1#ifndef __NVKM_PMU_MEMX_H__ 2#define __NVKM_PMU_MEMX_H__ 3#include "priv.h" 4 5#include <core/device.h> 6 7struct nvkm_memx { 8 struct nvkm_pmu *pmu; 9 u32 base; 10 u32 size; 11 struct { 12 u32 mthd; 13 u32 size; 14 u32 data[64]; 15 } c; 16}; 17 18static void 19memx_out(struct nvkm_memx *memx) 20{ 21 struct nvkm_pmu *pmu = memx->pmu; 22 int i; 23 24 if (memx->c.mthd) { 25 nv_wr32(pmu, 0x10a1c4, (memx->c.size << 16) | memx->c.mthd); 26 for (i = 0; i < memx->c.size; i++) 27 nv_wr32(pmu, 0x10a1c4, memx->c.data[i]); 28 memx->c.mthd = 0; 29 memx->c.size = 0; 30 } 31} 32 33static void 34memx_cmd(struct nvkm_memx *memx, u32 mthd, u32 size, u32 data[]) 35{ 36 if ((memx->c.size + size >= ARRAY_SIZE(memx->c.data)) || 37 (memx->c.mthd && memx->c.mthd != mthd)) 38 memx_out(memx); 39 memcpy(&memx->c.data[memx->c.size], data, size * sizeof(data[0])); 40 memx->c.size += size; 41 memx->c.mthd = mthd; 42} 43 44int 45nvkm_memx_init(struct nvkm_pmu *pmu, struct nvkm_memx **pmemx) 46{ 47 struct nvkm_memx *memx; 48 u32 reply[2]; 49 int ret; 50 51 ret = pmu->message(pmu, reply, PROC_MEMX, MEMX_MSG_INFO, 52 MEMX_INFO_DATA, 0); 53 if (ret) 54 return ret; 55 56 memx = *pmemx = kzalloc(sizeof(*memx), GFP_KERNEL); 57 if (!memx) 58 return -ENOMEM; 59 memx->pmu = pmu; 60 memx->base = reply[0]; 61 memx->size = reply[1]; 62 63 /* acquire data segment access */ 64 do { 65 nv_wr32(pmu, 0x10a580, 0x00000003); 66 } while (nv_rd32(pmu, 0x10a580) != 0x00000003); 67 nv_wr32(pmu, 0x10a1c0, 0x01000000 | memx->base); 68 return 0; 69} 70 71int 72nvkm_memx_fini(struct nvkm_memx **pmemx, bool exec) 73{ 74 struct nvkm_memx *memx = *pmemx; 75 struct nvkm_pmu *pmu = memx->pmu; 76 u32 finish, reply[2]; 77 78 /* flush the cache... */ 79 memx_out(memx); 80 81 /* release data segment access */ 82 finish = nv_rd32(pmu, 0x10a1c0) & 0x00ffffff; 83 nv_wr32(pmu, 0x10a580, 0x00000000); 84 85 /* call MEMX process to execute the script, and wait for reply */ 86 if (exec) { 87 pmu->message(pmu, reply, PROC_MEMX, MEMX_MSG_EXEC, 88 memx->base, finish); 89 } 90 91 nv_debug(memx->pmu, "Exec took %uns, PMU_IN %08x\n", 92 reply[0], reply[1]); 93 kfree(memx); 94 return 0; 95} 96 97void 98nvkm_memx_wr32(struct nvkm_memx *memx, u32 addr, u32 data) 99{ 100 nv_debug(memx->pmu, "R[%06x] = 0x%08x\n", addr, data); 101 memx_cmd(memx, MEMX_WR32, 2, (u32[]){ addr, data }); 102} 103 104void 105nvkm_memx_wait(struct nvkm_memx *memx, 106 u32 addr, u32 mask, u32 data, u32 nsec) 107{ 108 nv_debug(memx->pmu, "R[%06x] & 0x%08x == 0x%08x, %d us\n", 109 addr, mask, data, nsec); 110 memx_cmd(memx, MEMX_WAIT, 4, (u32[]){ addr, mask, data, nsec }); 111 memx_out(memx); /* fuc can't handle multiple */ 112} 113 114void 115nvkm_memx_nsec(struct nvkm_memx *memx, u32 nsec) 116{ 117 nv_debug(memx->pmu, " DELAY = %d ns\n", nsec); 118 memx_cmd(memx, MEMX_DELAY, 1, (u32[]){ nsec }); 119 memx_out(memx); /* fuc can't handle multiple */ 120} 121 122void 123nvkm_memx_wait_vblank(struct nvkm_memx *memx) 124{ 125 struct nvkm_pmu *pmu = memx->pmu; 126 u32 heads, x, y, px = 0; 127 int i, head_sync; 128 129 if (nv_device(pmu)->chipset < 0xd0) { 130 heads = nv_rd32(pmu, 0x610050); 131 for (i = 0; i < 2; i++) { 132 /* Heuristic: sync to head with biggest resolution */ 133 if (heads & (2 << (i << 3))) { 134 x = nv_rd32(pmu, 0x610b40 + (0x540 * i)); 135 y = (x & 0xffff0000) >> 16; 136 x &= 0x0000ffff; 137 if ((x * y) > px) { 138 px = (x * y); 139 head_sync = i; 140 } 141 } 142 } 143 } 144 145 if (px == 0) { 146 nv_debug(memx->pmu, "WAIT VBLANK !NO ACTIVE HEAD\n"); 147 return; 148 } 149 150 nv_debug(memx->pmu, "WAIT VBLANK HEAD%d\n", head_sync); 151 memx_cmd(memx, MEMX_VBLANK, 1, (u32[]){ head_sync }); 152 memx_out(memx); /* fuc can't handle multiple */ 153} 154 155void 156nvkm_memx_train(struct nvkm_memx *memx) 157{ 158 nv_debug(memx->pmu, " MEM TRAIN\n"); 159 memx_cmd(memx, MEMX_TRAIN, 0, NULL); 160} 161 162int 163nvkm_memx_train_result(struct nvkm_pmu *pmu, u32 *res, int rsize) 164{ 165 u32 reply[2], base, size, i; 166 int ret; 167 168 ret = pmu->message(pmu, reply, PROC_MEMX, MEMX_MSG_INFO, 169 MEMX_INFO_TRAIN, 0); 170 if (ret) 171 return ret; 172 173 base = reply[0]; 174 size = reply[1] >> 2; 175 if (size > rsize) 176 return -ENOMEM; 177 178 /* read the packet */ 179 nv_wr32(pmu, 0x10a1c0, 0x02000000 | base); 180 181 for (i = 0; i < size; i++) 182 res[i] = nv_rd32(pmu, 0x10a1c4); 183 184 return 0; 185} 186 187void 188nvkm_memx_block(struct nvkm_memx *memx) 189{ 190 nv_debug(memx->pmu, " HOST BLOCKED\n"); 191 memx_cmd(memx, MEMX_ENTER, 0, NULL); 192} 193 194void 195nvkm_memx_unblock(struct nvkm_memx *memx) 196{ 197 nv_debug(memx->pmu, " HOST UNBLOCKED\n"); 198 memx_cmd(memx, MEMX_LEAVE, 0, NULL); 199} 200#endif 201