gpu: nvgpu: refectored sim_readl/sim_writel

refactored sim_readl and sim_writel to use os-agnostic structures. converted all sim buffers to the type nvgpu_mem and replaced all alloc_page and free_page calls with corresponding nvgpu_dma_alloc/nvgpu_dma_free calls. JIRA VQRM-2368 Change-Id: Ia9d29119d31f239ed16be932cfd16c334002c727 Signed-off-by: Antony Clince Alex <aalex@nvidia.com> Reviewed-on: https://git-master.nvidia.com/r/1702050 Reviewed-by: svc-mobile-coverity <svc-mobile-coverity@nvidia.com> Reviewed-by: Sourab Gupta <sourabg@nvidia.com> GVS: Gerrit_Virtual_Submit Reviewed-by: Terje Bergstrom <tbergstrom@nvidia.com> Reviewed-by: mobile promotions <svcmobile_promotions@nvidia.com> Tested-by: mobile promotions <svcmobile_promotions@nvidia.com>
author: Antony Clince Alex <aalex@nvidia.com> 2018-04-25 00:49:01 -0400
committer: mobile promotions <svcmobile_promotions@nvidia.com> 2018-05-09 21:25:32 -0400
commit: 2a23cd249451c952aaab71eaad6cf5f77d2bc6e2 (patch)
tree: c9804d669872cc78ef2eb7d941c443ebec42b674 /drivers/gpu/nvgpu/common/linux/sim.c
parent: 703d00d730d230f9ac9970e7d2d22a7d8f0cd2d1 (diff)
1 files changed, 82 insertions, 92 deletions
diff --git a/drivers/gpu/nvgpu/common/linux/sim.c b/drivers/gpu/nvgpu/common/linux/sim.c
index 0e158063..7ab7a153 100644
--- a/drivers/gpu/nvgpu/common/linux/sim.c
+++ b/drivers/gpu/nvgpu/common/linux/sim.c
@@ -1,5 +1,5 @@
 /*
- * Copyright (c) 2017, NVIDIA CORPORATION.  All rights reserved.
+ * Copyright (c) 2018, NVIDIA CORPORATION.  All rights reserved.
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
@@ -20,47 +20,67 @@
 #include <nvgpu/log.h>
 #include <nvgpu/linux/vm.h>
+#include <nvgpu/bitops.h>
+#include <nvgpu/nvgpu_mem.h>
+#include <nvgpu/dma.h>
 #include "gk20a/gk20a.h"
 #include "sim.h"
 #include <nvgpu/hw/gk20a/hw_sim_gk20a.h>
-static inline void sim_writel(struct sim_gk20a_linux *sim_linux, u32 r, u32 v)
+static inline void sim_writel(struct sim_gk20a *sim, u32 r, u32 v)
 {
+        struct sim_gk20a_linux *sim_linux =
+                container_of(sim, struct sim_gk20a_linux, sim);
        writel(v, sim_linux->regs + r);
 }
-static inline u32 sim_readl(struct sim_gk20a_linux *sim_linux, u32 r)
+static inline u32 sim_readl(struct sim_gk20a *sim, u32 r)
 {
+        struct sim_gk20a_linux *sim_linux =
+                container_of(sim, struct sim_gk20a_linux, sim);
        return readl(sim_linux->regs + r);
 }
-static void kunmap_and_free_iopage(void **kvaddr, struct page **page)
+static int gk20a_alloc_sim_buffer(struct gk20a *g, struct nvgpu_mem *mem)
 {
-        if (*kvaddr) {
+        int err;
-                kunmap(*kvaddr);
-                *kvaddr = NULL;
+        err = nvgpu_dma_alloc(g, PAGE_SIZE, mem);
-        }
-        if (*page) {
+        if (err)
-                __free_page(*page);
+                return err;
-                *page = NULL;
+        /*
+         * create a valid cpu_va mapping
+         */
+        nvgpu_mem_begin(g, mem);
+        return 0;
+}
+static void gk20a_free_sim_buffer(struct gk20a *g, struct nvgpu_mem *mem)
+{
+        if (nvgpu_mem_is_valid(mem)) {
+                /*
+                 * invalidate the cpu_va mapping
+                 */
+                nvgpu_mem_end(g, mem);
+                nvgpu_dma_free(g, mem);
        }
+        memset(mem, 0, sizeof(*mem));
 }
 static void gk20a_free_sim_support(struct gk20a *g)
 {
        struct sim_gk20a_linux *sim_linux =
