without the HT stack */
static A_STATUS bt_setup_hci(AR6K_HCI_BRIDGE_INFO *pHcidevInfo)
{
return A_OK;
}
static void bt_cleanup_hci(AR6K_HCI_BRIDGE_INFO *pHcidevInfo)
{
}
static A_STATUS bt_register_hci(AR6K_HCI_BRIDGE_INFO *pHcidevInfo)
{
A_ASSERT(FALSE);
return A_ERROR;
}
static A_BOOL bt_indicate_recv(AR6K_HCI_BRIDGE_INFO *pHcidevInfo,
HCI_TRANSPORT_PACKET_TYPE Type,
struct sk_buff *skb)
{
A_ASSERT(FALSE);
return FALSE;
}
static struct sk_buff* bt_alloc_buffer(AR6K_HCI_BRIDGE_INFO *pHcidevInfo, int Length)
{
A_ASSERT(FALSE);
return NULL;
}
static void bt_free_buffer(AR6K_HCI_BRIDGE_INFO *pHcidevInfo, struct sk_buff *skb)
{
A_ASSERT(FALSE);
}
#endif // } CONFIG_BLUEZ_HCI_BRIDGE
#else // { ATH_AR6K_ENABLE_GMBOX
/* stubs when GMBOX support is not needed */
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
A_STATUS ar6000_setup_hci(void *ar)
#else
A_STATUS ar6000_setup_hci(AR_SOFTC_T *ar)
#endif
{
return A_OK;
}
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
void ar6000_cleanup_hci(void *ar)
#else
void ar6000_cleanup_hci(AR_SOFTC_T *ar)
#endif
{
return;
}
#ifndef EXPORT_HCI_BRIDGE_INTERFACE
void ar6000_set_default_ar3kconfig(AR_SOFTC_T *ar, void *ar3kconfig)
{
return;
}
#endif
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
int hci_test_send(void *ar, struct sk_buff *skb)
#else
int hci_test_send(AR_SOFTC_T *ar, struct sk_buff *skb)
#endif
{
return -EOPNOTSUPP;
}
#endif // } ATH_AR6K_ENABLE_GMBOX
#ifdef EXPORT_HCI_BRIDGE_INTERFACE
static int __init
hcibridge_init_module(void)
{
A_STATUS status;
HCI_TRANSPORT_CALLBACKS hciTransCallbacks;
hciTransCallbacks.setupTransport = ar6000_setup_hci;
hciTransCallbacks.cleanupTransport = ar6000_cleanup_hci;
status = ar6000_register_hci_transport(&hciTransCallbacks);
if(status != A_OK)
return -ENODEV;
return 0;
}
static void __exit
hcibridge_cleanup_module(void)
{
}
module_init(hcibridge_init_module);
module_exit(hcibridge_cleanup_module);
MODULE_LICENSE("Dual BSD/GPL");
#endif
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