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|
/* Copyright (c) 2014 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.
*/
#include "battery.h"
#include "board.h"
#include "case_closed_debug.h"
#include "charge_manager.h"
#include "charge_state.h"
#include "chipset.h"
#include "common.h"
#include "console.h"
#include "ec_commands.h"
#include "gpio.h"
#include "hooks.h"
#include "host_command.h"
#include "registers.h"
#include "system.h"
#include "task.h"
#include "timer.h"
#include "util.h"
#include "usb_charge.h"
#include "usb_mux.h"
#include "usb_pd.h"
#include "usb_pd_tcpm.h"
#include "version.h"
#ifdef CONFIG_COMMON_RUNTIME
#define CPRINTF(format, args...) cprintf(CC_USBPD, format, ## args)
#define CPRINTS(format, args...) cprints(CC_USBPD, format, ## args)
/*
* Debug log level - higher number == more log
* Level 0: Log state transitions
* Level 1: Level 0, plus packet info
* Level 2: Level 1, plus ping packet and packet dump on error
*
* Note that higher log level causes timing changes and thus may affect
* performance.
*/
static int debug_level;
/*
* PD communication enabled flag. When false, PD state machine still
* detects source/sink connection and disconnection, and will still
* provide VBUS, but never sends any PD communication.
*/
static uint8_t pd_comm_enabled = CONFIG_USB_PD_COMM_ENABLED;
#else
#define CPRINTF(format, args...)
static const int debug_level;
static const uint8_t pd_comm_enabled = 1;
#endif
#ifdef CONFIG_USB_PD_DUAL_ROLE
#define DUAL_ROLE_IF_ELSE(port, sink_clause, src_clause) \
(pd[port].power_role == PD_ROLE_SINK ? (sink_clause) : (src_clause))
#else
#define DUAL_ROLE_IF_ELSE(port, sink_clause, src_clause) (src_clause)
#endif
#define READY_RETURN_STATE(port) DUAL_ROLE_IF_ELSE(port, PD_STATE_SNK_READY, \
PD_STATE_SRC_READY)
/* Type C supply voltage (mV) */
#define TYPE_C_VOLTAGE 5000 /* mV */
/* PD counter definitions */
#define PD_MESSAGE_ID_COUNT 7
#define PD_HARD_RESET_COUNT 2
#define PD_CAPS_COUNT 50
#define PD_SNK_CAP_RETRIES 3
enum vdm_states {
VDM_STATE_ERR_BUSY = -3,
VDM_STATE_ERR_SEND = -2,
VDM_STATE_ERR_TMOUT = -1,
VDM_STATE_DONE = 0,
/* Anything >0 represents an active state */
VDM_STATE_READY = 1,
VDM_STATE_BUSY = 2,
VDM_STATE_WAIT_RSP_BUSY = 3,
};
#ifdef CONFIG_USB_PD_DUAL_ROLE
/* Port dual-role state */
enum pd_dual_role_states drp_state = PD_DRP_TOGGLE_OFF;
/* Last received source cap */
static uint32_t pd_src_caps[CONFIG_USB_PD_PORT_COUNT][PDO_MAX_OBJECTS];
static int pd_src_cap_cnt[CONFIG_USB_PD_PORT_COUNT];
/* Enable varible for Try.SRC states */
static uint8_t pd_try_src_enable;
#endif
static struct pd_protocol {
/* current port power role (SOURCE or SINK) */
uint8_t power_role;
/* current port data role (DFP or UFP) */
uint8_t data_role;
/* port flags, see PD_FLAGS_* */
uint16_t flags;
/* 3-bit rolling message ID counter */
uint8_t msg_id;
/* Port polarity : 0 => CC1 is CC line, 1 => CC2 is CC line */
uint8_t polarity;
/* PD state for port */
enum pd_states task_state;
/* PD state when we run state handler the last time */
enum pd_states last_state;
/* The state to go to after timeout */
enum pd_states timeout_state;
/* Timeout for the current state. Set to 0 for no timeout. */
uint64_t timeout;
/* Time for source recovery after hard reset */
uint64_t src_recover;
/* Time for CC debounce end */
uint64_t cc_debounce;
/* The cc state */
enum pd_cc_states cc_state;
/* status of last transmit */
uint8_t tx_status;
/* last requested voltage PDO index */
int requested_idx;
#ifdef CONFIG_USB_PD_DUAL_ROLE
/* Current limit / voltage based on the last request message */
uint32_t curr_limit;
uint32_t supply_voltage;
/* Signal charging update that affects the port */
int new_power_request;
/* Store previously requested voltage request */
int prev_request_mv;
/* Time for Try.SRC states */
uint64_t try_src_marker;
#endif
/* PD state for Vendor Defined Messages */
enum vdm_states vdm_state;
/* Timeout for the current vdm state. Set to 0 for no timeout. */
timestamp_t vdm_timeout;
/* next Vendor Defined Message to send */
uint32_t vdo_data[VDO_MAX_SIZE];
uint8_t vdo_count;
/* VDO to retry if UFP responder replied busy. */
uint32_t vdo_retry;
/* Attached ChromeOS device id, RW hash, and current RO / RW image */
uint16_t dev_id;
uint32_t dev_rw_hash[PD_RW_HASH_SIZE/4];
enum ec_current_image current_image;
} pd[CONFIG_USB_PD_PORT_COUNT];
#ifdef CONFIG_COMMON_RUNTIME
static const char * const pd_state_names[] = {
"DISABLED", "SUSPENDED",
#ifdef CONFIG_USB_PD_DUAL_ROLE
"SNK_DISCONNECTED", "SNK_DISCONNECTED_DEBOUNCE",
"SNK_HARD_RESET_RECOVER",
"SNK_DISCOVERY", "SNK_REQUESTED", "SNK_TRANSITION", "SNK_READY",
"SNK_SWAP_INIT", "SNK_SWAP_SNK_DISABLE",
"SNK_SWAP_SRC_DISABLE", "SNK_SWAP_STANDBY", "SNK_SWAP_COMPLETE",
#endif /* CONFIG_USB_PD_DUAL_ROLE */
"SRC_DISCONNECTED", "SRC_DISCONNECTED_DEBOUNCE", "SRC_ACCESSORY",
"SRC_HARD_RESET_RECOVER", "SRC_STARTUP",
"SRC_DISCOVERY", "SRC_NEGOCIATE", "SRC_ACCEPTED", "SRC_POWERED",
"SRC_TRANSITION", "SRC_READY", "SRC_GET_SNK_CAP", "DR_SWAP",
#ifdef CONFIG_USB_PD_DUAL_ROLE
"SRC_SWAP_INIT", "SRC_SWAP_SNK_DISABLE", "SRC_SWAP_SRC_DISABLE",
"SRC_SWAP_STANDBY",
#ifdef CONFIG_USBC_VCONN_SWAP
"VCONN_SWAP_SEND", "VCONN_SWAP_INIT", "VCONN_SWAP_READY",
#endif /* CONFIG_USBC_VCONN_SWAP */
#endif /* CONFIG_USB_PD_DUAL_ROLE */
"SOFT_RESET", "HARD_RESET_SEND", "HARD_RESET_EXECUTE", "BIST_RX",
"BIST_TX",
};
BUILD_ASSERT(ARRAY_SIZE(pd_state_names) == PD_STATE_COUNT);
#endif
/*
* 4 entry rw_hash table of type-C devices that AP has firmware updates for.
*/
#ifdef CONFIG_COMMON_RUNTIME
#define RW_HASH_ENTRIES 4
static struct ec_params_usb_pd_rw_hash_entry rw_hash_table[RW_HASH_ENTRIES];
#endif
static inline void set_state_timeout(int port,
uint64_t timeout,
enum pd_states timeout_state)
{
pd[port].timeout = timeout;
pd[port].timeout_state = timeout_state;
}
/* Return flag for pd state is connected */
int pd_is_connected(int port)
{
if (pd[port].task_state == PD_STATE_DISABLED)
return 0;
return DUAL_ROLE_IF_ELSE(port,
/* sink */
pd[port].task_state != PD_STATE_SNK_DISCONNECTED &&
pd[port].task_state != PD_STATE_SNK_DISCONNECTED_DEBOUNCE,
/* source */
pd[port].task_state != PD_STATE_SRC_DISCONNECTED &&
pd[port].task_state != PD_STATE_SRC_DISCONNECTED_DEBOUNCE);
}
#ifdef CONFIG_USB_PD_DUAL_ROLE
void pd_vbus_low(int port)
{
pd[port].flags &= ~PD_FLAGS_VBUS_NEVER_LOW;
}
static inline int pd_is_vbus_present(int port)
{
#ifdef CONFIG_USB_PD_TCPM_VBUS
return tcpm_get_vbus_level(port);
#else
return pd_snk_is_vbus_provided(port);
#endif
}
static int pd_snk_debug_acc_toggle(int port)
{
#ifdef CONFIG_CASE_CLOSED_DEBUG
/*
* when we are in SNK_DISCONNECTED and we see VBUS appearing
* (without having seen Rp before), that might be a powered debug
* accessory, let's toggle to source to try to detect it.
*/
return pd_is_vbus_present(port);
#else
/* Debug accessories not supported, never toggle */
return 0;
#endif
}
static int pd_debug_acc_plugged(int port)
{
#ifdef CONFIG_CASE_CLOSED_DEBUG
return pd[port].task_state == PD_STATE_SRC_ACCESSORY;
#else
/* Debug accessories not supported */
return 0;
#endif
}
#endif
static inline void set_state(int port, enum pd_states next_state)
{
enum pd_states last_state = pd[port].task_state;
#ifdef CONFIG_LOW_POWER_IDLE
int i;
#endif
set_state_timeout(port, 0, 0);
pd[port].task_state = next_state;
if (last_state == next_state)
return;
#ifdef CONFIG_USB_PD_DUAL_ROLE
/* Ignore dual-role toggling between sink and source */
if ((last_state == PD_STATE_SNK_DISCONNECTED &&
next_state == PD_STATE_SRC_DISCONNECTED) ||
(last_state == PD_STATE_SRC_DISCONNECTED &&
next_state == PD_STATE_SNK_DISCONNECTED))
return;
#endif
#ifdef CONFIG_USB_PD_DUAL_ROLE
if (next_state == PD_STATE_SRC_DISCONNECTED ||
next_state == PD_STATE_SNK_DISCONNECTED) {
/* Clear the input current limit */
pd_set_input_current_limit(port, 0, 0);
#ifdef CONFIG_CHARGE_MANAGER
typec_set_input_current_limit(port, 0, 0);
charge_manager_set_ceil(port,
CEIL_REQUESTOR_PD,
CHARGE_CEIL_NONE);
#endif
#ifdef CONFIG_USBC_VCONN
tcpm_set_vconn(port, 0);
#endif
#else /* CONFIG_USB_PD_DUAL_ROLE */
if (next_state == PD_STATE_SRC_DISCONNECTED) {
#endif
/* If we are source, make sure VBUS is off */
if (pd[port].power_role == PD_ROLE_SOURCE)
pd_power_supply_reset(port);
pd[port].dev_id = 0;
pd[port].flags &= ~PD_FLAGS_RESET_ON_DISCONNECT_MASK;
#ifdef CONFIG_CHARGE_MANAGER
charge_manager_update_dualrole(port, CAP_UNKNOWN);
#endif
#ifdef CONFIG_USB_PD_ALT_MODE_DFP
pd_dfp_exit_mode(port, 0, 0);
#endif
#ifdef CONFIG_USBC_SS_MUX
usb_mux_set(port, TYPEC_MUX_NONE, USB_SWITCH_DISCONNECT,
pd[port].polarity);
#endif
/* Disable TCPC RX */
tcpm_set_rx_enable(port, 0);
}
#ifdef CONFIG_LOW_POWER_IDLE
/* If any PD port is connected, then disable deep sleep */
for (i = 0; i < CONFIG_USB_PD_PORT_COUNT; i++) {
if (pd_is_connected(i))
break;
}
if (i == CONFIG_USB_PD_PORT_COUNT)
enable_sleep(SLEEP_MASK_USB_PD);
else
disable_sleep(SLEEP_MASK_USB_PD);
#endif
CPRINTF("C%d st%d\n", port, next_state);
}
/* increment message ID counter */
static void inc_id(int port)
{
pd[port].msg_id = (pd[port].msg_id + 1) & PD_MESSAGE_ID_COUNT;
}
void pd_transmit_complete(int port, int status)
{
if (status == TCPC_TX_COMPLETE_SUCCESS)
inc_id(port);
pd[port].tx_status = status;
task_set_event(PD_PORT_TO_TASK_ID(port), PD_EVENT_TX, 0);
}
static int pd_transmit(int port, enum tcpm_transmit_type type,
uint16_t header, const uint32_t *data)
{
int evt;
/* If comms are disabled, do not transmit, return error */
if (!pd_comm_enabled)
return -1;
tcpm_transmit(port, type, header, data);
/* Wait until TX is complete */
evt = task_wait_event_mask(PD_EVENT_TX, PD_T_TCPC_TX_TIMEOUT);
if (evt & TASK_EVENT_TIMER)
return -1;
/* TODO: give different error condition for failed vs discarded */
return pd[port].tx_status == TCPC_TX_COMPLETE_SUCCESS ? 1 : -1;
}
static void pd_update_roles(int port)
{
/* Notify TCPC of role update */
tcpm_set_msg_header(port, pd[port].power_role, pd[port].data_role);
}
static int send_control(int port, int type)
{
int bit_len;
uint16_t header = PD_HEADER(type, pd[port].power_role,
pd[port].data_role, pd[port].msg_id, 0);
bit_len = pd_transmit(port, TCPC_TX_SOP, header, NULL);
if (debug_level >= 1)
CPRINTF("CTRL[%d]>%d\n", type, bit_len);
return bit_len;
}
static int send_source_cap(int port)
{
int bit_len;
#ifdef CONFIG_USB_PD_DYNAMIC_SRC_CAP
const uint32_t *src_pdo;
const int src_pdo_cnt = pd_get_source_pdo(&src_pdo);
#else
const uint32_t *src_pdo = pd_src_pdo;
const int src_pdo_cnt = pd_src_pdo_cnt;
#endif
uint16_t header;
if (src_pdo_cnt == 0)
/* No source capabilities defined, sink only */
header = PD_HEADER(PD_CTRL_REJECT, pd[port].power_role,
pd[port].data_role, pd[port].msg_id, 0);
else
header = PD_HEADER(PD_DATA_SOURCE_CAP, pd[port].power_role,
pd[port].data_role, pd[port].msg_id, src_pdo_cnt);
bit_len = pd_transmit(port, TCPC_TX_SOP, header, src_pdo);
if (debug_level >= 1)
CPRINTF("srcCAP>%d\n", bit_len);
return bit_len;
}
#ifdef CONFIG_USB_PD_DUAL_ROLE
static void send_sink_cap(int port)
{
int bit_len;
uint16_t header = PD_HEADER(PD_DATA_SINK_CAP, pd[port].power_role,
pd[port].data_role, pd[port].msg_id, pd_snk_pdo_cnt);
bit_len = pd_transmit(port, TCPC_TX_SOP, header, pd_snk_pdo);
if (debug_level >= 1)
CPRINTF("snkCAP>%d\n", bit_len);
}
static int send_request(int port, uint32_t rdo)
{
int bit_len;
uint16_t header = PD_HEADER(PD_DATA_REQUEST, pd[port].power_role,
pd[port].data_role, pd[port].msg_id, 1);
bit_len = pd_transmit(port, TCPC_TX_SOP, header, &rdo);
if (debug_level >= 1)
CPRINTF("REQ%d>\n", bit_len);
return bit_len;
}
#endif /* CONFIG_USB_PD_DUAL_ROLE */
#ifdef CONFIG_COMMON_RUNTIME
static int send_bist_cmd(int port)
{
/* currently only support sending bist carrier 2 */
uint32_t bdo = BDO(BDO_MODE_CARRIER2, 0);
int bit_len;
uint16_t header = PD_HEADER(PD_DATA_BIST, pd[port].power_role,
pd[port].data_role, pd[port].msg_id, 1);
bit_len = pd_transmit(port, TCPC_TX_SOP, header, &bdo);
CPRINTF("BIST>%d\n", bit_len);
return bit_len;
}
#endif
static void queue_vdm(int port, uint32_t *header, const uint32_t *data,
int data_cnt)
{
pd[port].vdo_count = data_cnt + 1;
pd[port].vdo_data[0] = header[0];
memcpy(&pd[port].vdo_data[1], data, sizeof(uint32_t) * data_cnt);
/* Set ready, pd task will actually send */
pd[port].vdm_state = VDM_STATE_READY;
}
static void handle_vdm_request(int port, int cnt, uint32_t *payload)
{
int rlen = 0;
uint32_t *rdata;
if (pd[port].vdm_state == VDM_STATE_BUSY) {
/* If UFP responded busy retry after timeout */
if (PD_VDO_CMDT(payload[0]) == CMDT_RSP_BUSY) {
pd[port].vdm_timeout.val = get_time().val +
PD_T_VDM_BUSY;
pd[port].vdm_state = VDM_STATE_WAIT_RSP_BUSY;
pd[port].vdo_retry = (payload[0] & ~VDO_CMDT_MASK) |
CMDT_INIT;
return;
} else {
pd[port].vdm_state = VDM_STATE_DONE;
}
}
if (PD_VDO_SVDM(payload[0]))
rlen = pd_svdm(port, cnt, payload, &rdata);
else
rlen = pd_custom_vdm(port, cnt, payload, &rdata);
if (rlen > 0) {
queue_vdm(port, rdata, &rdata[1], rlen - 1);
return;
}
if (debug_level >= 1)
CPRINTF("Unhandled VDM VID %04x CMD %04x\n",
PD_VDO_VID(payload[0]), payload[0] & 0xFFFF);
}
void pd_execute_hard_reset(int port)
{
if (pd[port].last_state == PD_STATE_HARD_RESET_SEND)
CPRINTF("C%d HARD RST TX\n", port);
else
CPRINTF("C%d HARD RST RX\n", port);
pd[port].msg_id = 0;
#ifdef CONFIG_USB_PD_ALT_MODE_DFP
pd_dfp_exit_mode(port, 0, 0);
#endif
/*
* Fake set last state to hard reset to make sure that the next
* state to run knows that we just did a hard reset.
