PTI feature to allow user to name and mark masterchannel request.
This feature addition provides a new parameter in pti_request_masterchannel() to allow the user to provide their own name to mark the request when the trace is viewed in a PTI SW trace viewer (like MPTA). If a name is not provided and NULL is provided, the 'current' process name is used. API function header documentation documents this. Signed-off-by: Jeremy Rocher <rocher.jeremy@gmail.com> Signed-off-by: J Freyensee <james_p_freyensee@linux.intel.com> Signed-off-by: Greg Kroah-Hartman <gregkh@suse.de>
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2 changed files with 62 additions and 40 deletions
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@ -146,45 +146,54 @@ static void pti_write_to_aperture(struct pti_masterchannel *mc,
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/**
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* pti_control_frame_built_and_sent()- control frame build and send function.
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*
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* @mc: The master / channel structure on which the function
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* built a control frame.
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* @mc: The master / channel structure on which the function
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* built a control frame.
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* @thread_name: The thread name associated with the master / channel or
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* 'NULL' if using the 'current' global variable.
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*
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* To be able to post process the PTI contents on host side, a control frame
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* is added before sending any PTI content. So the host side knows on
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* each PTI frame the name of the thread using a dedicated master / channel.
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* The thread name is retrieved from the 'current' global variable.
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* The thread name is retrieved from 'current' global variable if 'thread_name'
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* is 'NULL', else it is retrieved from 'thread_name' parameter.
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* This function builds this frame and sends it to a master ID CONTROL_ID.
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* The overhead is only 32 bytes since the driver only writes to HW
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* in 32 byte chunks.
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*/
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static void pti_control_frame_built_and_sent(struct pti_masterchannel *mc)
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static void pti_control_frame_built_and_sent(struct pti_masterchannel *mc,
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const char *thread_name)
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{
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struct pti_masterchannel mccontrol = {.master = CONTROL_ID,
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.channel = 0};
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const char *thread_name_p;
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const char *control_format = "%3d %3d %s";
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u8 control_frame[CONTROL_FRAME_LEN];
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/*
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* Since we access the comm member in current's task_struct,
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* we only need to be as large as what 'comm' in that
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* structure is.
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*/
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char comm[TASK_COMM_LEN];
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if (!thread_name) {
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/*
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* Since we access the comm member in current's task_struct,
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* we only need to be as large as what 'comm' in that
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* structure is.
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*/
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char comm[TASK_COMM_LEN];
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if (!in_interrupt())
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get_task_comm(comm, current);
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else
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strncpy(comm, "Interrupt", TASK_COMM_LEN);
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if (!in_interrupt())
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get_task_comm(comm, current);
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else
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strncpy(comm, "Interrupt", TASK_COMM_LEN);
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/* Absolutely ensure our buffer is zero terminated. */
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comm[TASK_COMM_LEN-1] = 0;
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/* Absolutely ensure our buffer is zero terminated. */
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comm[TASK_COMM_LEN-1] = 0;
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thread_name_p = comm;
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} else {
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thread_name_p = thread_name;
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}
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mccontrol.channel = pti_control_channel;
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pti_control_channel = (pti_control_channel + 1) & 0x7f;
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snprintf(control_frame, CONTROL_FRAME_LEN, control_format, mc->master,
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mc->channel, comm);
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mc->channel, thread_name_p);
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pti_write_to_aperture(&mccontrol, control_frame, strlen(control_frame));
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}
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@ -206,18 +215,20 @@ static void pti_write_full_frame_to_aperture(struct pti_masterchannel *mc,
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const unsigned char *buf,
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int len)
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{
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pti_control_frame_built_and_sent(mc);
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pti_control_frame_built_and_sent(mc, NULL);
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pti_write_to_aperture(mc, (u8 *)buf, len);
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}
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/**
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* get_id()- Allocate a master and channel ID.
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*
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* @id_array: an array of bits representing what channel
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* id's are allocated for writing.
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* @max_ids: The max amount of available write IDs to use.
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* @base_id: The starting SW channel ID, based on the Intel
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* PTI arch.
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* @id_array: an array of bits representing what channel
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* id's are allocated for writing.
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* @max_ids: The max amount of available write IDs to use.
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* @base_id: The starting SW channel ID, based on the Intel
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* PTI arch.
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* @thread_name: The thread name associated with the master / channel or
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* 'NULL' if using the 'current' global variable.
