Changeset f238e86 in mainline

Timestamp:

2009-10-18T17:27:09Z (15 years ago)

Author:

Pavel Rimsky <pavel@…>

Branches:

lfn, master, serial, ticket/834-toolchain-update, topic/msim-upgrade, topic/simplify-dev-export

Children:

66e08d02

Parents:

68834d85

Message:

Both sun4u and sun4v are compilable, sun4u feature-complete, sun4v reaches (at least) version_print.

Files:

• boot/arch/sparc64/loader/asm.S (modified) (2 diffs)
• boot/arch/sparc64/loader/main.c (modified) (5 diffs)
• defaults/sparc64/sun4v/Makefile.config (modified) (1 diff)
• kernel/arch/sparc64/Makefile.inc (modified) (2 diffs)
• kernel/arch/sparc64/include/mm/frame.h (modified) (1 diff)
• kernel/arch/sparc64/include/mm/pagesize.h (added)
• kernel/arch/sparc64/include/mm/sun4u/frame.h (added)
• kernel/arch/sparc64/include/mm/sun4v/as.h (added)
• kernel/arch/sparc64/include/mm/sun4v/frame.h (added)
• kernel/arch/sparc64/include/mm/sun4v/mmu.h (added)
• kernel/arch/sparc64/include/mm/sun4v/page.h (added)
• kernel/arch/sparc64/include/mm/sun4v/tlb.h (added)
• kernel/arch/sparc64/include/mm/sun4v/tsb.h (added)
• kernel/arch/sparc64/include/mm/sun4v/tte.h (added)
• kernel/arch/sparc64/include/sun4v/arch.h (added)
• kernel/arch/sparc64/include/sun4v/asm.h (added)
• kernel/arch/sparc64/include/sun4v/cpu.h (added)
• kernel/arch/sparc64/include/sun4v/hypercall.h (added)
• kernel/arch/sparc64/include/sun4v/ipi.h (added)
• kernel/arch/sparc64/include/sun4v/md.h (added)
• kernel/arch/sparc64/include/sun4v/regdef.h (added)
• kernel/arch/sparc64/include/sun4v/register.h (added)
• kernel/arch/sparc64/include/trap/mmu.h (modified) (1 diff)
• kernel/arch/sparc64/include/trap/sun4u/mmu.h (added)
• kernel/arch/sparc64/include/trap/sun4v/mmu.h (added)
• kernel/arch/sparc64/src/mm/sun4u/frame.c (moved) (moved from kernel/arch/sparc64/src/mm/frame.c )
• kernel/arch/sparc64/src/mm/sun4u/tlb.c (moved) (moved from kernel/arch/sparc64/src/mm/tlb.c )
• kernel/arch/sparc64/src/mm/sun4v/frame.c (added)
• kernel/arch/sparc64/src/mm/sun4v/tlb.c (added)
• kernel/arch/sparc64/src/sparc64.c (deleted)
• kernel/arch/sparc64/src/sun4u/start.S (moved) (moved from kernel/arch/sparc64/src/start.S )
• kernel/arch/sparc64/src/sun4v/start.S (added)
• kernel/generic/src/main/version.c (modified) (1 diff)

boot/arch/sparc64/loader/asm.S

@@ -115 +115 @@
          */
         
+#if defined (SUN4U)
         /*
          * US3 processors have a write-invalidate cache, so explicitly
@@ -128 +129 @@
                 call icache_flush
                 nop
-        
+#endif  
         1:
                 membar #StoreStore

boot/arch/sparc64/loader/main.c

@@ -57 +57 @@
 #endif
 
-/** UltraSPARC subarchitecture - 1 for US, 3 for US3 */
-static uint8_t subarchitecture;
+/** UltraSPARC subarchitecture - 1 for US, 3 for US3, 0 for other */
+static uint8_t subarchitecture = 0;
 
 /**
@@ -69 +69 @@
 static void version_print(void)
 {
+        
         printf("HelenOS SPARC64 Bootloader\nRelease %s%s%s\n"
             "Copyright (c) 2006 HelenOS project\n",
@@ -83 +84 @@
 #define US_IIIi_CODE   0x15
 
