pokeemerald/test/test_runner.c

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18 KiB
C
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#include <stdarg.h>
#include "global.h"
#include "characters.h"
#include "gpu_regs.h"
#include "load_save.h"
#include "main.h"
#include "malloc.h"
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#include "random.h"
#include "test_runner.h"
#include "test/test.h"
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#define TIMEOUT_SECONDS 55
void CB2_TestRunner(void);
EWRAM_DATA struct TestRunnerState gTestRunnerState;
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EWRAM_DATA struct FunctionTestRunnerState *gFunctionTestRunnerState;
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enum {
CURRENT_TEST_STATE_ESTIMATE,
CURRENT_TEST_STATE_RUN,
};
__attribute__((section(".persistent"))) static struct {
u32 address:28;
u32 state:1;
} sCurrentTest = {0};
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++;
}
}
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enum
{
STATE_INIT,
STATE_NEXT_TEST,
STATE_RUN_TEST,
STATE_REPORT_RESULT,
STATE_EXIT,
};
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static u32 MinCostProcess(void)
{
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;
}
}
return minCostProcess;
}
// Greedily assign tests to processes based on estimated cost.
// TODO: Make processCosts a min heap.
static u32 AssignCostToRunner(void)
{
u32 minCostProcess;
if (gTestRunnerState.test->runner == &gAssumptionsRunner)
return gTestRunnerI;
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minCostProcess = MinCostProcess();
// XXX: If estimateCost returns only on some processes, or
// returns inconsistent results then processCosts will be
// inconsistent and some tests may not run.
if (gTestRunnerState.test->runner->estimateCost)
gTestRunnerState.processCosts[minCostProcess] += gTestRunnerState.test->runner->estimateCost(gTestRunnerState.test->data);
else
gTestRunnerState.processCosts[minCostProcess] += 1;
return minCostProcess;
}
void CB2_TestRunner(void)
{
switch (gTestRunnerState.state)
{
case STATE_INIT:
if (!MgbaOpen_())
{
gTestRunnerState.state = STATE_EXIT;
gTestRunnerState.exitCode = 2;
return;
}
MoveSaveBlocks_ResetHeap();
ClearSav1();
ClearSav2();
gIntrTable[7] = Intr_Timer2;
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// The current test restarted the ROM (e.g. by jumping to NULL).
if (sCurrentTest.address != 0)
{
gTestRunnerState.test = __start_tests;
while ((uintptr_t)gTestRunnerState.test != sCurrentTest.address)
{
AssignCostToRunner();
gTestRunnerState.test++;
}
if (sCurrentTest.state == CURRENT_TEST_STATE_ESTIMATE)
{
u32 runner = MinCostProcess();
gTestRunnerState.processCosts[runner] += 1;
if (runner == gTestRunnerI)
{
gTestRunnerState.state = STATE_REPORT_RESULT;
gTestRunnerState.result = TEST_RESULT_CRASH;
}
else
{
gTestRunnerState.state = STATE_NEXT_TEST;
}
}
else
{
gTestRunnerState.state = STATE_REPORT_RESULT;
gTestRunnerState.result = TEST_RESULT_CRASH;
}
}
else
{
gTestRunnerState.state = STATE_NEXT_TEST;
gTestRunnerState.test = __start_tests - 1;
}
gTestRunnerState.exitCode = 0;
gTestRunnerState.skipFilename = NULL;
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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;
}
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MgbaPrintf_(":N%s", gTestRunnerState.test->name);
gTestRunnerState.result = TEST_RESULT_PASS;
gTestRunnerState.expectedResult = TEST_RESULT_PASS;
gTestRunnerState.expectLeaks = FALSE;
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;
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sCurrentTest.address = (uintptr_t)gTestRunnerState.test;
sCurrentTest.state = CURRENT_TEST_STATE_ESTIMATE;
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if (AssignCostToRunner() == gTestRunnerI)
gTestRunnerState.state = STATE_RUN_TEST;
else
gTestRunnerState.state = STATE_NEXT_TEST;
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break;
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case STATE_RUN_TEST:
gTestRunnerState.state = STATE_REPORT_RESULT;
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sCurrentTest.state = CURRENT_TEST_STATE_RUN;
SeedRng(0);
SeedRng2(0);
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if (gTestRunnerState.test->runner->setUp)
gTestRunnerState.test->runner->setUp(gTestRunnerState.test->data);
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// NOTE: Assumes that the compiler interns __FILE__.
if (gTestRunnerState.skipFilename == gTestRunnerState.test->filename) // Assumption fails for tests in this file.
