/* * This file is part of the MicroPython project, http://micropython.org/ * * The MIT License (MIT) * * Copyright (c) 2018-2019 Damien P. George * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #include #include "py/mphal.h" #include "drivers/cyw43/cyw43.h" #include "pendsv.h" #include "sdio.h" #define CYW_ENTER MICROPY_PY_LWIP_ENTER #define CYW_EXIT MICROPY_PY_LWIP_EXIT #ifdef pyb_pin_WL_HOST_WAKE #define USE_SDIOIT (0) #else #define USE_SDIOIT (1) #endif #define CYW43_SLEEP_MAX (50) #define WIFI_JOIN_STATE_ACTIVE (0x0001) #define WIFI_JOIN_STATE_FAIL (0x0002) #define WIFI_JOIN_STATE_NONET (0x0003) #define WIFI_JOIN_STATE_BADAUTH (0x0004) #define WIFI_JOIN_STATE_AUTH (0x0200) #define WIFI_JOIN_STATE_LINK (0x0400) #define WIFI_JOIN_STATE_KEYED (0x0800) #define WIFI_JOIN_STATE_ALL (0x0e01) cyw43_t cyw43_state; void (*cyw43_poll)(void); uint32_t cyw43_sleep; STATIC void cyw43_poll_func(void); STATIC void cyw43_wifi_ap_init(cyw43_t *self); STATIC void cyw43_wifi_ap_set_up(cyw43_t *self, bool up); static inline uint32_t cyw43_get_be16(const uint8_t *buf) { return buf[0] << 8 | buf[1]; } static inline uint32_t cyw43_get_be32(const uint8_t *buf) { return buf[0] << 24 | buf[1] << 16 | buf[2] << 8 | buf[3]; } static inline void cyw43_delay_ms(uint32_t ms) { mp_hal_delay_ms(ms); } /*******************************************************************************/ // Initialisation and polling void cyw43_init(cyw43_t *self) { #ifdef pyb_pin_WL_HOST_WAKE mp_hal_pin_config(pyb_pin_WL_HOST_WAKE, MP_HAL_PIN_MODE_INPUT, MP_HAL_PIN_PULL_NONE, 0); #endif mp_hal_pin_config(pyb_pin_WL_REG_ON, MP_HAL_PIN_MODE_OUTPUT, MP_HAL_PIN_PULL_NONE, 0); mp_hal_pin_low(pyb_pin_WL_REG_ON); #ifdef pyb_pin_WL_RFSW_VDD mp_hal_pin_config(pyb_pin_WL_RFSW_VDD, MP_HAL_PIN_MODE_OUTPUT, MP_HAL_PIN_PULL_NONE, 0); // RF-switch power mp_hal_pin_low(pyb_pin_WL_RFSW_VDD); #endif cyw43_ll_init(&self->cyw43_ll, self); self->itf_state = 0; self->wifi_scan_state = 0; self->wifi_join_state = 0; self->pend_disassoc = false; self->pend_rejoin= false; self->pend_rejoin_wpa = false; self->ap_channel = 3; self->ap_ssid_len = 0; self->ap_key_len = 0; cyw43_poll = NULL; } void cyw43_deinit(cyw43_t *self) { CYW_ENTER cyw43_ll_bus_sleep(&self->cyw43_ll, true); cyw43_delay_ms(2); cyw43_tcpip_deinit(self, 0); cyw43_tcpip_deinit(self, 1); self->itf_state = 0; // Disable async polling SDMMC1->MASK &= ~SDMMC_MASK_SDIOITIE; cyw43_poll = NULL; #ifdef pyb_pin_WL_RFSW_VDD // Turn the RF-switch off mp_hal_pin_low(pyb_pin_WL_RFSW_VDD); #endif // Power down the WL chip and the SDIO bus mp_hal_pin_low(pyb_pin_WL_REG_ON); sdio_deinit(); CYW_EXIT } STATIC int cyw43_ensure_up(cyw43_t *self) { if (cyw43_poll != NULL) { cyw43_ll_bus_sleep(&self->cyw43_ll, false); return 0; } CYW_ENTER // Disable the netif if it was previously up