Difference between revisions of "Hacker Guide/Access"
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− | = Description = | + | {{Back to|Hacker Guide}} |
+ | == Description == | ||
The modules of ''''access'''' capability are designed to be the first and last elements of a modules chain. | The modules of ''''access'''' capability are designed to be the first and last elements of a modules chain. | ||
− | They take | + | They take an [[MRL]] in, and output a bitstream, that can be fed to a [[Demuxer]]. |
− | Access | + | Access input and [[{{#rel2abs:../Access Output}}|output]] handles most of the basic '''I/O''' for VLC. They are usually '''protocols''' implementations (http, ftp,...) or '''devices''' access (Webcams, Capture cards). |
We will discuss about ''''input access'''' in this page. | We will discuss about ''''input access'''' in this page. | ||
− | = Write an access module = | + | == Write an access module == |
− | To write an access module, read first the [[ | + | To write an access module, read first the [[{{#rel2abs:../How To Write a Module}}|introduction to module writing]]. |
Then, you should specify your module of being of access type: | Then, you should specify your module of being of access type: | ||
− | + | <syntaxhighlight lang="c"> | |
set_capability( "access", 60 ) | set_capability( "access", 60 ) | ||
set_category( CAT_INPUT ) | set_category( CAT_INPUT ) | ||
set_subcategory( SUBCAT_INPUT_ACCESS ) | set_subcategory( SUBCAT_INPUT_ACCESS ) | ||
+ | </syntaxhighlight> | ||
+ | === Type === | ||
Your module can be of either a ''''Block'''' or a ''''Read'''' type, depending on your medium: | Your module can be of either a ''''Block'''' or a ''''Read'''' type, depending on your medium: | ||
− | * if the underlying protocol returns data blocks of unknown | + | * if the underlying protocol '''returns data blocks of unknown or unpredictable size''', '''Block''' is a better type, |
− | * if you control the size of the data requested to the underlying protocol, '''Read''' is a better type. | + | * if you '''can control the size of the data requested''' to the underlying protocol, '''Read''' is a better type. |
− | = Functions to implement = | + | == Functions to implement == |
− | After implementing Open() and Close() functions, you will need to implement a few | + | After implementing <code>Open()</code> and <code>Close()</code> functions, you will need to implement a few major features that will be implemented by your functions. |
− | As you can see | + | As you can see in [https://www.videolan.org/developers/vlc/doc/doxygen/html/vlc__access_8h_source.html include/vlc_access.h], you should define: |
− | *Seek, as in pf_seek | + | * Seek, as in <code>pf_seek</code>, |
− | *Control, as in pf_control | + | * Control, as in <code>pf_control</code>, |
− | *Read or Block, depending on your module type | + | * Read or Block, depending on your module [[#Type|type]]. |
− | After implementing those functions, you should assign them to the corresponding pf_ function. | + | After implementing those functions, you should assign them to the corresponding <code>pf_</code> function. |
− | == Seek == | + | === Seek === |
''Prototype'': | ''Prototype'': | ||
− | + | <syntaxhighlight lang="c"> | |
int (*pf_seek) ( access_t *, uint64_t ); | int (*pf_seek) ( access_t *, uint64_t ); | ||
+ | </syntaxhighlight> | ||
The seeking function will be called whenever a seek is requested. | The seeking function will be called whenever a seek is requested. | ||
Line 46: | Line 50: | ||
The arguments are a ''pointer'' to the module structure, and the requested '''position'''. | The arguments are a ''pointer'' to the module structure, and the requested '''position'''. | ||
− | + | {{Note-nb|Seeking function can be <code>NULL</code>, if it isn't possible to seek in the protocol or device.}} | |
− | You shall set p_access->info.b_eof to false if seek worked. | + | You shall set <code>p_access->info.b_eof</code> to <code>false</code> if seek worked. |
''Return:''<br> | ''Return:''<br> | ||
− | If the seek has succeeded, it should return VLC_SUCCESS, else it should return VLC_EGENERIC. <br> | + | If the seek has succeeded, it should return <code>VLC_SUCCESS</code>, else it should return <code>VLC_EGENERIC</code>. <br> |
− | == Control == | + | === Control === |