                container_of(g->sim, struct sim_gk20a_linux, sim);
-        /* free sim mappings, bfrs */
-        kunmap_and_free_iopage(&sim_linux->send_bfr.kvaddr,
-                               &sim_linux->send_bfr.page);
-        kunmap_and_free_iopage(&sim_linux->recv_bfr.kvaddr,
+        gk20a_free_sim_buffer(g, &sim_linux->send_bfr);
-                               &sim_linux->recv_bfr.page);
+        gk20a_free_sim_buffer(g, &sim_linux->recv_bfr);
+        gk20a_free_sim_buffer(g, &sim_linux->msg_bfr);
-        kunmap_and_free_iopage(&sim_linux->msg_bfr.kvaddr,
-                               &sim_linux->msg_bfr.page);
 }
 static void gk20a_remove_sim_support(struct sim_gk20a *s)
@@ -70,7 +90,7 @@ static void gk20a_remove_sim_support(struct sim_gk20a *s)
                container_of(g->sim, struct sim_gk20a_linux, sim);
        if (sim_linux->regs)
-                sim_writel(sim_linux, sim_config_r(), sim_config_mode_disabled_v());
+                sim_writel(s, sim_config_r(), sim_config_mode_disabled_v());
        gk20a_free_sim_support(g);
        if (sim_linux->regs) {
@@ -82,35 +102,6 @@ static void gk20a_remove_sim_support(struct sim_gk20a *s)
        g->sim = NULL;
 }
-static int alloc_and_kmap_iopage(struct gk20a *g,
-                                 void **kvaddr,
-                                 u64 *phys,
-                                 struct page **page)
-{
-        int err = 0;
-        *page = alloc_page(GFP_KERNEL);
-        if (!*page) {
-                err = -ENOMEM;
-                nvgpu_err(g, "couldn't allocate io page");
-                goto fail;
-        }
-        *kvaddr = kmap(*page);
-        if (!*kvaddr) {
-                err = -ENOMEM;
-                nvgpu_err(g, "couldn't kmap io page");
-                goto fail;
-        }
-        *phys = page_to_phys(*page);
-        return 0;
- fail:
-        kunmap_and_free_iopage(kvaddr, page);
-        return err;
-}
 static inline u32 sim_msg_header_size(void)
 {
        return 24;/*TBD: fix the header to gt this from NV_VGPU_MSG_HEADER*/
@@ -120,7 +111,11 @@ static inline u32 *sim_msg_bfr(struct gk20a *g, u32 byte_offset)
 {
        struct sim_gk20a_linux *sim_linux =
                container_of(g->sim, struct sim_gk20a_linux, sim);
-        return (u32 *)(sim_linux->msg_bfr.kvaddr + byte_offset);
+        u8 *cpu_va;
+        cpu_va = (u8 *)sim_linux->msg_bfr.cpu_va;
+        return (u32 *)(cpu_va + byte_offset);
 }
 static inline u32 *sim_msg_hdr(struct gk20a *g, u32 byte_offset)
@@ -153,7 +148,11 @@ static u32 *sim_send_ring_bfr(struct gk20a *g, u32 byte_offset)
 {
        struct sim_gk20a_linux *sim_linux =
                container_of(g->sim, struct sim_gk20a_linux, sim);
-        return (u32 *)(sim_linux->send_bfr.kvaddr + byte_offset);
+        u8 *cpu_va;
+        cpu_va = (u8 *)sim_linux->send_bfr.cpu_va;
+        return (u32 *)(cpu_va + byte_offset);
 }
 static int rpc_send_message(struct gk20a *g)
@@ -169,18 +168,17 @@ static int rpc_send_message(struct gk20a *g)
                sim_dma_target_phys_pci_coherent_f() |
                sim_dma_status_valid_f() |
                sim_dma_size_4kb_f() |
-                sim_dma_addr_lo_f(sim_linux->msg_bfr.phys >> PAGE_SHIFT);
+                sim_dma_addr_lo_f(nvgpu_mem_get_addr(g, &sim_linux->msg_bfr) >> PAGE_SHIFT);
        *sim_send_ring_bfr(g, dma_hi_offset*sizeof(u32)) =
-                u64_hi32(sim_linux->msg_bfr.phys);