*/
pd[port].last_state = PD_STATE_HARD_RESET_EXECUTE;
#ifdef CONFIG_USB_PD_DUAL_ROLE
/*
* If we are swapping to a source and have changed to Rp, restore back
* to Rd and turn off vbus to match our power_role.
*/
if (pd[port].task_state == PD_STATE_SNK_SWAP_STANDBY ||
pd[port].task_state == PD_STATE_SNK_SWAP_COMPLETE) {
tcpm_set_cc(port, TYPEC_CC_RD);
pd_power_supply_reset(port);
}
if (pd[port].power_role == PD_ROLE_SINK) {
/* Clear the input current limit */
pd_set_input_current_limit(port, 0, 0);
#ifdef CONFIG_CHARGE_MANAGER
charge_manager_set_ceil(port,
CEIL_REQUESTOR_PD,
CHARGE_CEIL_NONE);
#endif /* CONFIG_CHARGE_MANAGER */
set_state(port, PD_STATE_SNK_HARD_RESET_RECOVER);
return;
}
#endif /* CONFIG_USB_PD_DUAL_ROLE */
/* We are a source, cut power */
pd_power_supply_reset(port);
pd[port].src_recover = get_time().val + PD_T_SRC_RECOVER;
set_state(port, PD_STATE_SRC_HARD_RESET_RECOVER);
}
static void execute_soft_reset(int port)
{
pd[port].msg_id = 0;
set_state(port, DUAL_ROLE_IF_ELSE(port, PD_STATE_SNK_DISCOVERY,
PD_STATE_SRC_DISCOVERY));
CPRINTF("C%d Soft Rst\n", port);
}
void pd_soft_reset(void)
{
int i;
for (i = 0; i < CONFIG_USB_PD_PORT_COUNT; ++i)
if (pd_is_connected(i)) {
set_state(i, PD_STATE_SOFT_RESET);
task_wake(PD_PORT_TO_TASK_ID(i));
}
}
#ifdef CONFIG_USB_PD_DUAL_ROLE
static void pd_store_src_cap(int port, int cnt, uint32_t *src_caps)
{
int i;
pd_src_cap_cnt[port] = cnt;
for (i = 0; i < cnt; i++)
pd_src_caps[port][i] = *src_caps++;
}
static void pd_send_request_msg(int port, int always_send_request)
{
uint32_t rdo, curr_limit, supply_voltage;
int res;
#ifdef CONFIG_CHARGE_MANAGER
int charging = (charge_manager_get_active_charge_port() == port);
#else
const int charging = 1;
#endif
#ifdef CONFIG_USB_PD_CHECK_MAX_REQUEST_ALLOWED
int max_request_allowed = pd_is_max_request_allowed();
#else
const int max_request_allowed = 1;
#endif
/* Clear new power request */
pd[port].new_power_request = 0;
/* Build and send request RDO */
/*
* If this port is not actively charging or we are not allowed to
* request the max voltage, then select vSafe5V
*/
res = pd_build_request(pd_src_cap_cnt[port], pd_src_caps[port],
&rdo, &curr_limit, &supply_voltage,
charging && max_request_allowed ?
PD_REQUEST_MAX : PD_REQUEST_VSAFE5V);
if (res != EC_SUCCESS)
/*
* If fail to choose voltage, do nothing, let source re-send
* source cap
*/
return;
/* Don't re-request the same voltage */
if (!always_send_request && pd[port].prev_request_mv == supply_voltage)
return;
CPRINTF("Req C%d [%d] %dmV %dmA", port, RDO_POS(rdo),
supply_voltage, curr_limit);
if (rdo & RDO_CAP_MISMATCH)
CPRINTF(" Mismatch");
CPRINTF("\n");
pd[port].curr_limit = curr_limit;
pd[port].supply_voltage = supply_voltage;
pd[port].prev_request_mv = supply_voltage;
res = send_request(port, rdo);
if (res >= 0)
set_state(port, PD_STATE_SNK_REQUESTED);
/* If fail send request, do nothing, let source re-send source cap */
}
#endif
static void pd_update_pdo_flags(int port, uint32_t pdo)
{
#ifdef CONFIG_CHARGE_MANAGER
#ifdef CONFIG_USB_PD_ALT_MODE_DFP
int charge_whitelisted =
(pd[port].power_role == PD_ROLE_SINK &&
pd_charge_from_device(pd_get_identity_vid(port),
pd_get_identity_pid(port)));
#else
const int charge_whitelisted = 0;
#endif
#endif
/* can only parse PDO flags if type is fixed */
if ((pdo & PDO_TYPE_MASK) != PDO_TYPE_FIXED)
return;
#ifdef CONFIG_USB_PD_DUAL_ROLE
if (pdo & PDO_FIXED_DUAL_ROLE)
pd[port].flags |= PD_FLAGS_PARTNER_DR_POWER;
else
pd[port].flags &= ~PD_FLAGS_PARTNER_DR_POWER;
if (pdo & PDO_FIXED_EXTERNAL)
pd[port].flags |= PD_FLAGS_PARTNER_EXTPOWER;
else
pd[port].flags &= ~PD_FLAGS_PARTNER_EXTPOWER;
if (pdo & PDO_FIXED_COMM_CAP)
pd[port].flags |= PD_FLAGS_PARTNER_USB_COMM;
else
pd[port].flags &= ~PD_FLAGS_PARTNER_USB_COMM;
#endif
if (pdo & PDO_FIXED_DATA_SWAP)
pd[port].flags |= PD_FLAGS_PARTNER_DR_DATA;
else
pd[port].flags &= ~PD_FLAGS_PARTNER_DR_DATA;
#ifdef CONFIG_CHARGE_MANAGER
/*
* Treat device as a dedicated charger (meaning we should charge
* from it) if it does not support power swap, or if it is externally
* powered, or if we are a sink and the device identity matches a
* charging white-list.
*/
if (!(pd[port].flags & PD_FLAGS_PARTNER_DR_POWER) ||
(pd[port].flags & PD_FLAGS_PARTNER_EXTPOWER) ||
charge_whitelisted)
charge_manager_update_dualrole(port, CAP_DEDICATED);
else
charge_manager_update_dualrole(port, CAP_DUALROLE);
#endif
}
static void handle_data_request(int port, uint16_t head,
uint32_t *payload)
{
int type = PD_HEADER_TYPE(head);
int cnt = PD_HEADER_CNT(head);
switch (type) {
#ifdef CONFIG_USB_PD_DUAL_ROLE
case PD_DATA_SOURCE_CAP:
if ((pd[port].task_state == PD_STATE_SNK_DISCOVERY)
|| (pd[port].task_state == PD_STATE_SNK_TRANSITION)
#ifdef CONFIG_USB_PD_NO_VBUS_DETECT
|| (pd[port].task_state ==
PD_STATE_SNK_HARD_RESET_RECOVER)
#endif
|| (pd[port].task_state == PD_STATE_SNK_READY)) {
/* Port partner is now known to be PD capable */
pd[port].flags |= PD_FLAGS_PREVIOUS_PD_CONN;
pd_store_src_cap(port, cnt, payload);
/* src cap 0 should be fixed PDO */
pd_update_pdo_flags(port, payload[0]);
pd_process_source_cap(port, pd_src_cap_cnt[port],
pd_src_caps[port]);
pd_send_request_msg(port, 1);
}
break;
#endif /* CONFIG_USB_PD_DUAL_ROLE */
case PD_DATA_REQUEST:
if ((pd[port].power_role == PD_ROLE_SOURCE) && (cnt == 1))
if (!pd_check_requested_voltage(payload[0])) {
if (send_control(port, PD_CTRL_ACCEPT) < 0)
/*
* if we fail to send accept, do
* nothing and let sink timeout and
* send hard reset
*/
return;
/* explicit contract is now in place */
pd[port].flags |= PD_FLAGS_EXPLICIT_CONTRACT;
pd[port].requested_idx = RDO_POS(payload[0]);
set_state(port, PD_STATE_SRC_ACCEPTED);
return;
}
/* the message was incorrect or cannot be satisfied */
send_control(port, PD_CTRL_REJECT);
/* keep last contract in place (whether implicit or explicit) */
set_state(port, PD_STATE_SRC_READY);
break;
case PD_DATA_BIST:
/* If not in READY state, then don't start BIST */
if (DUAL_ROLE_IF_ELSE(port,
pd[port].task_state == PD_STATE_SNK_READY,
pd[port].task_state == PD_STATE_SRC_READY)) {
/* currently only support sending bist carrier mode 2 */
if ((payload[0] >> 28) == 5) {
/* bist data object mode is 2 */
pd_transmit(port, TCPC_TX_BIST_MODE_2, 0,
NULL);
/* Set to appropriate port disconnected state */
set_state(port, DUAL_ROLE_IF_ELSE(port,
PD_STATE_SNK_DISCONNECTED,
PD_STATE_SRC_DISCONNECTED));
}
}
break;
case PD_DATA_SINK_CAP:
pd[port].flags |= PD_FLAGS_SNK_CAP_RECVD;
/* snk cap 0 should be fixed PDO */
pd_update_pdo_flags(port, payload[0]);
if (pd[port].task_state == PD_STATE_SRC_GET_SINK_CAP)
set_state(port, PD_STATE_SRC_READY);
break;
case PD_DATA_VENDOR_DEF:
handle_vdm_request(port, cnt, payload);
break;
default:
CPRINTF("Unhandled data message type %d\n", type);
}
}
#ifdef CONFIG_USB_PD_DUAL_ROLE
void pd_request_power_swap(int port)
{
if (pd[port].task_state == PD_STATE_SRC_READY)
set_state(port, PD_STATE_SRC_SWAP_INIT);
else if (pd[port].task_state == PD_STATE_SNK_READY)
set_state(port, PD_STATE_SNK_SWAP_INIT);
task_wake(PD_PORT_TO_TASK_ID(port));
}
#ifdef CONFIG_USBC_VCONN_SWAP
static void pd_request_vconn_swap(int port)
{
if (pd[port].task_state == PD_STATE_SRC_READY ||
pd[port].task_state == PD_STATE_SNK_READY)
set_state(port, PD_STATE_VCONN_SWAP_SEND);
task_wake(PD_PORT_TO_TASK_ID(port));
}
#endif
#endif /* CONFIG_USB_PD_DUAL_ROLE */
void pd_request_data_swap(int port)
{
if (DUAL_ROLE_IF_ELSE(port,
pd[port].task_state == PD_STATE_SNK_READY,
pd[port].task_state == PD_STATE_SRC_READY))
set_state(port, PD_STATE_DR_SWAP);
task_wake(PD_PORT_TO_TASK_ID(port));
}
static void pd_set_data_role(int port, int role)
{
pd[port].data_role = role;
pd_execute_data_swap(port, role);
#ifdef CONFIG_USBC_SS_MUX
#ifdef CONFIG_USBC_SS_MUX_DFP_ONLY
/*
* Need to connect SS mux for if new data role is DFP.
* If new data role is UFP, then disconnect the SS mux.
