/* ----------------------------------- Function Prototypes */
static struct lst_list *create_chirp_list(u32 uChirps);
-static void free_chirp_list(struct lst_list *pList);
+static void free_chirp_list(struct lst_list *lst);
static struct chnl_irp *make_new_chirp(void);
* The direction (mode) is specified in the channel object. Note the DSP
* address is specified for channels opened in direct I/O mode.
*/
-int bridge_chnl_add_io_req(struct chnl_object *chnl_obj, void *pHostBuf,
+int bridge_chnl_add_io_req(struct chnl_object *chnl_obj, void *host_buf,
u32 byte_size, u32 buf_size,
OPTIONAL u32 dw_dsp_addr, u32 dw_arg)
{
is_eos = (byte_size == 0);
/* Validate args */
- if (!pHostBuf || !pchnl) {
+ if (!host_buf || !pchnl) {
status = -EFAULT;
} else if (is_eos && CHNL_IS_INPUT(pchnl->chnl_mode)) {
status = -EPERM;
if (DSP_FAILED(status))
goto func_end;
- if (pchnl->chnl_type == CHNL_PCPY && pchnl->chnl_id > 1 && pHostBuf) {
- if (!(pHostBuf < (void *)USERMODE_ADDR)) {
- host_sys_buf = pHostBuf;
+ if (pchnl->chnl_type == CHNL_PCPY && pchnl->chnl_id > 1 && host_buf) {
+ if (!(host_buf < (void *)USERMODE_ADDR)) {
+ host_sys_buf = host_buf;
goto func_cont;
}
/* if addr in user mode, then copy to kernel space */
goto func_end;
}
if (CHNL_IS_OUTPUT(pchnl->chnl_mode)) {
- status = copy_from_user(host_sys_buf, pHostBuf,
+ status = copy_from_user(host_sys_buf, host_buf,
buf_size);
if (status) {
kfree(host_sys_buf);
if (DSP_SUCCEEDED(status)) {
/* Enqueue the chirp on the chnl's IORequest queue: */
chnl_packet_obj->host_user_buf = chnl_packet_obj->host_sys_buf =
- pHostBuf;
+ host_buf;
if (pchnl->chnl_type == CHNL_PCPY && pchnl->chnl_id > 1)
chnl_packet_obj->host_sys_buf = host_sys_buf;
* Retrieve information related to a channel.
*/
int bridge_chnl_get_info(struct chnl_object *chnl_obj,
- OUT struct chnl_info *pInfo)
+ OUT struct chnl_info *channel_info)
{
int status = 0;
struct chnl_object *pchnl = (struct chnl_object *)chnl_obj;
- if (pInfo != NULL) {
+ if (channel_info != NULL) {
if (pchnl) {
/* Return the requested information: */
- pInfo->hchnl_mgr = pchnl->chnl_mgr_obj;
- pInfo->event_obj = pchnl->user_event;
- pInfo->cnhl_id = pchnl->chnl_id;
- pInfo->dw_mode = pchnl->chnl_mode;
- pInfo->bytes_tx = pchnl->bytes_moved;
- pInfo->process = pchnl->process;
- pInfo->sync_event = pchnl->sync_event;
- pInfo->cio_cs = pchnl->cio_cs;
- pInfo->cio_reqs = pchnl->cio_reqs;
- pInfo->dw_state = pchnl->dw_state;
+ channel_info->hchnl_mgr = pchnl->chnl_mgr_obj;
+ channel_info->event_obj = pchnl->user_event;
+ channel_info->cnhl_id = pchnl->chnl_id;
+ channel_info->dw_mode = pchnl->chnl_mode;
+ channel_info->bytes_tx = pchnl->bytes_moved;
+ channel_info->process = pchnl->process;
+ channel_info->sync_event = pchnl->sync_event;
+ channel_info->cio_cs = pchnl->cio_cs;
+ channel_info->cio_reqs = pchnl->cio_reqs;
+ channel_info->dw_state = pchnl->dw_state;
} else {
status = -EFAULT;
}
* Note: Ensures Channel Invariant (see notes above).
*/
int bridge_chnl_get_ioc(struct chnl_object *chnl_obj, u32 timeout,
- OUT struct chnl_ioc *pIOC)
+ OUT struct chnl_ioc *chan_ioc)
{
int status = 0;
struct chnl_object *pchnl = (struct chnl_object *)chnl_obj;
struct dev_object *dev_obj;
/* Check args: */
- if (!pIOC || !pchnl) {
+ if (!chan_ioc || !pchnl) {
status = -EFAULT;
} else if (timeout == CHNL_IOCNOWAIT) {
if (LST_IS_EMPTY(pchnl->pio_completions))
spin_lock_bh(&pchnl->chnl_mgr_obj->chnl_mgr_lock);
omap_mbox_disable_irq(dev_ctxt->mbox, IRQ_RX);
if (dequeue_ioc) {
- /* Dequeue IOC and set pIOC; */
+ /* Dequeue IOC and set chan_ioc; */
DBC_ASSERT(!LST_IS_EMPTY(pchnl->pio_completions));
chnl_packet_obj =
(struct chnl_irp *)lst_get_head(pchnl->pio_completions);
- /* Update pIOC from channel state and chirp: */
+ /* Update chan_ioc from channel state and chirp: */
if (chnl_packet_obj) {
pchnl->cio_cs--;
/* If this is a zero-copy channel, then set IOC's pbuf
}
func_cont:
/* Update User's IOC block: */
- *pIOC = ioc;
+ *chan_ioc = ioc;
func_end:
return status;
}
* Type : const u32
* Description : Base Address of instance of MMU module
*
- * Identifier : physicalAddr
+ * Identifier : physical_addr
* Type : const u32
* Description : Physical Address to which the corresponding
* virtual Address shouldpoint
* METHOD: : Check the Input parameters and set the RAM entry.