+                u64_hi32(nvgpu_mem_get_addr(g, &sim_linux->msg_bfr));
        *sim_msg_hdr(g, sim_msg_sequence_r()) = g->sim->sequence_base++;
-        g->sim->send_ring_put = (g->sim->send_ring_put + 2 * sizeof(u32)) %
+        g->sim->send_ring_put = (g->sim->send_ring_put + 2 * sizeof(u32)) % PAGE_SIZE;
-                PAGE_SIZE;
        /* Update the put pointer. This will trap into the host. */
-        sim_writel(sim_linux, sim_send_put_r(), g->sim->send_ring_put);
+        sim_writel(g->sim, sim_send_put_r(), g->sim->send_ring_put);
        return 0;
 }
@@ -189,7 +187,11 @@ static inline u32 *sim_recv_ring_bfr(struct gk20a *g, u32 byte_offset)
 {
        struct sim_gk20a_linux *sim_linux =
                container_of(g->sim, struct sim_gk20a_linux, sim);
-        return (u32 *)(sim_linux->recv_bfr.kvaddr + byte_offset);
+        u8 *cpu_va;
+        cpu_va = (u8 *)sim_linux->recv_bfr.cpu_va;
+        return (u32 *)(cpu_va + byte_offset);
 }
 static int rpc_recv_poll(struct gk20a *g)
@@ -203,7 +205,7 @@ static int rpc_recv_poll(struct gk20a *g)
        /* Poll the recv ring get pointer in an infinite loop*/
        do {
-                g->sim->recv_ring_put = sim_readl(sim_linux, sim_recv_put_r());
+                g->sim->recv_ring_put = sim_readl(g->sim, sim_recv_put_r());
        } while (g->sim->recv_ring_put == g->sim->recv_ring_get);
        /* process all replies */
@@ -220,19 +222,19 @@ static int rpc_recv_poll(struct gk20a *g)
                recv_phys_addr = (u64)recv_phys_addr_hi << 32 |
                                 (u64)recv_phys_addr_lo << PAGE_SHIFT;
-                if (recv_phys_addr != sim_linux->msg_bfr.phys) {
+                if (recv_phys_addr !=
+                                nvgpu_mem_get_addr(g, &sim_linux->msg_bfr)) {
                        nvgpu_err(g, "%s Error in RPC reply",
                                __func__);
                        return -1;
                }
                /* Update GET pointer */
-                g->sim->recv_ring_get = (g->sim->recv_ring_get + 2*sizeof(u32)) %
+                g->sim->recv_ring_get = (g->sim->recv_ring_get + 2*sizeof(u32)) % PAGE_SIZE;
-                        PAGE_SIZE;
-                sim_writel(sim_linux, sim_recv_get_r(), g->sim->recv_ring_get);
+                sim_writel(g->sim, sim_recv_get_r(), g->sim->recv_ring_get);
-                g->sim->recv_ring_put = sim_readl(sim_linux, sim_recv_put_r());
+                g->sim->recv_ring_put = sim_readl(g->sim, sim_recv_put_r());
        }
        return 0;
@@ -295,53 +297,41 @@ int gk20a_init_sim_support(struct gk20a *g)
                container_of(g->sim, struct sim_gk20a_linux, sim);
        /* allocate sim event/msg buffers */
-        err = alloc_and_kmap_iopage(g, &sim_linux->send_bfr.kvaddr,
+        err = gk20a_alloc_sim_buffer(g, &sim_linux->send_bfr);
-                                    &sim_linux->send_bfr.phys,
+        err = err || gk20a_alloc_sim_buffer(g, &sim_linux->recv_bfr);
-                                    &sim_linux->send_bfr.page);
+        err = err || gk20a_alloc_sim_buffer(g, &sim_linux->msg_bfr);
-        err = err || alloc_and_kmap_iopage(g, &sim_linux->recv_bfr.kvaddr,
-                                           &sim_linux->recv_bfr.phys,
-                                           &sim_linux->recv_bfr.page);
-        err = err || alloc_and_kmap_iopage(g, &sim_linux->msg_bfr.kvaddr,