*/
if (role == PD_ROLE_DFP)
usb_mux_set(port, TYPEC_MUX_USB, USB_SWITCH_CONNECT,
pd[port].polarity);
else
usb_mux_set(port, TYPEC_MUX_NONE, USB_SWITCH_DISCONNECT,
pd[port].polarity);
#else
usb_mux_set(port, TYPEC_MUX_USB, USB_SWITCH_CONNECT,
pd[port].polarity);
#endif
#endif
pd_update_roles(port);
}
static void pd_dr_swap(int port)
{
pd_set_data_role(port, !pd[port].data_role);
pd[port].flags |= PD_FLAGS_DATA_SWAPPED;
}
static void handle_ctrl_request(int port, uint16_t head,
uint32_t *payload)
{
int type = PD_HEADER_TYPE(head);
int res;
switch (type) {
case PD_CTRL_GOOD_CRC:
/* should not get it */
break;
case PD_CTRL_PING:
/* Nothing else to do */
break;
case PD_CTRL_GET_SOURCE_CAP:
res = send_source_cap(port);
if ((res >= 0) &&
(pd[port].task_state == PD_STATE_SRC_DISCOVERY))
set_state(port, PD_STATE_SRC_NEGOCIATE);
break;
case PD_CTRL_GET_SINK_CAP:
#ifdef CONFIG_USB_PD_DUAL_ROLE
send_sink_cap(port);
#else
send_control(port, PD_CTRL_REJECT);
#endif
break;
#ifdef CONFIG_USB_PD_DUAL_ROLE
case PD_CTRL_GOTO_MIN:
break;
case PD_CTRL_PS_RDY:
if (pd[port].task_state == PD_STATE_SNK_SWAP_SRC_DISABLE) {
set_state(port, PD_STATE_SNK_SWAP_STANDBY);
} else if (pd[port].task_state == PD_STATE_SRC_SWAP_STANDBY) {
/* reset message ID and swap roles */
pd[port].msg_id = 0;
pd[port].power_role = PD_ROLE_SINK;
pd_update_roles(port);
set_state(port, PD_STATE_SNK_DISCOVERY);
#ifdef CONFIG_USBC_VCONN_SWAP
} else if (pd[port].task_state == PD_STATE_VCONN_SWAP_INIT) {
/*
* If VCONN is on, then this PS_RDY tells us it's
* ok to turn VCONN off
*/
if (pd[port].flags & PD_FLAGS_VCONN_ON)
set_state(port, PD_STATE_VCONN_SWAP_READY);
#endif
} else if (pd[port].task_state == PD_STATE_SNK_DISCOVERY) {
/* Don't know what power source is ready. Reset. */
set_state(port, PD_STATE_HARD_RESET_SEND);
} else if (pd[port].task_state == PD_STATE_SNK_SWAP_STANDBY) {
/* Do nothing, assume this is a redundant PD_RDY */
} else if (pd[port].power_role == PD_ROLE_SINK) {
set_state(port, PD_STATE_SNK_READY);
pd_set_input_current_limit(port, pd[port].curr_limit,
pd[port].supply_voltage);
#ifdef CONFIG_CHARGE_MANAGER
/* Set ceiling based on what's negotiated */
charge_manager_set_ceil(port,
CEIL_REQUESTOR_PD,
pd[port].curr_limit);
#endif
}
break;
#endif
case PD_CTRL_REJECT:
case PD_CTRL_WAIT:
if (pd[port].task_state == PD_STATE_DR_SWAP)
set_state(port, READY_RETURN_STATE(port));
#ifdef CONFIG_USBC_VCONN_SWAP
else if (pd[port].task_state == PD_STATE_VCONN_SWAP_SEND)
set_state(port, READY_RETURN_STATE(port));
#endif
#ifdef CONFIG_USB_PD_DUAL_ROLE
else if (pd[port].task_state == PD_STATE_SRC_SWAP_INIT)
set_state(port, PD_STATE_SRC_READY);
else if (pd[port].task_state == PD_STATE_SNK_SWAP_INIT)
set_state(port, PD_STATE_SNK_READY);
else if (pd[port].task_state == PD_STATE_SNK_REQUESTED)
/* no explicit contract */
set_state(port, PD_STATE_SNK_READY);
#endif
break;
case PD_CTRL_ACCEPT:
if (pd[port].task_state == PD_STATE_SOFT_RESET) {
/*
* For the case that we sent soft reset in SNK_DISCOVERY
* on startup due to VBUS never low, clear the flag.
*/
pd[port].flags &= ~PD_FLAGS_VBUS_NEVER_LOW;
execute_soft_reset(port);
} else if (pd[port].task_state == PD_STATE_DR_SWAP) {
/* switch data role */
pd_dr_swap(port);
set_state(port, READY_RETURN_STATE(port));
#ifdef CONFIG_USB_PD_DUAL_ROLE
#ifdef CONFIG_USBC_VCONN_SWAP
} else if (pd[port].task_state == PD_STATE_VCONN_SWAP_SEND) {
/* switch vconn */
set_state(port, PD_STATE_VCONN_SWAP_INIT);
#endif
} else if (pd[port].task_state == PD_STATE_SRC_SWAP_INIT) {
/* explicit contract goes away for power swap */
pd[port].flags &= ~PD_FLAGS_EXPLICIT_CONTRACT;
set_state(port, PD_STATE_SRC_SWAP_SNK_DISABLE);
} else if (pd[port].task_state == PD_STATE_SNK_SWAP_INIT) {
/* explicit contract goes away for power swap */
pd[port].flags &= ~PD_FLAGS_EXPLICIT_CONTRACT;
set_state(port, PD_STATE_SNK_SWAP_SNK_DISABLE);
} else if (pd[port].task_state == PD_STATE_SNK_REQUESTED) {
/* explicit contract is now in place */
pd[port].flags |= PD_FLAGS_EXPLICIT_CONTRACT;
set_state(port, PD_STATE_SNK_TRANSITION);
#endif
}
break;
case PD_CTRL_SOFT_RESET:
execute_soft_reset(port);
/* We are done, acknowledge with an Accept packet */
send_control(port, PD_CTRL_ACCEPT);
break;
case PD_CTRL_PR_SWAP:
#ifdef CONFIG_USB_PD_DUAL_ROLE
if (pd_check_power_swap(port)) {
send_control(port, PD_CTRL_ACCEPT);
/*
* Clear flag for checking power role to avoid
* immediately requesting another swap.
*/
pd[port].flags &= ~PD_FLAGS_CHECK_PR_ROLE;
set_state(port,
DUAL_ROLE_IF_ELSE(port,
PD_STATE_SNK_SWAP_SNK_DISABLE,
PD_STATE_SRC_SWAP_SNK_DISABLE));
} else {
send_control(port, PD_CTRL_REJECT);
}
#else
send_control(port, PD_CTRL_REJECT);
#endif
break;
case PD_CTRL_DR_SWAP:
if (pd_check_data_swap(port, pd[port].data_role)) {
/*
* Accept switch and perform data swap. Clear
* flag for checking data role to avoid
* immediately requesting another swap.
*/
pd[port].flags &= ~PD_FLAGS_CHECK_DR_ROLE;
if (send_control(port, PD_CTRL_ACCEPT) >= 0)
pd_dr_swap(port);
} else {
send_control(port, PD_CTRL_REJECT);
}
break;
case PD_CTRL_VCONN_SWAP:
#ifdef CONFIG_USBC_VCONN_SWAP
if (pd[port].task_state == PD_STATE_SRC_READY ||
pd[port].task_state == PD_STATE_SNK_READY) {
if (pd_check_vconn_swap(port)) {
if (send_control(port, PD_CTRL_ACCEPT) > 0)
set_state(port,
PD_STATE_VCONN_SWAP_INIT);
} else {
send_control(port, PD_CTRL_REJECT);
}
}
#else
send_control(port, PD_CTRL_REJECT);
#endif
break;
default:
CPRINTF("Unhandled ctrl message type %d\n", type);
}
}
static void handle_request(int port, uint16_t head,
uint32_t *payload)
{
int cnt = PD_HEADER_CNT(head);
int p;
/* dump received packet content (only dump ping at debug level 2) */
if ((debug_level == 1 && PD_HEADER_TYPE(head) != PD_CTRL_PING) ||
debug_level >= 2) {
CPRINTF("RECV %04x/%d ", head, cnt);
for (p = 0; p < cnt; p++)
CPRINTF("[%d]%08x ", p, payload[p]);
CPRINTF("\n");
}
/*
* If we are in disconnected state, we shouldn't get a request. Do
* a hard reset if we get one.
*/
if (!pd_is_connected(port))
set_state(port, PD_STATE_HARD_RESET_SEND);
if (cnt)
handle_data_request(port, head, payload);
else
handle_ctrl_request(port, head, payload);
}
void pd_send_vdm(int port, uint32_t vid, int cmd, const uint32_t *data,
int count)
{
if (count > VDO_MAX_SIZE - 1) {
CPRINTF("VDM over max size\n");
return;
}
/* set VDM header with VID & CMD */
pd[port].vdo_data[0] = VDO(vid, ((vid & USB_SID_PD) == USB_SID_PD) ?
1 : (PD_VDO_CMD(cmd) <= CMD_ATTENTION), cmd);
queue_vdm(port, pd[port].vdo_data, data, count);
task_wake(PD_PORT_TO_TASK_ID(port));
}
static inline int pdo_busy(int port)
{
/*
* Note, main PDO state machine (pd_task) uses READY state exclusively
* to denote port partners have successfully negociated a contract. All
* other protocol actions force state transitions.
*/
int rv = (pd[port].task_state != PD_STATE_SRC_READY);
#ifdef CONFIG_USB_PD_DUAL_ROLE
rv &= (pd[port].task_state != PD_STATE_SNK_READY);
#endif
return rv;
}
static uint64_t vdm_get_ready_timeout(uint32_t vdm_hdr)
{
uint64_t timeout;
int cmd = PD_VDO_CMD(vdm_hdr);
/* its not a structured VDM command */
if (!PD_VDO_SVDM(vdm_hdr))
return 500*MSEC;
switch (PD_VDO_CMDT(vdm_hdr)) {
case CMDT_INIT:
if ((cmd == CMD_ENTER_MODE) || (cmd == CMD_EXIT_MODE))
timeout = PD_T_VDM_WAIT_MODE_E;
else
timeout = PD_T_VDM_SNDR_RSP;
break;
default:
if ((cmd == CMD_ENTER_MODE) || (cmd == CMD_EXIT_MODE))
timeout = PD_T_VDM_E_MODE;
else
timeout = PD_T_VDM_RCVR_RSP;
break;
}
return timeout;
}
static void pd_vdm_send_state_machine(int port)
{
int res;
uint16_t header;
switch (pd[port].vdm_state) {
case VDM_STATE_READY:
/* Only transmit VDM if connected. */
if (!pd_is_connected(port)) {
pd[port].vdm_state = VDM_STATE_ERR_BUSY;
break;
}
/*
* if there's traffic or we're not in PDO ready state don't send
* a VDM.
*/
if (pdo_busy(port))
break;
/* Prepare and send VDM */
header = PD_HEADER(PD_DATA_VENDOR_DEF, pd[port].power_role,
pd[port].data_role, pd[port].msg_id,
(int)pd[port].vdo_count);
res = pd_transmit(port, TCPC_TX_SOP, header,
pd[port].vdo_data);
if (res < 0) {
pd[port].vdm_state = VDM_STATE_ERR_SEND;
} else {
pd[port].vdm_state = VDM_STATE_BUSY;
pd[port].vdm_timeout.val = get_time().val +
vdm_get_ready_timeout(pd[port].vdo_data[0]);
}
break;
case VDM_STATE_WAIT_RSP_BUSY:
/* wait and then initiate request again */
if (get_time().val > pd[port].vdm_timeout.val) {
pd[port].vdo_data[0] = pd[port].vdo_retry;
pd[port].vdo_count = 1;
pd[port].vdm_state = VDM_STATE_READY;
}
break;
case VDM_STATE_BUSY:
/* Wait for VDM response or timeout */
if (pd[port].vdm_timeout.val &&
(get_time().val > pd[port].vdm_timeout.val)) {
pd[port].vdm_state = VDM_STATE_ERR_TMOUT;
}
break;
default:
break;
}
}
#ifdef CONFIG_CMD_PD_DEV_DUMP_INFO
static inline void pd_dev_dump_info(uint16_t dev_id, uint8_t *hash)
{
int j;
ccprintf("DevId:%d.%d Hash:", HW_DEV_ID_MAJ(dev_id),
HW_DEV_ID_MIN(dev_id));
for (j = 0; j < PD_RW_HASH_SIZE; j += 4) {
ccprintf(" 0x%02x%02x%02x%02x", hash[j + 3], hash[j + 2],
hash[j + 1], hash[j]);
}
ccprintf("\n");
}
#endif /* CONFIG_CMD_PD_DEV_DUMP_INFO */
int pd_dev_store_rw_hash(int port, uint16_t dev_id, uint32_t *rw_hash,
uint32_t current_image)
{
#ifdef CONFIG_COMMON_RUNTIME
int i;
#endif
pd[port].dev_id = dev_id;
memcpy(pd[port].dev_rw_hash, rw_hash, PD_RW_HASH_SIZE);
#ifdef CONFIG_CMD_PD_DEV_DUMP_INFO
if (debug_level >= 1)
pd_dev_dump_info(dev_id, (uint8_t *)rw_hash);
#endif
pd[port].current_image = current_image;
#ifdef CONFIG_COMMON_RUNTIME
/* Search table for matching device / hash */
for (i = 0; i < RW_HASH_ENTRIES; i++)
if (dev_id == rw_hash_table[i].dev_id)
return !memcmp(rw_hash,
rw_hash_table[i].dev_rw_hash,
PD_RW_HASH_SIZE);
#endif
return 0;
}
#ifdef CONFIG_USB_PD_DUAL_ROLE
enum pd_dual_role_states pd_get_dual_role(void)
{
return drp_state;
}
#ifdef CONFIG_USB_PD_TRY_SRC
static void pd_update_try_source(void)
{
int i;
#ifndef CONFIG_CHARGER
int batt_soc = board_get_battery_soc();
#else
int batt_soc = charge_get_percent();
#endif
/*
* Enable try source when dual-role toggling AND battery is present
* and at some minimum percentage.
*/
pd_try_src_enable = drp_state == PD_DRP_TOGGLE_ON &&
batt_soc >= CONFIG_USB_PD_TRY_SRC_MIN_BATT_SOC;
/*
* Clear this flag to cover case where a TrySrc
* mode went from enabled to disabled and trying_source
* was active at that time.
*/
for (i = 0; i < CONFIG_USB_PD_PORT_COUNT; i++)
pd[i].flags &= ~PD_FLAGS_TRY_SRC;
}
DECLARE_HOOK(HOOK_BATTERY_SOC_CHANGE, pd_update_try_source, HOOK_PRIO_DEFAULT);
#endif
void pd_set_dual_role(enum pd_dual_role_states state)
{
int i;
drp_state = state;
#ifdef CONFIG_USB_PD_TRY_SRC
pd_update_try_source();
#endif
for (i = 0; i < CONFIG_USB_PD_PORT_COUNT; i++) {
/*
* Change to sink if port is currently a source AND (new DRP
* state is force sink OR new DRP state is either toggle off
* or debug accessory toggle only and we are in the source
* disconnected state).
*/
if (pd[i].power_role == PD_ROLE_SOURCE &&
((drp_state == PD_DRP_FORCE_SINK &&
!pd_debug_acc_plugged(i)) ||
(drp_state == PD_DRP_TOGGLE_OFF
&& pd[i].task_state == PD_STATE_SRC_DISCONNECTED))) {
pd[i].power_role = PD_ROLE_SINK;
set_state(i, PD_STATE_SNK_DISCONNECTED);
tcpm_set_cc(i, TYPEC_CC_RD);
task_wake(PD_PORT_TO_TASK_ID(i));
}
/*
* Change to source if port is currently a sink and the
* new DRP state is force source.