*/
static hw_status mmu_set_ram_entry(const void __iomem *base_address,
- const u32 physicalAddr,
+ const u32 physical_addr,
enum hw_endianism_t endianism,
enum hw_element_size_t element_size,
enum hw_mmu_mixed_size_t mixed_size);
}
hw_status hw_mmu_tlb_add(const void __iomem *base_address,
- u32 physicalAddr,
+ u32 physical_addr,
u32 virtualAddr,
u32 page_sz,
u32 entry_num,
/* Write the different fields of the RAM Entry Register */
/* endianism of the page,Element Size of the page (8, 16, 32, 64 bit) */
- mmu_set_ram_entry(base_address, physicalAddr, map_attrs->endianism,
+ mmu_set_ram_entry(base_address, physical_addr, map_attrs->endianism,
map_attrs->element_size, map_attrs->mixed_size);
/* Update the MMU Lock Register */
}
hw_status hw_mmu_pte_set(const u32 pg_tbl_va,
- u32 physicalAddr,
+ u32 physical_addr,
u32 virtualAddr,
u32 page_sz, struct hw_mmu_map_attrs_t *map_attrs)
{
virtualAddr &
MMU_SMALL_PAGE_MASK);
pte_val =
- ((physicalAddr & MMU_SMALL_PAGE_MASK) |
+ ((physical_addr & MMU_SMALL_PAGE_MASK) |
(map_attrs->endianism << 9) | (map_attrs->
element_size << 4) |
(map_attrs->mixed_size << 11) | 2);
virtualAddr &
MMU_LARGE_PAGE_MASK);
pte_val =
- ((physicalAddr & MMU_LARGE_PAGE_MASK) |
+ ((physical_addr & MMU_LARGE_PAGE_MASK) |
(map_attrs->endianism << 9) | (map_attrs->
element_size << 4) |
(map_attrs->mixed_size << 11) | 1);
virtualAddr &
MMU_SECTION_ADDR_MASK);
pte_val =
- ((((physicalAddr & MMU_SECTION_ADDR_MASK) |
+ ((((physical_addr & MMU_SECTION_ADDR_MASK) |
(map_attrs->endianism << 15) | (map_attrs->
element_size << 10) |
(map_attrs->mixed_size << 17)) & ~0x40000) | 0x2);
virtualAddr &
MMU_SSECTION_ADDR_MASK);
pte_val =
- (((physicalAddr & MMU_SSECTION_ADDR_MASK) |
+ (((physical_addr & MMU_SSECTION_ADDR_MASK) |
(map_attrs->endianism << 15) | (map_attrs->
element_size << 10) |
(map_attrs->mixed_size << 17)
pte_addr = hw_mmu_pte_addr_l1(pg_tbl_va,
virtualAddr &
MMU_SECTION_ADDR_MASK);
- pte_val = (physicalAddr & MMU_PAGE_TABLE_MASK) | 1;
+ pte_val = (physical_addr & MMU_PAGE_TABLE_MASK) | 1;
break;
default:
/* mmu_set_ram_entry */
static hw_status mmu_set_ram_entry(const void __iomem *base_address,
- const u32 physicalAddr,
+ const u32 physical_addr,
enum hw_endianism_t endianism,
enum hw_element_size_t element_size,
enum hw_mmu_mixed_size_t mixed_size)
RET_PARAM_OUT_OF_RANGE, RES_MMU_BASE +
RES_INVALID_INPUT_PARAM);
- mmu_ram_reg = (physicalAddr & MMU_ADDR_MASK);
+ mmu_ram_reg = (physical_addr & MMU_ADDR_MASK);
mmu_ram_reg = (mmu_ram_reg) | ((endianism << 9) | (element_size << 7) |
(mixed_size << 6));
u32 virtualAddr, u32 page_sz);
extern hw_status hw_mmu_tlb_add(const void __iomem *base_address,
- u32 physicalAddr,
+ u32 physical_addr,
u32 virtualAddr,
u32 page_sz,
u32 entry_num,
/* For PTEs */
extern hw_status hw_mmu_pte_set(const u32 pg_tbl_va,
- u32 physicalAddr,
+ u32 physical_addr,
u32 virtualAddr,
u32 page_sz,
struct hw_mmu_map_attrs_t *map_attrs);
* address translation. Node messaging and streams use this to perform
* inter-processor(GPP<->DSP) zero-copy data transfer.
* Parameters:
- * phXlator: Address to place handle to a new Xlator handle.
+ * xlator: Address to place handle to a new Xlator handle.
* hcmm_mgr: Handle to Cmm Mgr associated with this translator.
* pXlatorAttrs: Translator attributes used for the client NODE or STREAM.
* Returns:
* -EINVAL: Bad input Attrs.
* -ENOMEM: Insufficient memory(local) for requested resources.
* Requires:
- * phXlator != NULL
+ * xlator != NULL
* hcmm_mgr != NULL
* pXlatorAttrs != NULL
* Ensures:
*
*/
-extern int cmm_xlator_create(OUT struct cmm_xlatorobject **phXlator,
+extern int cmm_xlator_create(OUT struct cmm_xlatorobject **xlator,
struct cmm_object *hcmm_mgr,
struct cmm_xlatorattrs *pXlatorAttrs);
* pszCoffPath: Coff file to open.
* flags: COD_NOLOAD (don't load symbols) or COD_SYMB (load
* symbols).
- * pLib: Handle returned that can be used in calls to cod_close
+ * lib_obj: Handle returned that can be used in calls to cod_close
* and cod_get_section.
* Returns:
* S_OK: Success.
*/
extern int cod_open(struct cod_manager *hmgr,
IN char *pszCoffPath,
- u32 flags, OUT struct cod_libraryobj **pLib);
+ u32 flags, OUT struct cod_libraryobj **lib_obj);
/*
* ======== cod_open_base ========
extern int dbll_load_sect(struct dbll_library_obj *lib,
char *sectName, struct dbll_attrs *attrs);
extern int dbll_open(struct dbll_tar_obj *target, char *file,
- dbll_flags flags, struct dbll_library_obj **pLib);
+ dbll_flags flags,
+ struct dbll_library_obj **lib_obj);
extern int dbll_read_sect(struct dbll_library_obj *lib,
char *name, char *pbuf, u32 size);
extern void dbll_set_attrs(struct dbll_tar_obj *target,
* target - Handle returned from dbll_create().