''Prototype'': | ''Prototype'': | ||
− | + | <syntaxhighlight lang="c"> | |
int (*pf_control)( access_t *, int i_query, va_list args); | int (*pf_control)( access_t *, int i_query, va_list args); | ||
+ | </syntaxhighlight> | ||
Control function is quite easy, the input core will query the module using this function with: | Control function is quite easy, the input core will query the module using this function with: | ||
Line 69: | Line 74: | ||
''Return'': | ''Return'': | ||
− | If the query has succeeded, it should return VLC_SUCCESS. Else it should return VLC_EGENERIC (''fail''). | + | If the query has succeeded, it should return <code>VLC_SUCCESS</code>. Else it should return <code>VLC_EGENERIC</code> (''fail''). |
− | === Control Query types === | + | ==== Control Query types ==== |
− | |||
− | |||
+ | The first ones are request to know what the module supports. They are all of '''[[boolean]]''' type and should always succeed. | ||
+ | <syntaxhighlight lang="c"> | ||
ACCESS_CAN_SEEK, | ACCESS_CAN_SEEK, | ||
ACCESS_CAN_FASTSEEK, | ACCESS_CAN_FASTSEEK, | ||
ACCESS_CAN_PAUSE, | ACCESS_CAN_PAUSE, | ||
ACCESS_CAN_CONTROL_PACE, | ACCESS_CAN_CONTROL_PACE, | ||
+ | </syntaxhighlight> | ||
<br> The following one is a request for the '''PTS delay'''. It must always succeed. | <br> The following one is a request for the '''PTS delay'''. It must always succeed. | ||
− | + | <syntaxhighlight lang="c"> | |
ACCESS_GET_PTS_DELAY, | ACCESS_GET_PTS_DELAY, | ||
+ | </syntaxhighlight> | ||
<br> The following ones are for '''requesting''' various '''info''' about the input, like Metadata, Titles and Chapters or device signal strength. All of them can fail. | <br> The following ones are for '''requesting''' various '''info''' about the input, like Metadata, Titles and Chapters or device signal strength. All of them can fail. | ||
− | + | <syntaxhighlight lang="c"> | |
ACCESS_GET_TITLE_INFO, | ACCESS_GET_TITLE_INFO, | ||
ACCESS_GET_META, | ACCESS_GET_META, | ||
ACCESS_GET_CONTENT_TYPE, | ACCESS_GET_CONTENT_TYPE, | ||
ACCESS_GET_SIGNAL, | ACCESS_GET_SIGNAL, | ||
+ | </syntaxhighlight> | ||
− | <br> Depending to the answer of the CAN_ requests, the core can '''set''' a few things, like pausing or changing '''title''' or '''chapter''' | + | <br> Depending to the answer of the <code>CAN_</code> requests, the core can '''set''' a few things, like pausing or changing '''title''' or '''chapter''' |
− | + | <syntaxhighlight lang="c"> | |
ACCESS_SET_PAUSE_STATE, | ACCESS_SET_PAUSE_STATE, | ||
ACCESS_SET_TITLE, | ACCESS_SET_TITLE, | ||
ACCESS_SET_SEEKPOINT, | ACCESS_SET_SEEKPOINT, | ||
+ | </syntaxhighlight> | ||
− | You can find the list of arguments corresponding to query types in the comments of access_query_e definition in vlc_access.h | + | You can find the list of arguments corresponding to query types in the comments of <code>access_query_e</code> definition in vlc_access.h |
− | == Read == | + | === Read === |
''Prototype'': | ''Prototype'': | ||
− | + | <syntaxhighlight lang="c"> | |
ssize_t (*pf_read) ( access_t *, uint8_t *, size_t ); | ssize_t (*pf_read) ( access_t *, uint8_t *, size_t ); | ||
+ | </syntaxhighlight> | ||
''Return'': | ''Return'': | ||
− | Return -1 if no data yet, 0 if no more data, else actual data read on the medium. | + | Return <code>-1</code> if no data yet, <code>0</code> if no more data, else actual data read on the medium. |
− | == Block == | + | === Block === |
''Prototype'': | ''Prototype'': | ||
− | + | <syntaxhighlight lang="c"> | |
block_t *(*pf_block)( access_t * ); | block_t *(*pf_block)( access_t * ); | ||
+ | </syntaxhighlight> | ||
''Return:'' | ''Return:'' | ||
− | Returns a block of data in | + | Returns a block of data in its 'natural' size. It will return <code>NULL</code> if there is not yet data or end-of-file (eof) has been reached. |
− | To differentiate between ''no data'' and ''eof'', you shall set p_access->info.b_eof to true in case of eof. | + | To differentiate between ''no data'' and ''eof'', you shall set <code>p_access->info.b_eof</code> to <code>true</code> in case of eof. |
{{Hacker_Guide}} | {{Hacker_Guide}} |
Latest revision as of 05:23, 25 April 2019
Contents
Description
The modules of 'access' capability are designed to be the first and last elements of a modules chain.