*/
if (pd[i].power_role == PD_ROLE_SINK &&
drp_state == PD_DRP_FORCE_SOURCE) {
pd[i].power_role = PD_ROLE_SOURCE;
set_state(i, PD_STATE_SRC_DISCONNECTED);
tcpm_set_cc(i, TYPEC_CC_RP);
task_wake(PD_PORT_TO_TASK_ID(i));
}
}
}
int pd_get_role(int port)
{
return pd[port].power_role;
}
static int pd_is_power_swapping(int port)
{
/* return true if in the act of swapping power roles */
return pd[port].task_state == PD_STATE_SNK_SWAP_SNK_DISABLE ||
pd[port].task_state == PD_STATE_SNK_SWAP_SRC_DISABLE ||
pd[port].task_state == PD_STATE_SNK_SWAP_STANDBY ||
pd[port].task_state == PD_STATE_SNK_SWAP_COMPLETE ||
pd[port].task_state == PD_STATE_SRC_SWAP_SNK_DISABLE ||
pd[port].task_state == PD_STATE_SRC_SWAP_SRC_DISABLE ||
pd[port].task_state == PD_STATE_SRC_SWAP_STANDBY;
}
#endif /* CONFIG_USB_PD_DUAL_ROLE */
int pd_get_polarity(int port)
{
return pd[port].polarity;
}
int pd_get_partner_data_swap_capable(int port)
{
/* return data swap capable status of port partner */
return pd[port].flags & PD_FLAGS_PARTNER_DR_DATA;
}
#ifdef CONFIG_COMMON_RUNTIME
void pd_comm_enable(int enable)
{
int i;
pd_comm_enabled = enable;
for (i = 0; i < CONFIG_USB_PD_PORT_COUNT; i++) {
/* If type-C connection, then update the TCPC RX enable */
if (pd_is_connected(i))
tcpm_set_rx_enable(i, enable);
#ifdef CONFIG_USB_PD_DUAL_ROLE
/*
* If communications are enabled, start hard reset timer for
* any port in PD_SNK_DISCOVERY.
*/
if (enable && pd[i].task_state == PD_STATE_SNK_DISCOVERY)
set_state_timeout(i,
get_time().val + PD_T_SINK_WAIT_CAP,
PD_STATE_HARD_RESET_SEND);
#endif
}
}
#endif
void pd_ping_enable(int port, int enable)
{
if (enable)
pd[port].flags |= PD_FLAGS_PING_ENABLED;
else
pd[port].flags &= ~PD_FLAGS_PING_ENABLED;
}
#ifdef CONFIG_CHARGE_MANAGER
/**
* Returns type C current limit (mA) based upon cc_voltage (mV).
*/
static inline int get_typec_current_limit(int cc)
{
int charge;
/* Detect type C charger current limit based upon vbus voltage. */
if (cc == TYPEC_CC_VOLT_SNK_3_0)
charge = 3000;
else if (cc == TYPEC_CC_VOLT_SNK_1_5)
charge = 1500;
else
charge = 0;
return charge;
}
/**
* Signal power request to indicate a charger update that affects the port.
*/
void pd_set_new_power_request(int port)
{
pd[port].new_power_request = 1;
task_wake(PD_PORT_TO_TASK_ID(port));
}
#endif /* CONFIG_CHARGE_MANAGER */
#if defined(CONFIG_USBC_BACKWARDS_COMPATIBLE_DFP) && defined(CONFIG_USBC_SS_MUX)
/*
* Backwards compatible DFP does not support USB SS because it applies VBUS
* before debouncing CC and setting USB SS muxes, but SS detection will fail
* before we are done debouncing CC.
*/
#error "Backwards compatible DFP does not support USB"
#endif
void pd_task(void)
{
int head;
int port = TASK_ID_TO_PD_PORT(task_get_current());
uint32_t payload[7];
int timeout = 10*MSEC;
int cc1, cc2;
int res, incoming_packet = 0;
int hard_reset_count = 0;
#ifdef CONFIG_USB_PD_DUAL_ROLE
uint64_t next_role_swap = PD_T_DRP_SNK;
#ifndef CONFIG_USB_PD_NO_VBUS_DETECT
int snk_hard_reset_vbus_off = 0;
#endif
#ifdef CONFIG_CHARGE_MANAGER
int typec_curr = 0, typec_curr_change = 0;
#endif /* CONFIG_CHARGE_MANAGER */
#endif /* CONFIG_USB_PD_DUAL_ROLE */
enum pd_states this_state;
enum pd_cc_states new_cc_state;
timestamp_t now;
int caps_count = 0, hard_reset_sent = 0;
int snk_cap_count = 0;
int evt;
/* Ensure the power supply is in the default state */
pd_power_supply_reset(port);
#ifdef CONFIG_USB_PD_DUAL_ROLE
/*
* If VBUS is high, then initialize flag for VBUS has always been
* present. This flag is used to maintain a PD connection after a
* reset by sending a soft reset.
*/
pd[port].flags = pd_is_vbus_present(port) ? PD_FLAGS_VBUS_NEVER_LOW : 0;
#endif
/* Initialize TCPM driver and wait for TCPC to be ready */
tcpm_init(port);
CPRINTF("[%T TCPC p%d ready]\n", port);
/* Disable TCPC RX until connection is established */
tcpm_set_rx_enable(port, 0);
#ifdef CONFIG_USBC_SS_MUX
/* Initialize USB mux to its default state */
usb_mux_init(port);
#endif
/* Initialize PD protocol state variables for each port. */
pd[port].power_role = PD_ROLE_DEFAULT;
pd[port].vdm_state = VDM_STATE_DONE;
set_state(port, PD_DEFAULT_STATE);
tcpm_set_cc(port, PD_ROLE_DEFAULT == PD_ROLE_SOURCE ? TYPEC_CC_RP :
TYPEC_CC_RD);
#ifdef CONFIG_USB_PD_ALT_MODE_DFP
/* Initialize PD Policy engine */
pd_dfp_pe_init(port);
#endif
#ifdef CONFIG_CHARGE_MANAGER
/* Initialize PD and type-C supplier current limits to 0 */
pd_set_input_current_limit(port, 0, 0);
typec_set_input_current_limit(port, 0, 0);
charge_manager_update_dualrole(port, CAP_UNKNOWN);
#endif
while (1) {
/* process VDM messages last */
pd_vdm_send_state_machine(port);
/* Verify board specific health status : current, voltages... */
res = pd_board_checks();
if (res != EC_SUCCESS) {
/* cut the power */
pd_execute_hard_reset(port);
/* notify the other side of the issue */
pd_transmit(port, TCPC_TX_HARD_RESET, 0, NULL);
}
/* wait for next event/packet or timeout expiration */
evt = task_wait_event(timeout);
#ifdef CONFIG_USB_PD_TCPC
/*
* run port controller task to check CC and/or read incoming
* messages
*/
tcpc_run(port, evt);
#else
/* if TCPC has reset, then need to initialize it again */
if (evt & PD_EVENT_TCPC_RESET) {
CPRINTF("[%T TCPC p%d reset!]\n", port);
tcpm_init(port);
/* Ensure CC termination is default */
tcpm_set_cc(port, PD_ROLE_DEFAULT == PD_ROLE_SOURCE ?
TYPEC_CC_RP :
TYPEC_CC_RD);
/*
* If we have a stable contract in the default role,
* then simply update TCPC with some missing info
* so that we can continue without resetting PD comms.
* Otherwise, go to the default disconnected state
* and force renegotiation.
*/
if (pd[port].vdm_state == VDM_STATE_DONE && (
#ifdef CONFIG_USB_PD_DUAL_ROLE
(PD_ROLE_DEFAULT == PD_ROLE_SINK &&
pd[port].task_state == PD_STATE_SNK_READY) ||
#endif
(PD_ROLE_DEFAULT == PD_ROLE_SOURCE &&
pd[port].task_state == PD_STATE_SRC_READY))) {
tcpm_set_polarity(port, pd[port].polarity);
tcpm_set_msg_header(port, pd[port].power_role,
pd[port].data_role);
tcpm_set_rx_enable(port, 1);
} else {
/* Ensure state variables are at default */
pd[port].power_role = PD_ROLE_DEFAULT;
pd[port].vdm_state = VDM_STATE_DONE;
set_state(port, PD_DEFAULT_STATE);
}
}
#endif
/* process any potential incoming message */
incoming_packet = evt & PD_EVENT_RX;
if (incoming_packet) {
tcpm_get_message(port, payload, &head);
if (head > 0)
handle_request(port, head, payload);
}
/* if nothing to do, verify the state of the world in 500ms */
this_state = pd[port].task_state;
timeout = 500*MSEC;
switch (this_state) {
case PD_STATE_DISABLED:
/* Nothing to do */
break;
case PD_STATE_SRC_DISCONNECTED:
timeout = 10*MSEC;
tcpm_get_cc(port, &cc1, &cc2);
/* Vnc monitoring */
if ((cc1 == TYPEC_CC_VOLT_RD ||
cc2 == TYPEC_CC_VOLT_RD) ||
(cc1 == TYPEC_CC_VOLT_RA &&
cc2 == TYPEC_CC_VOLT_RA)) {
#ifdef CONFIG_USBC_BACKWARDS_COMPATIBLE_DFP
/* Enable VBUS */
if (pd_set_power_supply_ready(port))
break;
#endif
pd[port].cc_state = PD_CC_NONE;
set_state(port,
PD_STATE_SRC_DISCONNECTED_DEBOUNCE);
}
#ifdef CONFIG_USB_PD_DUAL_ROLE
/*
* Try.SRC state is embedded here. Wait for SNK
* detect, or if timer expires, transition to
* SNK_DISCONNETED.
*
* If Try.SRC state is not active, then this block
* handles the normal DRP toggle from SRC->SNK
*/
else if ((pd[port].flags & PD_FLAGS_TRY_SRC &&
get_time().val >= pd[port].try_src_marker) ||
(!(pd[port].flags & PD_FLAGS_TRY_SRC) &&
drp_state != PD_DRP_FORCE_SOURCE &&
get_time().val >= next_role_swap)) {
pd[port].power_role = PD_ROLE_SINK;
set_state(port, PD_STATE_SNK_DISCONNECTED);
tcpm_set_cc(port, TYPEC_CC_RD);
next_role_swap = get_time().val + PD_T_DRP_SNK;
pd[port].try_src_marker = get_time().val
+ PD_T_TRY_WAIT;
/* Swap states quickly */
timeout = 2*MSEC;
}
#endif
break;
case PD_STATE_SRC_DISCONNECTED_DEBOUNCE:
timeout = 20*MSEC;
tcpm_get_cc(port, &cc1, &cc2);
if (cc1 == TYPEC_CC_VOLT_RD &&
cc2 == TYPEC_CC_VOLT_RD) {
/* Debug accessory */
new_cc_state = PD_CC_DEBUG_ACC;
} else if (cc1 == TYPEC_CC_VOLT_RD ||
cc2 == TYPEC_CC_VOLT_RD) {
/* UFP attached */
new_cc_state = PD_CC_UFP_ATTACHED;
} else if (cc1 == TYPEC_CC_VOLT_RA &&
cc2 == TYPEC_CC_VOLT_RA) {
/* Audio accessory */
new_cc_state = PD_CC_AUDIO_ACC;
} else {
/* No UFP */
set_state(port, PD_STATE_SRC_DISCONNECTED);
timeout = 5*MSEC;
break;
}
/* If in Try.SRC state, then don't need to debounce */
if (!(pd[port].flags & PD_FLAGS_TRY_SRC)) {
/* Debounce the cc state */
if (new_cc_state != pd[port].cc_state) {
pd[port].cc_debounce = get_time().val +
PD_T_CC_DEBOUNCE;
pd[port].cc_state = new_cc_state;
break;
} else if (get_time().val <
pd[port].cc_debounce) {
break;
}
}
/* Debounce complete */
/* UFP is attached */
if (new_cc_state == PD_CC_UFP_ATTACHED) {
pd[port].polarity = (cc2 == TYPEC_CC_VOLT_RD);
tcpm_set_polarity(port, pd[port].polarity);
/* initial data role for source is DFP */
pd_set_data_role(port, PD_ROLE_DFP);
#ifndef CONFIG_USBC_BACKWARDS_COMPATIBLE_DFP
/* Enable VBUS */
if (pd_set_power_supply_ready(port)) {
#ifdef CONFIG_USBC_SS_MUX
usb_mux_set(port, TYPEC_MUX_NONE,
USB_SWITCH_DISCONNECT,
pd[port].polarity);
#endif
break;
}
#endif
/* If PD comm is enabled, enable TCPC RX */
if (pd_comm_enabled)
tcpm_set_rx_enable(port, 1);
#ifdef CONFIG_USBC_VCONN
tcpm_set_vconn(port, 1);
pd[port].flags |= PD_FLAGS_VCONN_ON;
#endif
pd[port].flags |= PD_FLAGS_CHECK_PR_ROLE |
PD_FLAGS_CHECK_DR_ROLE;
hard_reset_count = 0;
timeout = 5*MSEC;
set_state(port, PD_STATE_SRC_STARTUP);
}
/* Accessory is attached */
else if (new_cc_state == PD_CC_AUDIO_ACC ||
new_cc_state == PD_CC_DEBUG_ACC) {
#ifdef CONFIG_USBC_BACKWARDS_COMPATIBLE_DFP
/* Remove VBUS */
pd_power_supply_reset(port);
#endif
/* Set the USB muxes and the default USB role */
pd_set_data_role(port, CONFIG_USB_PD_DEBUG_DR);
#ifdef CONFIG_CASE_CLOSED_DEBUG
if (new_cc_state == PD_CC_DEBUG_ACC) {
ccd_set_mode(system_is_locked() ?
