FreeCalypso > hg > fc-tourmaline
view src/nucleus/qus.c @ 78:c632896652ba
mfw/ti1_key.c: properly initialize notified_keys array
The code in this ti1_key.c layer needs to call kpd_subscribe() and
kpd_define_key_notification() functions in order to register with the
KPD driver. The original code passed KPD_NB_PHYSICAL_KEYS in
nb_notified_keys - this constant is defined to 24 in kpd_cfg.h on all
platforms of interest to us - but it only filled the first 23 slots
in the notified_keys array, resulting in stack garbage being passed
to KPD API functions. The fix consists of initializing the last
missed array slot to KPD_KEY_RECORD, the key ID for the right side
button on the D-Sample handset.
On our current hw targets this "Record" button exists as the EXTRA
button on our Luna keypad board and as the camera button on the
Pirelli DP-L10. There is no support whatsoever for this button
in current BMI+MFW, we have no plans of doing anything with Pirelli's
camera button even if we do get our UI fw running on that phone,
and the Mother's dream of building our own FreeCalypso handset with
the same button arrangement as D-Sample (including the right side
button) is currently very nebulous - but let us nonetheless handle
the full set of buttons on the KPD to MFW interface, and let upper
layers weed out unsupported buttons.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Sun, 25 Oct 2020 23:41:01 +0000 |
parents | 4e78acac3d88 |
children |
line wrap: on
line source
/*************************************************************************/ /* */ /* Copyright Mentor Graphics Corporation 2002 */ /* All Rights Reserved. */ /* */ /* THIS WORK CONTAINS TRADE SECRET AND PROPRIETARY INFORMATION WHICH IS */ /* THE PROPERTY OF MENTOR GRAPHICS CORPORATION OR ITS LICENSORS AND IS */ /* SUBJECT TO LICENSE TERMS. */ /* */ /*************************************************************************/ /*************************************************************************/ /* */ /* FILE NAME VERSION */ /* */ /* qus.c Nucleus PLUS 1.14 */ /* */ /* COMPONENT */ /* */ /* QU - Queue Management */ /* */ /* DESCRIPTION */ /* */ /* This file contains supplemental routines for the Queue */ /* Management component. */ /* */ /* DATA STRUCTURES */ /* */ /* None */ /* */ /* FUNCTIONS */ /* */ /* QUS_Reset_Queue Reset a queue */ /* QUS_Send_To_Front_Of_Queue Send message to queue's front*/ /* QUS_Broadcast_To_Queue Broadcast a message to queue */ /* */ /* DEPENDENCIES */ /* */ /* cs_extr.h Common Service functions */ /* tc_extr.h Thread Control functions */ /* qu_extr.h Queue functions */ /* hi_extr.h History functions */ /* */ /* HISTORY */ /* */ /* DATE REMARKS */ /* */ /* 03-01-1994 Created initial version 1.1 from */ /* routines originally in core */ /* */ /* 03-18-1994 Verified version 1.1 */ /* 04-17-1996 updated to version 1.2 */ /* 02-04-1998 Corrected SPR434 resulting in */ /* version 1.2a. */ /* 03-24-1998 Released version 1.3 */ /* 03-26-1999 Released 1.11m (new release */ /* numbering scheme) */ /* 04-17-2002 Released version 1.13m */ /* 11-07-2002 Released version 1.14 */ /*************************************************************************/ #define NU_SOURCE_FILE #include "cs_extr.h" /* Common service functions */ #include "tc_extr.h" /* Thread control functions */ #include "qu_extr.h" /* Queue functions */ #include "hi_extr.h" /* History functions */ #include "profiler.h" /* ProView interface */ /* Define internal component function prototypes. */ VOID QUC_Cleanup(VOID *information); /*************************************************************************/ /* */ /* FUNCTION */ /* */ /* QUS_Reset_Queue */ /* */ /* DESCRIPTION */ /* */ /* This function resets the specified queue back to the original */ /* state. Any messages in the queue are discarded. Also, any */ /* tasks currently suspended on the queue are resumed with the */ /* reset status. */ /* */ /* CALLED BY */ /* */ /* Application */ /* QUSE_Reset_Queue Error checking shell */ /* */ /* CALLS */ /* */ /* [HIC_Make_History_Entry] Make entry in history log */ /* TCC_Resume_Task Resume a suspended task */ /* [TCT_Check_Stack] Stack checking function */ /* TCT_Control_To_System Transfer control to system */ /* TCT_System_Protect Protect queue data structures*/ /* TCT_Unprotect Release protection */ /* */ /* INPUTS */ /* */ /* queue_ptr Queue control block pointer */ /* */ /* OUTPUTS */ /* */ /* NU_SUCCESS */ /* */ /* HISTORY */ /* */ /* DATE REMARKS */ /* */ /* 03-01-1993 Created initial version 1.0 */ /* 04-19-1993 Verified version 1.0 */ /* 03-01-1994 Changed function interfaces to */ /* match those in prototype, */ /* added register options, changed */ /* protection logic to reduce */ /* overhead, fixed read and write */ /* pointers to both point at the */ /* start, resulting in version 1.1 */ /* */ /* 03-18-1994 Verified version 1.1 */ /* 02-04-1998 Corrected SPR434. */ /* */ /*************************************************************************/ STATUS QUS_Reset_Queue(NU_QUEUE *queue_ptr) { R1 QU_QCB *queue; /* Queue control block ptr */ QU_SUSPEND *suspend_ptr; /* Suspend block pointer */ QU_SUSPEND *next_ptr; /* Next suspend block pointer*/ STATUS preempt; /* Status for resume call */ NU_SUPERV_USER_VARIABLES /* Move input queue pointer into internal pointer. */ queue = (QU_QCB *) queue_ptr; /* Switch to supervisor mode */ NU_SUPERVISOR_MODE(); #ifdef NU_ENABLE_STACK_CHECK /* Call stack checking function to check for an overflow condition. */ TCT_Check_Stack(); #endif #ifdef NU_ENABLE_HISTORY /* Make an entry that corresponds to this function in the system history log. */ HIC_Make_History_Entry(NU_RESET_QUEUE_ID, (UNSIGNED) queue, (UNSIGNED) 0, (UNSIGNED) 0); #endif /* Protect against access to the queue. */ TCT_System_Protect(); /* Pickup the suspended task suspension list. */ suspend_ptr = queue -> qu_suspension_list; /* Walk the chain task(s) currently suspended on the queue. */ preempt = 0; while (suspend_ptr) { /* Resume the suspended task. Insure that the status returned is NU_QUEUE_RESET. */ suspend_ptr -> qu_return_status = NU_QUEUE_RESET; /* Point to the next suspend structure in the link. */ next_ptr = (QU_SUSPEND *) (suspend_ptr -> qu_suspend_link.cs_next); /* Resume the specified task. */ preempt = preempt | TCC_Resume_Task((NU_TASK *) suspend_ptr -> qu_suspended_task, NU_QUEUE_SUSPEND); /* Determine if the next is the same as the head pointer. */ if (next_ptr == queue -> qu_suspension_list) /* Clear the suspension pointer to signal the end of the list traversal. */ suspend_ptr = NU_NULL; else /* Position the suspend pointer to the next suspend block. */ suspend_ptr = next_ptr; } /* Pickup the urgent message suspension list. */ suspend_ptr = queue -> qu_urgent_list; /* Walk the chain task(s) currently suspended on the queue. */ while (suspend_ptr) { /* Resume the suspended task. Insure that the status returned is NU_QUEUE_RESET. */ suspend_ptr -> qu_return_status = NU_QUEUE_RESET; /* Point to the next suspend structure in the link. */ next_ptr = (QU_SUSPEND *) (suspend_ptr -> qu_suspend_link.cs_next); /* Resume the specified task. */ preempt = preempt | TCC_Resume_Task((NU_TASK *) suspend_ptr -> qu_suspended_task, NU_QUEUE_SUSPEND); /* Determine if the next is the same as the head pointer. */ if (next_ptr == queue -> qu_urgent_list) /* Clear the suspension pointer to signal the end of the list traversal. */ suspend_ptr = NU_NULL; else /* Position suspend pointer to the next suspend block. */ suspend_ptr = next_ptr; } /* Initialize various elements of the queue. */ queue -> qu_available = queue -> qu_end - queue -> qu_start; queue -> qu_messages = 0; queue -> qu_read = queue -> qu_start; queue -> qu_write = queue -> qu_start; queue -> qu_tasks_waiting = 0; queue -> qu_suspension_list = NU_NULL; queue -> qu_urgent_list = NU_NULL; #ifdef INCLUDE_PROVIEW _RTProf_DumpQueue(RT_PROF_RESET_QUEUE,queue,RT_PROF_OK); #endif /* Determine if preemption needs to occur. */ if (preempt) /* Transfer control to system to facilitate preemption. */ TCT_Control_To_System(); /* Release protection against access to the queue. */ TCT_Unprotect(); /* Return to user mode */ NU_USER_MODE(); /* Return a successful completion. */ return(NU_SUCCESS); } /*************************************************************************/ /* */ /* FUNCTION */ /* */ /* QUS_Send_To_Front_Of_Queue */ /* */ /* DESCRIPTION */ /* */ /* This function sends a message to the front of the specified */ /* message queue. The message length is determined by the caller. */ /* If there are any tasks suspended on the queue for a message, the */ /* message is copied into the message area of the first waiting */ /* task and that task is resumed. If there is enough room in the */ /* queue, the message is copied in front of all other messages. */ /* If there is not enough room in the queue, suspension of the */ /* caller is possible. */ /* */ /* CALLED BY */ /* */ /* Application */ /* QUSE_Send_To_Front_Of_Queue Error checking shell */ /* */ /* CALLS */ /* */ /* CSC_Place_On_List Place on suspend list */ /* CSC_Remove_From_List Remove from suspend list */ /* [HIC_Make_History_Entry] Make entry in history log */ /* TCC_Resume_Task Resume a suspended task */ /* TCC_Suspend_Task Suspend calling task */ /* [TCT_Check_Stack] Stack checking function */ /* TCT_Control_To_System Transfer control to system */ /* TCT_Current_Thread Pickup current thread pointer*/ /* TCT_System_Protect Protect queue */ /* TCT_Unprotect Release protection */ /* */ /* INPUTS */ /* */ /* queue_ptr Queue control block pointer */ /* message Pointer to message to send */ /* size Size of message to send */ /* suspend Suspension option if full */ /* */ /* OUTPUTS */ /* */ /* NU_SUCCESS If service is successful */ /* NU_QUEUE_FULL If queue is currently full */ /* NU_TIMEOUT If timeout on service expires*/ /* NU_QUEUE_DELETED If queue was deleted during */ /* suspension */ /* NU_QUEUE_RESET If queue was reset during */ /* suspension */ /* */ /* HISTORY */ /* */ /* DATE REMARKS */ /* */ /* 03-01-1993 Created initial version 1.0 */ /* 04-19-1993 Verified version 1.0 */ /* 03-01-1994 Changed function interfaces to */ /* match those in prototype, */ /* added register options, changed */ /* protection logic to reduce */ /* overhead, optimized copy loop, */ /* resulting in version 1.1 */ /* */ /* 03-18-1994 Verified version 1.1 */ /* */ /*************************************************************************/ STATUS QUS_Send_To_Front_Of_Queue(NU_QUEUE *queue_ptr, VOID *message, UNSIGNED size, UNSIGNED suspend) { R1 QU_QCB *queue; /* Queue control block ptr */ QU_SUSPEND suspend_block; /* Allocate suspension block */ QU_SUSPEND *suspend_ptr; /* Pointer to suspend