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69f54973cc
flipperzero-firmware/applications/cli/cli_commands.c
tonyfreeman 69f54973cc
Nfc: fix incorrect type castings. Global: fix printf usage, types casting, overall cleanup. Drivers: incorrect array index in cc1101 driver. (#713) 
* fix 'function cannot return qualified void/bool type'
* Fix variable 'consumed' is used uninitialized
* Fix format string is not a string literal (potentially insecure)
* Fix conflicting types for 'menu_item_get_type'
* Fix implicit conversion from enumeration type 'NfcDeviceType' to different enumeration type 'rfalNfcDevType'
* Fix hal_gpio_init incorrect arguments order
* Fix nfc->dev.dev_name condition will always evaluate to 'true'
* Fix explicitly assigning value of variable to itself
* Fix furi_hal_bt_wait_startup counter overflow
* Fix implicit conversion from 'StorageStatus' to 'SDError'
* Remove #include <sys/param.h>
* Add FIXME
* Fix syntax
* Fixup for 'furi_hal_bt_wait_startup counter overflow'
* nfc: fix different nfc device types
* Drivers: fix incorrect offset in cc1101_read_fifo
* Remove obsolete comment

Co-authored-by: Tony Freeman <tonyfreeman@users.noreply.github.com>
Co-authored-by: gornekich <n.gorbadey@gmail.com>
Co-authored-by: あく <alleteam@gmail.com>
2021-09-21 12:34:16 +03:00

431 lines
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C
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#include "cli_commands.h"
#include <furi-hal.h>
#include <furi-hal-gpio.h>
#include <rtc.h>
#include <task-control-block.h>
#include <time.h>
#include <notification/notification-messages.h>
#include <shci.h>
#define ENCLAVE_SIGNATURE_KEY_SLOT 1
#define ENCLAVE_SIGNATURE_SIZE 16
static const uint8_t enclave_signature_iv[16] =
{0x32, 0xe6, 0xa7, 0x85, 0x20, 0xae, 0x0b, 0xf0, 0x00, 0xb6, 0x30, 0x9b, 0xd5, 0x42, 0x9e, 0xa6};
static const uint8_t enclave_signature_input[ENCLAVE_SIGNATURE_SIZE] =
{0xdc, 0x76, 0x15, 0x1e, 0x69, 0xe8, 0xdc, 0xd3, 0x4a, 0x71, 0x0b, 0x42, 0x71, 0xe0, 0xa9, 0x78};
static const uint8_t enclave_signature_expected[ENCLAVE_SIGNATURE_SIZE] =
{0x1b, 0xb3, 0xcf, 0x16, 0xc, 0x27, 0xf7, 0xf2, 0xf0, 0x7e, 0x5f, 0xbe, 0xfe, 0x89, 0x52, 0xe1};
/*
* Device Info Command
* This command is intended to be used by humans and machines
* Keys and values format MUST NOT BE changed
*/
void cli_command_device_info(Cli* cli, string_t args, void* context) {
// Model name
printf("hardware_model : %s\r\n", furi_hal_version_get_model_name());
const char* name = furi_hal_version_get_name_ptr();
if(name) {
printf("hardware_name : %s\r\n", name);
}
// Unique ID
printf("hardware_uid : ");
const uint8_t* uid = furi_hal_version_uid();
for(size_t i = 0; i < furi_hal_version_uid_size(); i++) {
printf("%02X", uid[i]);
}
printf("\r\n");
// Board Revision
printf("hardware_ver : %d\r\n", furi_hal_version_get_hw_version());
printf("hardware_target : %d\r\n", furi_hal_version_get_hw_target());
printf("hardware_body : %d\r\n", furi_hal_version_get_hw_body());
printf("hardware_connect : %d\r\n", furi_hal_version_get_hw_connect());
printf("hardware_timestamp : %lu\r\n", furi_hal_version_get_hw_timestamp());
