sys/uvm/t_uvm_physseg.c

1.3.2.2  pgoyette /* $NetBSD: t_uvm_physseg.c,v 1.3.2.2 2019/01/18 08:51:00 pgoyette Exp $ */
    1.1    cherry
    1.1    cherry /*-
    1.1    cherry  * Copyright (c) 2015, 2016 The NetBSD Foundation, Inc.
    1.1    cherry  * All rights reserved.
    1.1    cherry  *
    1.1    cherry  * This code is derived from software contributed to The NetBSD Foundation
    1.1    cherry  * by Santhosh N. Raju <santhosh.raju (at) gmail.com> and
    1.1    cherry  * by Cherry G. Mathew
    1.1    cherry  *
    1.1    cherry  * Redistribution and use in source and binary forms, with or without
    1.1    cherry  * modification, are permitted provided that the following conditions
    1.1    cherry  * are met:
    1.1    cherry  * 1. Redistributions of source code must retain the above copyright
    1.1    cherry  *    notice, this list of conditions and the following disclaimer.
    1.1    cherry  * 2. Redistributions in binary form must reproduce the above copyright
    1.1    cherry  *    notice, this list of conditions and the following disclaimer in the
    1.1    cherry  *    documentation and/or other materials provided with the distribution.
    1.1    cherry  *
    1.1    cherry  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
    1.1    cherry  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
    1.1    cherry  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
    1.1    cherry  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
    1.1    cherry  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
    1.1    cherry  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
    1.1    cherry  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
    1.1    cherry  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
    1.1    cherry  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
    1.1    cherry  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
    1.1    cherry  * POSSIBILITY OF SUCH DAMAGE.
    1.1    cherry  */
    1.1    cherry
    1.1    cherry #include <sys/cdefs.h>
1.3.2.2  pgoyette __RCSID("$NetBSD: t_uvm_physseg.c,v 1.3.2.2 2019/01/18 08:51:00 pgoyette Exp $");
    1.2    cherry
    1.2    cherry /*
    1.2    cherry  * If this line is commented out tests related to uvm_physseg_get_pmseg()
    1.2    cherry  * wont run.
    1.2    cherry  *
    1.2    cherry  * Have a look at machine/uvm_physseg.h for more details.
    1.2    cherry  */
    1.2    cherry #define __HAVE_PMAP_PHYSSEG
    1.2    cherry
    1.2    cherry /*
    1.2    cherry  * This is a dummy struct used for testing purposes
    1.2    cherry  *
    1.2    cherry  * In reality this struct would exist in the MD part of the code residing in
    1.2    cherry  * machines/vmparam.h
    1.2    cherry  */
    1.2    cherry
    1.2    cherry #ifdef __HAVE_PMAP_PHYSSEG
    1.2    cherry struct pmap_physseg {
    1.2    cherry 	int dummy_variable;		/* Dummy variable use for testing */
    1.2    cherry };
    1.2    cherry #endif
    1.1    cherry
    1.1    cherry /* Testing API - assumes userland */
    1.1    cherry /* Provide Kernel API equivalents */
    1.1    cherry #include <assert.h>
    1.1    cherry #include <errno.h>
    1.1    cherry #include <stdbool.h>
    1.1    cherry #include <string.h> /* memset(3) et. al */
    1.1    cherry #include <stdio.h> /* printf(3) */
    1.1    cherry #include <stdlib.h> /* malloc(3) */
    1.1    cherry #include <stdarg.h>
    1.1    cherry #include <stddef.h>
    1.1    cherry
    1.1    cherry #define	PRIxPADDR	"lx"
    1.1    cherry #define	PRIxPSIZE	"lx"
    1.1    cherry #define	PRIuPSIZE	"lu"
    1.1    cherry #define	PRIxVADDR	"lx"
    1.1    cherry #define	PRIxVSIZE	"lx"
    1.1    cherry #define	PRIuVSIZE	"lu"
    1.1    cherry
    1.1    cherry #define UVM_HOTPLUG /* Enable hotplug with rbtree. */
    1.1    cherry #define PMAP_STEAL_MEMORY
    1.1    cherry #define DEBUG /* Enable debug functionality. */
    1.1    cherry
    1.1    cherry typedef unsigned long vaddr_t;
    1.1    cherry typedef unsigned long paddr_t;
    1.1    cherry typedef unsigned long psize_t;
    1.1    cherry typedef unsigned long vsize_t;
    1.1    cherry
    1.2    cherry #include <uvm/uvm_physseg.h>
    1.1    cherry #include <uvm/uvm_page.h>
    1.1    cherry
    1.1    cherry #ifndef DIAGNOSTIC
    1.1    cherry #define	KASSERTMSG(e, msg, ...)	/* NOTHING */
    1.1    cherry #define	KASSERT(e)		/* NOTHING */
    1.1    cherry #else
    1.1    cherry #define	KASSERT(a)		assert(a)
    1.1    cherry #define KASSERTMSG(exp, ...)    printf(__VA_ARGS__); assert((exp))
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry #define VM_PHYSSEG_STRAT VM_PSTRAT_BSEARCH
    1.1    cherry
    1.1    cherry #define VM_NFREELIST            4
    1.1    cherry #define VM_FREELIST_DEFAULT     0
    1.1    cherry #define VM_FREELIST_FIRST16     3
    1.1    cherry #define VM_FREELIST_FIRST1G     2
    1.1    cherry #define VM_FREELIST_FIRST4G     1
    1.1    cherry
    1.1    cherry /*
    1.1    cherry  * Used in tests when Array implementation is tested
    1.1    cherry  */
    1.1    cherry #if !defined(VM_PHYSSEG_MAX)
    1.1    cherry #define VM_PHYSSEG_MAX          1
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry #define PAGE_SHIFT              12
    1.1    cherry #define PAGE_SIZE               (1 << PAGE_SHIFT)
    1.1    cherry #define	PAGE_MASK	(PAGE_SIZE - 1)
    1.1    cherry #define atop(x)         (((paddr_t)(x)) >> PAGE_SHIFT)
    1.1    cherry #define ptoa(x)         (((paddr_t)(x)) << PAGE_SHIFT)
    1.1    cherry
    1.1    cherry #define	mutex_enter(l)
    1.1    cherry #define	mutex_exit(l)
    1.1    cherry
    1.1    cherry psize_t physmem;
    1.1    cherry
    1.1    cherry struct uvmexp uvmexp;        /* decl */
    1.1    cherry
    1.1    cherry /*
    1.1    cherry  * uvm structure borrowed from uvm.h
    1.1    cherry  *
    1.1    cherry  * Remember this is a dummy structure used within the ATF Tests and
    1.1    cherry  * uses only necessary fields from the original uvm struct.
    1.1    cherry  * See uvm/uvm.h for the full struct.
    1.1    cherry  */
    1.1    cherry
    1.1    cherry struct uvm {
    1.1    cherry 	/* vm_page related parameters */
    1.1    cherry
    1.1    cherry 	bool page_init_done;		/* TRUE if uvm_page_init() finished */
    1.1    cherry } uvm;
    1.1    cherry
    1.1    cherry #include <sys/kmem.h>
    1.1    cherry
    1.1    cherry void *
    1.1    cherry kmem_alloc(size_t size, km_flag_t flags)
    1.1    cherry {
    1.1    cherry 	return malloc(size);
    1.1    cherry }
    1.1    cherry
    1.1    cherry void *
    1.1    cherry kmem_zalloc(size_t size, km_flag_t flags)
    1.1    cherry {
    1.1    cherry 	void *ptr;
    1.1    cherry 	ptr = malloc(size);
    1.1    cherry
    1.1    cherry 	memset(ptr, 0, size);
    1.1    cherry
    1.1    cherry 	return ptr;
    1.1    cherry }
    1.1    cherry
    1.1    cherry void
    1.1    cherry kmem_free(void *mem, size_t size)
    1.1    cherry {
    1.1    cherry 	free(mem);
    1.1    cherry }
    1.1    cherry
    1.1    cherry static void
    1.1    cherry panic(const char *fmt, ...)
    1.1    cherry {
    1.1    cherry 	va_list ap;
    1.1    cherry
    1.1    cherry 	va_start(ap, fmt);
    1.1    cherry 	vprintf(fmt, ap);
    1.1    cherry 	printf("\n");
    1.1    cherry 	va_end(ap);
    1.1    cherry 	KASSERT(false);
    1.1    cherry
    1.1    cherry 	/*NOTREACHED*/
    1.1    cherry }
    1.1    cherry
    1.1    cherry static void
    1.1    cherry uvm_pagefree(struct vm_page *pg)
    1.1    cherry {
    1.1    cherry 	return;
    1.1    cherry }
    1.1    cherry
    1.1    cherry #if defined(UVM_HOTPLUG)
    1.1    cherry static void
    1.1    cherry uvmpdpol_reinit(void)
    1.1    cherry {
    1.1    cherry 	return;
    1.1    cherry }
    1.1    cherry #endif /* UVM_HOTPLUG */
    1.1    cherry
    1.1    cherry /* end - Provide Kernel API equivalents */
    1.1    cherry
    1.1    cherry
    1.1    cherry #include "uvm/uvm_physseg.c"
    1.1    cherry
    1.1    cherry #include <atf-c.h>
    1.1    cherry
    1.1    cherry #define SIXTYFOUR_KILO (64 * 1024)
    1.1    cherry #define ONETWENTYEIGHT_KILO (128 * 1024)
    1.1    cherry #define TWOFIFTYSIX_KILO (256 * 1024)
    1.1    cherry #define FIVEONETWO_KILO (512 * 1024)
    1.1    cherry #define ONE_MEGABYTE (1024 * 1024)
    1.1    cherry #define TWO_MEGABYTE (2 * 1024 * 1024)
    1.1    cherry
    1.1    cherry /* Sample Page Frame Numbers */
    1.1    cherry #define VALID_START_PFN_1 atop(0)
    1.1    cherry #define VALID_END_PFN_1 atop(ONE_MEGABYTE)
    1.1    cherry #define VALID_AVAIL_START_PFN_1 atop(0)
    1.1    cherry #define VALID_AVAIL_END_PFN_1 atop(ONE_MEGABYTE)
    1.1    cherry
    1.1    cherry #define VALID_START_PFN_2 atop(ONE_MEGABYTE + 1)
    1.1    cherry #define VALID_END_PFN_2 atop(ONE_MEGABYTE * 2)
    1.1    cherry #define VALID_AVAIL_START_PFN_2 atop(ONE_MEGABYTE + 1)
    1.1    cherry #define VALID_AVAIL_END_PFN_2 atop(ONE_MEGABYTE * 2)
    1.1    cherry
    1.1    cherry #define VALID_START_PFN_3 atop((ONE_MEGABYTE * 2) + 1)
    1.1    cherry #define VALID_END_PFN_3 atop(ONE_MEGABYTE * 3)
    1.1    cherry #define VALID_AVAIL_START_PFN_3 atop((ONE_MEGABYTE * 2) + 1)
    1.1    cherry #define VALID_AVAIL_END_PFN_3 atop(ONE_MEGABYTE * 3)
    1.1    cherry
    1.1    cherry #define VALID_START_PFN_4 atop((ONE_MEGABYTE * 3) + 1)
    1.1    cherry #define VALID_END_PFN_4 atop(ONE_MEGABYTE * 4)
    1.1    cherry #define VALID_AVAIL_START_PFN_4 atop((ONE_MEGABYTE * 3) + 1)
    1.1    cherry #define VALID_AVAIL_END_PFN_4 atop(ONE_MEGABYTE * 4)
    1.1    cherry
    1.1    cherry /*
    1.1    cherry  * Total number of pages (of 4K size each) should be 256 for 1MB of memory.
    1.1    cherry  */
    1.1    cherry #define PAGE_COUNT_1M      256
    1.1    cherry
    1.1    cherry /*
    1.1    cherry  * A debug fucntion to print the content of upm.
