diff options
Diffstat (limited to 'erts')
-rw-r--r-- | erts/emulator/beam/code_ix.h | 83 |
1 files changed, 65 insertions, 18 deletions
diff --git a/erts/emulator/beam/code_ix.h b/erts/emulator/beam/code_ix.h index 1f9c47f33c..f6926acab5 100644 --- a/erts/emulator/beam/code_ix.h +++ b/erts/emulator/beam/code_ix.h @@ -16,6 +16,36 @@ * * %CopyrightEnd% */ + +/* Description: + * This is the interface that facilitate changing the beam code + * (load,upgrade,delete) while allowing executing Erlang processes to + * access the code without any locks or other expensive memory barriers. + * + * The basic idea is to maintain several "logical copies" of the code. These + * copies are identified by a global 'code index', an integer of 0, 1 or 2. + * The code index is used as argument to code access structures like + * export, module, beam_catches, beam_ranges. + * + * The current 'active' code index is used to access the current running + * code. The 'staging' code index is used by the process that performs + * a code change operation. When a code change operation completes + * succesfully, the staging code index becomes the new active code index. + * + * The third code index is not explicitly used. It can be thought of as + * the "previous active" or the "next staging" index. It is needed to make + * sure that we do not reuse a code index for staging until we are sure + * that no executing BIFs are still referring it. + * We could get by with only two (0 and 1), but that would require that we + * must wait for all schedulers to re-schedule before each code change + * operation can start staging. + * + * Note that the 'code index' is very loosely coupled to the concept of + * 'current' and 'old' module versions. You can almost say that they are + * orthogonal to each other. Code index is an emulator global concept while + * 'current' and 'old' is specific for each module. + */ + #ifndef __CODE_IX_H__ #define __CODE_IX_H__ @@ -23,34 +53,51 @@ #define ERTS_NUM_CODE_IX 3 typedef unsigned ErtsCodeIndex; +/* Called once at emulator initialization. + */ void erts_code_ix_init(void); + +/* Return active code index. + * Is guaranteed to be valid until the calling BIF returns. + * To get a consistent view of the code only one call to erts_active_code_ix() + * should be made within the same BIF call. + */ ErtsCodeIndex erts_active_code_ix(void); + +/* Return staging code ix. + * Only used by a process performing code loading/upgrading/deleting/purging. + * code_ix must be locked. + */ ErtsCodeIndex erts_staging_code_ix(void); -/* Lock code_ix (enqueue and suspend until we get it) -*/ +/* Lock code_ix. + * Gives (exclusive) access to the staging area and write access to active code index. + * ToDo: Waiting process should be queued and return to be suspended. + */ void erts_lock_code_ix(void); -/*SVERK - erts_lock_code_ix(); - wait for thread progress - (we don't want any retarded threads with pointers to inactive Module) - Copy active -> loader - rlock old_code while copying Modules - Update loader - wait for thread progress - (we need a membarrier for everybody to "see" the new code) - Set loader as new active - erts_unlock_code_ix(); -}*/ - - -/* Unlock code_ix (resume first waiter) -*/ +/* Unlock code_ix + * ToDo: Dequeue and resume waiting processes. + */ void erts_unlock_code_ix(void); +/* Make the "staging area" a complete copy of the active code. + * code_ix must be locked. + * Must be followed by a call to either "commit" or "abort" before code_ix lock + * is released. + */ void erts_start_staging_code_ix(void); + +/* Commit the staging area and update the active code index. + * code_ix must be locked and erts_start_staging_code_ix() called. + * ToDo: Updating active code index should be done according to Rickard's recipe. + * This function might need to be split into two. + */ void erts_commit_staging_code_ix(void); + +/* Abort the staging. + * code_ix must be locked and erts_start_staging_code_ix() called. + */ void erts_abort_staging_code_ix(void); void erts_rwlock_old_code(ErtsCodeIndex); |