// Color and Region
printf("hardware_color : %d\r\n", furi_hal_version_get_hw_color());
printf("hardware_region : %d\r\n", furi_hal_version_get_hw_region());
// Bootloader Version
const Version* boot_version = furi_hal_version_get_boot_version();
if(boot_version) {
printf("boot_version : %s\r\n", version_get_version(boot_version));
printf("boot_target : %s\r\n", version_get_target(boot_version));
printf("boot_commit : %s\r\n", version_get_githash(boot_version));
printf("boot_branch : %s\r\n", version_get_gitbranch(boot_version));
printf("boot_build_date : %s\r\n", version_get_builddate(boot_version));
}
// Firmware version
const Version* firmware_version = furi_hal_version_get_firmware_version();
if(firmware_version) {
printf("firmware_version : %s\r\n", version_get_version(firmware_version));
printf("firmware_target : %s\r\n", version_get_target(firmware_version));
printf("firmware_commit : %s\r\n", version_get_githash(firmware_version));
printf("firmware_branch : %s\r\n", version_get_gitbranch(firmware_version));
printf("firmware_build_date : %s\r\n", version_get_builddate(firmware_version));
}
WirelessFwInfo_t pWirelessInfo;
if(furi_hal_bt_is_alive() && SHCI_GetWirelessFwInfo(&pWirelessInfo) == SHCI_Success) {
printf("radio_alive : true\r\n");
// FUS Info
printf("radio_fus_major : %d\r\n", pWirelessInfo.FusVersionMajor);
printf("radio_fus_minor : %d\r\n", pWirelessInfo.FusVersionMinor);
printf("radio_fus_sub : %d\r\n", pWirelessInfo.FusVersionSub);
printf("radio_fus_sram2b : %dK\r\n", pWirelessInfo.FusMemorySizeSram2B);
printf("radio_fus_sram2a : %dK\r\n", pWirelessInfo.FusMemorySizeSram2A);
printf("radio_fus_flash : %dK\r\n", pWirelessInfo.FusMemorySizeFlash * 4);
// Stack Info
printf("radio_stack_type : %d\r\n", pWirelessInfo.StackType);
printf("radio_stack_major : %d\r\n", pWirelessInfo.VersionMajor);
printf("radio_stack_minor : %d\r\n", pWirelessInfo.VersionMinor);
printf("radio_stack_sub : %d\r\n", pWirelessInfo.VersionSub);
printf("radio_stack_branch : %d\r\n", pWirelessInfo.VersionBranch);
printf("radio_stack_release : %d\r\n", pWirelessInfo.VersionReleaseType);
printf("radio_stack_sram2b : %dK\r\n", pWirelessInfo.MemorySizeSram2B);
printf("radio_stack_sram2a : %dK\r\n", pWirelessInfo.MemorySizeSram2A);
printf("radio_stack_sram1 : %dK\r\n", pWirelessInfo.MemorySizeSram1);
printf("radio_stack_flash : %dK\r\n", pWirelessInfo.MemorySizeFlash * 4);
// Mac address
printf("radio_ble_mac : ");
const uint8_t* ble_mac = furi_hal_version_get_ble_mac();
for(size_t i = 0; i < 6; i++) {
printf("%02X", ble_mac[i]);
}
printf("\r\n");
// Signature verification
uint8_t buffer[ENCLAVE_SIGNATURE_SIZE];
bool enclave_valid = false;
if(furi_hal_crypto_store_load_key(ENCLAVE_SIGNATURE_KEY_SLOT, enclave_signature_iv)) {
if(furi_hal_crypto_encrypt(enclave_signature_input, buffer, ENCLAVE_SIGNATURE_SIZE)) {
enclave_valid =
memcmp(buffer, enclave_signature_expected, ENCLAVE_SIGNATURE_SIZE) == 0;
}
furi_hal_crypto_store_unload_key(ENCLAVE_SIGNATURE_KEY_SLOT);
}
printf("enclave_valid : %s\r\n", enclave_valid ? "true" : "false");
} else {
printf("radio_alive : false\r\n");
}
}
void cli_command_help(Cli* cli, string_t args, void* context) {