They take an MRL in, and output a bitstream, that can be fed to a Demuxer.
Access input and output handles most of the basic I/O for VLC. They are usually protocols implementations (http, ftp,...) or devices access (Webcams, Capture cards).
We will discuss about 'input access' in this page.
Write an access module
To write an access module, read first the introduction to module writing.
Then, you should specify your module of being of access type:
set_capability( "access", 60 )
set_category( CAT_INPUT )
set_subcategory( SUBCAT_INPUT_ACCESS )
Type
Your module can be of either a 'Block' or a 'Read' type, depending on your medium:
- if the underlying protocol returns data blocks of unknown or unpredictable size, Block is a better type,
- if you can control the size of the data requested to the underlying protocol, Read is a better type.
Functions to implement
After implementing Open()
and Close()
functions, you will need to implement a few major features that will be implemented by your functions.
As you can see in include/vlc_access.h, you should define:
- Seek, as in
pf_seek
, - Control, as in
pf_control
, - Read or Block, depending on your module type.
After implementing those functions, you should assign them to the corresponding pf_
function.
Seek
Prototype:
int (*pf_seek) ( access_t *, uint64_t );
The seeking function will be called whenever a seek is requested.
The arguments are a pointer to the module structure, and the requested position.
Seeking function can be NULL , if it isn't possible to seek in the protocol or device.
|
You shall set p_access->info.b_eof
to false
if seek worked.
Return:
If the seek has succeeded, it should return VLC_SUCCESS
, else it should return VLC_EGENERIC
.
Control
Prototype:
int (*pf_control)( access_t *, int i_query, va_list args);
Control function is quite easy, the input core will query the module using this function with:
- A pointer to the module structure.
- An i_query parameter that can be of several type. We will cover afterward the most important on.
- A list of arguments, that depends on the i_query type.
Return:
If the query has succeeded, it should return VLC_SUCCESS
. Else it should return VLC_EGENERIC
(fail).
Control Query types
The first ones are request to know what the module supports. They are all of boolean type and should always succeed.
ACCESS_CAN_SEEK,
ACCESS_CAN_FASTSEEK,
ACCESS_CAN_PAUSE,
ACCESS_CAN_CONTROL_PACE,
The following one is a request for the PTS delay. It must always succeed.
ACCESS_GET_PTS_DELAY,
The following ones are for requesting various info about the input, like Metadata, Titles and Chapters or device signal strength. All of them can fail.
ACCESS_GET_TITLE_INFO,
ACCESS_GET_META,
ACCESS_GET_CONTENT_TYPE,
ACCESS_GET_SIGNAL,
Depending to the answer of the CAN_
requests, the core can set a few things, like pausing or changing title or chapter
ACCESS_SET_PAUSE_STATE,
ACCESS_SET_TITLE,
ACCESS_SET_SEEKPOINT,
You can find the list of arguments corresponding to query types in the comments of access_query_e
definition in vlc_access.h
Read
Prototype:
ssize_t (*pf_read) ( access_t *, uint8_t *, size_t );
Return:
Return -1
if no data yet, 0
if no more data, else actual data read on the medium.
Block
Prototype:
block_t *(*pf_block)( access_t * );
Return:
Returns a block of data in its 'natural' size. It will return NULL
if there is not yet data or end-of-file (eof) has been reached.
To differentiate between no data and eof, you shall set p_access->info.b_eof
to true
in case of eof.
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