* file - Name of file to open.
* flags - If flags & DBLL_SYMB, load symbols.
- * pLib - Location to store library handle on output.
+ * lib_obj - Location to store library handle on output.
* Returns:
* 0: Success.
* -ENOMEM: Memory allocation failure.
* DBL initialized.
* Valid target.
* file != NULL.
- * pLib != NULL.
+ * lib_obj != NULL.
* dbll_attrs fopen function non-NULL.
* Ensures:
- * Success: Valid *pLib.
- * Failure: *pLib == NULL.
+ * Success: Valid *lib_obj.
+ * Failure: *lib_obj == NULL.
*/
typedef int(*dbll_open_fxn) (struct dbll_tar_obj *target, char *file,
dbll_flags flags,
- struct dbll_library_obj **pLib);
+ struct dbll_library_obj **lib_obj);
/*
* ======== dbll_read_sect ========
* arb: Handle to a Device Object.
* dev_ctxt: Handle to Bridge driver defined device info.
* dsp_addr: Address on DSP board (Destination).
- * pHostBuf: Pointer to host buffer (Source).
+ * host_buf: Pointer to host buffer (Source).
* ul_num_bytes: Number of bytes to transfer.
* ulMemType: Memory space on DSP to which to transfer.
* Returns:
* arb is invalid.
* Requires:
* DEV Initialized.
- * pHostBuf != NULL
+ * host_buf != NULL
* Ensures:
*/
extern u32 dev_brd_write_fxn(void *arb,
u32 ulDspAddr,
- void *pHostBuf, u32 ul_num_bytes, u32 mem_space);
+ void *host_buf, u32 ul_num_bytes, u32 mem_space);
/*
* ======== dev_create_device ========
* driver_file_name: Name of Bridge driver PE DLL file to load. If the
* absolute path is not provided, the file is loaded
* through 'Bridge's module search path.
- * pHostConfig: Host configuration information, to be passed down
+ * host_config: Host configuration information, to be passed down
* to the Bridge driver when bridge_dev_create() is called.
* pDspConfig: DSP resources, to be passed down to the Bridge driver
* when bridge_dev_create() is called.
* DEV Initialized.
* device_obj != NULL.
* driver_file_name != NULL.
- * pHostConfig != NULL.
+ * host_config != NULL.
* pDspConfig != NULL.
* Ensures:
* 0: *device_obj will contain handle to the new device object.
* driver_file_name: Name of Bridge driver PE DLL file to load. If the
* absolute path is not provided, the file is loaded
* through 'Bridge's module search path.
- * pHostConfig: Host configuration information, to be passed down
+ * host_config: Host configuration information, to be passed down
* to the Bridge driver when bridge_dev_create() is called.
* pDspConfig: DSP resources, to be passed down to the Bridge driver
* when bridge_dev_create() is called.
* DEV Initialized.
* device_obj != NULL.
* driver_file_name != NULL.
- * pHostConfig != NULL.
+ * host_config != NULL.
* pDspConfig != NULL.
* Ensures:
* 0: *device_obj will contain handle to the new device object.
**device_obj,
IN CONST char *driver_file_name,
IN CONST struct cfg_hostres
- *pHostConfig,
+ *host_config,
struct cfg_devnode *dev_node_obj);
/*
* Requires:
* DEV Initialized.
* Valid hdev_obj.
- * phNodeMgr != NULL.
+ * node_man != NULL.
* Ensures:
*/
extern void dev_get_msg_mgr(struct dev_object *hdev_obj,
* accessor function
* Parameters:
* hdev_obj: Handle to the Dev Object
- * phNodeMgr: Location where Handle to the Node Manager will be
+ * node_man: Location where Handle to the Node Manager will be
* returned..
* Returns:
* 0: Success
* -EFAULT: Invalid Dev Object handle.
* Requires:
* DEV Initialized.
- * phNodeMgr is not null
+ * node_man is not null
* Ensures:
- * 0: *phNodeMgr contains a handle to a Node manager object.
- * else: *phNodeMgr is NULL.
+ * 0: *node_man contains a handle to a Node manager object.
+ * else: *node_man is NULL.
*/
extern int dev_get_node_manager(struct dev_object
*hdev_obj,
- OUT struct node_mgr **phNodeMgr);
+ OUT struct node_mgr **node_man);
/*
* ======== dev_get_symbol ========
extern int bridge_chnl_close(struct chnl_object *chnl_obj);
extern int bridge_chnl_add_io_req(struct chnl_object *chnl_obj,
- void *pHostBuf,
+ void *host_buf,
u32 byte_size, u32 buf_size,
OPTIONAL u32 dw_dsp_addr, u32 dw_arg);
extern int bridge_chnl_get_ioc(struct chnl_object *chnl_obj,
- u32 timeout, OUT struct chnl_ioc *pIOC);
+ u32 timeout, OUT struct chnl_ioc *chan_ioc);
extern int bridge_chnl_cancel_io(struct chnl_object *chnl_obj);
u32 timeout);
extern int bridge_chnl_get_info(struct chnl_object *chnl_obj,
- OUT struct chnl_info *pInfo);
+ OUT struct chnl_info *channel_info);
extern int bridge_chnl_get_mgr_info(struct chnl_mgr *hchnl_mgr,
u32 uChnlID, OUT struct chnl_mgrinfo
* Parameters:
* dev_ctxt: Handle to Bridge driver defined device info.
* dsp_addr: Address on DSP board (Destination).
- * pHostBuf: Pointer to host buffer (Source).
+ * host_buf: Pointer to host buffer (Source).
* ul_num_bytes: Number of bytes to transfer.
* ulMemType: Memory space on DSP to which to transfer.
* Returns:
* -EPERM: Other, unspecified error.
* Requires:
* dev_ctxt != NULL;
- * pHostBuf != NULL.
+ * host_buf != NULL.
* Ensures:
*/
typedef int(*fxn_brd_memwrite) (struct bridge_dev_context
* dev_ctxt,
- IN u8 *pHostBuf,
+ IN u8 *host_buf,
u32 dsp_addr, u32 ul_num_bytes,
u32 ulMemType);
* buffer.
