362 lines
11 KiB
Plaintext
362 lines
11 KiB
Plaintext
Introduction
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============
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This module will be used to log the events by any module/driver which
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enables Inter Processor Communication (IPC). Some of the IPC drivers such
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as Message Routers, Multiplexers etc. which act as a passive pipe need
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some mechanism to log their events. Since all such IPC drivers handle a
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large amount of traffic/events, using kernel logs renders kernel logs
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unusable by other drivers and also degrades the performance of IPC
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drivers. This new module will help in logging such high frequency IPC
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driver events while keeping the standard kernel logging mechanism
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intact.
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Hardware description
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====================
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This module does not drive any hardware resource and will only use the
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kernel memory-space to log the events.
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Software description
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====================
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Design Goals
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------------
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This module is designed to
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* support logging for drivers handling large amount of
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traffic/events
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* define & differentiate events/logs from different drivers
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* support both id-based and stream-based logging
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* support extracting the logs from both live target & memory dump
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IPC Log Context
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----------------
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This module will support logging by multiple drivers. To differentiate
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between the multiple drivers that are using this logging mechanism, each
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driver will be assigned a unique context by this module. Associated with
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each context is the logging space, dynamically allocated from the kernel
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memory-space, specific to that context so that the events logged using that
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context will not interfere with other contexts.
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Event Logging
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--------------
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Every event will be logged as a <Type: Size: Value> combination. Type
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field identifies the type of the event that is logged. Size field represents
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the size of the log information. Value field represents the actual
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information being logged. This approach will support both id-based logging
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and stream-based logging. This approach will also support logging sub-events
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of an event. This module will provide helper routines to encode/decode the
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logs to/from this format.
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Encode Context
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---------------
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Encode context is a temporary storage space that will be used by the client
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drivers to log the events in <Type: Size: Value> format. The client drivers
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will perform an encode start operation to initialize the encode context
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data structure. Then the client drivers will log their events into the
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encode context. Upon completion of event logging, the client drivers will
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perform an encode end operation to finalize the encode context data
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structure to be logged. Then this updated encode context data structure
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will be written into the client driver's IPC Log Context. The maximum
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event log size will be defined as 256 bytes.
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Log Space
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----------
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Each context (Figure 1) has an associated log space, which is dynamically
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allocated from the kernel memory-space. The log space is organized as a list of
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1 or more kernel memory pages. Each page (Figure 2) contains header information
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which is used to differentiate the log kernel page from the other kernel pages.
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0 ---------------------------------
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| magic_no = 0x25874452 |
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---------------------------------
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| nmagic_no = 0x52784425 |
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---------------------------------
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| version |
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---------------------------------
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| user_version |
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---------------------------------
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| log_id |
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---------------------------------
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| header_size |
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---------------------------------
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| name [20 chars] |
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---------------------------------
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| run-time data structures |
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---------------------------------
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Figure 1 - Log Context Structure
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31 0
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0 ---------------------------------
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| magic_no = 0x52784425 |
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---------------------------------
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| nmagic_no = 0xAD87BBDA |
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---------------------------------
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|1| page_num |
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---------------------------------
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| read_offset | write_offset |
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---------------------------------
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| log_id |
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---------------------------------
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| start_time low word |
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| start_time high word |
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---------------------------------
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| end_time low word |
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| end_time high word |
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---------------------------------
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| context offset |
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---------------------------------
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| run-time data structures |
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. . . . .
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---------------------------------
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| Log Data |
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. . .
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. . .
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--------------------------------- PAGE_SIZE - 1
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Figure 2 - Log Page Structure
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In addition to extracting logs at runtime through DebugFS, IPC Logging has been
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designed to allow extraction of logs from a memory dump. The magic numbers,
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timestamps, and context offset are all added to support the memory-dump
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extraction use case.
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Design
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======
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Alternate solutions discussed include using kernel & SMEM logs which are
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limited in size and hence using them render them unusable by other drivers.
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Also kernel logging into serial console is slowing down the performance of
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the drivers by multiple times and sometimes lead to APPs watchdog bite.
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Power Management
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================
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Not-Applicable
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SMP/multi-core
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==============
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This module uses spinlocks & mutexes to handle multi-core safety.
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Security
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========
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Not-Applicable
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Performance
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===========
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This logging mechanism, based on experimental data, is not expected to
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cause a significant performance degradation. Under worst case, it can
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cause 1 - 2 percent degradation in the throughput of the IPC Drivers.