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*
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* Returns:
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* pti_masterchannel struct with master, channel ID address
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@ -227,7 +238,10 @@ static void pti_write_full_frame_to_aperture(struct pti_masterchannel *mc,
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* channel id. The bit is one if the id is taken and 0 if free. For
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* every master there are 128 channel id's.
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*/
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static struct pti_masterchannel *get_id(u8 *id_array, int max_ids, int base_id)
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static struct pti_masterchannel *get_id(u8 *id_array,
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int max_ids,
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int base_id,
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const char *thread_name)
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{
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struct pti_masterchannel *mc;
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int i, j, mask;
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@ -257,7 +271,7 @@ static struct pti_masterchannel *get_id(u8 *id_array, int max_ids, int base_id)
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mc->master = base_id;
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mc->channel = ((i & 0xf)<<3) + j;
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/* write new master Id / channel Id allocation to channel control */
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pti_control_frame_built_and_sent(mc);
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pti_control_frame_built_and_sent(mc, thread_name);
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return mc;
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}
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@ -273,18 +287,22 @@ static struct pti_masterchannel *get_id(u8 *id_array, int max_ids, int base_id)
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* a master, channel ID address
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* to write to PTI HW.
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*
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* @type: 0- request Application master, channel aperture ID write address.
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* 1- request OS master, channel aperture ID write
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* address.
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* 2- request Modem master, channel aperture ID
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* write address.
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* Other values, error.
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* @type: 0- request Application master, channel aperture ID
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* write address.
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* 1- request OS master, channel aperture ID write
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* address.
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* 2- request Modem master, channel aperture ID
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* write address.
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* Other values, error.
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* @thread_name: The thread name associated with the master / channel or
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* 'NULL' if using the 'current' global variable.
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*
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* Returns:
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* pti_masterchannel struct
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* 0 for error
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*/
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struct pti_masterchannel *pti_request_masterchannel(u8 type)
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struct pti_masterchannel *pti_request_masterchannel(u8 type,
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const char *thread_name)
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{
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struct pti_masterchannel *mc;
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@ -293,15 +311,18 @@ struct pti_masterchannel *pti_request_masterchannel(u8 type)
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switch (type) {
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case 0:
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mc = get_id(drv_data->ia_app, MAX_APP_IDS, APP_BASE_ID);
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mc = get_id(drv_data->ia_app, MAX_APP_IDS,
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APP_BASE_ID, thread_name);
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break;
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case 1:
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mc = get_id(drv_data->ia_os, MAX_OS_IDS, OS_BASE_ID);
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mc = get_id(drv_data->ia_os, MAX_OS_IDS,
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OS_BASE_ID, thread_name);
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break;
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case 2:
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mc = get_id(drv_data->ia_modem, MAX_MODEM_IDS, MODEM_BASE_ID);
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mc = get_id(drv_data->ia_modem, MAX_MODEM_IDS,
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MODEM_BASE_ID, thread_name);
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break;
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default:
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mc = NULL;
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@ -471,9 +492,9 @@ static int pti_tty_install(struct tty_driver *driver, struct tty_struct *tty)
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return -ENOMEM;
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if (idx == PTITTY_MINOR_START)
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pti_tty_data->mc = pti_request_masterchannel(0);
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pti_tty_data->mc = pti_request_masterchannel(0, NULL);
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else
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pti_tty_data->mc = pti_request_masterchannel(2);
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pti_tty_data->mc = pti_request_masterchannel(2, NULL);
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if (pti_tty_data->mc == NULL)
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return -ENXIO;
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@ -560,7 +581,7 @@ static int pti_char_open(struct inode *inode, struct file *filp)
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* before assigning the value to filp->private_data.
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* Slightly easier to debug if this driver needs debugging.
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*/
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mc = pti_request_masterchannel(0);
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mc = pti_request_masterchannel(0, NULL);
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if (mc == NULL)
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return -ENOMEM;
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filp->private_data = mc;
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@ -36,7 +36,8 @@ struct pti_masterchannel {
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/* the following functions are defined in misc/pti.c */
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void pti_writedata(struct pti_masterchannel *mc, u8 *buf, int count);
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struct pti_masterchannel *pti_request_masterchannel(u8 type);
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struct pti_masterchannel *pti_request_masterchannel(u8 type,
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const char *thread_name);
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void pti_release_masterchannel(struct pti_masterchannel *mc);
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#endif /*PTI_H_*/
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