/* * Copyright © 2008-2011 Kristian Høgsberg * Copyright © 2011 Intel Corporation * Copyright © 2013-2015 Red Hat, Inc. * * 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 (including the next * paragraph) 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. */ /* * This list data structure is verbatim copy from wayland-util.h from the * Wayland project; except that wl_ prefix has been removed. */ #include "config.h" #include #include #include #include #include #include #include "libinput-util.h" #include "libinput-private.h" void list_init(struct list *list) { list->prev = list; list->next = list; } void list_insert(struct list *list, struct list *elm) { elm->prev = list; elm->next = list->next; list->next = elm; elm->next->prev = elm; } void list_remove(struct list *elm) { elm->prev->next = elm->next; elm->next->prev = elm->prev; elm->next = NULL; elm->prev = NULL; } bool list_empty(const struct list *list) { return list->next == list; } void ratelimit_init(struct ratelimit *r, uint64_t ival_us, unsigned int burst) { r->interval = ival_us; r->begin = 0; r->burst = burst; r->num = 0; } /* * Perform rate-limit test. Returns RATELIMIT_PASS if the rate-limited action * is still allowed, RATELIMIT_THRESHOLD if the limit has been reached with * this call, and RATELIMIT_EXCEEDED if you're beyond the threshold. * It's safe to treat the return-value as boolean, if you're not interested in * the exact state. It evaluates to "true" if the threshold hasn't been * exceeded, yet. * * The ratelimit object must be initialized via ratelimit_init(). * * Modelled after Linux' lib/ratelimit.c by Dave Young * , which is licensed GPLv2. */ enum ratelimit_state ratelimit_test(struct ratelimit *r) { struct timespec ts; uint64_t utime; if (r->interval <= 0 || r->burst <= 0) return RATELIMIT_PASS; clock_gettime(CLOCK_MONOTONIC, &ts); utime = s2us(ts.tv_sec) + ns2us(ts.tv_nsec); if (r->begin <= 0 || r->begin + r->interval < utime) { /* reset counter */ r->begin = utime; r->num = 1; return RATELIMIT_PASS; } else if (r->num < r->burst) { /* continue burst */ return (++r->num == r->burst) ? RATELIMIT_THRESHOLD : RATELIMIT_PASS; } return RATELIMIT_EXCEEDED; } /* Helper function to parse the mouse DPI tag from udev. * The tag is of the form: * MOUSE_DPI=400 *1000 2000 * or * MOUSE_DPI=400@125 *1000@125 2000@125 * Where the * indicates the default value and @number indicates device poll * rate. * Numbers should be in ascending order, and if rates are present they should * be present for all entries. * * When parsing the mouse DPI property, if we find an error we just return 0 * since it's obviously invalid, the caller will treat that as an error and * use a reasonable default instead. If the property contains multiple DPI * settings but none flagged as default, we return the last because we're * lazy and that's a silly way to set the property anyway. * * @param prop The value of the udev property (without the MOUSE_DPI=) * @return The default dpi value on success, 0 on error */ int parse_mouse_dpi_property(const char *prop) { bool is_default = false; int nread, dpi = 0, rate; if (!prop) return 0; while (*prop != 0) { if (*prop == ' ') { prop++; continue; } if (*prop == '*') { prop++; is_default = true; if (!isdigit(prop[0])) return 0; } /* While we don't do anything with the rate right now we * will validate that, if it's present, it is non-zero and * positive */ rate = 1; nread = 0; sscanf(prop, "%d@%d%n", &dpi, &rate, &nread); if (!nread) sscanf(prop, "%d%n", &dpi, &nread); if (!nread || dpi <= 0 || rate <= 0 || prop[nread] == '@') return 0; if (is_default) break; prop += nread; } return dpi; } /** * Helper function to parse the MOUSE_WHEEL_CLICK_COUNT property from udev. * Property is of the form: * MOUSE_WHEEL_CLICK_COUNT= * Where the number indicates the number of wheel clicks per 360 deg * rotation. * * @param prop The value of the udev property (without the MOUSE_WHEEL_CLICK_COUNT=) * @return The click count of the wheel (may be negative) or 0 on error. */ int parse_mouse_wheel_click_count_property(const char *prop) { int count = 0; if (!prop) return 0; if (!safe_atoi(prop, &count) || abs(count) > 360) return 0; return count; } /** * * Helper function to parse the MOUSE_WHEEL_CLICK_ANGLE property from udev. * Property is of the form: * MOUSE_WHEEL_CLICK_ANGLE= * Where the number indicates the degrees travelled for each click. * * @param prop The value