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Rev 3022 Rev 4055
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59 
#include <proc/task.h>
 59 
#include <proc/task.h>
60 
#include <proc/tasklet.h>
 60 
#include <proc/tasklet.h>
61 
#include <main/kinit.h>
 61 
#include <main/kinit.h>
62 
#include <main/version.h>
 62 
#include <main/version.h>
63 
#include <console/kconsole.h>
 63 
#include <console/kconsole.h>
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 64 
#include <console/console.h>
64 
#include <cpu.h>
 65 
#include <cpu.h>
65 
#include <align.h>
 66 
#include <align.h>
66 
#include <interrupt.h>
 67 
#include <interrupt.h>
67 
#include <mm/frame.h>
 68 
#include <mm/frame.h>
68 
#include <mm/page.h>
 69 
#include <mm/page.h>
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#include <arch.h>
 77 
#include <arch.h>
77 
#include <arch/faddr.h>
 78 
#include <arch/faddr.h>
78 
#include <ipc/ipc.h>
 79 
#include <ipc/ipc.h>
79 
#include <macros.h>
 80 
#include <macros.h>
80 
#include <adt/btree.h>
 81 
#include <adt/btree.h>
81 
#include <console/klog.h>
 - 
 
82 
#include <smp/smp.h>
 82 
#include <smp/smp.h>
83 
#include <ddi/ddi.h>
 83 
#include <ddi/ddi.h>
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 84 
#include <main/main.h>
84 
 
 85 
 
85 
/** Global configuration structure. */
 86 
/** Global configuration structure. */
86 
config_t config;
 87 
config_t config;
87 
 
 88 
 
88 
/** Initial user-space tasks */
 89 
/** Initial user-space tasks */
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 * These 'hardcoded' variables will be intialized by
 103 
 * These 'hardcoded' variables will be intialized by
103 
 * the linker or the low level assembler code with
 104 
 * the linker or the low level assembler code with
104 
 * appropriate sizes and addresses.
 105 
 * appropriate sizes and addresses.
105 
 */
 106 
 */
106 
 
 107 
 
107 
/**< Virtual address of where the kernel is loaded. */
 108 
/** Virtual address of where the kernel is loaded. */
108 
uintptr_t hardcoded_load_address = 0;
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uintptr_t hardcoded_load_address = 0;
109 
/**< Size of the kernel code in bytes. */
 110 
/** Size of the kernel code in bytes. */
110 
size_t hardcoded_ktext_size = 0;
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size_t hardcoded_ktext_size = 0;
111 
/**< Size of the kernel data in bytes. */
 112 
/** Size of the kernel data in bytes. */
112 
size_t hardcoded_kdata_size = 0;
 113 
size_t hardcoded_kdata_size = 0;
113 
/**< Lowest safe stack virtual address. */
 114 
/** Lowest safe stack virtual address. */
114 
uintptr_t stack_safe = 0;      
 115 
uintptr_t stack_safe = 0;      
115 
 
 116 
 
116 
void main_bsp(void);
 - 
 
117 
void main_ap(void);
 - 
 
118 
 
 - 
 
119 
/*
 117 
/*
120 
 * These two functions prevent stack from underflowing during the
 118 
 * These two functions prevent stack from underflowing during the
121 
 * kernel boot phase when SP is set to the very top of the reserved
 119 
 * kernel boot phase when SP is set to the very top of the reserved
122 
 * space. The stack could get corrupted by a fooled compiler-generated
 120 
 * space. The stack could get corrupted by a fooled compiler-generated
123 
 * pop sequence otherwise.
 121 
 * pop sequence otherwise.
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129 
 
 127 
 
130 
#define CONFIG_STACK_SIZE   ((1 << STACK_FRAMES) * STACK_SIZE)
 128 
#define CONFIG_STACK_SIZE   ((1 << STACK_FRAMES) * STACK_SIZE)
131 
 
 129 
 
132 
/** Main kernel routine for bootstrap CPU.
 130 
/** Main kernel routine for bootstrap CPU.
133 
 *
 131 
 *
134 
 * Initializes the kernel by bootstrap CPU.
 132 
 * The code here still runs on the boot stack, which knows nothing about
135 
 * This function passes control directly to
 133 
 * preemption counts.  Because of that, this function cannot directly call
- 
 