CCD_MODE_PARTIAL :
CCD_MODE_ENABLED);
typec_set_input_current_limit(
port, 3000, TYPE_C_VOLTAGE);
charge_manager_update_dualrole(
port, CAP_DEDICATED);
}
#endif
set_state(port, PD_STATE_SRC_ACCESSORY);
}
break;
case PD_STATE_SRC_ACCESSORY:
/* Combined audio / debug accessory state */
timeout = 100*MSEC;
tcpm_get_cc(port, &cc1, &cc2);
/* If accessory becomes detached */
if ((pd[port].cc_state == PD_CC_AUDIO_ACC &&
(cc1 != TYPEC_CC_VOLT_RA ||
cc2 != TYPEC_CC_VOLT_RA)) ||
(pd[port].cc_state == PD_CC_DEBUG_ACC &&
(cc1 != TYPEC_CC_VOLT_RD ||
cc2 != TYPEC_CC_VOLT_RD))) {
set_state(port, PD_STATE_SRC_DISCONNECTED);
#ifdef CONFIG_CASE_CLOSED_DEBUG
ccd_set_mode(CCD_MODE_DISABLED);
#endif
timeout = 10*MSEC;
}
break;
case PD_STATE_SRC_HARD_RESET_RECOVER:
/* Do not continue until hard reset recovery time */
if (get_time().val < pd[port].src_recover) {
timeout = 50*MSEC;
break;
}
/* Enable VBUS */
timeout = 10*MSEC;
if (pd_set_power_supply_ready(port)) {
set_state(port, PD_STATE_SRC_DISCONNECTED);
break;
}
set_state(port, PD_STATE_SRC_STARTUP);
break;
case PD_STATE_SRC_STARTUP:
/* Wait for power source to enable */
if (pd[port].last_state != pd[port].task_state) {
/*
* fake set data role swapped flag so we send
* discover identity when we enter SRC_READY
*/
pd[port].flags |= PD_FLAGS_DATA_SWAPPED;
/* reset various counters */
caps_count = 0;
pd[port].msg_id = 0;
snk_cap_count = 0;
set_state_timeout(
port,
#ifdef CONFIG_USBC_BACKWARDS_COMPATIBLE_DFP
/*
* delay for power supply to start up.
* subtract out debounce time if coming
* from debounce state since vbus is
* on during debounce.
*/
get_time().val +
PD_POWER_SUPPLY_TURN_ON_DELAY -
(pd[port].last_state ==
PD_STATE_SRC_DISCONNECTED_DEBOUNCE
? PD_T_CC_DEBOUNCE : 0),
#else
get_time().val +
PD_POWER_SUPPLY_TURN_ON_DELAY,
#endif
PD_STATE_SRC_DISCOVERY);
}
break;
case PD_STATE_SRC_DISCOVERY:
if (pd[port].last_state != pd[port].task_state) {
/*
* If we have had PD connection with this port
* partner, then start NoResponseTimer.
*/
if (pd[port].flags & PD_FLAGS_PREVIOUS_PD_CONN)
set_state_timeout(port,
get_time().val +
PD_T_NO_RESPONSE,
hard_reset_count <
PD_HARD_RESET_COUNT ?
PD_STATE_HARD_RESET_SEND :
PD_STATE_SRC_DISCONNECTED);
}
/* Send source cap some minimum number of times */
if (caps_count < PD_CAPS_COUNT) {
/* Query capabilites of the other side */
res = send_source_cap(port);
/* packet was acked => PD capable device) */
if (res >= 0) {
set_state(port,
PD_STATE_SRC_NEGOCIATE);
timeout = 10*MSEC;
hard_reset_count = 0;
caps_count = 0;
/* Port partner is PD capable */
pd[port].flags |=
PD_FLAGS_PREVIOUS_PD_CONN;
} else { /* failed, retry later */
timeout = PD_T_SEND_SOURCE_CAP;
caps_count++;
}
}
break;
case PD_STATE_SRC_NEGOCIATE:
/* wait for a "Request" message */
if (pd[port].last_state != pd[port].task_state)
set_state_timeout(port,
get_time().val +
PD_T_SENDER_RESPONSE,
PD_STATE_HARD_RESET_SEND);
break;
case PD_STATE_SRC_ACCEPTED:
/* Accept sent, wait for enabling the new voltage */
if (pd[port].last_state != pd[port].task_state)
set_state_timeout(
port,
get_time().val +
PD_T_SINK_TRANSITION,
PD_STATE_SRC_POWERED);
break;
case PD_STATE_SRC_POWERED:
/* Switch to the new requested voltage */
if (pd[port].last_state != pd[port].task_state) {
pd_transition_voltage(pd[port].requested_idx);
set_state_timeout(
port,
get_time().val +
PD_POWER_SUPPLY_TURN_ON_DELAY,
PD_STATE_SRC_TRANSITION);
}
break;
case PD_STATE_SRC_TRANSITION:
/* the voltage output is good, notify the source */
res = send_control(port, PD_CTRL_PS_RDY);
if (res >= 0) {
timeout = 10*MSEC;
/* it'a time to ping regularly the sink */
set_state(port, PD_STATE_SRC_READY);
} else {
/* The sink did not ack, cut the power... */
set_state(port, PD_STATE_SRC_DISCONNECTED);
}
break;
case PD_STATE_SRC_READY:
timeout = PD_T_SOURCE_ACTIVITY;
/*
* Don't send any PD traffic if we woke up due to
* incoming packet or if VDO response pending to avoid
* collisions.
*/
if (incoming_packet ||
(pd[port].vdm_state == VDM_STATE_BUSY))
break;
/* Send get sink cap if haven't received it yet */
if (pd[port].last_state != pd[port].task_state &&
!(pd[port].flags & PD_FLAGS_SNK_CAP_RECVD)) {
if (++snk_cap_count <= PD_SNK_CAP_RETRIES) {
/* Get sink cap to know if dual-role device */
send_control(port, PD_CTRL_GET_SINK_CAP);
set_state(port, PD_STATE_SRC_GET_SINK_CAP);
break;
} else if (debug_level >= 1 &&
snk_cap_count == PD_SNK_CAP_RETRIES+1) {
CPRINTF("ERR SNK_CAP\n");
}
}
/* Check power role policy, which may trigger a swap */
if (pd[port].flags & PD_FLAGS_CHECK_PR_ROLE) {
pd_check_pr_role(port, PD_ROLE_SOURCE,
pd[port].flags);
pd[port].flags &= ~PD_FLAGS_CHECK_PR_ROLE;
break;
}
/* Check data role policy, which may trigger a swap */
if (pd[port].flags & PD_FLAGS_CHECK_DR_ROLE) {
pd_check_dr_role(port, pd[port].data_role,
pd[port].flags);
pd[port].flags &= ~PD_FLAGS_CHECK_DR_ROLE;
break;
}
/* Send discovery SVDMs last */
if (pd[port].data_role == PD_ROLE_DFP &&
(pd[port].flags & PD_FLAGS_DATA_SWAPPED)) {
#ifndef CONFIG_USB_PD_SIMPLE_DFP
pd_send_vdm(port, USB_SID_PD,
CMD_DISCOVER_IDENT, NULL, 0);
#endif
pd[port].flags &= ~PD_FLAGS_DATA_SWAPPED;
break;
}
if (!(pd[port].flags & PD_FLAGS_PING_ENABLED))
break;
/* Verify that the sink is alive */
res = send_control(port, PD_CTRL_PING);
if (res >= 0)
break;
/* Ping dropped. Try soft reset. */
set_state(port, PD_STATE_SOFT_RESET);
timeout = 10 * MSEC;
break;
case PD_STATE_SRC_GET_SINK_CAP:
if (pd[port].last_state != pd[port].task_state)
set_state_timeout(port,
get_time().val +
PD_T_SENDER_RESPONSE,
PD_STATE_SRC_READY);
break;
case PD_STATE_DR_SWAP:
if (pd[port].last_state != pd[port].task_state) {
res = send_control(port, PD_CTRL_DR_SWAP);
if (res < 0) {
timeout = 10*MSEC;
/*
* If failed to get goodCRC, send
* soft reset, otherwise ignore
* failure.
*/
set_state(port, res == -1 ?
PD_STATE_SOFT_RESET :
READY_RETURN_STATE(port));
break;
}
/* Wait for accept or reject */
set_state_timeout(port,
get_time().val +
PD_T_SENDER_RESPONSE,
READY_RETURN_STATE(port));
}
break;
#ifdef CONFIG_USB_PD_DUAL_ROLE
case PD_STATE_SRC_SWAP_INIT:
if (pd[port].last_state != pd[port].task_state) {
res = send_control(port, PD_CTRL_PR_SWAP);
if (res < 0) {
timeout = 10*MSEC;
/*
* If failed to get goodCRC, send
* soft reset, otherwise ignore
* failure.
*/
set_state(port, res == -1 ?
PD_STATE_SOFT_RESET :
PD_STATE_SRC_READY);
break;
}
/* Wait for accept or reject */
set_state_timeout(port,
get_time().val +
PD_T_SENDER_RESPONSE,
PD_STATE_SRC_READY);
}
break;
case PD_STATE_SRC_SWAP_SNK_DISABLE:
/* Give time for sink to stop drawing current */
if (pd[port].last_state != pd[port].task_state)
set_state_timeout(port,
get_time().val +
PD_T_SINK_TRANSITION,
PD_STATE_SRC_SWAP_SRC_DISABLE);
break;
case PD_STATE_SRC_SWAP_SRC_DISABLE:
/* Turn power off */
if (pd[port].last_state != pd[port].task_state) {
pd_power_supply_reset(port);
set_state_timeout(port,
get_time().val +
PD_POWER_SUPPLY_TURN_OFF_DELAY,
PD_STATE_SRC_SWAP_STANDBY);
}
break;
case PD_STATE_SRC_SWAP_STANDBY:
/* Send PS_RDY to let sink know our power is off */
if (pd[port].last_state != pd[port].task_state) {
/* Send PS_RDY */
res = send_control(port, PD_CTRL_PS_RDY);
if (res < 0) {
timeout = 10*MSEC;
set_state(port,
PD_STATE_SRC_DISCONNECTED);
break;
}
/* Switch to Rd and swap roles to sink */
tcpm_set_cc(port, TYPEC_CC_RD);
pd[port].power_role = PD_ROLE_SINK;
/* Wait for PS_RDY from new source */
set_state_timeout(port,
get_time().val +
PD_T_PS_SOURCE_ON,
PD_STATE_SNK_DISCONNECTED);
}
break;
case PD_STATE_SUSPENDED:
/*
* TODO: Suspend state only supported if we are also
* the TCPC.
*/
#ifdef CONFIG_USB_PD_TCPC
pd_rx_disable_monitoring(port);
pd_hw_release(port);
pd_power_supply_reset(port);
/* Wait for resume */
while (pd[port].task_state == PD_STATE_SUSPENDED)
task_wait_event(-1);
pd_hw_init(port, PD_ROLE_DEFAULT);
#endif
break;
case PD_STATE_SNK_DISCONNECTED:
#ifdef CONFIG_USB_PD_LOW_POWER
timeout = drp_state != PD_DRP_TOGGLE_ON ? SECOND
: 10*MSEC;
#else
timeout = 10*MSEC;
#endif
tcpm_get_cc(port, &cc1, &cc2);
/* Source connection monitoring */
if (cc1 != TYPEC_CC_VOLT_OPEN ||
cc2 != TYPEC_CC_VOLT_OPEN) {
pd[port].cc_state = PD_CC_NONE;
hard_reset_count = 0;
new_cc_state = PD_CC_DFP_ATTACHED;
pd[port].cc_debounce = get_time().val +
PD_T_CC_DEBOUNCE;
set_state(port,
PD_STATE_SNK_DISCONNECTED_DEBOUNCE);
timeout = 10*MSEC;
break;
}
/*
* If Try.SRC is active and failed to detect a SNK,
* then it transitions to TryWait.SNK. Need to prevent
* normal dual role toggle until tDRPTryWait timer
* expires.
*/
if (pd[port].flags & PD_FLAGS_TRY_SRC) {
if (get_time().val > pd[port].try_src_marker)
pd[port].flags &= ~PD_FLAGS_TRY_SRC;
break;
}
/*
* If no source detected, check for role toggle.
* If VBUS is detected, and we are in the debug
* accessory toggle state, then allow toggling.
*/
if ((drp_state == PD_DRP_TOGGLE_ON &&
get_time().val >= next_role_swap) ||
pd_snk_debug_acc_toggle(port)) {
/* Swap roles to source */
pd[port].power_role = PD_ROLE_SOURCE;
set_state(port, PD_STATE_SRC_DISCONNECTED);
tcpm_set_cc(port, TYPEC_CC_RP);
next_role_swap = get_time().val + PD_T_DRP_SRC;
/* Swap states quickly */
timeout = 2*MSEC;
}
break;
case PD_STATE_SNK_DISCONNECTED_DEBOUNCE:
tcpm_get_cc(port, &cc1, &cc2);
if (cc1 == TYPEC_CC_VOLT_OPEN &&
cc2 == TYPEC_CC_VOLT_OPEN) {
/* No connection any more */
set_state(port, PD_STATE_SNK_DISCONNECTED);
timeout = 5*MSEC;
break;
}
timeout = 20*MSEC;
/* Wait for CC debounce and VBUS present */
if (get_time().val < pd[port].cc_debounce ||
!pd_is_vbus_present(port))
break;
if (pd_try_src_enable &&
!(pd[port].flags & PD_FLAGS_TRY_SRC)) {
/*
* If TRY_SRC is enabled, but not active,
* then force attempt to connect as source.
*/
pd[port].try_src_marker = get_time().val
+ PD_T_TRY_SRC;
/* Swap roles to source */
pd[port].power_role = PD_ROLE_SOURCE;
tcpm_set_cc(port, TYPEC_CC_RP);
timeout = 2*MSEC;
set_state(port, PD_STATE_SRC_DISCONNECTED);
/* Set flag after the state change */
pd[port].flags |= PD_FLAGS_TRY_SRC;
break;
}
/* We are attached */
pd[port].polarity = (cc2 != TYPEC_CC_VOLT_OPEN);
tcpm_set_polarity(port, pd[port].polarity);
/* reset message ID on connection */
pd[port].msg_id = 0;
/* initial data role for sink is UFP */
pd_set_data_role(port, PD_ROLE_UFP);
#ifdef CONFIG_CHARGE_MANAGER
typec_curr = get_typec_current_limit(
pd[port].polarity ? cc2 : cc1);
typec_set_input_current_limit(
port, typec_curr, TYPE_C_VOLTAGE);
#endif
/* If PD comm is enabled, enable TCPC RX */
if (pd_comm_enabled)
tcpm_set_rx_enable(port, 1);
/*
* fake set data role swapped flag so we send
* discover identity when we enter SRC_READY
*/
pd[port].flags |= PD_FLAGS_CHECK_PR_ROLE |
PD_FLAGS_CHECK_DR_ROLE |
PD_FLAGS_DATA_SWAPPED;
set_state(port, PD_STATE_SNK_DISCOVERY);
timeout = 10*MSEC;
hook_call_deferred(
pd_usb_billboard_deferred,
PD_T_AME);
break;
case PD_STATE_SNK_HARD_RESET_RECOVER:
if (pd[port].last_state != pd[port].task_state)
pd[port].flags |= PD_FLAGS_DATA_SWAPPED;
#ifdef CONFIG_USB_PD_NO_VBUS_DETECT
/*
* Can't measure vbus state so this is the maximum
* recovery time for the source.
*/
if (pd[port].last_state != pd[port].task_state)
set_state_timeout(port, get_time().val +
PD_T_SAFE_0V +
PD_T_SRC_RECOVER_MAX +
PD_T_SRC_TURN_ON,
PD_STATE_SNK_DISCONNECTED);
#else
/* Wait for VBUS to go low and then high*/
if (pd[port].last_state != pd[port].task_state) {
snk_hard_reset_vbus_off = 0;
set_state_timeout(port,
get_time().val +
PD_T_SAFE_0V,
hard_reset_count <
PD_HARD_RESET_COUNT ?
