/* UMKa - User-Mode KolibriOS developer tools umka_shell - interactive shell Copyright (C) 2018--2020 Ivan Baravy This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #include #include #include #include #include #include #include #include #include "getopt.h" #include "vdisk.h" #include "umka.h" #include "trace.h" #include "pci.h" #include "lodepng.h" #define PATH_MAX 4096 #define FGETS_BUF_LEN 4096 #define MAX_COMMAND_ARGS 42 #define PRINT_BYTES_PER_LINE 32 #define MAX_DIRENTS_TO_READ 100 #define MAX_BYTES_TO_READ (1024*1024) #define DEFAULT_READDIR_ENCODING UTF8 #define DEFAULT_PATH_ENCODING UTF8 FILE *fin, *fout; char cur_dir[PATH_MAX] = "/"; const char *last_dir = cur_dir; bool cur_dir_changed = true; char cmd_buf[FGETS_BUF_LEN]; typedef struct { char *name; void (*func) (int, char **); } func_table_t; const char *f70_status_name[] = { "success", "disk_base", "unsupported_fs", "unknown_fs", "partition", "file_not_found", "end_of_file", "memory_pointer", "disk_full", "fs_fail", "access_denied", "device", "out_of_memory" }; static const char * get_f70_status_name(int s) { switch (s) { case ERROR_SUCCESS: // return ""; case ERROR_DISK_BASE: case ERROR_UNSUPPORTED_FS: case ERROR_UNKNOWN_FS: case ERROR_PARTITION: case ERROR_FILE_NOT_FOUND: case ERROR_END_OF_FILE: case ERROR_MEMORY_POINTER: case ERROR_DISK_FULL: case ERROR_FS_FAIL: case ERROR_ACCESS_DENIED: case ERROR_DEVICE: case ERROR_OUT_OF_MEMORY: return f70_status_name[s]; default: return "unknown"; } } static void convert_f70_file_attr(uint32_t attr, char s[KF_ATTR_CNT+1]) { s[0] = (attr & KF_READONLY) ? 'r' : '-'; s[1] = (attr & KF_HIDDEN) ? 'h' : '-'; s[2] = (attr & KF_SYSTEM) ? 's' : '-'; s[3] = (attr & KF_LABEL) ? 'l' : '-'; s[4] = (attr & KF_FOLDER) ? 'f' : '-'; s[5] = '\0'; } static void print_f70_status(f7080ret_t *r, int use_ebx) { fprintf(fout, "status = %d %s", r->status, get_f70_status_name(r->status)); if (use_ebx && (r->status == ERROR_SUCCESS || r->status == ERROR_END_OF_FILE)) fprintf(fout, ", count = %d", r->count); fputc('\n', fout); } static bool parse_uintmax(const char *str, uintmax_t *res) { char *endptr; *res = strtoumax(str, &endptr, 0); bool ok = (str != endptr) && (*endptr == '\0'); return ok; } static bool parse_uint32(const char *str, uint32_t *res) { uintmax_t x; if (parse_uintmax(str, &x) && x <= UINT32_MAX) { *res = (uint32_t)x; return true; } else { perror("invalid number"); return false; } } static bool parse_uint64(const char *str, uint64_t *res) { uintmax_t x; if (parse_uintmax(str, &x) && x <= UINT64_MAX) { *res = x; return true; } else { perror("invalid number"); return false; } } static void print_bytes(uint8_t *x, size_t len) { for (size_t i = 0; i < len; i++) { if (i % PRINT_BYTES_PER_LINE == 0 && i != 0) { fputc('\n', fout); } fprintf(fout, "%2.2x", x[i]); } fputc('\n', fout); } static void print_hash(uint8_t *x, size_t len) { hash_context ctx; hash_oneshot(&ctx, x, len); for (size_t i = 0; i < HASH_SIZE; i++) { fprintf(fout, "%2.2x", ctx.hash[i]); } fputc('\n', fout); } static const char * get_last_dir(const char *path) { const char *last = strrchr(path, '/'); if (!last) { last = path; } else if (last != path || last[1] != '\0') { last++; } return last; } static void prompt() { if (cur_dir_changed) { if (umka_initialized) { COVERAGE_ON(); umka_sys_get_cwd(cur_dir, PATH_MAX); COVERAGE_OFF(); } last_dir = get_last_dir(cur_dir); cur_dir_changed = false; } fprintf(fout, "%s> ", last_dir); fflush(fout); } static int next_line(int is_tty) { if (is_tty) { prompt(); } return fgets(cmd_buf, FGETS_BUF_LEN, fin) != NULL; } static int split_args(char *s, char **argv) { int argc = -1; for (; (argv[++argc] = strtok(s, " \t\n\r")) != NULL; s = NULL); return argc; } static void shell_umka_init(int argc, char **argv) { const char *usage = \ "usage: umka_init"; (void)argv; if (argc < 0) { fputs(usage, fout); return; } COVERAGE_ON(); umka_init(); COVERAGE_OFF(); } static void shell_umka_set_boot_params(int argc, char **argv) { const char *usage = \ "usage: umka_set_boot_params [--x_res ] [--y_res ]\n" " --x_res screen width\n" " --y_res screen height"; argc -= 1; argv += 1; while (argc) { if (!strcmp(argv[0], "--x_res") && argc > 1) { kos_boot.x_res = strtoul(argv[1], NULL, 0); kos_boot.pitch = kos_boot.x_res * 4; // assume 32bpp argc -= 2; argv += 2; continue; } else if (!strcmp(argv[0], "--y_res") && argc > 1) { kos_boot.y_res = strtoul(argv[1], NULL, 0); argc -= 2; argv += 2; continue; } else { printf("bad option: %s\n", argv[0]); puts(usage); exit(1); } } } static void shell_i40(int argc, char **argv) { const char *usage = \ "usage: i40 [ebx [ecx [edx [esi [edi [ebp]]]]]]...\n" " see '/kernel/docs/sysfuncs.txt' for details"; if (argc < 2 || argc > 8) { fputs(usage, fout); return; } pushad_t regs = {0, 0, 0, 0, 0, 0, 0, 0}; if (argv[1]) regs.eax = strtoul(argv[1], NULL, 0); if (argv[2]) regs.ebx = strtoul(argv[2], NULL, 0); if (argv[3]) regs.ecx = strtoul(argv[3], NULL, 0); if (argv[4]) regs.edx = strtoul(argv[4], NULL, 0); if (argv[5]) regs.esi = strtoul(argv[5], NULL, 0); if (argv[6]) regs.edi = strtoul(argv[6], NULL, 0); if (argv[7]) regs.ebp = strtoul(argv[7], NULL, 0); COVERAGE_ON(); umka_i40(®s); COVERAGE_OFF(); fprintf(fout, "eax = %8.8x %" PRIu32 " %" PRIi32 "\n" "ebx = %8.8x %" PRIu32 " %" PRIi32 "\n", regs.eax, regs.eax, (int32_t)regs.eax, regs.ebx, regs.ebx, (int32_t)regs.ebx); } static void disk_list_partitions(disk_t *d) { for (size_t i = 0; i < d->num_partitions; i++) { fprintf(fout, "/%s/%d: ", d->name, i+1); if (d->partitions[i]->fs_user_functions == xfs_user_functions) { fputs("xfs\n", fout); } else if (d->partitions[i]->fs_user_functions == ext_user_functions) { fputs("ext\n", fout); } else if (d->partitions[i]->fs_user_functions == fat_user_functions) { fputs("fat\n", fout); } else if (d->partitions[i]->fs_user_functions == ntfs_user_functions) { fputs("ntfs\n", fout); } else { fputs("???\n", fout); } } } static void shell_ramdisk_init(int argc, char **argv) { const char *usage = \ "usage: ramdisk_init \n" " absolute or relative path"; if (argc != 2) { fputs(usage, fout); return; } const char *fname = argv[1]; FILE *f = fopen(fname, "r"); if (!f) { fprintf(fout, "[!] can't open file '%s': %s\n", fname, strerror(errno)); return; } fseek(f, 0, SEEK_END); size_t fsize = ftell(f); if (fsize > 2880*512) { fprintf(fout, "[!] file '%s' is too big, max size is 1474560 bytes\n", fname); return; } rewind(f); fread(kos_ramdisk, fsize, 1, f); fclose(f); COVERAGE_ON(); void *ramdisk = kos_ramdisk_init(); COVERAGE_OFF(); disk_list_partitions(ramdisk); } static void shell_disk_add(int argc, char **argv) { const char *usage = \ "usage: disk_add [option]...