cyw43_tcpip_deinit(self, CYW43_ITF_STA); cyw43_tcpip_deinit(self, CYW43_ITF_AP); self->itf_state = 0; // Reset and power up the WL chip mp_hal_pin_low(pyb_pin_WL_REG_ON); cyw43_delay_ms(20); mp_hal_pin_high(pyb_pin_WL_REG_ON); cyw43_delay_ms(50); // Initialise SDIO bus // IRQ priority only needs to be higher than CYW_ENTER/EXIT protection (PENDSV) sdio_init(NVIC_EncodePriority(NVIC_PRIORITYGROUP_4, 14, 0)); // Initialise the low-level driver uint8_t mac[6]; mp_hal_get_mac(MP_HAL_MAC_WLAN0, mac); int ret = cyw43_ll_bus_init(&self->cyw43_ll, mac); if (ret != 0) { CYW_EXIT return ret; } // Enable async events from low-level driver cyw43_sleep = CYW43_SLEEP_MAX; cyw43_poll = cyw43_poll_func; #if USE_SDIOIT SDMMC1->MASK |= SDMMC_MASK_SDIOITIE; #else extern void extint_set(const pin_obj_t *pin, uint32_t mode); extint_set(pyb_pin_WL_HOST_WAKE, GPIO_MODE_IT_FALLING); #endif CYW_EXIT return ret; } // This function must always be executed at the level where CYW_ENTER is effectively active STATIC void cyw43_poll_func(void) { if (cyw43_poll == NULL) { // Poll scheduled during deinit, just ignore it return; } cyw43_t *self = &cyw43_state; cyw43_ll_process_packets(&self->cyw43_ll); if (self->pend_disassoc) { self->pend_disassoc = false; cyw43_ll_ioctl(&self->cyw43_ll, CYW43_IOCTL_SET_DISASSOC, 0, NULL, CYW43_ITF_STA); } if (self->pend_rejoin_wpa) { self->pend_rejoin_wpa = false; cyw43_ll_wifi_set_wpa_auth(&self->cyw43_ll); } if (self->pend_rejoin) { self->pend_rejoin = false; cyw43_ll_wifi_rejoin(&self->cyw43_ll); self->wifi_join_state = WIFI_JOIN_STATE_ACTIVE; } if (cyw43_sleep == 0) { cyw43_ll_bus_sleep(&self->cyw43_ll, true); #if !USE_SDIOIT sdio_deinit(); // save power while WLAN bus sleeps #endif } #if USE_SDIOIT SDMMC1->MASK |= SDMMC_MASK_SDIOITIE; #endif } /*******************************************************************************/ // Callback interface to low-level driver int cyw43_cb_read_host_interrupt_pin(void *cb_data) { #ifdef pyb_pin_WL_HOST_WAKE return mp_hal_pin_read(pyb_pin_WL_HOST_WAKE); #else return mp_hal_pin_read(pyb_pin_WL_SDIO_1); #endif } void cyw43_cb_ensure_awake(void *cb_data) { cyw43_sleep = CYW43_SLEEP_MAX; #if !USE_SDIOIT if (__HAL_RCC_SDMMC1_IS_CLK_DISABLED()) { __HAL_RCC_SDMMC1_CLK_ENABLE(); // enable SDIO peripheral sdio_enable_high_speed_4bit(); } #endif } STATIC const char *cyw43_async_event_name_table[89] = { [0 ... 88] = NULL, [CYW43_EV_SET_SSID] = "SET_SSID", [CYW43_EV_JOIN] = "JOIN", [CYW43_EV_AUTH] = "AUTH", [CYW43_EV_DEAUTH_IND] = "DEAUTH_IND", [CYW43_EV_ASSOC] = "ASSOC", [CYW43_EV_DISASSOC] = "DISASSOC", [CYW43_EV_DISASSOC_IND] = "DISASSOC_IND", [CYW43_EV_LINK] = "LINK", [CYW43_EV_PSK_SUP] = "PSK_SUP", [CYW43_EV_ESCAN_RESULT] = "ESCAN_RESULT", [CYW43_EV_CSA_COMPLETE_IND] = "CSA_COMPLETE_IND", [CYW43_EV_ASSOC_REQ_IE] = "ASSOC_REQ_IE", [CYW43_EV_ASSOC_RESP_IE] = "ASSOC_RESP_IE", }; STATIC