Mercurial > sdl-ios-xcode
view src/power/linux/SDL_syspower.c @ 4423:7953336267c2
Disable error checks for reset actuators and set autocenter.
Reset actuators and set autocenter might not actually be supported on all
implementations. We'll just disable error checking since they aren't
critical to neither opening the joystick nor the haptic subsystem.
| author | Edgar Simo <bobbens@gmail.com> |
|---|---|
| date | Sun, 28 Feb 2010 09:23:23 +0000 |
| parents | f7b03b6838cb |
| children | b530ef003506 |
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/* SDL - Simple DirectMedia Layer Copyright (C) 1997-2010 Sam Lantinga This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA Sam Lantinga slouken@libsdl.org */ #include "SDL_config.h" #ifndef SDL_POWER_DISABLED #ifdef SDL_POWER_LINUX #include <stdio.h> #include <unistd.h> #include <sys/types.h> #include <sys/stat.h> #include <dirent.h> #include <fcntl.h> #include "SDL_power.h" static const char *proc_apm_path = "/proc/apm"; static const char *proc_acpi_battery_path = "/proc/acpi/battery"; static const char *proc_acpi_ac_adapter_path = "/proc/acpi/ac_adapter"; static int open_acpi_file(const char *base, const char *node, const char *key) { const size_t pathlen = strlen(base) + strlen(node) + strlen(key) + 3; char *path = (char *) alloca(pathlen); if (path == NULL) { return -1; /* oh well. */ } snprintf(path, pathlen, "%s/%s/%s", base, node, key); return open(path, O_RDONLY); } static SDL_bool load_acpi_file(const char *base, const char *node, const char *key, char *buf, size_t buflen) { ssize_t br = 0; const int fd = open_acpi_file(base, node, key); if (fd == -1) { return SDL_FALSE; } br = read(fd, buf, buflen-1); close(fd); if (br < 0) { return SDL_FALSE; } buf[br] = '\0'; // null-terminate the string. return SDL_TRUE; } static SDL_bool make_proc_acpi_key_val(char **_ptr, char **_key, char **_val) { char *ptr = *_ptr; while (*ptr == ' ') { ptr++; /* skip whitespace. */ } if (*ptr == '\0') { return SDL_FALSE; /* EOF. */ } *_key = ptr; while ((*ptr != ':') && (*ptr != '\0')) { ptr++; } if (*ptr == '\0') { return SDL_FALSE; /* (unexpected) EOF. */ } *(ptr++) = '\0'; /* terminate the key. */ while ((*ptr == ' ') && (*ptr != '\0')) { ptr++; /* skip whitespace. */ } if (*ptr == '\0') { return SDL_FALSE; /* (unexpected) EOF. */ } *_val = ptr; while ((*ptr != '\n') && (*ptr != '\0')) { ptr++; } if (*ptr != '\0') { *(ptr++) = '\0'; /* terminate the value. */ } *_ptr = ptr; /* store for next time. */ return SDL_TRUE; } static void check_proc_acpi_battery(const char * node, SDL_bool * have_battery, SDL_bool * charging, int *seconds, int *percent) { const char *base = proc_acpi_battery_path; char info[1024]; char state[1024]; char *ptr = NULL; char *key = NULL; char *val = NULL; SDL_bool charge = SDL_FALSE; SDL_bool choose = SDL_FALSE; SDL_bool is_ac = SDL_FALSE; int maximum = -1; int remaining = -1; int secs = -1; int pct = -1; if (!load_acpi_file(base, node, "state", state, sizeof (state))) { return; } else if (!load_acpi_file(base, node, "info", info, sizeof (info))) { return; } ptr = &state[0]; while (make_proc_acpi_key_val(&ptr, &key, &val)) { if (strcmp(key, "present") == 0) { if (strcmp(val, "yes") == 0) { *have_battery = SDL_TRUE; } } else if (strcmp(key, "charging state") == 0) { /* !!! FIXME: what exactly _does_ charging/discharging mean? */ if (strcmp(val, "charging/discharging") == 0) { charge = SDL_TRUE; } else if (strcmp(val, "charging") == 0) { charge = SDL_TRUE; } } else if (strcmp(key, "remaining capacity") == 0) { char *endptr = NULL; const int cvt = (int) strtol(val, &endptr, 10); if (*endptr == ' ') { remaining = cvt; } } } ptr = &info[0]; while (make_proc_acpi_key_val(&ptr, &key, &val)) { if (strcmp(key, "design capacity") == 0) { char *endptr = NULL; const int cvt = (int) strtol(val, &endptr, 10); if (*endptr == ' ') { maximum = cvt; } } } if ((maximum >= 0) && (remaining >= 0)) { pct = (int) ((((float) remaining) / ((float) maximum)) * 100.0f); if (pct < 0) { pct = 0; } else if (pct > 100) { pct = 100; } } /* !!! FIXME: calculate (secs). */ /* * We pick the battery that claims to have the most minutes left. * (failing a report of minutes, we'll take the highest percent.) */ if ((secs < 0) && (*seconds < 0)) { if ((pct < 0) && (*percent < 0)) { choose = SDL_TRUE; /* at least we know there's a battery. */ } if (pct > *percent) { choose = SDL_TRUE; } } else if (secs > *seconds) { choose = SDL_TRUE; } if (choose) { *seconds = secs; *percent = pct; *charging = charge; } } static void check_proc_acpi_ac_adapter(const char * node, SDL_bool * have_ac) { const char *base = proc_acpi_ac_adapter_path; char state[256]; char *ptr = NULL; char *key = NULL; char *val = NULL; SDL_bool charge = SDL_FALSE; SDL_bool choose = SDL_FALSE; SDL_bool is_ac = SDL_FALSE; int maximum = -1; int remaining = -1; int secs = -1; int pct = -1; if (!load_acpi_file(base, node, "state", state, sizeof (state))) { return; } ptr = &state[0]; while (make_proc_acpi_key_val(&ptr, &key, &val)) { if (strcmp(key, "state") == 0) { if (strcmp(val, "on-line") == 0) { *have_ac = SDL_TRUE; } } } } SDL_bool SDL_GetPowerInfo_Linux_proc_acpi(SDL_PowerState * state, int *seconds, int *percent) { struct dirent *dent = NULL; DIR *dirp = NULL; SDL_bool have_battery = SDL_FALSE; SDL_bool have_ac = SDL_FALSE; SDL_bool charging = SDL_FALSE; *seconds = -1; *percent = -1; *state = SDL_POWERSTATE_UNKNOWN; dirp = opendir(proc_acpi_battery_path); if (dirp == NULL) { return SDL_FALSE; /* can't use this interface. */ } else { while ((dent = readdir(dirp)) != NULL) { const char *node = dent->d_name; check_proc_acpi_battery(node, &have_battery, &charging, seconds, percent); } closedir(dirp); } dirp = opendir(proc_acpi_ac_adapter_path); if (dirp == NULL) { return SDL_FALSE; /* can't use this interface. */ } else { while ((dent = readdir(dirp)) != NULL) { const char *node = dent->d_name; check_proc_acpi_ac_adapter(node, &have_ac); } closedir(dirp); } if (!have_battery) { *state = SDL_POWERSTATE_NO_BATTERY; } else if (charging) { *state = SDL_POWERSTATE_CHARGING; } else if (have_ac) { *state = SDL_POWERSTATE_CHARGED; } else { *state = SDL_POWERSTATE_ON_BATTERY; } return SDL_TRUE; /* definitive answer. */ } static SDL_bool next_string(char **_ptr, char **_str) { char *ptr = *_ptr; char *str = *_str; while (*ptr == ' ') { /* skip any spaces... */ ptr++; } if (*ptr == '\0') { return SDL_FALSE; } str = ptr; while ((*ptr != ' ') && (*ptr != '\n') && (*ptr != '\0')) ptr++; if (*ptr != '\0') *(ptr++) = '\0'; *_str = str; *_ptr = ptr; return SDL_TRUE; } static SDL_bool int_string(char *str, int *val) { char *endptr = NULL; *val = (int) strtol(str, &endptr, 0); return ((*str != '\0') && (*endptr == '\0')); } /* http://lxr.linux.no/linux+v2.6.29/drivers/char/apm-emulation.c */ SDL_bool SDL_GetPowerInfo_Linux_proc_apm(SDL_PowerState * state, int *seconds, int *percent) { SDL_bool need_details = SDL_FALSE; int ac_status = 0; int battery_status = 0; int battery_flag = 0; int battery_percent = 0; int battery_time = 0; const int fd = open(proc_apm_path, O_RDONLY); char buf[128]; char *ptr = &buf[0]; char *str = NULL; ssize_t br; if (fd == -1) { return SDL_FALSE; /* can't use this interface. */ } br = read(fd, buf, sizeof (buf) - 1); close(fd); if (br < 0) { return SDL_FALSE; } buf[br] = '\0'; // null-terminate the string. if (!next_string(&ptr, &str)) { /* driver version */ return SDL_FALSE; } if (!next_string(&ptr, &str)) { /* BIOS version */ return SDL_FALSE; } if (!next_string(&ptr, &str)) { /* APM flags */ return SDL_FALSE; } if (!next_string(&ptr, &str)) { /* AC line status */ return SDL_FALSE; } else if (!int_string(str, &ac_status)) { return SDL_FALSE; } if (!next_string(&ptr, &str)) { /* battery status */ return SDL_FALSE; } else if (!int_string(str, &battery_status)) { return SDL_FALSE; } if (!next_string(&ptr, &str)) { /* battery flag */ return SDL_FALSE; } else if (!int_string(str, &battery_flag)) { return SDL_FALSE; } if (!next_string(&ptr, &str)) { /* remaining battery life percent */ return SDL_FALSE; } if (str[strlen(str) - 1] == '%') { str[strlen(str) - 1] = '\0'; } if (!int_string(str, &battery_percent)) { return SDL_FALSE; } if (!next_string(&ptr, &str)) { /* remaining battery life time */ return SDL_FALSE; } else if (!int_string(str, &battery_time)) { return SDL_FALSE; } if (!next_string(&ptr, &str)) { /* remaining battery life time units */ return SDL_FALSE; } else if (strcmp(str, "min") == 0) { battery_time *= 60; } if (battery_flag == 0xFF) { /* unknown state */ *state = SDL_POWERSTATE_UNKNOWN; } else if (battery_flag & (1 << 7)) { /* no battery */ *state = SDL_POWERSTATE_NO_BATTERY; } else if (battery_flag & (1 << 3)) { /* charging */ *state = SDL_POWERSTATE_CHARGING; need_details = SDL_TRUE; } else if (ac_status == 1) { *state = SDL_POWERSTATE_CHARGED; /* on AC, not charging. */ need_details = SDL_TRUE; } else { *state = SDL_POWERSTATE_ON_BATTERY; need_details = SDL_TRUE; } *percent = -1; *seconds = -1; if (need_details) { const int pct = battery_percent; const int secs = battery_time; if (pct >= 0) { /* -1 == unknown */ *percent = (pct > 100) ? 100 : pct; /* clamp between 0%, 100% */ } if (secs >= 0) { /* -1 == unknown */ *seconds = secs; } } return SDL_TRUE; } #endif /* SDL_POWER_LINUX */ #endif /* SDL_POWER_DISABLED */ /* vi: set ts=4 sw=4 expandtab: */