mirror of
git://projects.qi-hardware.com/iris.git
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292 lines
10 KiB
COBOL
292 lines
10 KiB
COBOL
#pypp 0
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// Iris: micro-kernel for a capability-based operating system.
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// mips/init.ccp: mips-specific boot code.
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// Copyright 2009 Bas Wijnen <wijnen@debian.org>
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//
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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//
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// You should have received a copy of the GNU General Public License
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// along with this program. If not, see <http://www.gnu.org/licenses/>.
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// Also declare things which only work during kernel init.
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#define INIT
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#define ARCH
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#include "../kernel.hh"
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#include <elf.h>
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#define NUM_SLOTS 4
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#define NUM_CAPS 16
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static void init_idle ():
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// initialize idle task as if it is currently running.
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idle.prev = NULL
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idle.next = NULL
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idle.schedule_prev = NULL
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idle.schedule_next = NULL
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idle.address_space = &idle_memory
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idle.refs.reset ()
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idle.flags = Kernel::Thread::RUNNING | Kernel::Thread::PRIV
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// initialize idle_memory.
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idle_memory.prev = NULL
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idle_memory.next = NULL
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idle_memory.address_space = NULL
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idle_memory.refs.reset ()
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idle_memory.pages = &idle_page
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idle_memory.threads = &idle
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idle_memory.memories = NULL
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idle_memory.limit = 0
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idle_memory.used = 0
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idle_memory.arch.directory = (unsigned **)0x80000000
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// Shadow is never used for the idle task.
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idle_memory.arch.shadow = NULL
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idle_memory.arch.asid = 0
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// initialize idle_page
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idle_page.prev = NULL
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idle_page.next = NULL
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idle_page.frame = 0x80000000
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idle_page.flags = Kernel::Page::PAYING | Kernel::Page::FRAME
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idle_page.refs.reset ()
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idle_page.address_space = NULL
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current = &idle
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directory = idle_memory.arch.directory
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static void init_cp0 ():
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// Disable watchpoint interrupts.
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cp0_set0 (CP0_WATCH_LO)
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// Use the interrupt vector for interrupts; clear interrupt pending flags.
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cp0_set (CP0_CAUSE, 1 << 23)
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// Disable interrupts and set interrupt vectors to normal.
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cp0_set0 (CP0_STATUS)
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// Reset exception base address.
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cp0_set0 (CP0_EBASE)
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// Use non-vectored interrupts.
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cp0_set0 (CP0_INT_CTL)
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// clear the tlb, hardwire page 0 to 0xffffffff
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// and soft-wire it to (0x294 << 20) + (0x290 << 10)
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// (for the idle task).
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cp0_set (CP0_WIRED, 1)
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cp0_set0 (CP0_PAGE_MASK)
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cp0_set0 (CP0_ENTRY_LO0)
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cp0_set0 (CP0_ENTRY_LO1)
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// Get number of tlb entries (is 31).
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unsigned num
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cp0_get (CP0_CONFIG1, num)
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num >>= 25
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num &= 0x3f
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// Clear the tlb.
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for unsigned i = 1; i <= num; ++i:
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// with asid 0, no page faults will be triggered, so it's safe to map memory anywhere.
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cp0_set (CP0_ENTRY_HI, 0x2000 * i)
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cp0_set (CP0_INDEX, i)
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// write the data.
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__asm__ volatile ("tlbwi")
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// Fill the upper page in kseg3.
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cp0_set (CP0_ENTRY_HI, 0xffffe000)
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cp0_set (CP0_ENTRY_LO0, 0x1d)
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cp0_set (CP0_ENTRY_LO1, 0x1f)
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cp0_set0 (CP0_INDEX)
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__asm__ volatile ("tlbwi")
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// Fill the idle task's page in useg. Set it to non-cachable.
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// its directory entry is at 1fc, so it's number 7f (0fe00000).
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// its table entry is at 1f8, so it's number 7e (0007e000).
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// its address is 280 (00000280), used below for EPC.
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unsigned const idle_entry_hi = 0x0fe7e000
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cp0_set (CP0_ENTRY_HI, idle_entry_hi)
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cp0_set (CP0_ENTRY_LO0, 0x16)
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cp0_set (CP0_ENTRY_LO1, 0x14)
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__asm__ volatile ("tlbwr")
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// Allow eret to be used to jump to the idle task.