    1.1    cherry  */
    1.1    cherry 	static inline void
    1.1    cherry 	uvm_physseg_dump_seg(uvm_physseg_t upm)
    1.1    cherry 	{
    1.1    cherry #if defined(DEBUG)
    1.1    cherry 		printf("%s: seg->start == %ld\n", __func__,
    1.1    cherry 		    uvm_physseg_get_start(upm));
    1.1    cherry 		printf("%s: seg->end == %ld\n", __func__,
    1.1    cherry 		    uvm_physseg_get_end(upm));
    1.1    cherry 		printf("%s: seg->avail_start == %ld\n", __func__,
    1.1    cherry 		    uvm_physseg_get_avail_start(upm));
    1.1    cherry 		printf("%s: seg->avail_end == %ld\n", __func__,
    1.1    cherry 		    uvm_physseg_get_avail_end(upm));
    1.1    cherry
    1.1    cherry 		printf("====\n\n");
    1.1    cherry #else
    1.1    cherry 		return;
    1.1    cherry #endif /* DEBUG */
    1.1    cherry 	}
    1.1    cherry
    1.1    cherry /*
    1.1    cherry  * Private accessor that gets the value of uvm_physseg_graph.nentries
    1.1    cherry  */
    1.1    cherry static int
    1.1    cherry uvm_physseg_get_entries(void)
    1.1    cherry {
    1.1    cherry #if defined(UVM_HOTPLUG)
    1.1    cherry 	return uvm_physseg_graph.nentries;
    1.1    cherry #else
    1.1    cherry 	return vm_nphysmem;
    1.1    cherry #endif /* UVM_HOTPLUG */
    1.1    cherry }
    1.1    cherry
    1.1    cherry #if !defined(UVM_HOTPLUG)
    1.1    cherry static void *
    1.1    cherry uvm_physseg_alloc(size_t sz)
    1.1    cherry {
    1.1    cherry 	return &vm_physmem[vm_nphysseg++];
    1.1    cherry }
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry /*
1.3.2.1  pgoyette  * This macro was added to convert uvmexp.npages from int to psize_t
1.3.2.1  pgoyette  */
1.3.2.1  pgoyette #define INT_TO_PSIZE_T(X) (psize_t)X
1.3.2.1  pgoyette
1.3.2.1  pgoyette /*
    1.1    cherry  * Test Fixture SetUp().
    1.1    cherry  */
    1.1    cherry static void
    1.1    cherry setup(void)
    1.1    cherry {
    1.1    cherry 	/* Prerequisites for running certain calls in uvm_physseg */
    1.1    cherry 	uvmexp.pagesize = PAGE_SIZE;
    1.1    cherry 	uvmexp.npages = 0;
    1.1    cherry 	uvm.page_init_done = false;
    1.1    cherry 	uvm_physseg_init();
    1.1    cherry }
    1.1    cherry
    1.1    cherry
    1.1    cherry /* <---- Tests for Internal functions ----> */
    1.1    cherry #if defined(UVM_HOTPLUG)
    1.1    cherry ATF_TC(uvm_physseg_alloc_atboot_mismatch);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_alloc_atboot_mismatch, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "boot time uvm_physseg_alloc() sanity"
    1.1    cherry 	    "size mismatch alloc() test.");
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC_BODY(uvm_physseg_alloc_atboot_mismatch, tc)
    1.1    cherry {
    1.1    cherry 	uvm.page_init_done = false;
    1.1    cherry
    1.1    cherry 	atf_tc_expect_signal(SIGABRT, "size mismatch alloc()");
    1.1    cherry
    1.1    cherry 	uvm_physseg_alloc(sizeof(struct uvm_physseg) - 1);
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_alloc_atboot_overrun);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_alloc_atboot_overrun, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "boot time uvm_physseg_alloc() sanity"
    1.1    cherry 	    "array overrun alloc() test.");
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC_BODY(uvm_physseg_alloc_atboot_overrun, tc)
    1.1    cherry {
    1.1    cherry 	uvm.page_init_done = false;
    1.1    cherry
    1.1    cherry 	atf_tc_expect_signal(SIGABRT, "array overrun alloc()");
    1.1    cherry
    1.1    cherry 	uvm_physseg_alloc((VM_PHYSSEG_MAX + 1) * sizeof(struct uvm_physseg));
    1.1    cherry
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_alloc_sanity);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_alloc_sanity, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "further uvm_physseg_alloc() sanity checks");
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC_BODY(uvm_physseg_alloc_sanity, tc)
    1.1    cherry {
    1.1    cherry
    1.1    cherry 	/* At boot time */
    1.1    cherry 	uvm.page_init_done = false;
    1.1    cherry
    1.1    cherry 	/* Correct alloc */
    1.1    cherry 	ATF_REQUIRE(uvm_physseg_alloc(VM_PHYSSEG_MAX * sizeof(struct uvm_physseg)));
    1.1    cherry
    1.1    cherry 	/* Retry static alloc()s as dynamic - we expect them to pass */
    1.1    cherry 	uvm.page_init_done = true;
    1.1    cherry 	ATF_REQUIRE(uvm_physseg_alloc(sizeof(struct uvm_physseg) - 1));
    1.1    cherry 	ATF_REQUIRE(uvm_physseg_alloc(2 * VM_PHYSSEG_MAX * sizeof(struct uvm_physseg)));
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_free_atboot_mismatch);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_free_atboot_mismatch, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "boot time uvm_physseg_free() sanity"
    1.1    cherry 	    "size mismatch free() test.");
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC_BODY(uvm_physseg_free_atboot_mismatch, tc)
    1.1    cherry {
    1.1    cherry 	uvm.page_init_done = false;
    1.1    cherry
    1.1    cherry 	atf_tc_expect_signal(SIGABRT, "size mismatch free()");
    1.1    cherry
    1.1    cherry 	uvm_physseg_free(&uvm_physseg[0], sizeof(struct uvm_physseg) - 1);
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_free_sanity);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_free_sanity, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "further uvm_physseg_free() sanity checks");
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC_BODY(uvm_physseg_free_sanity, tc)
    1.1    cherry {
    1.1    cherry
    1.1    cherry 	/* At boot time */
    1.1    cherry 	uvm.page_init_done = false;
    1.1    cherry
    1.1    cherry 	struct uvm_physseg *seg;
    1.1    cherry
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	/*
    1.1    cherry 	 * Note: free()ing the entire array is considered to be an
    1.1    cherry 	 * error. Thus VM_PHYSSEG_MAX - 1.
    1.1    cherry 	 */
    1.1    cherry
    1.1    cherry 	seg = uvm_physseg_alloc((VM_PHYSSEG_MAX - 1) * sizeof(*seg));
    1.1    cherry 	uvm_physseg_free(seg, (VM_PHYSSEG_MAX - 1) * sizeof(struct uvm_physseg));
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry 	/* Retry static alloc()s as dynamic - we expect them to pass */
    1.1    cherry 	uvm.page_init_done = true;
    1.1    cherry
    1.1    cherry 	seg = uvm_physseg_alloc(sizeof(struct uvm_physseg) - 1);
    1.1    cherry 	uvm_physseg_free(seg, sizeof(struct uvm_physseg) - 1);
    1.1    cherry
    1.1    cherry 	seg = uvm_physseg_alloc(2 * VM_PHYSSEG_MAX * sizeof(struct uvm_physseg));
    1.1    cherry
    1.1    cherry 	uvm_physseg_free(seg, 2 * VM_PHYSSEG_MAX * sizeof(struct uvm_physseg));
    1.1    cherry }
    1.1    cherry
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry ATF_TC(uvm_physseg_atboot_free_leak);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_atboot_free_leak, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr",
1.3.2.2  pgoyette 	    "does free() leak at boot ?"
    1.1    cherry 	    "This test needs VM_PHYSSEG_MAX > 1)");
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC_BODY(uvm_physseg_atboot_free_leak, tc)
    1.1    cherry {
    1.1    cherry
    1.1    cherry 	/* At boot time */
    1.1    cherry 	uvm.page_init_done = false;
    1.1    cherry
    1.1    cherry 	/* alloc to array size */
    1.1    cherry 	struct uvm_physseg *seg;
    1.1    cherry 	seg = uvm_physseg_alloc(VM_PHYSSEG_MAX * sizeof(*seg));
    1.1    cherry
    1.1    cherry 	uvm_physseg_free(seg, sizeof(*seg));
    1.1    cherry
    1.1    cherry 	atf_tc_expect_signal(SIGABRT, "array overrun on alloc() after leak");
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE(uvm_physseg_alloc(sizeof(struct uvm_physseg)));
    1.1    cherry }
    1.1    cherry #endif /* VM_PHYSSEG_MAX */
    1.1    cherry #endif /* UVM_HOTPLUG */
    1.1    cherry
    1.1    cherry /*
    1.1    cherry  * Note: This function replicates verbatim what happens in
    1.1    cherry  * uvm_page.c:uvm_page_init().
    1.1    cherry  *
    1.1    cherry  * Please track any changes that happen there.