* Parameters:
* dev_ctxt: Handle to Bridge driver defined device info.
- * pHostBuf: Pointer to host buffer (Destination).
+ * host_buf: Pointer to host buffer (Destination).
* dsp_addr: Address on DSP board (Source).
* ul_num_bytes: Number of bytes to transfer.
* ulMemType: Memory space on DSP from which to transfer.
* -EPERM: Other, unspecified error.
* Requires:
* dev_ctxt != NULL;
- * pHostBuf != NULL.
+ * host_buf != NULL.
* Ensures:
- * Will not write more than ul_num_bytes bytes into pHostBuf.
+ * Will not write more than ul_num_bytes bytes into host_buf.
*/
typedef int(*fxn_brd_read) (struct bridge_dev_context *dev_ctxt,
- OUT u8 *pHostBuf,
+ OUT u8 *host_buf,
u32 dsp_addr,
u32 ul_num_bytes, u32 ulMemType);
* Parameters:
* dev_ctxt: Handle to Bridge driver defined device info.
* dsp_addr: Address on DSP board (Destination).
- * pHostBuf: Pointer to host buffer (Source).
+ * host_buf: Pointer to host buffer (Source).
* ul_num_bytes: Number of bytes to transfer.
* ulMemType: Memory space on DSP to which to transfer.
* Returns:
* -EPERM: Other, unspecified error.
* Requires:
* dev_ctxt != NULL;
- * pHostBuf != NULL.
+ * host_buf != NULL.
* Ensures:
*/
typedef int(*fxn_brd_write) (struct bridge_dev_context *dev_ctxt,
- IN u8 *pHostBuf,
+ IN u8 *host_buf,
u32 dsp_addr,
u32 ul_num_bytes, u32 ulMemType);
* address is specified for channels opened in direct I/O mode.
* Parameters:
* chnl_obj: Channel object handle.
- * pHostBuf: Host buffer address source.
+ * host_buf: Host buffer address source.
* byte_size: Number of PC bytes to transfer. A zero value indicates
* that this buffer is the last in the output channel.
* A zero value is invalid for an input channel.
* dw_arg: A user argument that travels with the buffer.
* Returns:
* 0: Success;
- * -EFAULT: Invalid chnl_obj or pHostBuf.
+ * -EFAULT: Invalid chnl_obj or host_buf.
* -EPERM: User cannot mark EOS on an input channel.
* -ECANCELED: I/O has been cancelled on this channel. No further
* I/O is allowed.
*/
typedef int(*fxn_chnl_addioreq) (struct chnl_object
* chnl_obj,
- void *pHostBuf,
+ void *host_buf,
u32 byte_size,
u32 buf_size,
OPTIONAL u32 dw_dsp_addr, u32 dw_arg);
* chnl_obj: Channel object handle.
* timeout: A value of CHNL_IOCNOWAIT will simply dequeue the
* first available IOC.
- * pIOC: On output, contains host buffer address, bytes
+ * chan_ioc: On output, contains host buffer address, bytes
* transferred, and status of I/O completion.
- * pIOC->status: See chnldefs.h.
+ * chan_ioc->status: See chnldefs.h.
* Returns:
* 0: Success.
- * -EFAULT: Invalid chnl_obj or pIOC.
+ * -EFAULT: Invalid chnl_obj or chan_ioc.
* -EREMOTEIO: CHNL_IOCNOWAIT was specified as the timeout parameter
* yet no I/O completions were queued.
* Requires:
*/
typedef int(*fxn_chnl_getioc) (struct chnl_object *chnl_obj,
u32 timeout,
- OUT struct chnl_ioc *pIOC);
+ OUT struct chnl_ioc *chan_ioc);
/*
* ======== bridge_chnl_cancel_io ========
* Retrieve information related to a channel.
* Parameters:
* chnl_obj: Handle to a valid channel object, or NULL.
- * pInfo: Location to store channel info.
+ * channel_info: Location to store channel info.
* Returns:
* 0: Success;
- * -EFAULT: Invalid chnl_obj or pInfo.
+ * -EFAULT: Invalid chnl_obj or channel_info.
* Requires:
* Ensures:
- * 0: pInfo points to a filled in chnl_info struct,
- * if (pInfo != NULL).
+ * 0: channel_info points to a filled in chnl_info struct,
+ * if (channel_info != NULL).
*/
typedef int(*fxn_chnl_getinfo) (struct chnl_object *chnl_obj,
OUT struct chnl_info *channel_info);
* Returns a pointer to the first element of the list, or NULL if the list
* is empty.
* Parameters:
- * pList: Pointer to list control structure.
+ * lst: Pointer to list control structure.
* Returns:
* Pointer to first list element, or NULL.
* Requires:
* - LST initialized.
- * - pList != NULL.
+ * - lst != NULL.
* Ensures:
*/
-static inline struct list_head *lst_first(struct lst_list *pList)
+static inline struct list_head *lst_first(struct lst_list *lst)
{
- if (pList && !list_empty(&pList->head))
- return pList->head.next;
+ if (lst && !list_empty(&lst->head))
+ return lst->head.next;
return NULL;
}
* element. So the next element after the head becomes the new head of
* the list.
* Parameters:
- * pList: Pointer to list control structure of list whose head
+ * lst: Pointer to list control structure of list whose head
* element is to be removed
* Returns:
* Pointer to element that was at the head of the list (success)
* NULL No elements in list
* Requires:
* - LST initialized.
- * - pList != NULL.
+ * - lst != NULL.
* Ensures:
* Notes:
* Because the tail of the list points forward (its "next" pointer) to
* the head of the list, and the head of the list points backward (its
* "prev" pointer) to the tail of the list, this list is circular.
*/
-static inline struct list_head *lst_get_head(struct lst_list *pList)
+static inline struct list_head *lst_get_head(struct lst_list *lst)
{
struct list_head *elem_list;
- if (!pList || list_empty(&pList->head))
+ if (!lst || list_empty(&lst->head))
return NULL;
- elem_list = pList->head.next;
- pList->head.next = elem_list->next;
- elem_list->next->prev = &pList->head;
+ elem_list = lst->head.next;
+ lst->head.next = elem_list->next;
+ elem_list->next->prev = &lst->head;
return elem_list;
}
* Purpose:
* Insert the element before the existing element.
