source: soft/giet_vm/sys/ctx_handler.c @ 253

Last change on this file since 253 was 246, checked in by meunier, 11 years ago

Cosmétique + gestion du reset de l'irq du timer ou de l'xicu lors d'un task_switch

File size: 6.8 KB
Line 
1/////////////////////////////////////////////////////////////////////////////////////////
2// File     : ctx_handler.c
3// Date     : 01/04/2012
4// Authors  : alain greiner & joel porquet
5// Copyright (c) UPMC-LIP6
6/////////////////////////////////////////////////////////////////////////////////////////
7// The ctx_handler.h and ctx_handler.c files are part of the GIET-VM nano-kernel.
8// This code is used to support context switch when several tasks are executing
9// in time multiplexing on a single processor.
10// The tasks are statically allocated to a processor in the boot phase, and
11// there is one private scheduler per processor. Each sheduler occupies 4K bytes,
12// and contains up to 14 task contexts (task_id is from 0 to 13).
13// The task context [14] is reserved for the "idle" task that does nothing, and
14// is launched by the scheduler when there is no other runable task.
15/////////////////////////////////////////////////////////////////////////////////////////
16
17#include <giet_config.h>
18#include <drivers.h>
19#include <common.h>
20#include <ctx_handler.h>
21#include <mapping_info.h>
22#include <sys_handler.h>
23
24/////////////////////////////////////////////////////////////////////////////////////////
25// A task context is an array of 64 words = 256 bytes.
26// It contains copies of processor registers (when the task is preempted):
27// - GPR[i], generally stored in slot (i). $0, $26 & $27 are not saved.
28// - HI & LO registers
29// - CP0 registers: EPC, SR, CR, BVAR
30// - CP2 registers : PTPR
31// It contains some general informations associated to the task:
32// - TTY    : TTY channel global index
33// - NIC    : NIC channel global index
34// - CMA    : CMA channel global index
35// - IOC    : IOC channel global index
36// - DMA    : DMA channel local index
37// - TIM    : TIM channel local index
38// - PTAB   : page table virtual base address
39// - LTID   : Task local index (in scheduler)
40// - VSID   : Virtual space index
41// - RUN    : Task state (0 => sleeping / 1 => runable )
42//
43// ctx[0]<- ***|ctx[8] <- $8 |ctx[16]<- $16|ctx[24]<- $24|ctx[32]<- EPC  |ctx[40]<- TTY
44// ctx[1]<- $1 |ctx[9] <- $9 |ctx[17]<- $17|ctx[25]<- $25|ctx[33]<- CR   |ctx[41]<- DMA
45// ctx[2]<- $2 |ctx[10]<- $10|ctx[18]<- $18|ctx[26]<- LO |ctx[34]<- SR   |ctx[42]<- NIC
46// ctx[3]<- $3 |ctx[11]<- $11|ctx[19]<- $19|ctx[27]<- HI |ctx[35]<- BVAR |ctx[43]<- TIM
47// ctx[4]<- $4 |ctx[12]<- $12|ctx[20]<- $20|ctx[28]<- $28|ctx[36]<- PTAB |ctx[44]<- IOC
48// ctx[5]<- $5 |ctx[13]<- $13|ctx[21]<- $21|ctx[29]<- SP |ctx[37]<- LTID |ctx[45]<- CMA
49// ctx[6]<- $6 |ctx[14]<- $14|ctx[22]<- $22|ctx[30]<- $30|ctx[38]<- VSID |ctx[46]<- GTID
50// ctx[7]<- $7 |ctx[15]<- $15|ctx[23]<- $23|ctx[31]<- RA |ctx[39]<- PTPR |ctx[47]<- RUN
51//////////////////////////////////////////////////////////////////////////////////////////
52
53extern void _task_switch(unsigned int *, unsigned int *);
54
55/////////////////////////////////////////////////////////////////////////////////
56//    _ctx_switch()
57// This function performs a context switch between the running task
58// and  another task, using a round-robin sheduling policy between all
59// tasks allocated to a given processor (static allocation).
60// It selects the next runable task to resume execution.
61// If the only runable task is the current task, return without context switch.
62// If there is no runable task, the scheduler switch to the default "idle" task.
63//
64// Implementation note
65// The return address contained in $31 is saved in the current task context