    1.1    cherry  */
    1.1    cherry static void
    1.1    cherry uvm_page_init_fake(struct vm_page *pagearray, psize_t pagecount)
    1.1    cherry {
    1.1    cherry 	uvm_physseg_t bank;
    1.1    cherry 	size_t n;
    1.1    cherry
    1.1    cherry 	for (bank = uvm_physseg_get_first(),
    1.1    cherry 		 uvm_physseg_seg_chomp_slab(bank, pagearray, pagecount);
    1.2    cherry 	     uvm_physseg_valid_p(bank);
    1.1    cherry 	     bank = uvm_physseg_get_next(bank)) {
    1.1    cherry
    1.1    cherry 		n = uvm_physseg_get_end(bank) - uvm_physseg_get_start(bank);
    1.1    cherry 		uvm_physseg_seg_alloc_from_slab(bank, n);
    1.1    cherry 		uvm_physseg_init_seg(bank, pagearray);
    1.1    cherry
    1.1    cherry 		/* set up page array pointers */
    1.1    cherry 		pagearray += n;
    1.1    cherry 		pagecount -= n;
    1.1    cherry 	}
    1.1    cherry
    1.1    cherry 	uvm.page_init_done = true;
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_plug);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_plug, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr",
    1.1    cherry 	    "Test plug functionality.");
    1.1    cherry }
    1.1    cherry /* Note: We only do the second boot time plug if VM_PHYSSEG_MAX > 1 */
    1.1    cherry ATF_TC_BODY(uvm_physseg_plug, tc)
    1.1    cherry {
    1.1    cherry 	int nentries = 0; /* Count of entries via plug done so far */
    1.1    cherry 	uvm_physseg_t upm1;
    1.1    cherry #if VM_PHYSSEG_MAX > 2
    1.1    cherry 	uvm_physseg_t upm2;
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	uvm_physseg_t upm3;
    1.1    cherry #endif
    1.1    cherry 	uvm_physseg_t upm4;
    1.1    cherry 	psize_t npages1 = (VALID_END_PFN_1 - VALID_START_PFN_1);
    1.1    cherry 	psize_t npages2 = (VALID_END_PFN_2 - VALID_START_PFN_2);
    1.1    cherry 	psize_t npages3 = (VALID_END_PFN_3 - VALID_START_PFN_3);
    1.1    cherry 	psize_t npages4 = (VALID_END_PFN_4 - VALID_START_PFN_4);
    1.1    cherry 	struct vm_page *pgs, *slab = malloc(sizeof(struct vm_page) * (npages1
    1.1    cherry #if VM_PHYSSEG_MAX > 2
    1.1    cherry 		+ npages2
    1.1    cherry #endif
    1.1    cherry 		+ npages3));
    1.1    cherry
    1.1    cherry 	/* Fake early boot */
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry
    1.1    cherry 	/* Vanilla plug x 2 */
    1.1    cherry 	ATF_REQUIRE_EQ(uvm_physseg_plug(VALID_START_PFN_1, npages1, &upm1), true);
    1.1    cherry 	ATF_REQUIRE_EQ(++nentries, uvm_physseg_get_entries());
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry #if VM_PHYSSEG_MAX > 2
    1.1    cherry 	ATF_REQUIRE_EQ(uvm_physseg_plug(VALID_START_PFN_2, npages2, &upm2), true);
    1.1    cherry 	ATF_REQUIRE_EQ(++nentries, uvm_physseg_get_entries());
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry #endif
    1.1    cherry 	/* Post boot: Fake all segments and pages accounted for. */
    1.1    cherry 	uvm_page_init_fake(slab, npages1 + npages2 + npages3);
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(npages1
    1.1    cherry #if VM_PHYSSEG_MAX > 2
    1.1    cherry 	    + npages2
    1.1    cherry #endif
1.3.2.1  pgoyette 	    , INT_TO_PSIZE_T(uvmexp.npages));
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	/* Scavenge plug - goes into the same slab */
    1.1    cherry 	ATF_REQUIRE_EQ(uvm_physseg_plug(VALID_START_PFN_3, npages3, &upm3), true);
    1.1    cherry 	ATF_REQUIRE_EQ(++nentries, uvm_physseg_get_entries());
    1.1    cherry 	ATF_REQUIRE_EQ(npages1
    1.1    cherry #if VM_PHYSSEG_MAX > 2
    1.1    cherry 	    + npages2
    1.1    cherry #endif
1.3.2.2  pgoyette 	    + npages3, INT_TO_PSIZE_T(uvmexp.npages));
    1.1    cherry
    1.1    cherry 	/* Scavenge plug should fit right in the slab */
    1.1    cherry 	pgs = uvm_physseg_get_pg(upm3, 0);
    1.1    cherry 	ATF_REQUIRE(pgs > slab && pgs < (slab + npages1 + npages2 + npages3));
    1.1    cherry #endif
    1.1    cherry 	/* Hot plug - goes into a brand new slab */
    1.1    cherry 	ATF_REQUIRE_EQ(uvm_physseg_plug(VALID_START_PFN_4, npages4, &upm4), true);
    1.1    cherry 	/* The hot plug slab should have nothing to do with the original slab */
    1.1    cherry 	pgs = uvm_physseg_get_pg(upm4, 0);
1.3.2.2  pgoyette 	ATF_REQUIRE(pgs < slab || pgs >= (slab + npages1
    1.1    cherry #if VM_PHYSSEG_MAX > 2
    1.1    cherry 		+ npages2
    1.1    cherry #endif
    1.1    cherry 		+ npages3));
    1.1    cherry
    1.1    cherry }
    1.1    cherry ATF_TC(uvm_physseg_unplug);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_unplug, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr",
    1.1    cherry 	    "Test unplug functionality.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_unplug, tc)
    1.1    cherry {
    1.1    cherry 	paddr_t pa = 0;
    1.1    cherry
    1.1    cherry 	psize_t npages1 = (VALID_END_PFN_1 - VALID_START_PFN_1);
    1.1    cherry 	psize_t npages2 = (VALID_END_PFN_2 - VALID_START_PFN_2);
    1.1    cherry 	psize_t npages3 = (VALID_END_PFN_3 - VALID_START_PFN_3);
    1.1    cherry
    1.1    cherry 	struct vm_page *slab = malloc(sizeof(struct vm_page) * (npages1 + npages2 + npages3));
    1.1    cherry
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	/* Boot time */
    1.1    cherry 	setup();
    1.1    cherry
    1.1    cherry 	/* We start with zero segments */
    1.1    cherry 	ATF_REQUIRE_EQ(true, uvm_physseg_plug(atop(0), atop(ONE_MEGABYTE), NULL));
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry 	/* Do we have an arbitrary offset in there ? */
    1.1    cherry 	uvm_physseg_find(atop(TWOFIFTYSIX_KILO), &pa);
    1.1    cherry 	ATF_REQUIRE_EQ(pa, atop(TWOFIFTYSIX_KILO));
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages); /* Boot time sanity */
    1.1    cherry
    1.1    cherry #if VM_PHYSSEG_MAX == 1
    1.1    cherry 	/*
    1.1    cherry 	 * This is the curious case at boot time, of having one
    1.1    cherry 	 * extent(9) static entry per segment, which means that a
    1.1    cherry 	 * fragmenting unplug will fail.
    1.1    cherry 	 */
    1.1    cherry 	atf_tc_expect_signal(SIGABRT, "fragmenting unplug for single segment");
    1.1    cherry
    1.1    cherry 	/*
    1.1    cherry 	 * In order to test the fragmenting cases, please set
    1.1    cherry 	 * VM_PHYSSEG_MAX > 1
    1.1    cherry 	 */
    1.1    cherry #endif
    1.1    cherry 	/* Now let's unplug from the middle */
    1.1    cherry 	ATF_REQUIRE_EQ(true, uvm_physseg_unplug(atop(TWOFIFTYSIX_KILO), atop(FIVEONETWO_KILO)));
    1.1    cherry 	/* verify that a gap exists at TWOFIFTYSIX_KILO */
    1.1    cherry 	pa = 0; /* reset */
    1.1    cherry 	uvm_physseg_find(atop(TWOFIFTYSIX_KILO), &pa);
    1.1    cherry 	ATF_REQUIRE_EQ(pa, 0);
    1.1    cherry
    1.1    cherry 	/* Post boot: Fake all segments and pages accounted for. */
    1.1    cherry 	uvm_page_init_fake(slab, npages1 + npages2 + npages3);
    1.1    cherry 	/* Account for the unplug */
    1.1    cherry 	ATF_CHECK_EQ(atop(FIVEONETWO_KILO), uvmexp.npages);
    1.1    cherry
    1.1    cherry 	/* Original entry should fragment into two */
    1.1    cherry 	ATF_REQUIRE_EQ(2, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	upm = uvm_physseg_find(atop(TWOFIFTYSIX_KILO + FIVEONETWO_KILO), NULL);
    1.1    cherry
    1.2    cherry 	ATF_REQUIRE(uvm_physseg_valid_p(upm));
    1.1    cherry
    1.1    cherry 	/* Now unplug the tail fragment - should swallow the complete entry */
    1.1    cherry 	ATF_REQUIRE_EQ(true, uvm_physseg_unplug(atop(TWOFIFTYSIX_KILO + FIVEONETWO_KILO), atop(TWOFIFTYSIX_KILO)));
    1.1    cherry
    1.1    cherry 	/* The "swallow" above should have invalidated the handle */
    1.2    cherry 	ATF_REQUIRE_EQ(false, uvm_physseg_valid_p(upm));
    1.1    cherry
    1.1    cherry 	/* Only the first one is left now */
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	/* Unplug from the back */
    1.1    cherry 	ATF_REQUIRE_EQ(true, uvm_physseg_unplug(atop(ONETWENTYEIGHT_KILO), atop(ONETWENTYEIGHT_KILO)));
    1.1    cherry 	/* Shouldn't change the number of segments */
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	/* Unplug from the front */
    1.1    cherry 	ATF_REQUIRE_EQ(true, uvm_physseg_unplug(0, atop(SIXTYFOUR_KILO)));
    1.1    cherry 	/* Shouldn't change the number of segments */
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	/* Unplugging the final fragment should fail */
    1.1    cherry 	atf_tc_expect_signal(SIGABRT, "Unplugging the last segment");
    1.1    cherry 	ATF_REQUIRE_EQ(true, uvm_physseg_unplug(atop(SIXTYFOUR_KILO), atop(SIXTYFOUR_KILO)));
    1.1    cherry }
    1.1    cherry
    1.1    cherry
    1.1    cherry /* <---- end Tests for Internal functions ----> */
    1.1    cherry
    1.1    cherry /* Tests for functions exported via uvm_physseg.h */
    1.1    cherry ATF_TC(uvm_physseg_init);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_init, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the basic uvm_page_init() call\
    1.1    cherry 	    initializes the vm_physmem struct which holds the rb_tree.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_init, tc)
    1.1    cherry {
    1.1    cherry 	uvm_physseg_init();
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvm_physseg_get_entries());
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_page_physload_preload);
    1.1    cherry ATF_TC_HEAD(uvm_page_physload_preload, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the basic uvm_page_physload() \
    1.1    cherry 	    call works without a panic() in a preload scenario.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_page_physload_preload, tc)
    1.1    cherry {
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	/* Should return a valid handle */
    1.2    cherry 	ATF_REQUIRE(uvm_physseg_valid_p(upm));
    1.1    cherry
    1.1    cherry 	/* No pages should be allocated yet */
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	/* After the first call one segment should exist */
    1.1    cherry 	ATF_CHECK_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	/* Insert more than one segment iff VM_PHYSSEG_MAX > 1 */
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_2, VALID_END_PFN_2,
    1.1    cherry 	    VALID_AVAIL_START_PFN_2, VALID_AVAIL_END_PFN_2, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	/* Should return a valid handle */
    1.2    cherry 	ATF_REQUIRE(uvm_physseg_valid_p(upm));
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	/* After the second call two segments should exist */
    1.1    cherry 	ATF_CHECK_EQ(2, uvm_physseg_get_entries());
    1.1    cherry #endif
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_page_physload_postboot);
    1.1    cherry ATF_TC_HEAD(uvm_page_physload_postboot, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the basic uvm_page_physload() \
    1.1    cherry 	     panic()s in a post boot scenario.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_page_physload_postboot, tc)
    1.1    cherry {
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	psize_t npages1 = (VALID_END_PFN_1 - VALID_START_PFN_1);
    1.1    cherry 	psize_t npages2 = (VALID_END_PFN_2 - VALID_START_PFN_2);
    1.1    cherry
    1.1    cherry 	struct vm_page *slab = malloc(sizeof(struct vm_page) * (npages1 + npages2));
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	/* Should return a valid handle */
    1.2    cherry 	ATF_REQUIRE(uvm_physseg_valid_p(upm));
    1.1    cherry
    1.1    cherry 	/* No pages should be allocated yet */
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	/* After the first call one segment should exist */
    1.1    cherry 	ATF_CHECK_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	/* Post boot: Fake all segments and pages accounted for. */
    1.1    cherry 	uvm_page_init_fake(slab, npages1 + npages2);
    1.1    cherry
    1.1    cherry 	atf_tc_expect_signal(SIGABRT,
    1.1    cherry 	    "uvm_page_physload() called post boot");
    1.1    cherry
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_2, VALID_END_PFN_2,
    1.1    cherry 	    VALID_AVAIL_START_PFN_2, VALID_AVAIL_END_PFN_2, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	/* Should return a valid handle */
    1.2    cherry 	ATF_REQUIRE(uvm_physseg_valid_p(upm));
    1.1    cherry
1.3.2.1  pgoyette 	ATF_REQUIRE_EQ(npages1 + npages2, INT_TO_PSIZE_T(uvmexp.npages));
    1.1    cherry
    1.1    cherry 	/* After the second call two segments should exist */
    1.1    cherry 	ATF_CHECK_EQ(2, uvm_physseg_get_entries());
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_handle_immutable);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_handle_immutable, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the uvm_physseg_t handle is \
    1.1    cherry 	    immutable.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_handle_immutable, tc)
    1.1    cherry {
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	/* We insert the segments in out of order */
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_2, VALID_END_PFN_2,
    1.1    cherry 	    VALID_AVAIL_START_PFN_2, VALID_AVAIL_END_PFN_2, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(UVM_PHYSSEG_TYPE_INVALID_EMPTY, uvm_physseg_get_prev(upm));
    1.1    cherry
    1.1    cherry 	/* Insert more than one segment iff VM_PHYSSEG_MAX > 1 */
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(2, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	/* Fetch Previous, we inserted a lower value */
    1.1    cherry 	upm = uvm_physseg_get_prev(upm);
    1.1    cherry
    1.1    cherry #if !defined(UVM_HOTPLUG)
    1.1    cherry 	/*
    1.1    cherry 	 * This test is going to fail for the Array Implementation but is
    1.1    cherry 	 * expected to pass in the RB Tree implementation.