block */ R3 UNSIGNED_PTR source; /* Pointer to source */ R4 UNSIGNED_PTR destination; /* Pointer to destination */ UNSIGNED copy_size; /* Partial copy size */ R2 INT i; /* Working counter */ TC_TCB *task; /* Task pointer */ STATUS preempt; /* Preempt flag */ STATUS status; /* Completion status */ NU_SUPERV_USER_VARIABLES /* Switch to supervisor mode */ NU_SUPERVISOR_MODE(); /* Move input queue pointer into internal pointer. */ queue = (QU_QCB *) queue_ptr; #ifdef NU_ENABLE_STACK_CHECK /* Call stack checking function to check for an overflow condition. */ TCT_Check_Stack(); #endif #ifdef NU_ENABLE_HISTORY /* Make an entry that corresponds to this function in the system history log. */ HIC_Make_History_Entry(NU_SEND_TO_FRONT_OF_QUEUE_ID, (UNSIGNED) queue, (UNSIGNED) message, (UNSIGNED) size); #endif /* Initialize the status as successful. */ status = NU_SUCCESS; /* Protect against simultaneous access to the queue. */ TCT_System_Protect(); /* Determine if an extra word of overhead needs to be added to the calculation. */ if (queue -> qu_fixed_size) /* No overhead. */ i = 0; else { /* Variable messages have one additional word of overhead. */ i = 1; /* Make special check to see if a suspension needs to be forced for a variable length message. */ if ((queue -> qu_suspension_list) && (queue -> qu_messages)) { /* Pickup task control block pointer. */ task = (TC_TCB *) TCT_Current_Thread(); /* Now we know that there are other task(s) are suspended trying to send a variable length message. Determine whether or not a suspension should be forced. */ if ((queue -> qu_fifo_suspend) || (suspend == NU_NO_SUSPEND) || ((queue -> qu_suspension_list) -> qu_suspend_link.cs_priority <= TCC_Task_Priority(task))) /* Bump the computed size to avoid placing the new variable length message ahead of the suspended tasks. */ i = (INT) queue -> qu_available; } } /* Determine if there is enough room in the queue for the message. */ if (queue -> qu_available < (size + i)) { /* Queue does not have room for the message. Determine if suspension is required. */ if (suspend) { /* Suspension is requested. */ /* Increment the number of tasks waiting. */ queue -> qu_tasks_waiting++; #ifdef INCLUDE_PROVIEW _RTProf_DumpQueue(RT_PROF_SEND_TO_FRONT_OF_QUEUE,queue,RT_PROF_WAIT); #endif /* Setup the suspend block and suspend the calling task. */ suspend_ptr = &suspend_block; suspend_ptr -> qu_queue = queue; suspend_ptr -> qu_suspend_link.cs_next = NU_NULL; suspend_ptr -> qu_suspend_link.cs_previous = NU_NULL; suspend_ptr -> qu_message_area = (UNSIGNED_PTR) message; suspend_ptr -> qu_message_size = size; task = (TC_TCB *) TCT_Current_Thread(); suspend_ptr -> qu_suspended_task = task; /* Place the task on the urgent message suspension list. */ CSC_Place_On_List((CS_NODE **) &(queue -> qu_urgent_list), &(suspend_ptr -> qu_suspend_link)); /* Move the head pointer of the list to make this suspension the first in the list. */ queue -> qu_urgent_list = (QU_SUSPEND *) (queue -> qu_urgent_list) -> qu_suspend_link.cs_previous; /* Finally, suspend the calling task. Note that the suspension call automatically clears the protection on the queue. */ TCC_Suspend_Task((NU_TASK *) task, NU_QUEUE_SUSPEND, QUC_Cleanup, suspend_ptr, suspend); /* Pickup the return status. */ status = suspend_ptr -> qu_return_status; } else { /* Return a status of NU_QUEUE_FULL because there is no room in the queue for the message. */ status = NU_QUEUE_FULL; #ifdef INCLUDE_PROVIEW _RTProf_DumpQueue(RT_PROF_SEND_TO_FRONT_OF_QUEUE,queue,RT_PROF_FAIL); #endif } } else { /* Determine if a task is