-/**
- * Sets the global variables "subarchitecture" and "mid_mask" to
+/* max. length of the "compatible" property of the root node */
+#define COMPATIBLE_PROP_MAXLEN  64
+
+/*
+ * HelenOS bootloader will use these constants to distinguish particular
+ * UltraSPARC architectures
+ */
+#define COMPATIBLE_SUN4U        10
+#define COMPATIBLE_SUN4V        20
+
+/** US architecture. COMPATIBLE_SUN4U for sun4v, COMPATIBLE_SUN4V for sun4u */
+static uint8_t architecture;
+
+/**
+ * Detects the UltraSPARC architecture (sun4u and sun4v currently supported)
+ * by inspecting the property called "compatible" in the OBP root node.
+ */
+static void detect_architecture(void)
+{
+        phandle root = ofw_find_device("/");
+        char compatible[COMPATIBLE_PROP_MAXLEN];
+
+        if (ofw_get_property(root, "compatible", compatible,
+                        COMPATIBLE_PROP_MAXLEN) <= 0) {
+                printf("Unable to determine architecture, default: sun4u.\n");
+                architecture = COMPATIBLE_SUN4U;
+                return;
+        }
+
+        if (strcmp(compatible, "sun4v") == 0) {
+                architecture = COMPATIBLE_SUN4V;
+        } else {
+                /*
+                 * As not all sun4u machines have "sun4u" in their "compatible"
+                 * OBP property (e.g. Serengeti's OBP "compatible" property is
+                 * "SUNW,Serengeti"), we will by default fallback to sun4u if
+                 * an unknown value of the "compatible" property is encountered.
+                 */
+                architecture = COMPATIBLE_SUN4U;
+        }
+}
+
+
+/**
+ * Detects the subarchitecture (US, US3) of the sun4u
+ * processor. Sets the global variables "subarchitecture" and "mid_mask" to
  * correct values.
  */
@@ -109 +154 @@
 }
 
+/**
+ * Performs sun4u-specific initialization. The components are expected
+ * to be already copied and boot allocator initialized.
+ *
+ * @param base  kernel base virtual address
+ * @param top   virtual address above which the boot allocator
+ *              can make allocations
+ */
+static void bootstrap_sun4u(void *base, unsigned int top)
+{
+        void *balloc_base;
+        /*
+         * Claim and map the physical memory for the boot allocator.
+         * Initialize the boot allocator.
+         */
+        balloc_base = base + ALIGN_UP(top, PAGE_SIZE);
+        (void) ofw_claim_phys(bootinfo.physmem_start + balloc_base,
+            BALLOC_MAX_SIZE);
+        (void) ofw_map(bootinfo.physmem_start + balloc_base, balloc_base,
+            BALLOC_MAX_SIZE, -1);
+        balloc_init(&bootinfo.ballocs, (uintptr_t) balloc_base,
+            (uintptr_t) balloc_base);
+        
+        printf("Setting up screens...");
+        ofw_setup_screens();
+        printf("done.\n");
+        
+        printf("Canonizing OpenFirmware device tree...");
+        bootinfo.ofw_root = ofw_tree_build();
+        printf("done.\n");
+        
+#ifdef CONFIG_AP
+        printf("Checking for secondary processors...");
+        if (!ofw_cpu(mid_mask, bootinfo.physmem_start))
+                printf("Error: unable to get CPU properties\n");
+        printf("done.\n");
+#endif
+
+}
+
+/**
+ *  * Performs sun4v-specific initialization. The components are expected
+ *   * to be already copied and boot allocator initialized.
+ *    */
+static void bootstrap_sun4v(void)
+{
+        /*
+         * When SILO booted, the OBP had established a virtual to physical
+         * memory mapping. This mapping is not an identity (because the
+         * physical memory starts on non-zero address) - this is not
+         * surprising. But! The mapping even does not map virtual address
+         * 0 onto the starting address of the physical memory, but onto an
+         * address which is 0x400000 bytes higher. The reason is that the
+         * OBP had already used the memory just at the beginning of the
+         * physical memory, so that memory cannot be used by SILO (nor
+         * bootloader). As for now, we solve it by a nasty workaround:
+         * we pretend that the physical memory starts 0x400000 bytes further
+         * than it actually does (and hence pretend that the physical memory
+         * is 0x400000 bytes smaller). Of course, the value 0x400000 will most
+         * probably depend on the machine and OBP version (the workaround now
+         * works on Simics). A solution would be to inspect the "available"
+         * property of the "/memory" node to find out which parts of memory
+         * are used by OBP and redesign the algorithm of copying
+         * kernel/init tasks/ramdisk from the bootable image to memory
+         * (which we must do anyway because of issues with claiming the memory
+         * on Serengeti).
+         */
+        bootinfo.physmem_start += 0x400000;
+        bootinfo.memmap.zones[0].start += 0x400000;
+        bootinfo.memmap.zones[0].size -= 0x400000;
+        printf("The sun4v init finished.");
+}
+
+
 void bootstrap(void)
 {
         void *base = (void *) KERNEL_VIRTUAL_ADDRESS;
-        void *balloc_base;
         unsigned int top = 0;
         unsigned int i;
         unsigned int j;
         