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Interface
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=========
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Exported Data Structures
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------------------------
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struct encode_context {
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struct tsv_header hdr;
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char buff[MAX_MSG_SIZE];
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int offset;
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};
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struct decode_context {
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int output_format;
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char *buff;
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int size;
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};
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Kernel-Space Interface APIs
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----------------------------
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/*
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* ipc_log_context_create: Create a ipc log context
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*
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* @max_num_pages: Number of pages of logging space required (max. 10)
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* @mod_name : Name of the directory entry under DEBUGFS
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* @user_version : Version number of user-defined message formats
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*
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* returns reference to context on success, NULL on failure
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*/
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void * ipc_log_context_create(int max_num_pages,
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const char *mod_name);
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/*
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* msg_encode_start: Start encoding a log message
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*
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* @ectxt: Temporary storage to hold the encoded message
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* @type: Root event type defined by the module which is logging
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*/
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void msg_encode_start(struct encode_context *ectxt, uint32_t type);
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/*
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* msg_encode_end: Complete the message encode process
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*
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* @ectxt: Temporary storage which holds the encoded message
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*/
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void msg_encode_end(struct encode_context *ectxt);
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/*
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* tsv_timestamp_write: Writes the current timestamp count
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*
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* @ectxt: Context initialized by calling msg_encode_start()
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*
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* Returns 0 on success, -ve error code on failure
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*/
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int tsv_timestamp_write(struct encode_context *ectxt);
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/*
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* tsv_pointer_write: Writes a data pointer
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*
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* @ectxt: Context initialized by calling msg_encode_start()
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* @pointer: Pointer value to write
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*
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* Returns 0 on success, -ve error code on failure
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*/
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int tsv_pointer_write(struct encode_context *ectxt, void *pointer);
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/*
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* tsv_int32_write: Writes a 32-bit integer value
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*
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* @ectxt: Context initialized by calling msg_encode_start()
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* @n: Integer to write
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*
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* Returns 0 on success, -ve error code on failure
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*/
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int tsv_int32_write(struct encode_context *ectxt, int32_t n);
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/*
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* tsv_byte_array_write: Writes a byte array
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*
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* @ectxt: Context initialized by calling msg_encode_start()
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* @data: Location of data
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* @data_size: Size of data to be written
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*
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* Returns 0 on success, -ve error code on failure
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*/
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int tsv_byte_array_write(struct encode_context *ectxt,
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void *data, int data_size);
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/*
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* ipc_log_write: Write the encoded message into the log space
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*
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* @ctxt: IPC log context where the message has to be logged into
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* @ectxt: Temporary storage containing the encoded message
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*/
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void ipc_log_write(unsigned long ctxt, struct encode_context *ectxt);
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/*
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* ipc_log_string: Helper function to log a string
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*
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* @dlctxt: IPC Log Context created using ipc_log_context_create()
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* @fmt: Data specified using format specifiers
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*/
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int ipc_log_string(unsigned long dlctxt, const char *fmt, ...);
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/*
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* tsv_timestamp_read: Reads a timestamp
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*
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* @ectxt: Context retrieved by reading from log space
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* @dctxt: Temporary storage to hold the decoded message
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* @format: Output format while dumping through DEBUGFS
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*/
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void tsv_timestamp_read(struct encode_context *ectxt,
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struct decode_context *dctxt, const char *format);
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/*
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* tsv_pointer_read: Reads a data pointer
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*
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* @ectxt: Context retrieved by reading from log space
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* @dctxt: Temporary storage to hold the decoded message
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* @format: Output format while dumping through DEBUGFS
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*/
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void tsv_pointer_read(struct encode_context *ectxt,
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struct decode_context *dctxt, const char *format);
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/*
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* tsv_int32_read: Reads a 32-bit integer value
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*
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* @ectxt: Context retrieved by reading from log space
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* @dctxt: Temporary storage to hold the decoded message
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* @format: Output format while dumping through DEBUGFS
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*/
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void tsv_int32_read(struct encode_context *ectxt,
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struct decode_context *dctxt, const char *format);
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/*
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* tsv_byte_array_read: Reads a byte array/string
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*
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* @ectxt: Context retrieved by reading from log space
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* @dctxt: Temporary storage to hold the decoded message
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* @format: Output format while dumping through DEBUGFS
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*/
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void tsv_byte_array_read(struct encode_context *ectxt,
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struct decode_context *dctxt, const char *format);
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/*
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* add_deserialization_func: Register a deserialization function to
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* to unpack the subevents of a main event
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*
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* @ctxt: IPC log context to which the deserialization function has
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* to be registered
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* @type: Main/Root event, defined by the module which is logging, to
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* which this deserialization function has to be registered.
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* @dfune: Deserialization function to be registered
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*
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* return 0 on success, -ve value on FAILURE
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*/
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int add_deserialization_func(unsigned long ctxt, int type,
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void (*dfunc)(struct encode_context *,
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struct decode_context *));
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Driver parameters
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=================
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Not-Applicable
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Config options
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==============
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Not-Applicable
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Dependencies
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============
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This module will partially depend on CONFIG_DEBUGFS, in order to dump the
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logs through debugfs. If CONFIG_DEBUGFS is disabled, the above mentioned
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helper functions will perform no operation and return appropriate error
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code if the return value is non void. Under such circumstances the logs can
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only be extracted through the memory dump.
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User space utilities
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====================
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DEBUGFS
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Other
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=====
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Not-Applicable
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Known issues
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============
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None
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To do
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=====
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None
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