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[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [lib/] [libcpu/] [i386/] [cpu.c] - Blame information for rev 507

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1 30 unneback
/*
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 * cpu.c  - This file contains implementation of C function to
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 *          instantiate IDT entries. More detailled information can be found
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 *          on Intel site and more precisely in the following book :
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 *
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 *              Pentium Processor family
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 *              Developper's Manual
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 *
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 *              Volume 3 : Architecture and Programming Manual
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 *
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 * Copyright (C) 1998  Eric Valette (valette@crf.canon.fr)
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 *                     Canon Centre Recherche France.
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 *
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 *  The license and distribution terms for this file may be
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 *  found in found in the file LICENSE in this distribution or at
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 *  http://www.OARcorp.com/rtems/license.html.
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 *
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 * $Id: cpu.c,v 1.2 2001-09-27 12:01:22 chris Exp $
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 */
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#include <libcpu/cpu.h>
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#include <irq.h>
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static rtems_raw_irq_connect_data*      raw_irq_table;
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static rtems_raw_irq_connect_data       default_raw_irq_entry;
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static interrupt_gate_descriptor        default_idt_entry;
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static rtems_raw_irq_global_settings*   local_settings;
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void create_interrupt_gate_descriptor (interrupt_gate_descriptor* idtEntry,
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                                       rtems_raw_irq_hdl hdl)
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{
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    idtEntry->low_offsets_bits  = (((unsigned) hdl) & 0xffff);
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    idtEntry->segment_selector  = i386_get_cs();
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    idtEntry->fixed_value_bits  = 0;
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    idtEntry->gate_type         = 0xe;
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    idtEntry->privilege         = 0;
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    idtEntry->present           = 1;
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    idtEntry->high_offsets_bits = ((((unsigned) hdl) >> 16) & 0xffff);
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}
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rtems_raw_irq_hdl get_hdl_from_vector(rtems_vector_offset index)
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{
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    rtems_raw_irq_hdl           hdl;
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    interrupt_gate_descriptor*  idt_entry_tbl;
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    unsigned                    limit;
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    i386_get_info_from_IDTR (&idt_entry_tbl, &limit);
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    /* Convert limit into number of entries */
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    limit = (limit + 1) / sizeof(interrupt_gate_descriptor);
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    if(index >= limit) {
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        return 0;
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    }
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    * ((unsigned int*) &hdl) = (idt_entry_tbl[index].low_offsets_bits |
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                              (idt_entry_tbl[index].high_offsets_bits << 16));
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    return hdl;
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}
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int i386_set_idt_entry  (const rtems_raw_irq_connect_data* irq)
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{
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    interrupt_gate_descriptor*  idt_entry_tbl;
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    unsigned                    limit;
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    unsigned int                level;
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    i386_get_info_from_IDTR (&idt_entry_tbl, &limit);
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    /* Convert limit into number of entries */
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    limit = (limit + 1) / sizeof(interrupt_gate_descriptor);
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73
    if (irq->idtIndex >= limit) {
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      return 0;
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    }
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    /*
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     * Check if default handler is actually connected. If not issue an error.
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     * You must first get the current handler via i386_get_current_idt_entry
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     * and then disconnect it using i386_delete_idt_entry.
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     * RATIONALE : to always have the same transition by forcing the user
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     * to get the previous handler before accepting to disconnect.
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     */
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    if (get_hdl_from_vector(irq->idtIndex) != default_raw_irq_entry.hdl) {
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      return 0;
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    }
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87
    _CPU_ISR_Disable(level);
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89
    raw_irq_table [irq->idtIndex] = *irq;
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    create_interrupt_gate_descriptor (&idt_entry_tbl[irq->idtIndex], irq->hdl);
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    irq->on(irq);
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    _CPU_ISR_Enable(level);
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    return 1;
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}
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void _CPU_ISR_install_vector (unsigned vector,
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                              void* hdl,
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                              void** oldHdl)
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{
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    interrupt_gate_descriptor*  idt_entry_tbl;
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    unsigned                    limit;
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    interrupt_gate_descriptor   new;
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    unsigned int                level;
105
 
106
    i386_get_info_from_IDTR (&idt_entry_tbl, &limit);
107
 
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    /* Convert limit into number of entries */
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    limit = (limit + 1) / sizeof(interrupt_gate_descriptor);
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111
    if (vector >= limit) {
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      return;
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    }
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    _CPU_ISR_Disable(level)
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    * ((unsigned int *) oldHdl) = idt_entry_tbl[vector].low_offsets_bits |
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        (idt_entry_tbl[vector].high_offsets_bits << 16);
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118
    create_interrupt_gate_descriptor(&new,  hdl);
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    idt_entry_tbl[vector] = new;
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    _CPU_ISR_Enable(level);
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}
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int i386_get_current_idt_entry (rtems_raw_irq_connect_data* irq)
125
{
126
    interrupt_gate_descriptor*  idt_entry_tbl;
127
    unsigned                    limit;
128
 
129
    i386_get_info_from_IDTR (&idt_entry_tbl, &limit);
130
 
131
    /* Convert limit into number of entries */
132
    limit = (limit + 1) / sizeof(interrupt_gate_descriptor);
133
 
134
    if (irq->idtIndex >= limit) {
135
      return 0;
136
    }
137
    raw_irq_table [irq->idtIndex].hdl = get_hdl_from_vector(irq->idtIndex);
138
 
139
    *irq = raw_irq_table [irq->idtIndex];
140
 
141
    return 1;
142
}
143
 
144
int i386_delete_idt_entry (const rtems_raw_irq_connect_data* irq)
145
{
146
    interrupt_gate_descriptor*  idt_entry_tbl;
147
    unsigned                    limit;
148
    unsigned int                level;
149
 
