diff options
author | Stefan Reinauer <stepan@coresystems.de> | 2007-09-13 13:47:02 +0000 |
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committer | Stefan Reinauer <stepan@openbios.org> | 2007-09-13 13:47:02 +0000 |
commit | 741e1e658f060435cfd5505f96cab55045a889d5 (patch) | |
tree | b5683dcb30ffaa9e05ea6ed5202c0d9aa096908c /src/northbridge | |
parent | dde1d709a4c2fe116d26fd9ca41205f615eb6865 (diff) |
I still don't understand a word, but I tried to improve the documentation. (trivial)
Please fix this if you can.
Signed-off-by: Stefan Reinauer <stepan@coresystems.de>
Acked-by: Stefan Reinauer <stepan@coresystems.de>
git-svn-id: svn://svn.coreboot.org/coreboot/trunk@2774 2b7e53f0-3cfb-0310-b3e9-8179ed1497e1
Diffstat (limited to 'src/northbridge')
-rw-r--r-- | src/northbridge/amd/amdk8/get_sblk_pci1234.c | 242 |
1 files changed, 144 insertions, 98 deletions
diff --git a/src/northbridge/amd/amdk8/get_sblk_pci1234.c b/src/northbridge/amd/amdk8/get_sblk_pci1234.c index 5c15c1e462..fbc08ea18a 100644 --- a/src/northbridge/amd/amdk8/get_sblk_pci1234.c +++ b/src/northbridge/amd/amdk8/get_sblk_pci1234.c @@ -29,9 +29,11 @@ restrictions as set forth in FAR 52.227-14 and DFAR 252.227-7013, et seq., or its successor. Use of the Materials by the Government constitutes acknowledgement of AMD's proprietary rights in them. ============================================================================*/ -// 2005.9 serengeti support -// by yhlu -// 2005.9 yhlu modify that to more dynamic for AMD Opteron Based MB +/* Copyright 2007 coresystems GmbH */ + +// 2005.9 yhlu serengeti support +// 2005.9 yhlu modify that to more dynamic for AMD Opteron Based MB +// 2007.9 stepan improve code documentation #include <console/console.h> #include <device/pci.h> @@ -79,88 +81,121 @@ unsigned node_link_to_bus(unsigned node, unsigned link) #endif -/* why we need pci1234 array - final result for pci1234 will be - pci1234[0] will record sblink and bus range - pci1234[i] will record ht chain i. - it will keep the sequence when some ht io card is not installed. - - for Tyan S2885 the linxbios_ram will put 8151 chain (link 0) to 0xE0 reg, and 8131/8111 on 0xe4 reg, So we need to make sure the sb link - will always on pci1234[0] - for multi ht-io cards, if you don't install htio1, and only installed htio2, htio3, the htio will be on 0xe4, and 0xe8. - but we want to leave pci1234[1] to htio1 (even it is disabled) , and let htio2 and htio3 still use pci1234[2] and pci1234[3] - So we keep the sequence. ---- you need to preset the pci1234[1], pci1234[2], pci1234[3] for this purpose - for example you need set - unsigned pci1234[] = { - 0x0000ff0, - 0x0000f10, // HT IO 1 card always on node 1 - 0x0000f20, // HT IO 2 card always on node 2 - 0x0000f30 // HT IO 3 card always on node 3 - }; - - for 2p+htio(n1)+htio(n0_1)+htio(n1_1),2p+htio(n1)+2p+htio(n2)+htio(n3) : need pci1234[6] - unsigned pci1234[] = { - 0x0000ff0, - 0x0000010, // HT IO 1 card always on node 1 - 0x0000f00, // HT IO 2 card always on node 0 - 0x0000110, // HT IO 3 card always on node 1 - 0x0000f20, // HT IO 4 card always on node 2 - 0x0000f30 // HT IO 5 card always on node 3 - }; - - for 4p+htio(n1)+htio(n2)+htio(n3),4p+htio(n1)+4p+htio(n6)+htio(n7) : need pci1234[6] - unsigned pci1234[] = { - 0x0000ff0, - 0x0000f10, // HT IO 1 card always on node 1 - 0x0000f20, // HT IO 2 card always on node 2 - 0x0000f30, // HT IO 3 card always on node 3 - 0x0000f60, // HT IO 4 card always on node 6 - 0x0000f70 // HT IO 5 card always on node 7 - }; - - - for 2p+htio(n1)+htio(n0_1)+htio(n1_1), 