of the udev property (without the MOUSE_WHEEL_CLICK_ANGLE=) * @return The angle of the wheel (may be negative) or 0 on error. */ int parse_mouse_wheel_click_angle_property(const char *prop) { int angle = 0; if (!prop) return 0; if (!safe_atoi(prop, &angle) || abs(angle) > 360) return 0; return angle; } /** * Helper function to parse the TRACKPOINT_CONST_ACCEL property from udev. * Property is of the form: * TRACKPOINT_CONST_ACCEL= * * @param prop The value of the udev property (without the TRACKPOINT_CONST_ACCEL=) * @return The acceleration, or 0.0 on error. */ double parse_trackpoint_accel_property(const char *prop) { double accel; if (!prop) return 0.0; if (!safe_atod(prop, &accel)) accel = 0.0; return accel; } /** * Parses a simple dimension string in the form of "10x40". The two * numbers must be positive integers in decimal notation. * On success, the two numbers are stored in w and h. On failure, w and h * are unmodified. * * @param prop The value of the property * @param w Returns the first component of the dimension * @param h Returns the second component of the dimension * @return true on success, false otherwise */ bool parse_dimension_property(const char *prop, size_t *w, size_t *h) { int x, y; if (!prop) return false; if (sscanf(prop, "%dx%d", &x, &y) != 2) return false; if (x < 0 || y < 0) return false; *w = (size_t)x; *h = (size_t)y; return true; } /** * Parses a set of 6 space-separated floats. * * @param prop The string value of the property * @param calibration Returns the six components * @return true on success, false otherwise */ bool parse_calibration_property(const char *prop, float calibration_out[6]) { int idx; char **strv; float calibration[6]; if (!prop) return false; strv = strv_from_string(prop, " "); if (!strv) return false; for (idx = 0; idx < 6; idx++) { double v; if (strv[idx] == NULL || !safe_atod(strv[idx], &v)) { strv_free(strv); return false; } calibration[idx] = v; } strv_free(strv); memcpy(calibration_out, calibration, sizeof(calibration)); return true; } bool parse_switch_reliability_property(const char *prop, enum switch_reliability *reliability) { if (!prop) { *reliability = RELIABILITY_UNKNOWN; return true; } if (streq(prop, "reliable")) *reliability = RELIABILITY_RELIABLE; else if (streq(prop, "write_open")) *reliability = RELIABILITY_WRITE_OPEN; else return false; return true; } /** * Parses a string with the allowed values: "below" * The value refers to the position of the touchpad (relative to the * keyboard, i.e. your average laptop would be 'below') * * @param prop The value of the property * @param layout The layout * @return true on success, false otherwise */ bool parse_tpkbcombo_layout_poperty(const char *prop, enum tpkbcombo_layout *layout) { if (!prop) return false; if (streq(prop, "below")) { *layout = TPKBCOMBO_LAYOUT_BELOW; return true; } return false; } /** * Return the next word in a string pointed to by state before the first * separator character. Call repeatedly to tokenize a whole string. * * @param state Current state * @param len String length of the word returned * @param separators List of separator characters * * @return The first word in *state, NOT null-terminated */ static const char * next_word(const char **state, size_t *len, const char *separators) { const char *next = *state; size_t l; if (!*next) return NULL; next += strspn(next, separators); if (!*next) { *state = next; return NULL; } l = strcspn(next, separators); *state = next + l; *len = l; return next; } /** * Return a null-terminated string array with the tokens in the input * string, e.g. "one two\tthree" with a separator list of " \t" will return * an array [ "one", "two", "three", NULL ]. * * Use strv_free() to free the array. * * @param in Input string * @param separators List of separator characters * * @return A null-terminated string array or NULL on errors */ char ** strv_from_string(const char *in, const char *separators) { const char *s, *word; char **strv = NULL; int nelems = 0, idx; size_t l; assert(in != NULL); s = in; while ((word = next_word(&s, &l, separators)) != NULL) nelems++; if (nelems == 0) return NULL; nelems++; /* NULL-terminated */ strv = zalloc(nelems * sizeof *strv); if (!strv) return NULL; idx = 0; s = in; while ((word = next_word(&s, &l, separators)) != NULL) { char *copy = strndup(word, l); if (!copy) { strv_free(strv); return NULL; } strv[idx++] = copy; } return strv; }