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1d3c804b6b9d2ffb6953a7ee98fabfd548915ad7
OpenCellular/tests/vboot_api_devmode_tests.c
Simon Glass 1d3c804b6b Implementation of Region API 
At present reading data from storage in Vboot is a little fragmented. For
the firmware image, we expect the boot loader to handle this. For the disk
we have a block-level API. For the GBB (which also sits in the firmware
image) we expect the entire thing to be read before Vboot is called.

Add the concept of a region, and an API to read from a region. At present,
and most pressing, is reading from a GBB region. In the future this could
be extended to other parts of the firmware or even the disk.

Move all access to the GBB into this API so that the boot loader can provide
either a GBB region in one large contiguous chunk, or a function to deal with
read requests from vboot.

The call to VbExRegionRead() is behind a flag since not all boot loaders
support it yet.

The main change for boot loaders which don't support this new API is that
vboot will do more behind the scenes. For example, it will allocate memory
for chunks of data that it reads from the GBB, rather than just accessing it
directly. This approach is considerably simpler than trying to pass char **
everywhere and have vboot decide whether something needs to be allocated or
not.

The tests are updated, mainly to include setting up a GBB structure
accessible from VbCommonParams, which is now required by the firmware and
kernel functions. In normal operation this is set up at the start of
VbLoadFIrmware() and VbSelectAndLoadKernel() but for tests which call
children of these functions directly, the GBB structure must be set up
manually by the test.

BUG=chrome-os-partner:21115
BRANCH=none
TEST=manual
FEATURES=test sudo -E  emerge vboot_reference

Change-Id: I2c19e9dc2ed602d0642bbf4f7d27f79fe9fad873
Signed-off-by: Simon Glass <sjg@chromium.org>
Reviewed-on: https://chromium-review.googlesource.com/63336
Reviewed-by: Randall Spangler <rspangler@chromium.org>
2013-08-28 18:30:35 +00:00