{
gTestRunnerState.result = TEST_RESULT_ASSUMPTION_FAIL;
return;
}
else
{
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.result == TEST_RESULT_PASS
&& !gTestRunnerState.expectLeaks)
{
const struct MemBlock *head = HeapHead();
const struct MemBlock *block = head;
do
{
if (block->magic != MALLOC_SYSTEM_ID
|| !(EWRAM_START <= (uintptr_t)block->next && (uintptr_t)block->next < EWRAM_END)
|| (block->next <= block && block->next != head))
{
MgbaPrintf_("gHeap corrupted block at 0x%p", block);
gTestRunnerState.result = TEST_RESULT_ERROR;
break;
}
if (block->allocated)
{
const char *location = MemBlockLocation(block);
if (location)
MgbaPrintf_("%s: %d bytes not freed", location, block->size);
else
MgbaPrintf_("<unknown>: %d bytes not freed", block->size);
gTestRunnerState.result = TEST_RESULT_FAIL;
}
block = block->next;
}
while (block != head);
}
if (gTestRunnerState.test->runner == &gAssumptionsRunner)
{
if (gTestRunnerState.result != TEST_RESULT_PASS)
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{
gTestRunnerState.skipFilename = gTestRunnerState.test->filename;
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}
}
else
{
const char *color;
const char *result;
if (gTestRunnerState.result == gTestRunnerState.expectedResult)
{
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;
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case TEST_RESULT_PASS:
result = "PASS";
break;
case TEST_RESULT_ASSUMPTION_FAIL:
result = "ASSUMPTION_FAIL";
color = "\e[33m";
break;
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case TEST_RESULT_TODO:
result = "TO_DO";
color = "\e[33m";
break;
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case TEST_RESULT_INVALID:
result = "INVALID";
break;
case TEST_RESULT_ERROR:
result = "ERROR";
break;
case TEST_RESULT_TIMEOUT:
result = "TIMEOUT";
break;
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case TEST_RESULT_CRASH:
result = "CRASH";
break;
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default:
result = "UNKNOWN";
break;
}
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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);
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else if (gTestRunnerState.result == TEST_RESULT_TODO)
MgbaPrintf_(":T%s%s\e[0m", color, result);
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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;
}
void Test_ExpectLeaks(bool32 expectLeaks)
{
gTestRunnerState.expectLeaks = expectLeaks;
}
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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
{
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if (gTestRunnerState.state == STATE_RUN_TEST)
gTestRunnerState.state = STATE_REPORT_RESULT;
gTestRunnerState.result = TEST_RESULT_TIMEOUT;
ReinitCallbacks();
IRQ_LR = ((uintptr_t)JumpToAgbMainLoop & ~1) + 4;
}
}
}
void Test_ExitWithResult(enum TestResult result, const char *fmt, ...)
{
gTestRunnerState.result = result;
ReinitCallbacks();
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if (gTestRunnerState.state == STATE_REPORT_RESULT
&& gTestRunnerState.result != gTestRunnerState.expectedResult)
{
if (!gTestRunnerState.test->runner->handleExitWithResult
|| !gTestRunnerState.test->runner->handleExitWithResult(gTestRunnerState.test->data, result))
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{
va_list va;
va_start(va, fmt);
MgbaVPrintf_(fmt, va);
va_end(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;
u32 p;
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 'p':
p = va_arg(va, unsigned);
{
s32 n;
for (n = 0; n < 7; n++)
{
unsigned nybble = (p >> (24 - (4*n))) & 0xF;
if (nybble <= 9)
i = MgbaPutchar_(i, '0' + nybble);
else
i = MgbaPutchar_(i, 'a' + nybble - 10);
}
}
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;
}