1/* SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note */
  2
  3#ifndef _UAPI_ASM_X86_AMD_HSMP_H_
  4#define _UAPI_ASM_X86_AMD_HSMP_H_
  5
  6#include <linux/types.h>
  7
  8#pragma pack(4)
  9
 10#define HSMP_MAX_MSG_LEN 8
 11
 12/*
 13 * HSMP Messages supported
 14 */
 15enum hsmp_message_ids {
 16	HSMP_TEST = 1,			/* 01h Increments input value by 1 */
 17	HSMP_GET_SMU_VER,		/* 02h SMU FW version */
 18	HSMP_GET_PROTO_VER,		/* 03h HSMP interface version */
 19	HSMP_GET_SOCKET_POWER,		/* 04h average package power consumption */
 20	HSMP_SET_SOCKET_POWER_LIMIT,	/* 05h Set the socket power limit */
 21	HSMP_GET_SOCKET_POWER_LIMIT,	/* 06h Get current socket power limit */
 22	HSMP_GET_SOCKET_POWER_LIMIT_MAX,/* 07h Get maximum socket power value */
 23	HSMP_SET_BOOST_LIMIT,		/* 08h Set a core maximum frequency limit */
 24	HSMP_SET_BOOST_LIMIT_SOCKET,	/* 09h Set socket maximum frequency level */
 25	HSMP_GET_BOOST_LIMIT,		/* 0Ah Get current frequency limit */
 26	HSMP_GET_PROC_HOT,		/* 0Bh Get PROCHOT status */
 27	HSMP_SET_XGMI_LINK_WIDTH,	/* 0Ch Set max and min width of xGMI Link */
 28	HSMP_SET_DF_PSTATE,		/* 0Dh Alter APEnable/Disable messages behavior */
 29	HSMP_SET_AUTO_DF_PSTATE,	/* 0Eh Enable DF P-State Performance Boost algorithm */
 30	HSMP_GET_FCLK_MCLK,		/* 0Fh Get FCLK and MEMCLK for current socket */
 31	HSMP_GET_CCLK_THROTTLE_LIMIT,	/* 10h Get CCLK frequency limit in socket */
 32	HSMP_GET_C0_PERCENT,		/* 11h Get average C0 residency in socket */
 33	HSMP_SET_NBIO_DPM_LEVEL,	/* 12h Set max/min LCLK DPM Level for a given NBIO */
 34	HSMP_GET_NBIO_DPM_LEVEL,	/* 13h Get LCLK DPM level min and max for a given NBIO */
 35	HSMP_GET_DDR_BANDWIDTH,		/* 14h Get theoretical maximum and current DDR Bandwidth */
 36	HSMP_GET_TEMP_MONITOR,		/* 15h Get socket temperature */
 37	HSMP_GET_DIMM_TEMP_RANGE,	/* 16h Get per-DIMM temperature range and refresh rate */
 38	HSMP_GET_DIMM_POWER,		/* 17h Get per-DIMM power consumption */
 39	HSMP_GET_DIMM_THERMAL,		/* 18h Get per-DIMM thermal sensors */
 40	HSMP_GET_SOCKET_FREQ_LIMIT,	/* 19h Get current active frequency per socket */
 41	HSMP_GET_CCLK_CORE_LIMIT,	/* 1Ah Get CCLK frequency limit per core */
 42	HSMP_GET_RAILS_SVI,		/* 1Bh Get SVI-based Telemetry for all rails */
 43	HSMP_GET_SOCKET_FMAX_FMIN,	/* 1Ch Get Fmax and Fmin per socket */
 44	HSMP_GET_IOLINK_BANDWITH,	/* 1Dh Get current bandwidth on IO Link */
 45	HSMP_GET_XGMI_BANDWITH,		/* 1Eh Get current bandwidth on xGMI Link */
 46	HSMP_SET_GMI3_WIDTH,		/* 1Fh Set max and min GMI3 Link width */
 47	HSMP_SET_PCI_RATE,		/* 20h Control link rate on PCIe devices */
 48	HSMP_SET_POWER_MODE,		/* 21h Select power efficiency profile policy */
 49	HSMP_SET_PSTATE_MAX_MIN,	/* 22h Set the max and min DF P-State  */
 50	HSMP_GET_METRIC_TABLE_VER,	/* 23h Get metrics table version */
 51	HSMP_GET_METRIC_TABLE,		/* 24h Get metrics table */
 52	HSMP_GET_METRIC_TABLE_DRAM_ADDR,/* 25h Get metrics table dram address */
 53	HSMP_MSG_ID_MAX,
 54};
 55
 56struct hsmp_message {
 57	__u32	msg_id;			/* Message ID */
 58	__u16	num_args;		/* Number of input argument words in message */
 59	__u16	response_sz;		/* Number of expected output/response words */
 60	__u32	args[HSMP_MAX_MSG_LEN];	/* argument/response buffer */
 61	__u16	sock_ind;		/* socket number */
 62};
 63
 64enum hsmp_msg_type {
 65	HSMP_RSVD = -1,
 66	HSMP_SET  = 0,
 67	HSMP_GET  = 1,
 68};
 69
 70enum hsmp_proto_versions {
 71	HSMP_PROTO_VER2	= 2,
 72	HSMP_PROTO_VER3,
 73	HSMP_PROTO_VER4,
 74	HSMP_PROTO_VER5,
 75	HSMP_PROTO_VER6
 76};
 77
 78struct hsmp_msg_desc {
 79	int num_args;
 80	int response_sz;
 81	enum hsmp_msg_type type;
 82};
 83
 84/*
 85 * User may use these comments as reference, please find the
 86 * supported list of messages and message definition in the
 87 * HSMP chapter of respective family/model PPR.