PD_STATE_HARD_RESET_SEND :
PD_STATE_SNK_DISCOVERY);
}
if (!pd_is_vbus_present(port) &&
!snk_hard_reset_vbus_off) {
/* VBUS has gone low, reset timeout */
snk_hard_reset_vbus_off = 1;
set_state_timeout(port,
get_time().val +
PD_T_SRC_RECOVER_MAX +
PD_T_SRC_TURN_ON,
PD_STATE_SNK_DISCONNECTED);
}
if (pd_is_vbus_present(port) &&
snk_hard_reset_vbus_off) {
/* VBUS went high again */
set_state(port, PD_STATE_SNK_DISCOVERY);
timeout = 10*MSEC;
}
/*
* Don't need to set timeout because VBUS changing
* will trigger an interrupt and wake us up.
*/
#endif
break;
case PD_STATE_SNK_DISCOVERY:
/* Wait for source cap expired only if we are enabled */
if ((pd[port].last_state != pd[port].task_state)
&& pd_comm_enabled) {
/*
* If VBUS has never been low, and we timeout
* waiting for source cap, try a soft reset
* first, in case we were already in a stable
* contract before this boot.
*/
if (pd[port].flags & PD_FLAGS_VBUS_NEVER_LOW)
set_state_timeout(port,
get_time().val +
PD_T_SINK_WAIT_CAP,
PD_STATE_SOFT_RESET);
/*
* If we haven't passed hard reset counter,
* start SinkWaitCapTimer, otherwise start
* NoResponseTimer.
*/
else if (hard_reset_count < PD_HARD_RESET_COUNT)
set_state_timeout(port,
get_time().val +
PD_T_SINK_WAIT_CAP,
PD_STATE_HARD_RESET_SEND);
else if (pd[port].flags &
PD_FLAGS_PREVIOUS_PD_CONN)
/* ErrorRecovery */
set_state_timeout(port,
get_time().val +
PD_T_NO_RESPONSE,
PD_STATE_SNK_DISCONNECTED);
#ifdef CONFIG_CHARGE_MANAGER
/*
* If we didn't come from disconnected, must
* have come from some path that did not set
* typec current limit. So, set to 0 so that
* we guarantee this is revised below.
*/
if (pd[port].last_state !=
PD_STATE_SNK_DISCONNECTED_DEBOUNCE)
typec_curr = 0;
#endif
}
#ifdef CONFIG_CHARGE_MANAGER
timeout = PD_T_SINK_ADJ - PD_T_DEBOUNCE;
/* Check if CC pull-up has changed */
tcpm_get_cc(port, &cc1, &cc2);
if (pd[port].polarity)
cc1 = cc2;
if (typec_curr != get_typec_current_limit(cc1)) {
/* debounce signal by requiring two reads */
if (typec_curr_change) {
/* set new input current limit */
typec_curr = get_typec_current_limit(
cc1);
typec_set_input_current_limit(
port, typec_curr, TYPE_C_VOLTAGE);
} else {
/* delay for debounce */
timeout = PD_T_DEBOUNCE;
}
typec_curr_change = !typec_curr_change;
} else {
typec_curr_change = 0;
}
#endif
break;
case PD_STATE_SNK_REQUESTED:
/* Wait for ACCEPT or REJECT */
if (pd[port].last_state != pd[port].task_state) {
hard_reset_count = 0;
set_state_timeout(port,
get_time().val +
PD_T_SENDER_RESPONSE,
PD_STATE_HARD_RESET_SEND);
}
break;
case PD_STATE_SNK_TRANSITION:
/* Wait for PS_RDY */
if (pd[port].last_state != pd[port].task_state)
set_state_timeout(port,
get_time().val +
PD_T_PS_TRANSITION,
PD_STATE_HARD_RESET_SEND);
break;
case PD_STATE_SNK_READY:
timeout = 20*MSEC;
/*
* Don't send any PD traffic if we woke up due to
* incoming packet or if VDO response pending to avoid
* collisions.
*/
if (incoming_packet ||
(pd[port].vdm_state == VDM_STATE_BUSY))
break;
/* Check for new power to request */
if (pd[port].new_power_request) {
pd_send_request_msg(port, 0);
break;
}
/* Check power role policy, which may trigger a swap */
if (pd[port].flags & PD_FLAGS_CHECK_PR_ROLE) {
pd_check_pr_role(port, PD_ROLE_SINK,
pd[port].flags);
pd[port].flags &= ~PD_FLAGS_CHECK_PR_ROLE;
break;
}
/* Check data role policy, which may trigger a swap */
if (pd[port].flags & PD_FLAGS_CHECK_DR_ROLE) {
pd_check_dr_role(port, pd[port].data_role,
pd[port].flags);
pd[port].flags &= ~PD_FLAGS_CHECK_DR_ROLE;
break;
}
/* If DFP, send discovery SVDMs */
if (pd[port].data_role == PD_ROLE_DFP &&
(pd[port].flags & PD_FLAGS_DATA_SWAPPED)) {
pd_send_vdm(port, USB_SID_PD,
CMD_DISCOVER_IDENT, NULL, 0);
pd[port].flags &= ~PD_FLAGS_DATA_SWAPPED;
break;
}
/* Sent all messages, don't need to wake very often */
timeout = 200*MSEC;
break;
case PD_STATE_SNK_SWAP_INIT:
if (pd[port].last_state != pd[port].task_state) {
res = send_control(port, PD_CTRL_PR_SWAP);
if (res < 0) {
timeout = 10*MSEC;
/*
* If failed to get goodCRC, send
* soft reset, otherwise ignore
* failure.
*/
set_state(port, res == -1 ?
PD_STATE_SOFT_RESET :
PD_STATE_SNK_READY);
break;
}
/* Wait for accept or reject */
set_state_timeout(port,
get_time().val +
PD_T_SENDER_RESPONSE,
PD_STATE_SNK_READY);
}
break;
case PD_STATE_SNK_SWAP_SNK_DISABLE:
/* Stop drawing power */
pd_set_input_current_limit(port, 0, 0);
#ifdef CONFIG_CHARGE_MANAGER
typec_set_input_current_limit(port, 0, 0);
charge_manager_set_ceil(port,
CEIL_REQUESTOR_PD,
CHARGE_CEIL_NONE);
#endif
set_state(port, PD_STATE_SNK_SWAP_SRC_DISABLE);
timeout = 10*MSEC;
break;
case PD_STATE_SNK_SWAP_SRC_DISABLE:
/* Wait for PS_RDY */
if (pd[port].last_state != pd[port].task_state)
set_state_timeout(port,
get_time().val +
PD_T_PS_SOURCE_OFF,
PD_STATE_HARD_RESET_SEND);
break;
case PD_STATE_SNK_SWAP_STANDBY:
if (pd[port].last_state != pd[port].task_state) {
/* Switch to Rp and enable power supply */
tcpm_set_cc(port, TYPEC_CC_RP);
if (pd_set_power_supply_ready(port)) {
/* Restore Rd */
tcpm_set_cc(port, TYPEC_CC_RD);
timeout = 10*MSEC;
set_state(port,
PD_STATE_SNK_DISCONNECTED);
break;
}
/* Wait for power supply to turn on */
set_state_timeout(
port,
get_time().val +
PD_POWER_SUPPLY_TURN_ON_DELAY,
PD_STATE_SNK_SWAP_COMPLETE);
}
break;
case PD_STATE_SNK_SWAP_COMPLETE:
/* Send PS_RDY and change to source role */
res = send_control(port, PD_CTRL_PS_RDY);
if (res < 0) {
/* Restore Rd */
tcpm_set_cc(port, TYPEC_CC_RD);
pd_power_supply_reset(port);
timeout = 10 * MSEC;
set_state(port, PD_STATE_SNK_DISCONNECTED);
break;
}
/* Don't send GET_SINK_CAP on swap */
snk_cap_count = PD_SNK_CAP_RETRIES+1;
caps_count = 0;
pd[port].msg_id = 0;
pd[port].power_role = PD_ROLE_SOURCE;
pd_update_roles(port);
set_state(port, PD_STATE_SRC_DISCOVERY);
timeout = 10*MSEC;
break;
#ifdef CONFIG_USBC_VCONN_SWAP
case PD_STATE_VCONN_SWAP_SEND:
if (pd[port].last_state != pd[port].task_state) {
res = send_control(port, PD_CTRL_VCONN_SWAP);
if (res < 0) {
timeout = 10*MSEC;
/*
* If failed to get goodCRC, send
* soft reset, otherwise ignore
* failure.
*/
set_state(port, res == -1 ?
PD_STATE_SOFT_RESET :
READY_RETURN_STATE(port));
break;
}
/* Wait for accept or reject */
set_state_timeout(port,
get_time().val +
PD_T_SENDER_RESPONSE,
READY_RETURN_STATE(port));
}
break;
case PD_STATE_VCONN_SWAP_INIT:
if (pd[port].last_state != pd[port].task_state) {
if (!(pd[port].flags & PD_FLAGS_VCONN_ON)) {
/* Turn VCONN on and wait for it */
tcpm_set_vconn(port, 1);
set_state_timeout(port,
get_time().val + PD_VCONN_SWAP_DELAY,
PD_STATE_VCONN_SWAP_READY);
} else {
set_state_timeout(port,
get_time().val + PD_T_VCONN_SOURCE_ON,
READY_RETURN_STATE(port));
}
}
break;
case PD_STATE_VCONN_SWAP_READY:
if (pd[port].last_state != pd[port].task_state) {
if (!(pd[port].flags & PD_FLAGS_VCONN_ON)) {
/* VCONN is now on, send PS_RDY */
pd[port].flags |= PD_FLAGS_VCONN_ON;
res = send_control(port,
PD_CTRL_PS_RDY);
if (res == -1) {
timeout = 10*MSEC;
/*
* If failed to get goodCRC,
* send soft reset
*/
set_state(port,
PD_STATE_SOFT_RESET);
break;
}
set_state(port,
READY_RETURN_STATE(port));
} else {
/* Turn VCONN off and wait for it */
tcpm_set_vconn(port, 0);
pd[port].flags &= ~PD_FLAGS_VCONN_ON;
set_state_timeout(port,
get_time().val + PD_VCONN_SWAP_DELAY,
READY_RETURN_STATE(port));
}
}
break;
#endif /* CONFIG_USBC_VCONN_SWAP */
#endif /* CONFIG_USB_PD_DUAL_ROLE */
case PD_STATE_SOFT_RESET:
if (pd[port].last_state != pd[port].task_state) {
/* Message ID of soft reset is always 0 */
pd[port].msg_id = 0;
res = send_control(port, PD_CTRL_SOFT_RESET);
/* if soft reset failed, try hard reset. */
if (res < 0) {
set_state(port,
PD_STATE_HARD_RESET_SEND);
timeout = 5*MSEC;
break;
}
set_state_timeout(
port,
get_time().val + PD_T_SENDER_RESPONSE,
PD_STATE_HARD_RESET_SEND);
}
break;
case PD_STATE_HARD_RESET_SEND:
hard_reset_count++;
if (pd[port].last_state != pd[port].task_state)
hard_reset_sent = 0;
#ifdef CONFIG_CHARGE_MANAGER
if (pd[port].last_state == PD_STATE_SNK_DISCOVERY ||
(pd[port].last_state == PD_STATE_SOFT_RESET &&
(pd[port].flags & PD_FLAGS_VBUS_NEVER_LOW))) {
pd[port].flags &= ~PD_FLAGS_VBUS_NEVER_LOW;
/*
* If discovery timed out, assume that we
* have a dedicated charger attached. This
* may not be a correct assumption according
* to the specification, but it generally
* works in practice and the harmful
* effects of a wrong assumption here
* are minimal.
*/
charge_manager_update_dualrole(port,
CAP_DEDICATED);
}
#endif
/* try sending hard reset until it succeeds */
if (!hard_reset_sent) {
if (pd_transmit(port, TCPC_TX_HARD_RESET,
0, NULL) < 0) {
timeout = 10*MSEC;
break;
}
/* successfully sent hard reset */
hard_reset_sent = 1;
/*
* If we are source, delay before cutting power
* to allow sink time to get hard reset.
*/
if (pd[port].power_role == PD_ROLE_SOURCE) {
set_state_timeout(port,
get_time().val + PD_T_PS_HARD_RESET,
PD_STATE_HARD_RESET_EXECUTE);
} else {
set_state(port,
PD_STATE_HARD_RESET_EXECUTE);
timeout = 10*MSEC;
}
}
break;
case PD_STATE_HARD_RESET_EXECUTE:
#ifdef CONFIG_USB_PD_DUAL_ROLE
/*
* If hard reset while in the last stages of power
* swap, then we need to restore our CC resistor.
*/
if (pd[port].last_state == PD_STATE_SNK_SWAP_STANDBY)
tcpm_set_cc(port, TYPEC_CC_RD);
#endif
/* reset our own state machine */
pd_execute_hard_reset(port);
timeout = 10*MSEC;
break;
#ifdef CONFIG_COMMON_RUNTIME
case PD_STATE_BIST_RX:
send_bist_cmd(port);
/* Delay at least enough for partner to finish BIST */
timeout = PD_T_BIST_RECEIVE + 20*MSEC;
/* Set to appropriate port disconnected state */
set_state(port, DUAL_ROLE_IF_ELSE(port,
PD_STATE_SNK_DISCONNECTED,
PD_STATE_SRC_DISCONNECTED));
break;
case PD_STATE_BIST_TX:
pd_transmit(port, TCPC_TX_BIST_MODE_2, 0, NULL);
/* Delay at least enough to finish sending BIST */
timeout = PD_T_BIST_TRANSMIT + 20*MSEC;
/* Set to appropriate port disconnected state */
set_state(port, DUAL_ROLE_IF_ELSE(port,
PD_STATE_SNK_DISCONNECTED,
PD_STATE_SRC_DISCONNECTED));
break;
#endif
default:
break;
}
pd[port].last_state = this_state;
/*
* Check for state timeout, and if not check if need to adjust
* timeout value to wake up on the next state timeout.
*/
now = get_time();
if (pd[port].timeout) {
if (now.val >= pd[port].timeout) {
set_state(port, pd[port].timeout_state);
/* On a state timeout, run next state soon */
timeout = timeout < 10*MSEC ? timeout : 10*MSEC;
} else if (pd[port].timeout - now.val < timeout) {
timeout = pd[port].timeout - now.val;
}
}
/* Check for disconnection if we're connected */
if (!pd_is_connected(port))
continue;
#ifdef CONFIG_USB_PD_DUAL_ROLE
if (pd_is_power_swapping(port))
continue;
#endif
if (pd[port].power_role == PD_ROLE_SOURCE) {
/* Source: detect disconnect by monitoring CC */
tcpm_get_cc(port, &cc1, &cc2);
if (pd[port].polarity)
cc1 = cc2;
if (cc1 == TYPEC_CC_VOLT_OPEN) {
set_state(port, PD_STATE_SRC_DISCONNECTED);
/* Debouncing */
timeout = 10*MSEC;
#ifdef CONFIG_USB_PD_DUAL_ROLE
/*
* If Try.SRC is configured, then ATTACHED_SRC
* needs to transition to TryWait.SNK. Change
* power role to SNK and start state timer.
