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[/] [openrisc/] [trunk/] [gnu-src/] [gdb-6.8/] [gdb/] [osf-share/] [cma_sched.h] - Blame information for rev 157

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1 24 jeremybenn
/*
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 * (c) Copyright 1990-1996 OPEN SOFTWARE FOUNDATION, INC.
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 * (c) Copyright 1990-1996 HEWLETT-PACKARD COMPANY
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 * (c) Copyright 1990-1996 DIGITAL EQUIPMENT CORPORATION
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 * (c) Copyright 1991, 1992 Siemens-Nixdorf Information Systems
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 * To anyone who acknowledges that this file is provided "AS IS" without
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 * any express or implied warranty: permission to use, copy, modify, and
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 * distribute this file for any purpose is hereby granted without fee,
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 * provided that the above copyright notices and this notice appears in
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 * all source code copies, and that none of the names listed above be used
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 * in advertising or publicity pertaining to distribution of the software
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 * without specific, written prior permission.  None of these organizations
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 * makes any representations about the suitability of this software for
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 * any purpose.
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 */
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/*
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 *      Header file for priority scheduling
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 */
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#ifndef CMA_SCHED
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#define CMA_SCHED
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/*
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 *  INCLUDE FILES
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 */
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/*
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 * CONSTANTS AND MACROS
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 */
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/*
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 * Scaling factor for integer priority calculations
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 */
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#define cma__c_prio_scale   8
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#if _CMA_VENDOR_ == _CMA__APOLLO
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/*
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 * FIX-ME: Apollo cc 6.8 blows contant folded "<<" and ">>"
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 */
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# define cma__scale_up(exp)  ((exp) * 256)
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# define cma__scale_dn(exp)  ((exp) / 256)
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#else
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# define cma__scale_up(exp)  ((exp) << cma__c_prio_scale)
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# define cma__scale_dn(exp)  ((exp) >> cma__c_prio_scale)
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#endif
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48
 
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/*
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 * Min. num. of ticks between self-adjustments for priority adjusting policies.
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 */
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#define cma__c_prio_interval    10
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/*
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 * Number of queues in each class of queues
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 */
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#define cma__c_prio_n_id    1       /* Very-low-priority class threads */
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#define cma__c_prio_n_bg    8       /* Background class threads */
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#define cma__c_prio_n_0     1       /* Very low priority throughput quartile */
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#define cma__c_prio_n_1     2       /* Low priority throughput quartile */
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#define cma__c_prio_n_2     3       /* Medium priority throughput quartile */
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#define cma__c_prio_n_3     4       /* High priority throughput quartile */
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#define cma__c_prio_n_rt    1       /* Real Time priority queues */
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/*
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 * Number of queues to skip (offset) to get to the queues in this section of LA
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 */
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#define cma__c_prio_o_id 0
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#define cma__c_prio_o_bg cma__c_prio_o_id + cma__c_prio_n_id
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#define cma__c_prio_o_0  cma__c_prio_o_bg + cma__c_prio_n_bg
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#define cma__c_prio_o_1  cma__c_prio_o_0  + cma__c_prio_n_0
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#define cma__c_prio_o_2  cma__c_prio_o_1  + cma__c_prio_n_1
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#define cma__c_prio_o_3  cma__c_prio_o_2  + cma__c_prio_n_2
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#define cma__c_prio_o_rt cma__c_prio_o_3  + cma__c_prio_n_3
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/*
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 * Ada_low:  These threads are queued in the background queues, thus there
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 * must be enough queues to allow one queue for each Ada priority below the
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 * Ada default.
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 */
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#define cma__c_prio_o_al cma__c_prio_o_bg
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/*
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 * Total number of ready queues, for declaration purposes
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 */
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#define cma__c_prio_n_tot  \
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        cma__c_prio_n_id + cma__c_prio_n_bg + cma__c_prio_n_rt \
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        + cma__c_prio_n_0 + cma__c_prio_n_1 + cma__c_prio_n_2 + cma__c_prio_n_3
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/*
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 * Formulae for determining a thread's priority.  Variable priorities (such
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 * as foreground and background) are scaled values.
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 */
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#define cma__sched_priority(tcb)        \
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    ((tcb)->sched.class == cma__c_class_fore  ? cma__sched_prio_fore (tcb)  \
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    :((tcb)->sched.class == cma__c_class_back ? cma__sched_prio_back (tcb)  \
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    :((tcb)->sched.class == cma__c_class_rt   ? cma__sched_prio_rt (tcb)    \
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    :((tcb)->sched.class == cma__c_class_idle ? cma__sched_prio_idle (tcb)  \
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    :(cma__bugcheck ("cma__sched_priority: unrecognized class"), 0) ))))
101
 