-        version_print();
-        
-        detect_subarchitecture();
+        detect_architecture();
         init_components(components);
         
@@ -260 +376 @@
         printf("done.\n");
         
-        /*
-         * Claim and map the physical memory for the boot allocator.
-         * Initialize the boot allocator.
-         */
-        balloc_base = base + ALIGN_UP(top, PAGE_SIZE);
-        (void) ofw_claim_phys(bootinfo.physmem_start + balloc_base,
-            BALLOC_MAX_SIZE);
-        (void) ofw_map(bootinfo.physmem_start + balloc_base, balloc_base,
-            BALLOC_MAX_SIZE, -1);
-        balloc_init(&bootinfo.ballocs, (uintptr_t) balloc_base,
-            (uintptr_t) balloc_base);
-        
-        printf("Setting up screens...");
-        ofw_setup_screens();
-        printf("done.\n");
-        
-        printf("Canonizing OpenFirmware device tree...");
-        bootinfo.ofw_root = ofw_tree_build();
-        printf("done.\n");
-        
-#ifdef CONFIG_AP
-        printf("Checking for secondary processors...");
-        if (!ofw_cpu(mid_mask, bootinfo.physmem_start))
-                printf("Error: unable to get CPU properties\n");
-        printf("done.\n");
-#endif
+        /* perform architecture-specific initialization */
+        if (architecture == COMPATIBLE_SUN4U) {
+                bootstrap_sun4u(base, top);
+        } else if (architecture == COMPATIBLE_SUN4V) {
+                bootstrap_sun4v();
+        } else {
+                printf("Unknown architecture.\n");
+                halt();
+        }
         
         printf("Booting the kernel...\n");

defaults/sparc64/sun4v/Makefile.config

@@ -4 +4 @@
 # CPU type
 PROCESSOR = sun4v
+
+CONFIG_RD_EXTERNAL = n

kernel/arch/sparc64/Makefile.inc

@@ -46 +46 @@
 ifeq ($(PROCESSOR),us)
         DEFS += -DUS
+        DEFS += -DSUN4U
+        USARCH = sun4u
 endif
 
 ifeq ($(PROCESSOR),us3)
         DEFS += -DUS3
+        DEFS += -DSUN4U
+        USARCH = sun4u
 endif
 
 ifeq ($(PROCESSOR),sun4v)
         DEFS += -DSUN4V
+        USARCH = sun4v
 #MH
         DEFS += -DUS
@@ -68 +73 @@
         arch/$(KARCH)/src/mm/as.c \
         arch/$(KARCH)/src/mm/cache.S \
-        arch/$(KARCH)/src/mm/frame.c \
+        arch/$(KARCH)/src/mm/$(USARCH)/frame.c \
         arch/$(KARCH)/src/mm/page.c \
-        arch/$(KARCH)/src/mm/tlb.c \
-        arch/$(KARCH)/src/sparc64.c \
-        arch/$(KARCH)/src/start.S \
+        arch/$(KARCH)/src/mm/$(USARCH)/tlb.c \
+        arch/$(KARCH)/src/$(USARCH)/sparc64.c \
+        arch/$(KARCH)/src/$(USARCH)/start.S \
         arch/$(KARCH)/src/proc/scheduler.c \
         arch/$(KARCH)/src/proc/thread.c \

