2019-04-11 23:08:59 +02:00
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#include "alloc.h"
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#include "assert.h"
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2019-05-15 23:22:28 +02:00
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#include "cpu_context.h"
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2018-11-19 13:56:19 +01:00
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#include "klibc.h"
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2020-04-24 23:34:34 +02:00
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#include "kthread.h"
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2019-04-11 23:08:59 +02:00
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#include "list.h"
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2018-11-09 16:30:42 +01:00
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#include "mem.h"
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2018-11-12 23:07:59 +01:00
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#include "paging.h"
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2018-11-08 22:09:12 +01:00
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#include "serial.h"
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2018-11-19 13:56:19 +01:00
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#include "stack.h"
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2020-07-08 23:12:45 +02:00
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#include "synchro.h"
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2020-08-19 13:58:52 +02:00
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#include "time.h"
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2018-11-08 22:09:12 +01:00
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2018-11-12 18:06:46 +01:00
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void testPhymem(void)
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2018-11-09 16:30:42 +01:00
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{
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2020-04-27 00:14:37 +02:00
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printf("Testing memory PHY\n");
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struct mem_desc *allocated_page_list;
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struct mem_desc
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*page; // Cast in mem_desc to use it. In fact it's the addr of 4K free memory
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list_init(allocated_page_list);
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int allocCount = 0;
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int freeCount = 0;
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2018-11-09 16:30:42 +01:00
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2020-04-27 00:14:37 +02:00
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while ((page = (struct mem_desc *)allocPhyPage()) != NULL) {
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page->phy_addr = allocCount;
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allocCount++;
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list_add_tail(allocated_page_list, page);
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}
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printf("%d pages allocated\n", allocCount);
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2018-11-09 16:30:42 +01:00
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2020-04-27 00:14:37 +02:00
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while ((page = list_pop_head(allocated_page_list)) != NULL) {
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assertmsg(page->phy_addr == (ulong)freeCount, "page %d modified", page);
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assertmsg(unrefPhyPage((ulong)page) >= 0, "Failed to free page %d\n", (ulong)page);
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freeCount++;
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}
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printf("%d pages freed\n", freeCount);
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2018-11-09 16:30:42 +01:00
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2020-04-27 00:14:37 +02:00
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assertmsg((page = (struct mem_desc *)allocPhyPage()) != NULL, "Cannot allocate memory\n");
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unrefPhyPage((ulong)page);
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2019-04-11 23:08:59 +02:00
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}
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2019-04-17 23:47:25 +02:00
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static void *testAllocNSet(size_t size)
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{
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2020-04-27 00:14:37 +02:00
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void *allocated = malloc(size);
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assert(allocated);
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memset(allocated, size, size);
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return allocated;
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2019-04-17 23:47:25 +02:00
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}
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2019-04-11 23:08:59 +02:00
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static void testAlloc(void)
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{
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2020-04-27 00:14:37 +02:00
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for (uint i = 0; i < PAGE_SIZE / (sizeof(struct slabEntry)); i++) {
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malloc(sizeof(struct slabEntry));
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}
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for (uint i = 0; i < PAGE_SIZE / (sizeof(struct slabDesc)); i++) {
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malloc(sizeof(struct slabDesc));
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}
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assert(malloc(1));
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assert(malloc(2));
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assert(malloc(3));
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assert(malloc(4));
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void *malloc1 = malloc(sizeof(void *));
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void *malloc2 = malloc(sizeof(void *));
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assert((char *)malloc2 == ((char *)malloc1 + sizeof(void *)));
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free(malloc2);
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void *malloc3 = malloc(sizeof(void *));
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assertmsg((char *)malloc2 == (char *)malloc3, " %d %d\n", malloc2, malloc3);
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void *alloc1 = testAllocNSet(1024);
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void *alloc2 = testAllocNSet(1024);
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void *alloc3 = testAllocNSet(1024);
