coreboot-libre-fam15h-rdimm/3rdparty/chromeec/common/physical_presence.c

327 lines
8.8 KiB
C

/* Copyright 2017 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.
*
* Physical presence detect state machine
*/
#include "common.h"
#include "console.h"
#include "hooks.h"
#include "physical_presence.h"
#include "task.h"
#include "timer.h"
#include "util.h"
#define CPRINTS(format, args...) cprints(CC_CCD, format, ## args)
#define CPRINTF(format, args...) cprintf(CC_CCD, format, ## args)
#ifdef CONFIG_PHYSICAL_PRESENCE_DEBUG_UNSAFE
/* More lenient physical presence for dev builds */
#define PP_SHORT_PRESS_COUNT 3
#define PP_SHORT_PRESS_MIN_INTERVAL_US (100 * MSEC)
#define PP_SHORT_PRESS_MAX_INTERVAL_US (15 * SECOND)
#define PP_LONG_PRESS_COUNT (PP_SHORT_PRESS_COUNT + 2)
#define PP_LONG_PRESS_MIN_INTERVAL_US (2 * SECOND)
#define PP_LONG_PRESS_MAX_INTERVAL_US (300 * SECOND)
#else
/* Stricter physical presence for non-dev builds */
#define PP_SHORT_PRESS_COUNT 5
#define PP_SHORT_PRESS_MIN_INTERVAL_US (100 * MSEC)
#define PP_SHORT_PRESS_MAX_INTERVAL_US (5 * SECOND)
#define PP_LONG_PRESS_COUNT (PP_SHORT_PRESS_COUNT + 4)
#define PP_LONG_PRESS_MIN_INTERVAL_US (60 * SECOND)
#define PP_LONG_PRESS_MAX_INTERVAL_US (300 * SECOND)
#endif
enum pp_detect_state {
PP_DETECT_IDLE = 0,
PP_DETECT_AWAITING_PRESS,
PP_DETECT_BETWEEN_PRESSES,
PP_DETECT_FINISHING,
PP_DETECT_ABORT
};
/* Physical presence state machine data */
static enum pp_detect_state pp_detect_state;
static void (*pp_detect_callback)(void);
static uint8_t pp_press_count;
static uint8_t pp_press_count_needed;
static uint64_t pp_last_press; /* Time of last press */
/*
* We need a mutex because physical_detect_start() and physical_detect_abort()
* could be called from multiple threads (TPM or console). And either of those
* could preempt the deferred functions for the state machine which run in the
* hook task.
*/
static struct mutex pp_mutex;
static int pp_detect_in_progress(void)
{
return ((pp_detect_state == PP_DETECT_AWAITING_PRESS) ||
(pp_detect_state == PP_DETECT_BETWEEN_PRESSES));
}
/******************************************************************************/
/*
* Deferred functions
*
* These are called by the hook task, so can't preempt each other. But they
* could be preempted by calls to physical_presence_start() or
* physical_presence_abort().
*/
/**
* Clean up at end of physical detect sequence.
*/
static void physical_detect_done(void)
{
/*
* Note that calling physical_detect_abort() from another thread after
* the start of physical_detect_done() but before mutex_lock() will
* result in another call to physical_detect_done() being queued up.
* That's harmless, because we go back to PP_DETECT_IDLE at the end of
* this call, so the second call will simply drop through without
* calling pp_detect_callback().
*/
mutex_lock(&pp_mutex);
if (!pp_detect_in_progress()) {
CPRINTF("\nPhysical presence check aborted.\n");
pp_detect_callback = NULL;
} else if (pp_press_count < pp_press_count_needed) {
CPRINTF("\nPhysical presence check timeout.\n");
pp_detect_callback = NULL;
}
pp_detect_state = PP_DETECT_FINISHING;
mutex_unlock(&pp_mutex);
/* No longer care about button presses */
board_physical_presence_enable(0);
/*
* Call the callback function. Do this outside the mutex, because the
* callback may take a while. If we kept holding the mutex, then calls
* to physical_detect_abort() or physical_detect_start() during the
* callback would block instead of simply failing.
*/
if (pp_detect_callback) {
CPRINTS("PP callback");
pp_detect_callback();
pp_detect_callback = NULL;
}
/* Now go to idle */
mutex_lock(&pp_mutex);
pp_detect_state = PP_DETECT_IDLE;
mutex_unlock(&pp_mutex);
}
DECLARE_DEFERRED(physical_detect_done);
/**
* Print a prompt when we've hit the minimum wait time
*/
static void physical_detect_prompt(void)
{
pp_detect_state = PP_DETECT_AWAITING_PRESS;
CPRINTF("\n\nPress the physical button now!\n\n");
}
DECLARE_DEFERRED(physical_detect_prompt);
/**
* Handle a physical present button press
*
* This is implemented as a deferred function so it can use the mutex.