void cyw43_dump_async_event(const cyw43_async_event_t *ev) { printf("[% 8d] ASYNC(%04x,", (int)mp_hal_ticks_ms(), (unsigned int)ev->flags ); if (ev->event_type < MP_ARRAY_SIZE(cyw43_async_event_name_table) && cyw43_async_event_name_table[ev->event_type] != NULL) { printf("%s", cyw43_async_event_name_table[ev->event_type]); } else { printf("%u", (unsigned int)ev->event_type); } printf(",%u,%u,%u)\n", (unsigned int)ev->status, (unsigned int)ev->reason, (unsigned int)ev->interface ); } void cyw43_cb_process_async_event(void *cb_data, const cyw43_async_event_t *ev) { cyw43_t *self = cb_data; if (self->trace_flags & CYW43_TRACE_ASYNC_EV) { cyw43_dump_async_event(ev); } if (ev->event_type == CYW43_EV_ESCAN_RESULT && self->wifi_scan_state == 1) { // Escan result event if (ev->status == 8) { // Partial result int ret = self->wifi_scan_cb(self->wifi_scan_env, &ev->u.scan_result); if (ret != 0) { // TODO need to abort scan, or just ignore any more results } } else if (ev->status == 0) { // Scan complete self->wifi_scan_state = 2; } } else if (ev->event_type == CYW43_EV_DISASSOC) { cyw43_tcpip_set_link_down(self, CYW43_ITF_STA); self->wifi_join_state = 0x0000; /* } else if (ev->event_type == CYW43_EV_DISASSOC_IND) { if (ev->interface == CYW43_ITF_AP) { // Station disassociated with our AP, let DHCP server know so it can free the IP address dhcp_server_disassoc(&self->dhcp_server, buf + 24); } */ // WiFi join events } else if (ev->event_type == CYW43_EV_PRUNE) { if (ev->status == 0 && ev->reason == 8) { // RSN mismatch, retry join with WPA auth self->pend_rejoin = true; self->pend_rejoin_wpa = true; pendsv_schedule_dispatch(PENDSV_DISPATCH_CYW43, cyw43_poll_func); } } else if (ev->event_type == CYW43_EV_SET_SSID) { if (ev->status == 0) { // Success setting SSID } else if (ev->status == 3 && ev->reason == 0) { self->wifi_join_state = WIFI_JOIN_STATE_NONET; // No matching SSID found (could be out of range, or down) } else { // Other failure setting SSID self->wifi_join_state = WIFI_JOIN_STATE_FAIL; } } else if (ev->event_type == CYW43_EV_AUTH) { if (ev->status == 0) { self->wifi_join_state |= WIFI_JOIN_STATE_AUTH; } else if (ev->status == 6) { // Unsolicited auth packet, ignore it } else { // Cannot authenticate self->wifi_join_state = WIFI_JOIN_STATE_BADAUTH; } } else if (ev->event_type == CYW43_EV_DEAUTH_IND) { if (ev->status == 0 && ev->reason == 2) { // Deauth, probably because password was wrong; disassociate self->pend_disassoc = true; pendsv_schedule_dispatch(PENDSV_DISPATCH_CYW43, cyw43_poll_func); } } else if (ev->event_type == CYW43_EV_LINK) { if (ev->status == 0) { if (ev->flags & 1) { // Link is up if (ev->interface == CYW43_ITF_STA) { self->wifi_join_state |= WIFI_JOIN_STATE_LINK; } else { cyw43_tcpip_set_link_up(self, ev->interface); } } else { // Link is down