 88 *
 89 * Not supported messages would return -ENOMSG.
 90 */
 91static const struct hsmp_msg_desc hsmp_msg_desc_table[] = {
 92	/* RESERVED */
 93	{0, 0, HSMP_RSVD},
 94
 95	/*
 96	 * HSMP_TEST, num_args = 1, response_sz = 1
 97	 * input:  args[0] = xx
 98	 * output: args[0] = xx + 1
 99	 */
100	{1, 1, HSMP_GET},
101
102	/*
103	 * HSMP_GET_SMU_VER, num_args = 0, response_sz = 1
104	 * output: args[0] = smu fw ver
105	 */
106	{0, 1, HSMP_GET},
107
108	/*
109	 * HSMP_GET_PROTO_VER, num_args = 0, response_sz = 1
110	 * output: args[0] = proto version
111	 */
112	{0, 1, HSMP_GET},
113
114	/*
115	 * HSMP_GET_SOCKET_POWER, num_args = 0, response_sz = 1
116	 * output: args[0] = socket power in mWatts
117	 */
118	{0, 1, HSMP_GET},
119
120	/*
121	 * HSMP_SET_SOCKET_POWER_LIMIT, num_args = 1, response_sz = 0
122	 * input: args[0] = power limit value in mWatts
123	 */
124	{1, 0, HSMP_SET},
125
126	/*
127	 * HSMP_GET_SOCKET_POWER_LIMIT, num_args = 0, response_sz = 1
128	 * output: args[0] = socket power limit value in mWatts
129	 */
130	{0, 1, HSMP_GET},
131
132	/*
133	 * HSMP_GET_SOCKET_POWER_LIMIT_MAX, num_args = 0, response_sz = 1
134	 * output: args[0] = maximuam socket power limit in mWatts
135	 */
136	{0, 1, HSMP_GET},
137
138	/*
139	 * HSMP_SET_BOOST_LIMIT, num_args = 1, response_sz = 0
140	 * input: args[0] = apic id[31:16] + boost limit value in MHz[15:0]
141	 */
142	{1, 0, HSMP_SET},
143
144	/*
145	 * HSMP_SET_BOOST_LIMIT_SOCKET, num_args = 1, response_sz = 0
146	 * input: args[0] = boost limit value in MHz
147	 */
148	{1, 0, HSMP_SET},
149
150	/*
151	 * HSMP_GET_BOOST_LIMIT, num_args = 1, response_sz = 1
152	 * input: args[0] = apic id
153	 * output: args[0] = boost limit value in MHz
154	 */
155	{1, 1, HSMP_GET},
156
157	/*
158	 * HSMP_GET_PROC_HOT, num_args = 0, response_sz = 1
159	 * output: args[0] = proc hot status
160	 */
161	{0, 1, HSMP_GET},
162
163	/*
164	 * HSMP_SET_XGMI_LINK_WIDTH, num_args = 1, response_sz = 0
165	 * input: args[0] = min link width[15:8] + max link width[7:0]
166	 */
167	{1, 0, HSMP_SET},
168
169	/*
170	 * HSMP_SET_DF_PSTATE, num_args = 1, response_sz = 0
171	 * input: args[0] = df pstate[7:0]
172	 */
173	{1, 0, HSMP_SET},
174
175	/* HSMP_SET_AUTO_DF_PSTATE, num_args = 0, response_sz = 0 */
176	{0, 0, HSMP_SET},
177
178	/*
179	 * HSMP_GET_FCLK_MCLK, num_args = 0, response_sz = 2
180	 * output: args[0] = fclk in MHz, args[1] = mclk in MHz
181	 */
182	{0, 2, HSMP_GET},
183
184	/*
185	 * HSMP_GET_CCLK_THROTTLE_LIMIT, num_args = 0, response_sz = 1
186	 * output: args[0] = core clock in MHz
187	 */
188	{0, 1, HSMP_GET},
189
190	/*
191	 * HSMP_GET_C0_PERCENT, num_args = 0, response_sz = 1
192	 * output: args[0] = average c0 residency
193	 */
194	{0, 1, HSMP_GET},
195
196	/*
197	 * HSMP_SET_NBIO_DPM_LEVEL, num_args = 1, response_sz = 0
198	 * input: args[0] = nbioid[23:16] + max dpm level[15:8] + min dpm level[7:0]
199	 */
200	{1, 0, HSMP_SET},
201
202	/*
203	 * HSMP_GET_NBIO_DPM_LEVEL, num_args = 1, response_sz = 1