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void *alloc4 = testAllocNSet(1024);
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void *alloc5 = testAllocNSet(1024);
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void *alloc6 = testAllocNSet(1024);
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void *alloc7 = testAllocNSet(4096);
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free(alloc1);
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free(alloc2);
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free(alloc3);
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free(alloc4);
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free(alloc5);
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free(alloc6);
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free(alloc7);
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void *alloc11 = testAllocNSet(1024);
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void *alloc12 = testAllocNSet(1024);
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void *alloc13 = testAllocNSet(1024);
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void *alloc14 = testAllocNSet(1024);
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void *alloc15 = testAllocNSet(1024);
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void *alloc16 = testAllocNSet(1024);
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free(alloc11);
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free(alloc12);
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free(alloc13);
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free(alloc14);
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free(alloc15);
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free(alloc16);
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2018-11-09 16:30:42 +01:00
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}
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2018-11-12 23:07:59 +01:00
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static void testPaging(void)
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{
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2020-04-27 00:14:37 +02:00
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printf("Testing paging\n");
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struct mem_desc *allocated_page_list;
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struct mem_desc
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*page; // Cast in mem_desc to use it. In fact it's the addr of 4K free memory
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list_init(allocated_page_list);
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int allocCount = 0;
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int freeCount = 0;
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2018-11-12 23:07:59 +01:00
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2020-04-27 00:14:37 +02:00
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while ((page = (struct mem_desc *)allocPhyPage()) != NULL) {
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assertmsg(pageMap((vaddr_t)page, (paddr_t)page, PAGING_MEM_WRITE) == 0,
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"Fail to map page %d\n", allocCount);
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memset(page, allocCount, PAGE_SIZE);
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allocCount++;
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list_add_tail(allocated_page_list, page);
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}
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printf("%d pages allocated\n", allocCount);
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2018-11-12 23:07:59 +01:00
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2020-04-27 00:14:37 +02:00
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while ((page = list_pop_head(allocated_page_list)) != NULL) {
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assertmsg((char)page->phy_addr == (char)freeCount, "page modified %d but is %d\n",
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freeCount, page->phy_addr);
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assertmsg(unrefPhyPage((ulong)page) >= 0, "Failed to free page %d\n", (ulong)page);
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pageUnmap((vaddr_t)page);
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freeCount++;
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}
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printf("%d pages freed\n", freeCount);
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2018-11-12 23:07:59 +01:00
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2020-04-27 00:14:37 +02:00
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assertmsg((page = (struct mem_desc *)allocPhyPage()) != NULL, "Cannot allocate memory\n");
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unrefPhyPage((ulong)page);
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2018-11-12 23:07:59 +01:00
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}
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2019-04-11 23:08:59 +02:00
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static void test_backtrace_2(int a, int b)
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{
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2020-04-27 00:14:37 +02:00
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printStackTrace(a + b);
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2018-11-19 13:56:19 +01:00
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}
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2019-04-11 23:08:59 +02:00
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static void test_backtrace_1(int a)
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{
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2020-04-27 00:14:37 +02:00
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test_backtrace_2(a, 3);
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2018-11-19 13:56:19 +01:00
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}
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2019-04-11 23:08:59 +02:00
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void test_backtrace()
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{
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2020-04-27 00:14:37 +02:00
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test_backtrace_1(2);
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2018-11-19 13:56:19 +01:00
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}
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2019-05-15 23:22:28 +02:00
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/* ======================================================================
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* Demonstrate the use of the CPU kernet context management API:
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* - A coroutine prints "Hlowrd" and switches to the other after each
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* letter
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* - A coroutine prints "el ol\n" and switches back to the other after
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* each letter.
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* The first to reach the '\n' returns back to main.