102
#define cma__sched_prio_fore(tcb)       cma__sched_prio_fore_var (tcb)
103
#define cma__sched_prio_back(tcb)       ((tcb)->sched.fixed_prio        \
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        ? cma__sched_prio_back_fix (tcb) : cma__sched_prio_back_var (tcb) )
105
#define cma__sched_prio_rt(tcb)         ((tcb)->sched.priority)
106
#define cma__sched_prio_idle(tcb)       ((tcb)->sched.priority)
107
 
108
#define cma__sched_prio_back_fix(tcb)   \
109
        (cma__g_prio_bg_min + (cma__g_prio_bg_max - cma__g_prio_bg_min) \
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        * ((tcb)->sched.priority + cma__c_prio_o_al - cma__c_prio_o_bg) \
111
        / cma__c_prio_n_bg)
112
 
113
/*
114
 * FIX-ME: Enable after modeling (if we like it)
115
 */
116
#if 1
117
# define cma__sched_prio_fore_var(tcb)  \
118
        ((cma__g_prio_fg_max + cma__g_prio_fg_min)/2)
119
# define cma__sched_prio_back_var(tcb)  \
120
        ((cma__g_prio_bg_max + cma__g_prio_bg_min)/2)
121
#else
122
# define cma__sched_prio_back_var(tcb)  cma__sched_prio_fore_var (tcb)
123
 
124
# if 1
125
/*
126
 * Re-scale, since the division removes the scale factor.
127
 * Scale and multiply before dividing to avoid loss of precision.
128
 */
129
#  define cma__sched_prio_fore_var(tcb)  \
130
        ((cma__g_vp_count * cma__scale_up((tcb)->sched.tot_time)) \
131
        / (tcb)->sched.cpu_time)
132
# else
133
/*
134
 * Re-scale, since the division removes the scale factor.
135
 * Scale and multiply before dividing to avoid loss of precision.
136
 * Left shift the numerator to multiply by two.
137
 */
138
#  define cma__sched_prio_fore_var(tcb)  \
139
    (((cma__g_vp_count * cma__scale_up((tcb)->sched.tot_time)  \
140
    * (tcb)->sched.priority * cma__g_init_frac_sum) << 1)  \
141
    / ((tcb)->sched.cpu_time * (tcb)->sched.priority * cma__g_init_frac_sum  \
142
        + (tcb)->sched.tot_time))
143
# endif
144
#endif
145
 
146
/*
147
 * Update weighted-averaged, scaled tick counters
148
 */
149
#define cma__sched_update_time(ave, new) \
150
    (ave) = (ave) - ((cma__scale_dn((ave)) - (new)) << (cma__c_prio_scale - 4))
151
 