    1.1    cherry 	 */
    1.1    cherry 	/* Failure can be expected iff there are more than one handles */
    1.1    cherry 	atf_tc_expect_fail("Mutable handle in static array impl.");
    1.1    cherry #endif
    1.1    cherry 	ATF_CHECK(UVM_PHYSSEG_TYPE_INVALID_EMPTY != upm);
    1.1    cherry 	ATF_CHECK_EQ(VALID_START_PFN_1, uvm_physseg_get_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_END_PFN_1, uvm_physseg_get_end(upm));
    1.1    cherry #endif
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_seg_chomp_slab);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_seg_chomp_slab, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "The slab import code.()");
    1.1    cherry
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_seg_chomp_slab, tc)
    1.1    cherry {
    1.1    cherry 	int err;
    1.1    cherry 	size_t i;
    1.1    cherry 	struct uvm_physseg *seg;
    1.1    cherry 	struct vm_page *slab, *pgs;
    1.1    cherry 	const size_t npages = UVM_PHYSSEG_BOOT_UNPLUG_MAX; /* Number of pages */
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry
    1.1    cherry 	/* This is boot time */
    1.1    cherry 	slab = malloc(sizeof(struct vm_page) * npages * 2);
    1.1    cherry
    1.1    cherry 	seg = uvm_physseg_alloc(sizeof(struct uvm_physseg));
    1.1    cherry
    1.1    cherry 	uvm_physseg_seg_chomp_slab(PHYSSEG_NODE_TO_HANDLE(seg), slab, npages * 2);
    1.1    cherry
    1.1    cherry 	/* Should be able to allocate two 128 * sizeof(*slab) */
    1.1    cherry 	ATF_REQUIRE_EQ(0, extent_alloc(seg->ext, sizeof(*slab), 1, 0, EX_BOUNDZERO, (void *)&pgs));
    1.1    cherry 	err = extent_free(seg->ext, (u_long) pgs, sizeof(*slab), EX_BOUNDZERO);
    1.1    cherry
    1.1    cherry #if VM_PHYSSEG_MAX == 1
    1.1    cherry 	/*
    1.1    cherry 	 * free() needs an extra region descriptor, but we only have
    1.1    cherry 	 * one! The classic alloc() at free() problem
    1.1    cherry 	 */
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(ENOMEM, err);
    1.1    cherry #else
    1.1    cherry 	/* Try alloc/free at static time */
    1.1    cherry 	for (i = 0; i < npages; i++) {
    1.1    cherry 		ATF_REQUIRE_EQ(0, extent_alloc(seg->ext, sizeof(*slab), 1, 0, EX_BOUNDZERO, (void *)&pgs));
    1.1    cherry 		err = extent_free(seg->ext, (u_long) pgs, sizeof(*slab), EX_BOUNDZERO);
    1.1    cherry 		ATF_REQUIRE_EQ(0, err);
    1.1    cherry 	}
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry 	/* Now setup post boot */
    1.1    cherry 	uvm.page_init_done = true;
    1.1    cherry
    1.1    cherry 	uvm_physseg_seg_chomp_slab(PHYSSEG_NODE_TO_HANDLE(seg), slab, npages * 2);
    1.1    cherry
    1.1    cherry 	/* Try alloc/free after uvm_page.c:uvm_page_init() as well */
    1.1    cherry 	for (i = 0; i < npages; i++) {
    1.1    cherry 		ATF_REQUIRE_EQ(0, extent_alloc(seg->ext, sizeof(*slab), 1, 0, EX_BOUNDZERO, (void *)&pgs));
    1.1    cherry 		err = extent_free(seg->ext, (u_long) pgs, sizeof(*slab), EX_BOUNDZERO);
    1.1    cherry 		ATF_REQUIRE_EQ(0, err);
    1.1    cherry 	}
    1.1    cherry
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_alloc_from_slab);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_alloc_from_slab, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "The slab alloc code.()");
    1.1    cherry
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_alloc_from_slab, tc)
    1.1    cherry {
    1.1    cherry 	struct uvm_physseg *seg;
    1.1    cherry 	struct vm_page *slab, *pgs;
    1.1    cherry 	const size_t npages = UVM_PHYSSEG_BOOT_UNPLUG_MAX; /* Number of pages */
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry
    1.1    cherry 	/* This is boot time */
    1.1    cherry 	slab = malloc(sizeof(struct vm_page) * npages * 2);
    1.1    cherry
    1.1    cherry 	seg = uvm_physseg_alloc(sizeof(struct uvm_physseg));
    1.1    cherry
    1.1    cherry 	uvm_physseg_seg_chomp_slab(PHYSSEG_NODE_TO_HANDLE(seg), slab, npages * 2);
    1.1    cherry
    1.1    cherry 	pgs = uvm_physseg_seg_alloc_from_slab(PHYSSEG_NODE_TO_HANDLE(seg), npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE(pgs != NULL);
    1.1    cherry
    1.1    cherry 	/* Now setup post boot */
    1.1    cherry 	uvm.page_init_done = true;
    1.1    cherry
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	pgs = uvm_physseg_seg_alloc_from_slab(PHYSSEG_NODE_TO_HANDLE(seg), npages);
    1.1    cherry 	ATF_REQUIRE(pgs != NULL);
    1.1    cherry #endif
    1.1    cherry 	atf_tc_expect_fail("alloc beyond extent");
    1.1    cherry
    1.1    cherry 	pgs = uvm_physseg_seg_alloc_from_slab(PHYSSEG_NODE_TO_HANDLE(seg), npages);
    1.1    cherry 	ATF_REQUIRE(pgs != NULL);
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_init_seg);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_init_seg, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if uvm_physseg_init_seg adds pages to"
    1.1    cherry 	    "uvmexp.npages");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_init_seg, tc)
    1.1    cherry {
    1.1    cherry 	struct uvm_physseg *seg;
    1.1    cherry 	struct vm_page *slab, *pgs;
    1.1    cherry 	const size_t npages = UVM_PHYSSEG_BOOT_UNPLUG_MAX; /* Number of pages */
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry
    1.1    cherry 	/* This is boot time */
    1.1    cherry 	slab = malloc(sizeof(struct vm_page) * npages * 2);
    1.1    cherry
    1.1    cherry 	seg = uvm_physseg_alloc(sizeof(struct uvm_physseg));
    1.1    cherry
    1.1    cherry 	uvm_physseg_seg_chomp_slab(PHYSSEG_NODE_TO_HANDLE(seg), slab, npages * 2);
    1.1    cherry
    1.1    cherry 	pgs = uvm_physseg_seg_alloc_from_slab(PHYSSEG_NODE_TO_HANDLE(seg), npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	seg->start = 0;
    1.1    cherry 	seg->end = npages;
    1.1    cherry
    1.1    cherry 	seg->avail_start = 0;
    1.1    cherry 	seg->avail_end = npages;
    1.1    cherry
    1.1    cherry 	uvm_physseg_init_seg(PHYSSEG_NODE_TO_HANDLE(seg), pgs);
    1.1    cherry
1.3.2.1  pgoyette 	ATF_REQUIRE_EQ(npages, INT_TO_PSIZE_T(uvmexp.npages));
    1.1    cherry }
    1.1    cherry
    1.1    cherry #if 0
    1.1    cherry ATF_TC(uvm_physseg_init_seg);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_init_seg, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the basic uvm_page_physload() \
    1.1    cherry 	    call works without a panic() after Segment is inited.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_init_seg, tc)
    1.1    cherry {
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry 	psize_t npages = (VALID_END_PFN_1 - VALID_START_PFN_1);
    1.1    cherry 	struct vm_page *pgs = malloc(sizeof(struct vm_page) * npages);
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	/*
    1.1    cherry 	 * Boot time physplug needs explicit external init,
    1.1    cherry 	 * Duplicate what uvm_page.c:uvm_page_init() does.
    1.1    cherry 	 * Note: not everything uvm_page_init() does gets done here.
    1.1    cherry 	 * Read the source.
    1.1    cherry 	 */
    1.1    cherry 	/* suck in backing slab, initialise extent. */
    1.1    cherry 	uvm_physseg_seg_chomp_slab(upm, pgs, npages);
    1.1    cherry
    1.1    cherry 	/*
    1.1    cherry 	 * Actual pgs[] allocation, from extent.
    1.1    cherry 	 */
    1.1    cherry 	uvm_physseg_alloc_from_slab(upm, npages);
    1.1    cherry
    1.1    cherry 	/* Now we initialize the segment */
    1.1    cherry 	uvm_physseg_init_seg(upm, pgs);
    1.1    cherry
    1.1    cherry 	/* Done with boot simulation */
    1.1    cherry 	extent_init();
    1.1    cherry 	uvm.page_init_done = true;
    1.1    cherry
    1.1    cherry 	/* We have total memory of 1MB */
    1.1    cherry 	ATF_CHECK_EQ(PAGE_COUNT_1M, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	upm =uvm_page_physload(VALID_START_PFN_2, VALID_END_PFN_2,
    1.1    cherry 	    VALID_AVAIL_START_PFN_2, VALID_AVAIL_END_PFN_2, VM_FREELIST_DEFAULT);
    1.1    cherry 	ATF_REQUIRE_EQ(2, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	/* We added another 1MB so PAGE_COUNT_1M + PAGE_COUNT_1M */
    1.1    cherry 	ATF_CHECK_EQ(PAGE_COUNT_1M + PAGE_COUNT_1M, uvmexp.npages);
    1.1    cherry
    1.1    cherry }
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_get_start);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_get_start, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the start PFN is returned \
    1.1    cherry 	    correctly from a segment created via uvm_page_physload().");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_get_start, tc)
    1.1    cherry {
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	/* Fake early boot */
    1.1    cherry 	setup();
    1.1    cherry
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(VALID_START_PFN_1, uvm_physseg_get_start(upm));
    1.1    cherry
    1.1    cherry 	/* This test will be triggered only if there are 2 or more segments. */
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_2, VALID_END_PFN_2,
    1.1    cherry 	    VALID_AVAIL_START_PFN_2, VALID_AVAIL_END_PFN_2, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(2, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(VALID_START_PFN_2, uvm_physseg_get_start(upm));
    1.1    cherry #endif
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_get_start_invalid);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_get_start_invalid, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests the invalid / error conditions \
    1.1    cherry 	    correctly when uvm_physseg_get_start() is called with invalid \
    1.1    cherry 	    parameter values.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_get_start_invalid, tc)
    1.1    cherry {
    1.1    cherry 	/* Check for pgs == NULL */
    1.1    cherry 	setup();
    1.1    cherry 	uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	/* Force other check conditions */
    1.1    cherry 	uvm.page_init_done = true;
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(true, uvm.page_init_done);
    1.1    cherry
    1.1    cherry 	/* Invalid uvm_physseg_t */
    1.1    cherry 	ATF_CHECK_EQ((paddr_t) -1,
    1.1    cherry 	    uvm_physseg_get_start(UVM_PHYSSEG_TYPE_INVALID));
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_get_end);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_get_end, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the end PFN is returned \
    1.1    cherry 	    correctly from a segment created via uvm_page_physload().");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_get_end, tc)
    1.1    cherry {
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(VALID_END_PFN_1, uvm_physseg_get_end(upm));
    1.1    cherry
    1.1    cherry 	/* This test will be triggered only if there are 2 or more segments. */
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_2, VALID_END_PFN_2,
    1.1    cherry 	    VALID_AVAIL_START_PFN_2, VALID_AVAIL_END_PFN_2, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(2, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(VALID_END_PFN_2, uvm_physseg_get_end(upm));
    1.1    cherry #endif
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_get_end_invalid);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_get_end_invalid, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests the invalid / error conditions \
    1.1    cherry 	    correctly when uvm_physseg_get_end() is called with invalid \
    1.1    cherry 	    parameter values.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_get_end_invalid, tc)
    1.1    cherry {
    1.1    cherry 	/* Check for pgs == NULL */
    1.1    cherry 	setup();
    1.1    cherry 	uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	/* Force other check conditions */
    1.1    cherry 	uvm.page_init_done = true;
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(true, uvm.page_init_done);
    1.1    cherry
    1.1    cherry 	/* Invalid uvm_physseg_t */
    1.1    cherry 	ATF_CHECK_EQ((paddr_t) -1,
    1.1    cherry 	    uvm_physseg_get_end(UVM_PHYSSEG_TYPE_INVALID));
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_get_avail_start);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_get_avail_start, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the avail_start PFN is \
    1.1    cherry 	    returned correctly from a segment created via uvm_page_physload().");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_get_avail_start, tc)
    1.1    cherry {
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_START_PFN_1, uvm_physseg_get_avail_start(upm));
    1.1    cherry
    1.1    cherry 	/* This test will be triggered only if there are 2 or more segments. */
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_2, VALID_END_PFN_2,
    1.1    cherry 	    VALID_AVAIL_START_PFN_2, VALID_AVAIL_END_PFN_2, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(2, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_START_PFN_2, uvm_physseg_get_avail_start(upm));