 134 
 * functions that disable or enable preemption (e.g. spinlock_lock()). The
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 135 
 * primary task of this function is to calculate address of a new stack and
136 
 * main_bsp_separated_stack().
 136 
 * switch to it.
137 
 *
 137 
 *
138 
 * Assuming interrupts_disable().
 138 
 * Assuming interrupts_disable().
139 
 *
 139 
 *
140 
 */
 140 
 */
141 
void main_bsp(void)
 141 
void main_bsp(void)
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184 
 * Second part of main_bsp().
 184 
 * Second part of main_bsp().
185 
 *
 185 
 *
186 
 */
 186 
 */
187 
void main_bsp_separated_stack(void)
 187 
void main_bsp_separated_stack(void)
188 
{
 188 
{
189 
    task_t *k;
 - 
 
190 
    thread_t *t;
 189 
    /* Keep this the first thing. */
191 
    count_t i;
 - 
 
192 
   
 - 
 
193 
    the_initialize(THE);
 190 
    the_initialize(THE);
- 
 
 191 
   
- 
 
 192 
    version_print();
194 
 
 193 
   
- 
 
 194 
    LOG("\nconfig.base=%#" PRIp " config.kernel_size=%" PRIs
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 195 
        "\nconfig.stack_base=%#" PRIp " config.stack_size=%" PRIs,
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 196 
        config.base, config.kernel_size, config.stack_base,
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 197 
        config.stack_size);
- 
 
 198 
   
- 
 
 199 
#ifdef CONFIG_KCONSOLE
195 
    /*
 200 
    /*
196 
     * kconsole data structures must be initialized very early
 201 
     * kconsole data structures must be initialized very early
197 
     * because other subsystems will register their respective
 202 
     * because other subsystems will register their respective
198 
     * commands.
 203 
     * commands.
199 
     */
 204 
     */
200 
    kconsole_init();
 205 
    LOG_EXEC(kconsole_init());
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 206 
#endif
201 
   
 207 
   
202 
    /*
 208 
    /*
203 
     * Exception handler initialization, before architecture
 209 
     * Exception handler initialization, before architecture
204 
     * starts adding its own handlers
 210 
     * starts adding its own handlers
205 
     */
 211 
     */
206 
    exc_init();
 212 
    LOG_EXEC(exc_init());
207 
 
 213 
   
208 
    /*
 214 
    /*
209 
     * Memory management subsystems initialization.
 215 
     * Memory management subsystems initialization.
210 
     */
 216 
     */
211 
    arch_pre_mm_init();
 217 
    LOG_EXEC(arch_pre_mm_init());
212 
    frame_init();      
 218 
    LOG_EXEC(frame_init());
213 
    /* Initialize at least 1 memory segment big enough for slab to work. */
 - 
 
214 
    slab_cache_init();
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215 
    btree_init();
 - 
 
216 
    as_init();
 - 
 
217 
    page_init();
 - 
 
218 
    tlb_init();
 - 
 
219 
    ddi_init();
 - 
 
220 
    tasklet_init();
 - 
 
221 
    arch_post_mm_init();
 - 
 
222 
   
 219 
   
- 
 
 220 
    /* Initialize at least 1 memory segment big enough for slab to work. */
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 221 
    LOG_EXEC(slab_cache_init());
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 222 
    LOG_EXEC(btree_init());
223 
    version_print();
 223 
    LOG_EXEC(as_init());
224 
    printf("kernel: %.*p hardcoded_ktext_size=%zd KB, "
 224 
    LOG_EXEC(page_init());
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 225 
    LOG_EXEC(tlb_init());
225 
        "hardcoded_kdata_size=%zd KB\n", sizeof(uintptr_t) * 2,
 226 
    LOG_EXEC(ddi_init());
226 
        config.base, SIZE2KB(hardcoded_ktext_size),
 227 
    LOG_EXEC(tasklet_init());
227 
        SIZE2KB(hardcoded_kdata_size));
 228 
    LOG_EXEC(arch_post_mm_init());
228 
    printf("stack:  %.*p size=%zd KB\n", sizeof(uintptr_t) * 2,
 229 
    LOG_EXEC(arch_pre_smp_init());
229 
        config.stack_base, SIZE2KB(config.stack_size));
 230 
    LOG_EXEC(smp_init());
230 
   
 231 
   
231 
    arch_pre_smp_init();
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232 
    smp_init();
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233 
    /* Slab must be initialized after we know the number of processors. */
 232 
    /* Slab must be initialized after we know the number of processors. */
234 
    slab_enable_cpucache();
 233 
    LOG_EXEC(slab_enable_cpucache());
235 
   
 234 
   
236 
    printf("Detected %zu CPU(s), %llu MB free memory\n",
 235 
    printf("Detected %" PRIc " CPU(s), %" PRIu64" MiB free memory\n",
237 
        config.cpu_count, SIZE2MB(zone_total_size()));
 236 
        config.cpu_count, SIZE2MB(zone_total_size()));
238 
    cpu_init();
 - 
 
