#include #include "global.h" #include "characters.h" #include "gpu_regs.h" #include "main.h" #include "malloc.h" #include "random.h" #include "test.h" #include "test_runner.h" #define TIMEOUT_SECONDS 55 void CB2_TestRunner(void); EWRAM_DATA struct TestRunnerState gTestRunnerState; EWRAM_DATA struct FunctionTestRunnerState *gFunctionTestRunnerState; void TestRunner_Battle(const struct Test *); static bool32 MgbaOpen_(void); static void MgbaExit_(u8 exitCode); static s32 MgbaPuts_(const char *s); static s32 MgbaVPrintf_(const char *fmt, va_list va); static void Intr_Timer2(void); extern const struct Test __start_tests[]; extern const struct Test __stop_tests[]; static bool32 PrefixMatch(const char *pattern, const char *string) { if (string == NULL) return TRUE; while (TRUE) { if (!*pattern) return TRUE; if (*pattern != *string) return FALSE; pattern++; string++; } } enum { STATE_INIT, STATE_NEXT_TEST, STATE_REPORT_RESULT, STATE_EXIT }; void CB2_TestRunner(void) { switch (gTestRunnerState.state) { case STATE_INIT: if (!MgbaOpen_()) { gTestRunnerState.state = STATE_EXIT; gTestRunnerState.exitCode = 2; return; } gIntrTable[7] = Intr_Timer2; gTestRunnerState.state = STATE_NEXT_TEST; gTestRunnerState.exitCode = 0; gTestRunnerState.tests = 0; gTestRunnerState.passes = 0; gTestRunnerState.skipFilename = NULL; gTestRunnerState.test = __start_tests - 1; break; case STATE_NEXT_TEST: gTestRunnerState.test++; if (gTestRunnerState.test == __stop_tests) { gTestRunnerState.state = STATE_EXIT; return; } if (gTestRunnerState.test->runner != &gAssumptionsRunner && !PrefixMatch(gTestRunnerArgv, gTestRunnerState.test->name)) { return; } // Greedily assign tests to processes based on estimated cost. // TODO: Make processCosts a min heap. if (gTestRunnerState.test->runner != &gAssumptionsRunner) { u32 i; u32 minCost, minCostProcess; minCost = gTestRunnerState.processCosts[0]; minCostProcess = 0; for (i = 1; i < gTestRunnerN; i++) { if (gTestRunnerState.processCosts[i] < minCost) { minCost = gTestRunnerState.processCosts[i]; minCostProcess = i; } } if (gTestRunnerState.test->runner->estimateCost) gTestRunnerState.processCosts[minCostProcess] += gTestRunnerState.test->runner->estimateCost(gTestRunnerState.test->data); else gTestRunnerState.processCosts[minCostProcess] += 1; if (minCostProcess != gTestRunnerI) return; } MgbaPrintf_(":N%s", gTestRunnerState.test->name); gTestRunnerState.state = STATE_REPORT_RESULT; gTestRunnerState.result = TEST_RESULT_PASS; gTestRunnerState.expectedResult = TEST_RESULT_PASS; if (gTestRunnerHeadless) gTestRunnerState.timeoutSeconds = TIMEOUT_SECONDS; else gTestRunnerState.timeoutSeconds = UINT_MAX; InitHeap(gHeap, HEAP_SIZE); EnableInterrupts(INTR_FLAG_TIMER2); REG_TM2CNT_L = UINT16_MAX - (274 * 60); // Approx. 1 second. REG_TM2CNT_H = TIMER_ENABLE | TIMER_INTR_ENABLE | TIMER_1024CLK; // NOTE: Assumes that the compiler interns __FILE__. if (gTestRunnerState.skipFilename == gTestRunnerState.test->filename) { gTestRunnerState.result = TEST_RESULT_ASSUMPTION_FAIL; } else { if (gTestRunnerState.test->runner->setUp) gTestRunnerState.test->runner->setUp(gTestRunnerState.test->data); gTestRunnerState.test->runner->run(gTestRunnerState.test->data); } break; case STATE_REPORT_RESULT: REG_TM2CNT_H = 0; gTestRunnerState.state = STATE_NEXT_TEST; if (gTestRunnerState.test->runner->tearDown) gTestRunnerState.test->runner->tearDown(gTestRunnerState.test->data); if (gTestRunnerState.test->runner == &gAssumptionsRunner) { if (gTestRunnerState.result != TEST_RESULT_PASS) gTestRunnerState.skipFilename = gTestRunnerState.test->filename; } else { const char *color; const char *result; gTestRunnerState.tests++; if (gTestRunnerState.result == gTestRunnerState.expectedResult) { gTestRunnerState.passes++; color = "\e[32m"; MgbaPrintf_(":N%s", gTestRunnerState.test->name); } else if (gTestRunnerState.result != TEST_RESULT_ASSUMPTION_FAIL || gTestRunnerSkipIsFail) { gTestRunnerState.exitCode = 1; color = "\e[31m"; } else { color = ""; } if (gTestRunnerState.result == TEST_RESULT_PASS && gTestRunnerState.result != gTestRunnerState.expectedResult) { MgbaPuts_("\e[31mPlease remove KNOWN_FAILING if this test intentionally PASSes\e[0m"); } switch (gTestRunnerState.result) { case TEST_RESULT_FAIL: if (gTestRunnerState.expectedResult == TEST_RESULT_FAIL) { result = "KNOWN_FAILING"; color = "\e[33m"; } else { result = "FAIL"; } break; case TEST_RESULT_PASS: result = "PASS"; break; case TEST_RESULT_ASSUMPTION_FAIL: result = "ASSUMPTION_FAIL"; color = "\e[33m"; break; case TEST_RESULT_TODO: result = "TO_DO"; color = "\e[33m"; break; case TEST_RESULT_INVALID: result = "INVALID"; break; case TEST_RESULT_ERROR: result = "ERROR"; break; case TEST_RESULT_TIMEOUT: result = "TIMEOUT"; break; default: result = "UNKNOWN"; break; } if (gTestRunnerState.result == TEST_RESULT_PASS) MgbaPrintf_(":P%s%s\e[0m", color, result); else if (gTestRunnerState.result == TEST_RESULT_ASSUMPTION_FAIL) MgbaPrintf_(":A%s%s\e[0m", color, result); else if (gTestRunnerState.result == TEST_RESULT_TODO) MgbaPrintf_(":T%s%s\e[0m", color, result); else if (gTestRunnerState.expectedResult == gTestRunnerState.result) MgbaPrintf_(":K%s%s\e[0m", color, result); else MgbaPrintf_(":F%s%s\e[0m", color, result); } break; case STATE_EXIT: MgbaExit_(gTestRunnerState.exitCode); break; } } void Test_ExpectedResult(enum TestResult result) { gTestRunnerState.expectedResult = result; } static void FunctionTest_SetUp(void *data) { (void)data; gFunctionTestRunnerState = AllocZeroed(sizeof(*gFunctionTestRunnerState)); SeedRng(0); } static void FunctionTest_Run(void *data) { void (*function)(void) = data; do { if (gFunctionTestRunnerState->parameters) MgbaPrintf_(":N%s %d/%d", gTestRunnerState.test->name, gFunctionTestRunnerState->runParameter + 1, gFunctionTestRunnerState->parameters); gFunctionTestRunnerState->parameters = 0; function(); } while (++gFunctionTestRunnerState->runParameter < gFunctionTestRunnerState->parameters); } static void FunctionTest_TearDown(void *data) { (void)data; FREE_AND_SET_NULL(gFunctionTestRunnerState); } const struct TestRunner gFunctionTestRunner = { .setUp = FunctionTest_SetUp, .run = FunctionTest_Run, .tearDown = FunctionTest_TearDown, }; static void Assumptions_Run(void *data) { void (*function)(void) = data; function(); } const struct TestRunner gAssumptionsRunner = { .run = Assumptions_Run, }; #define IRQ_LR (*(vu32 *)0x3007F9C) /* Returns to AgbMainLoop. * Similar to a longjmp except that we only restore sp (and cpsr via * overwriting the value of lr_irq on the stack). * * WARNING: This could potentially be flaky because other global state * will not be cleaned up, we may decide to Exit on a timeout instead. */ static NAKED void