kernel/arch/sparc64/include/mm/frame.h

@@ -36 +36 @@
 #define KERN_sparc64_FRAME_H_
 
-/*
- * Page size supported by the MMU.
- * For 8K there is the nasty illegal virtual aliasing problem.
- * Therefore, the kernel uses 8K only internally on the TLB and TSB levels.
- */
-#define MMU_FRAME_WIDTH         13      /* 8K */
-#define MMU_FRAME_SIZE          (1 << MMU_FRAME_WIDTH)
-
-/*
- * Page size exported to the generic memory management subsystems.
- * This page size is not directly supported by the MMU, but we can emulate
- * each 16K page with a pair of adjacent 8K pages.
- */
-#define FRAME_WIDTH             14      /* 16K */
-#define FRAME_SIZE              (1 << FRAME_WIDTH)
-
-#ifdef KERNEL
-#ifndef __ASM__
-
-#include <arch/types.h>
-
-union frame_address {
-        uintptr_t address;
-        struct {
-#if defined (US)
-                unsigned : 23;
-                uint64_t pfn : 28;              /**< Physical Frame Number. */
-#elif defined (US3)
-                unsigned : 21;
-                uint64_t pfn : 30;              /**< Physical Frame Number. */
-#endif
-                unsigned offset : 13;           /**< Offset. */
-        } __attribute__ ((packed));
-};
-
-typedef union frame_address frame_address_t;
-
-extern uintptr_t last_frame;
-extern uintptr_t end_of_identity;
-
-extern void frame_arch_init(void);
-#define physmem_print()
-
-#endif
+#if defined (SUN4U)
+#include <arch/mm/sun4u/frame.h>
+#elif defined (SUN4V)
+#include <arch/mm/sun4v/frame.h>
 #endif
 