(void)args;
printf("Commands we have:");
// Command count
const size_t commands_count = CliCommandTree_size(cli->commands);
const size_t commands_count_mid = commands_count / 2 + commands_count % 2;
// Use 2 iterators from start and middle to show 2 columns
CliCommandTree_it_t it_left;
CliCommandTree_it(it_left, cli->commands);
CliCommandTree_it_t it_right;
CliCommandTree_it(it_right, cli->commands);
for(size_t i = 0; i < commands_count_mid; i++) CliCommandTree_next(it_right);
// Iterate throw tree
for(size_t i = 0; i < commands_count_mid; i++) {
printf("\r\n");
// Left Column
if(!CliCommandTree_end_p(it_left)) {
printf("%-30s", string_get_cstr(*CliCommandTree_ref(it_left)->key_ptr));
CliCommandTree_next(it_left);
}
// Right Column
if(!CliCommandTree_end_p(it_right)) {
printf("%s", string_get_cstr(*CliCommandTree_ref(it_right)->key_ptr));
CliCommandTree_next(it_right);
}
};
if(string_size(args) > 0) {
cli_nl();
printf("Also I have no clue what '");
printf("%s", string_get_cstr(args));
printf("' is.");
}
}
void cli_command_date(Cli* cli, string_t args, void* context) {
RTC_TimeTypeDef time;
RTC_DateTypeDef date;
if(string_size(args) > 0) {
uint16_t Hours, Minutes, Seconds, Month, Date, Year, WeekDay;
int ret = sscanf(
string_get_cstr(args),
"%hu:%hu:%hu %hu-%hu-%hu %hu",
&Hours,
&Minutes,
&Seconds,
&Month,
&Date,
&Year,
&WeekDay);
if(ret == 7) {
time.Hours = Hours;
time.Minutes = Minutes;
time.Seconds = Seconds;
time.DayLightSaving = RTC_DAYLIGHTSAVING_NONE;
time.StoreOperation = RTC_STOREOPERATION_RESET;
date.WeekDay = WeekDay;
date.Month = Month;
date.Date = Date;
date.Year = Year - 2000;
HAL_RTC_SetTime(&hrtc, &time, RTC_FORMAT_BIN);
HAL_RTC_SetDate(&hrtc, &date, RTC_FORMAT_BIN);
// Verification
HAL_RTC_GetTime(&hrtc, &time, RTC_FORMAT_BIN);
HAL_RTC_GetDate(&hrtc, &date, RTC_FORMAT_BIN);
printf(
"New time is: %.2d:%.2d:%.2d %.2d-%.2d-%.2d %d",
time.Hours,
time.Minutes,
time.Seconds,
date.Month,
date.Date,
2000 + date.Year,
date.WeekDay);
} else {
printf(
"Invalid time format, use `hh:mm:ss MM-DD-YYYY WD`. sscanf %d %s",
ret,
string_get_cstr(args));
return;
}
} else {
// TODO add get_datetime to core, not use HAL here
// READ ORDER MATTERS! Time then date.
HAL_RTC_GetTime(&hrtc, &time, RTC_FORMAT_BIN);
HAL_RTC_GetDate(&hrtc, &date, RTC_FORMAT_BIN);
printf(
"%.2d:%.2d:%.2d %.2d-%.2d-%.2d %d",
time.Hours,
time.Minutes,
time.Seconds,
date.Month,
date.Date,
2000 + date.Year,
date.WeekDay);
}
}
void cli_command_log(Cli* cli, string_t args, void* context) {
furi_stdglue_set_global_stdout_callback(cli_stdout_callback);
printf("Press any key to stop...\r\n");
cli_getc(cli);
furi_stdglue_set_global_stdout_callback(NULL);
}
void cli_command_vibro(Cli* cli, string_t args, void* context) {
if(!string_cmp(args, "0")) {
NotificationApp* notification = furi_record_open("notification");
notification_message_block(notification, &sequence_reset_vibro);
furi_record_close("notification");
} else if(!string_cmp(args, "1")) {
NotificationApp* notification = furi_record_open("notification");
notification_message_block(notification, &sequence_set_vibro_on);
furi_record_close("notification");
} else {