*/
if (pd_try_src_enable) {
/* Swap roles to sink */
pd[port].power_role = PD_ROLE_SINK;
tcpm_set_cc(port, TYPEC_CC_RD);
/* Set timer for TryWait.SNK state */
pd[port].try_src_marker = get_time().val
+ PD_T_TRY_WAIT;
/* Advance to TryWait.SNK state */
set_state(port,
PD_STATE_SNK_DISCONNECTED);
/* Mark state as TryWait.SNK */
pd[port].flags |= PD_FLAGS_TRY_SRC;
}
#endif
}
}
#ifdef CONFIG_USB_PD_DUAL_ROLE
/*
* Sink disconnect if VBUS is low and we are not recovering
* a hard reset.
*/
if (pd[port].power_role == PD_ROLE_SINK &&
!pd_is_vbus_present(port) &&
pd[port].task_state != PD_STATE_SNK_HARD_RESET_RECOVER &&
pd[port].task_state != PD_STATE_HARD_RESET_EXECUTE) {
/* Sink: detect disconnect by monitoring VBUS */
set_state(port, PD_STATE_SNK_DISCONNECTED);
/* set timeout small to reconnect fast */
timeout = 5*MSEC;
}
#endif /* CONFIG_USB_PD_DUAL_ROLE */
}
}
#ifdef CONFIG_USB_PD_DUAL_ROLE
static void dual_role_on(void)
{
int i;
pd_set_dual_role(PD_DRP_TOGGLE_ON);
CPRINTS("chipset -> S0");
for (i = 0; i < CONFIG_USB_PD_PORT_COUNT; i++) {
#ifdef CONFIG_CHARGE_MANAGER
if (charge_manager_get_active_charge_port() != i)
#endif
pd[i].flags |= PD_FLAGS_CHECK_PR_ROLE |
PD_FLAGS_CHECK_DR_ROLE;
/* kick the task to ensure we start toggling immediatly */
task_wake(PD_PORT_TO_TASK_ID(i));
}
}
DECLARE_HOOK(HOOK_CHIPSET_RESUME, dual_role_on, HOOK_PRIO_DEFAULT);
static void dual_role_off(void)
{
pd_set_dual_role(PD_DRP_TOGGLE_OFF);
CPRINTS("chipset -> S3");
}
DECLARE_HOOK(HOOK_CHIPSET_SUSPEND, dual_role_off, HOOK_PRIO_DEFAULT);
DECLARE_HOOK(HOOK_CHIPSET_STARTUP, dual_role_off, HOOK_PRIO_DEFAULT);
static void dual_role_force_sink(void)
{
pd_set_dual_role(PD_DRP_FORCE_SINK);
CPRINTS("chipset -> S5");
}
DECLARE_HOOK(HOOK_CHIPSET_SHUTDOWN, dual_role_force_sink, HOOK_PRIO_DEFAULT);
#ifdef HAS_TASK_CHIPSET
static void dual_role_init(void)
{
if (chipset_in_state(CHIPSET_STATE_ANY_OFF))
dual_role_force_sink();
else if (chipset_in_state(CHIPSET_STATE_SUSPEND))
dual_role_off();
else /* CHIPSET_STATE_ON */
dual_role_on();
}
DECLARE_HOOK(HOOK_INIT, dual_role_init, HOOK_PRIO_DEFAULT);
#endif /* HAS_TASK_CHIPSET */
#endif /* CONFIG_USB_PD_DUAL_ROLE */
#ifdef CONFIG_COMMON_RUNTIME
void pd_set_suspend(int port, int enable)
{
set_state(port, enable ? PD_STATE_SUSPENDED : PD_DEFAULT_STATE);
task_wake(PD_PORT_TO_TASK_ID(port));
}
#if defined(CONFIG_CMD_PD) && defined(CONFIG_CMD_PD_FLASH)
static int hex8tou32(char *str, uint32_t *val)
{
char *ptr = str;
uint32_t tmp = 0;
while (*ptr) {
char c = *ptr++;
if (c >= '0' && c <= '9')
tmp = (tmp << 4) + (c - '0');
else if (c >= 'A' && c <= 'F')
tmp = (tmp << 4) + (c - 'A' + 10);
else if (c >= 'a' && c <= 'f')
tmp = (tmp << 4) + (c - 'a' + 10);
else
return EC_ERROR_INVAL;
}
if (ptr != str + 8)
return EC_ERROR_INVAL;
*val = tmp;
return EC_SUCCESS;
}
static int remote_flashing(int argc, char **argv)
{
int port, cnt, cmd;
uint32_t data[VDO_MAX_SIZE-1];
char *e;
static int flash_offset[CONFIG_USB_PD_PORT_COUNT];
if (argc < 4 || argc > (VDO_MAX_SIZE + 4 - 1))
return EC_ERROR_PARAM_COUNT;
port = strtoi(argv[1], &e, 10);
if (*e || port >= CONFIG_USB_PD_PORT_COUNT)
return EC_ERROR_PARAM2;
cnt = 0;
if (!strcasecmp(argv[3], "erase")) {
cmd = VDO_CMD_FLASH_ERASE;
flash_offset[port] = 0;
ccprintf("ERASE ...");
} else if (!strcasecmp(argv[3], "reboot")) {
cmd = VDO_CMD_REBOOT;
ccprintf("REBOOT ...");
} else if (!strcasecmp(argv[3], "signature")) {
cmd = VDO_CMD_ERASE_SIG;
ccprintf("ERASE SIG ...");
} else if (!strcasecmp(argv[3], "info")) {
cmd = VDO_CMD_READ_INFO;
ccprintf("INFO...");
} else if (!strcasecmp(argv[3], "version")) {
cmd = VDO_CMD_VERSION;
ccprintf("VERSION...");
} else {
int i;
argc -= 3;
for (i = 0; i < argc; i++)
if (hex8tou32(argv[i+3], data + i))
return EC_ERROR_INVAL;
cmd = VDO_CMD_FLASH_WRITE;
cnt = argc;
ccprintf("WRITE %d @%04x ...", argc * 4,
flash_offset[port]);
flash_offset[port] += argc * 4;
}
pd_send_vdm(port, USB_VID_GOOGLE, cmd, data, cnt);
/* Wait until VDM is done */
while (pd[port].vdm_state > 0)
task_wait_event(100*MSEC);
ccprintf("DONE %d\n", pd[port].vdm_state);
return EC_SUCCESS;
}
#endif /* defined(CONFIG_CMD_PD) && defined(CONFIG_CMD_PD_FLASH) */
#if defined(CONFIG_USB_PD_ALT_MODE) && !defined(CONFIG_USB_PD_ALT_MODE_DFP)
void pd_send_hpd(int port, enum hpd_event hpd)
{
uint32_t data[1];
int opos = pd_alt_mode(port, USB_SID_DISPLAYPORT);
if (!opos)
return;
data[0] = VDO_DP_STATUS((hpd == hpd_irq), /* IRQ_HPD */
(hpd != hpd_low), /* HPD_HI|LOW */
0, /* request exit DP */
0, /* request exit USB */
0, /* MF pref */
1, /* enabled */
0, /* power low */
0x2);
pd_send_vdm(port, USB_SID_DISPLAYPORT,
VDO_OPOS(opos) | CMD_ATTENTION, data, 1);
/* Wait until VDM is done. */
while (pd[0].vdm_state > 0)
task_wait_event(USB_PD_RX_TMOUT_US * (PD_RETRY_COUNT + 1));
}
#endif
int pd_fetch_acc_log_entry(int port)
{
timestamp_t timeout;
/* Cannot send a VDM now, the host should retry */
if (pd[port].vdm_state > 0)
return pd[port].vdm_state == VDM_STATE_BUSY ?
EC_RES_BUSY : EC_RES_UNAVAILABLE;
pd_send_vdm(port, USB_VID_GOOGLE, VDO_CMD_GET_LOG, NULL, 0);
timeout.val = get_time().val + 500*MSEC;
/* Wait until VDM is done */
while ((pd[port].vdm_state > 0) &&
(get_time().val < timeout.val))
task_wait_event(10*MSEC);
if (pd[port].vdm_state > 0)
return EC_RES_TIMEOUT;
else if (pd[port].vdm_state < 0)
return EC_RES_ERROR;
return EC_RES_SUCCESS;
}
#ifdef CONFIG_USB_PD_DUAL_ROLE
void pd_request_source_voltage(int port, int mv)
{
pd_set_max_voltage(mv);
if (pd[port].task_state == PD_STATE_SNK_READY ||
pd[port].task_state == PD_STATE_SNK_TRANSITION) {
/* Set flag to send new power request in pd_task */
pd[port].new_power_request = 1;
} else {
pd[port].power_role = PD_ROLE_SINK;
tcpm_set_cc(port, TYPEC_CC_RD);
set_state(port, PD_STATE_SNK_DISCONNECTED);
}
task_wake(PD_PORT_TO_TASK_ID(port));
}
void pd_set_external_voltage_limit(int port, int mv)
{
pd_set_max_voltage(mv);
if (pd[port].task_state == PD_STATE_SNK_READY ||
pd[port].task_state == PD_STATE_SNK_TRANSITION) {
/* Set flag to send new power request in pd_task */
pd[port].new_power_request = 1;
task_wake(PD_PORT_TO_TASK_ID(port));
}
}
#endif /* CONFIG_USB_PD_DUAL_ROLE */
static int command_pd(int argc, char **argv)
{
int port;
char *e;
if (argc < 2)
return EC_ERROR_PARAM_COUNT;
#if defined(CONFIG_CMD_PD) && defined(CONFIG_USB_PD_DUAL_ROLE)
/* command: pd <subcmd> <args> */
if (!strcasecmp(argv[1], "dualrole")) {
if (argc < 3) {
ccprintf("dual-role toggling: ");
switch (drp_state) {
case PD_DRP_TOGGLE_ON:
ccprintf("on\n");
break;
case PD_DRP_TOGGLE_OFF:
ccprintf("off\n");
break;
case PD_DRP_FORCE_SINK:
ccprintf("force sink\n");
break;
case PD_DRP_FORCE_SOURCE:
ccprintf("force source\n");
break;
}
} else {
if (!strcasecmp(argv[2], "on"))
pd_set_dual_role(PD_DRP_TOGGLE_ON);
else if (!strcasecmp(argv[2], "off"))
pd_set_dual_role(PD_DRP_TOGGLE_OFF);
else if (!strcasecmp(argv[2], "sink"))
pd_set_dual_role(PD_DRP_FORCE_SINK);
else if (!strcasecmp(argv[2], "source"))
pd_set_dual_role(PD_DRP_FORCE_SOURCE);
else
return EC_ERROR_PARAM3;
}
return EC_SUCCESS;
} else
#endif
if (!strcasecmp(argv[1], "dump")) {
int level;
if (argc < 3)
ccprintf("dump level: %d\n", debug_level);
else {
level = strtoi(argv[2], &e, 10);
if (*e)
return EC_ERROR_PARAM2;
debug_level = level;
}
return EC_SUCCESS;
}
#ifdef CONFIG_CMD_PD
else if (!strcasecmp(argv[1], "enable")) {
int enable;
if (argc < 3)
return EC_ERROR_PARAM_COUNT;
enable = strtoi(argv[2], &e, 10);
if (*e)
return EC_ERROR_PARAM3;
pd_comm_enable(enable);
ccprintf("Ports %s\n", enable ? "enabled" : "disabled");
return EC_SUCCESS;
}
#ifdef CONFIG_CMD_PD_DEV_DUMP_INFO
else if (!strncasecmp(argv[1], "rwhashtable", 3)) {
int i;
struct ec_params_usb_pd_rw_hash_entry *p;
for (i = 0; i < RW_HASH_ENTRIES; i++) {
p = &rw_hash_table[i];
pd_dev_dump_info(p->dev_id, p->dev_rw_hash);
}
return EC_SUCCESS;
}
#endif /* CONFIG_CMD_PD_DEV_DUMP_INFO */
#ifdef CONFIG_USB_PD_TRY_SRC
else if (!strncasecmp(argv[1], "trysrc", 6)) {
int enable;
if (argc < 2) {
return EC_ERROR_PARAM_COUNT;
} else if (argc >= 3) {
enable = strtoi(argv[2], &e, 10);
if (*e)
return EC_ERROR_PARAM3;
pd_try_src_enable = enable ? 1 : 0;
}
ccprintf("Try.SRC %s\n", pd_try_src_enable ? "on" : "off");
return EC_SUCCESS;
}
#endif
#endif
/* command: pd <port> <subcmd> [args] */
port = strtoi(argv[1], &e, 10);
if (argc < 3)
return EC_ERROR_PARAM_COUNT;
if (*e || port >= CONFIG_USB_PD_PORT_COUNT)
return EC_ERROR_PARAM2;
#if defined(CONFIG_CMD_PD) && defined(CONFIG_USB_PD_DUAL_ROLE)
if (!strcasecmp(argv[2], "tx")) {
set_state(port, PD_STATE_SNK_DISCOVERY);
task_wake(PD_PORT_TO_TASK_ID(port));
} else if (!strcasecmp(argv[2], "bist_rx")) {
set_state(port, PD_STATE_BIST_RX);
task_wake(PD_PORT_TO_TASK_ID(port));
} else if (!strcasecmp(argv[2], "bist_tx")) {
if (*e)
return EC_ERROR_PARAM3;
set_state(port, PD_STATE_BIST_TX);
task_wake(PD_PORT_TO_TASK_ID(port));
} else if (!strcasecmp(argv[2], "charger")) {
pd[port].power_role = PD_ROLE_SOURCE;
tcpm_set_cc(port, TYPEC_CC_RP);
set_state(port, PD_STATE_SRC_DISCONNECTED);
task_wake(PD_PORT_TO_TASK_ID(port));
} else if (!strncasecmp(argv[2], "dev", 3)) {
int max_volt;
if (argc >= 4)
max_volt = strtoi(argv[3], &e, 10) * 1000;
else
max_volt = pd_get_max_voltage();
pd_request_source_voltage(port, max_volt);
ccprintf("max req: %dmV\n", max_volt);
} else if (!strncasecmp(argv[2], "hard", 4)) {
set_state(port, PD_STATE_HARD_RESET_SEND);
task_wake(PD_PORT_TO_TASK_ID(port));
} else if (!strncasecmp(argv[2], "info", 4)) {
int i;
ccprintf("Hash ");
for (i = 0; i < PD_RW_HASH_SIZE / 4; i++)
ccprintf("%08x ", pd[port].dev_rw_hash[i]);
ccprintf("\nImage %s\n", system_image_copy_t_to_string(
pd[port].current_image));
} else if (!strncasecmp(argv[2], "soft", 4)) {
set_state(port, PD_STATE_SOFT_RESET);
task_wake(PD_PORT_TO_TASK_ID(port));
} else if (!strncasecmp(argv[2], "swap", 4)) {
if (argc < 4)
return EC_ERROR_PARAM_COUNT;
if (!strncasecmp(argv[3], "power", 5))
pd_request_power_swap(port);
else if (!strncasecmp(argv[3], "data", 4))
pd_request_data_swap(port);
#ifdef CONFIG_USBC_VCONN_SWAP
else if (!strncasecmp(argv[3], "vconn", 5))
pd_request_vconn_swap(port);
#endif
else
return EC_ERROR_PARAM3;
} else if (!strncasecmp(argv[2], "ping", 4)) {
int enable;
if (argc > 3) {
enable = strtoi(argv[3], &e, 10);
if (*e)
return EC_ERROR_PARAM3;
pd_ping_enable(port, enable);
}
ccprintf("Pings %s\n",
(pd[port].flags & PD_FLAGS_PING_ENABLED) ?