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*/
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struct cpu_state *ctxt_hello1;
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struct cpu_state *ctxt_hello2;
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struct cpu_state *ctxt_main;
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vaddr_t hello1_stack, hello2_stack;
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2020-04-27 00:14:37 +02:00
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static void reclaim_stack(void *stack_vaddr)
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2019-05-15 23:22:28 +02:00
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{
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free(stack_vaddr);
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}
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2020-04-27 00:14:37 +02:00
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static void exit_hello12(void *stack_vaddr)
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2019-05-15 23:22:28 +02:00
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{
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2020-04-27 00:14:37 +02:00
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cpu_context_exit_to(ctxt_main, (cpu_kstate_function_arg1_t *)reclaim_stack,
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(vaddr_t)stack_vaddr);
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2019-05-15 23:22:28 +02:00
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}
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static void hello1(void *strIn)
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{
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char *str = (char *)strIn;
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for (; *str != '\n'; str++) {
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printf("hello1: %c\n", *str);
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cpu_context_switch(&ctxt_hello1, ctxt_hello2);
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}
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/* You can uncomment this in case you explicitly want to exit
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now. But returning from the function will do the same */
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/* cpu_context_exit_to(ctxt_main,
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(cpu_kstate_function_arg1_t*) reclaim_stack,
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hello1_stack); */
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}
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static void hello2(void *strIn)
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{
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char *str = (char *)strIn;
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for (; *str != '\n'; str++) {
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printf("hello2: %c\n", *str);
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cpu_context_switch(&ctxt_hello2, ctxt_hello1);
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}
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/* You can uncomment this in case you explicitly want to exit
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now. But returning from the function will do the same */
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/* cpu_context_exit_to(ctxt_main,
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(cpu_kstate_function_arg1_t*) reclaim_stack,
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hello2_stack); */
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}
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void testCoroutine()
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{
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#define DEMO_STACK_SIZE 1024
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/* Allocate the stacks */
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hello1_stack = (vaddr_t)malloc(DEMO_STACK_SIZE);
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hello2_stack = (vaddr_t)malloc(DEMO_STACK_SIZE);
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/* Initialize the coroutines' contexts */
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cpu_kstate_init(&ctxt_hello1, (cpu_kstate_function_arg1_t *)hello1, (uint32_t) "Hlowrd",
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(vaddr_t)hello1_stack, DEMO_STACK_SIZE,
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(cpu_kstate_function_arg1_t *)exit_hello12, (uint32_t)hello1_stack);
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cpu_kstate_init(&ctxt_hello2, (cpu_kstate_function_arg1_t *)hello2, (uint32_t) "el ol\n",
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(vaddr_t)hello2_stack, DEMO_STACK_SIZE,
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(cpu_kstate_function_arg1_t *)exit_hello12, (uint32_t)hello2_stack);
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/* Go to first coroutine */
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printf("Printing Hello World\\n...\n");
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cpu_context_switch(&ctxt_main, ctxt_hello1);
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/* The first coroutine to reach the '\n' switched back to us */
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printf("Back in main !\n");
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}
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2020-04-24 23:34:34 +02:00
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static void kthread1(void *strIn)
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{
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char *str = (char *)strIn;
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for (; *str != '\n'; str++) {
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2020-07-06 17:21:49 +02:00
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printf("kth1: %c\n", *str);
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2020-04-27 00:14:37 +02:00
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kthreadYield();
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2020-04-24 23:34:34 +02:00
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}
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}
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static void kthread2(void *strIn)
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{
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char *str = (char *)strIn;
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for (; *str != '\n'; str++) {
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2020-07-06 17:21:49 +02:00
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printf("kth2: %c\n", *str);
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2020-04-27 00:14:37 +02:00
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kthreadYield();
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2020-04-24 23:34:34 +02:00
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}
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}
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2020-08-19 13:58:52 +02:00
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static int initialJiffies = 0;
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void sleepThread(void *arg)
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{