cyw43_tcpip_set_link_down(self, ev->interface); } } } else if (ev->event_type == CYW43_EV_PSK_SUP) { if (ev->status == 6) { // WLC_SUP_KEYED self->wifi_join_state |= WIFI_JOIN_STATE_KEYED; } else if ((ev->status == 4 || ev->status == 8 || ev->status == 11) && ev->reason == 15) { // Timeout waiting for key exchange M1/M3/G1 // Probably at edge of the cell, retry self->pend_rejoin = true; pendsv_schedule_dispatch(PENDSV_DISPATCH_CYW43, cyw43_poll_func); } else { // PSK_SUP failure self->wifi_join_state = WIFI_JOIN_STATE_BADAUTH; } } if (self->wifi_join_state == WIFI_JOIN_STATE_ALL) { // STA connected self->wifi_join_state = WIFI_JOIN_STATE_ACTIVE; cyw43_tcpip_set_link_up(self, CYW43_ITF_STA); } } /*******************************************************************************/ // Ioctl and Ethernet interface int cyw43_ioctl(cyw43_t *self, uint32_t cmd, size_t len, uint8_t *buf, uint32_t iface) { int ret = cyw43_ensure_up(self); if (ret) { return ret; } CYW_ENTER ret = cyw43_ll_ioctl(&self->cyw43_ll, cmd, len, buf, iface); CYW_EXIT return ret; } int cyw43_send_ethernet(cyw43_t *self, int itf, size_t len, const void *buf, bool is_pbuf) { int ret = cyw43_ensure_up(self); if (ret) { return ret; } CYW_ENTER ret = cyw43_ll_send_ethernet(&self->cyw43_ll, itf, len, buf, is_pbuf); CYW_EXIT return ret; } /*******************************************************************************/ // WiFi control STATIC int cyw43_wifi_on(cyw43_t *self, uint32_t country) { int ret = cyw43_ensure_up(self); if (ret) { return ret; } #ifdef pyb_pin_WL_RFSW_VDD // Turn the RF-switch on mp_hal_pin_high(pyb_pin_WL_RFSW_VDD); #endif CYW_ENTER ret = cyw43_ll_wifi_on(&self->cyw43_ll, country); CYW_EXIT return ret; } int cyw43_wifi_pm(cyw43_t *self, uint32_t pm_in) { int ret = cyw43_ensure_up(self); if (ret) { return ret; } // pm_in: 0x00adbrrm uint32_t pm = pm_in & 0xf; uint32_t pm_sleep_ret = (pm_in >> 4) & 0xff; uint32_t li_bcn = (pm_in >> 12) & 0xf; uint32_t li_dtim = (pm_in >> 16) & 0xf; uint32_t li_assoc = (pm_in >> 20) & 0xf; CYW_ENTER ret = cyw43_ll_wifi_pm(&self->cyw43_ll, pm, pm_sleep_ret, li_bcn, li_dtim, li_assoc); CYW_EXIT return ret; } int cyw43_wifi_get_mac(cyw43_t *self, int itf, uint8_t mac[6]) { mp_hal_get_mac(MP_HAL_MAC_WLAN0, &mac[0]); return 0; } #define MAKE_COUNTRY(a, b, rev) ((a) | (b) << 8 | (rev) << 16) void cyw43_wifi_set_up(cyw43_t *self, int itf, bool up) { if (up) { if (self->itf_state == 0) { uint32_t country; extern char pyb_country_code[2]; if (pyb_country_code[0] == '\0' || pyb_country_code[1] == '\0') { country = MAKE_COUNTRY('X', 'X', 17); // default to world-wide (passive ch 12-14) } else { country = MAKE_COUNTRY(pyb_country_code[0], pyb_country_code[1], 0); } cyw43_wifi_on(self, country); cyw43_wifi_pm(self, 10 << 20 | 1 << 16 | 1 << 12 | 20 << 4 | 2); } if (itf == CYW43_ITF_AP) { cyw43_wifi_ap_init(self); cyw43_wifi_ap_set_up(self, true); } if ((self->itf_state & (1 << itf)) == 0) { CYW_ENTER cyw43_tcpip_deinit(self, itf); cyw43_tcpip_init(self, itf); self->itf_state |= 1 << itf; CYW_EXIT } } else { if (itf == CYW43_ITF_AP) { cyw43_wifi_ap_set_up(self, false); } } } int cyw43_wifi_scan(cyw43_t *self, cyw43_wifi_scan_options_t *opts, void *env, int (*result_cb)(void*, const cyw43_ev_scan_result_t*)) { if (self->itf_state == 0) { return -1; } cyw43_ensure_up(self); CYW_ENTER // Set state and callback data self->wifi_scan_state = 1; self->wifi_scan_env = env; self->wifi_scan_cb = result_cb; // Start the scan int ret = cyw43_ll_wifi_scan(&self->cyw43_ll, opts); CYW_EXIT return ret; } int cyw43_wifi_link_status(cyw43_t *self, int itf) { if (itf == CYW43_ITF_STA) { int s = self->wifi_join_state & 0xf; if (s == WIFI_JOIN_STATE_ACTIVE) { return CYW43_LINK_JOIN; } else if (s == WIFI_JOIN_STATE_FAIL) { return CYW43_LINK_FAIL; } else if (s == WIFI_JOIN_STATE_NONET) { return CYW43_LINK_NONET; } else if (s == WIFI_JOIN_STATE_BADAUTH) { return CYW43_LINK_BADAUTH; } else { return CYW43_LINK_DOWN; } } else { return CYW43_LINK_DOWN; } } /*******************************************************************************/ // WiFi STA int cyw43_wifi_join(cyw43_t *self, size_t ssid_len, const uint8_t *ssid, size_t key_len, const uint8_t *key, uint32_t auth_type, const uint8_t *bssid, uint32_t channel) { int ret = cyw43_ensure_up(self); if (ret) { return ret; } CYW_ENTER ret = cyw43_ll_wifi_join(&self->cyw43_ll, ssid_len, ssid, key_len, key, auth_type, bssid, channel); if (ret == 0) { // Wait for responses: EV_AUTH, EV_LINK, EV_SET_SSID, EV_PSK_SUP // Will get EV_DEAUTH_IND if password is invalid self->wifi_join_state = WIFI_JOIN_STATE_ACTIVE; if (auth_type == 0) { // For open security we don't need EV_PSK_SUP, so set that flag indicator now self->wifi_join_state |= WIFI_JOIN_STATE_KEYED; } } CYW_EXIT return ret; } int cyw43_wifi_leave(cyw43_t *self, int itf) { // Disassociate with SSID return cyw43_ioctl(self, CYW43_IOCTL_SET_DISASSOC, 0, NULL, itf); } /*******************************************************************************/ // WiFi AP STATIC void cyw43_wifi_ap_init(cyw43_t *self) { int ret = cyw43_ensure_up(self); if (ret) { return; } CYW_ENTER cyw43_ll_wifi_ap_init(&self->cyw43_ll, self->ap_ssid_len, self->ap_ssid, self->ap_auth, self->ap_key_len, self->ap_key, self->ap_channel); CYW_EXIT } STATIC void cyw43_wifi_ap_set_up(cyw43_t *self, bool up) { int ret = cyw43_ensure_up(self); if (ret) { return; } CYW_ENTER cyw43_ll_wifi_ap_set_up(&self->cyw43_ll, up); CYW_EXIT } void cyw43_wifi_ap_get_stas(cyw43_t *self, int *num_stas, uint8_t *macs) { int ret = cyw43_ensure_up(self); if (ret) { return; } CYW_ENTER cyw43_ll_wifi_ap_get_stas(&self->cyw43_ll, num_stas, macs); CYW_EXIT }