204	 * input: args[0] = nbioid[23:16]
205	 * output: args[0] = max dpm level[15:8] + min dpm level[7:0]
206	 */
207	{1, 1, HSMP_GET},
208
209	/*
210	 * HSMP_GET_DDR_BANDWIDTH, num_args = 0, response_sz = 1
211	 * output: args[0] = max bw in Gbps[31:20] + utilised bw in Gbps[19:8] +
212	 * bw in percentage[7:0]
213	 */
214	{0, 1, HSMP_GET},
215
216	/*
217	 * HSMP_GET_TEMP_MONITOR, num_args = 0, response_sz = 1
218	 * output: args[0] = temperature in degree celsius. [15:8] integer part +
219	 * [7:5] fractional part
220	 */
221	{0, 1, HSMP_GET},
222
223	/*
224	 * HSMP_GET_DIMM_TEMP_RANGE, num_args = 1, response_sz = 1
225	 * input: args[0] = DIMM address[7:0]
226	 * output: args[0] = refresh rate[3] + temperature range[2:0]
227	 */
228	{1, 1, HSMP_GET},
229
230	/*
231	 * HSMP_GET_DIMM_POWER, num_args = 1, response_sz = 1
232	 * input: args[0] = DIMM address[7:0]
233	 * output: args[0] = DIMM power in mW[31:17] + update rate in ms[16:8] +
234	 * DIMM address[7:0]
235	 */
236	{1, 1, HSMP_GET},
237
238	/*
239	 * HSMP_GET_DIMM_THERMAL, num_args = 1, response_sz = 1
240	 * input: args[0] = DIMM address[7:0]
241	 * output: args[0] = temperature in degree celsius[31:21] + update rate in ms[16:8] +
242	 * DIMM address[7:0]
243	 */
244	{1, 1, HSMP_GET},
245
246	/*
247	 * HSMP_GET_SOCKET_FREQ_LIMIT, num_args = 0, response_sz = 1
248	 * output: args[0] = frequency in MHz[31:16] + frequency source[15:0]
249	 */
250	{0, 1, HSMP_GET},
251
252	/*
253	 * HSMP_GET_CCLK_CORE_LIMIT, num_args = 1, response_sz = 1
254	 * input: args[0] = apic id [31:0]
255	 * output: args[0] = frequency in MHz[31:0]
256	 */
257	{1, 1, HSMP_GET},
258
259	/*
260	 * HSMP_GET_RAILS_SVI, num_args = 0, response_sz = 1
261	 * output: args[0] = power in mW[31:0]
262	 */
263	{0, 1, HSMP_GET},
264
265	/*
266	 * HSMP_GET_SOCKET_FMAX_FMIN, num_args = 0, response_sz = 1
267	 * output: args[0] = fmax in MHz[31:16] + fmin in MHz[15:0]
268	 */
269	{0, 1, HSMP_GET},
270
271	/*
272	 * HSMP_GET_IOLINK_BANDWITH, num_args = 1, response_sz = 1
273	 * input: args[0] = link id[15:8] + bw type[2:0]
274	 * output: args[0] = io bandwidth in Mbps[31:0]
275	 */
276	{1, 1, HSMP_GET},
277
278	/*
279	 * HSMP_GET_XGMI_BANDWITH, num_args = 1, response_sz = 1
280	 * input: args[0] = link id[15:8] + bw type[2:0]
281	 * output: args[0] = xgmi bandwidth in Mbps[31:0]
282	 */
283	{1, 1, HSMP_GET},
284
285	/*
286	 * HSMP_SET_GMI3_WIDTH, num_args = 1, response_sz = 0
287	 * input: args[0] = min link width[15:8] + max link width[7:0]
288	 */
289	{1, 0, HSMP_SET},
290
291	/*
292	 * HSMP_SET_PCI_RATE, num_args = 1, response_sz = 1
293	 * input: args[0] = link rate control value
294	 * output: args[0] = previous link rate control value
295	 */
296	{1, 1, HSMP_SET},
297
298	/*
299	 * HSMP_SET_POWER_MODE, num_args = 1, response_sz = 0
300	 * input: args[0] = power efficiency mode[2:0]
301	 */
302	{1, 0, HSMP_SET},
303
304	/*
305	 * HSMP_SET_PSTATE_MAX_MIN, num_args = 1, response_sz = 0