JumpToAgbMainLoop(void) { asm(".arm\n\ .word 0xe3104778\n\ ldr r0, =gAgbMainLoop_sp\n\ ldr sp, [r0]\n\ ldr r0, =AgbMainLoop\n\ bx r0\n\ .pool"); } void ReinitCallbacks(void) { gMain.callback1 = NULL; SetMainCallback2(CB2_TestRunner); gMain.vblankCallback = NULL; gMain.hblankCallback = NULL; } static void Intr_Timer2(void) { if (--gTestRunnerState.timeoutSeconds == 0) { if (gTestRunnerState.test->runner->checkProgress && gTestRunnerState.test->runner->checkProgress(gTestRunnerState.test->data)) { gTestRunnerState.timeoutSeconds = TIMEOUT_SECONDS; } else { gTestRunnerState.result = TEST_RESULT_TIMEOUT; ReinitCallbacks(); IRQ_LR = ((uintptr_t)JumpToAgbMainLoop & ~1) + 4; } } } void Test_ExitWithResult(enum TestResult result, const char *fmt, ...) { bool32 handled = FALSE; gTestRunnerState.result = result; ReinitCallbacks(); if (gTestRunnerState.test->runner->handleExitWithResult) handled = gTestRunnerState.test->runner->handleExitWithResult(gTestRunnerState.test->data, result); if (!handled && gTestRunnerState.result != gTestRunnerState.expectedResult) { va_list va; va_start(va, fmt); MgbaVPrintf_(fmt, va); } JumpToAgbMainLoop(); } #define REG_DEBUG_ENABLE (*(vu16 *)0x4FFF780) #define REG_DEBUG_FLAGS (*(vu16 *)0x4FFF700) #define REG_DEBUG_STRING ((char *)0x4FFF600) static bool32 MgbaOpen_(void) { REG_DEBUG_ENABLE = 0xC0DE; return REG_DEBUG_ENABLE == 0x1DEA; } static void MgbaExit_(u8 exitCode) { register u32 _exitCode asm("r0") = exitCode; asm("swi 0x3" :: "r" (_exitCode)); } static s32 MgbaPuts_(const char *s) { return MgbaPrintf_("%s", s); } s32 MgbaPrintf_(const char *fmt, ...) { va_list va; va_start(va, fmt); return MgbaVPrintf_(fmt, va); } static s32 MgbaPutchar_(s32 i, s32 c) { REG_DEBUG_STRING[i++] = c; if (i == 255) { REG_DEBUG_STRING[i] = '\0'; REG_DEBUG_FLAGS = MGBA_LOG_INFO | 0x100; i = 0; } return i; } extern const u8 gWireless_RSEtoASCIITable[]; // Bare-bones, only supports plain %s, %S, and %d. static s32 MgbaVPrintf_(const char *fmt, va_list va) { s32 i = 0; s32 c, d; const char *s; while (*fmt) { switch ((c = *fmt++)) { case '%': switch (*fmt++) { case '%': i = MgbaPutchar_(i, '%'); break; case 'd': d = va_arg(va, int); if (d == 0) { i = MgbaPutchar_(i, '0'); } else { char buffer[10]; s32 n = 0; u32 u = abs(d); if (d < 0) i = MgbaPutchar_(i, '-'); while (u > 0) { buffer[n++] = '0' + (u % 10); u /= 10; } while (n > 0) i = MgbaPutchar_(i, buffer[--n]); } break; case 'q': d = va_arg(va, int); { char buffer[10]; s32 n = 0; u32 u = abs(d) >> 12; if (u == 0) { i = MgbaPutchar_(i, '0'); } else { if (d < 0) i = MgbaPutchar_(i, '-'); while (u > 0) { buffer[n++] = '0' + (u % 10); u /= 10; } while (n > 0) i = MgbaPutchar_(i, buffer[--n]); } n = 0; i = MgbaPutchar_(i, '.'); u = d & 0xFFF; while (TRUE) { u *= 10; i = MgbaPutchar_(i, '0' + (u >> 12)); u &= 0xFFF; if (u == 0) break; if (++n == 2) { u *= 10; i = MgbaPutchar_(i, '0' + ((u + UQ_4_12_ROUND) >> 12)); break; } } } break; case 's': s = va_arg(va, const char *); while ((c = *s++) != '\0') i = MgbaPutchar_(i, c); break; case 'S': s = va_arg(va, const u8 *); while ((c = *s++) != EOS) { if ((c = gWireless_RSEtoASCIITable[c]) != '\0') i = MgbaPutchar_(i, c); else i = MgbaPutchar_(i, '?'); } break; } break; case '\n': i = 254; i = MgbaPutchar_(i, '\0'); break; default: i = MgbaPutchar_(i, c); break; } } if (i != 0) { REG_DEBUG_FLAGS = MGBA_LOG_INFO | 0x100; } return i; }