diff options
author | Furquan Shaikh <furquan@google.com> | 2020-05-14 14:56:58 -0700 |
---|---|---|
committer | Furquan Shaikh <furquan@google.com> | 2020-05-16 17:48:11 +0000 |
commit | bca71f643cfbef5d931d237ed778d278d16a00f7 (patch) | |
tree | e132781ac682074be0cdbc602b55b1bc1e7e3167 /src/device | |
parent | 196d8559d90ff1ac1ebf52fc23b5a6a2493b386c (diff) |
Revert "device: Enable resource allocation above 4G boundary"
This reverts commit 44ae0eacb82259243bf844a3fe5ad24a7821e997.
Reason for revert: Resource allocator patches need to be reverted
until the AMD chipsets can be fixed to handle the resource allocation
flow correctly.
BUG=b:149186922
Change-Id: I90f3eac2d23b5f59ab356ae48ed94d14c7405774
Signed-off-by: Furquan Shaikh <furquan@google.com>
Reviewed-on: https://review.coreboot.org/c/coreboot/+/41412
Reviewed-by: Angel Pons <th3fanbus@gmail.com>
Reviewed-by: Mike Banon <mikebdp2@gmail.com>
Reviewed-by: HAOUAS Elyes <ehaouas@noos.fr>
Reviewed-by: Aaron Durbin <adurbin@chromium.org>
Tested-by: build bot (Jenkins) <no-reply@coreboot.org>
Diffstat (limited to 'src/device')
-rw-r--r-- | src/device/device.c | 120 |
1 files changed, 9 insertions, 111 deletions
diff --git a/src/device/device.c b/src/device/device.c index 633346ede0..3ed64da34a 100644 --- a/src/device/device.c +++ b/src/device/device.c @@ -594,19 +594,6 @@ static void update_bridge_resource(const struct device *bridge, struct resource bridge_res->limit = child_res->limit; /* - * Propagate the downstream resource request to allocate above 4G boundary to - * upstream bridge resource. This ensures that during pass 2, the resource - * allocator at domain level has a global view of all the downstream device - * requirements and thus address space is allocated as per updated flags in the - * bridge resource. - * - * Since the bridge resource is a single window, all the downstream resources of - * this bridge resource will be allocated space above 4G boundary. - */ - if (child_res->flags & IORESOURCE_ABOVE_4G) - bridge_res->flags |= IORESOURCE_ABOVE_4G; - - /* * Alignment value of 0 means that the child resource has no alignment * requirements and so the base value remains unchanged here. */ @@ -700,98 +687,24 @@ static void compute_domain_resources(const struct device *domain) } } -/* - * If the resource base is set to the limit, then it means that the resource is invalid and - * hence cannot be used for allocation. - */ -static bool is_resource_invalid(const struct resource *res) -{ - return res->base == res->limit; -} - -/* - * This function initializes memranges for domain device. If the resource crosses 4G boundary, - * then this function splits it into two ranges -- one for the window below 4G and the other for - * the window above 4G. The latter range has IORESOURCE_ABOVE_4G flag set to satisfy resource - * requests from downstream devices for allocations above 4G. - */ -static void initialize_domain_memranges(struct memranges *ranges, const struct resource *res, - unsigned long memrange_type) +static void initialize_memranges(struct memranges *ranges, const struct resource *res, + unsigned long memrange_type) { resource_t res_base; resource_t res_limit; - const resource_t limit_4g = 0xffffffff; memranges_init_empty(ranges, NULL, 0); - if ((res == NULL) || is_resource_invalid(res)) + if (res == NULL) return; res_base = res->base; res_limit = res->limit; - /* - * Split the resource into two separate ranges if it crosses the 4G boundary. Memrange - * type is set differently to ensure that memrange does not merge these two ranges. For - * the range above 4G boundary, given memrange type is ORed with IORESOURCE_ABOVE_4G. - */ - if (res_base <= limit_4g) { - - resource_t range_limit; - - /* Clip the resource limit at 4G boundary if necessary. */ - range_limit = MIN(res_limit, limit_4g); - memranges_insert(ranges, res_base, range_limit - res_base + 1, memrange_type); - - /* - * If the resource lies completely below the 4G boundary, nothing more needs