kernel/arch/sparc64/include/trap/mmu.h

@@ -38 +38 @@
 #define KERN_sparc64_MMU_TRAP_H_
 
-#include <arch/stack.h>
-#include <arch/regdef.h>
-#include <arch/mm/tlb.h>
-#include <arch/mm/mmu.h>
-#include <arch/mm/tte.h>
-#include <arch/trap/regwin.h>
-
-#ifdef CONFIG_TSB
-#include <arch/mm/tsb.h>
+#if defined (SUN4U)
+#include <arch/trap/sun4u/mmu.h>
+#elif defined (SUN4V)
+#include <arch/trap/sun4v/mmu.h>
 #endif
-
-#define TT_FAST_INSTRUCTION_ACCESS_MMU_MISS     0x64
-#define TT_FAST_DATA_ACCESS_MMU_MISS            0x68
-#define TT_FAST_DATA_ACCESS_PROTECTION          0x6c
-
-#define FAST_MMU_HANDLER_SIZE                   128
-
-#ifdef __ASM__
-
-.macro FAST_INSTRUCTION_ACCESS_MMU_MISS_HANDLER
-        /*
-         * First, try to refill TLB from TSB.
-         */
-#ifdef CONFIG_TSB
-        ldxa [%g0] ASI_IMMU, %g1                        ! read TSB Tag Target Register
-        ldxa [%g0] ASI_IMMU_TSB_8KB_PTR_REG, %g2        ! read TSB 8K Pointer
-        ldda [%g2] ASI_NUCLEUS_QUAD_LDD, %g4            ! 16-byte atomic load into %g4 and %g5
-        cmp %g1, %g4                                    ! is this the entry we are looking for?
-        bne,pn %xcc, 0f
-        nop
-        stxa %g5, [%g0] ASI_ITLB_DATA_IN_REG            ! copy mapping from ITSB to ITLB
-        retry
-#endif
-
-0:
-        wrpr %g0, PSTATE_PRIV_BIT | PSTATE_AG_BIT, %pstate
-        PREEMPTIBLE_HANDLER fast_instruction_access_mmu_miss
-.endm
-
-.macro FAST_DATA_ACCESS_MMU_MISS_HANDLER tl
-        /*
-         * First, try to refill TLB from TSB.
-         */
-
-#ifdef CONFIG_TSB
-        ldxa [%g0] ASI_DMMU, %g1                        ! read TSB Tag Target Register
-        srlx %g1, TSB_TAG_TARGET_CONTEXT_SHIFT, %g2     ! is this a kernel miss?
-        brz,pn %g2, 0f
-        ldxa [%g0] ASI_DMMU_TSB_8KB_PTR_REG, %g3        ! read TSB 8K Pointer
-        ldda [%g3] ASI_NUCLEUS_QUAD_LDD, %g4            ! 16-byte atomic load into %g4 and %g5
-        cmp %g1, %g4                                    ! is this the entry we are looking for?
-        bne,pn %xcc, 0f
-        nop
-        stxa %g5, [%g0] ASI_DTLB_DATA_IN_REG            ! copy mapping from DTSB to DTLB
-        retry
-#endif
-
-        /*
-         * Second, test if it is the portion of the kernel address space
-         * which is faulting. If that is the case, immediately create
-         * identity mapping for that page in DTLB. VPN 0 is excluded from
-         * this treatment.
-         *
-         * Note that branch-delay slots are used in order to save space.
-         */
-0:
-        sethi %hi(fast_data_access_mmu_miss_data_hi), %g7
-        wr %g0, ASI_DMMU, %asi
-        ldxa [VA_DMMU_TAG_ACCESS] %asi, %g1             ! read the faulting Context and VPN
-        set TLB_TAG_ACCESS_CONTEXT_MASK, %g2
-        andcc %g1, %g2, %g3                             ! get Context
-        bnz %xcc, 0f                                    ! Context is non-zero
-        andncc %g1, %g2, %g3                            ! get page address into %g3
-        bz  %xcc, 0f                                    ! page address is zero
-        ldx [%g7 + %lo(end_of_identity)], %g4
-        cmp %g3, %g4
-        bgeu %xcc, 0f
-
-        ldx [%g7 + %lo(kernel_8k_tlb_data_template)], %g2
-        add %g3, %g2, %g2
-        stxa %g2, [%g0] ASI_DTLB_DATA_IN_REG            ! identity map the kernel page
-        retry
-
-        /*
-         * Third, catch and handle special cases when the trap is caused by
-         * the userspace register window spill or fill handler. In case
-         * one of these two traps caused this trap, we just lower the trap
-         * level and service the DTLB miss. In the end, we restart
-         * the offending SAVE or RESTORE.
-         */
-0:
-.if (\tl > 0)
-        wrpr %g0, 1, %tl
-.endif
-
-        /*
-         * Switch from the MM globals.
-         */
-        wrpr %g0, PSTATE_PRIV_BIT | PSTATE_AG_BIT, %pstate
-
-        /*
-         * Read the Tag Access register for the higher-level handler.
-         * This is necessary to survive nested DTLB misses.
-         */     
-        ldxa [VA_DMMU_TAG_ACCESS] %asi, %g2
-
-        /*
-         * g2 will be passed as an argument to fast_data_access_mmu_miss().
-         */
-        PREEMPTIBLE_HANDLER fast_data_access_mmu_miss
-.endm
-
-.macro FAST_DATA_ACCESS_PROTECTION_HANDLER tl
-        /*
-         * The same special case as in FAST_DATA_ACCESS_MMU_MISS_HANDLER.
-         */
-
-.if (\tl > 0)
-        wrpr %g0, 1, %tl
-.endif
-
-        /*
-         * Switch from the MM globals.
-         */
-        wrpr %g0, PSTATE_PRIV_BIT | PSTATE_AG_BIT, %pstate
-
-        /*
-         * Read the Tag Access register for the higher-level handler.
-         * This is necessary to survive nested DTLB misses.
-         */     
-        mov VA_DMMU_TAG_ACCESS, %g2
-        ldxa [%g2] ASI_DMMU, %g2
-
-        /*
-         * g2 will be passed as an argument to fast_data_access_mmu_miss().
-         */
-        PREEMPTIBLE_HANDLER fast_data_access_protection
-.endm
-
-#endif /* __ASM__ */
 
 #endif

kernel/generic/src/main/version.c

@@ -58 +58 @@
 void version_print(void)
 {
+        asm volatile ("sethi 0x41923, %g0");
         printf("%s, release %s (%s)%s\nBuilt%s for %s\n%s\n",
                 project, release, name, revision, timestamp, arch, copyright);