cli_print_usage("vibro", "<1|0>", string_get_cstr(args));
}
}
void cli_command_led(Cli* cli, string_t args, void* context) {
// Get first word as light name
NotificationMessage notification_led_message;
string_t light_name;
string_init(light_name);
size_t ws = string_search_char(args, ' ');
if(ws == STRING_FAILURE) {
cli_print_usage("led", "<r|g|b|bl> <0-255>", string_get_cstr(args));
string_clear(light_name);
return;
} else {
string_set_n(light_name, args, 0, ws);
string_right(args, ws);
string_strim(args);
}
// Check light name
if(!string_cmp(light_name, "r")) {
notification_led_message.type = NotificationMessageTypeLedRed;
} else if(!string_cmp(light_name, "g")) {
notification_led_message.type = NotificationMessageTypeLedGreen;
} else if(!string_cmp(light_name, "b")) {
notification_led_message.type = NotificationMessageTypeLedBlue;
} else if(!string_cmp(light_name, "bl")) {
notification_led_message.type = NotificationMessageTypeLedDisplay;
} else {
cli_print_usage("led", "<r|g|b|bl> <0-255>", string_get_cstr(args));
string_clear(light_name);
return;
}
string_clear(light_name);
// Read light value from the rest of the string
char* end_ptr;
uint32_t value = strtoul(string_get_cstr(args), &end_ptr, 0);
if(!(value < 256 && *end_ptr == '\0')) {
cli_print_usage("led", "<r|g|b|bl> <0-255>", string_get_cstr(args));
return;
}
// Set led value
notification_led_message.data.led.value = value;
// Form notification sequence
const NotificationSequence notification_sequence = {
&notification_led_message,
NULL,
};
// Send notification
NotificationApp* notification = furi_record_open("notification");
notification_internal_message_block(notification, &notification_sequence);
furi_record_close("notification");
}
void cli_command_gpio_set(Cli* cli, string_t args, void* context) {
char pin_names[][4] = {
"PC0",
"PC1",
"PC3",
"PB2",
"PB3",
"PA4",
"PA6",
"PA7",
#ifdef DEBUG
"PA0",
"PB7",
"PB8",
"PB9"
#endif
};
GpioPin gpio[] = {
{.port = GPIOC, .pin = LL_GPIO_PIN_0},
{.port = GPIOC, .pin = LL_GPIO_PIN_1},
{.port = GPIOC, .pin = LL_GPIO_PIN_3},
{.port = GPIOB, .pin = LL_GPIO_PIN_2},
{.port = GPIOB, .pin = LL_GPIO_PIN_3},
{.port = GPIOA, .pin = LL_GPIO_PIN_4},
{.port = GPIOA, .pin = LL_GPIO_PIN_6},
{.port = GPIOA, .pin = LL_GPIO_PIN_7},
#ifdef DEBUG
{.port = GPIOA, .pin = LL_GPIO_PIN_0}, // IR_RX (PA0)
{.port = GPIOB, .pin = LL_GPIO_PIN_7}, // UART RX (PB7)
{.port = GPIOB, .pin = LL_GPIO_PIN_8}, // SPEAKER (PB8)
{.port = GPIOB, .pin = LL_GPIO_PIN_9}, // IR_TX (PB9)
#endif
};
uint8_t num = 0;
bool pin_found = false;
// Get first word as pin name
string_t pin_name;
string_init(pin_name);
size_t ws = string_search_char(args, ' ');
if(ws == STRING_FAILURE) {
cli_print_usage("gpio_set", "<pin_name> <0|1>", string_get_cstr(args));
string_clear(pin_name);
return;
} else {
string_set_n(pin_name, args, 0, ws);
string_right(args, ws);
string_strim(args);
}
// Search correct pin name
for(num = 0; num < sizeof(pin_names) / sizeof(char*); num++) {
if(!string_cmp(pin_name, pin_names[num])) {
pin_found = true;
break;
}
}
if(!pin_found) {
printf("Wrong pin name. Available pins: ");
for(uint8_t i = 0; i < sizeof(pin_names) / sizeof(char*); i++) {