-                                           &sim_linux->msg_bfr.phys,
-                                           &sim_linux->msg_bfr.page);
-        if (!(sim_linux->send_bfr.kvaddr && sim_linux->recv_bfr.kvaddr &&
+        if (err)
-              sim_linux->msg_bfr.kvaddr)) {
-                nvgpu_err(g, "couldn't allocate all sim buffers");
                goto fail;
-        }
        /*mark send ring invalid*/
-        sim_writel(sim_linux, sim_send_ring_r(), sim_send_ring_status_invalid_f());
+        sim_writel(g->sim, sim_send_ring_r(), sim_send_ring_status_invalid_f());
        /*read get pointer and make equal to put*/
-        g->sim->send_ring_put = sim_readl(sim_linux, sim_send_get_r());
+        g->sim->send_ring_put = sim_readl(g->sim, sim_send_get_r());
-        sim_writel(sim_linux, sim_send_put_r(), g->sim->send_ring_put);
+        sim_writel(g->sim, sim_send_put_r(), g->sim->send_ring_put);
        /*write send ring address and make it valid*/
-        phys = sim_linux->send_bfr.phys;
+        phys = nvgpu_mem_get_addr(g, &sim_linux->send_bfr);
-        sim_writel(sim_linux, sim_send_ring_hi_r(),
+        sim_writel(g->sim, sim_send_ring_hi_r(),
                   sim_send_ring_hi_addr_f(u64_hi32(phys)));
-        sim_writel(sim_linux, sim_send_ring_r(),
+        sim_writel(g->sim, sim_send_ring_r(),
                   sim_send_ring_status_valid_f() |
                   sim_send_ring_target_phys_pci_coherent_f() |
                   sim_send_ring_size_4kb_f() |
                   sim_send_ring_addr_lo_f(phys >> PAGE_SHIFT));
        /*repeat for recv ring (but swap put,get as roles are opposite) */
-        sim_writel(sim_linux, sim_recv_ring_r(), sim_recv_ring_status_invalid_f());
+        sim_writel(g->sim, sim_recv_ring_r(), sim_recv_ring_status_invalid_f());
        /*read put pointer and make equal to get*/
-        g->sim->recv_ring_get = sim_readl(sim_linux, sim_recv_put_r());
+        g->sim->recv_ring_get = sim_readl(g->sim, sim_recv_put_r());
-        sim_writel(sim_linux, sim_recv_get_r(), g->sim->recv_ring_get);
+        sim_writel(g->sim, sim_recv_get_r(), g->sim->recv_ring_get);
        /*write send ring address and make it valid*/
-        phys = sim_linux->recv_bfr.phys;
+        phys = nvgpu_mem_get_addr(g, &sim_linux->recv_bfr);
-        sim_writel(sim_linux, sim_recv_ring_hi_r(),
+        sim_writel(g->sim, sim_recv_ring_hi_r(),
                   sim_recv_ring_hi_addr_f(u64_hi32(phys)));
-        sim_writel(sim_linux, sim_recv_ring_r(),
+        sim_writel(g->sim, sim_recv_ring_r(),
                   sim_recv_ring_status_valid_f() |
                   sim_recv_ring_target_phys_pci_coherent_f() |
                   sim_recv_ring_size_4kb_f() |
author	Antony Clince Alex <aalex@nvidia.com>	2018-04-25 00:49:01 -0400
committer	mobile promotions <svcmobile_promotions@nvidia.com>	2018-05-09 21:25:32 -0400
commit	2a23cd249451c952aaab71eaad6cf5f77d2bc6e2 (patch)
tree	c9804d669872cc78ef2eb7d941c443ebec42b674 /drivers/gpu/nvgpu/common/linux/sim.c
parent	703d00d730d230f9ac9970e7d2d22a7d8f0cd2d1 (diff)

diff --git a/drivers/gpu/nvgpu/common/linux/sim.c b/drivers/gpu/nvgpu/common/linux/sim.c index 0e158063..7ab7a153 100644 --- a/drivers/gpu/nvgpu/common/linux/sim.c +++ b/drivers/gpu/nvgpu/common/linux/sim.c
@@ -1,5 +1,5 @@
1	/*	1	/*
2	* Copyright (c) 2017, NVIDIA CORPORATION. All rights reserved.	2	* Copyright (c) 2018, NVIDIA CORPORATION. All rights reserved.