"on" : "off");
} else if (!strncasecmp(argv[2], "vdm", 3)) {
if (argc < 4)
return EC_ERROR_PARAM_COUNT;
if (!strncasecmp(argv[3], "ping", 4)) {
uint32_t enable;
if (argc < 5)
return EC_ERROR_PARAM_COUNT;
enable = strtoi(argv[4], &e, 10);
if (*e)
return EC_ERROR_PARAM4;
pd_send_vdm(port, USB_VID_GOOGLE, VDO_CMD_PING_ENABLE,
&enable, 1);
} else if (!strncasecmp(argv[3], "curr", 4)) {
pd_send_vdm(port, USB_VID_GOOGLE, VDO_CMD_CURRENT,
NULL, 0);
} else if (!strncasecmp(argv[3], "vers", 4)) {
pd_send_vdm(port, USB_VID_GOOGLE, VDO_CMD_VERSION,
NULL, 0);
} else {
return EC_ERROR_PARAM_COUNT;
}
#if defined(CONFIG_CMD_PD) && defined(CONFIG_CMD_PD_FLASH)
} else if (!strncasecmp(argv[2], "flash", 4)) {
return remote_flashing(argc, argv);
#endif
} else
#endif
if (!strncasecmp(argv[2], "state", 5)) {
ccprintf("Port C%d CC%d, %s - Role: %s-%s%s "
"State: %s, Flags: 0x%04x\n",
port, pd[port].polarity + 1,
pd_comm_enabled ? "Ena" : "Dis",
pd[port].power_role == PD_ROLE_SOURCE ? "SRC" : "SNK",
pd[port].data_role == PD_ROLE_DFP ? "DFP" : "UFP",
(pd[port].flags & PD_FLAGS_VCONN_ON) ? "-VC" : "",
pd_state_names[pd[port].task_state],
pd[port].flags);
} else {
return EC_ERROR_PARAM1;
}
return EC_SUCCESS;
}
DECLARE_CONSOLE_COMMAND(pd, command_pd,
"dualrole|dump|enable [0|1]|rwhashtable"
"trysrc [0|1]\n\t<port> "
"[tx|bist_rx|bist_tx|charger|clock|dev"
"|soft|hash|hard|ping|state|swap [power|data]|"
"vdm [ping | curr | vers]]",
"USB PD",
NULL);
#ifdef HAS_TASK_HOSTCMD
static int hc_pd_ports(struct host_cmd_handler_args *args)
{
struct ec_response_usb_pd_ports *r = args->response;
r->num_ports = CONFIG_USB_PD_PORT_COUNT;
args->response_size = sizeof(*r);
return EC_RES_SUCCESS;
}
DECLARE_HOST_COMMAND(EC_CMD_USB_PD_PORTS,
hc_pd_ports,
EC_VER_MASK(0));
static const enum pd_dual_role_states dual_role_map[USB_PD_CTRL_ROLE_COUNT] = {
[USB_PD_CTRL_ROLE_TOGGLE_ON] = PD_DRP_TOGGLE_ON,
[USB_PD_CTRL_ROLE_TOGGLE_OFF] = PD_DRP_TOGGLE_OFF,
[USB_PD_CTRL_ROLE_FORCE_SINK] = PD_DRP_FORCE_SINK,
[USB_PD_CTRL_ROLE_FORCE_SOURCE] = PD_DRP_FORCE_SOURCE,
};
#ifdef CONFIG_USBC_SS_MUX
static const enum typec_mux typec_mux_map[USB_PD_CTRL_MUX_COUNT] = {
[USB_PD_CTRL_MUX_NONE] = TYPEC_MUX_NONE,
[USB_PD_CTRL_MUX_USB] = TYPEC_MUX_USB,
[USB_PD_CTRL_MUX_AUTO] = TYPEC_MUX_DP,
[USB_PD_CTRL_MUX_DP] = TYPEC_MUX_DP,
[USB_PD_CTRL_MUX_DOCK] = TYPEC_MUX_DOCK,
};
#endif
static int hc_usb_pd_control(struct host_cmd_handler_args *args)
{
const struct ec_params_usb_pd_control *p = args->params;
struct ec_response_usb_pd_control_v1 *r_v1 = args->response;
struct ec_response_usb_pd_control *r = args->response;
if (p->port >= CONFIG_USB_PD_PORT_COUNT)
return EC_RES_INVALID_PARAM;
if (p->role >= USB_PD_CTRL_ROLE_COUNT ||
p->mux >= USB_PD_CTRL_MUX_COUNT)
return EC_RES_INVALID_PARAM;
if (p->role != USB_PD_CTRL_ROLE_NO_CHANGE)
pd_set_dual_role(dual_role_map[p->role]);
#ifdef CONFIG_USBC_SS_MUX
if (p->mux != USB_PD_CTRL_MUX_NO_CHANGE)
usb_mux_set(p->port, typec_mux_map[p->mux],
typec_mux_map[p->mux] == TYPEC_MUX_NONE ?
USB_SWITCH_DISCONNECT :
USB_SWITCH_CONNECT,
pd_get_polarity(p->port));
#endif /* CONFIG_USBC_SS_MUX */
if (p->swap == USB_PD_CTRL_SWAP_DATA)
pd_request_data_swap(p->port);
#ifdef CONFIG_USB_PD_DUAL_ROLE
else if (p->swap == USB_PD_CTRL_SWAP_POWER)
pd_request_power_swap(p->port);
#ifdef CONFIG_USBC_VCONN_SWAP
else if (p->swap == USB_PD_CTRL_SWAP_VCONN)
pd_request_vconn_swap(p->port);
#endif
#endif
if (args->version == 0) {
r->enabled = pd_comm_enabled;
r->role = pd[p->port].power_role;
r->polarity = pd[p->port].polarity;
r->state = pd[p->port].task_state;
args->response_size = sizeof(*r);
} else {
r_v1->enabled =
(pd_comm_enabled ? PD_CTRL_RESP_ENABLED_COMMS : 0) |
(pd_is_connected(p->port) ?
PD_CTRL_RESP_ENABLED_CONNECTED : 0) |
((pd[p->port].flags & PD_FLAGS_PREVIOUS_PD_CONN) ?
PD_CTRL_RESP_ENABLED_PD_CAPABLE : 0);
r_v1->role =
(pd[p->port].power_role ? PD_CTRL_RESP_ROLE_POWER : 0) |
(pd[p->port].data_role ? PD_CTRL_RESP_ROLE_DATA : 0) |
((pd[p->port].flags & PD_FLAGS_VCONN_ON) ?
PD_CTRL_RESP_ROLE_VCONN : 0) |
((pd[p->port].flags & PD_FLAGS_PARTNER_DR_POWER) ?
PD_CTRL_RESP_ROLE_DR_POWER : 0) |
((pd[p->port].flags & PD_FLAGS_PARTNER_DR_DATA) ?
PD_CTRL_RESP_ROLE_DR_DATA : 0) |
((pd[p->port].flags & PD_FLAGS_PARTNER_USB_COMM) ?
PD_CTRL_RESP_ROLE_USB_COMM : 0) |
((pd[p->port].flags & PD_FLAGS_PARTNER_EXTPOWER) ?
PD_CTRL_RESP_ROLE_EXT_POWERED : 0);
r_v1->polarity = pd[p->port].polarity;
strzcpy(r_v1->state,
pd_state_names[pd[p->port].task_state],
sizeof(r_v1->state));
args->response_size = sizeof(*r_v1);
}
return EC_RES_SUCCESS;
}
DECLARE_HOST_COMMAND(EC_CMD_USB_PD_CONTROL,
hc_usb_pd_control,
EC_VER_MASK(0) | EC_VER_MASK(1));
static int hc_remote_flash(struct host_cmd_handler_args *args)
{
const struct ec_params_usb_pd_fw_update *p = args->params;
int port = p->port;
const uint32_t *data = &(p->size) + 1;
int i, size, rv = EC_RES_SUCCESS;
timestamp_t timeout;
if (port >= CONFIG_USB_PD_PORT_COUNT)
return EC_RES_INVALID_PARAM;
if (p->size + sizeof(*p) > args->params_size)
return EC_RES_INVALID_PARAM;
#if defined(CONFIG_BATTERY_PRESENT_CUSTOM) || \
defined(CONFIG_BATTERY_PRESENT_GPIO)
/*
* Do not allow PD firmware update if no battery and this port
* is sinking power, because we will lose power.
*/
if (battery_is_present() != BP_YES &&
charge_manager_get_active_charge_port() == port)
return EC_RES_UNAVAILABLE;
#endif
/*
* Busy still with a VDM that host likely generated. 1 deep VDM queue
* so just return for retry logic on host side to deal with.
*/
if (pd[port].vdm_state > 0)
return EC_RES_BUSY;
switch (p->cmd) {
case USB_PD_FW_REBOOT:
pd_send_vdm(port, USB_VID_GOOGLE, VDO_CMD_REBOOT, NULL, 0);
/*
* Return immediately to free pending i2c bus. Host needs to
* manage this delay.
*/
return EC_RES_SUCCESS;
case USB_PD_FW_FLASH_ERASE:
pd_send_vdm(port, USB_VID_GOOGLE, VDO_CMD_FLASH_ERASE, NULL, 0);
/*
* Return immediately. Host needs to manage delays here which
* can be as long as 1.2 seconds on 64KB RW flash.
*/
return EC_RES_SUCCESS;
case USB_PD_FW_ERASE_SIG:
pd_send_vdm(port, USB_VID_GOOGLE, VDO_CMD_ERASE_SIG, NULL, 0);
timeout.val = get_time().val + 500*MSEC;
break;
case USB_PD_FW_FLASH_WRITE:
/* Data size must be a multiple of 4 */
if (!p->size || p->size % 4)
return EC_RES_INVALID_PARAM;
size = p->size / 4;
for (i = 0; i < size; i += VDO_MAX_SIZE - 1) {
pd_send_vdm(port, USB_VID_GOOGLE, VDO_CMD_FLASH_WRITE,
data + i, MIN(size - i, VDO_MAX_SIZE - 1));
timeout.val = get_time().val + 500*MSEC;
/* Wait until VDM is done */
while ((pd[port].vdm_state > 0) &&
(get_time().val < timeout.val))
task_wait_event(10*MSEC);
if (pd[port].vdm_state > 0)
return EC_RES_TIMEOUT;
}
return EC_RES_SUCCESS;
default:
return EC_RES_INVALID_PARAM;
break;
}
/* Wait until VDM is done or timeout */
while ((pd[port].vdm_state > 0) && (get_time().val < timeout.val))
task_wait_event(50*MSEC);
if ((pd[port].vdm_state > 0) ||
(pd[port].vdm_state == VDM_STATE_ERR_TMOUT))
rv = EC_RES_TIMEOUT;
else if (pd[port].vdm_state < 0)
rv = EC_RES_ERROR;
return rv;
}
DECLARE_HOST_COMMAND(EC_CMD_USB_PD_FW_UPDATE,
hc_remote_flash,
EC_VER_MASK(0));
static int hc_remote_rw_hash_entry(struct host_cmd_handler_args *args)
{
int i, idx = 0, found = 0;
const struct ec_params_usb_pd_rw_hash_entry *p = args->params;
static int rw_hash_next_idx;
if (!p->dev_id)
return EC_RES_INVALID_PARAM;
for (i = 0; i < RW_HASH_ENTRIES; i++) {
if (p->dev_id == rw_hash_table[i].dev_id) {
idx = i;
found = 1;
break;
}
}
if (!found) {
idx = rw_hash_next_idx;
rw_hash_next_idx = rw_hash_next_idx + 1;
if (rw_hash_next_idx == RW_HASH_ENTRIES)
rw_hash_next_idx = 0;
}
memcpy(&rw_hash_table[idx], p, sizeof(*p));
return EC_RES_SUCCESS;
}
DECLARE_HOST_COMMAND(EC_CMD_USB_PD_RW_HASH_ENTRY,
hc_remote_rw_hash_entry,
EC_VER_MASK(0));
static int hc_remote_pd_dev_info(struct host_cmd_handler_args *args)
{
const uint8_t *port = args->params;
struct ec_params_usb_pd_rw_hash_entry *r = args->response;
if (*port >= CONFIG_USB_PD_PORT_COUNT)
return EC_RES_INVALID_PARAM;
r->dev_id = pd[*port].dev_id;
if (r->dev_id) {
memcpy(r->dev_rw_hash, pd[*port].dev_rw_hash,
PD_RW_HASH_SIZE);
}
r->current_image = pd[*port].current_image;
args->response_size = sizeof(*r);
return EC_RES_SUCCESS;
}
DECLARE_HOST_COMMAND(EC_CMD_USB_PD_DEV_INFO,
hc_remote_pd_dev_info,
EC_VER_MASK(0));
#ifdef CONFIG_USB_PD_ALT_MODE_DFP
static int hc_remote_pd_set_amode(struct host_cmd_handler_args *args)
{
const struct ec_params_usb_pd_set_mode_request *p = args->params;
if ((p->port >= CONFIG_USB_PD_PORT_COUNT) || (!p->svid) || (!p->opos))
return EC_RES_INVALID_PARAM;
switch (p->cmd) {
case PD_EXIT_MODE:
if (pd_dfp_exit_mode(p->port, p->svid, p->opos))
pd_send_vdm(p->port, p->svid,
CMD_EXIT_MODE | VDO_OPOS(p->opos), NULL, 0);
else {
CPRINTF("Failed exit mode\n");
return EC_RES_ERROR;
}
break;
case PD_ENTER_MODE:
if (pd_dfp_enter_mode(p->port, p->svid, p->opos))
pd_send_vdm(p->port, p->svid, CMD_ENTER_MODE |
VDO_OPOS(p->opos), NULL, 0);
break;
default:
return EC_RES_INVALID_PARAM;
}
return EC_RES_SUCCESS;
}
DECLARE_HOST_COMMAND(EC_CMD_USB_PD_SET_AMODE,
hc_remote_pd_set_amode,
EC_VER_MASK(0));
#endif /* CONFIG_USB_PD_ALT_MODE_DFP */
#endif /* HAS_TASK_HOSTCMD */
#endif /* CONFIG_COMMON_RUNTIME */
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