\n" " absolute or relative path\n" " disk name, e.g. hd0 or rd\n" " -c cache size size of disk cache in bytes"; if (argc < 3) { fputs(usage, fout); return; } size_t cache_size = 0; int adjust_cache_size = 0; int opt; optind = 1; const char *file_name = argv[optind++]; const char *disk_name = argv[optind++]; while ((opt = getopt(argc, argv, "c:")) != -1) { switch (opt) { case 'c': cache_size = strtoul(optarg, NULL, 0); adjust_cache_size = 1; break; default: fputs(usage, fout); return; } } void *userdata = vdisk_init(file_name, adjust_cache_size, cache_size); if (userdata) { COVERAGE_ON(); void *vdisk = disk_add(&vdisk_functions, disk_name, userdata, 0); COVERAGE_OFF(); if (vdisk) { COVERAGE_ON(); disk_media_changed(vdisk, 1); COVERAGE_OFF(); disk_list_partitions(vdisk); return; } } fprintf(fout, "umka: can't add file '%s' as disk '%s'\n", file_name, disk_name); return; } static void disk_del_by_name(const char *name) { for(disk_t *d = disk_list.next; d != &disk_list; d = d->next) { if (!strcmp(d->name, name)) { COVERAGE_ON(); disk_del(d); COVERAGE_OFF(); return; } } fprintf(fout, "umka: can't find disk '%s'\n", name); } static void shell_disk_del(int argc, char **argv) { const char *usage = \ "usage: disk_del \n" " name disk name, i.e. rd or hd0"; if (argc != 2) { fputs(usage, fout); return; } const char *name = argv[1]; disk_del_by_name(name); return; } static void shell_pwd(int argc, char **argv) { const char *usage = \ "usage: pwd"; if (argc != 1) { fputs(usage, fout); return; } (void)argv; bool quoted = false; const char *quote = quoted ? "'" : ""; COVERAGE_ON(); umka_sys_get_cwd(cur_dir, PATH_MAX); COVERAGE_OFF(); fprintf(fout, "%s%s%s\n", quote, cur_dir, quote); } static void shell_set_pixel(int argc, char **argv) { const char *usage = \ "usage: set_pixel [-i]\n" " x x window coordinate\n" " y y window coordinate\n" " color argb in hex\n" " -i inverted color"; if (argc < 4) { fputs(usage, fout); return; } size_t x = strtoul(argv[1], NULL, 0); size_t y = strtoul(argv[2], NULL, 0); uint32_t color = strtoul(argv[3], NULL, 16); int invert = (argc == 5) && !strcmp(argv[4], "-i"); COVERAGE_ON(); umka_sys_set_pixel(x, y, color, invert); COVERAGE_OFF(); } static void shell_write_text(int argc, char **argv) { const char *usage = \ "usage: write_text " " " " \n" " x x window coordinate\n" " y y window coordinate\n" " color argb in hex\n" " string escape spaces\n" " asciiz 1 if the string is zero-terminated\n" " fill_bg fill text background with specified color\n" " font_and_enc font size and string encoding\n" " draw_to_buf draw to the buffer pointed to by the next param\n" " length length of the string if it is non-asciiz\n" " bg_color_or_buf argb or pointer"; if (argc != 12) { fputs(usage, fout); return; } size_t x = strtoul(argv[1], NULL, 0); size_t y = strtoul(argv[2], NULL, 0); uint32_t color = strtoul(argv[3], NULL, 16); const char *string = argv[4]; int asciiz = strtoul(argv[5], NULL, 0); int fill_background = strtoul(argv[6], NULL, 0); int font_and_encoding = strtoul(argv[7], NULL, 0); int draw_to_buffer = strtoul(argv[8], NULL, 0); int scale_factor = strtoul(argv[9], NULL, 0); int length = strtoul(argv[10], NULL, 0); int background_color_or_buffer = strtoul(argv[11], NULL, 0); COVERAGE_ON(); umka_sys_write_text(x, y, color, asciiz, fill_background, font_and_encoding, draw_to_buffer, scale_factor, string, length, background_color_or_buffer); COVERAGE_OFF(); } static void shell_dump_win_stack(int argc, char **argv) { const char *usage = \ "usage: dump_win_stack [count]\n" " count how many items to dump"; if (argc < 1) { fputs(usage, fout); return; } int depth = 5; if (argc > 1) { depth = strtol(argv[1], NULL, 0); } for (int i = 0; i < depth; i++) { fprintf(fout, "%3i: %3u\n", i, kos_win_stack[i]); } } static void shell_dump_win_pos(int argc, char **argv) { const char *usage = \ "usage: dump_win_pos [count]\n" " count how many items to dump"; if (argc < 1) { fputs(usage, fout); return; } int depth = 5; if (argc > 1) { depth = strtol(argv[1], NULL, 0); } for (int i = 0; i < depth; i++) { fprintf(fout, "%3i: %3u\n", i, kos_win_pos[i]); } } static void shell_dump_win_map(int argc, char **argv) { const char *usage = \ "usage: dump_win_map"; (void)argv; if (argc < 0) { fputs(usage, fout); return; } for (size_t y = 0; y < kos_display.height; y++) { for (size_t x = 0; x < kos_display.width; x++) { fputc(kos_display.win_map[y * kos_display.width + x] + '0', fout); } fputc('\n', fout); } } static void shell_dump_appdata(int argc, char **argv) { const char *usage = \ "usage: dump_appdata [-p]\n" " index index into appdata array to dump\n" " -p print fields that are pointers"; if (argc < 2) { fputs(usage, fout); return; } int show_pointers = 0; int idx = strtol(argv[1], NULL, 0); if (argc > 2 && !strcmp(argv[2], "-p")) { show_pointers = 1; } appdata_t *a = kos_slot_base + idx; fprintf(fout, "app_name: %s\n", a->app_name); if (show_pointers) { fprintf(fout, "process: %p\n", (void*)a->process); fprintf(fout, "fpu_state: %p\n", (void*)a->fpu_state); fprintf(fout, "exc_handler: %p\n", (void*)a->exc_handler); } fprintf(fout, "except_mask: %" PRIx32 "\n", a->except_mask); if (show_pointers) { fprintf(fout, "pl0_stack: %p\n", (void*)a->pl0_stack); fprintf(fout, "cursor: %p\n", (void*)a->cursor); fprintf(fout, "fd_ev: %p\n", (void*)a->fd_ev); fprintf(fout, "bk_ev: %p\n", (void*)a->bk_ev); fprintf(fout, "fd_obj: %p\n", (void*)a->fd_obj); fprintf(fout, "bk_obj: %p\n", (void*)a->bk_obj); fprintf(fout, "saved_esp: %p\n", (void*)a->saved_esp); } fprintf(fout, "dbg_state: %u\n", a->dbg_state); fprintf(fout, "cur_dir: %s\n", a->cur_dir); fprintf(fout, "draw_bgr_x: %u\n", a->draw_bgr_x); fprintf(fout, "draw_bgr_y: %u\n", a->draw_bgr_y); fprintf(fout, "event_mask: %" PRIx32 "\n", a->event_mask); fprintf(fout, "terminate_protection: %u\n", a->terminate_protection); fprintf(fout, "keyboard_mode: %u\n", a->keyboard_mode); fprintf(fout, "captionEncoding: %u\n", a->captionEncoding); fprintf(fout, "exec_params: %s\n", a->exec_params); fprintf(fout, "wnd_caption: %s\n", a->wnd_caption); fprintf(fout, "wnd_clientbox (ltwh): %u %u %u %u\n", a->wnd_clientbox.left, a->wnd_clientbox.top, a->wnd_clientbox.width, a->wnd_clientbox.height); fprintf(fout, "priority: %u\n", a->priority); fprintf(fout, "in_schedule: prev"); if (show_pointers) { fprintf(fout, " %p", (void*)a->in_schedule.prev); } fprintf(fout, " (%u), next", (appdata_t*)a->in_schedule.prev - kos_slot_base); if (show_pointers) { fprintf(fout, " %p", (void*)a->in_schedule.next); } fprintf(fout, " (%u)\n", (appdata_t*)a->in_schedule.next - kos_slot_base); } static void shell_dump_taskdata(int argc, char **argv) { const char *usage = \ "usage: dump_taskdata \n" " index index into taskdata array to dump"; if (argc < 2) { fputs(usage, fout); return; } int idx = strtol(argv[1], NULL, 0); taskdata_t *t = kos_task_table + idx; fprintf(fout, "event_mask: %" PRIx32 "\n", t->event_mask); fprintf(fout, "pid: %" PRId32 "\n", t->pid); fprintf(fout, "state: 0x%" PRIx8 "\n", t->state); fprintf(fout, "wnd_number: %" PRIu8 "\n", t->wnd_number); fprintf(fout, "counter_sum: %" PRIu32 "\n", t->counter_sum); fprintf(fout, "counter_add: %" PRIu32 "\n", t->counter_add); fprintf(fout, "cpu_usage: %" PRIu32 "\n", t->cpu_usage); } static void shell_switch_to_thread(int argc, char **argv) { const char *usage = \ "usage: switch_to_thread \n" " thread id to switch to"; if (argc != 2) { fputs(usage, fout); return; } uint8_t tid = strtoul(argv[1], NULL, 0); kos_current_slot_idx = tid; kos_task_base = kos_task_table + tid; kos_current_slot = kos_slot_base + tid; } static void shell_set(int argc, char **argv) { const char *usage = \ "usage: set \n" " variable to set\n" " decimal or hex value"; if (argc != 3) { fputs(usage, fout); return; } const char *var = argv[1]; size_t value = strtoul(argv[2], NULL, 0); if (!strcmp(var, "redraw_background")) { kos_redraw_background = value; } else { printf("bad option: %s\n", argv[0]); puts(usage); exit(1); } } static void shell_new_sys_thread(int argc, char **argv) { const char *usage = \ "usage: new_sys_thread"; if (!argc) { fputs(usage, fout); return; } (void)argv; size_t tid = umka_new_sys_threads(0, NULL, NULL); fprintf(fout, "tid: %u\n", tid); } static void shell_mouse_move(int argc, char **argv) { const char *usage = \ "usage: mouse_move [-l] [-m] [-r] [-x {+|-|=}]" "[-y {+|-|=}] [-h {+|-}] [-v {+|-}]\n" " -l left button is held\n" " -m middle button is held\n" " -r right button is held\n" " -x increase, decrease or set x coordinate\n" " -y increase, decrease or set y coordinate\n" " -h scroll horizontally\n" " -v scroll vertically\n"; if (!argc) { fputs(usage, fout); return; } int lbheld = 0, mbheld = 0, rbheld = 0, xabs = 0, yabs = 0; int32_t xmoving = 0, ymoving = 0, hscroll = 0, vscroll = 0; int opt; optind = 1; while ((opt = getopt(argc, argv, "lmrx:y:h:v:")) != -1) { switch (opt) { case 'l': lbheld = 1; break; case 'm': mbheld = 1; break; case 'r': rbheld = 1; break; case 'x': switch (*optarg++) { case '=': xabs = 1; __attribute__ ((fallthrough)); case '+': xmoving = strtol(optarg, NULL, 0); break; case '-': xmoving = -strtol(optarg, NULL, 0); break; default: fputs(usage, fout); return; } break; case 'y': switch (*optarg++) { case '=': yabs = 1; __attribute__ ((fallthrough)); case '+': ymoving = strtol(optarg, NULL, 0); break; case '-': ymoving = -strtol(optarg, NULL, 0); break; default: fputs(usage, fout); return; } break; case 'h': if ((optarg[0] != '+') && (optarg[0] != '-')) { fputs(usage, fout); return; } hscroll = strtol(optarg, NULL, 0); break; case 'v': if ((optarg[0] != '+') && (optarg[0] != '-')) { fputs(usage, fout); return; } vscroll = strtol(optarg, NULL, 0); break; default: fputs(usage, fout); return; } } COVERAGE_ON(); umka_mouse_move(lbheld, mbheld, rbheld, xabs, xmoving, yabs, ymoving, hscroll, vscroll); COVERAGE_OFF(); } static void shell_process_info(int argc, char **argv) { const char *usage = \ "usage: process_info \n" " pid process id to dump, -1 for self"; if (argc != 2) { fputs(usage, fout); return; } process_information_t info; int32_t pid = strtol(argv[1], NULL, 0); COVERAGE_ON(); umka_sys_process_info(pid, &info); COVERAGE_OFF(); fprintf(fout, "cpu_usage: %u\n", info.cpu_usage); fprintf(fout, "window_stack_position: %u\n", info.window_stack_position); fprintf(fout, "window_stack_value: %u\n", info.window_stack_value); fprintf(fout, "process_name: %s\n", info.process_name); fprintf(fout, "memory_start: 0x%.8" PRIx32 "\n", info.memory_start); fprintf(fout, "used_memory: %u (0x%x)\n", info.used_memory, info.used_memory); fprintf(fout, "pid: %u\n", info.pid); fprintf(fout, "box: %u %u %u %u\n", info.box.left, info.box.top, info.box.width, info.box.height); fprintf(fout, "slot_state: %u\n", info.slot_state); fprintf(fout, "client_box: %u %u %u %u\n", info.client_box.left, info.client_box.top, info.client_box.width, info.client_box.height); fprintf(fout, "wnd_state: 0x%.2" PRIx8 "\n", info.wnd_state); } static void shell_display_number(int argc, char **argv) { const char *usage = \ "usage: display_number " " " " \n" " is_pointer if num_or_ptr argument is a pointer\n" " base 0 - dec, 1 - hex, 2 - bin\n" " num_digits how many digits to print\n" " is_qword if 1, is_pointer = 1 and num_or_ptr is pointer\n" " show_lead_zeros 0/1\n" " num_or_ptr number itself or a pointer to it\n" " x x window coord\n" " y y window coord\n" " color argb in hex\n" " fill_bg 0/1\n" " font 0 = 6x9, 1 = 8x16\n" " draw_to_buf 0/1\n" " scale_factor 0 = x1, ..., 7 = x8\n" " bg_color_or_buf depending on flags fill_bg and draw_to_buf"; if (argc != 15) { fputs(usage, fout); return; } int is_pointer = strtoul(argv[1], NULL, 0); int base = strtoul(argv[2], NULL, 0); if (base == 10) base = 0; else if (base == 16) base = 1; else if (base == 2) base = 2; else base = 0; size_t digits_to_display = strtoul(argv[3], NULL, 0); int is_qword = strtoul(argv[4], NULL, 0); int show_leading_zeros = strtoul(argv[5], NULL, 0); uintptr_t number_or_pointer = strtoul(argv[6], NULL, 0); size_t x = strtoul(argv[7], NULL, 0); size_t y = strtoul(argv[8], NULL, 0); uint32_t color = strtoul(argv[9], NULL, 16); int fill_background = strtoul(argv[10], NULL, 0); int font = strtoul(argv[11], NULL, 0); int draw_to_buffer = strtoul(argv[12], NULL, 0); int scale_factor = strtoul(argv[13], NULL, 0); uintptr_t background_color_or_buffer = strtoul(argv[14], NULL, 16); COVERAGE_ON(); umka_sys_display_number(is_pointer, base, digits_to_display, is_qword, show_leading_zeros, number_or_pointer, x, y, color, fill_background, font, draw_to_buffer, scale_factor, background_color_or_buffer); COVERAGE_OFF(); } static void shell_set_window_colors(int argc, char **argv) { const char *usage = \ "usage: set_window_colors " " " " \n" " * all colors are in hex"; if (argc != (1 + sizeof(system_colors_t)/4)) { fputs(usage, fout); return; } system_colors_t