2p+htio(n1)+2p+htio(n2)+htio(n3), 2p+htio(n1)+4p+htio(n4)+htio(n5), need pci1234[8] - unsigned pci1234[] = { - 0x0000ff0, - 0x0000010, // HT IO 1 card always on node 1 - 0x0000f00, // HT IO 2 card always on node 0 - 0x0000110, // HT IO 3 card always on node 1 - 0x0000f20, // HT IO 4 card always on node 2 - 0x0000f30 // HT IO 5 card always on node 3 - 0x0000f40, // HT IO 6 card always on node 4 - 0x0000f50 // HT IO 7 card always on node 5 - }; - - - for 4p+htio(n1)+htio(n2)+htio(n3), 4p+htio(n1)+2p+htio(n4)+htio(n5), 4p+htio(n1)+4p+htio(n6)+htio(n7), need pci1234[8] - unsigned pci1234[] = { - 0x0000ff0, - 0x0000f10, // HT IO 1 card always on node 1 - 0x0000f20, // HT IO 2 card always on node 2 - 0x0000f30, // HT IO 3 card always on node 3 - 0x0000f40, // HT IO 4 card always on node 4 - 0x0000f50 // HT IO 5 card always on node 5 - 0x0000f60, // HT IO 6 card always on node 6 - 0x0000f70 // HT IO 7 card always on node 7 - }; - - - So Max HC_POSSIBLE_NUM is 8 - - 1n: 3 - 2n: 2x2 - 1 - 4n: 1x4 - 2 - 6n: 2 - 8n: 2 - Total: 12 - - just put all the possible ht node/link to the list tp pci1234[] in get_bus_conf.c on MB dir - - Also don't forget to increase the ACPI_SSDTX_NUM etc if you have too much SSDT - - How about co-processor on socket 1 on 2 way system. or socket 2, and socket3 on 4 way system....? treat that as one hc too! - -*/ +/** + * Why we need the pci1234[] array + * + * It will keep the sequence of HT devices in the HT link registers even when a + * given HT I/O card is not installed. + * + * The final result for pci1234[] will be + * + * pci1234[0] will record the south bridge link and bus range + * pci1234[i] will record HT chain i. + * + * For example, on the Tyan S2885 linxbios_ram will put the AMD8151 chain (HT + * link 0) into the register 0xE0, and the AMD8131/8111 HT chain into the + * register 0xE4. + * + * So we need to make sure that the south bridge link will always be on + * pci1234[0]. + * + * Imagine a scenario with multiple HT I/O cards, where you don't install HT I/O 1, + * but you only install HT I/O 2 and HT I/O 3. The HT I/Os will end up in registers + * 0xE4 and 0xE8. + * + * But we want to leave pci1234[1] to HT I/O 1 (even though it is disabled), + * and let HT I/O 2 and HT I/O 3 still use pci1234[2] and pci1234[3]. + * + * So we keep the sequence. You need to preset the pci1234[1], pci1234[2], + * pci1234[3] for this purpose. + * + * For this example you need to set + * + * unsigned pci1234[] = { + * 0x0000ff0, + * 0x0000f10, // HT IO 1 card always on node 1 + * 0x0000f20, // HT IO 2 card always on node 2 + * 0x0000f30 // HT IO 3 card always on node 3 + * }; + * + * For 2P + htio(n1) + htio(n0_1) + htio(n1_1), 2P + htio(n1) + 2P + htio(n2) + htio(n3): + * You need an array pci1234[6]: + * + * unsigned pci1234[] = { + * 0x0000ff0, + * 0x0000010, // HT IO 1 card always on node 1 + * 0x0000f00, // HT IO 2 card always on node 0 + * 0x0000110, // HT IO 3 card always on node 1 + * 0x0000f20, // HT IO 4 card always on node 2 + * 0x0000f30 // HT IO 5 card always on node 3 + * }; + * + * + * For 4p+htio(n1)+htio(n2)+htio(n3),4p+htio(n1)+4p+htio(n6)+htio(n7): + * You need an array pci1234[6]: + * + * unsigned pci1234[] = { + * 0x0000ff0, + * 0x0000f10, // HT IO 1 card always on node 1 + * 0x0000f20, // HT IO 2 card always on node 2 + * 0x0000f30, // HT IO 3 card always on node 3 + * 0x0000f60, // HT IO 4 card always on node 6 + * 0x0000f70 // HT IO 5 card always on node 7 + * }; + * + * + * For 2p + htio(n1) + htio(n0_1) + htio(n1_1), 2P + htio(n1) + 2P + + * htio(n2) + htio(n3), 2P + htio(n1) + 4P + htio(n4) + htio(n5), + * you need an array pci1234[8]: + * + * unsigned pci1234[] = { + * 0x0000ff0, + * 0x0000010, // HT IO 1 card always on node 1 + * 0x0000f00, // HT IO 2 card always on node 0 + * 0x0000110, // HT IO 3 card always on node 1 + * 0x0000f20, // HT IO 4 card always on node 2 + * 0x0000f30 // HT IO 5 card always on node 3 + * 0x0000f40, // HT IO 6 card always on node 4 + * 0x0000f50 // HT IO 7 card always on node 5 + * }; + * + * + * For 4P + htio(n1) + htio(n2) + htio(n3), 4p + htio(n1) + 2p + htio(n4) + + * htio(n5), 4p + htio(n1) + 4p + htio(n6) + htio(n7), + * you need an array pci1234[8]: + * + * unsigned pci1234[] = { + * 0x0000ff0, + * 0x0000f10, // HT IO 1 card always on node 1 + * 0x0000f20, // HT IO 2 card always on node 2 + * 0x0000f30, // HT IO 3 card always on node 3 + * 0x0000f40, // HT IO 4 card always on node 4 + * 0x0000f50 // HT IO 5 card always on node 5 + * 0x0000f60, // HT IO 6 card always on node 6 + * 0x0000f70 // HT IO 7 card always on node 7 + * }; + * + * + * So the maximum posible value of HC_POSSIBLE_NUM is 8. (FIXME Why?) + * + * 1n: 3 + * 2n: 2x2 - 1 + * 4n: 1x4 - 2 + * 6n: 2 + * 8n: 2 + * Total: 12 + * + * Just put all the possible HT Node/link to the list tp pci1234[] in + * src/mainboard/<vendor>/<mainboard>get_bus_conf.c + * + * Also don't forget to increase the ACPI_SSDTX_NUM etc (FIXME what else) if + * you have too many SSDTs + * + * What about co-processor in socket 1 on a 2 way system? Or socket 2 and + * socket 3 on a 4 way system? Treat that as an HC, too! + * + */ + void get_sblk_pci1234(void) { @@ -178,27 +213,37 @@ void get_sblk_pci1234(void) sysconf.pci1234[0] = dword; sysconf.hcid[0] = 0; - /*about hardcode numbering for HT_IO support - set the node_id and link_id that could have ht chain in the one array, - then check if is enabled.... then update final value - */ - //here we need to set hcdn - //1. hypertransport.c need to record hcdn_reg together with 0xe0, 0xe4, 0xe8, 0xec when are set - //2. so at the same time we need update hsdn with hcdn_reg here + /* About hardcoded numbering for HT_IO support + * + * Set the node_id and link_id that could have a HT chain in the one + * array, (FIXME: which one?) then check if is enabled. Then update + * final value + */ + + /* Here we need to set hcdn + * + * 1. hypertransport.c needs to record hcdn_reg together with 0xe0, + * 0xe4, 0xe8, 0xec when are set (FIXME: when WHAT is set?) + * + * 2. So at the same time we need update hcdn with hcdn_reg here. FIXME: Why? + */ dev = dev_find_slot(0, PCI_DEVFN(0x18, 1)); + for(j=0;j<4;j++) { uint32_t dwordx; - dwordx = pci_read_config32(dev, 0xe0+j*4); - dwordx &=0xffff0ff1; //keep bus num, node_id, link_num, enable bits - if((dwordx & 0xff1) == dword) { //SBLINK + dwordx = pci_read_config32(dev, 0xe0 + j*4); + dwordx &=0xffff0ff1; /* keep bus num, node_id, link_num, enable bits */ + if((dwordx & 0xff1) == dword) { /* SBLINK */ sysconf.pci1234[0] = dwordx; sysconf.hcdn[0] = sysconf.hcdn_reg[j]; continue; } + if((dwordx & 1) == 1) { - // We need to find out the number of HC - // for exact match + /* We need to find out the number of HC + * for exact match + */ for(i=1;i<sysconf.hc_possible_num;i++) { if((dwordx & 0xff0) == (sysconf.pci1234[i] & 0xff0)) { sysconf.pci1234[i] = dwordx; @@ -206,7 +251,8 @@ void get_sblk_pci1234(void) break; } } - // for 0xff0 match or same node + + /* For 0xff0 match or same node */ for(i=1;i<sysconf.hc_possible_num;i++) { if((dwordx & 0xff0) == (dwordx & sysconf.pci1234[i] & 0xff0)) { sysconf.pci1234[i] = dwordx; |