    1.1    cherry #endif
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_get_avail_start_invalid);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_get_avail_start_invalid, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests the invalid / error conditions \
    1.1    cherry 	    correctly when uvm_physseg_get_avail_start() is called with invalid\
    1.1    cherry 	    parameter values.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_get_avail_start_invalid, tc)
    1.1    cherry {
    1.1    cherry 	/* Check for pgs == NULL */
    1.1    cherry 	setup();
    1.1    cherry 	uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	/* Force other check conditions */
    1.1    cherry 	uvm.page_init_done = true;
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(true, uvm.page_init_done);
    1.1    cherry
    1.1    cherry 	/* Invalid uvm_physseg_t */
    1.1    cherry 	ATF_CHECK_EQ((paddr_t) -1,
    1.1    cherry 	    uvm_physseg_get_avail_start(UVM_PHYSSEG_TYPE_INVALID));
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_get_avail_end);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_get_avail_end, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the avail_end PFN is \
    1.1    cherry 	    returned correctly from a segment created via uvm_page_physload().");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_get_avail_end, tc)
    1.1    cherry {
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_END_PFN_1, uvm_physseg_get_avail_end(upm));
    1.1    cherry
    1.1    cherry 	/* This test will be triggered only if there are 2 or more segments. */
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_2, VALID_END_PFN_2,
    1.1    cherry 	    VALID_AVAIL_START_PFN_2, VALID_AVAIL_END_PFN_2, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(2, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_END_PFN_2, uvm_physseg_get_avail_end(upm));
    1.1    cherry #endif
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_get_avail_end_invalid);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_get_avail_end_invalid, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests the invalid / error conditions \
    1.1    cherry 	    correctly when uvm_physseg_get_avail_end() is called with invalid\
    1.1    cherry 	    parameter values.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_get_avail_end_invalid, tc)
    1.1    cherry {
    1.1    cherry 	/* Check for pgs == NULL */
    1.1    cherry 	setup();
    1.1    cherry 	uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	/* Force other check conditions */
    1.1    cherry 	uvm.page_init_done = true;
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(true, uvm.page_init_done);
    1.1    cherry
    1.1    cherry 	/* Invalid uvm_physseg_t */
    1.1    cherry 	ATF_CHECK_EQ((paddr_t) -1,
    1.1    cherry 	    uvm_physseg_get_avail_end(UVM_PHYSSEG_TYPE_INVALID));
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_get_next);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_get_next, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests the pointer values for next \
    1.1    cherry 	    segment using the uvm_physseg_get_next() call.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_get_next, tc)
    1.1    cherry {
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	uvm_physseg_t upm_next;
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry 	/* We insert the segments in ascending order */
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(UVM_PHYSSEG_TYPE_INVALID_OVERFLOW,
    1.1    cherry 	    uvm_physseg_get_next(upm));
    1.1    cherry
    1.1    cherry 	/* This test will be triggered only if there are 2 or more segments. */
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	upm_next = uvm_page_physload(VALID_START_PFN_2, VALID_END_PFN_2,
    1.1    cherry 	    VALID_AVAIL_START_PFN_2, VALID_AVAIL_END_PFN_2, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(2, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	upm = uvm_physseg_get_next(upm); /* Fetch Next */
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(upm_next, upm);
    1.1    cherry 	ATF_CHECK_EQ(VALID_START_PFN_2, uvm_physseg_get_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_END_PFN_2, uvm_physseg_get_end(upm));
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry 	/* This test will be triggered only if there are 3 or more segments. */
    1.1    cherry #if VM_PHYSSEG_MAX > 2
    1.1    cherry 	upm_next = uvm_page_physload(VALID_START_PFN_3, VALID_END_PFN_3,
    1.1    cherry 	    VALID_AVAIL_START_PFN_3, VALID_AVAIL_END_PFN_3, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(3, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	upm = uvm_physseg_get_next(upm); /* Fetch Next */
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(upm_next, upm);
    1.1    cherry 	ATF_CHECK_EQ(VALID_START_PFN_3, uvm_physseg_get_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_END_PFN_3, uvm_physseg_get_end(upm));
    1.1    cherry #endif
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_get_next_invalid);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_get_next_invalid, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests the invalid / error conditions \
    1.1    cherry 	    correctly when uvm_physseg_get_next() is called with invalid \
    1.1    cherry 	    parameter values.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_get_next_invalid, tc)
    1.1    cherry {
    1.1    cherry 	uvm_physseg_t upm = UVM_PHYSSEG_TYPE_INVALID;
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(UVM_PHYSSEG_TYPE_INVALID, uvm_physseg_get_next(upm));
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_get_prev);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_get_prev, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests the pointer values for previous \
    1.1    cherry 	    segment using the uvm_physseg_get_prev() call.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_get_prev, tc)
    1.1    cherry {
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry #endif
    1.1    cherry 	uvm_physseg_t upm_prev;
    1.1    cherry
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry 	upm_prev = uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(UVM_PHYSSEG_TYPE_INVALID_EMPTY,
    1.1    cherry 	    uvm_physseg_get_prev(upm_prev));
    1.1    cherry
    1.1    cherry 	/* This test will be triggered only if there are 2 or more segments. */
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_2, VALID_END_PFN_2,
    1.1    cherry 	    VALID_AVAIL_START_PFN_2, VALID_AVAIL_END_PFN_2, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(2, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	/* Fetch Previous, we inserted a lower value */
    1.1    cherry 	upm = uvm_physseg_get_prev(upm);
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(upm_prev, upm);
    1.1    cherry 	ATF_CHECK_EQ(VALID_START_PFN_1, uvm_physseg_get_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_END_PFN_1, uvm_physseg_get_end(upm));
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry 	/* This test will be triggered only if there are 3 or more segments. */
    1.1    cherry #if VM_PHYSSEG_MAX > 2
    1.1    cherry 	uvm_page_physload(VALID_START_PFN_3, VALID_END_PFN_3,
    1.1    cherry 	    VALID_AVAIL_START_PFN_3, VALID_AVAIL_END_PFN_3, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(3, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	/*
    1.1    cherry 	 * This will return a UVM_PHYSSEG_TYPE_INVALID_EMPTY we are at the
    1.1    cherry 	 * lowest
    1.1    cherry 	 */
    1.1    cherry 	upm = uvm_physseg_get_prev(upm);
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(UVM_PHYSSEG_TYPE_INVALID_EMPTY, upm);
    1.1    cherry #endif
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_get_prev_invalid);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_get_prev_invalid, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests the invalid / error conditions \
    1.1    cherry 	    correctly when uvm_physseg_get_prev() is called with invalid \
    1.1    cherry 	    parameter values.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_get_prev_invalid, tc)
    1.1    cherry {
    1.1    cherry 	uvm_physseg_t upm = UVM_PHYSSEG_TYPE_INVALID;
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(UVM_PHYSSEG_TYPE_INVALID, uvm_physseg_get_prev(upm));
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_get_first);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_get_first, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests the pointer values for first \
    1.1    cherry 	    segment (lowest node) using the uvm_physseg_get_first() call.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_get_first, tc)
    1.1    cherry {
    1.1    cherry 	uvm_physseg_t upm = UVM_PHYSSEG_TYPE_INVALID_EMPTY;
    1.1    cherry 	uvm_physseg_t upm_first;
    1.1    cherry
    1.1    cherry 	/* Fake early boot */
    1.1    cherry 	setup();
    1.1    cherry
    1.1    cherry 	/* No nodes exist */
    1.1    cherry 	ATF_CHECK_EQ(upm, uvm_physseg_get_first());
    1.1    cherry
    1.1    cherry 	upm_first = uvm_page_physload(VALID_START_PFN_2, VALID_END_PFN_2,
    1.1    cherry 	    VALID_AVAIL_START_PFN_2, VALID_AVAIL_END_PFN_2, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	/* Pointer to first should be the least valued node */
    1.1    cherry 	upm = uvm_physseg_get_first();
    1.1    cherry 	ATF_CHECK_EQ(upm_first, upm);
    1.1    cherry 	ATF_CHECK_EQ(VALID_START_PFN_2, uvm_physseg_get_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_END_PFN_2, uvm_physseg_get_end(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_START_PFN_2, uvm_physseg_get_avail_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_END_PFN_2, uvm_physseg_get_avail_end(upm));
    1.1    cherry
    1.1    cherry 	/* This test will be triggered only if there are 2 or more segments. */
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	/* Insert a node of lesser value */
    1.1    cherry 	upm_first = uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(2, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	/* Pointer to first should be the least valued node */
    1.1    cherry 	upm = uvm_physseg_get_first();
    1.1    cherry 	ATF_CHECK_EQ(upm_first, upm);
    1.1    cherry 	ATF_CHECK_EQ(VALID_START_PFN_1, uvm_physseg_get_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_END_PFN_1, uvm_physseg_get_end(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_START_PFN_1, uvm_physseg_get_avail_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_END_PFN_1, uvm_physseg_get_avail_end(upm));
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry 	/* This test will be triggered only if there are 3 or more segments. */
    1.1    cherry #if VM_PHYSSEG_MAX > 2
    1.1    cherry 	/* Insert a node of higher value */
    1.1    cherry 	upm_first =uvm_page_physload(VALID_START_PFN_3, VALID_END_PFN_3,
    1.1    cherry 	    VALID_AVAIL_START_PFN_3, VALID_AVAIL_END_PFN_3, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(3, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	/* Pointer to first should be the least valued node */
    1.1    cherry 	upm = uvm_physseg_get_first();
    1.1    cherry 	ATF_CHECK(upm_first != upm);
    1.1    cherry 	ATF_CHECK_EQ(VALID_START_PFN_1, uvm_physseg_get_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_END_PFN_1, uvm_physseg_get_end(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_START_PFN_1, uvm_physseg_get_avail_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_END_PFN_1, uvm_physseg_get_avail_end(upm));
    1.1    cherry #endif
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_get_last);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_get_last, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests the pointer values for last \
    1.1    cherry 	    segment using the uvm_physseg_get_last() call.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_get_last, tc)
    1.1    cherry {
    1.1    cherry 	uvm_physseg_t upm = UVM_PHYSSEG_TYPE_INVALID_EMPTY;
    1.1    cherry 	uvm_physseg_t upm_last;
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry
    1.1    cherry 	/* No nodes exist */
    1.1    cherry 	ATF_CHECK_EQ(upm, uvm_physseg_get_last());
    1.1    cherry
    1.1    cherry 	upm_last = uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	/* Pointer to last should be the most valued node */
    1.1    cherry 	upm = uvm_physseg_get_last();
    1.1    cherry 	ATF_CHECK_EQ(upm_last, upm);
    1.1    cherry 	ATF_CHECK_EQ(VALID_START_PFN_1, uvm_physseg_get_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_END_PFN_1, uvm_physseg_get_end(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_START_PFN_1, uvm_physseg_get_avail_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_END_PFN_1, uvm_physseg_get_avail_end(upm));