3	*	3	*
4	* This program is free software; you can redistribute it and/or modify it	4	* This program is free software; you can redistribute it and/or modify it
5	* under the terms and conditions of the GNU General Public License,	5	* under the terms and conditions of the GNU General Public License,
@@ -20,47 +20,67 @@
20		20
21	#include <nvgpu/log.h>	21	#include <nvgpu/log.h>
22	#include <nvgpu/linux/vm.h>	22	#include <nvgpu/linux/vm.h>
23		23	#include <nvgpu/bitops.h>
		24	#include <nvgpu/nvgpu_mem.h>
		25	#include <nvgpu/dma.h>
24	#include "gk20a/gk20a.h"	26	#include "gk20a/gk20a.h"
25	#include "sim.h"	27	#include "sim.h"
26		28
27	#include <nvgpu/hw/gk20a/hw_sim_gk20a.h>	29	#include <nvgpu/hw/gk20a/hw_sim_gk20a.h>
28		30
29	static inline void sim_writel(struct sim_gk20a_linux *sim_linux, u32 r, u32 v)	31	static inline void sim_writel(struct sim_gk20a *sim, u32 r, u32 v)
30	{	32	{
		33	struct sim_gk20a_linux *sim_linux =
		34	container_of(sim, struct sim_gk20a_linux, sim);
		35
31	writel(v, sim_linux->regs + r);	36	writel(v, sim_linux->regs + r);
32	}	37	}
33		38
34	static inline u32 sim_readl(struct sim_gk20a_linux *sim_linux, u32 r)	39	static inline u32 sim_readl(struct sim_gk20a *sim, u32 r)
35	{	40	{
		41	struct sim_gk20a_linux *sim_linux =
		42	container_of(sim, struct sim_gk20a_linux, sim);
		43
36	return readl(sim_linux->regs + r);	44	return readl(sim_linux->regs + r);
37	}	45	}
38		46
39	static void kunmap_and_free_iopage(void kvaddr, struct page page)	47	static int gk20a_alloc_sim_buffer(struct gk20a g, struct nvgpu_mem mem)
40	{	48	{
41	if (*kvaddr) {	49	int err;
42	kunmap(*kvaddr);	50
43	*kvaddr = NULL;	51	err = nvgpu_dma_alloc(g, PAGE_SIZE, mem);
44	}	52
45	if (*page) {	53	if (err)
46	__free_page(*page);	54	return err;
47	*page = NULL;	55	/*
		56	* create a valid cpu_va mapping
		57	*/
		58	nvgpu_mem_begin(g, mem);
		59
		60	return 0;
		61	}
		62
		63	static void gk20a_free_sim_buffer(struct gk20a g, struct nvgpu_mem mem)
		64	{
		65	if (nvgpu_mem_is_valid(mem)) {
		66	/*
		67	* invalidate the cpu_va mapping
		68	*/
		69	nvgpu_mem_end(g, mem);
		70	nvgpu_dma_free(g, mem);
48	}	71	}
		72
		73	memset(mem, 0, sizeof(*mem));
49	}	74	}
50		75
51	static void gk20a_free_sim_support(struct gk20a *g)	76	static void gk20a_free_sim_support(struct gk20a *g)
52	{	77	{
53	struct sim_gk20a_linux *sim_linux =	78	struct sim_gk20a_linux *sim_linux =
54	container_of(g->sim, struct sim_gk20a_linux, sim);	79	container_of(g->sim, struct sim_gk20a_linux, sim);
55	/* free sim mappings, bfrs */
56	kunmap_and_free_iopage(&sim_linux->send_bfr.kvaddr,
57	&sim_linux->send_bfr.page);
58		80
59	kunmap_and_free_iopage(&sim_linux->recv_bfr.kvaddr,	81	gk20a_free_sim_buffer(g, &sim_linux->send_bfr);
60	&sim_linux->recv_bfr.page);	82	gk20a_free_sim_buffer(g, &sim_linux->recv_bfr);
61		83	gk20a_free_sim_buffer(g, &sim_linux->msg_bfr);
62	kunmap_and_free_iopage(&sim_linux->msg_bfr.kvaddr,
63	&sim_linux->msg_bfr.page);
64	}	84	}
65		85
66	static void gk20a_remove_sim_support(struct sim_gk20a *s)	86	static void gk20a_remove_sim_support(struct sim_gk20a *s)
@@ -70,7 +90,7 @@ static void gk20a_remove_sim_support(struct sim_gk20a *s)
70	container_of(g->sim, struct sim_gk20a_linux, sim);	90	container_of(g->sim, struct sim_gk20a_linux, sim);