152
#define cma__sched_parameterize(tcb, policy) { \
153
    switch (policy) { \
154
        case cma_c_sched_fifo : { \
155
            (tcb)->sched.rtb =          cma_c_true; \
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            (tcb)->sched.spp =          cma_c_true; \
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            (tcb)->sched.fixed_prio =   cma_c_true; \
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            (tcb)->sched.class =        cma__c_class_rt; \
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            break; \
160
            } \
161
        case cma_c_sched_rr : { \
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            (tcb)->sched.rtb =          cma_c_false; \
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            (tcb)->sched.spp =          cma_c_true; \
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            (tcb)->sched.fixed_prio =   cma_c_true; \
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            (tcb)->sched.class =        cma__c_class_rt; \
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            break; \
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            } \
168
        case cma_c_sched_throughput : { \
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            (tcb)->sched.rtb =          cma_c_false; \
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            (tcb)->sched.spp =          cma_c_false; \
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            (tcb)->sched.fixed_prio =   cma_c_false; \
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            (tcb)->sched.class =        cma__c_class_fore; \
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            break; \
174
            } \
175
        case cma_c_sched_background : { \
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            (tcb)->sched.rtb =          cma_c_false; \
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            (tcb)->sched.spp =          cma_c_false; \
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            (tcb)->sched.fixed_prio =   cma_c_false; \
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            (tcb)->sched.class =        cma__c_class_back; \
180
            break; \
181
            } \
182
        case cma_c_sched_ada_low : { \
183
            (tcb)->sched.rtb =          cma_c_false; \
184
            (tcb)->sched.spp =          cma_c_true; \
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            (tcb)->sched.fixed_prio =   cma_c_true; \
186
            (tcb)->sched.class =        cma__c_class_back; \
187
            break; \
188
            } \
189
        case cma_c_sched_idle : { \
190
            (tcb)->sched.rtb =          cma_c_false; \
191
            (tcb)->sched.spp =          cma_c_false; \
192
            (tcb)->sched.fixed_prio =   cma_c_false; \
193
            (tcb)->sched.class =        cma__c_class_idle; \
194
            break; \
195
            } \
196
        default : { \
197
            cma__bugcheck ("cma__sched_parameterize: bad scheduling Policy"); \
198
            break; \
199
            } \
200
        } \
201
    }
202
 
203
/*
204
 * TYPEDEFS
205
 */
206
 
207
/*
208
 * Scheduling classes
209
 */
210
typedef enum CMA__T_SCHED_CLASS {
211
    cma__c_class_rt,
212
    cma__c_class_fore,
213
    cma__c_class_back,
214
    cma__c_class_idle
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    } cma__t_sched_class;
216
 
217
/*
218
 *  GLOBAL DATA
219
 */
220
 
221
/*
222
 * Minimuma and maximum prioirities, for foreground and background threads,
223
 * as of the last time the scheduler ran.  (Scaled once.)
224
 */
225
extern cma_t_integer    cma__g_prio_fg_min;
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extern cma_t_integer    cma__g_prio_fg_max;
227
extern cma_t_integer    cma__g_prio_bg_min;
228
extern cma_t_integer    cma__g_prio_bg_max;
229
 
230
/*
231
 * The "m" values are the slopes of the four sections of linear approximation.
232
 *
233
 * cma__g_prio_m_I = 4*N(I)/cma__g_prio_range       (Scaled once.)
234
 */
235
extern cma_t_integer    cma__g_prio_m_0,
236
                        cma__g_prio_m_1,
237
                        cma__g_prio_m_2,
238
                        cma__g_prio_m_3;
239
 
240
/*
241
 * The "b" values are the intercepts of the four sections of linear approx.
242
 *  (Not scaled.)
243
 *
244
 * cma__g_prio_b_I = -N(I)*(I*prio_max + (4-I)*prio_min)/prio_range + prio_o_I
245
 */
246
extern cma_t_integer    cma__g_prio_b_0,
247
                        cma__g_prio_b_1,
248
                        cma__g_prio_b_2,
249
                        cma__g_prio_b_3;
250
 
251
/*
252
 * The "p" values are the end points of the four sections of linear approx.
253
 *
254
 * cma__g_prio_p_I = cma__g_prio_fg_min + (I/4)*cma__g_prio_range
255
 *
256
 * [cma__g_prio_p_0 is not defined since it is not used (also, it is the same
257
 *  as cma__g_prio_fg_min).]        (Scaled once.)
258
 */
259
extern cma_t_integer    cma__g_prio_p_1,
260
                        cma__g_prio_p_2,
261
                        cma__g_prio_p_3;
262
 
263
/*
264
 * Points to the next queue for the dispatcher to check for ready threads.
265
 */
266
extern cma_t_integer    cma__g_next_ready_queue;
267
 
268
/*
269
 * Points to the queues of virtual processors (for preempt victim search)
270
 */
271
extern cma__t_queue     cma__g_run_vps;
272
extern cma__t_queue     cma__g_susp_vps;
273
extern cma_t_integer    cma__g_vp_count;
274
 
275
/*
276
 * INTERNAL INTERFACES
277
 */
278
 
279
#endif

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