    1.1    cherry
    1.1    cherry 	/* This test will be triggered only if there are 2 or more segments. */
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	/* Insert node of greater value */
    1.1    cherry 	upm_last = uvm_page_physload(VALID_START_PFN_2, VALID_END_PFN_2,
    1.1    cherry 	    VALID_AVAIL_START_PFN_2, VALID_AVAIL_END_PFN_2, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(2, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	/* Pointer to last should be the most valued node */
    1.1    cherry 	upm = uvm_physseg_get_last();
    1.1    cherry 	ATF_CHECK_EQ(upm_last, upm);
    1.1    cherry 	ATF_CHECK_EQ(VALID_START_PFN_2, uvm_physseg_get_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_END_PFN_2, uvm_physseg_get_end(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_START_PFN_2, uvm_physseg_get_avail_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_END_PFN_2, uvm_physseg_get_avail_end(upm));
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry 	/* This test will be triggered only if there are 3 or more segments. */
    1.1    cherry #if VM_PHYSSEG_MAX > 2
    1.1    cherry 	/* Insert node of greater value */
    1.1    cherry 	upm_last = uvm_page_physload(VALID_START_PFN_3, VALID_END_PFN_3,
    1.1    cherry 	    VALID_AVAIL_START_PFN_3, VALID_AVAIL_END_PFN_3, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(3, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	/* Pointer to last should be the most valued node */
    1.1    cherry 	upm = uvm_physseg_get_last();
    1.1    cherry 	ATF_CHECK_EQ(upm_last, upm);
    1.1    cherry 	ATF_CHECK_EQ(VALID_START_PFN_3, uvm_physseg_get_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_END_PFN_3, uvm_physseg_get_end(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_START_PFN_3, uvm_physseg_get_avail_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_END_PFN_3, uvm_physseg_get_avail_end(upm));
    1.1    cherry #endif
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_valid);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_valid, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests the pointer value for current \
    1.2    cherry 	    segment is valid using the uvm_physseg_valid_p() call.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_valid, tc)
    1.1    cherry {
    1.1    cherry 	psize_t npages = (VALID_END_PFN_1 - VALID_START_PFN_1);
    1.1    cherry
    1.1    cherry 	struct vm_page *pgs = malloc(sizeof(struct vm_page) * npages);
    1.1    cherry
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	uvm_physseg_init_seg(upm, pgs);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(PAGE_COUNT_1M, uvmexp.npages);
    1.1    cherry
    1.2    cherry 	ATF_CHECK_EQ(true, uvm_physseg_valid_p(upm));
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_valid_invalid);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_valid_invalid, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests the pointer value for current \
    1.2    cherry 	    segment is invalid using the uvm_physseg_valid_p() call.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_valid_invalid, tc)
    1.1    cherry {
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	/* Force other check conditions */
    1.1    cherry 	uvm.page_init_done = true;
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(true, uvm.page_init_done);
    1.1    cherry
    1.1    cherry 	/* Invalid uvm_physseg_t */
    1.2    cherry 	ATF_CHECK_EQ(false, uvm_physseg_valid_p(UVM_PHYSSEG_TYPE_INVALID));
    1.1    cherry
    1.1    cherry 	/*
    1.1    cherry 	 * Without any pages initialized for segment, it is considered
    1.1    cherry 	 * invalid
    1.1    cherry 	 */
    1.2    cherry 	ATF_CHECK_EQ(false, uvm_physseg_valid_p(upm));
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_get_highest);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_get_highest, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the returned PFN matches  \
    1.1    cherry 	    the highest PFN in use by the system.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_get_highest, tc)
    1.1    cherry {
    1.1    cherry 	setup();
    1.1    cherry 	uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	/* Only one segment so highest is the current */
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_END_PFN_1 - 1, uvm_physseg_get_highest_frame());
    1.1    cherry
    1.1    cherry 	/* This test will be triggered only if there are 2 or more segments. */
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	uvm_page_physload(VALID_START_PFN_3, VALID_END_PFN_3,
    1.1    cherry 	    VALID_AVAIL_START_PFN_3, VALID_AVAIL_END_PFN_3, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	/* PFN_3 > PFN_1 */
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_END_PFN_3 - 1, uvm_physseg_get_highest_frame());
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry 	/* This test will be triggered only if there are 3 or more segments. */
    1.1    cherry #if VM_PHYSSEG_MAX > 2
    1.1    cherry 	uvm_page_physload(VALID_START_PFN_2, VALID_END_PFN_2,
    1.1    cherry 	    VALID_AVAIL_START_PFN_2, VALID_AVAIL_END_PFN_2, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	/* PFN_3 > PFN_2 */
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_END_PFN_3 - 1, uvm_physseg_get_highest_frame());
    1.1    cherry #endif
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_get_free_list);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_get_free_list, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the returned Free List type \
    1.1    cherry 	    of a segment matches the one returned from \
    1.1    cherry 	    uvm_physseg_get_free_list() call.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_get_free_list, tc)
    1.1    cherry {
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	/* Fake early boot */
    1.1    cherry 	setup();
    1.1    cherry
    1.1    cherry 	/* Insertions are made in ascending order */
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(VM_FREELIST_DEFAULT, uvm_physseg_get_free_list(upm));
    1.1    cherry
    1.1    cherry 	/* This test will be triggered only if there are 2 or more segments. */
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_2, VALID_END_PFN_2,
    1.1    cherry 	    VALID_AVAIL_START_PFN_2, VALID_AVAIL_END_PFN_2, VM_FREELIST_FIRST16);
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(VM_FREELIST_FIRST16, uvm_physseg_get_free_list(upm));
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry 	/* This test will be triggered only if there are 3 or more segments. */
    1.1    cherry #if VM_PHYSSEG_MAX > 2
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_3, VALID_END_PFN_3,
    1.1    cherry 	    VALID_AVAIL_START_PFN_3, VALID_AVAIL_END_PFN_3, VM_FREELIST_FIRST1G);
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(VM_FREELIST_FIRST1G, uvm_physseg_get_free_list(upm));
    1.1    cherry #endif
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_get_start_hint);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_get_start_hint, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the returned start_hint value \
    1.1    cherry 	    of a segment matches the one returned from \
    1.1    cherry 	    uvm_physseg_get_start_hint() call.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_get_start_hint, tc)
    1.1    cherry {
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	/* Will be Zero since no specific value is set during init */
    1.1    cherry 	ATF_CHECK_EQ(0, uvm_physseg_get_start_hint(upm));
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_set_start_hint);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_set_start_hint, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the returned start_hint value \
    1.1    cherry 	    of a segment matches the one set by the \
    1.1    cherry 	    uvm_physseg_set_start_hint() call.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_set_start_hint, tc)
    1.1    cherry {
    1.1    cherry 	psize_t npages = (VALID_END_PFN_1 - VALID_START_PFN_1);
    1.1    cherry
    1.1    cherry 	struct vm_page *pgs = malloc(sizeof(struct vm_page) * npages);
    1.1    cherry
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	uvm_physseg_init_seg(upm, pgs);
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(true, uvm_physseg_set_start_hint(upm, atop(128)));
    1.1    cherry
    1.1    cherry 	/* Will be atop(128) since no specific value is set above */
    1.1    cherry 	ATF_CHECK_EQ(atop(128), uvm_physseg_get_start_hint(upm));
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_set_start_hint_invalid);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_set_start_hint_invalid, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the returned value is false \
    1.1    cherry 	    when an invalid segment matches the one trying to set by the \
    1.1    cherry 	    uvm_physseg_set_start_hint() call.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_set_start_hint_invalid, tc)
    1.1    cherry {
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	/* Force other check conditions */
    1.1    cherry 	uvm.page_init_done = true;
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(true, uvm.page_init_done);
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(false, uvm_physseg_set_start_hint(upm, atop(128)));
    1.1    cherry
    1.1    cherry 	/*
    1.1    cherry 	 * Will be Zero since no specific value is set after the init
    1.1    cherry 	 * due to failure
    1.1    cherry 	 */
    1.1    cherry 	atf_tc_expect_signal(SIGABRT, "invalid uvm_physseg_t handle");
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(0, uvm_physseg_get_start_hint(upm));
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_physseg_get_pg);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_get_pg, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the returned vm_page struct \
    1.1    cherry 	    is correct when fetched by uvm_physseg_get_pg() call.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_get_pg, tc)
    1.1    cherry {
    1.1    cherry 	psize_t npages = (VALID_END_PFN_1 - VALID_START_PFN_1);
    1.1    cherry
    1.1    cherry 	struct vm_page *pgs = malloc(sizeof(struct vm_page) * npages);
    1.1    cherry
    1.1    cherry 	struct vm_page *extracted_pg = NULL;
    1.1    cherry
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	/* Now we initialize the segment */
    1.1    cherry 	uvm_physseg_init_seg(upm, pgs);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(PAGE_COUNT_1M, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(NULL, extracted_pg);
    1.1    cherry
    1.1    cherry 	/* Try fetching the 5th Page in the Segment */
    1.1    cherry 	extracted_pg = uvm_physseg_get_pg(upm, 5);
    1.1    cherry
    1.1    cherry 	/* Values of phys_addr is n * PAGE_SIZE where n is the page number */
    1.1    cherry 	ATF_CHECK_EQ(5 * PAGE_SIZE, extracted_pg->phys_addr);
    1.1    cherry
    1.1    cherry 	/* Try fetching the 113th Page in the Segment */
    1.1    cherry 	extracted_pg = uvm_physseg_get_pg(upm, 113);
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(113 * PAGE_SIZE, extracted_pg->phys_addr);
    1.1    cherry }
    1.1    cherry
    1.1    cherry #ifdef __HAVE_PMAP_PHYSSEG
    1.1    cherry ATF_TC(uvm_physseg_get_pmseg);
    1.1    cherry ATF_TC_HEAD(uvm_physseg_get_pmseg, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the returned pmap_physseg \
    1.1    cherry 	    struct is correct when fetched by uvm_physseg_get_pmseg() call.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_physseg_get_pmseg, tc)
    1.1    cherry {
    1.1    cherry 	psize_t npages = (VALID_END_PFN_1 - VALID_START_PFN_1);
    1.1    cherry
    1.1    cherry 	struct vm_page *pgs = malloc(sizeof(struct vm_page) * npages);
    1.1    cherry
    1.1    cherry 	struct pmap_physseg pmseg = { true };
    1.1    cherry
    1.1    cherry 	struct pmap_physseg *extracted_pmseg = NULL;
    1.1    cherry
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	/* Now we initialize the segment */
    1.1    cherry 	uvm_physseg_init_seg(upm, pgs);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(PAGE_COUNT_1M, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(NULL, extracted_pmseg);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(true, pmseg.dummy_variable);
    1.1    cherry
    1.1    cherry 	/* Extract the current pmseg */
    1.1    cherry 	extracted_pmseg = uvm_physseg_get_pmseg(upm);
    1.1    cherry
    1.1    cherry 	/*
    1.1    cherry 	 * We can only check if it is not NULL
    1.1    cherry 	 * We do not know the value it contains
    1.1    cherry 	 */
    1.1    cherry 	ATF_CHECK(NULL != extracted_pmseg);
    1.1    cherry