306	 * input: args[0] = min df pstate[15:8] + max df pstate[7:0]
307	 */
308	{1, 0, HSMP_SET},
309
310	/*
311	 * HSMP_GET_METRIC_TABLE_VER, num_args = 0, response_sz = 1
312	 * output: args[0] = metrics table version
313	 */
314	{0, 1, HSMP_GET},
315
316	/*
317	 * HSMP_GET_METRIC_TABLE, num_args = 0, response_sz = 0
318	 */
319	{0, 0, HSMP_GET},
320
321	/*
322	 * HSMP_GET_METRIC_TABLE_DRAM_ADDR, num_args = 0, response_sz = 2
323	 * output: args[0] = lower 32 bits of the address
324	 * output: args[1] = upper 32 bits of the address
325	 */
326	{0, 2, HSMP_GET},
327};
328
329/* Metrics table (supported only with proto version 6) */
330struct hsmp_metric_table {
331	__u32 accumulation_counter;
332
333	/* TEMPERATURE */
334	__u32 max_socket_temperature;
335	__u32 max_vr_temperature;
336	__u32 max_hbm_temperature;
337	__u64 max_socket_temperature_acc;
338	__u64 max_vr_temperature_acc;
339	__u64 max_hbm_temperature_acc;
340
341	/* POWER */
342	__u32 socket_power_limit;
343	__u32 max_socket_power_limit;
344	__u32 socket_power;
345
346	/* ENERGY */
347	__u64 timestamp;
348	__u64 socket_energy_acc;
349	__u64 ccd_energy_acc;
350	__u64 xcd_energy_acc;
351	__u64 aid_energy_acc;
352	__u64 hbm_energy_acc;
353
354	/* FREQUENCY */
355	__u32 cclk_frequency_limit;
356	__u32 gfxclk_frequency_limit;
357	__u32 fclk_frequency;
358	__u32 uclk_frequency;
359	__u32 socclk_frequency[4];
360	__u32 vclk_frequency[4];
361	__u32 dclk_frequency[4];
362	__u32 lclk_frequency[4];
363	__u64 gfxclk_frequency_acc[8];
364	__u64 cclk_frequency_acc[96];
365
366	/* FREQUENCY RANGE */
367	__u32 max_cclk_frequency;
368	__u32 min_cclk_frequency;
369	__u32 max_gfxclk_frequency;
370	__u32 min_gfxclk_frequency;
371	__u32 fclk_frequency_table[4];
372	__u32 uclk_frequency_table[4];
373	__u32 socclk_frequency_table[4];
374	__u32 vclk_frequency_table[4];
375	__u32 dclk_frequency_table[4];
376	__u32 lclk_frequency_table[4];
377	__u32 max_lclk_dpm_range;
378	__u32 min_lclk_dpm_range;
379
380	/* XGMI */
381	__u32 xgmi_width;
382	__u32 xgmi_bitrate;
383	__u64 xgmi_read_bandwidth_acc[8];
384	__u64 xgmi_write_bandwidth_acc[8];
385
386	/* ACTIVITY */
387	__u32 socket_c0_residency;
388	__u32 socket_gfx_busy;
389	__u32 dram_bandwidth_utilization;
390	__u64 socket_c0_residency_acc;
391	__u64 socket_gfx_busy_acc;
392	__u64 dram_bandwidth_acc;
393	__u32 max_dram_bandwidth;
394	__u64 dram_bandwidth_utilization_acc;
395	__u64 pcie_bandwidth_acc[4];
396
397	/* THROTTLERS */
398	__u32 prochot_residency_acc;
399	__u32 ppt_residency_acc;
400	__u32 socket_thm_residency_acc;
401	__u32 vr_thm_residency_acc;
402	__u32 hbm_thm_residency_acc;
403	__u32 spare;
404
405	/* New items at the end to maintain driver compatibility */
406	__u32 gfxclk_frequency[8];
407};
408
409/* Reset to default packing */
410#pragma pack()
411
412/* Define unique ioctl command for hsmp msgs using generic _IOWR */
413#define HSMP_BASE_IOCTL_NR	0xF8
414#define HSMP_IOCTL_CMD		_IOWR(HSMP_BASE_IOCTL_NR, 0, struct hsmp_message)
415
416#endif /*_ASM_X86_AMD_HSMP_H_*/