/* Copyright 2013 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. * * Test console editing and history. */ #include "common.h" #include "console.h" #include "test_util.h" #include "timer.h" #include "util.h" #include "uart.h" #include "ec_commands.h" static int cmd_1_call_cnt; static int cmd_2_call_cnt; static int command_test_1(int argc, const char **argv) { cmd_1_call_cnt++; return EC_SUCCESS; } DECLARE_CONSOLE_COMMAND(test1, command_test_1, NULL, NULL); static int command_test_2(int argc, const char **argv) { cmd_2_call_cnt++; return EC_SUCCESS; } DECLARE_CONSOLE_COMMAND(test2, command_test_2, NULL, NULL); /*****************************************************************************/ /* Test utilities */ enum arrow_key_t { ARROW_UP = 0, ARROW_DOWN, ARROW_RIGHT, ARROW_LEFT, }; static void arrow_key(enum arrow_key_t k, int repeat) { static char seq[4] = { 0x1B, '[', 0, 0 }; seq[2] = 'A' + k; while (repeat--) UART_INJECT(seq); } static void delete_key(void) { UART_INJECT("\x1b[3~"); } static void home_key(void) { UART_INJECT("\x1b[1~"); } static void end_key(void) { UART_INJECT("\x1bOF"); } static void ctrl_key(char c) { static char seq[2] = { 0, 0 }; seq[0] = c - '@'; UART_INJECT(seq); } /* * Helper function to compare multiline strings. When comparing, CR's are * ignored. */ static int compare_multiline_string(const char *s1, const char *s2) { do { while (*s1 == '\r') ++s1; while (*s2 == '\r') ++s2; if (*s1 != *s2) return 1; if (*s1 == 0 && *s2 == 0) break; ++s1; ++s2; } while (1); return 0; } /*****************************************************************************/ /* Tests */ static int test_backspace(void) { cmd_1_call_cnt = 0; UART_INJECT("testx\b1\n"); msleep(30); TEST_ASSERT(cmd_1_call_cnt == 1); return EC_SUCCESS; } static int test_insert_char(void) { cmd_1_call_cnt = 0; UART_INJECT("tet1"); arrow_key(ARROW_LEFT, 2); UART_INJECT("s\n"); msleep(30); TEST_ASSERT(cmd_1_call_cnt == 1); return EC_SUCCESS; } static int test_delete_char(void) { cmd_1_call_cnt = 0; UART_INJECT("testt1"); arrow_key(ARROW_LEFT, 1); UART_INJECT("\b\n"); msleep(30); TEST_ASSERT(cmd_1_call_cnt == 1); return EC_SUCCESS; } static int test_insert_delete_char(void) { cmd_1_call_cnt = 0; UART_INJECT("txet1"); arrow_key(ARROW_LEFT, 4); delete_key(); arrow_key(ARROW_RIGHT, 1); UART_INJECT("s\n"); msleep(30); TEST_ASSERT(cmd_1_call_cnt == 1); return EC_SUCCESS; } static int test_home_end_key(void) { cmd_1_call_cnt = 0; UART_INJECT("est"); home_key(); UART_INJECT("t"); end_key(); UART_INJECT("1\n"); msleep(30); TEST_ASSERT(cmd_1_call_cnt == 1); return EC_SUCCESS; } static int test_ctrl_k(void) { cmd_1_call_cnt = 0; UART_INJECT("test123"); arrow_key(ARROW_LEFT, 2); ctrl_key('K'); UART_INJECT("\n"); msleep(30); TEST_ASSERT(cmd_1_call_cnt == 1); return EC_SUCCESS; } static int test_history_up(void) { cmd_1_call_cnt = 0; UART_INJECT("test1\n"); msleep(30); arrow_key(ARROW_UP, 1); UART_INJECT("\n"); msleep(30); TEST_ASSERT(cmd_1_call_cnt == 2); return EC_SUCCESS; } static int test_history_up_up(void) { cmd_1_call_cnt = 0; cmd_2_call_cnt = 0; UART_INJECT("test1\n"); msleep(30); UART_INJECT("test2\n"); msleep(30); arrow_key(ARROW_UP, 2); UART_INJECT("\n"); msleep(30); TEST_ASSERT(cmd_1_call_cnt == 2 && cmd_2_call_cnt == 1); return