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Diffstat (limited to 'rts/Capability.h')
-rw-r--r-- | rts/Capability.h | 250 |
1 files changed, 250 insertions, 0 deletions
diff --git a/rts/Capability.h b/rts/Capability.h new file mode 100644 index 0000000000..a2551d0cc5 --- /dev/null +++ b/rts/Capability.h @@ -0,0 +1,250 @@ +/* --------------------------------------------------------------------------- + * + * (c) The GHC Team, 2001-2006 + * + * Capabilities + * + * The notion of a capability is used when operating in multi-threaded + * environments (which the THREADED_RTS build of the RTS does), to + * hold all the state an OS thread/task needs to run Haskell code: + * its STG registers, a pointer to its TSO, a nursery etc. During + * STG execution, a pointer to the capabilitity is kept in a + * register (BaseReg). + * + * Only in an THREADED_RTS build will there be multiple capabilities, + * in the non-threaded builds there is one global capability, namely + * MainCapability. + * + * This header file contains the functions for working with capabilities. + * (the main, and only, consumer of this interface is the scheduler). + * + * --------------------------------------------------------------------------*/ + +#ifndef CAPABILITY_H +#define CAPABILITY_H + +#include "RtsFlags.h" +#include "Task.h" + +struct Capability_ { + // State required by the STG virtual machine when running Haskell + // code. During STG execution, the BaseReg register always points + // to the StgRegTable of the current Capability (&cap->r). + StgFunTable f; + StgRegTable r; + + nat no; // capability number. + + // The Task currently holding this Capability. This task has + // exclusive access to the contents of this Capability (apart from + // returning_tasks_hd/returning_tasks_tl). + // Locks required: cap->lock. + Task *running_task; + + // true if this Capability is running Haskell code, used for + // catching unsafe call-ins. + rtsBool in_haskell; + + // The run queue. The Task owning this Capability has exclusive + // access to its run queue, so can wake up threads without + // taking a lock, and the common path through the scheduler is + // also lock-free. + StgTSO *run_queue_hd; + StgTSO *run_queue_tl; + + // Tasks currently making safe foreign calls. Doubly-linked. + // When returning, a task first acquires the Capability before + // removing itself from this list, so that the GC can find all + // the suspended TSOs easily. Hence, when migrating a Task from + // the returning_tasks list, we must also migrate its entry from + // this list. + Task *suspended_ccalling_tasks; + + // One mutable list per generation, so we don't need to take any + // locks when updating an old-generation thunk. These + // mini-mut-lists are moved onto the respective gen->mut_list at + // each GC. + bdescr **mut_lists; + +#if defined(THREADED_RTS) + // Worker Tasks waiting in the wings. Singly-linked. + Task *spare_workers; + + // This lock protects running_task, returning_tasks_{hd,tl}, wakeup_queue. + Mutex lock; + + // Tasks waiting to return from a foreign call, or waiting to make + // a new call-in using this Capability (NULL if empty). + // NB. this field needs to be modified by tasks other than the + // running_task, so it requires cap->lock to modify. A task can + // check whether it is NULL without taking the lock, however. + Task *returning_tasks_hd; // Singly-linked, with head/tail + Task *returning_tasks_tl; + + // A list of threads to append to this Capability's run queue at + // the earliest opportunity. These are threads that have been + // woken up by another Capability. + StgTSO *wakeup_queue_hd; + StgTSO *wakeup_queue_tl; +#endif + + // Per-capability STM-related data + StgTVarWaitQueue *free_tvar_wait_queues; + StgTRecChunk *free_trec_chunks; + StgTRecHeader *free_trec_headers; + nat transaction_tokens; +}; // typedef Capability, defined in RtsAPI.h + + +#if defined(THREADED_RTS) +#define ASSERT_TASK_ID(task) ASSERT(task->id == osThreadId()) +#else +#define ASSERT_TASK_ID(task) /*empty*/ +#endif + +// These properties should be true when a Task is holding a Capability +#define ASSERT_FULL_CAPABILITY_INVARIANTS(cap,task) \ + ASSERT(cap->running_task != NULL && cap->running_task == task); \ + ASSERT(task->cap == cap); \ + ASSERT_PARTIAL_CAPABILITY_INVARIANTS(cap,task) + +// Sometimes a Task holds a Capability, but the Task is not associated +// with