* Parameters:
- * pList: Pointer to list control structure.
+ * lst: Pointer to list control structure.
* elem_list: Pointer to element in list to insert.
* elem_existing: Pointer to existing list element.
* Returns:
* Requires:
* - LST initialized.
- * - pList != NULL.
+ * - lst != NULL.
* - elem_list != NULL.
* - elem_existing != NULL.
* Ensures:
*/
-static inline void lst_insert_before(struct lst_list *pList,
+static inline void lst_insert_before(struct lst_list *lst,
struct list_head *elem_list,
struct list_head *elem_existing)
{
- if (pList && elem_list && elem_existing)
+ if (lst && elem_list && elem_existing)
list_add_tail(elem_list, elem_existing);
}
* Returns a pointer to the next element of the list, or NULL if the next
* element is the head of the list or the list is empty.
* Parameters:
- * pList: Pointer to list control structure.
+ * lst: Pointer to list control structure.
* cur_elem: Pointer to element in list to remove.
* Returns:
* Pointer to list element, or NULL.
* Requires:
* - LST initialized.
- * - pList != NULL.
+ * - lst != NULL.
* - cur_elem != NULL.
* Ensures:
*/
-static inline struct list_head *lst_next(struct lst_list *pList,
+static inline struct list_head *lst_next(struct lst_list *lst,
struct list_head *cur_elem)
{
- if (pList && !list_empty(&pList->head) && cur_elem &&
- (cur_elem->next != &pList->head))
+ if (lst && !list_empty(&lst->head) && cur_elem &&
+ (cur_elem->next != &lst->head))
return cur_elem->next;
return NULL;
}
* Sets new element's next pointer to the address of the head element.
* Sets head's prev pointer to the address of the new element.
* Parameters:
- * pList: Pointer to list control structure to which *elem_list will be
+ * lst: Pointer to list control structure to which *elem_list will be
* added
* elem_list: Pointer to list element to be added
* Returns:
* Void
* Requires:
- * *elem_list and *pList must both exist.
+ * *elem_list and *lst must both exist.
* LST initialized.
* Ensures:
* Notes:
* tail's "next" pointer points at the head of the list, and the head's
* "prev" pointer points at the tail of the list), the list is circular.
*/
-static inline void lst_put_tail(struct lst_list *pList,
+static inline void lst_put_tail(struct lst_list *lst,
struct list_head *elem_list)
{
- if (pList && elem_list)
- list_add_tail(elem_list, &pList->head);
+ if (lst && elem_list)
+ list_add_tail(elem_list, &lst->head);
}
/*
* Removes (unlinks) the given element from the list, if the list is not
* empty. Does not free the list element.
* Parameters:
- * pList: Pointer to list control structure.
+ * lst: Pointer to list control structure.
* cur_elem: Pointer to element in list to remove.
* Returns:
* Requires:
* - LST initialized.
- * - pList != NULL.
+ * - lst != NULL.
* - cur_elem != NULL.
* Ensures:
*/
-static inline void lst_remove_elem(struct lst_list *pList,
+static inline void lst_remove_elem(struct lst_list *lst,
struct list_head *cur_elem)
{
- if (pList && !list_empty(&pList->head) && cur_elem)
+ if (lst && !list_empty(&lst->head) && cur_elem)
list_del_init(cur_elem);
}
OUT struct nldr_nodeobject **nldr_nodeobj,
IN bool *pf_phase_split);
-extern int nldr_create(OUT struct nldr_object **phNldr,
+extern int nldr_create(OUT struct nldr_object **nldr,
struct dev_object *hdev_obj,
IN CONST struct nldr_attrs *pattrs);
char *pstrFxn, u32 * pulAddr);
extern int nldr_get_rmm_manager(struct nldr_object *nldr,
- OUT struct rmm_target_obj **phRmmMgr);
+ OUT struct rmm_target_obj **rmm_mgr);
extern bool nldr_init(void);
extern int nldr_load(struct nldr_nodeobject *nldr_node_obj,
* create, delete, and execute phase functions of nodes on the DSP target.
*
* Parameters:
- * phNldr: Location to store loader handle on output.
+ * nldr: Location to store loader handle on output.
* hdev_obj: Device for this processor.
* pattrs: Loader attributes.
* Returns:
* -ENOMEM: Insufficient memory for requested resources.
* Requires:
* nldr_init(void) called.
- * phNldr != NULL.
+ * nldr != NULL.
* hdev_obj != NULL.
* pattrs != NULL.
* Ensures:
- * 0: Valid *phNldr.
- * error: *phNldr == NULL.
+ * 0: Valid *nldr.
+ * error: *nldr == NULL.
*/
-typedef int(*nldr_createfxn) (OUT struct nldr_object **phNldr,
+typedef int(*nldr_createfxn) (OUT struct nldr_object **nldr,
struct dev_object *hdev_obj,
IN CONST struct nldr_attrs *pattrs);
* Each DEV object should have exactly one NODE Manager object.
*
* Parameters:
- * phNodeMgr: Location to store node manager handle on output.
+ * node_man: Location to store node manager handle on output.
* hdev_obj: Device for this processor.
* Returns:
* 0: Success;
* -EPERM: General failure.
* Requires:
* node_init(void) called.
- * phNodeMgr != NULL.
+ * node_man != NULL.
* hdev_obj != NULL.
* Ensures:
- * 0: Valide *phNodeMgr.
- * error: *phNodeMgr == NULL.
+ * 0: Valide *node_man.
+ * error: *node_man == NULL.
*/
-extern int node_create_mgr(OUT struct node_mgr **phNodeMgr,
+extern int node_create_mgr(OUT struct node_mgr **node_man,
struct dev_object *hdev_obj);
/*
* Retrieve the Nldr manager
* Parameters:
* hnode_mgr: Node Manager
- * phNldrObj: Pointer to a Nldr manager handle
+ * nldr_ovlyobj: Pointer to a Nldr manager handle
* Returns:
* 0: Success.