colors; colors.frame = strtoul(argv[1], NULL, 16); colors.grab = strtoul(argv[2], NULL, 16); colors.work_3d_dark = strtoul(argv[3], NULL, 16); colors.work_3d_light = strtoul(argv[4], NULL, 16); colors.grab_text = strtoul(argv[5], NULL, 16); colors.work = strtoul(argv[6], NULL, 16); colors.work_button = strtoul(argv[7], NULL, 16); colors.work_button_text = strtoul(argv[8], NULL, 16); colors.work_text = strtoul(argv[9], NULL, 16); colors.work_graph = strtoul(argv[10], NULL, 16); COVERAGE_ON(); umka_sys_set_window_colors(&colors); COVERAGE_OFF(); } static void shell_get_window_colors(int argc, char **argv) { const char *usage = \ "usage: get_window_colors"; if (argc != 1) { fputs(usage, fout); return; } (void)argv; system_colors_t colors; memset(&colors, 0xaa, sizeof(colors)); COVERAGE_ON(); umka_sys_get_window_colors(&colors); COVERAGE_OFF(); fprintf(fout, "0x%.8" PRIx32 " frame\n", colors.frame); fprintf(fout, "0x%.8" PRIx32 " grab\n", colors.grab); fprintf(fout, "0x%.8" PRIx32 " work_3d_dark\n", colors.work_3d_dark); fprintf(fout, "0x%.8" PRIx32 " work_3d_light\n", colors.work_3d_light); fprintf(fout, "0x%.8" PRIx32 " grab_text\n", colors.grab_text); fprintf(fout, "0x%.8" PRIx32 " work\n", colors.work); fprintf(fout, "0x%.8" PRIx32 " work_button\n", colors.work_button); fprintf(fout, "0x%.8" PRIx32 " work_button_text\n", colors.work_button_text); fprintf(fout, "0x%.8" PRIx32 " work_text\n", colors.work_text); fprintf(fout, "0x%.8" PRIx32 " work_graph\n", colors.work_graph); } static void shell_get_skin_height(int argc, char **argv) { const char *usage = \ "usage: get_skin_height"; if (argc != 1) { fputs(usage, fout); return; } (void)argv; COVERAGE_ON(); uint32_t skin_height = umka_sys_get_skin_height(); COVERAGE_OFF(); fprintf(fout, "%" PRIu32 "\n", skin_height); } static void shell_get_screen_area(int argc, char **argv) { const char *usage = \ "usage: get_screen_area"; if (argc != 1) { fputs(usage, fout); return; } (void)argv; rect_t wa; COVERAGE_ON(); umka_sys_get_screen_area(&wa); COVERAGE_OFF(); fprintf(fout, "%" PRIu32 " left\n", wa.left); fprintf(fout, "%" PRIu32 " top\n", wa.top); fprintf(fout, "%" PRIu32 " right\n", wa.right); fprintf(fout, "%" PRIu32 " bottom\n", wa.bottom); } static void shell_set_screen_area(int argc, char **argv) { const char *usage = \ "usage: set_screen_area \n" " left left x coord\n" " top top y coord\n" " right right x coord (not length!)\n" " bottom bottom y coord"; if (argc != 5) { fputs(usage, fout); return; } rect_t wa; wa.left = strtoul(argv[1], NULL, 0); wa.top = strtoul(argv[2], NULL, 0); wa.right = strtoul(argv[3], NULL, 0); wa.bottom = strtoul(argv[4], NULL, 0); COVERAGE_ON(); umka_sys_set_screen_area(&wa); COVERAGE_OFF(); } static void shell_get_skin_margins(int argc, char **argv) { const char *usage = \ "usage: get_skin_margins"; if (argc != 1) { fputs(usage, fout); return; } (void)argv; rect_t wa; COVERAGE_ON(); umka_sys_get_skin_margins(&wa); COVERAGE_OFF(); fprintf(fout, "%" PRIu32 " left\n", wa.left); fprintf(fout, "%" PRIu32 " top\n", wa.top); fprintf(fout, "%" PRIu32 " right\n", wa.right); fprintf(fout, "%" PRIu32 " bottom\n", wa.bottom); } static void shell_set_button_style(int argc, char **argv) { const char *usage = \ "usage: set_button_style