71		91
72	if (sim_linux->regs)	92	if (sim_linux->regs)
73	sim_writel(sim_linux, sim_config_r(), sim_config_mode_disabled_v());	93	sim_writel(s, sim_config_r(), sim_config_mode_disabled_v());
74	gk20a_free_sim_support(g);	94	gk20a_free_sim_support(g);
75		95
76	if (sim_linux->regs) {	96	if (sim_linux->regs) {
@@ -82,35 +102,6 @@ static void gk20a_remove_sim_support(struct sim_gk20a *s)
82	g->sim = NULL;	102	g->sim = NULL;
83	}	103	}
84		104
85	static int alloc_and_kmap_iopage(struct gk20a *g,
86	void **kvaddr,
87	u64 *phys,
88	struct page **page)
89	{
90	int err = 0;
91	*page = alloc_page(GFP_KERNEL);
92
93	if (!*page) {
94	err = -ENOMEM;
95	nvgpu_err(g, "couldn't allocate io page");
96	goto fail;
97	}
98
99	kvaddr = kmap(page);
100	if (!*kvaddr) {
101	err = -ENOMEM;
102	nvgpu_err(g, "couldn't kmap io page");
103	goto fail;
104	}
105	phys = page_to_phys(page);
106	return 0;
107
108	fail:
109	kunmap_and_free_iopage(kvaddr, page);
110	return err;
111
112	}
113
114	static inline u32 sim_msg_header_size(void)	105	static inline u32 sim_msg_header_size(void)
115	{	106	{
116	return 24;/TBD: fix the header to gt this from NV_VGPU_MSG_HEADER/	107	return 24;/TBD: fix the header to gt this from NV_VGPU_MSG_HEADER/
@@ -120,7 +111,11 @@ static inline u32 sim_msg_bfr(struct gk20a g, u32 byte_offset)
120	{	111	{
121	struct sim_gk20a_linux *sim_linux =	112	struct sim_gk20a_linux *sim_linux =
122	container_of(g->sim, struct sim_gk20a_linux, sim);	113	container_of(g->sim, struct sim_gk20a_linux, sim);
123	return (u32 *)(sim_linux->msg_bfr.kvaddr + byte_offset);	114	u8 *cpu_va;
		115
		116	cpu_va = (u8 *)sim_linux->msg_bfr.cpu_va;
		117
		118	return (u32 *)(cpu_va + byte_offset);
124	}	119	}
125		120
126	static inline u32 sim_msg_hdr(struct gk20a g, u32 byte_offset)	121	static inline u32 sim_msg_hdr(struct gk20a g, u32 byte_offset)
@@ -153,7 +148,11 @@ static u32 sim_send_ring_bfr(struct gk20a g, u32 byte_offset)
153	{	148	{
154	struct sim_gk20a_linux *sim_linux =	149	struct sim_gk20a_linux *sim_linux =
155	container_of(g->sim, struct sim_gk20a_linux, sim);	150	container_of(g->sim, struct sim_gk20a_linux, sim);
156	return (u32 *)(sim_linux->send_bfr.kvaddr + byte_offset);	151	u8 *cpu_va;
		152
		153	cpu_va = (u8 *)sim_linux->send_bfr.cpu_va;
		154
		155	return (u32 *)(cpu_va + byte_offset);
157	}	156	}
158		157
159	static int rpc_send_message(struct gk20a *g)	158	static int rpc_send_message(struct gk20a *g)
@@ -169,18 +168,17 @@ static int rpc_send_message(struct gk20a *g)
169	sim_dma_target_phys_pci_coherent_f() \|	168	sim_dma_target_phys_pci_coherent_f() \|
170	sim_dma_status_valid_f() \|	169	sim_dma_status_valid_f() \|
171	sim_dma_size_4kb_f() \|	170	sim_dma_size_4kb_f() \|
172	sim_dma_addr_lo_f(sim_linux->msg_bfr.phys >> PAGE_SHIFT);	171	sim_dma_addr_lo_f(nvgpu_mem_get_addr(g, &sim_linux->msg_bfr) >> PAGE_SHIFT);
173		172
174	sim_send_ring_bfr(g, dma_hi_offsetsizeof(u32)) =	173	sim_send_ring_bfr(g, dma_hi_offsetsizeof(u32)) =
175	u64_hi32(sim_linux->msg_bfr.phys);	174	u64_hi32(nvgpu_mem_get_addr(g, &sim_linux->msg_bfr));
176		175
177	*sim_msg_hdr(g, sim_msg_sequence_r()) = g->sim->sequence_base++;	176	*sim_msg_hdr(g, sim_msg_sequence_r()) = g->sim->sequence_base++;
178		177