EC_SUCCESS; } static int test_history_up_up_down(void) { cmd_1_call_cnt = 0; cmd_2_call_cnt = 0; UART_INJECT("test1\n"); msleep(30); UART_INJECT("test2\n"); msleep(30); arrow_key(ARROW_UP, 2); arrow_key(ARROW_DOWN, 1); UART_INJECT("\n"); msleep(30); TEST_ASSERT(cmd_1_call_cnt == 1 && cmd_2_call_cnt == 2); return EC_SUCCESS; } static int test_history_edit(void) { cmd_1_call_cnt = 0; cmd_2_call_cnt = 0; UART_INJECT("test1\n"); msleep(30); arrow_key(ARROW_UP, 1); UART_INJECT("\b2\n"); msleep(30); TEST_ASSERT(cmd_1_call_cnt == 1 && cmd_2_call_cnt == 1); return EC_SUCCESS; } static int test_history_stash(void) { cmd_1_call_cnt = 0; cmd_2_call_cnt = 0; UART_INJECT("test1\n"); msleep(30); UART_INJECT("test"); arrow_key(ARROW_UP, 1); arrow_key(ARROW_DOWN, 1); UART_INJECT("2\n"); msleep(30); TEST_ASSERT(cmd_1_call_cnt == 1 && cmd_2_call_cnt == 1); return EC_SUCCESS; } static int test_history_list(void) { const char *exp_output = "history\n" /* Input command */ "test3\n" /* Output 4 last commands */ "test4\n" "test5\n" "history\n" "> "; UART_INJECT("test1\n"); UART_INJECT("test2\n"); UART_INJECT("test3\n"); UART_INJECT("test4\n"); UART_INJECT("test5\n"); msleep(30); test_capture_console(1); UART_INJECT("history\n"); msleep(30); test_capture_console(0); TEST_ASSERT(compare_multiline_string(test_get_captured_console(), exp_output) == 0); return EC_SUCCESS; } static int test_output_channel(void) { UART_INJECT("chan save\n"); msleep(30); UART_INJECT("chan 0\n"); msleep(30); test_capture_console(1); cprintf(CC_SYSTEM, "shouldn't see this\n"); cputs(CC_TASK, "shouldn't see this either\n"); cflush(); test_capture_console(0); TEST_ASSERT(compare_multiline_string(test_get_captured_console(), "") == 0); UART_INJECT("chan restore\n"); msleep(30); test_capture_console(1); cprintf(CC_SYSTEM, "see me\n"); cputs(CC_TASK, "me as well\n"); cflush(); test_capture_console(0); TEST_ASSERT(compare_multiline_string(test_get_captured_console(), "see me\nme as well\n") == 0); return EC_SUCCESS; } /* This test is identical to console::buf_notify_null in * zephyr/test/drivers/default/src/console.c. Please keep them in sync to * verify that uart_console_read_buffer works identically in legacy EC and * zephyr. */ static int test_buf_notify_null(void) { char buffer[100]; uint16_t write_count; /* Flush the console buffer before we start. */ TEST_ASSERT(uart_console_read_buffer_init() == 0); /* Write a nul char to the buffer. */ cprintf(CC_SYSTEM, "ab%cc", 0); cflush(); /* Check if the nul is present in the buffer. */ TEST_ASSERT(uart_console_read_buffer_init() == 0); TEST_ASSERT(uart_console_read_buffer(CONSOLE_READ_RECENT, buffer, sizeof(buffer), &write_count) == 0); TEST_ASSERT(strncmp(buffer, "abc", 4) == 0); TEST_EQ(write_count, 4, "%d"); return EC_SUCCESS; } void run_test(int argc, const char **argv) { test_reset(); RUN_TEST(test_backspace); RUN_TEST(test_insert_char); RUN_TEST(test_delete_char); RUN_TEST(test_insert_delete_char); RUN_TEST(test_home_end_key); RUN_TEST(test_ctrl_k); RUN_TEST(test_history_up); RUN_TEST(test_history_up_up); RUN_TEST(test_history_up_up_down); RUN_TEST(test_history_edit); RUN_TEST(test_history_stash); RUN_TEST(test_history_list); RUN_TEST(test_output_channel); RUN_TEST(test_buf_notify_null); test_print_result(); }