s32_t
#define S32_SUB(_a, _b) ((s32_t) ((s32_t) (_a) - (s32_t) (_b)))
#define uS32_SUB(_a, _b) ((u32_t) ((s32_t) (_a) - (s32_t) (_b)))
typedef s32_t S32;
#define S32_SUB(_a, _b) ((s32_t) ((s32_t) (_a) - (s32_t) (_b)))
#define uS32_SUB(_a, _b) ((u32_t) ((s32_t) (_a) - (s32_t) (_b)))
static __inline s32_t mm_atomic_cmpxchg_imp(u32_t *p,
s32_t ret;
static __inline s32_t mm_atomic_inc_imp(u32_t *p)
s32_t ret;
static __inline s32_t mm_atomic_and_imp(u32_t *p, u32_t v)
s32_t ret;
static __inline s32_t mm_atomic_or_imp(u32_t *p, u32_t v)
s32_t ret;
#define mm_atomic_set_imp(_p, _v) ediag_atomic_set((s32_t *)_p, (s32_t)_v)
#define mm_atomic_dec_imp(_p) ediag_atomic_dec_and_test((s32_t *)_p)
#define mm_atomic_inc_imp(_p) ediag_atomic_inc_and_test((s32_t *)_p)
#define mm_atomic_read_imp(_p) ediag_atomic_read((s32_t *)_p)
#define mm_atomic_cmpxchg_imp(_p, _cmp, _new_v) ediag_atomic_cmpxchg((s32_t *)_p, (int)_cmp, (int)_new_v)
static __inline s32_t mm_atomic_cmpxchg_imp(u32_t *p,
s32_t ret;
static __inline s32_t mm_atomic_dec_imp(u32_t *p)
s32_t ret;
static __inline s32_t mm_atomic_inc_imp(u32_t *p)
s32_t ret;
static __inline s32_t mm_atomic_and_imp(u32_t *p, u32_t v)
s32_t ret;
static __inline s32_t mm_atomic_or_imp(u32_t *p, u32_t v)
s32_t ret;
static __inline s32_t mm_atomic_dec_imp(u32_t *p)
static __inline s32_t mm_atomic_inc_imp(u32_t *p)
lm_status_t lm_set_cdu_validation_data(struct _lm_device_t *pdev, s32_t cid, u8_t invalidate)
lm_status_t lm_get_context_size(struct _lm_device_t *pdev, s32_t * context_size)
lm_status_t lm_allocate_cid(struct _lm_device_t *pdev, u32_t type, void * cookie, s32_t * out_cid){
lm_status_t lm_allocate_cid(struct _lm_device_t *pdev, u32_t type, void * cookie, s32_t * cid);
lm_status_t lm_get_context_size(struct _lm_device_t *pdev, s32_t * context_size);
lm_status_t lm_set_cdu_validation_data(struct _lm_device_t *pdev, s32_t cid, u8_t invalidate);
s32_t rss_reg = 0;
s32_t refcnt; //signed to detect underflow.
typedef void(*lm_cid_recycled_cb_t)(struct _lm_device_t *pdev, void *cookie, s32_t cid);
s32_t cid);
s32_t gen_bufs_in_isles_delta;
s32_t total_indicated; /* cyclic counter of number of generic indications (sum of connections pending...) */
s32_t total_indicated_returned; /* cyclic counter of number of generic indications that have returned */
s32_t gen_bufs_in_isles;
s32_t max_gen_bufs_in_isles;
pdev->toe_info.grqs[sb_idx].gen_bufs_in_isles_delta -= (s32_t)d_list_entry_cnt(&gen_buf_list);
s32_t diff_to_fw;
if ( ((diff_to_fw >= (s32_t)rx_con->u.rx.sws_info.mss) ||
(diff_to_fw >= (((s32_t)tcp->tcp_cached.initial_rcv_wnd) / 2)))) {
pdev->toe_info.grqs[sb_idx].gen_bufs_in_isles_delta -= (s32_t)d_list_entry_cnt(&removed_list);
s32_t cid;
s32_t cid)
s32_t delta = -(s32_t)num_gen_bufs_in_isles;
lm_tcp_update_isles_cnts(pdev, -(s32_t)num_isles, delta);
void lm_tcp_update_isles_cnts(struct _lm_device_t * pdev, s16_t number_of_isles, s32_t number_of_gen_bufs)
&& (archipelago->gen_bufs_in_isles > (s32_t)pdev->params.l4_max_gen_bufs_in_archipelago)) {
if (archipelago->gen_bufs_in_isles <= (s32_t)pdev->params.l4_valid_gen_bufs_in_archipelago) {
void lm_tcp_update_isles_cnts(struct _lm_device_t * pdev, s16_t number_of_isles, s32_t number_of_gen_bufs);
s32_t cid);
s32_t cid)
s32_t cid;
s32_t cid = 0;
s32_t cid)
typedef s32_t S32;
#define S32_SUB(_a, _b) ((s32_t) ((s32_t) (_a) - (s32_t) (_b)))
#define uS32_SUB(_a, _b) ((u32_t) ((s32_t) (_a) - (s32_t) (_b)))