179	g->sim->send_ring_put = (g->sim->send_ring_put + 2 * sizeof(u32)) %	178	g->sim->send_ring_put = (g->sim->send_ring_put + 2 * sizeof(u32)) % PAGE_SIZE;
180	PAGE_SIZE;
181		179
182	/* Update the put pointer. This will trap into the host. */	180	/* Update the put pointer. This will trap into the host. */
183	sim_writel(sim_linux, sim_send_put_r(), g->sim->send_ring_put);	181	sim_writel(g->sim, sim_send_put_r(), g->sim->send_ring_put);
184		182
185	return 0;	183	return 0;
186	}	184	}
@@ -189,7 +187,11 @@ static inline u32 sim_recv_ring_bfr(struct gk20a g, u32 byte_offset)
189	{	187	{
190	struct sim_gk20a_linux *sim_linux =	188	struct sim_gk20a_linux *sim_linux =
191	container_of(g->sim, struct sim_gk20a_linux, sim);	189	container_of(g->sim, struct sim_gk20a_linux, sim);
192	return (u32 *)(sim_linux->recv_bfr.kvaddr + byte_offset);	190	u8 *cpu_va;
		191
		192	cpu_va = (u8 *)sim_linux->recv_bfr.cpu_va;
		193
		194	return (u32 *)(cpu_va + byte_offset);
193	}	195	}
194		196
195	static int rpc_recv_poll(struct gk20a *g)	197	static int rpc_recv_poll(struct gk20a *g)
@@ -203,7 +205,7 @@ static int rpc_recv_poll(struct gk20a *g)
203		205
204	/* Poll the recv ring get pointer in an infinite loop*/	206	/* Poll the recv ring get pointer in an infinite loop*/
205	do {	207	do {
206	g->sim->recv_ring_put = sim_readl(sim_linux, sim_recv_put_r());	208	g->sim->recv_ring_put = sim_readl(g->sim, sim_recv_put_r());
207	} while (g->sim->recv_ring_put == g->sim->recv_ring_get);	209	} while (g->sim->recv_ring_put == g->sim->recv_ring_get);
208		210
209	/* process all replies */	211	/* process all replies */
@@ -220,19 +222,19 @@ static int rpc_recv_poll(struct gk20a *g)
220	recv_phys_addr = (u64)recv_phys_addr_hi << 32 \|	222	recv_phys_addr = (u64)recv_phys_addr_hi << 32 \|
221	(u64)recv_phys_addr_lo << PAGE_SHIFT;	223	(u64)recv_phys_addr_lo << PAGE_SHIFT;
222		224
223	if (recv_phys_addr != sim_linux->msg_bfr.phys) {	225	if (recv_phys_addr !=
		226	nvgpu_mem_get_addr(g, &sim_linux->msg_bfr)) {
224	nvgpu_err(g, "%s Error in RPC reply",	227	nvgpu_err(g, "%s Error in RPC reply",
225	__func__);	228	__func__);
226	return -1;	229	return -1;
227	}	230	}
228		231
229	/* Update GET pointer */	232	/* Update GET pointer */
230	g->sim->recv_ring_get = (g->sim->recv_ring_get + 2*sizeof(u32)) %	233	g->sim->recv_ring_get = (g->sim->recv_ring_get + 2*sizeof(u32)) % PAGE_SIZE;
231	PAGE_SIZE;
232		234
233	sim_writel(sim_linux, sim_recv_get_r(), g->sim->recv_ring_get);	235	sim_writel(g->sim, sim_recv_get_r(), g->sim->recv_ring_get);
234		236
235	g->sim->recv_ring_put = sim_readl(sim_linux, sim_recv_put_r());	237	g->sim->recv_ring_put = sim_readl(g->sim, sim_recv_put_r());
236	}	238	}
237		239
238	return 0;	240	return 0;
@@ -295,53 +297,41 @@ int gk20a_init_sim_support(struct gk20a *g)
295	container_of(g->sim, struct sim_gk20a_linux, sim);	297	container_of(g->sim, struct sim_gk20a_linux, sim);
296		298
297	/* allocate sim event/msg buffers */	299	/* allocate sim event/msg buffers */
298	err = alloc_and_kmap_iopage(g, &sim_linux->send_bfr.kvaddr,	300	err = gk20a_alloc_sim_buffer(g, &sim_linux->send_bfr);
299	&sim_linux->send_bfr.phys,	301	err = err \|\| gk20a_alloc_sim_buffer(g, &sim_linux->recv_bfr);
300	&sim_linux->send_bfr.page);	302	err = err \|\| gk20a_alloc_sim_buffer(g, &sim_linux->msg_bfr);
301