150
    i386_get_info_from_IDTR (&idt_entry_tbl, &limit);
151
 
152
    /* Convert limit into number of entries */
153
    limit = (limit + 1) / sizeof(interrupt_gate_descriptor);
154
 
155
    if (irq->idtIndex >= limit) {
156
      return 0;
157
    }
158
    /*
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     * Check if handler passed is actually connected. If not issue an error.
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     * You must first get the current handler via i386_get_current_idt_entry
161
     * and then disconnect it using i386_delete_idt_entry.
162
     * RATIONALE : to always have the same transition by forcing the user
163
     * to get the previous handler before accepting to disconnect.
164
     */
165
    if (get_hdl_from_vector(irq->idtIndex) != irq->hdl){
166
      return 0;
167
    }
168
    _CPU_ISR_Disable(level);
169
 
170
    idt_entry_tbl[irq->idtIndex] = default_idt_entry;
171
 
172
    irq->off(irq);
173
 
174
    raw_irq_table[irq->idtIndex] = default_raw_irq_entry;
175
    raw_irq_table[irq->idtIndex].idtIndex = irq->idtIndex;
176
 
177
    _CPU_ISR_Enable(level);
178
 
179
    return 1;
180
}
181
 
182
/*
183
 * Caution this function assumes the IDTR has been already set.
184
 */
185
int i386_init_idt (rtems_raw_irq_global_settings* config)
186
{
187
    unsigned                    limit;
188
    unsigned                    i;
189
    unsigned                    level;
190
    interrupt_gate_descriptor*  idt_entry_tbl;
191
 
192
    i386_get_info_from_IDTR (&idt_entry_tbl, &limit);
193
 
194
    /* Convert limit into number of entries */
195
    limit = (limit + 1) / sizeof(interrupt_gate_descriptor);
196
 
197
    if (config->idtSize != limit) {
198
      return 0;
199
    }
200
    /*
201
     * store various accelarators
202
     */
203
    raw_irq_table               = config->rawIrqHdlTbl;
204
    local_settings              = config;
205
    default_raw_irq_entry       = config->defaultRawEntry;
206
 
207
    _CPU_ISR_Disable(level);
208
 
209
    create_interrupt_gate_descriptor (&default_idt_entry, default_raw_irq_entry.hdl);
210
 
211
    for (i=0; i < limit; i++) {
212
      interrupt_gate_descriptor new;
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      create_interrupt_gate_descriptor (&new, raw_irq_table[i].hdl);
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      idt_entry_tbl[i] = new;
215
      if (raw_irq_table[i].hdl != default_raw_irq_entry.hdl) {
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        raw_irq_table[i].on(&raw_irq_table[i]);
217
      }
218
      else {
219
        raw_irq_table[i].off(&raw_irq_table[i]);
220
      }
221
    }
222
    _CPU_ISR_Enable(level);
223
 
224
    return 1;
225
}
226
 
227
int i386_get_idt_config (rtems_raw_irq_global_settings** config)
228
{
229
  *config = local_settings;
230
  return 1;
231
}
232
 
233
/*
234
 * Caution this function assumes the GDTR has been already set.
235
 */
236
int i386_set_gdt_entry (unsigned short segment_selector, unsigned base,
237
                        unsigned limit)
238
{
239
    unsigned                    gdt_limit;
240
    unsigned short              tmp_segment = 0;
241
    unsigned int                limit_adjusted;
242
    segment_descriptors*        gdt_entry_tbl;
243
 
244
 
245
    i386_get_info_from_GDTR (&gdt_entry_tbl, &gdt_limit);
246
 
247
    if (segment_selector > limit) {
248
      return 0;
249
    }
250
    /*
251
     * set up limit first
252
     */
253
    limit_adjusted = limit;
254
    if ( limit > 4095 ) {
255
      gdt_entry_tbl[segment_selector].granularity = 1;
256
      limit_adjusted /= 4096;
257
    }
258
    gdt_entry_tbl[segment_selector].limit_15_0  = limit_adjusted & 0xffff;
259
    gdt_entry_tbl[segment_selector].limit_19_16 = (limit_adjusted >> 16) & 0xf;
260
    /*
261
     * set up base
262
     */
263
    gdt_entry_tbl[segment_selector].base_address_15_0  = base & 0xffff;
264
    gdt_entry_tbl[segment_selector].base_address_23_16 = (base >> 16) & 0xff;
265
    gdt_entry_tbl[segment_selector].base_address_31_24 = (base >> 24) & 0xff;
266
    /*
267
     * set up descriptor type (this may well becomes a parameter if needed)
268
     */
269
    gdt_entry_tbl[segment_selector].type                = 2;    /* Data R/W */
270
    gdt_entry_tbl[segment_selector].descriptor_type     = 1;    /* Code or Data */
271
    gdt_entry_tbl[segment_selector].privilege           = 0;     /* ring 0 */
272
    gdt_entry_tbl[segment_selector].present             = 1;    /* not present */
273
 
274
    /*
275
     * Now, reload all segment registers so the limit takes effect.
276
     */
277
 
278
    asm volatile( "movw %%ds,%0 ; movw %0,%%ds
279
                   movw %%es,%0 ; movw %0,%%es
280
                   movw %%fs,%0 ; movw %0,%%fs
281
                   movw %%gs,%0 ; movw %0,%%gs
282
                   movw %%ss,%0 ; movw %0,%%ss"
283
                   : "=r" (tmp_segment)
284
                   : "0"  (tmp_segment)
285
                  );
286
 
287
    return 1;
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}

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