334 lines
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/* Copyright (c) 2011 The Chromium OS Authors. All rights reserved.
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*
* Tests for vboot_api_firmware
*/
#include <stddef.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include "crc32.h"
#include "gbb_header.h"
#include "host_common.h"
#include "load_kernel_fw.h"
#include "rollback_index.h"
#include "test_common.h"
#include "vboot_common.h"
#include "vboot_display.h"
#include "vboot_nvstorage.h"
#include "vboot_struct.h"
/* Expected results */
#define MAX_NOTE_EVENTS 10
#define TICKS_PER_MSEC 1900ULL
#define TIME_FUZZ 500
#define KBD_READ_TIME 60
typedef struct {
uint16_t msec;
uint16_t freq;
int time;
} note_event_t;
typedef struct {
char *name;
uint32_t gbb_flags;
VbError_t beep_return;
uint32_t keypress_key;
int keypress_at_count;
int num_events;
note_event_t notes[MAX_NOTE_EVENTS];
} test_case_t;
test_case_t test[] = {
{ "VbBootDeveloperSoundTest( fast, background )",
0x00000001, VBERROR_SUCCESS,
0, 0,
2,
{
{0, 0, 0}, // probing for capability
{0, 0, 2000}, // off and return at 2 seconds
}},
{ "VbBootDeveloperSoundTest( normal, background )",
0x00000000, VBERROR_SUCCESS,
0, 0,
6,
{
{0, 0, 0}, // probing for capability
{0, 400, 20000}, // starts first beep at 20 seconds
{0, 0, 20250}, // stops 250ms later
{0, 400, 20500}, // starts second beep
{0, 0, 20750}, // stops 250ms later
{0, 0, 30000}, // off and return at 30 seconds
}},
{ "VbBootDeveloperSoundTest( fast, no background )",
0x00000001, VBERROR_NO_BACKGROUND_SOUND,
0, 0,
2,
{
{0, 0, 0}, // probing for capability
{0, 0, 2000}, // off and return at 2 seconds
}},
{ "VbBootDeveloperSoundTest( normal, no background )",
0x00000000, VBERROR_NO_BACKGROUND_SOUND,
0, 0,
4,
{
{0, 0, 0}, // probing for capability
{250, 400, 20000}, // first beep at 20 seconds
{250, 400, 20510}, // second beep shortly after
{0, 0, 30020}, // off and return at 30 seconds
}},
// Now with some keypresses
{ "VbBootDeveloperSoundTest( normal, background, Ctrl-D )",
0x00000000, VBERROR_SUCCESS,
4, 10000, // Ctrl-D at 10 seconds
2,
{
{0, 0, 0}, // probing for capability
{0, 0, 10000}, // sees Ctrl-D, sound off, return
}},
{ "VbBootDeveloperSoundTest( normal, no background, Ctrl-D )",
0x00000000, VBERROR_NO_BACKGROUND_SOUND,
4, 20400, // Ctrl-D between beeps
3,
{
{0, 0, 0}, // probing for capability
{250, 400, 20000}, // first beep at 20 seconds
{0, 0, 20400}, // sees Ctrl-D, sound off, return
}},
{ "VbBootDeveloperSoundTest( normal, background, Ctrl-U not allowed )",
0x00000000, VBERROR_SUCCESS,
21, 10000, // Ctrl-U at 10 seconds
8,
{
{0, 0, 0}, // probing for capability
{120, 400, 10000}, // complains about Ctrl-U (one beep)
// waits 120ms...
{120, 400, 10240}, // complains about Ctrl-U (two beeps)
// original sequence is now shifted...
{0, 400, 20360}, // starts first beep at 20 seconds
{0, 0, 20610}, // stops 250ms later
{0, 400, 20860}, // starts second beep
{0, 0, 21110}, // stops 250ms later
{0, 0, 30360}, // returns at 30 seconds + 360ms
}},
};
/* Mock data */
static VbCommonParams cparams;
static LoadKernelParams lkparams;
static VbNvContext vnc;
static uint8_t shared_data[VB_SHARED_DATA_MIN_SIZE];
static VbSharedDataHeader* shared = (VbSharedDataHeader*)shared_data;
static GoogleBinaryBlockHeader gbb;
static int current_time;
static uint64_t current_ticks;
static int current_event;
static int max_events;
static int matched_events;
static int kbd_fire_at;
static uint32_t kbd_fire_key;
static VbError_t beep_return;
static note_event_t *expected_event;
/* Reset mock data (for use before each test) */
static void ResetMocks(void) {
Memset(&cparams, 0, sizeof(cparams));
cparams.shared_data_size = sizeof(shared_data);
cparams.shared_data_blob = shared_data;
cparams.gbb_data = &gbb;
cparams.gbb = &gbb;
Memset(&lkparams, 0, sizeof(lkparams));
Memset(&vnc, 0, sizeof(vnc));
VbNvSetup(&vnc);
VbNvTeardown(&vnc); /* So CRC gets generated */
Memset(&shared_data, 0, sizeof(shared_data));