    1.1    cherry 	extracted_pmseg->dummy_variable = pmseg.dummy_variable;
    1.1    cherry
    1.1    cherry 	/* Invert value to ensure test integrity */
    1.1    cherry 	pmseg.dummy_variable = false;
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(false, pmseg.dummy_variable);
    1.1    cherry
    1.1    cherry 	extracted_pmseg = uvm_physseg_get_pmseg(upm);
    1.1    cherry
    1.1    cherry 	ATF_CHECK(NULL != extracted_pmseg);
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(true, extracted_pmseg->dummy_variable);
    1.1    cherry }
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry ATF_TC(vm_physseg_find);
    1.1    cherry ATF_TC_HEAD(vm_physseg_find, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the returned segment number \
    1.1    cherry 	    is correct when an PFN is passed into uvm_physseg_find() call. \
    1.1    cherry 	    In addition	to this the offset of the PFN from the start of \
    1.1    cherry 	    segment is also set if the parameter is passed in as not NULL.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(vm_physseg_find, tc)
    1.1    cherry {
    1.1    cherry 	psize_t offset = (psize_t) -1;
    1.1    cherry
    1.1    cherry 	uvm_physseg_t upm_first, result;
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	uvm_physseg_t upm_second;
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry
    1.1    cherry 	upm_first = uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	/* This test will be triggered only if there are 2 or more segments. */
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	upm_second = uvm_page_physload(VALID_START_PFN_2, VALID_END_PFN_2,
    1.1    cherry 	    VALID_AVAIL_START_PFN_2, VALID_AVAIL_END_PFN_2, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(2, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry 	/* Under ONE_MEGABYTE is segment upm_first */
    1.1    cherry 	result = uvm_physseg_find(atop(ONE_MEGABYTE - 1024), NULL);
    1.1    cherry 	ATF_CHECK_EQ(upm_first, result);
    1.1    cherry 	ATF_CHECK_EQ(uvm_physseg_get_start(upm_first),
    1.1    cherry 	    uvm_physseg_get_start(result));
    1.1    cherry 	ATF_CHECK_EQ(uvm_physseg_get_end(upm_first),
    1.1    cherry 	    uvm_physseg_get_end(result));
    1.1    cherry 	ATF_CHECK_EQ(uvm_physseg_get_avail_start(upm_first),
    1.1    cherry 	    uvm_physseg_get_avail_start(result));
    1.1    cherry 	ATF_CHECK_EQ(uvm_physseg_get_avail_end(upm_first),
    1.1    cherry 	    uvm_physseg_get_avail_end(result));
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ((psize_t) -1, offset);
    1.1    cherry
    1.1    cherry 	/* This test will be triggered only if there are 2 or more segments. */
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	/* Over ONE_MEGABYTE is segment upm_second */
    1.1    cherry 	result = uvm_physseg_find(atop(ONE_MEGABYTE + 8192), &offset);
    1.1    cherry 	ATF_CHECK_EQ(upm_second, result);
    1.1    cherry 	ATF_CHECK_EQ(uvm_physseg_get_start(upm_second),
    1.1    cherry 	    uvm_physseg_get_start(result));
    1.1    cherry 	ATF_CHECK_EQ(uvm_physseg_get_end(upm_second),
    1.1    cherry 	    uvm_physseg_get_end(result));
    1.1    cherry 	ATF_CHECK_EQ(uvm_physseg_get_avail_start(upm_second),
    1.1    cherry 	    uvm_physseg_get_avail_start(result));
    1.1    cherry 	ATF_CHECK_EQ(uvm_physseg_get_avail_end(upm_second),
    1.1    cherry 	    uvm_physseg_get_avail_end(result));
    1.1    cherry
    1.1    cherry 	/* Offset is calculated based on PAGE_SIZE */
    1.1    cherry 	/* atop(ONE_MEGABYTE + (2 * PAGE_SIZE)) - VALID_START_PFN1  = 2 */
    1.1    cherry 	ATF_CHECK_EQ(2, offset);
    1.1    cherry #else
    1.1    cherry 	/* Under ONE_MEGABYTE is segment upm_first */
    1.1    cherry 	result = uvm_physseg_find(atop(ONE_MEGABYTE - 12288), &offset);
    1.1    cherry 	ATF_CHECK_EQ(upm_first, result);
    1.1    cherry 	ATF_CHECK_EQ(uvm_physseg_get_start(upm_first),
    1.1    cherry 	    uvm_physseg_get_start(result));
    1.1    cherry 	ATF_CHECK_EQ(uvm_physseg_get_end(upm_first),
    1.1    cherry 	    uvm_physseg_get_end(result));
    1.1    cherry 	ATF_CHECK_EQ(uvm_physseg_get_avail_start(upm_first),
    1.1    cherry 	    uvm_physseg_get_avail_start(result));
    1.1    cherry 	ATF_CHECK_EQ(uvm_physseg_get_avail_end(upm_first),
    1.1    cherry 	    uvm_physseg_get_avail_end(result));
    1.1    cherry
    1.1    cherry 	/* Offset is calculated based on PAGE_SIZE */
    1.1    cherry 	/* atop(ONE_MEGABYTE - (3 * PAGE_SIZE)) - VALID_START_PFN1  = 253 */
    1.1    cherry 	ATF_CHECK_EQ(253, offset);
    1.1    cherry #endif
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(vm_physseg_find_invalid);
    1.1    cherry ATF_TC_HEAD(vm_physseg_find_invalid, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the returned segment number \
    1.1    cherry 	    is (paddr_t) -1  when a non existant PFN is passed into \
    1.1    cherry 	    uvm_physseg_find() call.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(vm_physseg_find_invalid, tc)
    1.1    cherry {
    1.1    cherry 	psize_t offset = (psize_t) -1;
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry 	uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	/* No segments over 3 MB exists at the moment */
    1.1    cherry 	ATF_CHECK_EQ(UVM_PHYSSEG_TYPE_INVALID,
    1.1    cherry 	    uvm_physseg_find(atop(ONE_MEGABYTE * 3), NULL));
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ((psize_t) -1, offset);
    1.1    cherry
    1.1    cherry 	/* No segments over 3 MB exists at the moment */
    1.1    cherry 	ATF_CHECK_EQ(UVM_PHYSSEG_TYPE_INVALID,
    1.1    cherry 	    uvm_physseg_find(atop(ONE_MEGABYTE * 3), &offset));
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ((psize_t) -1, offset);
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_page_physunload_start);
    1.1    cherry ATF_TC_HEAD(uvm_page_physunload_start, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the basic uvm_page_physunload()\
    1.1    cherry 	    call works without a panic(). Unloads from Start of the segment.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_page_physunload_start, tc)
    1.1    cherry {
    1.1    cherry 	/*
    1.1    cherry 	 * Would uvmexp.npages reduce everytime an uvm_page_physunload is called?
    1.1    cherry 	 */
    1.1    cherry 	psize_t npages = (VALID_END_PFN_2 - VALID_START_PFN_2);
    1.1    cherry
    1.1    cherry 	struct vm_page *pgs = malloc(sizeof(struct vm_page) * npages);
    1.1    cherry
    1.1    cherry 	paddr_t p = 0;
    1.1    cherry
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_2, VALID_END_PFN_2,
    1.1    cherry 	    VALID_AVAIL_START_PFN_2, VALID_AVAIL_END_PFN_2, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	uvm_physseg_init_seg(upm, pgs);
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(true, uvm_page_physunload(upm, VM_FREELIST_DEFAULT, &p));
    1.1    cherry
    1.1    cherry 	/*
    1.1    cherry 	 * When called for first time, uvm_page_physload() removes the first PFN
    1.1    cherry 	 *
    1.1    cherry 	 * New avail start will be VALID_AVAIL_START_PFN_2 + 1
    1.1    cherry 	 */
    1.1    cherry 	ATF_CHECK_EQ(VALID_START_PFN_2, atop(p));
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_START_PFN_2 + 1,
    1.1    cherry 	    uvm_physseg_get_avail_start(upm));
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(VALID_START_PFN_2 + 1, uvm_physseg_get_start(upm));
    1.1    cherry
    1.1    cherry 	/* Rest of the stuff should remain the same */
    1.1    cherry 	ATF_CHECK_EQ(VALID_END_PFN_2, uvm_physseg_get_end(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_END_PFN_2, uvm_physseg_get_avail_end(upm));
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_page_physunload_end);
    1.1    cherry ATF_TC_HEAD(uvm_page_physunload_end, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the basic uvm_page_physunload()\
    1.1    cherry 	    call works without a panic(). Unloads from End of the segment.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_page_physunload_end, tc)
    1.1    cherry {
    1.1    cherry 	/*
    1.1    cherry 	 * Would uvmexp.npages reduce everytime an uvm_page_physunload is called?
    1.1    cherry 	 */
    1.1    cherry 	paddr_t p = 0;
    1.1    cherry
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry 	/* Note: start != avail_start to remove from end. */
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_2, VALID_END_PFN_2,
    1.1    cherry 	    VALID_AVAIL_START_PFN_2 + 1, VALID_AVAIL_END_PFN_2,
    1.1    cherry 	    VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	p = 0;
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE(
    1.1    cherry 		uvm_physseg_get_avail_start(upm) != uvm_physseg_get_start(upm));
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(true, uvm_page_physunload(upm, VM_FREELIST_DEFAULT, &p));
    1.1    cherry
    1.1    cherry 	/*
    1.1    cherry 	 * Remember if X is the upper limit the actual valid pointer is X - 1
    1.1    cherry 	 *
    1.1    cherry 	 * For example if 256 is the upper limit for 1MB memory, last valid
    1.1    cherry 	 * pointer is 256 - 1 = 255
    1.1    cherry 	 */
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(VALID_END_PFN_2 - 1, atop(p));
    1.1    cherry
    1.1    cherry 	/*
    1.1    cherry 	 * When called for second time, uvm_page_physload() removes the last PFN
    1.1    cherry 	 *
    1.1    cherry 	 * New avail end will be VALID_AVAIL_END_PFN_2 - 1
    1.1    cherry 	 * New end will be VALID_AVAIL_PFN_2 - 1
    1.1    cherry 	 */
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_END_PFN_2 - 1, uvm_physseg_get_avail_end(upm));
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(VALID_END_PFN_2 - 1, uvm_physseg_get_end(upm));
    1.1    cherry
    1.1    cherry 	/* Rest of the stuff should remain the same */
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_START_PFN_2 + 1,
    1.1    cherry 	    uvm_physseg_get_avail_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_START_PFN_2, uvm_physseg_get_start(upm));
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_page_physunload_none);
    1.1    cherry ATF_TC_HEAD(uvm_page_physunload_none, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the basic uvm_page_physunload()\
    1.1    cherry 	    call works without a panic(). Does not unload from start or end \
    1.1    cherry 	    because of non-aligned start / avail_start and end / avail_end \
    1.1    cherry 	    respectively.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_page_physunload_none, tc)
    1.1    cherry {
    1.1    cherry 	psize_t npages = (VALID_END_PFN_2 - VALID_START_PFN_2);
    1.1    cherry
    1.1    cherry 	struct vm_page *pgs = malloc(sizeof(struct vm_page) * npages);
    1.1    cherry
    1.1    cherry 	paddr_t p = 0;
    1.1    cherry
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry 	/*
    1.1    cherry 	 * Note: start != avail_start and end != avail_end.
    1.1    cherry 	 *
    1.3  dholland 	 * This prevents any unload from occurring.
    1.1    cherry 	 */
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_2, VALID_END_PFN_2,
    1.1    cherry 	    VALID_AVAIL_START_PFN_2 + 1, VALID_AVAIL_END_PFN_2 - 1,
    1.1    cherry 	    VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	p = 0;
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE(
    1.1    cherry 		uvm_physseg_get_avail_start(upm) != uvm_physseg_get_start(upm));
    1.1    cherry
    1.1    cherry 	uvm_physseg_init_seg(upm, pgs);
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(false, uvm_page_physunload(upm, VM_FREELIST_DEFAULT, &p));
    1.1    cherry
    1.1    cherry 	/* uvm_page_physload() will no longer unload memory */
    1.1    cherry 	ATF_CHECK_EQ(0, p);
    1.1    cherry
    1.1    cherry 	/* Rest of the stuff should remain the same */
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_START_PFN_2 + 1,
    1.1    cherry 	    uvm_physseg_get_avail_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_END_PFN_2 - 1,
    1.1    cherry 	    uvm_physseg_get_avail_end(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_START_PFN_2, uvm_physseg_get_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_END_PFN_2, uvm_physseg_get_end(upm));
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_page_physunload_delete_start);
    1.1    cherry ATF_TC_HEAD(uvm_page_physunload_delete_start, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the  uvm_page_physunload() \
    1.1    cherry 	    works when the segment gets small enough to be deleted scenario. \
    1.1    cherry 	    NOTE: This one works deletes from start.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_page_physunload_delete_start, tc)
    1.1    cherry {
    1.1    cherry 	/*
    1.1    cherry 	 * Would uvmexp.npages reduce everytime an uvm_page_physunload is called?