239 
   
 237 
   
- 
 
 238 
    LOG_EXEC(cpu_init());
- 
 
 239 
   
240 
    calibrate_delay_loop();
 240 
    LOG_EXEC(calibrate_delay_loop());
241 
    clock_counter_init();
 241 
    LOG_EXEC(clock_counter_init());
242 
    timeout_init();
 242 
    LOG_EXEC(timeout_init());
243 
    scheduler_init();
 243 
    LOG_EXEC(scheduler_init());
244 
    task_init();
 244 
    LOG_EXEC(task_init());
245 
    thread_init();
 245 
    LOG_EXEC(thread_init());
246 
    futex_init();
 246 
    LOG_EXEC(futex_init());
247 
    klog_init();
 - 
 
248 
   
 247 
   
249 
    if (init.cnt > 0) {
 248 
    if (init.cnt > 0) {
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 249 
        count_t i;
250 
        for (i = 0; i < init.cnt; i++)
 250 
        for (i = 0; i < init.cnt; i++)
251 
            printf("init[%zd].addr=%.*p, init[%zd].size=%zd\n", i,
 251 
            LOG("init[%" PRIc "].addr=%#" PRIp ", init[%" PRIc
252 
                sizeof(uintptr_t) * 2, init.tasks[i].addr, i,
 252 
                "].size=%#" PRIs "\n", i, init.tasks[i].addr, i,
253 
                init.tasks[i].size);
 253 
                init.tasks[i].size);
254 
    } else
 254 
    } else
255 
        printf("No init binaries found\n");
 255 
        printf("No init binaries found\n");
256 
   
 256 
   
257 
    ipc_init();
 257 
    LOG_EXEC(ipc_init());
- 
 
 258 
    LOG_EXEC(klog_init());
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 259 
    LOG_EXEC(console_init());
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 260 
   
- 
 
 261 
#ifdef CONFIG_KCONSOLE
- 
 
 262 
    LOG_EXEC(kconsole_notify_init());
- 
 
 263 
#endif
258 
 
 264 
   
259 
    /*
 265 
    /*
260 
     * Create kernel task.
 266 
     * Create kernel task.
261 
     */
 267 
     */
262 
    k = task_create(AS_KERNEL, "kernel");
 268 
    task_t *kernel = task_create(AS_KERNEL, "kernel");
263 
    if (!k)
 269 
    if (!kernel)
264 
        panic("can't create kernel task\n");
 270 
        panic("Cannot create kernel task.");
265 
   
 271 
   
266 
    /*
 272 
    /*
267 
     * Create the first thread.
 273 
     * Create the first thread.
268 
     */
 274 
     */
- 
 
 275 
    thread_t *kinit_thread
269 
    t = thread_create(kinit, NULL, k, 0, "kinit", true);
 276 
        = thread_create(kinit, NULL, kernel, 0, "kinit", true);
270 
    if (!t)
 277 
    if (!kinit_thread)
271 
        panic("can't create kinit thread\n");
 278 
        panic("Cannot create kinit thread.");
272 
    thread_ready(t);
 279 
    LOG_EXEC(thread_ready(kinit_thread));
273 
   
 280 
   
274 
    /*
 281 
    /*
275 
     * This call to scheduler() will return to kinit,
 282 
     * This call to scheduler() will return to kinit,
276 
     * starting the thread of kernel threads.
 283 
     * starting the thread of kernel threads.
277 
     */
 284 
     */
Line 320... Line 327...
320 
    /*
 327 
    /*
321 
     * If we woke kmp up before we left the kernel stack, we could
 328 
     * If we woke kmp up before we left the kernel stack, we could
322 
     * collide with another CPU coming up. To prevent this, we
 329 
     * collide with another CPU coming up. To prevent this, we
323 
     * switch to this cpu's private stack prior to waking kmp up.
 330 
     * switch to this cpu's private stack prior to waking kmp up.
324 
     */
 331 
     */
- 
 
 332 
    context_save(&CPU->saved_context);
325 
    context_set(&CPU->saved_context, FADDR(main_ap_separated_stack),
 333 
    context_set(&CPU->saved_context, FADDR(main_ap_separated_stack),
326 
        (uintptr_t) CPU->stack, CPU_STACK_SIZE);
 334 
        (uintptr_t) CPU->stack, CPU_STACK_SIZE);
327 
    context_restore(&CPU->saved_context);
 335 
    context_restore(&CPU->saved_context);
328 
    /* not reached */
 336 
    /* not reached */
329 
}
 337 
}