VbSharedDataInit(shared, sizeof(shared_data));
shared->fw_keyblock_flags = 0xABCDE0;
Memset(&gbb, 0, sizeof(gbb));
gbb.major_version = GBB_MAJOR_VER;
gbb.minor_version = GBB_MINOR_VER;
gbb.flags = 0;
current_ticks = 0;
current_time = 0;
current_event = 0;
kbd_fire_at = 0;
kbd_fire_key = 0;
beep_return = VBERROR_SUCCESS;
matched_events = 0;
max_events = 0;
}
/****************************************************************************/
/* Mocked verification functions */
VbError_t VbExNvStorageRead(uint8_t* buf) {
Memcpy(buf, vnc.raw, sizeof(vnc.raw));
return VBERROR_SUCCESS;
}
VbError_t VbExNvStorageWrite(const uint8_t* buf) {
Memcpy(vnc.raw, buf, sizeof(vnc.raw));
return VBERROR_SUCCESS;
}
VbError_t VbExDiskGetInfo(VbDiskInfo** infos_ptr, uint32_t* count,
uint32_t disk_flags) {
return VBERROR_UNKNOWN;
}
VbError_t VbExDiskFreeInfo(VbDiskInfo* infos,
VbExDiskHandle_t preserve_handle) {
return VBERROR_SUCCESS;
}
VbError_t VbExDiskRead(VbExDiskHandle_t handle, uint64_t lba_start,
uint64_t lba_count, void* buffer) {
return VBERROR_UNKNOWN;
}
VbError_t VbExDiskWrite(VbExDiskHandle_t handle, uint64_t lba_start,
uint64_t lba_count, const void* buffer) {
return VBERROR_UNKNOWN;
}
uint32_t VbExIsShutdownRequested(void) {
return 0;
}
uint32_t VbExKeyboardRead(void) {
uint32_t tmp;
uint32_t now;
VbExSleepMs(KBD_READ_TIME);
now = current_time;
if (kbd_fire_key && now >= kbd_fire_at) {
VBDEBUG((" VbExKeyboardRead() - returning %d at %d msec\n",
kbd_fire_key, now));
tmp = kbd_fire_key;
kbd_fire_key = 0;
return tmp;
}
VBDEBUG((" VbExKeyboardRead() - returning %d at %d msec\n",
0, now));
return 0;
}
void VbExSleepMs(uint32_t msec) {
current_ticks += (uint64_t)msec * TICKS_PER_MSEC;
current_time = current_ticks / TICKS_PER_MSEC;
VBDEBUG(("VbExSleepMs(%d) -> %d\n", msec, current_time));
}
uint64_t VbExGetTimer(void) {
return current_ticks;
}
VbError_t VbExBeep(uint32_t msec, uint32_t frequency) {
VBDEBUG(("VbExBeep(%d, %d) at %d msec\n", msec, frequency, current_time));
if (current_event < max_events &&
msec == expected_event[current_event].msec &&
frequency == expected_event[current_event].freq &&
abs(current_time - expected_event[current_event].time) < TIME_FUZZ ) {
matched_events++;
}
if (msec)
VbExSleepMs(msec);
current_event++;
return beep_return;
}
VbError_t VbExDisplayScreen(uint32_t screen_type) {
switch(screen_type) {
case VB_SCREEN_BLANK:
VBDEBUG(("VbExDisplayScreen(BLANK)\n"));
break;
case VB_SCREEN_DEVELOPER_WARNING:
VBDEBUG(("VbExDisplayScreen(DEV)\n"));
break;
case VB_SCREEN_DEVELOPER_EGG:
VBDEBUG(("VbExDisplayScreen(EGG)\n"));
break;
case VB_SCREEN_RECOVERY_REMOVE:
VBDEBUG(("VbExDisplayScreen(REMOVE)\n"));
break;
case VB_SCREEN_RECOVERY_INSERT:
VBDEBUG(("VbExDisplayScreen(INSERT)\n"));
break;
case VB_SCREEN_RECOVERY_NO_GOOD:
VBDEBUG(("VbExDisplayScreen(NO_GOOD)\n"));
break;
default:
VBDEBUG(("VbExDisplayScreen(%d)\n", screen_type));
}
VBDEBUG((" current_time is %d msec\n", current_time));
return VBERROR_SUCCESS;
}
/****************************************************************************/
VbError_t VbBootDeveloper(VbCommonParams* cparams, LoadKernelParams* p);
static void VbBootDeveloperSoundTest(void) {
int i;
int num_tests = sizeof(test) / sizeof(test_case_t);
for (i=0; i<num_tests; i++) {
VBDEBUG(("STARTING %s ...\n", test[i].name));
ResetMocks();
gbb.flags = test[i].gbb_flags;
beep_return = test[i].beep_return;
kbd_fire_key = test[i].keypress_key;
kbd_fire_at = test[i].keypress_at_count;
max_events = test[i].num_events;
expected_event = test[i].notes;
(void) VbBootDeveloper(&cparams, &lkparams);
VBDEBUG(("INFO: matched %d total %d expected %d\n",
matched_events, current_event, test[i].num_events));
TEST_TRUE(matched_events == test[i].num_events &&
current_event == test[i].num_events, test[i].name);
}
}
int main(int argc, char* argv[]) {
int error_code = 0;
VbBootDeveloperSoundTest();
if (!gTestSuccess)
error_code = 255;
return error_code;
}
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