66// (in the ctx[31] slot), and the function actually returns to the address
67// contained in the ctx[31] slot of the next task context.
68/////////////////////////////////////////////////////////////////////////////////
69void _ctx_switch() 
70{
71    // get scheduler address
72    static_scheduler_t* psched = _get_sched();
73
74    // get number of tasks allocated to scheduler
75    unsigned int tasks = psched->tasks;
76
77    // get current task index
78    unsigned int curr_task_id = psched->current;
79
80    // select the next task using a round-robin policy
81    unsigned int next_task_id;
82    unsigned int tid;
83    unsigned int found = 0;
84
85    for (tid = curr_task_id + 1; tid < curr_task_id + 1 + tasks; tid++) 
86    {
87        next_task_id = tid % tasks;
88        // test if the task is runable
89        if ( psched->context[next_task_id][CTX_RUN_ID] ) 
90        {
91            found = 1;
92            break;
93        }
94    }
95
96    // launch "idle" task if no runable task
97    if (found == 0) 
98    {
99        next_task_id = IDLE_TASK_INDEX;
100    }
101
102    // no switch if no change
103    if (curr_task_id != next_task_id) 
104    {
105        unsigned int* curr_ctx_vaddr = &(psched->context[curr_task_id][0]);
106        unsigned int* next_ctx_vaddr = &(psched->context[next_task_id][0]);
107        unsigned int procid = _procid();
108        unsigned int local_id = procid % NB_PROCS_MAX;
109        unsigned int cluster_id = procid / NB_PROCS_MAX;
110
111        // set current task index
112        psched->current = next_task_id;
113
114        _timer_reset_irq_cpt(cluster_id, local_id); 
115
116        _task_switch(curr_ctx_vaddr, next_ctx_vaddr);
117
118#if GIET_DEBUG_SWITCH
119_get_lock(&_tty_put_lock);
120_puts("\n[GIET DEBUG] Context switch for processor ");
121_putd(_procid());
122_puts(" at cycle ");
123_putd(_proctime());
124_puts("\n");
125_puts(" - tasks        = ");
126_putd(tasks);
127_puts("\n");
128_puts(" - curr_task_id = ");
129_putd( curr_task_id );
130_puts("\n");
131_puts(" - next_task_id = ");
132_putd(next_task_id);
133_puts("\n");
134_release_lock( &_tty_put_lock);
135#endif
136
137    }
138} //end _ctx_switch()
139
140/////////////////////////////////////////////////////////////////////////////////////
141// This function is executed as the"idle" task when no other task can be executed
142/////////////////////////////////////////////////////////////////////////////////////
143void _ctx_idle() 
144{
145    unsigned int delay = 1000000;
146
147    while (1) {
148        asm volatile(
149                "move   $3,   %0          \n"
150                "loop:                    \n"
151                "addi   $3,   $3,   -1    \n"
152                "bnez   $3,   loop        \n"
153                "nop                      \n"
154                :
155                : "r"(delay)
156                : "$3" ); 
157
158        _get_lock(&_tty_put_lock);
159        _puts("\n[GIET WARNING] Processor ");
160        _putd(_procid());
161        _puts(" still idle at cycle ");
162        _putd(_proctime());
163        _puts("\n");
164        _release_lock(&_tty_put_lock);
165
166        delay = 1000000;
167    }
168} // end ctx_idle()
169
170
171/////////////////////////////////////////////////////////////////////////////////
172// The address of this functionis used to initialise the return address
173// in the "idle" task context.
174/////////////////////////////////////////////////////////////////////////////////
175void _ctx_eret() 
176{
177    asm volatile("eret");
178}
179
180
181// Local Variables:
182// tab-width: 4
183// c-basic-offset: 4
184// c-file-offsets:((innamespace . 0)(inline-open . 0))
185// indent-tabs-mode: nil
186// End:
187// vim: filetype=c:expandtab:shiftwidth=4:tabstop=4:softtabstop=4
188
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