printf("%s ", pin_names[i]);
}
string_clear(pin_name);
return;
}
string_clear(pin_name);
// Read "0" or "1" as second argument to set or reset pin
if(!string_cmp(args, "0")) {
LL_GPIO_SetPinMode(gpio[num].port, gpio[num].pin, LL_GPIO_MODE_OUTPUT);
LL_GPIO_SetPinOutputType(gpio[num].port, gpio[num].pin, LL_GPIO_OUTPUT_PUSHPULL);
LL_GPIO_ResetOutputPin(gpio[num].port, gpio[num].pin);
} else if(!string_cmp(args, "1")) {
#ifdef DEBUG
if(num == 8) { // PA0
printf(
"Setting PA0 pin HIGH with TSOP connected can damage IR receiver. Are you sure you want to continue? (y/n)?\r\n");
char c = cli_getc(cli);
if(c != 'y' && c != 'Y') {
printf("Cancelled.\r\n");
return;
}
}
#endif
LL_GPIO_SetPinMode(gpio[num].port, gpio[num].pin, LL_GPIO_MODE_OUTPUT);
LL_GPIO_SetPinOutputType(gpio[num].port, gpio[num].pin, LL_GPIO_OUTPUT_PUSHPULL);
LL_GPIO_SetOutputPin(gpio[num].port, gpio[num].pin);
} else {
printf("Wrong 2nd argument. Use \"1\" to set, \"0\" to reset");
}
return;
}
void cli_command_ps(Cli* cli, string_t args, void* context) {
const uint8_t threads_num_max = 32;
osThreadId_t threads_id[threads_num_max];
uint8_t thread_num = osThreadEnumerate(threads_id, threads_num_max);
printf(
"%-20s %-14s %-8s %-8s %s\r\n", "Name", "Stack start", "Heap", "Stack", "Stack min free");
for(uint8_t i = 0; i < thread_num; i++) {
TaskControlBlock* tcb = (TaskControlBlock*)threads_id[i];
printf(
"%-20s 0x%-12lx %-8d %-8ld %-8ld\r\n",
osThreadGetName(threads_id[i]),
(uint32_t)tcb->pxStack,
memmgr_heap_get_thread_memory(threads_id[i]),
(uint32_t)(tcb->pxEndOfStack - tcb->pxStack + 1) * sizeof(StackType_t),
osThreadGetStackSpace(threads_id[i]));
}
printf("\r\nTotal: %d", thread_num);
}
void cli_command_free(Cli* cli, string_t args, void* context) {
printf("Free heap size: %d\r\n", memmgr_get_free_heap());
printf("Minimum heap size: %d\r\n", memmgr_get_minimum_free_heap());
printf("Maximum heap block: %d\r\n", memmgr_heap_get_max_free_block());
}
void cli_command_free_blocks(Cli* cli, string_t args, void* context) {
memmgr_heap_printf_free_blocks();
}
void cli_commands_init(Cli* cli) {
cli_add_command(cli, "!", CliCommandFlagParallelSafe, cli_command_device_info, NULL);
cli_add_command(cli, "device_info", CliCommandFlagParallelSafe, cli_command_device_info, NULL);
cli_add_command(cli, "?", CliCommandFlagParallelSafe, cli_command_help, NULL);
cli_add_command(cli, "help", CliCommandFlagParallelSafe, cli_command_help, NULL);
cli_add_command(cli, "date", CliCommandFlagParallelSafe, cli_command_date, NULL);
cli_add_command(cli, "log", CliCommandFlagParallelSafe, cli_command_log, NULL);
cli_add_command(cli, "ps", CliCommandFlagParallelSafe, cli_command_ps, NULL);
cli_add_command(cli, "free", CliCommandFlagParallelSafe, cli_command_free, NULL);
cli_add_command(cli, "free_blocks", CliCommandFlagParallelSafe, cli_command_free_blocks, NULL);
cli_add_command(cli, "vibro", CliCommandFlagDefault, cli_command_vibro, NULL);
cli_add_command(cli, "led", CliCommandFlagDefault, cli_command_led, NULL);
cli_add_command(cli, "gpio_set", CliCommandFlagDefault, cli_command_gpio_set, NULL);
}
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