* -EFAULT: Invalid hnode.
* Ensures:
*/
extern int node_get_nldr_obj(struct node_mgr *hnode_mgr,
- OUT struct nldr_object **phNldrObj);
+ OUT struct nldr_object **nldr_ovlyobj);
/*
* ======== node_init ========
* Get the STRM manager for a node.
* Parameters:
* hnode: Node allocated with node_allocate().
- * phStrmMgr: Location to store STRM manager on output.
+ * strm_man: Location to store STRM manager on output.
* Returns:
* 0: Success.
* -EFAULT: Invalid hnode.
* Requires:
- * phStrmMgr != NULL.
+ * strm_man != NULL.
* Ensures:
*/
extern int node_get_strm_mgr(struct node_object *hnode,
- struct strm_mgr **phStrmMgr);
+ struct strm_mgr **strm_man);
/*
* ======== node_get_timeout ========
* Create a STRM manager object. This object holds information about the
* device needed to open streams.
* Parameters:
- * phStrmMgr: Location to store handle to STRM manager object on
+ * strm_man: Location to store handle to STRM manager object on
* output.
* dev_obj: Device for this processor.
* Returns:
* -EPERM: General failure.
* Requires:
* strm_init(void) called.
- * phStrmMgr != NULL.
+ * strm_man != NULL.
* dev_obj != NULL.
* Ensures:
- * 0: Valid *phStrmMgr.
- * error: *phStrmMgr == NULL.
+ * 0: Valid *strm_man.
+ * error: *strm_man == NULL.
*/
-extern int strm_create(OUT struct strm_mgr **phStrmMgr,
+extern int strm_create(OUT struct strm_mgr **strm_man,
struct dev_object *dev_obj);
/*
* index: Stream index.
* pattr: Pointer to structure containing attributes to be
* applied to stream. Cannot be NULL.
- * phStrm: Location to store stream handle on output.
+ * strm_objct: Location to store stream handle on output.
* Returns:
* 0: Success.
* -EFAULT: Invalid hnode.
* -EINVAL: Invalid index.
* Requires:
* strm_init(void) called.
- * phStrm != NULL.
+ * strm_objct != NULL.
* pattr != NULL.
* Ensures:
- * 0: *phStrm is valid.
- * error: *phStrm == NULL.
+ * 0: *strm_objct is valid.
+ * error: *strm_objct == NULL.
*/
extern int strm_open(struct node_object *hnode, u32 dir,
u32 index, IN struct strm_attr *pattr,
- OUT struct strm_object **phStrm,
+ OUT struct strm_object **strm_objct,
struct process_context *pr_ctxt);
/*
* Purpose:
* Create an address translator object.
*/
-int cmm_xlator_create(OUT struct cmm_xlatorobject **phXlator,
+int cmm_xlator_create(OUT struct cmm_xlatorobject **xlator,
struct cmm_object *hcmm_mgr,
struct cmm_xlatorattrs *pXlatorAttrs)
{
int status = 0;
DBC_REQUIRE(refs > 0);
- DBC_REQUIRE(phXlator != NULL);
+ DBC_REQUIRE(xlator != NULL);
DBC_REQUIRE(hcmm_mgr != NULL);
- *phXlator = NULL;
+ *xlator = NULL;
if (pXlatorAttrs == NULL)
pXlatorAttrs = &cmm_dfltxlatorattrs; /* set defaults */
status = -ENOMEM;
}
if (DSP_SUCCEEDED(status))
- *phXlator = (struct cmm_xlatorobject *)xlator_object;
+ *xlator = (struct cmm_xlatorobject *)xlator_object;
return status;
}
* Open library for reading sections.
*/
int cod_open(struct cod_manager *hmgr, IN char *pszCoffPath,
- u32 flags, struct cod_libraryobj **pLib)
+ u32 flags, struct cod_libraryobj **lib_obj)
{
int status = 0;
struct cod_libraryobj *lib = NULL;
DBC_REQUIRE(IS_VALID(hmgr));
DBC_REQUIRE(pszCoffPath != NULL);
DBC_REQUIRE(flags == COD_NOLOAD || flags == COD_SYMB);
- DBC_REQUIRE(pLib != NULL);
+ DBC_REQUIRE(lib_obj != NULL);
- *pLib = NULL;
+ *lib_obj = NULL;
lib = kzalloc(sizeof(struct cod_libraryobj), GFP_KERNEL);
if (lib == NULL)
status = hmgr->fxns.open_fxn(hmgr->target, pszCoffPath, flags,
&lib->dbll_lib);
if (DSP_SUCCEEDED(status))
- *pLib = lib;
+ *lib_obj = lib;
}
if (DSP_FAILED(status))
* ======== dbll_open ========
*/
int dbll_open(struct dbll_tar_obj *target, char *file, dbll_flags flags,
- struct dbll_library_obj **pLib)
+ struct dbll_library_obj **lib_obj)
{
struct dbll_tar_obj *zl_target = (struct dbll_tar_obj *)target;
struct dbll_library_obj *zl_lib = NULL;
DBC_REQUIRE(zl_target);
DBC_REQUIRE(zl_target->attrs.fopen != NULL);
DBC_REQUIRE(file != NULL);
- DBC_REQUIRE(pLib != NULL);
+ DBC_REQUIRE(lib_obj != NULL);
zl_lib = zl_target->head;
while (zl_lib != NULL) {
zl_lib->next = zl_target->head;
zl_target->head = zl_lib;
}
- *pLib = (struct dbll_library_obj *)zl_lib;
+ *lib_obj = (struct dbll_library_obj *)zl_lib;
} else {
- *pLib = NULL;
+ *lib_obj = NULL;
if (zl_lib != NULL)
dbll_close((struct dbll_library_obj *)zl_lib);
}
- DBC_ENSURE((DSP_SUCCEEDED(status) && (zl_lib->open_ref > 0) && *pLib)
- || (DSP_FAILED(status) && *pLib == NULL));
+ DBC_ENSURE((DSP_SUCCEEDED(status) && (zl_lib->open_ref > 0) && *lib_obj)
+ || (DSP_FAILED(status) && *lib_obj == NULL));
- dev_dbg(bridge, "%s: target: %p file: %s pLib: %p, status 0x%x\n",
- __func__, target, file, pLib, status);
+ dev_dbg(bridge, "%s: target: %p file: %s lib_obj: %p, status 0x%x\n",
+ __func__, target, file, lib_obj, status);
return status;
}
* is passed a handle to a DEV_hObject, then calls the
* device's bridge_brd_write() function.