    1.1    cherry 	 */
    1.1    cherry 	paddr_t p = 0;
    1.1    cherry
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry
    1.1    cherry 	/*
    1.1    cherry 	 * Setup the Nuke from Starting point
    1.1    cherry 	 */
    1.1    cherry
    1.1    cherry 	upm = uvm_page_physload(VALID_END_PFN_1 - 1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_END_PFN_1 - 1, VALID_AVAIL_END_PFN_1,
    1.1    cherry 	    VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	/* Insert more than one segment iff VM_PHYSSEG_MAX > 1 */
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	uvm_page_physload(VALID_START_PFN_2, VALID_END_PFN_2,
    1.1    cherry 	    VALID_AVAIL_START_PFN_2, VALID_AVAIL_END_PFN_2, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(2, uvm_physseg_get_entries());
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry #if VM_PHYSSEG_MAX == 1
    1.1    cherry 	atf_tc_expect_signal(SIGABRT,
    1.1    cherry 	    "cannot uvm_page_physunload() the last segment");
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(true, uvm_page_physunload(upm, VM_FREELIST_DEFAULT, &p));
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(VALID_END_PFN_1 - 1, atop(p));
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	/* The only node now is the one we inserted second. */
    1.1    cherry 	upm = uvm_physseg_get_first();
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(VALID_START_PFN_2, uvm_physseg_get_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_END_PFN_2, uvm_physseg_get_end(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_START_PFN_2, uvm_physseg_get_avail_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_END_PFN_2, uvm_physseg_get_avail_end(upm));
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_page_physunload_delete_end);
    1.1    cherry ATF_TC_HEAD(uvm_page_physunload_delete_end, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the  uvm_page_physunload() \
    1.1    cherry 	    works when the segment gets small enough to be deleted scenario. \
    1.1    cherry 	    NOTE: This one works deletes from end.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_page_physunload_delete_end, tc)
    1.1    cherry {
    1.1    cherry 	/*
    1.1    cherry 	 * Would uvmexp.npages reduce everytime an uvm_page_physunload is called?
    1.1    cherry 	 */
    1.1    cherry
    1.1    cherry 	paddr_t p = 0;
    1.1    cherry
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry
    1.1    cherry 	/*
    1.1    cherry 	 * Setup the Nuke from Ending point
    1.1    cherry 	 */
    1.1    cherry
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_1, VALID_START_PFN_1 + 2,
1.3.2.2  pgoyette 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_START_PFN_1 + 2,
    1.1    cherry 	    VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	/* Insert more than one segment iff VM_PHYSSEG_MAX > 1 */
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	uvm_page_physload(VALID_START_PFN_2, VALID_END_PFN_2,
    1.1    cherry 	    VALID_AVAIL_START_PFN_2, VALID_AVAIL_END_PFN_2, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(2, uvm_physseg_get_entries());
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry #if VM_PHYSSEG_MAX == 1
    1.1    cherry 	atf_tc_expect_signal(SIGABRT,
    1.1    cherry 	    "cannot uvm_page_physunload() the last segment");
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(true, uvm_page_physunload(upm, VM_FREELIST_DEFAULT, &p));
    1.1    cherry
1.3.2.2  pgoyette 	ATF_CHECK_EQ(VALID_START_PFN_1, atop(p));
1.3.2.2  pgoyette
    1.1    cherry 	p = 0;
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(true, uvm_page_physunload(upm, VM_FREELIST_DEFAULT, &p));
    1.1    cherry
1.3.2.2  pgoyette 	ATF_CHECK_EQ(VALID_START_PFN_1 + 1, atop(p));
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	/* The only node now is the one we inserted second. */
    1.1    cherry 	upm = uvm_physseg_get_first();
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(VALID_START_PFN_2, uvm_physseg_get_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_END_PFN_2, uvm_physseg_get_end(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_START_PFN_2, uvm_physseg_get_avail_start(upm));
    1.1    cherry 	ATF_CHECK_EQ(VALID_AVAIL_END_PFN_2, uvm_physseg_get_avail_end(upm));
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_page_physunload_invalid);
    1.1    cherry ATF_TC_HEAD(uvm_page_physunload_invalid, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the  uvm_page_physunload() \
    1.1    cherry 	    fails when then Free list does not match.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_page_physunload_invalid, tc)
    1.1    cherry {
    1.1    cherry 	psize_t npages = (VALID_END_PFN_2 - VALID_START_PFN_2);
    1.1    cherry
    1.1    cherry 	struct vm_page *pgs = malloc(sizeof(struct vm_page) * npages);
    1.1    cherry
    1.1    cherry 	paddr_t p = 0;
    1.1    cherry
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_2, VALID_END_PFN_2,
    1.1    cherry 	    VALID_AVAIL_START_PFN_2, VALID_AVAIL_END_PFN_2, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	uvm_physseg_init_seg(upm, pgs);
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(false, uvm_page_physunload(upm, VM_FREELIST_FIRST4G, &p));
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_page_physunload_force);
    1.1    cherry ATF_TC_HEAD(uvm_page_physunload_force, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the basic \
    1.1    cherry 	    uvm_page_physunload_force() including delete works without.");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_page_physunload_force, tc)
    1.1    cherry {
    1.1    cherry 	/*
    1.1    cherry 	 * Would uvmexp.npages reduce everytime an uvm_page_physunload is called?
    1.1    cherry 	 */
    1.1    cherry 	paddr_t p = 0;
    1.1    cherry
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_1, VALID_END_PFN_1,
    1.1    cherry 	    VALID_AVAIL_START_PFN_1, VALID_AVAIL_END_PFN_1, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	/* Insert more than one segment iff VM_PHYSSEG_MAX > 1 */
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	/*
    1.1    cherry 	 * We have couple of physloads done this is bacause of the fact that if
    1.1    cherry 	 * we physunload all the PFs from a given range and we have only one
    1.1    cherry 	 * segment in total a panic() is called
    1.1    cherry 	 */
    1.1    cherry 	uvm_page_physload(VALID_START_PFN_2, VALID_END_PFN_2,
    1.1    cherry 	    VALID_AVAIL_START_PFN_2, VALID_AVAIL_END_PFN_2, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(2, uvm_physseg_get_entries());
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry #if VM_PHYSSEG_MAX == 1
    1.1    cherry 	atf_tc_expect_signal(SIGABRT,
    1.1    cherry 	    "cannot uvm_page_physunload() the last segment");
    1.1    cherry #endif
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(VALID_AVAIL_START_PFN_1,
    1.1    cherry 	    uvm_physseg_get_avail_start(upm));
    1.1    cherry
    1.1    cherry 	for(paddr_t i = VALID_AVAIL_START_PFN_1;
    1.1    cherry 	    i < VALID_AVAIL_END_PFN_1; i++) {
    1.1    cherry 		ATF_CHECK_EQ(true,
    1.1    cherry 		    uvm_page_physunload_force(upm, VM_FREELIST_DEFAULT, &p));
    1.1    cherry 		ATF_CHECK_EQ(i, atop(p));
    1.1    cherry
    1.1    cherry 		if(i + 1 < VALID_AVAIL_END_PFN_1)
    1.1    cherry 			ATF_CHECK_EQ(i + 1, uvm_physseg_get_avail_start(upm));
    1.1    cherry 	}
    1.1    cherry
    1.1    cherry 	/*
    1.1    cherry 	 * Now we try to retrieve the segment, which has been removed
    1.1    cherry 	 * from the system through force unloading all the pages inside it.
    1.1    cherry 	 */
    1.1    cherry 	upm = uvm_physseg_find(VALID_AVAIL_END_PFN_1 - 1, NULL);
    1.1    cherry
    1.1    cherry 	/* It should no longer exist */
1.3.2.1  pgoyette #if defined(UVM_HOTPLUG)
    1.1    cherry 	ATF_CHECK_EQ(NULL, upm);
1.3.2.1  pgoyette #else
1.3.2.1  pgoyette 	ATF_CHECK_EQ(-1, upm);
1.3.2.1  pgoyette #endif
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(1, uvm_physseg_get_entries());
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TC(uvm_page_physunload_force_invalid);
    1.1    cherry ATF_TC_HEAD(uvm_page_physunload_force_invalid, tc)
    1.1    cherry {
    1.1    cherry 	atf_tc_set_md_var(tc, "descr", "Tests if the invalid conditions for \
    1.1    cherry 	    uvm_page_physunload_force_invalid().");
    1.1    cherry }
    1.1    cherry ATF_TC_BODY(uvm_page_physunload_force_invalid, tc)
    1.1    cherry {
    1.1    cherry 	paddr_t p = 0;
    1.1    cherry
    1.1    cherry 	uvm_physseg_t upm;
    1.1    cherry
    1.1    cherry 	setup();
    1.1    cherry 	upm = uvm_page_physload(VALID_START_PFN_2, VALID_START_PFN_2+ 1,
    1.1    cherry 	    VALID_START_PFN_2, VALID_START_PFN_2, VM_FREELIST_DEFAULT);
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(1, uvm_physseg_get_entries());
    1.1    cherry
    1.1    cherry 	ATF_REQUIRE_EQ(0, uvmexp.npages);
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(false,
    1.1    cherry 	    uvm_page_physunload_force(upm, VM_FREELIST_DEFAULT, &p));
    1.1    cherry
    1.1    cherry 	ATF_CHECK_EQ(0, p);
    1.1    cherry }
    1.1    cherry
    1.1    cherry ATF_TP_ADD_TCS(tp)
    1.1    cherry {
    1.1    cherry #if defined(UVM_HOTPLUG)
    1.1    cherry 	/* Internal */
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_alloc_atboot_mismatch);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_alloc_atboot_overrun);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_alloc_sanity);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_free_atboot_mismatch);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_free_sanity);
    1.1    cherry #if VM_PHYSSEG_MAX > 1
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_atboot_free_leak);
    1.1    cherry #endif
    1.1    cherry #endif /* UVM_HOTPLUG */
    1.1    cherry
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_plug);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_unplug);
    1.1    cherry
    1.1    cherry 	/* Exported */
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_init);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_page_physload_preload);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_page_physload_postboot);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_handle_immutable);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_seg_chomp_slab);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_alloc_from_slab);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_init_seg);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_get_start);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_get_start_invalid);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_get_end);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_get_end_invalid);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_get_avail_start);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_get_avail_start_invalid);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_get_avail_end);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_get_avail_end_invalid);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_get_next);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_get_next_invalid);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_get_prev);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_get_prev_invalid);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_get_first);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_get_last);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_valid);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_valid_invalid);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_get_highest);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_get_free_list);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_get_start_hint);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_set_start_hint);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_set_start_hint_invalid);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_get_pg);
    1.1    cherry
    1.1    cherry #ifdef __HAVE_PMAP_PHYSSEG
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_physseg_get_pmseg);
    1.1    cherry #endif
    1.1    cherry 	ATF_TP_ADD_TC(tp, vm_physseg_find);
    1.1    cherry 	ATF_TP_ADD_TC(tp, vm_physseg_find_invalid);
    1.1    cherry
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_page_physunload_start);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_page_physunload_end);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_page_physunload_none);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_page_physunload_delete_start);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_page_physunload_delete_end);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_page_physunload_invalid);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_page_physunload_force);
    1.1    cherry 	ATF_TP_ADD_TC(tp, uvm_page_physunload_force_invalid);
    1.1    cherry
    1.1    cherry 	return atf_no_error();
    1.1    cherry }