302	err = err \|\| alloc_and_kmap_iopage(g, &sim_linux->recv_bfr.kvaddr,
303	&sim_linux->recv_bfr.phys,
304	&sim_linux->recv_bfr.page);
305
306	err = err \|\| alloc_and_kmap_iopage(g, &sim_linux->msg_bfr.kvaddr,
307	&sim_linux->msg_bfr.phys,
308	&sim_linux->msg_bfr.page);
309		303
310	if (!(sim_linux->send_bfr.kvaddr && sim_linux->recv_bfr.kvaddr &&	304	if (err)
311	sim_linux->msg_bfr.kvaddr)) {
312	nvgpu_err(g, "couldn't allocate all sim buffers");
313	goto fail;	305	goto fail;
314	}
315
316	/mark send ring invalid/	306	/mark send ring invalid/
317	sim_writel(sim_linux, sim_send_ring_r(), sim_send_ring_status_invalid_f());	307	sim_writel(g->sim, sim_send_ring_r(), sim_send_ring_status_invalid_f());
318		308
319	/read get pointer and make equal to put/	309	/read get pointer and make equal to put/
320	g->sim->send_ring_put = sim_readl(sim_linux, sim_send_get_r());	310	g->sim->send_ring_put = sim_readl(g->sim, sim_send_get_r());
321	sim_writel(sim_linux, sim_send_put_r(), g->sim->send_ring_put);	311	sim_writel(g->sim, sim_send_put_r(), g->sim->send_ring_put);
322		312
323	/write send ring address and make it valid/	313	/write send ring address and make it valid/
324	phys = sim_linux->send_bfr.phys;	314	phys = nvgpu_mem_get_addr(g, &sim_linux->send_bfr);
325	sim_writel(sim_linux, sim_send_ring_hi_r(),	315	sim_writel(g->sim, sim_send_ring_hi_r(),
326	sim_send_ring_hi_addr_f(u64_hi32(phys)));	316	sim_send_ring_hi_addr_f(u64_hi32(phys)));
327	sim_writel(sim_linux, sim_send_ring_r(),	317	sim_writel(g->sim, sim_send_ring_r(),
328	sim_send_ring_status_valid_f() \|	318	sim_send_ring_status_valid_f() \|
329	sim_send_ring_target_phys_pci_coherent_f() \|	319	sim_send_ring_target_phys_pci_coherent_f() \|
330	sim_send_ring_size_4kb_f() \|	320	sim_send_ring_size_4kb_f() \|
331	sim_send_ring_addr_lo_f(phys >> PAGE_SHIFT));	321	sim_send_ring_addr_lo_f(phys >> PAGE_SHIFT));
332		322
333	/repeat for recv ring (but swap put,get as roles are opposite) /	323	/repeat for recv ring (but swap put,get as roles are opposite) /
334	sim_writel(sim_linux, sim_recv_ring_r(), sim_recv_ring_status_invalid_f());	324	sim_writel(g->sim, sim_recv_ring_r(), sim_recv_ring_status_invalid_f());
335		325
336	/read put pointer and make equal to get/	326	/read put pointer and make equal to get/
337	g->sim->recv_ring_get = sim_readl(sim_linux, sim_recv_put_r());	327	g->sim->recv_ring_get = sim_readl(g->sim, sim_recv_put_r());
338	sim_writel(sim_linux, sim_recv_get_r(), g->sim->recv_ring_get);	328	sim_writel(g->sim, sim_recv_get_r(), g->sim->recv_ring_get);
339		329
340	/write send ring address and make it valid/	330	/write send ring address and make it valid/
341	phys = sim_linux->recv_bfr.phys;	331	phys = nvgpu_mem_get_addr(g, &sim_linux->recv_bfr);
342	sim_writel(sim_linux, sim_recv_ring_hi_r(),	332	sim_writel(g->sim, sim_recv_ring_hi_r(),
343	sim_recv_ring_hi_addr_f(u64_hi32(phys)));	333	sim_recv_ring_hi_addr_f(u64_hi32(phys)));
344	sim_writel(sim_linux, sim_recv_ring_r(),	334	sim_writel(g->sim, sim_recv_ring_r(),
345	sim_recv_ring_status_valid_f() \|	335	sim_recv_ring_status_valid_f() \|
346	sim_recv_ring_target_phys_pci_coherent_f() \|	336	sim_recv_ring_target_phys_pci_coherent_f() \|
347	sim_recv_ring_size_4kb_f() \|	337	sim_recv_ring_size_4kb_f() \|