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Refactoring documentation

Warning: this documentation is not yet completed. It will be completed gradually over time.

Note: attributes are to be assumed private and methods are to be assumed public, unless noted otherwise.

Note: attributes and methods noted as "private" are actually accessible, but the direct access of them is strongly discouraged and may results in random bugs after future refactoring.

Note: methods return None unless noted otherwise.

Note: for implementation details involving lock operations, acquire ... release is implemented using with

File globalvars.py

Class GlobalVars.PostScanStat

Tracking post scanning data.

Public interface

  • add_stat(posts_scanned, scan_time): Add posts_scanned to total numbers of posts scanned. Add scan_time to total time spent on scanning.
  • get_stat(): Get total numbers of posts scanned, total time spent on scanning and posts scanned per second. If total time spent is zero, posts scanned per second is set to None. Returns a tuple (posts_scanned, scan_time, posts_per_second).
  • reset_stat(): Reset post scanning data, which includes total numbers of posts scanned and total time spent on scanning to 0.

Thread safety

Yes.

Notes on usage

  • None.

Implementation

This class is implemented with 2 static variables and 1 lock.

Details

Attributes
  • num_posts_scanned: Tracking total numbers of posts scanned.
  • post_scan_time: Tracking total time spent on scanning.
  • rw_lock: Lock. Controlling access to num_posts_scanned and post_scan_time.
Methods
  • add_stat(posts_scanned, scan_time): Obtain rw_lock. Add posts_scanned and scan_time to num_posts_scanned and post_scan_time. Release rw_lock.
  • get_stat(): Obtain rw_lock. Read num_posts_scanned into posts_scanned. Read post_scan_time into scan_time. Release rw_lock. Decide if scan_time is 0. If yes, set posts_per_second to None. Otherwise calculate posts_per_second as posts_scanned divided by scan_time. Return a tuple (posts_scanned, scan_time, posts_per_second).
  • reset_stat(): Obtain rw_lock. Set num_posts_scanned and post_scan_time to 0. Release rw_lock.

Considerations

  • Both read and write operations are lock protected, as it is necessary to perform thread safe write and to prevent reading while another thread is writing.

Known bugs

  • None

Class GlobalVars.MSStatus

Tracking metasmoke status.

Public interface

  • is_up(): Query if metasmoke is up. Returns True if metasmoke is up and False otherwise.
  • is_down(): Query if metasmoke is down. Returns True if metasmoke is down and False otherwise.
  • failed(): Indicate a metasmoke connection failure.
  • succeeded(): Indicate a metasmoke connection success.
  • get_failure_count(): Get metasmoke connection failure counter value. The counter counts consecutive failures.
  • reset_ms_status(): Reset class GlobalVars.ms_status to default values.

Thread safety

Yes.

Notes on usage

  • Metasmoke counter represents consecutive metasmoke failures.

Implementation

This class is implemented with 2 static variables and 1 lock.

Details

Attributes
  • ms_is_up: Whether or not metasmoke is up.
  • counter: Metasmoke connection failure counter.
  • rw_lock: Lock. Controlling access to ms_is_up, failure_count and last_ping_time.
Methods
  • set_up(): Private to metasmoke.py. Obtain rw_lock. Set ms_is_up to True. Release rw_lock.
  • set_down(): Private to metasmoke.py. Obtain rw_lock. Set ms_is_up to False. Release rw_lock.
  • is_up(): Obtain rw_lock. Read ms_is_up into current_ms_status. Release rw_lock. Return current_ms_status.
  • is_down(): Call is_up() and return the inverted returned value.
  • failed(): Obtain rw_lock. Increase counter by 1. Release rw_lock.
  • succeeded(): Obtain rw_lock. Set counter to 0. Release rw_lock.
  • get_failure_count(): Obtain rw_lock. Read counter into current_counter. Release rw_lock. Return current_failure_count.
  • reset_ms_status: Obtain rw_lock. Set ms_is_up to True. Set counter to 0. Release rw_lock.

Considerations

  • is_down() is implemented to call is_up(), so maintainance tasks only need to be performed on is_up().

Known bugs

  • None.

File metasmoke.py

Class Metasmoke

Note: the documentation of this class is not yet completed.

Subclasses

  • AutoSwitch

Public interface

  • set_ms_up(): Switch metasmoke status to up.
  • set_ms_down(): Switch metasmoke status to down.

Not completed yet.

Thread safety

Unknown. The component currently documented in public interface is thread safe.

Notes on usage

  • Unless there are good reasons, always call Metasmoke.ms_up() and Metasmoke.ms_down() instead of GlobalVars.MSStatus.set_up() and GlobalVars.MSStatus.set_down(). The former is a wrapper of the latter which offers logging and chat messages.

Implementation

Not completed yet.

Known bugs

  • None.

Class Metasmoke.AutoSwitch

Automatically switch metasmoke status.

Public interface

  • ping_failed(): Indicate a status ping failure.
  • ping_succeeded(): Indicate a status ping success.
  • enable_autoswitch(to_enable): Turn on or off auto switch. If on is True, auto switch is turned on. Otherwise auto switch is turned off.
  • get_ping_failure(): Get the count of consecutive ping failures. Negative value indicates consecutive ping successes.
  • reset_switch(): Reset class Metasmoke.AutoSwitch to default values.

Thread safety

Yes.

Notes on usage

  • Failures or successes contributing to auto switching of metasmoke status should be those of status ping. Other failures or successes should not trigger auto switch.

Implementation

This class is implemented with 2 constants, 2 static variables and 1 lock.

Details

Attributes
  • MAX_FAILURES: Maximum failures before metasmoke status is switched down.
  • MAX_SUCCESSES: Maximum successes before metasmoke status is switched up.
  • ping_failure_counter: Consecutive metasmoke status ping failure counter. A negative value represents successes while a positive value represents failures.
  • autoswitch_is_on: Whether or not to perform auto switch.
  • rw_lock: Lock. Controlling access to ping_failure_counter and autoswitch_is_on.
Methods
  • ping_failed(): Obtain rw_lock. Decide if ping_failure_counter is negative. If yes, set ping_failure_counter to 0. Increase ping_failure_counter by 1. Read ping_failure_counter into current_counter. Read autoswitch_is_on into current_auto. Release rw_lock. Decide if current_counter is greater than MAX_FAILURES, metasmoke status is up, and current_auto is True. If yes, issue a message to chat and call ms_down().
  • ping_succeeded(): Obtain rw_lock. Decide if ping_failure_counter is positive. If yes, set ping_failure_counter to 0. Decrease ping_failure_counter by 1. Read -ping_failure_counter into current_counter. Read autoswitch_is_on into current_auto. Release rw_lock. Decide if current_counter is greater than MAX_SUCCESSES, metasmoke status is down, and current_auto is True. If yes, issue a message to chat and call ms_up().
  • enable_autoswitch(to_enable): Obtain rw_lock. Set autoswitch_is_on to to_enable. Release rw_lock.
  • get_ping_failure(): Obtain rw_lock. Return ping_failure_counter. Release rw_lock.
  • reset_switch(): Obtain rw_lock. Set ping_failure_counter to 0. Set autoswitch_is_on to True. Release rw_lock.

Considerations

  • Only status ping failures and successes should count for turning metasmoke on and off, as otherwise it will be unbalanced since after metasmoke is declared down, only status pings are sent.

Known bugs

  • None.

Special cases

File socketscience.py, in class SocketScience

  • On line 78 and 87, GlobalVars.MSStatus.set_up() and GlobalVars.MSStatus.set_down() is called. This is to prevent circular import between Metasmoke and SocketScience. (20 May 2020)