*/
-u32 dev_brd_write_fxn(void *arb, u32 ulDspAddr, void *pHostBuf,
+u32 dev_brd_write_fxn(void *arb, u32 ulDspAddr, void *host_buf,
u32 ul_num_bytes, u32 mem_space)
{
struct dev_object *dev_obj = (struct dev_object *)arb;
int status;
DBC_REQUIRE(refs > 0);
- DBC_REQUIRE(pHostBuf != NULL); /* Required of BrdWrite(). */
+ DBC_REQUIRE(host_buf != NULL); /* Required of BrdWrite(). */
if (dev_obj) {
/* Require of BrdWrite() */
DBC_ASSERT(dev_obj->hbridge_context != NULL);
status = (*dev_obj->bridge_interface.pfn_brd_write) (
- dev_obj->hbridge_context, pHostBuf,
+ dev_obj->hbridge_context, host_buf,
ulDspAddr, ul_num_bytes, mem_space);
/* Special case of getting the address only */
if (ul_num_bytes == 0)
* Retrieve the Node Manager Handle
*/
int dev_get_node_manager(struct dev_object *hdev_obj,
- OUT struct node_mgr **phNodeMgr)
+ OUT struct node_mgr **node_man)
{
int status = 0;
struct dev_object *dev_obj = hdev_obj;
DBC_REQUIRE(refs > 0);
- DBC_REQUIRE(phNodeMgr != NULL);
+ DBC_REQUIRE(node_man != NULL);
if (hdev_obj) {
- *phNodeMgr = dev_obj->hnode_mgr;
+ *node_man = dev_obj->hnode_mgr;
} else {
- *phNodeMgr = NULL;
+ *node_man = NULL;
status = -EFAULT;
}
- DBC_ENSURE(DSP_SUCCEEDED(status) || ((phNodeMgr != NULL) &&
- (*phNodeMgr == NULL)));
+ DBC_ENSURE(DSP_SUCCEEDED(status) || ((node_man != NULL) &&
+ (*node_man == NULL)));
return status;
}
static int add_ovly_node(struct dsp_uuid *uuid_obj,
enum dsp_dcdobjtype obj_type, IN void *handle);
static int add_ovly_sect(struct nldr_object *nldr_obj,
- struct ovly_sect **pList,
+ struct ovly_sect **lst,
struct dbll_sect_info *pSectInfo,
bool *exists, u32 addr, u32 bytes);
static s32 fake_ovly_write(void *handle, u32 dsp_address, void *buf, u32 bytes,
/*
* ======== nldr_create ========
*/
-int nldr_create(OUT struct nldr_object **phNldr,
+int nldr_create(OUT struct nldr_object **nldr,
struct dev_object *hdev_obj,
IN CONST struct nldr_attrs *pattrs)
{
u16 i;
int status = 0;
DBC_REQUIRE(refs > 0);
- DBC_REQUIRE(phNldr != NULL);
+ DBC_REQUIRE(nldr != NULL);
DBC_REQUIRE(hdev_obj != NULL);
DBC_REQUIRE(pattrs != NULL);
DBC_REQUIRE(pattrs->pfn_ovly != NULL);
&save_attrs, &ul_entry);
}
if (DSP_SUCCEEDED(status)) {
- *phNldr = (struct nldr_object *)nldr_obj;
+ *nldr = (struct nldr_object *)nldr_obj;
} else {
if (nldr_obj)
nldr_delete((struct nldr_object *)nldr_obj);
- *phNldr = NULL;
+ *nldr = NULL;
}
/* FIXME:Temp. Fix. Must be removed */
- DBC_ENSURE((DSP_SUCCEEDED(status) && *phNldr)
- || (DSP_FAILED(status) && (*phNldr == NULL)));
+ DBC_ENSURE((DSP_SUCCEEDED(status) && *nldr)
+ || (DSP_FAILED(status) && (*nldr == NULL)));
return status;
}
* Given a NLDR object, retrieve RMM Manager Handle
*/
int nldr_get_rmm_manager(struct nldr_object *nldr,
- OUT struct rmm_target_obj **phRmmMgr)
+ OUT struct rmm_target_obj **rmm_mgr)
{
int status = 0;
struct nldr_object *nldr_obj = nldr;
- DBC_REQUIRE(phRmmMgr != NULL);
+ DBC_REQUIRE(rmm_mgr != NULL);
if (nldr) {
- *phRmmMgr = nldr_obj->rmm;
+ *rmm_mgr = nldr_obj->rmm;
} else {
- *phRmmMgr = NULL;
+ *rmm_mgr = NULL;
status = -EFAULT;
}
- DBC_ENSURE(DSP_SUCCEEDED(status) || ((phRmmMgr != NULL) &&
- (*phRmmMgr == NULL)));
+ DBC_ENSURE(DSP_SUCCEEDED(status) || ((rmm_mgr != NULL) &&
+ (*rmm_mgr == NULL)));
return status;
}
* ======== add_ovly_sect ========
*/
static int add_ovly_sect(struct nldr_object *nldr_obj,
- struct ovly_sect **pList,
+ struct ovly_sect **lst,
struct dbll_sect_info *pSectInfo,
bool *exists, u32 addr, u32 bytes)
{
struct ovly_sect *ovly_section;
int status = 0;
- ovly_section = last_sect = *pList;
+ ovly_section = last_sect = *lst;
*exists = false;
while (ovly_section) {
/*
/* Add to the list */
if (DSP_SUCCEEDED(status)) {
- if (*pList == NULL) {
+ if (*lst == NULL) {
/* First in the list */
- *pList = new_sect;
+ *lst = new_sect;
} else {
last_sect->next_sect = new_sect;
}
* Purpose:
* Create a NODE Manager object.