*/
static void physical_detect_check_press(void)
{
uint64_t now = get_time().val;
uint64_t dt = now - pp_last_press;
mutex_lock(&pp_mutex);
CPRINTS("PP press dt=%.6ld", dt);
/* If we no longer care about presses, ignore them */
if (!pp_detect_in_progress())
goto pdpress_exit;
/* Ignore extra presses we don't need */
if (pp_press_count >= pp_press_count_needed)
goto pdpress_exit;
/* Ignore presses outside the expected interval */
if (pp_press_count < PP_SHORT_PRESS_COUNT) {
if (dt < PP_SHORT_PRESS_MIN_INTERVAL_US) {
CPRINTS("PP S too soon");
goto pdpress_exit;
}
if (dt > PP_SHORT_PRESS_MAX_INTERVAL_US) {
CPRINTS("PP S too late");
goto pdpress_exit;
}
} else {
if (dt < PP_LONG_PRESS_MIN_INTERVAL_US) {
CPRINTS("PP L too soon");
goto pdpress_exit;
}
if (dt > PP_LONG_PRESS_MAX_INTERVAL_US) {
CPRINTS("PP L too late");
goto pdpress_exit;
}
}
/* Ok, we need this press */
CPRINTS("PP press counted!");
pp_detect_state = PP_DETECT_BETWEEN_PRESSES;
pp_last_press = now;
pp_press_count++;
/* Set up call to done handler for timeout or actually done */
if (pp_press_count == pp_press_count_needed) {
/* Done, so call right away */
hook_call_deferred(&physical_detect_done_data, 0);
} else if (pp_press_count < PP_SHORT_PRESS_COUNT) {
hook_call_deferred(&physical_detect_prompt_data,
PP_SHORT_PRESS_MIN_INTERVAL_US);
hook_call_deferred(&physical_detect_done_data,
PP_SHORT_PRESS_MAX_INTERVAL_US);
} else {
CPRINTF("Another press will be required soon.\n");
dt = PP_LONG_PRESS_MAX_INTERVAL_US;
hook_call_deferred(&physical_detect_prompt_data,
PP_LONG_PRESS_MIN_INTERVAL_US);
hook_call_deferred(&physical_detect_done_data,
PP_LONG_PRESS_MAX_INTERVAL_US);
}
pdpress_exit:
mutex_unlock(&pp_mutex);
}
DECLARE_DEFERRED(physical_detect_check_press);
/******************************************************************************/
/* Interface */
int physical_detect_start(int is_long, void (*callback)(void))
{
mutex_lock(&pp_mutex);
/* Fail if detection is already in progress */
if (pp_detect_state != PP_DETECT_IDLE) {
mutex_unlock(&pp_mutex);
return EC_ERROR_BUSY;
}
pp_press_count_needed = is_long ? PP_LONG_PRESS_COUNT :
PP_SHORT_PRESS_COUNT;
pp_press_count = 0;
pp_last_press = get_time().val;
pp_detect_callback = callback;
pp_detect_state = PP_DETECT_BETWEEN_PRESSES;
mutex_unlock(&pp_mutex);
/* Start capturing button presses */
hook_call_deferred(&physical_detect_check_press_data, -1);
board_physical_presence_enable(1);
CPRINTS("PP start %s", is_long ? "long" : "short");
/* Initial timeout is for a short press */
hook_call_deferred(&physical_detect_prompt_data,
PP_SHORT_PRESS_MIN_INTERVAL_US);
hook_call_deferred(&physical_detect_done_data,
PP_SHORT_PRESS_MAX_INTERVAL_US);
return EC_SUCCESS;
}
int physical_detect_busy(void)
{
return pp_detect_state != PP_DETECT_IDLE;
}
void physical_detect_abort(void)
{
mutex_lock(&pp_mutex);
if (pp_detect_in_progress()) {
CPRINTS("PP abort");
pp_detect_state = PP_DETECT_ABORT;
/* Speed up call to done */
hook_call_deferred(&physical_detect_prompt_data, -1);
hook_call_deferred(&physical_detect_check_press_data, -1);
hook_call_deferred(&physical_detect_done_data, 0);
}
mutex_unlock(&pp_mutex);
}
int physical_detect_press(void)
{
/* Ignore presses if we're idle */
if (pp_detect_state == PP_DETECT_IDLE)
return EC_ERROR_NOT_HANDLED;
/* Call the deferred function to do the work */
hook_call_deferred(&physical_detect_check_press_data, 0);
return EC_SUCCESS;
}
enum pp_fsm_state physical_presense_fsm_state(void)
{
switch (pp_detect_state) {
case PP_DETECT_AWAITING_PRESS:
return PP_AWAITING_PRESS;
case PP_DETECT_BETWEEN_PRESSES:
return PP_BETWEEN_PRESSES;
default:
break;
}
return PP_OTHER;
}
#ifdef CONFIG_PHYSICAL_PRESENCE_DEBUG_UNSAFE
/**
* Test callback function
*/
static void pp_test_callback(void)
{
ccprintf("\nPhysical presence good\n");
}
/**
* Test physical presence.
*/
static int command_ppresence(int argc, char **argv)
{
/* Print current status */
ccprintf("PP state: %d, %d/%d, dt=%.6ld\n",
pp_detect_state, pp_press_count, pp_press_count_needed,
get_time().val - pp_last_press);
/* With no args, simulate a button press */
if (argc < 2) {
physical_detect_press();
return EC_SUCCESS;
}
if (!strcasecmp(argv[1], "short")) {
return physical_detect_start(0, pp_test_callback);
} else if (!strcasecmp(argv[1], "long")) {
return physical_detect_start(1, pp_test_callback);
} else if (!strcasecmp(argv[1], "abort")) {
physical_detect_abort();
return EC_SUCCESS;
} else {
return EC_ERROR_PARAM1;
}
}
DECLARE_SAFE_CONSOLE_COMMAND(ppresence, command_ppresence,
"[short | long | abort]",
"Test physical presence press or sequence");
#endif