#define _GNU_SOURCE #include #include #include #include #include "locking.h" #include "cpusched.h" #include "xmalloc.h" #include "hash.h" struct map_entry { int fd; unsigned int cpu; struct map_entry *next; }; static struct hash_table mapper; static unsigned int *cpu_work_map = NULL; static unsigned int cpu_len = 0; static struct rwlock map_lock; static unsigned int get_appropriate_cpu(void) { unsigned int i, cpu = 0; unsigned int work = UINT_MAX; for (i = 0; i < cpu_len; ++i) { if (cpu_work_map[i] < work) { work = cpu_work_map[i]; cpu = i; } } return cpu; } unsigned int socket_to_cpu(int fd) { int cpu = 0; struct map_entry *entry; rwlock_rd_lock(&map_lock); entry = lookup_hash(fd, &mapper); while (entry && fd != entry->fd) entry = entry->next; if (entry && fd == entry->fd) cpu = entry->cpu; rwlock_unlock(&map_lock); return cpu; } unsigned int register_socket(int fd) { void **pos; struct map_entry *entry; rwlock_wr_lock(&map_lock); entry = xzmalloc(sizeof(*entry)); entry->fd = fd; entry->cpu = get_appropriate_cpu(); cpu_work_map[entry->cpu]++; pos = insert_hash(entry->fd, entry, &mapper); if (pos) { entry->next = (*pos); (*pos) = entry; } rwlock_unlock(&map_lock); return entry->cpu; } static struct map_entry *socket_to_map_entry(int fd) { struct map_entry *entry, *ret = NULL; rwlock_rd_lock(&map_lock); entry = lookup_hash(fd, &mapper); while (entry && fd != entry->fd) entry = entry->next; if (entry && fd == entry->fd) ret = entry; rwlock_unlock(&map_lock); return ret; } void unregister_socket(int fd) { struct map_entry *pos; struct map_entry *entry = socket_to_map_entry(fd); if (entry == NULL) return; rwlock_wr_lock(&map_lock); cpu_work_map[entry->cpu]--; pos = remove_hash(entry->fd, entry, entry->next, &mapper); while (pos && pos->next && pos->next != entry) pos = pos->next; if (pos && pos->next && pos->next == entry) pos->next = entry->next; entry->next = NULL; xfree(entry); rwlock_unlock(&map_lock); } static int cleanup_cpusched_batch(void *ptr) { struct map_entry *next; struct map_entry *entry = ptr; if (!entry) return 0; while ((next = entry->next)) { entry->next = NULL; xfree(entry); entry = next; } xfree(entry); return 0; } void init_cpusched(unsigned int cpus) { rwlock_init(&map_lock); cpu_len = cpus; cpu_work_map = xcalloc(cpu_len, sizeof(*cpu_work_map)); init_hash(&mapper); } void destroy_cpusched(void) { xfree(cpu_work_map); for_each_hash(&mapper, cleanup_cpusched_batch); free_hash(&mapper); rwlock_destroy(&map_lock); } d>
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authorNicolin Chen <nicoleotsuka@gmail.com>2016-08-24 12:03:39 -0700
committerMark Brown <broonie@kernel.org>2016-09-01 21:10:21 +0100
commit38d16f791634ee95a1a818d2170dc75681ee80af (patch)
tree237609bede6c3b1ea098c76f519a3df247d78c91 /Documentation/media/uapi
parentc6f8769b03749b244331699471bef02c9b9d5ebc (diff)
ASoC: rt5659: Enable IRQ output for GPIO1 pin
Since it's possible to have an IRQ without enabling JD3, the GPIO1 pin then would remain its default GPIO function which is set as an input direction (seeing from rt5659). Meanwhile, CPU would also listen this connection via its own GPIO input: [input] [input] CPU GPIO <--------> RT5659 GPIO1 The result for the IRQ on the CPU side will be unexpectable. So this patch enables the IRQ output for GPIO1 pin any way as long as there's an IRQ assigned from platform data or DT: [input] [IRQ output] CPU GPIO <--------< RT5659 GPIO1 Signed-off-by: Nicolin Chen <nicoleotsuka@gmail.com> Signed-off-by: Mark Brown <broonie@kernel.org>
Diffstat (limited to 'Documentation/media/uapi')