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cp0_set (CP0_EPC, (idle_entry_hi & PAGE_MASK) | 0x280)
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// Wait with initializing the status register until the last moment, so that
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// exceptions in the bootup code will fill EPC and friends.
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static void init_threads ():
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kThread *previous = NULL
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first_scheduled = NULL
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first_alarm = NULL
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kReceiver *init_receiver = NULL
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for unsigned i = 0; i < NUM_THREADS; ++i:
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dbg_log ("Starting thread ")
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dbg_log_num (i, 2)
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dbg_log ("\n")
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kMemory *mem = top_memory.alloc_memory ()
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assert (mem)
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kThread *thread = mem->alloc_thread (NUM_SLOTS)
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#ifndef NDEBUG
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thread->id = i
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#endif
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kPage **pages = (kPage **)mem->zalloc ()
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Elf32_Ehdr *header = (Elf32_Ehdr *)thread_start[i]
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for unsigned j = 0; j < SELFMAG; ++j:
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if header->e_ident[j] != ELFMAG[j]:
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panic (i * 0x1000 + j, "invalid ELF magic")
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return
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if header->e_ident[EI_CLASS] != ELFCLASS32:
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panic (i * 0x1000 + EI_CLASS, "invalid ELF class")
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return
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if header->e_ident[EI_DATA] != ELFDATA2LSB:
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panic (i * 0x1000 + EI_DATA, "invalid ELF data")
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return
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if header->e_ident[EI_VERSION] != EV_CURRENT:
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panic (i * 0x1000 + EI_VERSION, "invalid ELF version")
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return
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if header->e_type != ET_EXEC:
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panic (i * 0x1000 + 0x10, "invalid ELF type")
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return
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if header->e_machine != EM_MIPS_RS3_LE && header->e_machine != EM_MIPS:
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panic (i * 0x1000 + 0x12, "invalid ELF machine")
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return
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thread->pc = header->e_entry
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thread->sp = 0x80000000
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for unsigned section = 0; section < header->e_shnum; ++section:
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Elf32_Shdr *shdr = (Elf32_Shdr *)(thread_start[i] + header->e_shoff + section * header->e_shentsize)
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if ~shdr->sh_flags & SHF_ALLOC:
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continue
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bool readonly = !(shdr->sh_flags & SHF_WRITE)
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//bool executable = shdr->sh_flags & SHF_EXEC_INSTR
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if shdr->sh_type != SHT_NOBITS:
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unsigned file_offset = shdr->sh_offset >> PAGE_BITS
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if (file_offset + ((shdr->sh_size + PAGE_SIZE - 1) >> PAGE_BITS)) >= (PAGE_SIZE >> 2):
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panic (0x87446809, "initial thread too large")
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return
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for unsigned p = (shdr->sh_addr & PAGE_MASK); p < shdr->sh_addr + shdr->sh_size; p += PAGE_SIZE:
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unsigned section_offset = (p - (shdr->sh_addr & PAGE_MASK)) >> PAGE_BITS
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unsigned idx = file_offset + section_offset
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kPage *page = mem->get_mapping (p, &readonly)
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if page:
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if !pages[idx]:
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panic (0, "multiple pages mapped to one address in initial file")
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return
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if pages[idx]->frame != page->frame:
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panic (0, "different pages mapped to one address in intitial file")
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return
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continue
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if !pages[idx]:
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pages[idx] = mem->alloc_page ()
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pages[idx]->frame = thread_start[i] + (idx << PAGE_BITS)
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pages[idx]->flags = Kernel::Page::PAYING | Kernel::Page::FRAME
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++top_memory.limit
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mem->use ()
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if !mem->map (pages[idx], p, readonly):
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panic (0x22446688, "unable to map initial page")
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return
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else:
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if readonly:
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panic (0x33399993, "unwritable bss section")
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return
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for unsigned p = (shdr->sh_addr & PAGE_MASK); p < shdr->sh_addr + shdr->sh_size; p += PAGE_SIZE:
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kPage *page = mem->get_mapping (p, &readonly)
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if !page:
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page = mem->alloc_page ()
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if !page:
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panic (0x00220022, "out of memory")
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return
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page->frame = mem->zalloc ()
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if !page->frame:
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panic (0x02220022, "out of memory");
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return
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page->flags = Kernel::Page::PAYING | Kernel::Page::FRAME