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2020-07-06 17:21:49 +02:00
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(void)arg;
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2020-08-19 13:58:52 +02:00
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int secSleep = 0;
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initialJiffies = jiffies;
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while (secSleep < 5) {
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// printf("Sleeping loop %d\n", secSleep);
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2020-07-06 17:21:49 +02:00
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secSleep++;
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kthreadMsleep(1000);
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}
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2020-08-19 13:58:52 +02:00
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unsigned long ellapsedTime = jiffies_to_msecs(jiffies - initialJiffies);
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assertmsg(ellapsedTime >= 5000 && ellapsedTime < 5100, "ellapsedTime %d\n", ellapsedTime);
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2020-07-08 23:12:45 +02:00
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kthreadMsleep(0);
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printf("I should never be showed\n");
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assert(1);
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}
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struct mutex mutexTest;
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2020-08-19 13:58:52 +02:00
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void mutThread(void *arg)
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{
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2020-07-08 23:12:45 +02:00
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(void)arg;
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printf("%s started\n", (char *)arg);
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int test = 5;
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2020-08-19 13:58:52 +02:00
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while (test > 0) {
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2020-07-08 23:12:45 +02:00
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mutexLock(&mutexTest);
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printf("%s sleep\n", (char *)arg);
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kthreadMsleep(1000);
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printf("%s up\n", (char *)arg);
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mutexUnlock(&mutexTest);
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test--;
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}
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2020-07-06 17:21:49 +02:00
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}
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2020-08-19 13:58:52 +02:00
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static int haveTimeout = 0;
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void wqThread(void *arg)
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{
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(void)arg;
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DECLARE_WAITQUEUE(test);
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2020-08-19 14:31:16 +02:00
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waitQueueInit(&test);
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2020-08-19 13:58:52 +02:00
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assert(waitTimeout(&test, 1000) == 1);
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2020-08-19 14:31:16 +02:00
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waitQueueFree(&test);
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2020-08-19 13:58:52 +02:00
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haveTimeout = 1;
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}
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2020-07-06 17:21:49 +02:00
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2020-04-24 23:34:34 +02:00
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void testKthread()
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{
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2020-07-08 23:12:45 +02:00
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mutexInit(&mutexTest);
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2020-07-06 17:21:49 +02:00
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// It is not expected to have necessarily "Hello world\n" properly written
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2020-04-27 00:14:37 +02:00
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kthreadCreate("Test2", (cpu_kstate_function_arg1_t *)kthread2, (void *)"el ol\n");
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2020-07-08 23:12:45 +02:00
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kthreadCreate("Test1", (cpu_kstate_function_arg1_t *)kthread1, (void *)"Hlowrd\n");
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2020-07-06 17:21:49 +02:00
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kthreadMsleep(1000);
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2020-08-19 13:58:52 +02:00
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kthreadCreate("wq timeout", wqThread, NULL);
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kthreadMsleep(2000);
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assert(haveTimeout);
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2020-07-06 17:21:49 +02:00
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kthreadCreate("sleep", sleepThread, NULL);
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2020-07-08 23:12:45 +02:00
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kthreadMsleep(5000);
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kthreadCreate("mtest1", mutThread, "mut1");
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kthreadCreate("mtest2", mutThread, "mut2");
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kthreadCreate("mtest3", mutThread, "mut3");
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2020-04-24 23:34:34 +02:00
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}
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2018-11-12 18:06:46 +01:00
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void run_test(void)
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2018-11-09 16:30:42 +01:00
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{
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2020-04-27 00:14:37 +02:00
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|
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testPaging();
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|
|
|
printf("Testing Serial\n");
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|
|
|
serialPutc('h');
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|
|
|
serialPutc('e');
|
|
|
|
serialPutc('l');
|
|
|
|
serialPutc('l');
|
|
|
|
serialPutc('o');
|
|
|
|
testAlloc();
|
|
|
|
printf("Testing backtrace\n");
|
|
|
|
test_backtrace();
|
|
|
|
testCoroutine();
|
|
|
|
testKthread();
|
2018-11-08 22:09:12 +01:00
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|
|
}
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