*/
-int node_create_mgr(OUT struct node_mgr **phNodeMgr,
+int node_create_mgr(OUT struct node_mgr **node_man,
struct dev_object *hdev_obj)
{
u32 i;
int status = 0;
u8 dev_type;
DBC_REQUIRE(refs > 0);
- DBC_REQUIRE(phNodeMgr != NULL);
+ DBC_REQUIRE(node_man != NULL);
DBC_REQUIRE(hdev_obj != NULL);
- *phNodeMgr = NULL;
+ *node_man = NULL;
/* Allocate Node manager object */
node_mgr_obj = kzalloc(sizeof(struct node_mgr), GFP_KERNEL);
if (node_mgr_obj) {
&nldr_attrs_obj);
}
if (DSP_SUCCEEDED(status))
- *phNodeMgr = node_mgr_obj;
+ *node_man = node_mgr_obj;
else
delete_node_mgr(node_mgr_obj);
- DBC_ENSURE((DSP_FAILED(status) && (*phNodeMgr == NULL)) ||
- (DSP_SUCCEEDED(status) && *phNodeMgr));
+ DBC_ENSURE((DSP_FAILED(status) && (*node_man == NULL)) ||
+ (DSP_SUCCEEDED(status) && *node_man));
return status;
}
* ======== node_get_nldr_obj ========
*/
int node_get_nldr_obj(struct node_mgr *hnode_mgr,
- struct nldr_object **phNldrObj)
+ struct nldr_object **nldr_ovlyobj)
{
int status = 0;
struct node_mgr *node_mgr_obj = hnode_mgr;
- DBC_REQUIRE(phNldrObj != NULL);
+ DBC_REQUIRE(nldr_ovlyobj != NULL);
if (!hnode_mgr)
status = -EFAULT;
else
- *phNldrObj = node_mgr_obj->nldr_obj;
+ *nldr_ovlyobj = node_mgr_obj->nldr_obj;
- DBC_ENSURE(DSP_SUCCEEDED(status) || ((phNldrObj != NULL) &&
- (*phNldrObj == NULL)));
+ DBC_ENSURE(DSP_SUCCEEDED(status) || ((nldr_ovlyobj != NULL) &&
+ (*nldr_ovlyobj == NULL)));
return status;
}
* Returns the Stream manager.
*/
int node_get_strm_mgr(struct node_object *hnode,
- struct strm_mgr **phStrmMgr)
+ struct strm_mgr **strm_man)
{
int status = 0;
if (!hnode)
status = -EFAULT;
else
- *phStrmMgr = hnode->hnode_mgr->strm_mgr_obj;
+ *strm_man = hnode->hnode_mgr->strm_mgr_obj;
return status;
}
* Purpose:
* Create a STRM manager object.
*/
-int strm_create(OUT struct strm_mgr **phStrmMgr,
+int strm_create(OUT struct strm_mgr **strm_man,
struct dev_object *dev_obj)
{
struct strm_mgr *strm_mgr_obj;
int status = 0;
DBC_REQUIRE(refs > 0);
- DBC_REQUIRE(phStrmMgr != NULL);
+ DBC_REQUIRE(strm_man != NULL);
DBC_REQUIRE(dev_obj != NULL);
- *phStrmMgr = NULL;
+ *strm_man = NULL;
/* Allocate STRM manager object */
strm_mgr_obj = kzalloc(sizeof(struct strm_mgr), GFP_KERNEL);
if (strm_mgr_obj == NULL)
}
if (DSP_SUCCEEDED(status))
- *phStrmMgr = strm_mgr_obj;
+ *strm_man = strm_mgr_obj;
else
delete_strm_mgr(strm_mgr_obj);
- DBC_ENSURE((DSP_SUCCEEDED(status) && *phStrmMgr) ||
- (DSP_FAILED(status) && *phStrmMgr == NULL));
+ DBC_ENSURE((DSP_SUCCEEDED(status) && *strm_man) ||
+ (DSP_FAILED(status) && *strm_man == NULL));
return status;
}
*/
int strm_open(struct node_object *hnode, u32 dir, u32 index,
IN struct strm_attr *pattr,
- OUT struct strm_object **phStrm,
+ OUT struct strm_object **strm_objct,
struct process_context *pr_ctxt)
{
struct strm_mgr *strm_mgr_obj;
void *hstrm_res;
DBC_REQUIRE(refs > 0);
- DBC_REQUIRE(phStrm != NULL);
+ DBC_REQUIRE(strm_objct != NULL);
DBC_REQUIRE(pattr != NULL);
- *phStrm = NULL;
+ *strm_objct = NULL;
if (dir != DSP_TONODE && dir != DSP_FROMNODE) {
status = -EPERM;
} else {
}
}
if (DSP_SUCCEEDED(status)) {
- *phStrm = strm_obj;
- drv_proc_insert_strm_res_element(*phStrm, &hstrm_res, pr_ctxt);
+ *strm_objct = strm_obj;
+ drv_proc_insert_strm_res_element(*strm_objct, &hstrm_res,
+ pr_ctxt);
} else {
(void)delete_strm(strm_obj);
}
/* ensure we return a documented error code */
- DBC_ENSURE((DSP_SUCCEEDED(status) && *phStrm) ||
- (*phStrm == NULL && (status == -EFAULT ||
+ DBC_ENSURE((DSP_SUCCEEDED(status) && *strm_objct) ||
+ (*strm_objct == NULL && (status == -EFAULT ||
status == -EPERM
|| status == -EINVAL)));
dev_dbg(bridge, "%s: hnode: %p dir: 0x%x index: 0x%x pattr: %p "
- "phStrm: %p status: 0x%x\n", __func__,
- hnode, dir, index, pattr, phStrm, status);
+ "strm_objct: %p status: 0x%x\n", __func__,
+ hnode, dir, index, pattr, strm_objct, status);
return status;
}
git://bbs.cooldavid.org / net-next-2.6.git / commitdiff