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if !mem->map (page, p):
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panic (0x33557799, "unable to map initial bss page")
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return
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else:
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if readonly:
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panic (0x20203030, "bss section starts on read-only page")
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return
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for unsigned a = p; a < ((p + PAGE_SIZE) & PAGE_MASK); a += 4:
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if a >= shdr->sh_addr + shdr->sh_size:
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break
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if a < shdr->sh_addr:
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continue
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((unsigned *)page->frame)[(a & ~PAGE_MASK) >> 2] = 0
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for unsigned p = 0; p <= ((thread_start[i + 1] - thread_start[i] - 1) >> PAGE_BITS); ++p:
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if pages[p]:
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continue
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++top_memory.limit
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top_memory.pfree (thread_start[i] + (p << PAGE_BITS))
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kPage *stackpage = mem->alloc_page ()
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stackpage->frame = mem->zalloc ()
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stackpage->flags = Kernel::Page::PAYING | Kernel::Page::FRAME
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if !stackpage || !mem->map (stackpage, 0x7ffff000):
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panic (0x13151719, "unable to map initial stack page")
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return
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thread->slot[0].caps = mem->alloc_caps (NUM_CAPS)
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thread->slot[0].caps->first_slot.thread = thread
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thread->slot[0].caps->first_slot.index = 0
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thread->arch.a[0] = NUM_SLOTS
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thread->arch.a[1] = NUM_CAPS
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kReceiver *recv = mem->alloc_receiver ()
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recv->owner = thread
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thread->receivers = recv
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thread->slot[0].caps->set (__receiver_num, (kReceiverP)(CAPTYPE_RECEIVER | CAP_MASTER), Kernel::Num ((unsigned)recv), kCapRef (), &recv->refs)
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thread->slot[0].caps->set (__thread_num, (kReceiverP)(CAPTYPE_THREAD | CAP_MASTER), Kernel::Num ((unsigned)thread), kCapRef (), &thread->refs)
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thread->slot[0].caps->set (__memory_num, (kReceiverP)(CAPTYPE_MEMORY | CAP_MASTER), Kernel::Num ((unsigned)mem), kCapRef (), &mem->refs)
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thread->slot[0].caps->set (__call_num, (kReceiverP)(CAPTYPE_RECEIVER | Kernel::Receiver::CALL), Kernel::Num ((unsigned)recv), kCapRef (), &recv->refs)
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thread->flags = Kernel::Thread::RUNNING | Kernel::Thread::PRIV
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if !i:
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first_scheduled = thread
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init_receiver = recv
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else:
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thread->slot[0].caps->set (__parent_num, init_receiver, i, kCapRef (), &init_receiver->capabilities)
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previous->schedule_next = thread
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thread->schedule_prev = previous
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thread->schedule_next = NULL
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previous = thread
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mem->pfree ((unsigned)pages)
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// Initialize the kernel, finish by falling into the idle task.
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void init (unsigned mem):
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// Initialize board-specific things.
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board_init ()
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must_wait = false
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// Initialize kernel variables to empty.
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unsigned count = init_memory (mem)
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// initialize system control coprocessor.
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init_cp0 ()
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// initialize everything about the idle task.
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init_idle ()
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// initialize top_memory.
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top_memory.prev = NULL
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top_memory.next = NULL
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top_memory.address_space = NULL
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top_memory.refs.reset ()
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top_memory.pages = NULL
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top_memory.threads = NULL
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top_memory.memories = NULL
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top_memory.limit = count
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top_memory.used = 0
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top_memory.arch.directory = NULL
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top_memory.arch.asid = 0
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// Record all asids as unused.
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for unsigned i = 0; i < 63; ++i:
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asids[i] = i + 1
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asids[63] = 0
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// Set up initial threads.
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init_threads ()
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// Unset all interrupt handlers.
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for unsigned i = 0; i < 32; ++i:
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arch_interrupt_receiver[i] = NULL
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// Enable timer interrupts.
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intc_unmask_irq (TIMER_INTERRUPT)
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// Say we're handling an exception. Since we're going to enter the idle task, allow access to cp0.
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// All interrupts enter the CPU through the interrupt controller at IP2, so enable that.
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cp0_set (CP0_STATUS, 0x1000ff13)
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// Done; return to user space (the idle task).
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__asm__ volatile ("eret")
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