to - * be done. - */ - if (res_limit <= limit_4g) - return; - - /* - * If the resource window crosses the 4G boundary, then update res_base to add - * another entry for the range above the boundary. - */ - res_base = limit_4g + 1; - } - - if (res_base > res_limit) + if (res_base == res_limit) return; - /* - * If resource lies completely above the 4G boundary or if the resource was clipped to - * add two separate ranges, the range above 4G boundary has the resource flag - * IORESOURCE_ABOVE_4G set. This allows domain to handle any downstream requests for - * resource allocation above 4G differently. - */ - memranges_insert(ranges, res_base, res_limit - res_base + 1, - memrange_type | IORESOURCE_ABOVE_4G); -} - -/* - * This function initializes memranges for bridge device. Unlike domain, bridge does not need to - * care about resource window crossing 4G boundary. This is handled by the resource allocator at - * domain level to ensure that all downstream bridges are allocated space either above or below - * 4G boundary as per the state of IORESOURCE_ABOVE_4G for the respective bridge resource. - * - * So, this function creates a single range of the entire resource window available for the - * bridge resource. Thus all downstream resources of the bridge for the given resource type get - * allocated space from the same window. If there is any downstream resource of the bridge which - * requests allocation above 4G, then all other downstream resources of the same type under the - * bridge get allocated above 4G. - */ -static void initialize_bridge_memranges(struct memranges *ranges, const struct resource *res, - unsigned long memrange_type) -{ - - memranges_init_empty(ranges, NULL, 0); - - if ((res == NULL) || is_resource_invalid(res)) - return; - - memranges_insert(ranges, res->base, res->limit - res->base + 1, memrange_type); + memranges_insert(ranges, res_base, res_limit - res_base + 1, memrange_type); } static void print_resource_ranges(const struct memranges *ranges) @@ -921,12 +834,10 @@ static void setup_resource_ranges(const struct device *dev, const struct resourc dev_path(dev), resource2str(res), res->base, res->size, res->align, res->gran, res->limit); - if (dev->path.type == DEVICE_PATH_DOMAIN) { - initialize_domain_memranges(ranges, res, type); + initialize_memranges(ranges, res, type); + + if (dev->path.type == DEVICE_PATH_DOMAIN) constrain_domain_resources(dev->link_list, ranges, type); - } else { - initialize_bridge_memranges(ranges, res, type); - } print_resource_ranges(ranges); } @@ -1032,25 +943,12 @@ static void allocate_domain_resources(const struct device *domain) * Domain does not distinguish between mem and prefmem resources. Thus, the resource * allocation at domain level considers mem and prefmem together when finding the best * fit based on the biggest resource requirement. - * - * However, resource requests for allocation above 4G boundary need to be handled - * separately if the domain resource window crosses this boundary. There is a single - * window for resource of type IORESOURCE_MEM. When creating memranges, this resource - * is split into two separate ranges -- one for the window below 4G boundary and other - * for the window above 4G boundary (with IORESOURCE_ABOVE_4G flag set). Thus, when - * allocating child resources, requests for below and above the 4G boundary are handled - * separately by setting the type_mask and type_match to allocate_child_resources() - * accordingly. */ res = find_domain_resource(domain, IORESOURCE_MEM); if (res) { setup_resource_ranges(domain, res, IORESOURCE_MEM, &ranges); - allocate_child_resources(domain->link_list, &ranges, - IORESOURCE_TYPE_MASK | IORESOURCE_ABOVE_4G, + allocate_child_resources(domain->link_list, &ranges, IORESOURCE_TYPE_MASK, IORESOURCE_MEM); - allocate_child_resources(domain->link_list, &ranges, - IORESOURCE_TYPE_MASK | IORESOURCE_ABOVE_4G, - IORESOURCE_MEM | IORESOURCE_ABOVE_4G); cleanup_resource_ranges(domain, &ranges, res); } |