that Capability (ie. task->cap != cap). This happens when +// (a) a Task holds multiple Capabilities, and (b) when the current +// Task is bound, its thread has just blocked, and it may have been +// moved to another Capability. +#define ASSERT_PARTIAL_CAPABILITY_INVARIANTS(cap,task) \ + ASSERT(cap->run_queue_hd == END_TSO_QUEUE ? \ + cap->run_queue_tl == END_TSO_QUEUE : 1); \ + ASSERT(myTask() == task); \ + ASSERT_TASK_ID(task); + +// Converts a *StgRegTable into a *Capability. +// +INLINE_HEADER Capability * +regTableToCapability (StgRegTable *reg) +{ + return (Capability *)((void *)((unsigned char*)reg - sizeof(StgFunTable))); +} + +// Initialise the available capabilities. +// +void initCapabilities (void); + +// Release a capability. This is called by a Task that is exiting +// Haskell to make a foreign call, or in various other cases when we +// want to relinquish a Capability that we currently hold. +// +// ASSUMES: cap->running_task is the current Task. +// +#if defined(THREADED_RTS) +void releaseCapability (Capability* cap); +void releaseCapability_ (Capability* cap); // assumes cap->lock is held +#else +// releaseCapability() is empty in non-threaded RTS +INLINE_HEADER void releaseCapability (Capability* cap STG_UNUSED) {}; +INLINE_HEADER void releaseCapability_ (Capability* cap STG_UNUSED) {}; +#endif + +#if !IN_STG_CODE +// one global capability +extern Capability MainCapability; +#endif + +// Array of all the capabilities +// +extern nat n_capabilities; +extern Capability *capabilities; + +// The Capability that was last free. Used as a good guess for where +// to assign new threads. +// +extern Capability *last_free_capability; + +// Acquires a capability at a return point. If *cap is non-NULL, then +// this is taken as a preference for the Capability we wish to +// acquire. +// +// OS threads waiting in this function get priority over those waiting +// in waitForCapability(). +// +// On return, *cap is non-NULL, and points to the Capability acquired. +// +void waitForReturnCapability (Capability **cap/*in/out*/, Task *task); + +INLINE_HEADER void recordMutableCap (StgClosure *p, Capability *cap, nat gen); + +#if defined(THREADED_RTS) + +// Gives up the current capability IFF there is a higher-priority +// thread waiting for it. This happens in one of two ways: +// +// (a) we are passing the capability to another OS thread, so +// that it can run a bound Haskell thread, or +// +// (b) there is an OS thread waiting to return from a foreign call +// +// On return: *pCap is NULL if the capability was released. The +// current task should then re-acquire it using waitForCapability(). +// +void yieldCapability (Capability** pCap, Task *task); + +// Acquires a capability for doing some work. +// +// On return: pCap points to the capability. +// +void waitForCapability (Task *task, Mutex *mutex, Capability **pCap); + +// Wakes up a thread on a Capability (probably a different Capability +// from the one held by the current Task). +// +void wakeupThreadOnCapability (Capability *cap, StgTSO *tso); + +// Wakes up a worker thread on just one Capability, used when we +// need to service some global event. +// +void prodOneCapability (void); + +// Similar to prodOneCapability(), but prods all of them. +// +void prodAllCapabilities (void); + +// Waits for a capability to drain of runnable threads and workers, +// and then acquires it. Used at shutdown time. +// +void shutdownCapability (Capability *cap, Task *task); + +// Attempt to gain control of a Capability if it is free. +// +rtsBool tryGrabCapability (Capability *cap, Task *task); + +#else // !THREADED_RTS + +// Grab a capability. (Only in the non-threaded RTS; in the threaded +// RTS one of the waitFor*Capability() functions must be used). +// +extern void grabCapability (Capability **pCap); + +#endif /* !THREADED_RTS */ + +/* ----------------------------------------------------------------------------- + * INLINE functions... private below here + * -------------------------------------------------------------------------- */ + +INLINE_HEADER void +recordMutableCap (StgClosure *p, Capability *cap, nat gen) +{ + bdescr *bd; + + bd = cap->mut_lists[gen]; + if (bd->free >= bd->start + BLOCK_SIZE_W) { + bdescr *new_bd; + new_bd = allocBlock_lock(); + new_bd->link = bd; + bd = new_bd; + cap->mut_lists[gen] = bd; + } + *bd->free++ = (StgWord)p; +} + +#endif /* CAPABILITY_H */ |