waiting on an empty queue. */ if ((queue -> qu_suspension_list) && (queue -> qu_messages == 0)) { /* Task is waiting on queue for a message. */ /* Decrement the number of tasks waiting on queue. */ queue -> qu_tasks_waiting--; #ifdef INCLUDE_PROVIEW _RTProf_DumpQueue(RT_PROF_SEND_TO_FRONT_OF_QUEUE,queue,RT_PROF_OK); #endif /* Remove the first suspended block from the list. */ suspend_ptr = queue -> qu_suspension_list; CSC_Remove_From_List((CS_NODE **) &(queue -> qu_suspension_list), &(suspend_ptr -> qu_suspend_link)); /* Setup the source and destination pointers. */ source = (UNSIGNED_PTR) message; destination = suspend_ptr -> qu_message_area; /* Initialize the return status. */ suspend_ptr -> qu_return_status = NU_SUCCESS; /* Loop to actually copy the message. */ i = (INT) size; do { *(destination++) = *(source); if ((--i) == 0) break; source++; } while (1); /* Return the size of the message copied. */ suspend_ptr -> qu_actual_size = size; /* Wakeup the waiting task and check for preemption. */ preempt = TCC_Resume_Task((NU_TASK *) suspend_ptr -> qu_suspended_task, NU_QUEUE_SUSPEND); /* Determine if preemption needs to take place. */ if (preempt) /* Transfer control to the system if the resumed task function detects a preemption condition. */ TCT_Control_To_System(); } else { /* There is enough room in the queue and no task is waiting. */ /* Setup the source pointer. */ source = (UNSIGNED_PTR) message; destination = queue -> qu_read; /* Process according to the type of message supported. */ if (queue -> qu_fixed_size) { /* Fixed-size message queue. */ /* Determine if the read pointer is at the top of the queue area. */ if (destination == queue -> qu_start) /* Prepare to place the message in the lower part of the queue area. */ destination = queue -> qu_end - size; else /* Backup the length of a message from the current read pointer. */ destination = destination - size; /* Adjust the actual read pointer before the copy is done. */ queue -> qu_read = destination; /* Copy the message into the queue area. */ i = (INT) size; do { *(destination++) = *(source); if ((--i) == 0) break; source++; } while (1); } else { /* Variable-size message queue. */ /* Calculate the number of words remaining at the top of the queue. */ copy_size = destination - queue -> qu_start; /* Determine if part of the message needs to be placed at the bottom of the queue area. */ if (copy_size < (size + i)) /* Compute the starting location for the message. */ destination = queue -> qu_end - ((size +i) - copy_size); else /* Compute the starting location for the message. */ destination = destination - (size + i); /* Adjust the actual queue read pointer also. */ queue -> qu_read = destination; /* Place message size in first location. */ *(destination++) = size; /* Check for a wrap-around condition on the queue. */ if (destination >= queue -> qu_end) /* Wrap the write pointer back to the top of the queue area. */ destination = queue -> qu_start; /* Decrement the number of words remaining by 1 for this extra word of overhead. */ queue -> qu_available--; /* Calculate the number of words remaining from the destination pointer to the bottom of the queue. */ copy_size = queue -> qu_end - destination; /* Determine if the message needs to be wrapped around the edge of the queue area. */ if (copy_size >= size) { /* Copy the whole message at once. */ i = (INT) size; do { *(destination++) = *(source); if ((--i) == 0) break; source++; } while (1); } else { /* Copy the first half of the message. */ i = (INT) copy_size; do { *(destination) = *(source++); if ((--i) == 0) break; destination++; } while (1); /* Copy the second half of the message. */ destination = queue -> qu_start; i = (INT) (size - copy_size); do { *(destination++) = *(source); if ((--i) == 0) break; source++; } while (1); } } /* Decrement the number of available words. */ queue -> qu_available = queue -> qu_available - size; /* Increment the number of messages in the queue. */ queue -> qu_messages++; #ifdef INCLUDE_PROVIEW _RTProf_DumpQueue(RT_PROF_SEND_TO_FRONT_OF_QUEUE,queue,RT_PROF_OK); #endif } } /* Release protection against access to the queue. */ TCT_Unprotect(); /* Return to user mode */ NU_USER_MODE(); /* Return the completion status. */ return(status); } /*************************************************************************/ /* */ /* FUNCTION */ /* */ /* QUS_Broadcast_To_Queue */ /* */ /* DESCRIPTION */ /* */ /* This function sends a message to all tasks waiting for a message */ /* from the specified queue. If there are no tasks waiting for a */ /* message the service performs like a standard send request. */ /* */ /* CALLED BY */ /* */ /* Application */ /* QUSE_Broadcast_To_Queue Error checking shell */ /* */ /* CALLS */ /* */ /* CSC_Place_On_List Place on suspend list */ /* CSC_Priority_Place_On_List Place on priority list */ /* CSC_Remove_From_List Remove from suspend list */ /* [HIC_Make_History_Entry] Make entry in history log */ /* TCC_Resume_Task Resume a suspended task */ /* TCC_Suspend_Task Suspend calling task */ /* TCC_Task_Priority Pickup task's priority */ /* [TCT_Check_Stack] Stack checking function */ /* TCT_Control_To_System Transfer control to system */ /* TCT_Current_Thread Pickup current thread pointer*/ /* TCT_System_Protect Protect queue */ /* TCT_Unprotect Release protection */ /* */ /* INPUTS */ /* */ /* queue_ptr Queue control block pointer */ /* message Pointer to message to send */ /* size Size of message to send */ /* suspend Suspension option if full */ /* */ /* OUTPUTS */ /* */ /* NU_SUCCESS If service is successful */ /* NU_QUEUE_FULL If queue is currently full */ /* NU_TIMEOUT If timeout on service expires*/ /* NU_QUEUE_DELETED If queue was deleted during */ /* suspension */ /* NU_QUEUE_RESET If queue was reset during */ /* suspension */ /* */ /* HISTORY */ /* */ /* DATE REMARKS */ /* */ /* 03-01-1993 Created initial version 1.0 */ /* 04-19-1993 Verified version 1.0 */ /* 03-01-1994 Changed function interfaces to */ /* match those in prototype, */ /* added register options, changed */ /* protection logic to reduce */ /* overhead, optimized copy loop, */ /* resulting in version 1.1 */ /* */ /* 03-18-1994 Verified version 1.1 */ /* */ /*************************************************************************/ STATUS QUS_Broadcast_To_Queue(NU_QUEUE *queue_ptr, VOID *message, UNSIGNED size, UNSIGNED suspend) { R1 QU_QCB *queue; /* Queue control block ptr */ QU_SUSPEND suspend_block; /* Allocate suspension block */ QU_SUSPEND *suspend_ptr; /* Pointer to suspend block */ R3 UNSIGNED_PTR source; /* Pointer to source */ R4 UNSIGNED_PTR destination; /* Pointer to destination */ UNSIGNED copy_size; /* Partial copy size */ R2 INT i; /* Working counter */ TC_TCB *task; /* Task pointer */ STATUS preempt; /* Preempt flag */ STATUS status; /* Completion status */ NU_SUPERV_USER_VARIABLES /* Switch to supervisor mode */ NU_SUPERVISOR_MODE(); /* Move input queue pointer into internal pointer. */ queue = (QU_QCB *) queue_ptr; #ifdef NU_ENABLE_STACK_CHECK /* Call stack checking function to check for an overflow condition. */ TCT_Check_Stack(); #endif #ifdef NU_ENABLE_HISTORY /* Make an entry that corresponds to this function in the system history log. */ HIC_Make_History_Entry(NU_BROADCAST_TO_QUEUE_ID, (UNSIGNED) queue, (UNSIGNED) message, (UNSIGNED) size); #endif /* Initialize the status as successful. */ status = NU_SUCCESS; /* Protect against simultaneous access to the queue. */ TCT_System_Protect(); /* Determine if an extra word of overhead needs to be added to the calculation. */ if (queue -> qu_fixed_size) /* No overhead. */ i = 0; else { /* Variable messages have one additional word of overhead. */ i = 1; /* Make special check to see if a suspension needs to be forced for a variable length message. */ if ((queue -> qu_suspension_list) && (queue -> qu_messages)) { /* Pickup task control block pointer. */ task = (TC_TCB *) TCT_Current_Thread(); /* Now we know that there are other task(s) are suspended trying to send a variable length message. Determine whether or not a suspension should be forced. */ if ((queue -> qu_fifo_suspend) || (suspend == NU_NO_SUSPEND) || ((queue -> qu_suspension_list) -> qu_suspend_link.cs_priority <= TCC_Task_Priority(task))) /* Bump the computed size to avoid placing the new variable length message ahead of the suspended tasks. */ i = (INT) queue -> qu_available; } } /* Determine if there is enough room in the queue for the message. */ if (queue -> qu_available < (size + i)) { /* Queue does not have room for the message. Determine if suspension is required. */ if (suspend) { /* Suspension is requested. */ /* Increment the number of tasks waiting. */ queue -> qu_tasks_waiting++; #ifdef INCLUDE_PROVIEW _RTProf_DumpQueue(RT_PROF_BROADCAST_TO_QUEUE,queue,RT_PROF_WAIT); #endif /* Setup the suspend block and suspend the calling task. */ suspend_ptr = &suspend_block; suspend_ptr -> qu_queue = queue; suspend_ptr -> qu_suspend_link.cs_next = NU_NULL; suspend_ptr -> qu_suspend_link.cs_previous = NU_NULL; suspend_ptr -> qu_message_area = (UNSIGNED_PTR) message; suspend_ptr -> qu_message_size = size; task = (TC_TCB *) TCT_Current_Thread(); suspend_ptr -> qu_suspended_task = task; /* Determine if priority or FIFO suspension is associated with the queue. */ if (queue -> qu_fifo_suspend) { /* FIFO suspension is required. Link the suspend block into the list of suspended tasks on this queue. */ CSC_Place_On_List((CS_NODE **) &(queue -> qu_suspension_list), &(suspend_ptr -> qu_suspend_link)); } else { /* Get the priority of the current thread so the suspend block can be placed in the appropriate place. */ suspend_ptr -> qu_suspend_link.cs_priority = TCC_Task_Priority(task); CSC_Priority_Place_On_List((CS_NODE **) &(queue -> qu_suspension_list), &(suspend_ptr -> qu_suspend_link)); } /* Finally, suspend the calling task. Note that the suspension call automatically clears the protection on the queue. */ TCC_Suspend_Task((NU_TASK *) task, NU_QUEUE_SUSPEND, QUC_Cleanup, suspend_ptr, suspend); /* Pickup the return status. */ status = suspend_ptr -> qu_return_status; } else { /* Return a status of NU_QUEUE_FULL because there is no room in the queue for the message. */ status = NU_QUEUE_FULL; #ifdef INCLUDE_PROVIEW _RTProf_DumpQueue(RT_PROF_BROADCAST_TO_QUEUE,queue,RT_PROF_FAIL); #endif } } else { /* Determine if a task is waiting on an empty queue. */ if ((queue -> qu_suspension_list) && (queue -> qu_messages == 0)) { #ifdef INCLUDE_PROVIEW _RTProf_DumpQueue(RT_PROF_BROADCAST_TO_QUEUE,queue,RT_PROF_OK); #endif /* Yes, one or more tasks are waiting for a message from this queue. */ preempt = 0; do { /* Decrement the number of tasks waiting on queue. */ queue -> qu_tasks_waiting--; /* Remove the first suspended block from the list. */ suspend_ptr = queue -> qu_suspension_list; CSC_Remove_From_List((CS_NODE **) &(queue -> qu_suspension_list), &(suspend_ptr -> qu_suspend_link)); /* Setup the source and destination pointers. */ source = (UNSIGNED_PTR) message; destination = suspend_ptr -> qu_message_area; /* Initialize the return status. */ suspend_ptr -> qu_return_status = NU_SUCCESS; /* Loop to actually copy the message. */ i = (INT) size; do { *(destination++) = *(source); if ((--i) == 0) break; source++; } while (1); /* Return the size of the message copied. */ suspend_ptr -> qu_actual_size = size; /* Wakeup the waiting task and check for preemption. */ preempt = preempt | TCC_Resume_Task((NU_TASK *) suspend_ptr -> qu_suspended_task, NU_QUEUE_SUSPEND); /* Move the suspend pointer to the next node, which is now at the head of the list. */ suspend_ptr = queue -> qu_suspension_list; } while (suspend_ptr); /* Determine if preemption needs to take place. */ if (preempt) /* Transfer control to the system if the resumed task function detects a preemption condition. */ TCT_Control_To_System(); } else { /* There is enough room in the queue and no task is waiting. */ /* Setup the source pointer. */ source = (UNSIGNED_PTR) message; destination = queue -> qu_write; /* Process according to the type of message supported. */ if (queue -> qu_fixed_size) { /* Fixed-size messages are supported by this queue. */ /* Loop to copy the message into the queue area. */ i = (INT) size; do { *(destination++) = *(source); if ((--i) == 0) break; source++; } while (1); } else { /* Variable-size messages are supported. Processing must check for queue wrap-around conditions. */ /* Place message size in first location. */ *(destination++) = size; /* Check for a wrap-around condition on the queue. */ if (destination >= queue -> qu_end) /* Wrap the write pointer back to the top of the queue area. */ destination = queue -> qu_start; /* Decrement the number of words remaining by 1 for this extra word of overhead. */ queue -> qu_available--; /* Calculate the number of words remaining from the write pointer to the bottom of the queue. */ copy_size = queue -> qu_end - destination; /* Determine if the message needs to be wrapped around the edge of the queue area. */ if (copy_size >= size) { /* Copy the whole message at once. */ i = (INT) size; do { *(destination++) = *(source); if ((--i) == 0) break; source++; } while(1); } else { /* Copy the first half of the message. */ i = (INT) copy_size; do { *(destination) = *(source++); if ((--i) == 0) break; destination++; } while (1); /* Copy the second half of the message. */ destination = queue -> qu_start; i = (INT) (size - copy_size); do { *(destination++) = *(source); if ((--i) == 0) break; source++; } while (1); } } /* Check again for wrap-around condition on the write pointer. */ if (destination >= queue -> qu_end) /* Move the write pointer to the top of the queue area. */ queue -> qu_write = queue -> qu_start; else /* Simply copy the last position of the destination pointer into the write pointer. */ queue -> qu_write = destination; /* Decrement the number of available words. */ queue -> qu_available = queue -> qu_available - size; /* Increment the number of messages in the queue. */ queue -> qu_messages++; #ifdef INCLUDE_PROVIEW _RTProf_DumpQueue(RT_PROF_BROADCAST_TO_QUEUE,queue,RT_PROF_OK); #endif } } /* Release protection against access to the queue. */ TCT_Unprotect(); /* Return to user mode */ NU_USER_MODE(); /* Return the completion status. */ return(status); }